RaspberryPiWithQt6WebEngine: Difference between revisions

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m (fix paths)
m (Install libnss3-dev in the target system before exiting the chroot)
 
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Line 37: Line 37:
git clone git://code.qt.io/qt/qtbase.git
git clone git://code.qt.io/qt/qtbase.git
cd qtbase
cd qtbase
git git checkout origin/6.5.3
git checkout origin/6.5.3
cd ..
cd ..


Line 51: Line 51:


git clone git://code.qt.io/qt/qtwebengine.git
git clone git://code.qt.io/qt/qtwebengine.git
cd qtwebengine
git checkout origin/6.7
git checkout origin/6.7
git submodule init
git submodule update
git submodule update
cd ..
cd ..
Line 86: Line 88:
mount -t sysfs /sys ~/workspaces/rpi/target/sys
mount -t sysfs /sys ~/workspaces/rpi/target/sys
mount --bind /dev ~/workspaces/rpi/target/dev
mount --bind /dev ~/workspaces/rpi/target/dev
mount --bind /dev/pts ~/workspaces/rpi/target/pts
mount --bind /dev/pts ~/workspaces/rpi/target/dev/pts
</syntaxhighlight>
</syntaxhighlight>


* We need qemu on the image to able to execute command, therefore copy static qemu binary to image.<syntaxhighlight lang="bash">
* We need qemu on the image to able to execute command, therefore copy static qemu binary to image.<syntaxhighlight lang="bash">
cp /usr/bin/qemu-arch64-static /workspaces/rpi/target/usr/bin/
cp /usr/bin/qemu-aarch64-static ~/workspaces/rpi/target/usr/bin/
</syntaxhighlight>
</syntaxhighlight>
{{note| Setup of qemu static interpreter is distribution specific. Please refer to your Linux distribution documentation.}}
{{note| Setup of qemu static interpreter is distribution specific. Please refer to your Linux distribution documentation.}}
Line 99: Line 101:
</syntaxhighlight>
</syntaxhighlight>


* Let's update Qt6 build dependencies:<syntaxhighlight lang="bash">
* Let's upgrade the image (optional) and install Qt6 build dependencies:<syntaxhighlight lang="bash">
vi /etc/apt/sources.list
vi /etc/apt/sources.list
# uncomment the deb-src line
# uncomment the deb-src lines
apt update
apt update
apt build-dep qt6-base
apt upgrade
apt build-dep libqt6gui6
</syntaxhighlight>
 
* Let's install build dependencies for QtWebEngine:<syntaxhighlight lang="bash">
apt install libnss3-dev
exit
exit
</syntaxhighlight>
</syntaxhighlight>
Line 112: Line 119:
rsync -av ~/workspaces/rpi/target/usr/include sysroot/usr
rsync -av ~/workspaces/rpi/target/usr/include sysroot/usr
rsync -av ~/workspaces/rpi/target/usr/lib sysroot/usr
rsync -av ~/workspaces/rpi/target/usr/lib sysroot/usr
rsync -av ~/workspaces/rpi/target/usr/share/pkgconfig sysroot/usr/share
</syntaxhighlight>
</syntaxhighlight>


Line 133: Line 141:
==Toolchain==
==Toolchain==


To cross-compile Qt, we need a cross-compiler toolchain. There are many excellent tools to compile a toolchain, such as crosstool-ng or buildroot.
To cross-compile Qt, we need a cross-compiler toolchain. There are many excellent tools to compile a toolchain, such as [https://crosstool-ng.github.io crosstool-ng]. We could also simply download ready 3dparty toolchain form the internet. However, this guide will use the official gcc cross compiler, which is shipped with Debian distribution, same as the one shipped with Raspberry Pi OS.
We could also simply download ready 3dparty toolchain form the internet. However, this guide will use the official gcc cross compiler, which is  
shipped with Debian distribution, same as the one shipped with Raspberry Pi OS.
In time of writing this quide latest Raspberry Pi OS is called 'Bookworm' and it is shipped with gcc 12.2 and Qt 6.4. Therefore we will use the gnu gcc cross compiler from Bookworm release.
In time of writing this quide latest Raspberry Pi OS is called 'Bookworm' and it is shipped with gcc 12.2 and Qt 6.4. Therefore we will use the gnu gcc cross compiler from Bookworm release.
To setup the cross-compiler toolchain will use 'debootstrap' which is a very convenient tool to install Debian base system into a subdirectory  
To setup the cross-compiler toolchain will use 'debootstrap' which is a very convenient tool to install Debian base system into a subdirectory  
Line 143: Line 149:


* To setup Bookworm Debian release on your machine execute:<syntaxhighlight lang="bash">
* To setup Bookworm Debian release on your machine execute:<syntaxhighlight lang="bash">
debootstrap --arch amd64 bookworm ~/workspace/rpi/toolchain http://ftp.uk.debian.org/debian
debootstrap --arch amd64 bookworm ~/workspaces/rpi/toolchain http://ftp.uk.debian.org/debian
</syntaxhighlight>
</syntaxhighlight>


Line 150: Line 156:
mount -t sysfs /sys ~/workspaces/rpi/toolchain/sys
mount -t sysfs /sys ~/workspaces/rpi/toolchain/sys
mount --bind /dev ~/workspaces/rpi/toolchain/dev
mount --bind /dev ~/workspaces/rpi/toolchain/dev
mount --bind /dev/pts ~/workspaces/rpi/toolchain/pts
mount --bind /dev/pts ~/workspaces/rpi/toolchain/dev/pts


chroot ~/workspaces/rpi/toolchain /bin/bash
chroot ~/workspaces/rpi/toolchain /bin/bash
Line 156: Line 162:


* Let's install host and cross compiler:<syntaxhighlight lang="bash">
* Let's install host and cross compiler:<syntaxhighlight lang="bash">
apt update
apt install build-essential crossbuild-essential-arm64
apt install build-essential crossbuild-essential-arm64
</syntaxhighlight>
</syntaxhighlight>
Line 161: Line 168:
==Qt6 Host Build==
==Qt6 Host Build==


{{note | After toolchain setup, we should be chrooted into our host Debian root (~/workspaces/rpi/toolchain).}}
We need Qt6 host build as cross-compilation requires all host compiled tools like for example 'moc'.
We will do here qt 'module' build in separate build directory.
 
{{note | For more information about build options see [[QtWebEngine/Qt6Build| here]].}}
{{note | After toolchain setup, we should be still chrooted into our host Debian root (~/workspaces/rpi/toolchain).}}
 
* Add source packages repository for 'apt' by following line to '/etc/apt/sources.list' file:<syntaxhighlight lang="bash">
deb-src http://deb.debian.org/debian bookworm main
</syntaxhighlight>


* Let's install dependencies for build using know dependencies for Qt 6.4:<syntaxhighlight lang="bash">
* Let's install dependencies for Qt host build using know dependencies for Qt 6.4:<syntaxhighlight lang="bash">
vi /etc/apt/sources.list
apt update
apt update
apt build-dep qt6-base
apt build-dep libqt6gui6
</syntaxhighlight>
</syntaxhighlight>


* Let's configure host build for Qt6 qtbase, build it and install into ~/workspaces/rpi/toolchain/opt/qt:<syntaxhighlight lang="bash">
* Let's install build dependencies for QtWebEngine:<syntaxhighlight lang="bash">
apt install nodejs gperf bison flex python3-html5lib libnss3-dev
</syntaxhighlight>
* Let's configure host build for Qt6 qtbase, build it and install into ~/workspaces/rpi/toolchain/opt/qt/host:<syntaxhighlight lang="bash">
cd /qt/build/host
cd /qt/build/host
mkdir qtbase
mkdir qtbase
cd qtbase  
cd qtbase  
/qt/qtbase/configure -release -nomake tests -nomake examples -linker lld -prefix /opt/qt
/qt/qtbase/configure -release -nomake tests -nomake examples -linker lld -prefix /opt/qt/host
cmake --build . --parallel
cmake --build . --parallel
cmake --install
cmake --install .
</syntaxhighlight>
</syntaxhighlight>


{{note | The path /qt/qtbase in chroot is really ~/workspaces/rpi/toolchain/qt/qtbase on build machine.}}
{{note | The path /qt/qtbase in chroot is really ~/workspaces/rpi/toolchain/qt/qtbase on the build machine.}}


* Let's configure and build remaining modules:<syntaxhighlight lang="bash">
* Let's configure and build remaining modules:<syntaxhighlight lang="bash">
Line 185: Line 202:


cd qtshadertools
cd qtshadertools
/opt/qt/bin/qt-cofigure-module ../../../qtshadertools
/opt/qt/host/bin/qt-configure-module ../../../qtshadertools
cmake --build . --parallel
cmake --install .
cd ..
 
cd qtdeclarative
/opt/qt/host/bin/qt-configure-module ../../../qtdeclarative
cmake --build . --parallel
cmake --install .
cd ..
 
cd qtwebengine
/opt/qt/host/bin/qt-configure-module ../../../qtwebengine
cmake --build . --parallel
cmake --install .
cd ..
</syntaxhighlight>
 
==Qt6 Target Cross Build==
 
We should have by now Qt6 host build, target arm64 sysroot and cross compilation toolchain. To setup now cmake build we still need to create [https://cmake.org/cmake/help/latest/manual/cmake-toolchains.7.html cmake toolchain file] 'rpi.toolchain.cmake', which will provide information to cmake about our toolchian and sysroot setup.
 
{{note | After toolchain setup, we should be still chrooted into our host Debian root (~/workspaces/rpi/toolchain).}}
 
* Let's create toolchain file:<syntaxhighlight lang="bash">
vi /qt/rpi.toolchain.cmake
 
cmake_minimum_required(VERSION 3.18)
include_guard(GLOBAL)
 
set(CMAKE_SYSTEM_NAME Linux)
set(CMAKE_SYSTEM_PROCESSOR arm)
 
set(CMAKE_SYSROOT /sysroot)
set(CMAKE_C_COMPILER /usr/bin/aarch64-linux-gnu-gcc-12)
set(CMAKE_CXX_COMPILER /usr/bin/aarch64-linux-gnu-g++-12)
 
set(CMAKE_FIND_ROOT_PATH_MODE_PROGRAM NEVER)
set(CMAKE_FIND_ROOT_PATH_MODE_LIBRARY ONLY)
set(CMAKE_FIND_ROOT_PATH_MODE_INCLUDE ONLY)
set(CMAKE_FIND_ROOT_PATH_MODE_PACKAGE ONLY)
 
set(QT_COMPILER_FLAGS "-march=armv8-a")
set(QT_COMPILER_FLAGS_RELEASE "-O2 -pipe")
set(QT_LINKER_FLAGS "-Wl,-O1 -Wl,--hash-style=gnu -Wl,--as-needed")
 
include(CMakeInitializeConfigs)
 
function(cmake_initialize_per_config_variable _PREFIX _DOCSTRING)
  if (_PREFIX MATCHES "CMAKE_(C|CXX|ASM)_FLAGS")
    set(CMAKE_${CMAKE_MATCH_1}_FLAGS_INIT "${QT_COMPILER_FLAGS}")
 
    foreach(config DEBUG RELEASE MINSIZEREL RELWITHDEBINFO)
      if (DEFINED QT_COMPILER_FLAGS_${config})
        set(CMAKE_${CMAKE_MATCH_1}_FLAGS_${config}_INIT "${QT_COMPILER_FLAGS_${config}}")
      endif()
    endforeach()
  endif()
 
 
  if (_PREFIX MATCHES "CMAKE_(SHARED|MODULE|EXE)_LINKER_FLAGS")
    foreach (config SHARED MODULE EXE)
      set(CMAKE_${config}_LINKER_FLAGS_INIT "${QT_LINKER_FLAGS}")
    endforeach()
  endif()
 
  _cmake_initialize_per_config_variable(${ARGV})
endfunction()
 
# See output of 'pkg-config --variable pc_path pkg-config' command.
set(ENV{PKG_CONFIG_PATH} "")
set(ENV{PKG_CONFIG_LIBDIR} ${CMAKE_SYSROOT}/usr/lib/aarch64-linux-gnu/pkgconfig:${CMAKE_SYSROOT}/usr/lib/pkgconfig:${CMAKE_SYSROOT}/usr/share/pkgconfig)
set(ENV{PKG_CONFIG_SYSROOT_DIR} ${CMAKE_SYSROOT})
</syntaxhighlight>
{{note | If you wonder why we overload 'cmake_initialize_per_config_variable' see [https://www.qt.io/blog/standalone-boot2qt-/-yocto-sdk-cmake-toolchain this] blog post.}}
{{note | The pkg-config exports could be set in build shell instead of toolchain.}}
* Let's configure target build for Qt6 qtbase, build it and install into ~/workspaces/rpi/toolchain/opt/qt/target:<syntaxhighlight lang="bash">
cd /qt/build/target
mkdir qtbase
cd qtbase
../../../qtbase/configure -release -opengl es2 -nomake examples -nomake tests -qt-host-path /opt/qt/host -extprefix /opt/qt/target -prefix /usr/local/qt6 -- -DCMAKE_TOOLCHAIN_FILE=/qt/rpi.toolchain.cmake
cmake --build . --parallel
cmake --install .
</syntaxhighlight>
* Let's configure and build remaining modules:<syntaxhighlight lang="bash">
cd /qt/build/target
mkdir qtshadertools qtdeclarative qtwebengine
 
cd qtshadertools
/opt/qt/target/bin/qt-configure-module ../../../qtshadertools
cmake --build . --parallel
cmake --build . --parallel
cmake --install .
cmake --install .
Line 191: Line 297:


cd qtdeclarative
cd qtdeclarative
/opt/qt/bin/qt-cofigure-module ../../../qtdeclarative
/opt/qt/target/bin/qt-configure-module ../../../qtdeclarative
cmake --build . --parallel
cmake --build . --parallel
cmake --install .
cmake --install .
Line 197: Line 303:


cd qtwebengine
cd qtwebengine
/opt/qt/bin/qt-cofigure-module ../../../qtwebengine
/opt/qt/target/bin/qt-configure-module ../../../qtwebengine
cmake --build . --parallel
cmake --build . --parallel
cmake --install .
cmake --install .
cd ..
cd ..
</syntaxhighlight>
==Deploy==
We need to deploy compiled sources to sdcard. We can use RasberryPi OS image from sysroot step, mount it and rsync the content.
{{note | We are not any longer in the chrooted enviroment, however target image is still mounted.}}
* Deploy with rsync: <syntaxhighlight lang="bash">
rsync -av ~/workspaces/rpi/toolchain/opt/qt/target/ ~/workspaces/rpi/target/usr/local/qt6/
</syntaxhighlight>
{{note| If you wnat to rsync sysroot over the network, just replace the rsync steps below with the equivalent network location of your Rasberry Pi board.}}
* Umount the image and detach loop device:<syntaxhighlight lang="bash">
umount ~/workspaces/rpi/target/dev/pts ~/workspaces/rpi/target/dev
umount ~/workspaces/rpi/target/proc ~/workspaces/rpi/target/sys
umount ~/workspaces/rpi/target
losetup -d /dev/loop0
</syntaxhighlight>
* Copy the image to the SD card (replace sdX with the device on your machine):<syntaxhighlight lang="bash">
cd ~/workspaces/rpi/image
dd if=2023-12-05-raspios-bookworm-arm64.img of=/dev/sdX bs=4M
</syntaxhighlight>
</syntaxhighlight>

Latest revision as of 16:04, 2 March 2024

Introduction

This page describes how to set up self-compiled Qt6 with WebEngine on Raspberry Pi 4 running Raspberry Pi OS.

To see other guides visit:

Setup

To be able to cross compile Qt6 for Raspberry Pi OS, we need three things:

Qt6 uses cmake therefore to cross-compile we need to have actually two builds of Qt. One Qt6 host build, which is later used to cross-compile the arm64 Qt build.

In this guide we are going to cross compile Qt 6.5 with WebEngine coming from Qt 6.7

  Note: As shown here, we could do a 'top level build' of Qt6, but we are going to do 'prefix module build' just to show an alternative way of building Qt6.

We need fours repositories to have Qt 6WebEngine up and running: qtbase, shadertools, qtdeclarative and qtwebengine.

  • Let's create our workspace:
    mkdir -p ~/workspaces/rpi/toolchain/sysroot
    mkdir -p ~/workspaces/rpi/toolchain/qt/build/host
    mkdir -p ~/workspaces/rpi/toolchain/qt/build/target
    mkdir -p ~/workspaces/rpi/target
    mkdir -p ~/workspaces/rpi/image
    
  • Let's checkout qt source code and select branches:
    cd ~/workspaces/rpi/toolchain/qt
    git clone git://code.qt.io/qt/qtbase.git
    cd qtbase
    git checkout origin/6.5.3
    cd ..
    
    git clone git://code.qt.io/qt/qtshadertools.git
    cd qtshadertools
    git checkout origin/6.5.3
    cd ..
    
    git clone git://code.qt.io/qt/qtdeclarative.git
    cd qtdeclarative
    git checkout origin/6.5.3
    cd ..
    
    git clone git://code.qt.io/qt/qtwebengine.git
    cd qtwebengine
    git checkout origin/6.7
    git submodule init
    git submodule update
    cd ..
    

  Note: QtWebEngine needs initialization of the submodule.

Sysroot

To be able to cross-compile, we need a part of arm64 target sysroot to be present on our build machine. As shown here, you could simply start your Rasberry Pi OS on the board and then rsync the required libs and includes to the host machine with SSH connection. However, in this guide we will mount the Raspberry Pi OS image via a loop device, use qemu to install build dependencies and than make a local copy.

  Note: We do need a local copy of 'libs' and 'headers' from the image, as we want to adjust the symlinks.

  • Let's now download Raspberry Pi OS:
    cd ~/workspaces/rpi/image
    wget https://downloads.raspberrypi.com/raspios_arm64/images/raspios_arm64-2023-12-06/2023-12-05-raspios-bookworm-arm64.img.xz
    
  • Let's extract the image:
    unxz --keep 2023-12-05-raspios-bookworm-arm64.img.xz
    
  • We need add at least 2G space to the image to be able to fit qt build with debug info (see here instructions)
  • Make loop devices for the image:
    losetup -fP 2023-12-05-raspios-bookworm-arm64.img
    losetup -a
    /dev/loop0: [66306]:2363198 (~/workspaces/rpi/image/2023-12-05-raspios-bookworm-arm64.img)
    
  • Mount the root partition:
    mount /dev/loop0p2 -t ext4 ~/workspaces/rpi/target
    mount -t proc /proc ~/workspaces/rpi/target/proc
    mount -t sysfs /sys ~/workspaces/rpi/target/sys
    mount --bind /dev ~/workspaces/rpi/target/dev
    mount --bind /dev/pts ~/workspaces/rpi/target/dev/pts
    
  • We need qemu on the image to able to execute command, therefore copy static qemu binary to image.
    cp /usr/bin/qemu-aarch64-static ~/workspaces/rpi/target/usr/bin/
    

  Note: Setup of qemu static interpreter is distribution specific. Please refer to your Linux distribution documentation.

  • Chroot to arm64 target:
    cd ~/workspaces/rpi/target
    chroot .
    
  • Let's upgrade the image (optional) and install Qt6 build dependencies:
    vi /etc/apt/sources.list
    # uncomment the deb-src lines
    apt update
    apt upgrade
    apt build-dep libqt6gui6
    
  • Let's install build dependencies for QtWebEngine:
    apt install libnss3-dev
    exit
    
  • rsync the parts that we need:
    cd ~/workspaces/rpi/toolchain
    rsync -av ~/workspaces/rpi/target/lib sysroot
    rsync -av ~/workspaces/rpi/target/usr/include sysroot/usr
    rsync -av ~/workspaces/rpi/target/usr/lib sysroot/usr
    rsync -av ~/workspaces/rpi/target/usr/share/pkgconfig sysroot/usr/share
    
  • Adjust symlinks to be relative:
    wget https://raw.githubusercontent.com/Kukkimonsuta/rpi-buildqt/master/scripts/utils/sysroot-relativelinks.py
    chmod +x sysroot-relativelinks.py
    ./sysroot-relativelinks.py sysroot
    

  Note: Command-line tool called symlinks should not be used instead as it creates dangling links.

  • Umount no longer needed mounts:
    umount ~/workspaces/rpi/target/sys ~/workspaces/rpi/target/proc 
    umount ~/workspaces/rpi/target/dev/pts ~/workspaces/rpi/target/dev
    
  • Detach loop device:
    losetup -d /dev/loop0
    

Toolchain

To cross-compile Qt, we need a cross-compiler toolchain. There are many excellent tools to compile a toolchain, such as crosstool-ng. We could also simply download ready 3dparty toolchain form the internet. However, this guide will use the official gcc cross compiler, which is shipped with Debian distribution, same as the one shipped with Raspberry Pi OS. In time of writing this quide latest Raspberry Pi OS is called 'Bookworm' and it is shipped with gcc 12.2 and Qt 6.4. Therefore we will use the gnu gcc cross compiler from Bookworm release. To setup the cross-compiler toolchain will use 'debootstrap' which is a very convenient tool to install Debian base system into a subdirectory of any other running Linux system. Most of distributions ship this tool therefore it was selected as most generic approach.

  Note: The other approach could be for example installing Debian distribution on VM.

  • To setup Bookworm Debian release on your machine execute:
    debootstrap --arch amd64 bookworm ~/workspaces/rpi/toolchain http://ftp.uk.debian.org/debian
    
  • Let's mount and chroot into newly created installation:
    mount -t proc /proc ~/workspaces/rpi/toolchain/proc
    mount -t sysfs /sys ~/workspaces/rpi/toolchain/sys
    mount --bind /dev ~/workspaces/rpi/toolchain/dev
    mount --bind /dev/pts ~/workspaces/rpi/toolchain/dev/pts
    
    chroot ~/workspaces/rpi/toolchain /bin/bash
    
  • Let's install host and cross compiler:
    apt update
    apt install build-essential crossbuild-essential-arm64
    

Qt6 Host Build

We need Qt6 host build as cross-compilation requires all host compiled tools like for example 'moc'. We will do here qt 'module' build in separate build directory.

  Note: For more information about build options see here.

  Note: After toolchain setup, we should be still chrooted into our host Debian root (~/workspaces/rpi/toolchain).

  • Add source packages repository for 'apt' by following line to '/etc/apt/sources.list' file:
    deb-src http://deb.debian.org/debian bookworm main
    
  • Let's install dependencies for Qt host build using know dependencies for Qt 6.4:
    apt update
    apt build-dep libqt6gui6
    
  • Let's install build dependencies for QtWebEngine:
    apt install nodejs gperf bison flex python3-html5lib libnss3-dev
    
  • Let's configure host build for Qt6 qtbase, build it and install into ~/workspaces/rpi/toolchain/opt/qt/host:
    cd /qt/build/host
    mkdir qtbase
    cd qtbase 
    /qt/qtbase/configure -release -nomake tests -nomake examples -linker lld -prefix /opt/qt/host
    cmake --build . --parallel
    cmake --install .
    

  Note: The path /qt/qtbase in chroot is really ~/workspaces/rpi/toolchain/qt/qtbase on the build machine.

  • Let's configure and build remaining modules:
    cd /qt/build/host
    mkdir qtshadertools qtdeclarative qtwebengine
    
    cd qtshadertools
    /opt/qt/host/bin/qt-configure-module ../../../qtshadertools
    cmake --build . --parallel
    cmake --install .
    cd ..
    
    cd qtdeclarative
    /opt/qt/host/bin/qt-configure-module ../../../qtdeclarative
    cmake --build . --parallel
    cmake --install .
    cd ..
    
    cd qtwebengine
    /opt/qt/host/bin/qt-configure-module ../../../qtwebengine
    cmake --build . --parallel
    cmake --install .
    cd ..
    

Qt6 Target Cross Build

We should have by now Qt6 host build, target arm64 sysroot and cross compilation toolchain. To setup now cmake build we still need to create cmake toolchain file 'rpi.toolchain.cmake', which will provide information to cmake about our toolchian and sysroot setup.

  Note: After toolchain setup, we should be still chrooted into our host Debian root (~/workspaces/rpi/toolchain).

  • Let's create toolchain file:
    vi /qt/rpi.toolchain.cmake
    
    cmake_minimum_required(VERSION 3.18)
    include_guard(GLOBAL)
    
    set(CMAKE_SYSTEM_NAME Linux)
    set(CMAKE_SYSTEM_PROCESSOR arm)
    
    set(CMAKE_SYSROOT /sysroot)
    set(CMAKE_C_COMPILER /usr/bin/aarch64-linux-gnu-gcc-12)
    set(CMAKE_CXX_COMPILER /usr/bin/aarch64-linux-gnu-g++-12)
    
    set(CMAKE_FIND_ROOT_PATH_MODE_PROGRAM NEVER)
    set(CMAKE_FIND_ROOT_PATH_MODE_LIBRARY ONLY)
    set(CMAKE_FIND_ROOT_PATH_MODE_INCLUDE ONLY)
    set(CMAKE_FIND_ROOT_PATH_MODE_PACKAGE ONLY)
    
    set(QT_COMPILER_FLAGS "-march=armv8-a")
    set(QT_COMPILER_FLAGS_RELEASE "-O2 -pipe")
    set(QT_LINKER_FLAGS "-Wl,-O1 -Wl,--hash-style=gnu -Wl,--as-needed")
    
    include(CMakeInitializeConfigs)
    
    function(cmake_initialize_per_config_variable _PREFIX _DOCSTRING)
      if (_PREFIX MATCHES "CMAKE_(C|CXX|ASM)_FLAGS")
        set(CMAKE_${CMAKE_MATCH_1}_FLAGS_INIT "${QT_COMPILER_FLAGS}")
    
        foreach(config DEBUG RELEASE MINSIZEREL RELWITHDEBINFO)
          if (DEFINED QT_COMPILER_FLAGS_${config})
            set(CMAKE_${CMAKE_MATCH_1}_FLAGS_${config}_INIT "${QT_COMPILER_FLAGS_${config}}")
          endif()
        endforeach()
      endif()
    
    
      if (_PREFIX MATCHES "CMAKE_(SHARED|MODULE|EXE)_LINKER_FLAGS")
        foreach (config SHARED MODULE EXE)
          set(CMAKE_${config}_LINKER_FLAGS_INIT "${QT_LINKER_FLAGS}")
        endforeach()
      endif()
    
      _cmake_initialize_per_config_variable(${ARGV})
    endfunction()
    
    # See output of 'pkg-config --variable pc_path pkg-config' command.
    set(ENV{PKG_CONFIG_PATH} "")
    set(ENV{PKG_CONFIG_LIBDIR} ${CMAKE_SYSROOT}/usr/lib/aarch64-linux-gnu/pkgconfig:${CMAKE_SYSROOT}/usr/lib/pkgconfig:${CMAKE_SYSROOT}/usr/share/pkgconfig)
    set(ENV{PKG_CONFIG_SYSROOT_DIR} ${CMAKE_SYSROOT})
    

  Note: If you wonder why we overload 'cmake_initialize_per_config_variable' see this blog post.

  Note: The pkg-config exports could be set in build shell instead of toolchain.

  • Let's configure target build for Qt6 qtbase, build it and install into ~/workspaces/rpi/toolchain/opt/qt/target:
    cd /qt/build/target
    mkdir qtbase
    cd qtbase 
    ../../../qtbase/configure -release -opengl es2 -nomake examples -nomake tests -qt-host-path /opt/qt/host -extprefix /opt/qt/target -prefix /usr/local/qt6 -- -DCMAKE_TOOLCHAIN_FILE=/qt/rpi.toolchain.cmake
    cmake --build . --parallel
    cmake --install .
    
  • Let's configure and build remaining modules:
    cd /qt/build/target
    mkdir qtshadertools qtdeclarative qtwebengine
    
    cd qtshadertools
    /opt/qt/target/bin/qt-configure-module ../../../qtshadertools
    cmake --build . --parallel
    cmake --install .
    cd ..
    
    cd qtdeclarative
    /opt/qt/target/bin/qt-configure-module ../../../qtdeclarative
    cmake --build . --parallel
    cmake --install .
    cd ..
    
    cd qtwebengine
    /opt/qt/target/bin/qt-configure-module ../../../qtwebengine
    cmake --build . --parallel
    cmake --install .
    cd ..
    

Deploy

We need to deploy compiled sources to sdcard. We can use RasberryPi OS image from sysroot step, mount it and rsync the content.

  Note: We are not any longer in the chrooted enviroment, however target image is still mounted.

  • Deploy with rsync:
    rsync -av ~/workspaces/rpi/toolchain/opt/qt/target/ ~/workspaces/rpi/target/usr/local/qt6/
    

  Note: If you wnat to rsync sysroot over the network, just replace the rsync steps below with the equivalent network location of your Rasberry Pi board.

  • Umount the image and detach loop device:
    umount ~/workspaces/rpi/target/dev/pts ~/workspaces/rpi/target/dev
    umount ~/workspaces/rpi/target/proc ~/workspaces/rpi/target/sys
    umount ~/workspaces/rpi/target
    losetup -d /dev/loop0
    
  • Copy the image to the SD card (replace sdX with the device on your machine):
    cd ~/workspaces/rpi/image
    dd if=2023-12-05-raspios-bookworm-arm64.img of=/dev/sdX bs=4M