Cross-compiling tools package guidelines
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This page describes how to create packages for cross-compiler toolchains. Another method to cross-compile makes use of distcc on mixed architectures. See Distcc#Cross compiling with distcc.
Important note
This page describes the new way of doing things, inspired by the following packages:
- mingw-w64-gcc and other packages from
mingw-w64-*
series - arm-none-eabi-gcc and other packages from
arm-none-eabi-*
series - Other packages from
arm-wince-cegcc-*
series
Version compatibility
The following strategies allows you to select compatible versions of gcc, binutils, kernel and C library:
- General rules:
- there is a correlation between gcc and binutils releases, use simultaneously released versions;
- it is better to use latest kernel headers to compile libc but use
--enable-kernel
switch (specific to glibc, other C libraries may use different conventions) to enforce work on older kernels;
- Official repositories: you may have to apply additional fixes and hacks, but versions used by Arch Linux (or its architecture-specific forks) most probably can be made to work together;
- Software documentation: all GNU software have
README
andNEWS
files, documenting things like minimal required versions of dependencies; - Other distributions: they too do cross-compilation
- https://trac.clfs.org covers steps, necessary for building cross-compiler and mentions somewhat up-to-date versions of dependencies.
Building a cross compiler
The general approach to building a cross compiler is:
- binutils: Build a cross-binutils, which links and processes for the target architecture
- headers: Install a set of C library and kernel headers for the target architecture
- use linux-api-headers as reference and pass
ARCH=target-architecture
to make - create libc headers package (process for Glibc is described here)
- use linux-api-headers as reference and pass
- gcc-stage-1: Build a basic (stage 1) gcc cross-compiler. This will be used to compile the C library. It will be unable to build almost anything else (because it cannot link against the C library it does not have).
- libc: Build the cross-compiled C library (using the stage 1 cross compiler).
- gcc-stage-2: Build a full (stage 2) C cross-compiler
The source of the headers and libc will vary across platforms.
--with-build-sysroot=/
to configure
.Package naming
The package name shall not be prefixed with the word cross-
(it was previously proposed, but was not adopted in official packages, probably due to additional length of names), and shall consist of the package name, prefixed by GNU triplet without vendor field or with "unknown" in vendor field; example: arm-linux-gnueabihf-gcc
. If shorter naming convention exists (e.g. mips-gcc
), it may be used, but this is not recommended.
File placement
Latest versions of gcc and binutils use non-conflicting paths for sysroot and libraries. Executables shall be placed into /usr/bin/
, to prevent conflicts here, prefix all of them with architecture name.
Typically, ./configure
would have at least following parameters:
_target=your_target _sysroot=/usr/lib/${_target} ... ./configure \ --prefix=${_sysroot} \ --sysroot=${_sysroot} \ --bindir=/usr/bin
where your_target
can be, e.g., "i686-pc-mingw32".
Example
This is PKGBUILD for binutils for MinGW. Things worth noticing are:
- specifying root directory of the cross-environment
- usage of
${_pkgname}
,${_target}
and${_sysroot}
variables to make the code more readable - removal of the duplicated/conflicting files
# Maintainer: Allan McRae <allan@archlinux.org> # cross toolchain build order: binutils, headers, gcc (pass 1), w32api, mingwrt, gcc (pass 2) _target=i686-pc-mingw32 _sysroot=/usr/lib/${_target} pkgname=${_target}-binutils _pkgname=binutils pkgver=2.19.1 pkgrel=1 pkgdesc="MinGW Windows binutils" arch=('i686' 'x86_64') url="http://www.gnu.org/software/binutils/" license=('GPL') depends=('glibc>=2.10.1' 'zlib') options=('!libtool' '!distcc' '!ccache') source=(http://ftp.gnu.org/gnu/${_pkgname}/${_pkgname}-${pkgver}.tar.bz2) md5sums=('09a8c5821a2dfdbb20665bc0bd680791') build() { cd ${_pkgname}-${pkgver} mkdir binutils-build && cd binutils-build ../configure --prefix=${_sysroot} --bindir=/usr/bin \ --with-sysroot=${_sysroot} \ --build=$CHOST --host=$CHOST --target=${_target} \ --with-gcc --with-gnu-as --with-gnu-ld \ --enable-shared --without-included-gettext \ --disable-nls --disable-debug --disable-win32-registry make make DESTDIR=${pkgdir}/ install # clean-up cross compiler root rm -r ${pkgdir}/${_sysroot}/{info,man} }
configure
and make commands from dedicated directory (so-called out-of-tree compilation) and remove whole src
directory after slightest change in PKGBUILD.Hows and whys
Why not installing into /opt
Two reasons:
- First, according to File Hierarchy Standard, these files just belong somewhere to
/usr
. Period. - Second, installing into
/opt
is a last measure when there is no other option.
What is that "out-of-path executables" thing?
This weird thing allows easier cross-compiling. Sometimes, project Makefiles do not use CC
& co. variables and instead use gcc directly. If you just want to try to cross-compile such project, editing the Makefile could be a very lengthy operation. However, changing the $PATH
to use "our" executables first is a very quick solution. You would then run PATH=/usr/arch/bin/:$PATH make
instead of make
.
Troubleshooting
What to do if compilation fails without clear message?
For error, occurred during running configure
, read $srcdir/pkgname-build/config.log
. For error, occurred during compilation, scroll console log up or search for word "error".
What does this error [error message] means?
Most probably you made some of non-obvious errors:
- Too many or too few configuration flags. Try to use already proven set of flags.
- Dependencies are corrupted. For example misplaced or missing binutils files may result in cryptic error during gcc configuration.
- You did not add
export CFLAGS=""
to yourbuild()
function (see bug 25672 in GCC Bugzilla). - Some
--prefix
/--with-sysroot
combination may require directories to be writable (non-obvious from clfs guides). - sysroot does nor yet has kernel/libc headers.
- If google-fu does not help, immediately abandon current configuration and try more stable/proven one.
Why do files get installed in wrong places?
Various methods of running generic make install
line results in different results. For example, some make targets may not provide DESTDIR
support and instead require install_root
usage. The same for tooldir
, prefix
and other similar arguments. Sometimes providing parameters as arguments instead of environment variables, e.g
./configure CC=arm-elf-gcc
instead of
CC=arm-elf-gcc ./configure
and vice versa may result in different outcomes (often caused by recursive self-invocation of configure/make).