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| =================================================================== | ||
| How To Cross-Compile Clang/LLVM using Clang/LLVM | ||
| =================================================================== | ||
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| Introduction | ||
| ============ | ||
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| This document contains information about building LLVM and | ||
| Clang on host machine, targeting another platform. | ||
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| For more information on how to use Clang as a cross-compiler, | ||
| please check http://clang.llvm.org/docs/CrossCompilation.html. | ||
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| TODO: Add MIPS and other platforms to this document. | ||
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| Cross-Compiling from x86_64 to ARM | ||
| ================================== | ||
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| In this use case, we'll be using CMake and Ninja, on a Debian-based Linux | ||
| system, cross-compiling from an x86_64 host (most Intel and AMD chips | ||
| nowadays) to a hard-float ARM target (most ARM targets nowadays). | ||
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| The packages you'll need are: | ||
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| * cmake | ||
| * ninja-build (from backports in Ubuntu) | ||
| * gcc-4.7-arm-linux-gnueabihf | ||
| * gcc-4.7-multilib-arm-linux-gnueabihf | ||
| * binutils-arm-linux-gnueabihf | ||
| * libgcc1-armhf-cross | ||
| * libsfgcc1-armhf-cross | ||
| * libstdc++6-armhf-cross | ||
| * libstdc++6-4.7-dev-armhf-cross | ||
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| Configuring CMake | ||
| ----------------- | ||
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| For more information on how to configure CMake for LLVM/Clang, | ||
| see :doc:`CMake`. | ||
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| The CMake options you need to add are: | ||
| * -DCMAKE_CROSSCOMPILING=True | ||
| * -DCMAKE_INSTALL_PREFIX=<install-dir> | ||
| * -DLLVM_TABLEGEN=<path-to-host-bin>/llvm-tblgen | ||
| * -DCLANG_TABLEGEN=<path-to-host-bin>/clang-tblgen | ||
| * -DLLVM_DEFAULT_TARGET_TRIPLE=arm-linux-gnueabihf | ||
| * -DLLVM_TARGET_ARCH=ARM | ||
| * -DLLVM_TARGETS_TO_BUILD=ARM | ||
| * -DCMAKE_CXX_FLAGS='-target armv7a-linux-gnueabihf -mcpu=cortex-a9 | ||
| -I/usr/arm-linux-gnueabihf/include/c++/4.7.2/arm-linux-gnueabihf/ | ||
| -I/usr/arm-linux-gnueabihf/include/ -mfloat-abi=hard | ||
| -ccc-gcc-name arm-linux-gnueabihf-gcc' | ||
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| The TableGen options are required to compile it with the host compiler, | ||
| so you'll need to compile LLVM (or at least `llvm-tblgen`) to your host | ||
| platform before you start. The CXX flags define the target, cpu (which | ||
| defaults to fpu=VFP3 with NEON), and forcing the hard-float ABI. If you're | ||
| using Clang as a cross-compiler, you will *also* have to set ``-ccc-gcc-name``, | ||
| to make sure it picks the correct linker. | ||
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| Most of the time, what you want is to have a native compiler to the | ||
| platform itself, but not others. It might not even be feasible to | ||
| produce x86 binaries from ARM targets, so there's no point in compiling | ||
| all back-ends. For that reason, you should also set the "TARGETS_TO_BUILD" | ||
| to only build the ARM back-end. | ||
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| You must set the CMAKE_INSTALL_PREFIX, otherwise a ``ninja install`` | ||
| will copy ARM binaries to your root filesystem, which is not what you | ||
| want. | ||
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| Hacks | ||
| ----- | ||
|
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| There are some bugs in current LLVM, which require some fiddling before | ||
| running CMake: | ||
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| #. If you're using Clang as the cross-compiler, there is a problem in | ||
| the LLVM ARM back-end that is producing absolute relocations on | ||
| position-independent code (R_ARM_THM_MOVW_ABS_NC), so for now, you | ||
| should disable PIC: | ||
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| .. code-block:: bash | ||
| -DLLVM_ENABLE_PIC=False | ||
| This is not a problem, since Clang/LLVM libraries are statically | ||
| linked anyway, it shouldn't affect much. | ||
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| #. The ARM libraries won't be installed in your system, and possibly | ||
| not easily installable anyway, so you'll have to build/download | ||
| them separately. But the CMake prepare step, which check for | ||
| dependencies, will check the `host` libraries, not the `target` | ||
| ones. | ||
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| A quick way of getting the libraries is to download them from | ||
| a distribution repository, like Debian (http://packages.debian.org/wheezy/), | ||
| and download the missing libraries. Note that the `libXXX` | ||
| will have the shared objects (.so) and the `libXXX-dev` will | ||
| give you the headers and the static (.a) library. Just in | ||
| case, download both. | ||
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| The ones you need for ARM are: ``libtinfo``, ``zlib1g``, | ||
| ``libxml2`` and ``liblzma``. In the Debian repository you'll | ||
| find downloads for all architectures. | ||
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| After you download and unpack all `.deb` packages, copy all | ||
| ``.so`` and ``.a`` to a directory, make the appropriate | ||
| symbolic links (if necessary), and add the relevant ``-L`` | ||
| and ``-I`` paths to -DCMAKE_CXX_FLAGS above. | ||
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| Running CMake and Building | ||
| -------------------------- | ||
|
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| Finally, if you're using your platform compiler, run: | ||
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| .. code-block:: bash | ||
| $ cmake -G Ninja <source-dir> <options above> | ||
| If you're using Clang as the cross-compiler, run: | ||
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| .. code-block:: bash | ||
| $ CC='clang' CXX='clang++' cmake -G Ninja <source-dir> <options above> | ||
| If you have clang/clang++ on the path, it should just work, and special | ||
| Ninja files will be created in the build directory. I strongly suggest | ||
| you to run cmake on a separate build directory, *not* inside the | ||
| source tree. | ||
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| To build, simply type: | ||
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| .. code-block:: bash | ||
| $ ninja | ||
| It should automatically find out how many cores you have, what are | ||
| the rules that needs building and will build the whole thing. | ||
|
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| You can't run ``ninja check-all`` on this tree because the created | ||
| binaries are targeted to ARM, not x86_64. | ||
|
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| Installing and Using | ||
| -------------------- | ||
|
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| After the LLVM/Clang has built successfully, you should install it | ||
| via: | ||
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| .. code-block:: bash | ||
| $ ninja install | ||
| which will create a sysroot on the install-dir. You can then TarGz | ||
| that directory into a binary with the full triple name (for easy | ||
| identification), like: | ||
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| .. code-block:: bash | ||
| $ ln -sf <install-dir> arm-linux-gnueabihf-clang | ||
| $ tar zchf arm-linux-gnueabihf-clang.tar.gz arm-linux-gnueabihf-clang | ||
| If you copy that TarBall to your target board, you'll be able to use | ||
| it for running the test-suite, for example. Follow the guidelines at | ||
| http://llvm.org/docs/lnt/quickstart.html, unpack the TarBall in the | ||
| test directory, and use options: | ||
|
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| .. code-block:: bash | ||
| $ ./sandbox/bin/python sandbox/bin/lnt runtest nt \ | ||
| --sandbox sandbox \ | ||
| --test-suite `pwd`/test-suite \ | ||
| --cc `pwd`/arm-linux-gnueabihf-clang/bin/clang \ | ||
| --cxx `pwd`/arm-linux-gnueabihf-clang/bin/clang++ | ||
| Remember to add the ``-jN`` options to ``lnt`` to the number of CPUs | ||
| on your board. Also, the path to your clang has to be absolute, so | ||
| you'll need the `pwd` trick above. |
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