==================== The LLVM gold plugin ==================== Introduction ============ Building with link time optimization requires cooperation from the system linker. LTO support on Linux systems requires that you use the `gold linker`_ which supports LTO via plugins. This is the same mechanism used by the `GCC LTO`_ project. The LLVM gold plugin implements the gold plugin interface on top of :ref:`libLTO`. The same plugin can also be used by other tools such as ``ar`` and ``nm``. .. _`gold linker`: http://sourceware.org/binutils .. _`GCC LTO`: http://gcc.gnu.org/wiki/LinkTimeOptimization .. _`gold plugin interface`: http://gcc.gnu.org/wiki/whopr/driver .. _lto-how-to-build: How to build it =============== You need to have gold with plugin support and build the LLVMgold plugin. Check whether you have gold running ``/usr/bin/ld -v``. It will report "GNU gold" or else "GNU ld" if not. If you have gold, check for plugin support by running ``/usr/bin/ld -plugin``. If it complains "missing argument" then you have plugin support. If not, such as an "unknown option" error then you will either need to build gold or install a version with plugin support. * To build gold with plugin support: .. code-block:: bash $ mkdir binutils $ cd binutils $ cvs -z 9 -d :pserver:anoncvs@sourceware.org:/cvs/src login {enter "anoncvs" as the password} $ cvs -z 9 -d :pserver:anoncvs@sourceware.org:/cvs/src co binutils $ mkdir build $ cd build $ ../src/configure --enable-gold --enable-plugins $ make all-gold That should leave you with ``binutils/build/gold/ld-new`` which supports the ``-plugin`` option. It also built would have ``binutils/build/binutils/ar`` and ``nm-new`` which support plugins but don't have a visible -plugin option, instead relying on the gold plugin being present in ``../lib/bfd-plugins`` relative to where the binaries are placed. * Build the LLVMgold plugin: Configure LLVM with ``--with-binutils-include=/path/to/binutils/src/include`` and run ``make``. Usage ===== The linker takes a ``-plugin`` option that points to the path of the plugin ``.so`` file. To find out what link command ``gcc`` would run in a given situation, run ``gcc -v [...]`` and look for the line where it runs ``collect2``. Replace that with ``ld-new -plugin /path/to/LLVMgold.so`` to test it out. Once you're ready to switch to using gold, backup your existing ``/usr/bin/ld`` then replace it with ``ld-new``. You can produce bitcode files from ``clang`` using ``-emit-llvm`` or ``-flto``, or the ``-O4`` flag which is synonymous with ``-O3 -flto``. Any of these flags will also cause ``clang`` to look for the gold plugin in the ``lib`` directory under its prefix and pass the ``-plugin`` option to ``ld``. It will not look for an alternate linker, which is why you need gold to be the installed system linker in your path. If you want ``ar`` and ``nm`` to work seamlessly as well, install ``LLVMgold.so`` to ``/usr/lib/bfd-plugins``. If you built your own gold, be sure to install the ``ar`` and ``nm-new`` you built to ``/usr/bin``. Example of link time optimization --------------------------------- The following example shows a worked example of the gold plugin mixing LLVM bitcode and native code. .. code-block:: c --- a.c --- #include <stdio.h> extern void foo1(void); extern void foo4(void); void foo2(void) { printf("Foo2\n"); } void foo3(void) { foo4(); } int main(void) { foo1(); } --- b.c --- #include <stdio.h> extern void foo2(void); void foo1(void) { foo2(); } void foo4(void) { printf("Foo4"); } .. code-block:: bash --- command lines --- $ clang -flto a.c -c -o a.o # <-- a.o is LLVM bitcode file $ ar q a.a a.o # <-- a.a is an archive with LLVM bitcode $ clang b.c -c -o b.o # <-- b.o is native object file $ clang -flto a.a b.o -o main # <-- link with LLVMgold plugin Gold informs the plugin that foo3 is never referenced outside the IR, leading LLVM to delete that function. However, unlike in the :ref:`libLTO example <libLTO-example>` gold does not currently eliminate foo4. Quickstart for using LTO with autotooled projects ================================================= Once your system ``ld``, ``ar``, and ``nm`` all support LLVM bitcode, everything is in place for an easy to use LTO build of autotooled projects: * Follow the instructions :ref:`on how to build LLVMgold.so <lto-how-to-build>`. * Install the newly built binutils to ``$PREFIX`` * Copy ``Release/lib/LLVMgold.so`` to ``$PREFIX/lib/bfd-plugins/`` * Set environment variables (``$PREFIX`` is where you installed clang and binutils): .. code-block:: bash export CC="$PREFIX/bin/clang -flto" export CXX="$PREFIX/bin/clang++ -flto" export AR="$PREFIX/bin/ar" export NM="$PREFIX/bin/nm" export RANLIB=/bin/true #ranlib is not needed, and doesn't support .bc files in .a export CFLAGS="-O4" * Or you can just set your path: .. code-block:: bash export PATH="$PREFIX/bin:$PATH" export CC="clang -flto" export CXX="clang++ -flto" export RANLIB=/bin/true export CFLAGS="-O4" * Configure and build the project as usual: .. code-block:: bash % ./configure && make && make check The environment variable settings may work for non-autotooled projects too, but you may need to set the ``LD`` environment variable as well. Licensing ========= Gold is licensed under the GPLv3. LLVMgold uses the interface file ``plugin-api.h`` from gold which means that the resulting ``LLVMgold.so`` binary is also GPLv3. This can still be used to link non-GPLv3 programs just as much as gold could without the plugin.