Getting Started Guide for Building ClickHouse
ClickHouse can be built on Linux, FreeBSD and macOS. If you use Windows, you can still build ClickHouse in a virtual machine running Linux, e.g. VirtualBox with Ubuntu.
ClickHouse requires a 64-bit system to compile and run, 32-bit systems do not work.
Creating a Repository on GitHub
To start developing for ClickHouse you will need a GitHub account. Please also generate an SSH key locally (if you don't have one already) and upload the public key to GitHub as this is a prerequisite for contributing patches.
Next, create a fork of the ClickHouse repository in your personal account by clicking the "fork" button in the upper right corner.
To contribute, e.g. a fix for an issue or a feature, please commit your changes to a branch in your fork, then create a "pull request" with the changes to the main repository.
For working with Git repositories, please install git
. In Ubuntu run these commands in a terminal:
sudo apt update
sudo apt install git
A cheatsheet for using Git can be found here. The detailed manual for Git is here.
Cloning a Repository to Your Development Machine
First, download the source files to your working machine, i.e. clone the repository:
git clone git@github.com:your_github_username/ClickHouse.git # replace placeholder with your GitHub user name
cd ClickHouse
This command creates a directory ClickHouse/
containing the source code of ClickHouse. If you specify a custom checkout directory after the URL, but it is important that this path does not contain whitespaces as it may lead to problems with the build later on.
The ClickHouse repository uses Git submodules, i.e. references to external repositories (usually 3rd party libraries used by ClickHouse). These are not checked out by default. To do so, you can either
run
git clone
with option--recurse-submodules
,if
git clone
did not check out submodules, rungit submodule update --init --jobs <N>
(e.g.<N> = 12
to parallelize the checkout) to achieve the same as the previous alternative, orif
git clone
did not check out submodules, and you like to use sparse and shallow submodule checkout to omit unneeded files and history in submodules to save space (ca. 5 GB instead of ca. 15 GB), run./contrib/update-submodules.sh
. Not really recommended as it generally makes working with submodules less convenient and slower.
You can check the Git status with the command: git submodule status
.
If you get the following error message
Permission denied (publickey).
fatal: Could not read from remote repository.
Please make sure you have the correct access rights
and the repository exists.
it generally means that the SSH keys for connecting to GitHub are missing. These keys are normally located in ~/.ssh
. For SSH keys to be accepted you need to upload them in GitHub's settings.
You can also clone the repository via https protocol:
git clone --recursive --shallow-submodules https://github.com/ClickHouse/ClickHouse.git
This, however, will not let you send your changes to the server. You can still use it temporarily and add the SSH keys later replacing the remote address of the repository with git remote
command.
You can also add original ClickHouse repo address to your local repository to pull updates from there:
git remote add upstream git@github.com:ClickHouse/ClickHouse.git
After successfully running this command you will be able to pull updates from the main ClickHouse repo by running git pull upstream master
.
Instructions below assume you are building on Linux. If you are cross-compiling or building on macOS, please also check for operating system and architecture specific guides, such as building on macOS for macOS, on Linux for macOS, on Linux for Linux/RISC-V and so on.
Build System
ClickHouse uses CMake and Ninja for building.
CMake - a meta-build system that can generate Ninja files (build tasks).
Ninja - a smaller build system with a focus on the speed used to execute those cmake generated tasks.
ccache - a compiler cache. It speeds up recompilation by caching previous compilations and detecting when the same compilation is being done again.
As an alternative for ccache a distributed sccache could be used. To prefer it, -DCOMPILER_CACHE=sccache
CMake flag should be used.
To install on Ubuntu, Debian or Mint run sudo apt install cmake ninja-build ccache
.
On CentOS, RedHat run sudo yum install cmake ninja-build ccache
.
If you use Arch or Gentoo, you probably know it yourself how to install CMake and others.
C++ Compiler
Compilers Clang starting from version 16 is supported for building ClickHouse.
Clang should be used instead of gcc. Though, our continuous integration (CI) platform runs checks for about a dozen of build combinations.
On Ubuntu/Debian you can use the automatic installation script (check official webpage)
sudo bash -c "$(wget -O - https://apt.llvm.org/llvm.sh)"
The Building Process
Now that you are ready to build ClickHouse we recommend you to create a separate directory build
inside ClickHouse
that will contain all of the build artefacts:
mkdir build
cd build
You can have several different directories (build_release, build_debug, etc.) for different types of build.
While inside the build
directory, configure your build by running CMake. Before the first run, you need to define environment variables that specify compiler.
export CC=clang CXX=clang++
cmake ..
If you installed clang using the automatic installation script above, also specify the version of clang installed in the first command, e.g. export CC=clang-17 CXX=clang++-17
. The clang version will be in the script output.
The CC
variable specifies the compiler for C (short for C Compiler), and CXX
variable instructs which C++ compiler is to be used for building.
For a faster build, you can resort to the debug
build type - a build with no optimizations. For that supply the following parameter -D CMAKE_BUILD_TYPE=Debug
:
cmake -D CMAKE_BUILD_TYPE=Debug ..
You can change the type of build by running this command in the build
directory.
Run ninja to build:
ninja clickhouse-server clickhouse-client
Only the required binaries are going to be built in this example.
If you require to build all the binaries (utilities and tests), you should run ninja with no parameters:
ninja
Full build requires about 30GB of free disk space or 15GB to build the main binaries.
When a large amount of RAM is available on build machine you should limit the number of build tasks run in parallel with -j
parameter:
ninja -j 1 clickhouse-server clickhouse-client
On machines with 4GB of RAM, it is recommended to specify 1, for 8GB of RAM -j 2
is recommended.
If you get the message: ninja: error: loading 'build.ninja': No such file or directory
, it means that generating a build configuration has failed, and you need to inspect the message above.
Upon the successful start of the building process, you’ll see the build progress - the number of processed tasks and the total number of tasks.
While building messages about LLVM library may show up. They affect nothing and are safe to be ignored.
Upon successful build you get an executable file ClickHouse/<build_dir>/programs/clickhouse
:
ls -l programs/clickhouse
Advanced Building Process
Minimal Build
If you are not interested in functionality provided by third-party libraries, you can further speed up the build using cmake
options
cmake -DENABLE_LIBRARIES=OFF
In case of problems with any of the development options, you are on your own!
Rust support
Rust requires internet connection, in case you don't have it, you can disable Rust support:
cmake -DENABLE_RUST=OFF
Running the Built Executable of ClickHouse
To run the server under the current user you need to navigate to ClickHouse/programs/server/
(located outside of build
) and run:
../../build/programs/clickhouse server
In this case, ClickHouse will use config files located in the current directory. You can run clickhouse server
from any directory specifying the path to a config file as a command-line parameter --config-file
.
To connect to ClickHouse with clickhouse-client in another terminal navigate to ClickHouse/build/programs/
and run ./clickhouse client
.
If you get Connection refused
message on macOS or FreeBSD, try specifying host address 127.0.0.1:
clickhouse client --host 127.0.0.1
You can replace the production version of ClickHouse binary installed in your system with your custom-built ClickHouse binary. To do that install ClickHouse on your machine following the instructions from the official website. Next, run the following:
sudo service clickhouse-server stop
sudo cp ClickHouse/build/programs/clickhouse /usr/bin/
sudo service clickhouse-server start
Note that clickhouse-client
, clickhouse-server
and others are symlinks to the commonly shared clickhouse
binary.
You can also run your custom-built ClickHouse binary with the config file from the ClickHouse package installed on your system:
sudo service clickhouse-server stop
sudo -u clickhouse ClickHouse/build/programs/clickhouse server --config-file /etc/clickhouse-server/config.xml
IDE (Integrated Development Environment)
CLion (recommended)
If you do not know which IDE to use, we recommend that you use CLion. CLion is commercial software, but it offers a 30 day free trial. It is also free of charge for students. CLion can be used on both Linux and macOS.
A few things to know when using CLion to develop ClickHouse:
- CLion creates a
build
path on its own and automatically selectsdebug
for the build type - It uses a version of CMake that is defined in CLion and not the one installed by you
- CLion will use
make
to run build tasks instead ofninja
(this is normal behavior)
Other alternatives
KDevelop and QTCreator are other great alternative IDEs for developing ClickHouse. While KDevelop is a great IDE, it is sometimes unstable. If KDevelop crashes when opening a project, you should click the “Stop All” button as soon as it has opened the list of project’s files. After doing so, KDevelop should be fine to work with.
Other IDEs you can use are Sublime Text, Visual Studio Code, or Kate (all of which are available on Linux). If you are using VS Code, we recommend using the clangd extension to replace IntelliSense as it is much more performant.
Writing Code
The description of ClickHouse architecture can be found here: https://clickhouse.com/docs/en/development/architecture/
The Code Style Guide: https://clickhouse.com/docs/en/development/style/
Adding third-party libraries: https://clickhouse.com/docs/en/development/contrib/#adding-third-party-libraries
Writing tests: https://clickhouse.com/docs/en/development/tests/
List of tasks: https://github.com/ClickHouse/ClickHouse/issues?q=is%3Aopen+is%3Aissue+label%3Ahacktoberfest
Test Data
Developing ClickHouse often requires loading realistic datasets. It is particularly important for performance testing. We have a specially prepared set of anonymized data of web analytics. It requires additionally some 3GB of free disk space. Note that this data is not required to accomplish most of the development tasks.
sudo apt install wget xz-utils
wget https://datasets.clickhouse.com/hits/tsv/hits_v1.tsv.xz
wget https://datasets.clickhouse.com/visits/tsv/visits_v1.tsv.xz
xz -v -d hits_v1.tsv.xz
xz -v -d visits_v1.tsv.xz
clickhouse-client
CREATE DATABASE IF NOT EXISTS test
CREATE TABLE test.hits ( WatchID UInt64, JavaEnable UInt8, Title String, GoodEvent Int16, EventTime DateTime, EventDate Date, CounterID UInt32, ClientIP UInt32, ClientIP6 FixedString(16), RegionID UInt32, UserID UInt64, CounterClass Int8, OS UInt8, UserAgent UInt8, URL String, Referer String, URLDomain String, RefererDomain String, Refresh UInt8, IsRobot UInt8, RefererCategories Array(UInt16), URLCategories Array(UInt16), URLRegions Array(UInt32), RefererRegions Array(UInt32), ResolutionWidth UInt16, ResolutionHeight UInt16, ResolutionDepth UInt8, FlashMajor UInt8, FlashMinor UInt8, FlashMinor2 String, NetMajor UInt8, NetMinor UInt8, UserAgentMajor UInt16, UserAgentMinor FixedString(2), CookieEnable UInt8, JavascriptEnable UInt8, IsMobile UInt8, MobilePhone UInt8, MobilePhoneModel String, Params String, IPNetworkID UInt32, TraficSourceID Int8, SearchEngineID UInt16, SearchPhrase String, AdvEngineID UInt8, IsArtifical UInt8, WindowClientWidth UInt16, WindowClientHeight UInt16, ClientTimeZone Int16, ClientEventTime DateTime, SilverlightVersion1 UInt8, SilverlightVersion2 UInt8, SilverlightVersion3 UInt32, SilverlightVersion4 UInt16, PageCharset String, CodeVersion UInt32, IsLink UInt8, IsDownload UInt8, IsNotBounce UInt8, FUniqID UInt64, HID UInt32, IsOldCounter UInt8, IsEvent UInt8, IsParameter UInt8, DontCountHits UInt8, WithHash UInt8, HitColor FixedString(1), UTCEventTime DateTime, Age UInt8, Sex UInt8, Income UInt8, Interests UInt16, Robotness UInt8, GeneralInterests Array(UInt16), RemoteIP UInt32, RemoteIP6 FixedString(16), WindowName Int32, OpenerName Int32, HistoryLength Int16, BrowserLanguage FixedString(2), BrowserCountry FixedString(2), SocialNetwork String, SocialAction String, HTTPError UInt16, SendTiming Int32, DNSTiming Int32, ConnectTiming Int32, ResponseStartTiming Int32, ResponseEndTiming Int32, FetchTiming Int32, RedirectTiming Int32, DOMInteractiveTiming Int32, DOMContentLoadedTiming Int32, DOMCompleteTiming Int32, LoadEventStartTiming Int32, LoadEventEndTiming Int32, NSToDOMContentLoadedTiming Int32, FirstPaintTiming Int32, RedirectCount Int8, SocialSourceNetworkID UInt8, SocialSourcePage String, ParamPrice Int64, ParamOrderID String, ParamCurrency FixedString(3), ParamCurrencyID UInt16, GoalsReached Array(UInt32), OpenstatServiceName String, OpenstatCampaignID String, OpenstatAdID String, OpenstatSourceID String, UTMSource String, UTMMedium String, UTMCampaign String, UTMContent String, UTMTerm String, FromTag String, HasGCLID UInt8, RefererHash UInt64, URLHash UInt64, CLID UInt32, YCLID UInt64, ShareService String, ShareURL String, ShareTitle String, `ParsedParams.Key1` Array(String), `ParsedParams.Key2` Array(String), `ParsedParams.Key3` Array(String), `ParsedParams.Key4` Array(String), `ParsedParams.Key5` Array(String), `ParsedParams.ValueDouble` Array(Float64), IslandID FixedString(16), RequestNum UInt32, RequestTry UInt8) ENGINE = MergeTree PARTITION BY toYYYYMM(EventDate) SAMPLE BY intHash32(UserID) ORDER BY (CounterID, EventDate, intHash32(UserID), EventTime);
CREATE TABLE test.visits ( CounterID UInt32, StartDate Date, Sign Int8, IsNew UInt8, VisitID UInt64, UserID UInt64, StartTime DateTime, Duration UInt32, UTCStartTime DateTime, PageViews Int32, Hits Int32, IsBounce UInt8, Referer String, StartURL String, RefererDomain String, StartURLDomain String, EndURL String, LinkURL String, IsDownload UInt8, TraficSourceID Int8, SearchEngineID UInt16, SearchPhrase String, AdvEngineID UInt8, PlaceID Int32, RefererCategories Array(UInt16), URLCategories Array(UInt16), URLRegions Array(UInt32), RefererRegions Array(UInt32), IsYandex UInt8, GoalReachesDepth Int32, GoalReachesURL Int32, GoalReachesAny Int32, SocialSourceNetworkID UInt8, SocialSourcePage String, MobilePhoneModel String, ClientEventTime DateTime, RegionID UInt32, ClientIP UInt32, ClientIP6 FixedString(16), RemoteIP UInt32, RemoteIP6 FixedString(16), IPNetworkID UInt32, SilverlightVersion3 UInt32, CodeVersion UInt32, ResolutionWidth UInt16, ResolutionHeight UInt16, UserAgentMajor UInt16, UserAgentMinor UInt16, WindowClientWidth UInt16, WindowClientHeight UInt16, SilverlightVersion2 UInt8, SilverlightVersion4 UInt16, FlashVersion3 UInt16, FlashVersion4 UInt16, ClientTimeZone Int16, OS UInt8, UserAgent UInt8, ResolutionDepth UInt8, FlashMajor UInt8, FlashMinor UInt8, NetMajor UInt8, NetMinor UInt8, MobilePhone UInt8, SilverlightVersion1 UInt8, Age UInt8, Sex UInt8, Income UInt8, JavaEnable UInt8, CookieEnable UInt8, JavascriptEnable UInt8, IsMobile UInt8, BrowserLanguage UInt16, BrowserCountry UInt16, Interests UInt16, Robotness UInt8, GeneralInterests Array(UInt16), Params Array(String), `Goals.ID` Array(UInt32), `Goals.Serial` Array(UInt32), `Goals.EventTime` Array(DateTime), `Goals.Price` Array(Int64), `Goals.OrderID` Array(String), `Goals.CurrencyID` Array(UInt32), WatchIDs Array(UInt64), ParamSumPrice Int64, ParamCurrency FixedString(3), ParamCurrencyID UInt16, ClickLogID UInt64, ClickEventID Int32, ClickGoodEvent Int32, ClickEventTime DateTime, ClickPriorityID Int32, ClickPhraseID Int32, ClickPageID Int32, ClickPlaceID Int32, ClickTypeID Int32, ClickResourceID Int32, ClickCost UInt32, ClickClientIP UInt32, ClickDomainID UInt32, ClickURL String, ClickAttempt UInt8, ClickOrderID UInt32, ClickBannerID UInt32, ClickMarketCategoryID UInt32, ClickMarketPP UInt32, ClickMarketCategoryName String, ClickMarketPPName String, ClickAWAPSCampaignName String, ClickPageName String, ClickTargetType UInt16, ClickTargetPhraseID UInt64, ClickContextType UInt8, ClickSelectType Int8, ClickOptions String, ClickGroupBannerID Int32, OpenstatServiceName String, OpenstatCampaignID String, OpenstatAdID String, OpenstatSourceID String, UTMSource String, UTMMedium String, UTMCampaign String, UTMContent String, UTMTerm String, FromTag String, HasGCLID UInt8, FirstVisit DateTime, PredLastVisit Date, LastVisit Date, TotalVisits UInt32, `TraficSource.ID` Array(Int8), `TraficSource.SearchEngineID` Array(UInt16), `TraficSource.AdvEngineID` Array(UInt8), `TraficSource.PlaceID` Array(UInt16), `TraficSource.SocialSourceNetworkID` Array(UInt8), `TraficSource.Domain` Array(String), `TraficSource.SearchPhrase` Array(String), `TraficSource.SocialSourcePage` Array(String), Attendance FixedString(16), CLID UInt32, YCLID UInt64, NormalizedRefererHash UInt64, SearchPhraseHash UInt64, RefererDomainHash UInt64, NormalizedStartURLHash UInt64, StartURLDomainHash UInt64, NormalizedEndURLHash UInt64, TopLevelDomain UInt64, URLScheme UInt64, OpenstatServiceNameHash UInt64, OpenstatCampaignIDHash UInt64, OpenstatAdIDHash UInt64, OpenstatSourceIDHash UInt64, UTMSourceHash UInt64, UTMMediumHash UInt64, UTMCampaignHash UInt64, UTMContentHash UInt64, UTMTermHash UInt64, FromHash UInt64, WebVisorEnabled UInt8, WebVisorActivity UInt32, `ParsedParams.Key1` Array(String), `ParsedParams.Key2` Array(String), `ParsedParams.Key3` Array(String), `ParsedParams.Key4` Array(String), `ParsedParams.Key5` Array(String), `ParsedParams.ValueDouble` Array(Float64), `Market.Type` Array(UInt8), `Market.GoalID` Array(UInt32), `Market.OrderID` Array(String), `Market.OrderPrice` Array(Int64), `Market.PP` Array(UInt32), `Market.DirectPlaceID` Array(UInt32), `Market.DirectOrderID` Array(UInt32), `Market.DirectBannerID` Array(UInt32), `Market.GoodID` Array(String), `Market.GoodName` Array(String), `Market.GoodQuantity` Array(Int32), `Market.GoodPrice` Array(Int64), IslandID FixedString(16)) ENGINE = CollapsingMergeTree(Sign) PARTITION BY toYYYYMM(StartDate) SAMPLE BY intHash32(UserID) ORDER BY (CounterID, StartDate, intHash32(UserID), VisitID);
clickhouse-client --max_insert_block_size 100000 --query "INSERT INTO test.hits FORMAT TSV" < hits_v1.tsv
clickhouse-client --max_insert_block_size 100000 --query "INSERT INTO test.visits FORMAT TSV" < visits_v1.tsv
Creating Pull Request
Navigate to your fork repository in GitHub’s UI. If you have been developing in a branch, you need to select that branch. There will be a “Pull request” button located on the screen. In essence, this means “create a request for accepting my changes into the main repository”.
A pull request can be created even if the work is not completed yet. In this case please put the word “WIP” (work in progress) at the beginning of the title, it can be changed later. This is useful for cooperative reviewing and discussion of changes as well as for running all of the available tests. It is important that you provide a brief description of your changes, it will later be used for generating release changelog.
Testing will commence as soon as ClickHouse employees label your PR with a tag “can be tested”. The results of some first checks (e.g. code style) will come in within several minutes. Build check results will arrive within half an hour. And the main set of tests will report itself within an hour.
The system will prepare ClickHouse binary builds for your pull request individually. To retrieve these builds click the “Details” link next to “ClickHouse build check” entry in the list of checks. There you will find direct links to the built .deb packages of ClickHouse which you can deploy even on your production servers (if you have no fear).
Most probably some of the builds will fail at first times. This is due to the fact that we check builds both with gcc as well as with clang, with almost all of existing warnings (always with the -Werror
flag) enabled for clang. On that same page, you can find all of the build logs so that you do not have to build ClickHouse in all of the possible ways.
Browse ClickHouse Source Code
You can use GitHub integrated code browser here.
Also, you can browse sources on GitHub as usual.