Installing and Configuring the TeamCity Server
This page covers a new TeamCity server installation. For upgrade instructions, refer to Upgrade.
To install a TeamCity server, perform the following:
Download the distribution.
Review TeamCity Licensing Policy.
Install and configure the TeamCity server per instructions below.
Installing TeamCity Server
After you have selected one of the TeamCity installation options, proceed with corresponding installation instructions:
Windows .exe distribution – the executable which provides the installation wizard for Windows platforms and allows installing the server as a Windows service.
.tar.gz distribution – the archive with a "portable" version suitable for all platforms.
Docker image – check the instructions at the image page.
.war distribution – for experienced users who want to run TeamCity in a separately installed Web application server. Consider using
.waris not recommended to use unless really required (please let us know the reasons).
Compared to the
.war distribution, the
Include a Tomcat version which TeamCity is tested with, so it is known to be a working combination. This might not be the case with an external Tomcat.
Define additional JRE options which are usually recommended for running the server.
Have the teamcity-server startup script which provides several convenience options (for example, separate environment variable for memory settings) and configures TeamCity correctly (for example,
At least under Windows, provide better error reporting for some cases (like a missing Java installation).
Under Windows, allow running TeamCity as a service with the ability to use the same configuration as if run from the console.
Come bundled with a build agent distribution and single startup script which allows for easy TeamCity server evaluation with one agent.
Come bundled with the devPackage for TeamCity plugin development.
May provide more convenience features in the future.
If you cannot access the TeamCity web UI after successful installation, please refer to the Troubleshooting TeamCity Installation section.
The build server and one build agent will be installed by default for Windows, Linux or macOS. If you need more build agents, refer to the Installing Additional Build Agents section.
Installing TeamCity via Windows installation package
For the Windows platform, run the executable file and follow the installation instructions. You have options to install the TeamCity web server and one build agent that can be run as a Windows service.
If you opted to install the services, use the standard Windows
Services applet to manage the service. Otherwise, use standard scripts.
If you did not change the default port (80) during the installation, the TeamCity web UI can be accessed via
http://localhost/ in a web browser running on the same machine where the server is installed. Note that port 80 can be used by other programs (for example, Skype, or other web servers like IIS). In this case you can specify another port during the installation and use
http://localhost:<port>/ address in the browser.
If you want to edit the TeamCity server's service parameters, memory settings or system properties after the installation, refer to the Configuring TeamCity Server Startup Properties page.
Installing TeamCity bundled with Tomcat servlet container (Linux, macOS, Windows)
Review software requirements before the installation.
TeamCity<version number>.tar.gz archive (for example, using the
tar xfz TeamCity<version number>.tar.gz command under Linux, or the WinZip, WinRar or similar utility under Windows). Use GNU tar to unpack (for example, Solaris 10 tar is reported to truncate too long file names and may cause a
ClassNotFoundException when using the server after such unpacking. Consider getting GNU tar at Solaris packages or using the
gtar xfz command).
Ensure you have JRE or JDK installed and the
JAVA_HOME environment variable is pointing to the Java installation directory. Java JDK 1.8.0_16 or later is required.
Installing TeamCity into Existing J2EE Container
It is not recommended to use the
.war distribution. Use the TeamCity
.tar.gz distribution (bundled with Tomcat web server) instead. If you have important reasons to deploy TeamCity into existing web server and want to use the
.war distribution, please let us know the reasons.
See Supported Platforms and Environments for J2EE container requirements.
Make sure your web application server is stopped.
Copy the downloaded
TeamCity<version number>.warfile into the web applications directory of your J2EE container under the
TeamCity.warname (the name of the file is generally used as a part of the URL) or deploy the
.warfollowing the documentation of the web server. Make sure there is no other version of TeamCity deployed (for example, do not preserve the old TeamCity web application directory under the web server applications directory).
Ensure the TeamCity web application gets sufficient amount of memory. Increase the memory accordingly if you have other web applications running in the same JVM.
If you are deploying TeamCity to the Tomcat container, add the
useBodyEncodingForURI="true"attribute to the main
Connectortag for the server in the
If you are deploying TeamCity to Jetty container version > 7.5.5 (including 8.x.x), make sure the system property
org.apache.jasper.compiler.disablejsr199is set to
Ensure that the servlet container is configured to unpack the deployed war files. Though for most servlet containers it is the default behavior, for some it is not (for example, Jetty version > 7.0.2) and should be explicitly configured. TeamCity is not able to work from a packed
.war: if started this way, there will be a note on this the logs and UI.
Configure the appropriate TeamCity Data Directory to be used by TeamCity. Note that it is recommended to start with an empty TeamCity Data Directory. After completing the installation and performing the first TeamCity server start, the required data (for example, database settings file) can be moved to the directory.
Check/configure the TeamCity logging properties by specifying the
Restart the server or deploy the application via the servlet container administration interface and access
TeamCityis the name of the
Unattended TeamCity server installation
For automated server installation, use the
Typically, you will need to unpack it and make the script perform the steps noted in the Configuring Server for Production Use section.
If you want to get a preconfigured server right away, put files from a previously configured server into the Data Directory. For each new server you will need to ensure it points to a new database (configured in
<Data Directory>\config\database.properties) and change
<Data Directory>\config\main-config.xml file not to have the
uuid attribute in the root XML element (so new one can be generated) and setting appropriate value for "rootURL" attribute.
Using another Version of Tomcat
To use another version of the Tomcat web server instead of the one bundled in the
.exe distributions), you can either use the .war TeamCity distribution (not recommended) or perform the Tomcat upgrade/patch for TeamCity installed from the
For the latter, you might want to:
Backup the current TeamCity home.
Delete/move out the directories from the TeamCity home which are also present in the Tomcat distribution.
Unpack the Tomcat distribution into the TeamCity home directory.
- Copy TeamCity-specific files from the previously backed-up/moved directories to the TeamCity home. Namely:
binwhich are not present in the Tomcat distribution
review differences between the default Tomcat
confdirectory and one from TeamCity, update Tomcat files with TeamCity-specific settings (teamcity-* files, and portions of
delete the default Tomcat
webapps/ROOTdirectory and replace it with the one provided by TeamCity
Starting TeamCity server
Under Windows, if TeamCity server is installed as a Windows service, follow the usual procedure of starting and stopping services.
If TeamCity is installed using the
.tar.gz distributions, the TeamCity server can be started and stopped by the
teamcity-server scripts provided in the <TeamCity Home>/bin directory. The script accepts
run (run in the same console),
start (start new detached process and exit from the script), and
(evaluation only) To start/stop the TeamCity server and one default agent at the same time, use the
runAllscript, for example:
runAll.bat startto start the server and the default agent
runAll.bat stopto stop the server and the default agent
To start/stop the TeamCity server only, use the
teamcity-serverscripts and pass the required parameters. Start the script without parameters to see the usage instructions. The
teamcity-serverscripts support the following options for the
stop n– sends the stop command to the TeamCity server and waits up to n seconds for the process to end.
stop n -force– sends the stop command to the TeamCity server, waits up to n seconds for the process to end, and terminates the server process if it did not stop.
If you need to pass special properties to the server, refer to Configuring TeamCity Server Startup Properties.
If TeamCity is installed into an existing web server (
.war distribution), start the server according to its documentation. Make sure you configure TeamCity-specific logging-related properties and pass suitable memory options.
Autostart TeamCity server on macOS
Starting up TeamCity server on macOS is quite similar to starting Tomcat on macOS.
Install TeamCity and make sure it works if started from the command line with
bin/teamcity-server.sh start. We'll assume that TeamCity is installed in the /Library/TeamCity folder
/Library/LaunchDaemons/jetbrains.teamcity.server.plistfile with the following content:<?xml version="1.0" encoding="UTF-8"?> <!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd"> <plist version="1.0"> <dict> <key>WorkingDirectory</key> <string>/Library/TeamCity</string> <key>Debug</key> <false/> <key>Label</key> <string>jetbrains.teamcity.server</string> <key>OnDemand</key> <false/> <key>KeepAlive</key> <true/> <key>ProgramArguments</key> <array> <string>/bin/bash</string> <string>--login</string> <string>-c</string> <string>bin/teamcity\-server.sh run</string> </array> <key>RunAtLoad</key> <true/> <key>StandardErrorPath</key> <string>logs/launchd.err.log</string> <key>StandardOutPath</key> <string>logs/launchd.out.log</string> </dict> </plist>
Test your file by running this command:launchctl load /Library/LaunchDaemons/jetbrains.teamcity.server.plist
This command should start the TeamCity server (you can see this from
logs/teamcity-server.logand in your browser).
If you don't want TeamCity to start under the root permissions, specify the UserName key in the
.plistfile, for example:<key>UserName</key> <string>teamcity_user</string>
The TeamCity server will now start automatically when the machine starts. To configure automatic start of a TeamCity Build Agent, see the dedicated section.
Troubleshooting TeamCity Installation
Upon successful installation, the TeamCity server web UI can be accessed via a web browser. The default address that can be used to access TeamCity from the same machine depends on the installation package and installation options. (Port 80 is used for Windows installation, unless another port is specified, port 8111 for
.tar.gz installation unless not changed in the server configuration).
If the TeamCity web UI cannot be accessed, check the following:
the "TeamCity Server" service is running (if you installed TeamCity as a Windows service)
the TeamCity server process (Tomcat) is running (it is a
javaprocess run in the <TeamCity Home>/bin directory)
the console output if you run the server from a console
teamcity-server.logand other files in the <TeamCity Home>\logs directory for error messages
One of the most common issues with the server installation is using a port that is already used by another program. See below on changing the default port.
Changing Server Port
If you use the TeamCity server Windows installer, you can set the port to be used during installation.
Use the following instructions to change the port if you use the
.tar.gz distribution. If another application uses the same port as the TeamCity server, the TeamCity server (Tomcat server) won't start and this will be identified by "Address already in use" errors in the server logs or server console.
To change the server port, in the <TeamCity Home>/conf/server.xml file, change the port number in the not commented
<Connector> XML node (here the port number is 8111):
To apply the changes, restart the server. If the server was working with the old port previously, you would need to change the port in all the stored URLs of the server (browser bookmarks, agents'
serverUrl property, URL in user's IDEs,
Server URL setting on the Administration | Global Settings page).
If you run another Tomcat server on the same machine, you might need to also change other Tomcat server service ports (search for
port= in the
If you want to use the
https:// protocol, it should be enabled separately and the process is not specific to TeamCity, but rather for the web server used (Tomcat by default). See also Configure HTTPS for TeamCity Web UI.
Changing Server Context
By default, the TeamCity server is accessible under the root context of the server address (for example,
http://localhost:8111/ ). To make it available under a nested path instead (for example,
http://localhost:8111/teamcity/ ), you need to:
The TeamCity server is a JVM web application that runs in Tomcat application server. TeamCity server requires a Java SE JRE installation to run. Compatible JRE is bundled in TeamCity Windows installer but needs to be installed separately when using other distributions.
It is recommended to run TeamCity server with the latest Java 11 x64. The recommended Java distribution is Amazon Corretto.
Supported Java versions are OpenJDK and Oracle Java 8 (8u16 or later) and 11 (32 or 64 bit).
If you have configured any native libraries for use with TeamCity (like
.dll for using the Integrated Security option of the Microsoft SQL database), you need to update the libraries to match the JVM x86/x64 platform.
TeamCity selects the Java to run the server process as follows:
By default, if your TeamCity installation has a bundled JRE (the <TeamCity Home>\jre directory exists), it will be used to run the TeamCity server process. To use a different JRE, specify its path via the
If there is no <TeamCity Home>\jre directory present, TeamCity looks for the
JAVA_HOMEenvironment variable pointing to the installation directory of JRE or JVM (Java SDK) respectively. If both variables are declared, JRE will be used.
The necessary steps to update the Java installation depend on the distribution used.
If your TeamCity installation has a bundled JRE (there is the <TeamCity Home>\jre directory), update it by installing a newer JRE per installation instructions and copying the content of the resulting directory to replace the content of the existing <TeamCity Home>\jre directory.
If you also run a TeamCity agent from the <TeamCity Home>\buildAgent directory, install JDK (Java SDK) installation instead of JRE and copy content of JDK installation directory into <TeamCity Home>\jre.
If you use a different Java version, specified via an environment variable (
JAVA_HOME), make sure it is available for the process launching the TeamCity server (it is recommended to set a global OS environment variable and restart the system). The variable should point to the home directory of the installed JRE or JVM (Java SDK) respectively.
If you use the
.wardistribution, Java update depends on the application server used. Refer to the manual of your application server.
Using 64 bit Java to Run TeamCity Server
TeamCity server is bundled with the 64-bit JVM but can run under both the 32- and 64-bit Java.
If you need to update 32-bit Java to the 64-bit JVM, note that the memory usage is almost doubled when switching from the 32- to 64-bit JVM, so make sure you specify at least twice as much memory as for 32-bit JVM, see Setting Up Memory settings for TeamCity Server.
To update to the 64-bit Java, either use the bundled version of Java or:
Setting Up Memory settings for TeamCity Server
TeamCity server has the main process which can also launch child processes. Child processes use available memory on the machine, this section covers the memory settings of the main TeamCity server process only as it requires special configuration.
As a JVM application, the TeamCity main server process only utilizes memory devoted to the JVM. The required memory may depend on the JVM used (32- or 64-bit). The memory used by JVM usually consists of: heap (configured via
-Xmx) and metaspace (limited by the amount of available native memory), internal JVM (usually tens of Mb), and OS-dependent memory features like memory-mapped files. TeamCity mostly depends on the heap memory, and this setting can be configured for the TeamCity application manually by passing the
-Xmx (heap space) option to the JVM running the TeamCity server.
Once you start using TeamCity for production purposes or if you want to load the server during evaluation, you should manually set the appropriate memory settings for the TeamCity server.
To change the memory settings, refer to Configuring TeamCity Server Startup Properties, or to the documentation of your application server, if you run TeamCity using the
Generally this means setting
TEAMCITY_SERVER_MEM_OPTS environment variable to the value like
We recommend removing the
-XX:MaxPermSize JVM option from the
TEAMCITY_SERVER_MEM_OPTS environment variable, if previously configured, since it is ignored in Java 8.
If slowness, OutOfMemory errors occur, or you consistently see a memory-related warning in the TeamCity UI, increase the setting to the next level.
minimum setting: for 32-bit Java
-Xmx750m, for 64-bit Java (bundled)
recommended setting for medium server use: for 32-bit Java
-Xmx1024m. Greater settings with the 32-bit Java can cause an
OutOfMemoryErrorwith "Native memory allocation (malloc) failed" JVM crashes or "Unable to create new native thread" messages. For 64-bit Java
recommended setting for large server use (64-bit Java should be used):
-Xmx4g -XX:ReservedCodeCacheSize=450m. These settings should be suitable for an installation with up to two hundreds of agents and thousands of build configurations. Custom plugins installed might require increasing the value defined via the
maximum settings for large-scale server use (64-bit Java should be used):
-Xmx10g -XX:ReservedCodeCacheSize=640m. Greater values can be used for larger TeamCity installations. However, generally it is not recommended to use values greater than
10gwithout consulting TeamCity support.
the 32-bit JVM can reliably work with up to 1Gb heap memory (
Xmx1024m). (This can be increased to
-Xmx1200m, but JVM under Windows might crash occasionally with this setting.) If more memory is necessary, the 64-bit JVM should be used with not less than 2Gb assigned (
-Xmx2048m). Unless the TeamCity server runs with more than 100 agents or serves very active builds / thousands of users, it's unlikely that you will need to dedicate more than 4Gb of memory to the TeamCity process.
A rule of thumb is that the 64-bit JVM should be assigned twice as much memory as the 32-bit for the same application. If you switch to the 64-bit JVM (for example, on upgrading to TeamCity 2020.1 via the Windows installer), make sure you adjust the memory setting (
-Xmx) accordingly. It does not make sense to switch to 64-bit if you dedicate less than the double amount of memory to the application.
Large TeamCity installations might benefit from fine-tuning of the memory settings. The amount of memory dedicated to TeamCity server JVM should not regularly exceed 60% of the total available physical memory on the machine (to allow for nested process and OS-level caches usage). Also, with heaps (
–Xmx) set to more than 8Gb, if the machine has many CPU cores (for example, more than 8) and current CPU usage is below 60%, enabling G1 JVM garbage collector via the
-XX:+UseG1GCJVM option might reduce the length of stop-the-world GC pauses.
The recommended approach is to start with initial settings and monitor for the percentage of used memory using the Administration | Diagnostics page. If the server uses more than 80% of memory consistently without drops for tens of minutes, that is probably a sign to increase the
-Xmx memory value by another 20%.
Configuring TeamCity Server
Configuring TeamCity Data Directory
The default placement of the TeamCity Data Directory can be changed. See TeamCity Data Directory for details.
Editing Server Configuration
After successful server start, any TeamCity page request will redirect to prompt for the server administrator username and password. Make sure no one can access the server pages until the administrator account is setup.
After administration account setup you may begin to create Project and Build Configurations in the TeamCity server. You may also want to configure the following settings in the Server Administration section:
Email server address and settings
Jabber server address and settings
Configuring Server for Production Use
Out-of-the-box TeamCity server installation is suitable for evaluation purposes. For production use you will need to perform additional configuration which typically includes:
Make sure server URL, email and (optionally) Jabber server settings are specified and are correct.
Configuring the server process for OS-dependent autostart on machine reboot.
Using reliable storage for TeamCity Data Directory.
Configuring recommended memory settings, use "maximum settings" for active or growing servers.
Planning for regular backups.
Planning for regular upgrades to the latest TeamCity releases.
(since TeamCity 10.0.3) Consider adding the
teamcity.installation.completed=trueline into the <TeamCity Data Directory>\conf\teamcity-startup.properties file – this will prevent the server from creating an administrator user if no such user is found.