(Removed references to the mingw_pkg_name macro and explained the change in behaviour of the mingw_build_win32 and mingw_build_win64 flags) |
(Removed references to the mingw_default_requires macro) |
||
Line 65: | Line 65: | ||
Each cross compiled MinGW package which builds binaries for a specific target should put the binaries for that target in a separate subpackage. So if a package <code>foo</code> builds binaries for the Win32 and Win64 targets, then the source RPM should provide two subpackages named <code>mingw32-foo</code> and <code>mingw64-foo</code>. | Each cross compiled MinGW package which builds binaries for a specific target should put the binaries for that target in a separate subpackage. So if a package <code>foo</code> builds binaries for the Win32 and Win64 targets, then the source RPM should provide two subpackages named <code>mingw32-foo</code> and <code>mingw64-foo</code>. | ||
This means that a spec file must contains %package and %files sections for all the targets. | This means that a spec file must contains %package and %files sections for all the targets. | ||
Line 74: | Line 72: | ||
For example: when a spec file contains something like this: | For example: when a spec file contains something like this: | ||
<pre> | <pre> | ||
%install | %install | ||
<snip> | <snip> |
Revision as of 10:11, 15 April 2012
Packaging Guidelines for MinGW Cross Compilers
Introduction
The Fedora MinGW project's mission is to provide an excellent development environment for Fedora users who wish to cross-compile their programs to run on Windows, minimizing the need to use Windows at all. In the past developers have had to port and compile all of the libraries and tools they have needed, and this huge effort has happened independently many times over. We aim to eliminate duplication of work for application developers by providing a range of libraries and development tools which have already been ported to the MinGW cross-compiler environment. This means that developers will not need to recompile the application stack themselves, but can concentrate just on the changes needed to their own application.
As of Fedora 17 a set of RPM macros and packages have been introduced which help packagers compile binaries for multiple targets. The targets Win32 and Win64 are supported.
Track Fedora native package versions
In general terms, cross-compiled MinGW versions of packages which are already natively available in Fedora, should follow the native Fedora package as closely as possible. This means they should stay at the same version, include all the same patches as the native Fedora package, and be built with the same configuration options.
The MinGW SIG have written an RPM comparison tool which makes it possible to compare cross compiled MinGW packages with the Fedora native packages, in order to determine whether versions, patches and configuration are aligned.
Follow Fedora policy
Cross compiled MinGW packages must follow Fedora policy, except where noted in this document. Cross compiled packages go through the same review process, GIT admin process etc as other Fedora packages.
Package naming
MinGW source packages should be named by prefixing the Fedora native package name with mingw-
. The binary packages generated from this should be prefixed according to which platform they're being built for:
mingw32- |
Used for packages which are built for Win32 |
mingw64- |
Used for packages which are built for Win64 |
Base packages
The base packages provide a root filesystem, base libraries, binutils (basic programs like 'strip', 'ld' etc), the compiler (gcc) and the Win32/Win64 API. Packages may need to depend on one or more of these. In particular, almost all packages should BuildRequire mingw-filesystem
, mingw32-gcc
and mingw64-gcc
. The correct Requires flags will get added automatically when the %?mingw_package_header
macro is mentioned in the spec file (as will be described later on in these guidelines)
mingw-filesystem |
Core filesystem directory layout, and RPM macros for spec files. Equivalent to 'filesystem' RPM |
mingw32-binutils / mingw64-binutils |
Cross-compiled binutils (utilities like 'strip', 'as', 'ld') which understand Windows executables and DLLs. Equivalent to 'binutils' RPM |
mingw32-gcc / mingw64-gcc |
GNU compiler collection. Compilers for C and C++ which cross-compile to a Windows target. Equivalent to gcc RPM |
mingw32-crt / mingw64-crt |
Base libraries for core MinGW runtime & development environment. Equivalent to 'glibc' RPM |
mingw32-headers / mingw64-headers |
Win32 and Win64 API. A free (public domain) reimplementation of the header files required to link to the Win32 and Win64 API. No direct equivalent in base Fedora - glibc-devel is closest |
Build for multiple targets
The goal of the MinGW framework is to provide an easy way for package maintainers to build their packages for multiple targets using one .spec file. To aid developers in this several RPM macros have been developed which are part of the mingw-filesystem package. These RPM macros will be explained later on in these guidelines.
By default a MinGW package will be built for both the Win32 and Win64 targets.
When a package can only be built for either one of these targets this can be indicated by setting one of these:
%global mingw_build_win32 0 |
Don't build for the Win32 target |
%global mingw_build_win64 0 |
Don't build for the Win64 target |
One source RPM, separate binary RPMs per-target
Each cross compiled MinGW package which builds binaries for a specific target should put the binaries for that target in a separate subpackage. So if a package foo
builds binaries for the Win32 and Win64 targets, then the source RPM should provide two subpackages named mingw32-foo
and mingw64-foo
.
This means that a spec file must contains %package and %files sections for all the targets.
If a package contains translations then all calls to the %find_lang
must be replaced by %mingw_find_lang
.
This causes all translation filelists to be split in per-target filelists.
For example: when a spec file contains something like this:
%install <snip> %mingw_find_lang foo
then two files will get created named mingw32-foo.lang
and mingw64-foo.lang
.
These file lists can be included in the %files section for the targets:
%files -n mingw32-foo -f mingw32-foo.lang <snip> %files -n mingw64-foo -f mingw64-foo.lang
Filesystem layout
[root] | +- etc | | | +- rpm | | | +- macros.mingw | +- macros.mingw32 | +- macros.mingw64 | +- usr | +- bin - Links to MinGW cross compiler toolchain | | | +- i686-w64-mingw32-cpp | +- i686-w64-mingw32-gcc | +- i686-w64-mingw32-g++ | +- x86_64-w64-mingw32-cpp | +- x86_64-w64-mingw32-gcc | +- x86_64-w64-mingw32-g++ | +- ... etc.. | +- lib | | | +- rpm | | | +- mingw-find-debuginfo.sh - extract debug information from Win32 and Win64 binaries | +- mingw-find-lang.sh - generates per-target file lists containing translations | +- mingw-find-provides.sh - extra DLL names | +- mingw-find-requires.sh - discover required DLL names | +- i686-w64-mingw32 - root of mingw toolchain and binaries for the Win32 target - see next diagram +- x86_64-w64-mingw32 - root of mingw toolchain and binaries for the Win64 target - see next diagram
/usr/i686-w64-mingw32 /usr/x86_64-w64-mingw32 | +- bin - Binutils toolchain binaries for the target | | | +- ar | +- as | +- dlltool | +- ld | +- ... etc ... | +- lib - Binutils toolchain support libraries / files for the target | +- sys-root - root for cross compiled MinGW binaries | +- mingw | +- bin - cross-compiled MinGW binaries & runtime DLL parts +- etc - configuration files +- include - include files for cross compiled MinGW libs +- lib - cross-compiled static MinGW libraries & linktime DLL parts | | | +- pkgconfig - pkg-config definitions for libraries | +- share | +- man
Filenames of the cross-compilers and binutils
The MinGW cross-compilers and binutils are Fedora binaries and are therefore placed in %{_bindir}
(ie. /usr/bin
) according to the FHS and Fedora guidelines.
The MinGW cross-compilers and binutils which generate i686 binaries for Windows are named:
%{_bindir}/i686-w64-mingw32-gcc %{_bindir}/i686-w64-mingw32-g++ %{_bindir}/i686-w64-mingw32-ld %{_bindir}/i686-w64-mingw32-as %{_bindir}/i686-w64-mingw32-strip etc.
The same binaries are present in
%{_prefix}/i686-w64-mingw32/bin
without any prefix in the
name, ie:
%{_prefix}/i686-w64-mingw32/bin/gcc %{_prefix}/i686-w64-mingw32/bin/g++ %{_prefix}/i686-w64-mingw32/bin/ld %{_prefix}/i686-w64-mingw32/bin/as %{_prefix}/i686-w64-mingw32/bin/strip etc.
The same also applies for the x86_64 target. This target uses 'x86_64-w64-mingw32' as prefix instead of 'i686-w64-mingw32'
Naming of the root filesystem
The root filesystem contains Windows executables and DLLs and any other Windows-only files. It is necessary both because we need to store Windows libraries in order to link further libraries which depend on them, and also because MinGW requires a root filesystem location.
The location for Win32 target is provided by the macro:
%{mingw32_sysroot} %{_prefix}/i686-w64-mingw32/sys-root
And the Win64 target is provided by the macro:
%{mingw64_sysroot} %{_prefix}/x86_64-w64-mingw32/sys-root
Standard mingw RPM macros
The mingw-filesystem
package provides a number of convenience macros for the cross compiled sysroot directories, and
toolchain. It is mandatory to use these macros in all MinGW cross compiled packages submitted to Fedora.
Toolchain macros
The following macros are for the %build and %install section of the spec
Generic macros:
mingw_cmake | Call the cmake binary for all the configured targets (mingw_build_win32/mingw_build_win64) |
mingw_configure | Call the configure command for all the configured targets (mingw_build_win32/mingw_build_win64) |
mingw_make | Call the 'make' command for all the configured targets (mingw_build_win32/mingw_build_win64) |
mingw_make_install | Call the 'make install' command for all the configured targets (mingw_build_win32/mingw_build_win64) |
mingw_objcopy | cross compiler 'objcopy' binary (which supports both Win32 and Win64 binaries) |
mingw_objdump | cross compiler 'objdump' binary (which supports both Win32 and Win64 binaries) |
mingw_strip | cross compiler 'strip' binary (which supports both Win32 and Win64 binaries) |
Win32 specific macros:
mingw32_ar | i686-w64-mingw32-ar | cross compiler 'ar' binary |
mingw32_cc | i686-w64-mingw32-gcc | cross compiler 'gcc' binary |
mingw32_cflags | -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions --param=ssp-buffer-size=4 -mms-bitfields | Default compiler flags for C/C++ binaries |
mingw32_cmake | Call the cmake binary for the Win32 target | |
mingw32_configure | standard invocation for autotools 'configure' scripts | |
mingw32_cpp | i686-w64-mingw32-gcc -E | cross compiler 'cpp' binary |
mingw32_env | Set the correct environment variables for the Win32 target | |
mingw32_host | i686-w64-mingw32 | Host platform for build |
mingw32_objcopy | i686-w64-mingw32-objcopy | cross compiler 'objcopy' binary |
mingw32_objdump | i686-w64-mingw32-objdump | cross compiler 'objdump' binary |
mingw32_pkg_config | Call the pkg-config command for the Win32 target | |
mingw32_ranlib | i686-w64-mingw32-ranlib | cross compiler 'ranlib' binary |
mingw32_strip | i686-w64-mingw32-strip | cross compiler 'strip' binary |
mingw32_target | i686-w64-mingw32 | Target platform for build |
Win64 specific macros:
mingw64_ar | x86_64-w64-mingw32-ar | cross compiler 'ar' binary |
mingw64_cc | x86_64-w64-mingw32-gcc | cross compiler 'gcc' binary |
mingw64_cflags | -O2 -g -pipe -Wall -Wp,-D_FORTIFY_SOURCE=2 -fexceptions --param=ssp-buffer-size=4 -mms-bitfields | Default compiler flags for C/C++ binaries |
mingw64_cmake | Call the cmake binary for the Win64 target | |
mingw64_configure | standard invocation for autotools 'configure' scripts | |
mingw64_cpp | x86_64-w64-mingw32-gcc -E | cross compiler 'cpp' binary |
mingw64_env | Set the correct environment variables for the Win64 target | |
mingw64_host | x86_64-w64-mingw32 | Host platform for build |
mingw64_objcopy | x86_64-w64-mingw32-objcopy | cross compiler 'objcopy' binary |
mingw64_objdump | x86_64-w64-mingw32-objdump | cross compiler 'objdump' binary |
mingw64_pkg_config | Call the pkg-config command for the Win64 target | |
mingw64_ranlib | x86_64-w64-mingw32-ranlib | cross compiler 'ranlib' binary |
mingw64_strip | x86_64-w64-mingw32-strip | cross compiler 'strip' binary |
mingw64_target | x86_64-w64-mingw32 | Target platform for build |
Filesystem location macros
The following macros are for use in %build, %install and %files sections of the RPM spec
For the Win32 target:
mingw32_bindir | %{mingw32_prefix}/bin | Location of Windows executables. |
mingw32_datadir | %{mingw32_prefix}/share | Shared data used under Windows. |
mingw32_docdir | %{mingw32_prefix}/share/doc | Documentation. |
mingw32_infodir | %{mingw32_prefix}/share/info | Info files (see note below). |
mingw32_includedir | %{mingw32_prefix}/include | Header files used when cross-compiling for Windows. |
mingw32_libdir | %{mingw32_prefix}/lib | Windows libraries (see sections below). |
mingw32_libexecdir | %{mingw32_prefix}/libexec | |
mingw32_mandir | %{mingw32_prefix}/share/man | Man pages (see note below). |
mingw32_prefix | %{mingw32_sysroot}/mingw | Windows equivalent of %{_prefix}, required by MinGW. |
mingw32_sbindir | %{mingw32_prefix}/sbin | |
mingw32_sysconfdir | %{mingw32_prefix}/etc | Configuration files used when running under Windows. |
mingw32_sysroot | %{_prefix}/i686-w64-mingw32/sys-root | Windows system root. |
For the Win64 target:
mingw64_bindir | %{mingw64_prefix}/bin | Location of Windows executables. |
mingw64_datadir | %{mingw64_prefix}/share | Shared data used under Windows. |
mingw64_docdir | %{mingw64_prefix}/share/doc | Documentation. |
mingw64_infodir | %{mingw64_prefix}/share/info | Info files (see note below). |
mingw64_includedir | %{mingw64_prefix}/include | Header files used when cross-compiling for Windows. |
mingw64_libdir | %{mingw64_prefix}/lib | Windows libraries (see sections below). |
mingw64_libexecdir | %{mingw64_prefix}/libexec | |
mingw64_mandir | %{mingw64_prefix}/share/man | Man pages (see note below). |
mingw64_prefix | %{mingw64_sysroot}/mingw | Windows equivalent of %{_prefix}, required by MinGW. |
mingw64_sbindir | %{mingw64_prefix}/sbin | |
mingw64_sysconfdir | %{mingw64_prefix}/etc | Configuration files used when running under Windows. |
mingw64_sysroot | %{_prefix}/x86_64-w64-mingw32/sys-root | Windows system root. |
Compilation of binaries
In order to build binaries for multiple targets we have to call commands like ./configure
and make
multiple times (once for each target).
If one has to write this all out in a spec file then it will lead to duplicate code.
To reduce the amount of duplication, several RPM macros have been introduced to help with the compilation.
These macros are %mingw_configure
, %mingw_cmake
, %mingw_make
and %mingw_make_install
These macros use out of source compilation to build binaries for all the targets. Almost all packages support out of source compilation or require slight patching. The only known exceptions to date are zlib and openssl. Packages which don't support out of source compilation may require a different approach like performing everything in the %install phase. If you happen to stumble across a package which requires a different approach feel free to contact us on the Fedora MinGW mailing list
There's a difference in the behavior between these macros and the original %{mingw32_xxx}
macros.
As all commands will get executed multiple times (once for each target) arguments to the macros cannot be given if the macro is in curly braces (%{}
). One has to invoke the macro without curly braces for things to work. For example, with the original Fedora MinGW toolchain you could do:
%{mingw32_configure} --disable-xlib --enable-win32
This has to be changed to something like this:
%mingw_configure --disable-xlib --enable-win32
Note that the '{' '}' characters need to be omitted from the mingw_configure macro in this case.
Some packages need to be built multiple times for each target. Examples of this are packages which have to be built once for a static version and once for a shared version. Such packages can add a custom suffix to the build directory used. Say you've got something like below:
mkdir build_shared pushd build_shared %{mingw32_configure} --enable-shared popd mkdir build_static pushd build_static %{mingw32_configure} --enable-static popd
This can be rewritten to something like this:
%mingw_configure -s shared --enable-shared %mingw_configure -s static --enable-static
Most packages used the command make %{?_smp_mflags}
to build the package.
In the MinGW cross compiler framework you have to use %mingw_make %{?_smp_mflags}
to build the package for all configured targets
As with the %mingw_configure
macro you can also use the -s
argument to indicate a custom suffix to the build directory used
To install the package the command make install DESTDIR=$RPM_BUILD_ROOT
was used in almost all cases.
This can be rewritten to %mingw_make_install DESTDIR=$RPM_BUILD_ROOT
to install the package for all configured targets
The -s
argument can also be used here
Some packages require some custom instructions before the files are ready to be packaged. Such code can remain as is. However, you may need to duplicate these instructions multiple times (for all configured targets).
Dependencies
If a package contains binaries which depend on a DLL provided by another package, these dependencies should be expressed in the form:
mingw32(foo.dll)
where foo.dll
is the name of the DLL. The name must be converted to lowercase because Windows binaries contain case
insensitive dependencies. The form 'mingw32(foo.dll)' should be used for Win32 binaries and the form 'mingw64(foo.dll)' for Win64 binaries.
Correct dependency generation is done automatically. Packagers should include these lines in all library packages:
%global _use_internal_dependency_generator 0 %global __find_requires %{mingw_findrequires} %global __find_provides %{mingw_findprovides}
All binary packages should depend on mingw32-filesystem
or mingw64-filesystem
(depending on the files in the package). If the lines mentioned above are used then it will be added automatically, so you don't have to add it yourself
All specfiles should BuildRequire at least:
BuildRequires: mingw-filesystem >= minimum-version
and any other BuildRequires that they need.
Build architecture
All packages should have:
BuildArch: noarch
unless they contain Fedora native executables.
Libraries (DLLs)
All libraries must be built as DLLs.
Because of the peculiarity of Windows, DLLs are stored in the %{mingw32_bindir}
directory, along with a control file in
the %{mingw32_libdir}
directory. For example, for a library called foo
there would be:
%{mingw32_bindir}/foo.dll %{mingw32_libdir}/foo.dll.a %{mingw32_libdir}/foo.la
The foo.dll
file is the main library, foo.dll.a
is a stub linked to applications so they can find the library at runtime, and foo.la
is a libtool archive so that libtool can link to dependent libraries at build time. All of these files are required in those locations in order to link successfully. The .dll
may contain a version number although not always (eg. foo-0.dll
).
Do not use %{mingw32_bindir}/* or %{mingw32_libdir}/* in %files section
The %files
section must list DLLs separately. Packages must NOT use %{mingw32_bindir}/*
or
%{mingw32_libdir}/*
The reason for this is that libtool is very fragile and will give up on building a DLL very easily. Therefore we force the name of the DLL to be listed explicitly in the %files
section in order to catch this during RPM builds.
Manpages and info files
If manpages or info files are simply duplicates of equivalent documentation found in Fedora native packages, then they should not be packaged in the MinGW package.
Stripping
Libraries and executables should be stripped. This is done correctly and automatically if the spec file includes these lines:
%global __strip %{mingw_strip} %global __objdump %{mingw_objdump}
(Note that if __strip and __objdump are not overridden in the specfile then this can sometimes cause Windows binaries to become corrupted).
Debuginfo subpackage
Most binaries contain debugging symbols when the package gets built. To split the debugging symbols to a separate debuginfo package (as is done with native Fedora packages) the spec file must include these lines:
%define __debug_install_post %{mingw_debug_install_post} %{?mingw_debug_package}
Note that %define
really must be used here. If you use %global
then the automatic generation of a debuginfo subpackage won't work.
Example Specfile
%global __strip %{mingw_strip} %global __objdump %{mingw_objdump} %global _use_internal_dependency_generator 0 %global __find_requires %{mingw_findrequires} %global __find_provides %{mingw_findprovides} %define __debug_install_post %{mingw_debug_install_post} %global mingw_pkg_name example %global mingw_build_win32 1 %global mingw_build_win64 1 Name: mingw-example Version: 1.0.0 Release: 1%{?dist} Summary: MinGW compiled example library License: LGPLv2+ Group: Development/Libraries URL: http://fedoraproject.org Source0: http://fedoraproject.org/example-%{version}.tar.bz2 BuildArch: noarch BuildRequires: mingw-filesystem >= 65 BuildRequires: mingw32-gcc BuildRequires: mingw64-gcc BuildRequires: mingw32-binutils BuildRequires: mingw32-binutils BuildRequires: mingw32-gettext BuildRequires: mingw64-gettext BuildRequires: mingw32-win-iconv BuildRequires: mingw64-win-iconv BuildRequires: mingw32-zlib BuildRequires: mingw64-zlib %{?mingw_debug_package} %description MinGW compiled example library. # Mingw32 %package -n mingw32-%{mingw_pkg_name} Summary: %{summary} %description -n mingw32-%{mingw_pkg_name} MinGW compiled example library. # Mingw64 %package -n mingw64-%{mingw_pkg_name} Summary: %{summary} %description -n mingw64-%{mingw_pkg_name} MinGW compiled example library. # If a package maintainer wishes to bundle static libraries then they # can be placed in -static subpackages. Otherwise, these subpackages # can be dropped %package -n mingw32-%{mingw_pkg_name}-static Summary: Static version of the MinGW compiled example library Requires: mingw32-%{mingw_pkg_name} = %{version}-%{release} %description -n mingw32-%{mingw_pkg_name}-static Static version of the MinGW compiled example library. %package -n mingw64-%{mingw_pkg_name}-static Summary: Static version of the MinGW compiled example library Requires: mingw64-%{mingw_pkg_name} = %{version}-%{release} %description -n mingw64-%{mingw_pkg_name}-static Static version of the MinGW compiled example library. %prep %setup -q -n %{mingw_pkg_name}-%{version} %build %mingw_configure "--enable-static" "--enable-shared" "--enable-foo" %mingw_make %{?_smp_mflags} %install %mingw_make_install "DESTDIR=$RPM_BUILD_ROOT" %mingw_find_lang %{mingw_pkg_name} # Note: there should be no %%files section for the main package! # Win32 %files -n mingw32-%{mingw_pkg_name} -f mingw32-%{mingw_pkg_name}.lang %{mingw32_bindir}/libexample-0.dll %{mingw32_includedir}/example/ %{mingw32_libdir}/libexample.dll.a %{mingw32_libdir}/libexample.la %{mingw32_libdir}/pkgconfig/example.pc # Win64 %files -n mingw64-%{mingw_pkg_name} -f mingw64-%{mingw_pkg_name}.lang %{mingw64_bindir}/libexample-0.dll %{mingw64_includedir}/example/ %{mingw64_libdir}/libexample.dll.a %{mingw64_libdir}/libexample.la %{mingw64_libdir}/pkgconfig/example.pc # Static subpackages are optional (as mentioned earlier) # Win32 %files -n mingw32-%{mingw_pkg_name}-static %{mingw32_libdir}/libexample.a # Win64 %files -n mingw64-%{mingw_pkg_name}-static %{mingw64_libdir}/libexample-0.a %changelog * Wed Apr 6 2011 Erik van Pienbroek <epienbro@fedoraproject.org> - 1.0.0-1 - Initial release