ClickHouse/docs/en/development/build-cross-s390x.md

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---
slug: /en/development/build-cross-s390x
sidebar_position: 69
title: How to Build, Run and Debug ClickHouse on Linux for s390x (zLinux)
sidebar_label: Build on Linux for s390x (zLinux)
---
As of writing (2023/3/10) building for s390x considered to be experimental. Not all features can be enabled, has broken features and is currently under active development.
## Building
s390x has two OpenSSL-related build options.
- By default, the s390x build will dynamically link to OpenSSL libraries. It will build OpenSSL shared objects, so it's not necessary to install OpenSSL beforehand. (This option is recommended in all cases.)
- Another option is to build OpenSSL in-tree. In this case two build flags need to be supplied to cmake
```bash
-DENABLE_OPENSSL_DYNAMIC=0
```
:::note
s390x builds are temporarily disabled in CI.
:::
These instructions assume that the host machine is x86_64 and has all the tooling required to build natively based on the [build instructions](../development/build.md). It also assumes that the host is Ubuntu 22.04 but the following instructions should also work on Ubuntu 20.04.
In addition to installing the tooling used to build natively, the following additional packages need to be installed:
```bash
apt-get install binutils-s390x-linux-gnu libc6-dev-s390x-cross gcc-s390x-linux-gnu binfmt-support qemu-user-static
```
If you wish to cross compile rust code install the rust cross compile target for s390x:
```bash
rustup target add s390x-unknown-linux-gnu
```
To build for s390x:
```bash
cmake -DCMAKE_TOOLCHAIN_FILE=cmake/linux/toolchain-s390x.cmake ..
ninja
```
## Running
Once built, the binary can be run with, e.g.:
```bash
qemu-s390x-static -L /usr/s390x-linux-gnu ./clickhouse
```
## Debugging
Install LLDB:
```bash
apt-get install lldb-15
```
To Debug a s390x executable, run clickhouse using QEMU in debug mode:
```bash
qemu-s390x-static -g 31338 -L /usr/s390x-linux-gnu ./clickhouse
```
In another shell run LLDB and attach, replace `<Clickhouse Parent Directory>` and `<build directory>` with the values corresponding to your environment.
```bash
lldb-15
(lldb) target create ./clickhouse
Current executable set to '/<Clickhouse Parent Directory>/ClickHouse/<build directory>/programs/clickhouse' (s390x).
(lldb) settings set target.source-map <build directory> /<Clickhouse Parent Directory>/ClickHouse
(lldb) gdb-remote 31338
Process 1 stopped
* thread #1, stop reason = signal SIGTRAP
frame #0: 0x0000004020e74cd0
-> 0x4020e74cd0: lgr %r2, %r15
0x4020e74cd4: aghi %r15, -160
0x4020e74cd8: xc 0(8,%r15), 0(%r15)
0x4020e74cde: brasl %r14, 275429939040
(lldb) b main
Breakpoint 1: 9 locations.
(lldb) c
Process 1 resuming
Process 1 stopped
* thread #1, stop reason = breakpoint 1.1
frame #0: 0x0000004005cd9fc0 clickhouse`main(argc_=1, argv_=0x0000004020e594a8) at main.cpp:450:17
447 #if !defined(FUZZING_MODE)
448 int main(int argc_, char ** argv_)
449 {
-> 450 inside_main = true;
451 SCOPE_EXIT({ inside_main = false; });
452
453 /// PHDR cache is required for query profiler to work reliably
```
## Visual Studio Code integration
- [CodeLLDB](https://github.com/vadimcn/vscode-lldb) extension is required for visual debugging.
- [Command Variable](https://github.com/rioj7/command-variable) extension can help dynamic launches if using [CMake Variants](https://github.com/microsoft/vscode-cmake-tools/blob/main/docs/variants.md).
- Make sure to set the backend to your LLVM installation eg. `"lldb.library": "/usr/lib/x86_64-linux-gnu/liblldb-15.so"`
- Make sure to run the clickhouse executable in debug mode prior to launch. (It is also possible to create a `preLaunchTask` that automates this)
### Example configurations
#### cmake-variants.yaml
```yaml
buildType:
default: relwithdebinfo
choices:
debug:
short: Debug
long: Emit debug information
buildType: Debug
release:
short: Release
long: Optimize generated code
buildType: Release
relwithdebinfo:
short: RelWithDebInfo
long: Release with Debug Info
buildType: RelWithDebInfo
tsan:
short: MinSizeRel
long: Minimum Size Release
buildType: MinSizeRel
toolchain:
default: default
description: Select toolchain
choices:
default:
short: x86_64
long: x86_64
s390x:
short: s390x
long: s390x
settings:
CMAKE_TOOLCHAIN_FILE: cmake/linux/toolchain-s390x.cmake
```
#### launch.json
```json
{
"version": "0.2.0",
"configurations": [
{
"type": "lldb",
"request": "custom",
"name": "(lldb) Launch s390x with qemu",
"targetCreateCommands": ["target create ${command:cmake.launchTargetPath}"],
"processCreateCommands": ["gdb-remote 2159"],
"preLaunchTask": "Run ClickHouse"
}
]
}
```
#### settings.json
This would also put different builds under different subfolders of the `build` folder.
```json
{
"cmake.buildDirectory": "${workspaceFolder}/build/${buildKitVendor}-${buildKitVersion}-${variant:toolchain}-${variant:buildType}",
"lldb.library": "/usr/lib/x86_64-linux-gnu/liblldb-15.so"
}
```
#### run-debug.sh
```sh
#! /bin/sh
echo 'Starting debugger session'
cd $1
qemu-s390x-static -g 2159 -L /usr/s390x-linux-gnu $2 $3 $4
```
#### tasks.json
Defines a task to run the compiled executable in `server` mode under a `tmp` folder next to the binaries, with configuration from under `programs/server/config.xml`.
```json
{
"version": "2.0.0",
"tasks": [
{
"label": "Run ClickHouse",
"type": "shell",
"isBackground": true,
"command": "${workspaceFolder}/.vscode/run-debug.sh",
"args": [
"${command:cmake.launchTargetDirectory}/tmp",
"${command:cmake.launchTargetPath}",
"server",
"--config-file=${workspaceFolder}/programs/server/config.xml"
],
"problemMatcher": [
{
"pattern": [
{
"regexp": ".",
"file": 1,
"location": 2,
"message": 3
}
],
"background": {
"activeOnStart": true,
"beginsPattern": "^Starting debugger session",
"endsPattern": ".*"
}
}
]
}
]
}
```