--- toc_priority: 64 toc_title: Build on Linux --- # How to Build ClickHouse on Linux {#how-to-build-clickhouse-for-development} Supported platforms: - x86_64 - AArch64 - Power9 (experimental) ## Normal Build for Development on Ubuntu The following tutorial is based on the Ubuntu Linux system. With appropriate changes, it should also work on any other Linux distribution. ### Install Git, CMake, Python and Ninja {#install-git-cmake-python-and-ninja} ``` bash $ sudo apt-get install git cmake python ninja-build ``` Or cmake3 instead of cmake on older systems. ### Install GCC 10 {#install-gcc-10} There are several ways to do this. #### Install from Repository {#install-from-repository} On Ubuntu 19.10 or newer: $ sudo apt-get update $ sudo apt-get install gcc-10 g++-10 #### Install from a PPA Package {#install-from-a-ppa-package} On older Ubuntu: ``` bash $ sudo apt-get install software-properties-common $ sudo apt-add-repository ppa:ubuntu-toolchain-r/test $ sudo apt-get update $ sudo apt-get install gcc-10 g++-10 ``` #### Install from Sources {#install-from-sources} See [utils/ci/build-gcc-from-sources.sh](https://github.com/ClickHouse/ClickHouse/blob/master/utils/ci/build-gcc-from-sources.sh) ### Use GCC 10 for Builds {#use-gcc-10-for-builds} ``` bash $ export CC=gcc-10 $ export CXX=g++-10 ``` ### Checkout ClickHouse Sources {#checkout-clickhouse-sources} ``` bash $ git clone --recursive git@github.com:ClickHouse/ClickHouse.git ``` or ``` bash $ git clone --recursive https://github.com/ClickHouse/ClickHouse.git ``` ### Build ClickHouse {#build-clickhouse} ``` bash $ cd ClickHouse $ mkdir build $ cd build $ cmake .. $ ninja ``` To create an executable, run `ninja clickhouse`. This will create the `programs/clickhouse` executable, which can be used with `client` or `server` arguments. ## How to Build ClickHouse on Any Linux {#how-to-build-clickhouse-on-any-linux} The build requires the following components: - Git (is used only to checkout the sources, it’s not needed for the build) - CMake 3.10 or newer - Ninja (recommended) or Make - C++ compiler: gcc 10 or clang 8 or newer - Linker: lld or gold (the classic GNU ld won’t work) - Python (is only used inside LLVM build and it is optional) If all the components are installed, you may build in the same way as the steps above. Example for Ubuntu Eoan: ``` bash sudo apt update sudo apt install git cmake ninja-build g++ python git clone --recursive https://github.com/ClickHouse/ClickHouse.git mkdir build && cd build cmake ../ClickHouse ninja ``` Example for OpenSUSE Tumbleweed: ``` bash sudo zypper install git cmake ninja gcc-c++ python lld git clone --recursive https://github.com/ClickHouse/ClickHouse.git mkdir build && cd build cmake ../ClickHouse ninja ``` Example for Fedora Rawhide: ``` bash sudo yum update yum --nogpg install git cmake make gcc-c++ python3 git clone --recursive https://github.com/ClickHouse/ClickHouse.git mkdir build && cd build cmake ../ClickHouse make -j $(nproc) ``` ## How to Build ClickHouse Debian Package {#how-to-build-clickhouse-debian-package} ### Install Git and Pbuilder {#install-git-and-pbuilder} ``` bash $ sudo apt-get update $ sudo apt-get install git python pbuilder debhelper lsb-release fakeroot sudo debian-archive-keyring debian-keyring ``` ### Checkout ClickHouse Sources {#checkout-clickhouse-sources-1} ``` bash $ git clone --recursive --branch master https://github.com/ClickHouse/ClickHouse.git $ cd ClickHouse ``` ### Run Release Script {#run-release-script} ``` bash $ ./release ``` ## Faster builds for development Normally all tools of the ClickHouse bundle, such as `clickhouse-server`, `clickhouse-client` etc., are linked into a single static executable, `clickhouse`. This executable must be re-linked on every change, which might be slow. Two common ways to improve linking time are to use `lld` linker, and use the 'split' build configuration, which builds a separate binary for every tool, and further splits the code into serveral shared libraries. To enable these tweaks, pass the following flags to `cmake`: ``` -DCMAKE_C_FLAGS="-fuse-ld=lld" -DCMAKE_CXX_FLAGS="-fuse-ld=lld" -DUSE_STATIC_LIBRARIES=0 -DSPLIT_SHARED_LIBRARIES=1 -DCLICKHOUSE_SPLIT_BINARY=1 ``` ## You Don’t Have to Build ClickHouse {#you-dont-have-to-build-clickhouse} ClickHouse is available in pre-built binaries and packages. Binaries are portable and can be run on any Linux flavour. They are built for stable, prestable and testing releases as long as for every commit to master and for every pull request. To find the freshest build from `master`, go to [commits page](https://github.com/ClickHouse/ClickHouse/commits/master), click on the first green checkmark or red cross near commit, and click to the “Details” link right after “ClickHouse Build Check”. ## Split build configuration {#split-build} Normally ClickHouse is statically linked into a single static `clickhouse` binary with minimal dependencies. This is convenient for distribution, but it means that on every change the entire binary is linked again, which is slow and may be inconvenient for development. There is an alternative configuration which creates dynamically loaded shared libraries instead, allowing faster incremental builds. To use it, add the following flags to your `cmake` invocation: ``` -DUSE_STATIC_LIBRARIES=0 -DSPLIT_SHARED_LIBRARIES=1 -DCLICKHOUSE_SPLIT_BINARY=1 ``` Note that in this configuration there is no single `clickhouse` binary, and you have to run `clickhouse-server`, `clickhouse-client` etc. [Original article](https://clickhouse.tech/docs/en/development/build/)