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== KDE Software on Android ==
Android is currently ''the'' mobile platform regarding market share and number of provided applications. Hence, it is a platform very well suited to increase the availability and usage of applications by the KDE community.


= KDE software on Android =
=== Contact ===
Android is currently ''the'' mobile platform regarding market share and number of provided applications. Hence, it is a platform very well suited to increase the availability and usage of applications by the KDE community. In the following, we give an overview of the technical steps required to setup a build system for cross-compiling a Qt5/KF5 based Android application, the necessary steps to deploy it, and a reference list of the porting steps by different applications/people.
For questions and discussion around KDE software on Android join our [https://matrix.to/#/#kde-android:kde.org Matrix channel] and [https://mail.kde.org/mailman/listinfo/kde-android mailing list].


== Tutorial for Building Applications on Android ==
=== Getting Applications ===
For building Qt applications on Android, some extra steps are required in comparison to building directly on Linux. The following instruction expects that KF5/Qt5 based applications can already be built and all necessary tools are installed (gcc, cmake, git,...). The main idea for the setup is that we use precompiled Qt libraries (named NDK and SDK), which are built for the ARM-based Android platform. All building then is done by using these libraries. Still the build-process itself will use the tools from your Linux system (in the following called "host system"; while the Android device is called "target system"). The additional tools mostly are the Java Development Kit and according tools for building Java applications.


== Prerequisites / Setup of Cross-Compiling Build System ==
Stable releases for our Android apps are available on [https://play.google.com/store/apps/dev?id=4758894585905287660 Google Play] and [https://f-droid.org/ F-Droid].
At first we prepare your system with all necessary packages to build your application for Android.
For this tutorial we assume that everything is done in the folder '''/opt/android/''' (you can adapt the tutorial accordingly when using another folder).


# Some 32 bit system libraries are required for the host system (because some tools are 32 bit):
Nightly test builds can be found in the [[Android/FDroid | Nightly F-Droid repo]].
#* libgcc, zlib, libc
# installing on Debian based system:
#* <code>dpkg --add-architecture i386</code>
#* <code>apt-get install zlib1g:i386 libgcc1:i386 libc6:i386</code>
# Extra-CMake-Modules
#* we require at least version >= 5.15 due to https://git.reviewboard.kde.org/r/125183
#* you can also use a smaller version >= 1.7.0 if applying this change directly to your cmake files
# Android SDK
#* Download: http://developer.android.com/sdk/index.html to /opt/android/
#* Unpack, run "tools/android update sdk" and select the following packages:
#** Android SDK Tools (24.3.4)
#** Android SDK Platform-tools (23.0.1)
#** Android SDK Build-tools (22.0.1)
#** Android 5.1.1 (API 22): SDK Platform (only "SDK Platform" needed, i.e. no docs, samples or sources)
#* result: now the SDK should be installed in /opt/android/android-sdk-linux
# Android NDK
#* Download: https://developer.android.com/ndk/index.html to /opt/android/
#* unpack the package (see the instructions on the download page)
#* result: now the NDK should be installed in /opt/android/android-ndk-r10e
# Qt with support for Android devices
#* Download the Qt 5.5.0 for Android: https://www.qt.io/download-open-source/#section-2  (32-bit or 64-bit as it fits your host system; usually 64-bit)
#* Variant 1: Offline Installers ("Skip" can be used without problem when asked to register an account)
#* Variant 2: Online installer ("Skip" can be used without problem when asked to register an account)
#* install the following components to /opt/android/Qt5.5.0:
#** Android armv7
#** Qt Creator 3.4.2 (cannot be disabled, some of its tools are used from other parts)
#** Recommended components:
#*** Qt Quick Controls
#*** Qt Location
#*** Qt Script
#*** Optional components (there might be KDE software using it):
#*** Qt WebEngine
#*** Qt Canvas 3D
#*** Qt3D
#*** Qt Quick 1
# Install the following software packages on your host system from your package manager (if not yet installed):
#* CMake: >= 2.8.6
#* Java Development Kit 7 (openjdk-7-jdk)
#* Ant


== Setup Build Environment ==
=== Build Environment ===
The build environment is the name for the shell in that the application is build. The shell is prepared by exporting a series of environment variables that then are picked up by the build scripts.
There are different ways to setup a build environment:
<syntaxhighlight lang="bash">
# '''[https://develop.kde.org/docs/packaging/android/building_applications/ Use Ready-to-Build Docker Container with Craft]''' - This is the most convenient way to setup a system. It also brings the advantage to have a clear separation between your Linux build system and your cross-compile system; in particularly when you require several cross-compiled libraries for your application.
export ADIR=/opt/android
# '''[[Android/Environment|Setup your Build Environment Manually]]''' - This tutorial for setting up the cross-compiling environment requires considerably more time and brings the disadvantage to make no clear separation between your system and the cross-compile environment.
export ANDROID_NDK=$ADIR/android-ndk-r10e
# '''DEPRECATED [[Android/Environment_via_Container|Use Ready-to-Build Docker Container with android tooling]]''' - This works very similar to using Craft since it uses a docker environment too. However the tooling is now deprecated and no longer supported. You should use Craft in a container instead.
export ANDROID_SDK_ROOT=$ADIR/android-sdk-linux
export Qt5_android=$ADIR/Qt5.5.0/5.5/android_armv7/
export ANDROID_API_VERSION=android-22
export PATH=$ADIR/android-sdk-linux/platform-tools/:$PATH
# adapt the following path to your ant installation
export ANT=/usr/bin/ant
# adapt the following path to your openjdk location, eg:
# openSUSE:/usr/lib64/jvm/java
#  Debian: /usr/lib/jvm/java-7-openjdk-amd64
export JAVA_HOME=/usr/lib/jvm/java-7-openjdk/
</syntaxhighlight>


'''Some notes:'''
You can also get the binaries from binary-factory.kde.org. Here's some explanation about how it works:
* /opt/android should be replaced with the custom build folder selected by you
* Java platform 7 is needed (both JRE and JDK). One can select the Java platform versions e.g. with <code>update-alternatives --config java</code> and <code>update-alternatives --config javac</code>
* Use <code>jrunscript -e 'java.lang.System.out.println(java.lang.System.getProperty("java.home"));'</code> to find the JAVA_HOME


== Building==
https://community.kde.org/Android/BinaryFactory


=== Example: Building Marble ===
=== Building===
The following examples do not apply if you use Craft to build the software.
==== Example: Building Marble ====
<syntaxhighlight lang="bash">
<syntaxhighlight lang="bash">
cd /opt/android
cd /opt/android
Line 82: Line 29:
mkdir marble/build
mkdir marble/build
cd marble/build
cd marble/build
cmake -DCMAKE_BUILD_TYPE=Release -DCMAKE_TOOLCHAIN_FILE=/PATH/TO/ECM/toolchain/Android.cmake -DCMAKE_PREFIX_PATH=$Qt5_android -DQT_NO_WEBKIT=TRUE -DQT_NO_PRINTER=TRUE  -DQT_NO_DBUS=TRUE -DCMAKE_INSTALL_PREFIX=../export  ..
cmake -DCMAKE_TOOLCHAIN_FILE=/PATH/TO/ECM/toolchain/Android.cmake -DECM_ADDITIONAL_FIND_ROOT_PATH=${Qt5_android} -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=../export  ..
make install/strip
make install/strip
</syntaxhighlight>
</syntaxhighlight>
'''Note:'''
'''Note:'''
* <code>/PATH/TO/ECM/toolchain/Android.cmake</code> must be replaced with the actual path to toolchain/Android.cmake
* <code>/PATH/TO/ECM/toolchain/Android.cmake</code> must be replaced with the actual path to toolchain/Android.cmake, if using the docker image it probably is at /opt/android/kde/install/share/ECM/toolchain/Android.cmake
* <code>make install/strip</code> strips build symbols from the binaries and reduces sizes considerably
* <code>make install/strip</code> strips build symbols from the binaries and reduces sizes considerably


=== Building with KDESRC-BUILD ===
==== Building with KDESRC-BUILD ====
For building the below mentioned frameworks on Android, you can use the following kdesrc-buildrc config file:
For building the below mentioned frameworks on Android, you can use the following kdesrc-buildrc config file:
<syntaxhighlight lang="bash">
<syntaxhighlight lang="bash">
Line 95: Line 42:
git clone git://anongit.kde.org/scratch/cordlandwehr/kdesrc-conf-android.git
git clone git://anongit.kde.org/scratch/cordlandwehr/kdesrc-conf-android.git
mkdir -p extragear/kdesrc-build
mkdir -p extragear/kdesrc-build
git clone kde:kdesrc-build extragear/kdesrc-build
git clone git://anongit.kde.org/kdesrc-build extragear/kdesrc-build
ln -s extragear/kdesrc-build/kdesrc-build kdesrc-build
ln -s extragear/kdesrc-build/kdesrc-build kdesrc-build
ln -s kdesrc-conf-android/kdesrc-buildrc kdesrc-buildrc
ln -s kdesrc-conf-android/kdesrc-buildrc kdesrc-buildrc
Line 102: Line 49:


== Packaging and Deployment of APKs ==
== Packaging and Deployment of APKs ==
{{Note|See ECM Toolchain documentation, to be added here as example}}


== Status of KDE Frameworks 5 ==
See [https://api.kde.org/ecm/toolchain/Android.html ECM Android Toolchain] documentation.
The following frameworks can currently be used for Qt5/KF5 based applications. They are not (yet?) provided as precompiled libraries but can easily be compiled via kdesrc-build.
 
=== Built Successfully ===
== KDE Frameworks 5 & Third Party Libraries ==
* kconfig (note: unit tests must be disabled)
 
* kcompletion
=== KDE Frameworks 5 ===
* kitemmodels
* supported frameworks are listed at [https://api.kde.org]
* kitemviews
 
* kcodecs
=== Third Party Libraries ===
* karchive
* [https://github.com/j-jorge/libintl-lite libintl-lite]: is required for KI18n, since [https://en.wikipedia.org/wiki/Bionic_%28software%29 BIONIC] does not fully support gettext
* kguiaddons
* kwidgetsaddons
* attica
* kdnssd
* kapidox
* kimageformats
* kplotting
=== Current Blockers ===
The following frameworks cannot yet be built and block building of further Tier 1 frameworks:
* kcoreaddons: unix specific backend not compatible with Android's libc
* ki18n: dependency on libintl, which is not available on Android
** usage of libintl-light currently under investigation


== Further References ==
== Further References ==
==== References: ====
=== References: ===
* [https://phabricator.kde.org/project/profile/45/ Phabricator Project]
* Extra-CMake-Modules Toolchain: [http://api.kde.org/ecm/toolchain/Android.html API documentation]
* Extra-CMake-Modules Toolchain: [http://api.kde.org/ecm/toolchain/Android.html API documentation]


==== Application specific build instructions: ====
=== Application specific build instructions: ===
* Marble: [https://techbase.kde.org/Projects/Marble/AndroidCompiling build instructions]
* Marble: [[Marble/AndroidCompiling | build instructions]]


==== Blog posts about building for Android (careful: instructions may be outdated) ====
=== Blog posts about building for Android (careful: instructions may be outdated) ===
* 2015-09 - Dennis Nienhüser: [http://nienhueser.de/blog/?p=614 Announcing Marble Maps for Android Open Beta]
* 2015-09 - Dennis Nienhüser: [http://nienhueser.de/blog/?p=614 Announcing Marble Maps for Android Open Beta]
* 2015-04 - Péterffy Gábor: [http://pgabor.blogspot.de/2015/05/it-is-official-marble-is-coming-to.html Marble is coming to Android]
* 2015-04 - Péterffy Gábor: [http://pgabor.blogspot.de/2015/05/it-is-official-marble-is-coming-to.html Marble is coming to Android]
* 2015-01 - GCompris Devels: [http://gcompris.net/newsall-en.html#2015-01-06 GCompris is now released on Android]
* 2015-01 - GCompris Devels: [http://gcompris.net/newsall-en.html#2015-01-06 GCompris is now released on Android]
* 2014-06 - Alex Pol: [http://www.proli.net/2014/06/12/kde-software-on-android/ KDE Software on Android]
* 2014-06 - Aleix Pol: [http://www.proli.net/2014/06/12/kde-software-on-android/ KDE Software on Android]
 
== Current TODOS ==
* add ported applications to kdesrc file -> CoLa
* provide preconfigured docker image for the whole setup -> CoLa
* provide small example project to test building and deploying: -> Friedrich (?)

Latest revision as of 01:56, 11 June 2023

KDE Software on Android

Android is currently the mobile platform regarding market share and number of provided applications. Hence, it is a platform very well suited to increase the availability and usage of applications by the KDE community.

Contact

For questions and discussion around KDE software on Android join our Matrix channel and mailing list.

Getting Applications

Stable releases for our Android apps are available on Google Play and F-Droid.

Nightly test builds can be found in the Nightly F-Droid repo.

Build Environment

There are different ways to setup a build environment:

  1. Use Ready-to-Build Docker Container with Craft - This is the most convenient way to setup a system. It also brings the advantage to have a clear separation between your Linux build system and your cross-compile system; in particularly when you require several cross-compiled libraries for your application.
  2. Setup your Build Environment Manually - This tutorial for setting up the cross-compiling environment requires considerably more time and brings the disadvantage to make no clear separation between your system and the cross-compile environment.
  3. DEPRECATED Use Ready-to-Build Docker Container with android tooling - This works very similar to using Craft since it uses a docker environment too. However the tooling is now deprecated and no longer supported. You should use Craft in a container instead.

You can also get the binaries from binary-factory.kde.org. Here's some explanation about how it works:

https://community.kde.org/Android/BinaryFactory

Building

The following examples do not apply if you use Craft to build the software.

Example: Building Marble

cd /opt/android
git clone kde:marble
mkdir marble/build
cd marble/build
cmake -DCMAKE_TOOLCHAIN_FILE=/PATH/TO/ECM/toolchain/Android.cmake -DECM_ADDITIONAL_FIND_ROOT_PATH=${Qt5_android} -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=../export  ..
make install/strip

Note:

  • /PATH/TO/ECM/toolchain/Android.cmake must be replaced with the actual path to toolchain/Android.cmake, if using the docker image it probably is at /opt/android/kde/install/share/ECM/toolchain/Android.cmake
  • make install/strip strips build symbols from the binaries and reduces sizes considerably

Building with KDESRC-BUILD

For building the below mentioned frameworks on Android, you can use the following kdesrc-buildrc config file:

cd /opt/android
git clone git://anongit.kde.org/scratch/cordlandwehr/kdesrc-conf-android.git
mkdir -p extragear/kdesrc-build
git clone git://anongit.kde.org/kdesrc-build extragear/kdesrc-build
ln -s extragear/kdesrc-build/kdesrc-build kdesrc-build
ln -s kdesrc-conf-android/kdesrc-buildrc kdesrc-buildrc
./kdesrc-build extra-cmake-modules frameworks-android

Packaging and Deployment of APKs

See ECM Android Toolchain documentation.

KDE Frameworks 5 & Third Party Libraries

KDE Frameworks 5

  • supported frameworks are listed at [1]

Third Party Libraries

Further References

References:

Application specific build instructions:

Blog posts about building for Android (careful: instructions may be outdated)