9c0d40fbc7
Change-Id: I651b7f202fa52ff5f5357a11aa72c43eb7dc7f95 Reviewed-on: https://gerrit.libreoffice.org/64102 Tested-by: Jenkins Reviewed-by: Bartosz Kosiorek <gang65@poczta.onet.pl>
248 lines
9.4 KiB
Text
248 lines
9.4 KiB
Text
Cross-compiling LibreOffice
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***************************
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Cross-compilation works, to various degree, to the following
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platforms: iOS, Android, and Raspbian.
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Note that this document has not been updated very often, and not
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everything here necessarily is true any more.
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General
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-------
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In GNU Autoconf terminology, "build" is the platform on which you are
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running a build of some software and "host" is the platform on which
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the software you are building will run. Only in the specific case of
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building compilers and other programming tools is the term "target"
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used to indicate the platform for which the tools your are building
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will produce code. As LibreOffice is not a compiler, the "target" term
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should not be used in the context of cross-compilation.
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(For a case where all three of "build", "host" and "target" are
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different: consider a gcc cross-compiler running on Windows, producing
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code for Android, where the cross-compiler itself was built on
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Linux. (This is a real case.) An interesting tidbit is that such
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configurations are called "Canadian Cross".)
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Even though the LibreOffice build mechanism is highly unorthodox, the
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configure script takes the normal --build and --host options like any
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GNU Autoconf -based configure script. To cross-compile, you basically
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need just to specify a suitable --host option and things should work
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out nicely. In practice, many details need to be handled. See examples
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below.
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Note that in the case of LibreOffice, it is uncommon to run the
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configure script directly. Normally one uses the autogen.sh script.
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The autogen.sh script reads command-line options from file called
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autogen.input if it exists. The typical way of working is to keep
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the configure parameters in that file and edit it as needed.
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What is so hard, then?
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----------------------
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Despite the fact that the configure script takes normal --build and
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--host options, that is just the beginning. It was necessary to
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separate tests for "host" and "build" platforms in the configure
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script. See the git log for details. And the reasonably "standard"
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configure.in is just the top level; when we get down to the actual
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makefilery used to build the bits of LibreOffice, it gets much worse.
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iOS
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***
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iOS is the operating system on Apple's mobile devices. Clearly for a
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device like the iPad it would not be acceptable to run a normal
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LibreOffice application with overlapping windows and mouse-oriented
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GUI widgets.
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It makes sense to use only a part of LibreOffice's code for iOS. Lots
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of the GUI-oriented code should be left out. iOS apps that want to use
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the applicable LibreOffice code will handle all their GUI in a
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platform-dependent manner. How well it will be possible to do such a
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split remains to be seen.
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Obviously we want it to be possible to eventually distribute apps
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using LibreOffice code through the App Store. Technically, one
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important special aspect of iOS is that apps in the App Store are not
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allowed to load own dynamic libraries. (System libraries are used in
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the form of dynamic libraries, just like on macOS, of which iOS is
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a variant.)
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Thus all the libraries in LibreOffice that normally are shared
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libraries (DLLs on Windows, shared objects (.so) on Linux, dynamic
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libraries on macOS (.dylib)) must be built as static archives
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instead. This has some interesting consequences for how UNO is
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implemented and used.
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An iOS app is a "bundle" that contains a single executable. In an app
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using LibreOffice code, that executable then contains the necessary
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LibreOffice libraries and UNO components statically linked.
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The Apple tool-chain for iOS cross-building is available only for OS
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X. In order to be able to run and debug an app on an actual device
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(and not just the iOS Simulator) you need to be registered in the iOS
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Developer Program.
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Here is an autogen.input for iOS (device) using Xcode 4.6, on macOS 10.8:
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--build=i386-apple-darwin10.7.0
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--host=arm-apple-darwin10
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--enable-dbgutil
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--enable-debug
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--enable-werror
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For the iOS Simulator, but note that building for the simulator is
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broken at the moment (July 2014):
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--build=i386-apple-darwin10.7.0
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--host=arm-apple-darwin10
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--enable-ios-simulator
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--enable-dbgutil
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--enable-debug
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--enable-werror
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You will have to install autoconf and automake yourself before running
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autogen.sh. They are no longer included in Xcode 4.3 and later (not
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even in the add-on "command line tools").
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The -mmacosx-version-min=10.7 is necessary when building for the iOS
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simulator to avoid clang replacing simple calls to fprintf with calls
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to fwrite$UNIX2003 which Xcode then warns that doesn't exist on iOS.
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Android
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*******
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From a technical point of view the core Android OS (the kernel) is
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Linux, but everything else is different. Unlike iOS, an Android app
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can use shared objects just fine, so that aspect of UNO doesn't need
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special handling. Except that there is a silly low limit in the
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Android dynamic linker on the number of libraries you can dlopen. This
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is a limitation in user-level (but system-provided and not really
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replaceable) code, not the kernel.
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Thus, just like for iOS, also for Android the LibreOffice libraries
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and UNO components are built as static archives. For Android, those
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static archives, and any app-specific native code, are linked into one
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single app-specific shared library, called liblo-native-code.so.
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For the GUI, the same holds as said above for iOS. The GUI layer needs
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to be platform-specific, written in Java.
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Android cross-compilation work has been done mainly on Linux (openSUSE
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in particular). Earlier also cross-compiling from macOS was tried. The
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Android cross-compilation tool-chain (the "Native Development Kit", or
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NDK) is available for Linux, macOS and Windows, but trying to
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cross-compile LibreOffice from Windows will probably drive you insane.
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You will also need the Android SDK as full "make" also builds a couple
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of Android apps where the upper layer is written in Java.
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Use the "android" tool from the SDK to install the SDK Tools, SDK
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Platform Tools, the API 15 SDK Platform and the Android Support
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Library. If you want to run the Android apps in the emulator, you of
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course need an appropriate system image for that.
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Here is an autogen.input for Android on ARM when cross-compiling
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from Linux:
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--enable-dbgutil
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--enable-werror
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--with-distro=LibreOfficeAndroid
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And here is an (quite old) autogen.input for Android on X86:
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--with-android-ndk=/opt/libreoffice/android-ndk-r8b
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--with-android-ndk-toolchain-version=4.6
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--with-android-sdk=/opt/libreoffice/android-sdk-linux
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--build=i586-suse-linux
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--enable-ccache
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--with-distro=LibreOfficeAndroidX86
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A LibreOffice app for Android is being developed progress in the
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android/source directory.
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To run the app, do "make install" followed by either "make run" or
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starting it from Android itself. You most likely want to have an "adb logcat"
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running in another window. To debug, run "make debugrun".
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NB: If you happen to upgrade to Android SDK Tools 23, and the build (using
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'make verbose=t android') fails for you with:
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[dx] UNEXPECTED TOP-LEVEL EXCEPTION:
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[dx] java.io.FileNotFoundException: /local/libreoffice/android-sdk-linux/tools/support/annotations.jar (no such file or directory)
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you need to copy the annotations.jar from an older sdk; like
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wget 'http://dl-ssl.google.com/android/repository/tools_r22.6.2-linux.zip'
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unzip tools_r22.6.2-linux.zip
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cp tools/support/annotations.jar <android-sdk-linux>/tools/support/
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Raspbian
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********
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In theory, this should work also for another Linux, it does not need to be Raspbian.
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But this cross-compilation work is tested from Debian and openSUSE to Raspbian.
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You will need headers, pkg-config files and libraries from a Raspbian
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system to build against. Available at
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https://dev-www.libreoffice.org/extern/ . Look for the latest
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raspbian-root-*.tar.gz . For instance:
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$ wget https://dev-www.libreoffice.org/extern/raspbian-root-20140120.tar.gz
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$ mkdir raspbian-root
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$ cd raspbian-root
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$ tar -xf raspbian-root-20140120.tar.gz
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You can build cross-compiler yourself or get the executables here:
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$ git clone git://github.com/raspberrypi/tools
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tools/arm-bcm2708/gcc-linaro-arm-linux-gnueabihf-raspbian is known to work.
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Then create pkg-config wrapper, something like:
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$ cat > pkg-config-wrapper-host << _EOF
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#!/bin/sh
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if [ "$CROSS_COMPILING" = TRUE ]; then
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SYSROOT=$HOME/lo/raspbian-root
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export PKG_CONFIG_PATH=${SYSROOT}/usr/lib/arm-linux-gnueabihf/pkgconfig:${SYSROOT}/usr/share/pkgconfig
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export PKG_CONFIG_LIBDIR=${SYSROOT}/usr/lib/pkgconfig
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export PKG_CONFIG_SYSROOT_DIR=${SYSROOT}
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fi
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exec pkg-config "\$@"
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_EOF
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$ chmod +x pkg-config-wrapper-host
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This does not work with pkg-config 0.23. 0.26 is known to work.
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And you are ready to build with autogen.input similar to:
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PKG_CONFIG=<path-to-pkg-config-wrapper-host>
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CC=<path-to-arm-linux-gnueabihf-gcc> --sysroot=<path-to-raspbian_rootfs>
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CXX=<path-to-arm-linux-gnueabihf-g++> --sysroot=<path-to-raspbian_rootfs>
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--build=x86_64-unknown-linux-gnu
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--host=arm-unknown-linux-gnueabihf
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--disable-sdk
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--enable-python=system
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PYTHON_CFLAGS=-I<path-to-raspbian_rootfs>/usr/include/python2.7
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PYTHON_LIBS=-lpython2.7
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--with-java
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JAVAINC=-I<path-to-raspbian_rootfs>/usr/lib/jvm/java-6-openjdk-armhf/include
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--with-system-cairo
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--with-system-cppunit
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--with-system-icu
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--with-system-neon
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--with-system-nss
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--with-system-openldap
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--with-system-openssl
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--with-system-redland
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Finally, when you are ready to run the binaries in Raspbian,
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you may need to get more system libraries, who knows.
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$ sudo apt-get install libreoffice # or similar
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That installs libreoffice too, which you don't need because you have
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just built one, but I don't know how to avoid it easily.
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