nixpkgs/pkgs/build-support/build-fhsenv-bubblewrap/buildFHSEnv.nix
Sergei Trofimovich 8ffff1e699 buildFHSEnv: don't export multiPaths attribute
`multiPaths` is defined via invalid operation on `null` value for
non-multilib environments. Noticed on `notesnook` evan failure as:

    nix-repl> notesnook.fhsenv.multiPaths
              253|   passthru = {
              254|     inherit args baseTargetPaths targetPaths baseMultiPaths multiPaths ldconfig;
                 |            ^
              255|   };
           error: attempt to call something which is not a function but null

The change makes `multiPaths` a private variable.
2024-01-23 20:24:17 +00:00

264 lines
8.2 KiB
Nix

{ lib
, stdenv
, runCommandLocal
, buildEnv
, writeText
, writeShellScriptBin
, pkgs
, pkgsi686Linux
}:
{ name ? null
, profile ? ""
, targetPkgs ? pkgs: []
, multiPkgs ? pkgs: []
, multiArch ? false # Whether to include 32bit packages
, extraBuildCommands ? ""
, extraBuildCommandsMulti ? ""
, extraOutputsToInstall ? []
} @ args:
# HOWTO:
# All packages (most likely programs) returned from targetPkgs will only be
# installed once--matching the host's architecture (64bit on x86_64 and 32bit on
# x86).
#
# Packages (most likely libraries) returned from multiPkgs are installed
# once on x86 systems and twice on x86_64 systems.
# On x86 they are merged with packages from targetPkgs.
# On x86_64 they are added to targetPkgs and in addition their 32bit
# versions are also installed. The final directory structure looks as
# follows:
# /lib32 will include 32bit libraries from multiPkgs
# /lib64 will include 64bit libraries from multiPkgs and targetPkgs
# /lib will link to /lib32
let
inherit (stdenv) is64bit;
# "use of glibc_multi is only supported on x86_64-linux"
isMultiBuild = multiArch && stdenv.system == "x86_64-linux";
isTargetBuild = !isMultiBuild;
# list of packages (usually programs) which are only be installed for the
# host's architecture
targetPaths = targetPkgs pkgs ++ (if multiPkgs == null then [] else multiPkgs pkgs);
# list of packages which are installed for both x86 and x86_64 on x86_64
# systems
multiPaths = multiPkgs pkgsi686Linux;
# base packages of the chroot
# these match the host's architecture, glibc_multi is used for multilib
# builds. glibcLocales must be before glibc or glibc_multi as otherwiese
# the wrong LOCALE_ARCHIVE will be used where only C.UTF-8 is available.
baseTargetPaths = with pkgs; [
glibcLocales
(if isMultiBuild then glibc_multi else glibc)
(toString gcc.cc.lib)
bashInteractiveFHS
coreutils
less
shadow
su
gawk
diffutils
findutils
gnused
gnugrep
gnutar
gzip
bzip2
xz
];
baseMultiPaths = with pkgsi686Linux; [
(toString gcc.cc.lib)
];
ldconfig = writeShellScriptBin "ldconfig" ''
# due to a glibc bug, 64-bit ldconfig complains about patchelf'd 32-bit libraries, so we're using 32-bit ldconfig
exec ${if stdenv.system == "x86_64-linux" then pkgsi686Linux.glibc.bin else pkgs.glibc.bin}/bin/ldconfig -f /etc/ld.so.conf -C /etc/ld.so.cache "$@"
'';
etcProfile = writeText "profile" ''
export PS1='${name}-chrootenv:\u@\h:\w\$ '
export LOCALE_ARCHIVE='/usr/lib/locale/locale-archive'
export LD_LIBRARY_PATH="/run/opengl-driver/lib:/run/opengl-driver-32/lib''${LD_LIBRARY_PATH:+:}$LD_LIBRARY_PATH"
export PATH="/run/wrappers/bin:/usr/bin:/usr/sbin:$PATH"
export TZDIR='/etc/zoneinfo'
# XDG_DATA_DIRS is used by pressure-vessel (steam proton) and vulkan loaders to find the corresponding icd
export XDG_DATA_DIRS=$XDG_DATA_DIRS''${XDG_DATA_DIRS:+:}/run/opengl-driver/share:/run/opengl-driver-32/share
# Following XDG spec [1], XDG_DATA_DIRS should default to "/usr/local/share:/usr/share".
# In nix, it is commonly set without containing these values, so we add them as fallback.
#
# [1] <https://specifications.freedesktop.org/basedir-spec/basedir-spec-latest.html>
case ":$XDG_DATA_DIRS:" in
*:/usr/local/share:*) ;;
*) export XDG_DATA_DIRS="$XDG_DATA_DIRS''${XDG_DATA_DIRS:+:}/usr/local/share" ;;
esac
case ":$XDG_DATA_DIRS:" in
*:/usr/share:*) ;;
*) export XDG_DATA_DIRS="$XDG_DATA_DIRS''${XDG_DATA_DIRS:+:}/usr/share" ;;
esac
# Force compilers and other tools to look in default search paths
unset NIX_ENFORCE_PURITY
export NIX_BINTOOLS_WRAPPER_TARGET_HOST_${stdenv.cc.suffixSalt}=1
export NIX_CC_WRAPPER_TARGET_HOST_${stdenv.cc.suffixSalt}=1
export NIX_CFLAGS_COMPILE='-idirafter /usr/include'
export NIX_CFLAGS_LINK='-L/usr/lib -L/usr/lib32'
export NIX_LDFLAGS='-L/usr/lib -L/usr/lib32'
export PKG_CONFIG_PATH=/usr/lib/pkgconfig
export ACLOCAL_PATH=/usr/share/aclocal
${profile}
'';
# Compose /etc for the chroot environment
etcPkg = runCommandLocal "${name}-chrootenv-etc" { } ''
mkdir -p $out/etc
pushd $out/etc
# environment variables
ln -s ${etcProfile} profile
# symlink /etc/mtab -> /proc/mounts (compat for old userspace progs)
ln -s /proc/mounts mtab
'';
# Composes a /usr-like directory structure
staticUsrProfileTarget = buildEnv {
name = "${name}-usr-target";
# ldconfig wrapper must come first so it overrides the original ldconfig
paths = [ etcPkg ldconfig ] ++ baseTargetPaths ++ targetPaths;
extraOutputsToInstall = [ "out" "lib" "bin" ] ++ extraOutputsToInstall;
ignoreCollisions = true;
postBuild = ''
if [[ -d $out/share/gsettings-schemas/ ]]; then
# Recreate the standard schemas directory if its a symlink to make it writable
if [[ -L $out/share/glib-2.0 ]]; then
target=$(readlink $out/share/glib-2.0)
rm $out/share/glib-2.0
mkdir $out/share/glib-2.0
ln -fs $target/* $out/share/glib-2.0
fi
if [[ -L $out/share/glib-2.0/schemas ]]; then
target=$(readlink $out/share/glib-2.0/schemas)
rm $out/share/glib-2.0/schemas
mkdir $out/share/glib-2.0/schemas
ln -fs $target/* $out/share/glib-2.0/schemas
fi
mkdir -p $out/share/glib-2.0/schemas
for d in $out/share/gsettings-schemas/*; do
# Force symlink, in case there are duplicates
ln -fs $d/glib-2.0/schemas/*.xml $out/share/glib-2.0/schemas
ln -fs $d/glib-2.0/schemas/*.gschema.override $out/share/glib-2.0/schemas
done
# and compile them
${pkgs.glib.dev}/bin/glib-compile-schemas $out/share/glib-2.0/schemas
fi
'';
};
staticUsrProfileMulti = buildEnv {
name = "${name}-usr-multi";
paths = baseMultiPaths ++ multiPaths;
extraOutputsToInstall = [ "out" "lib" ] ++ extraOutputsToInstall;
ignoreCollisions = true;
};
# setup library paths only for the targeted architecture
setupLibDirsTarget = ''
# link content of targetPaths
cp -rsHf ${staticUsrProfileTarget}/lib lib
ln -s lib lib${if is64bit then "64" else "32"}
'';
# setup /lib, /lib32 and /lib64
setupLibDirsMulti = ''
mkdir -m0755 lib32
mkdir -m0755 lib64
ln -s lib64 lib
# copy glibc stuff
cp -rsHf ${staticUsrProfileTarget}/lib/32/* lib32/
chmod u+w -R lib32/
# copy content of multiPaths (32bit libs)
if [ -d ${staticUsrProfileMulti}/lib ]; then
cp -rsHf ${staticUsrProfileMulti}/lib/* lib32/
chmod u+w -R lib32/
fi
# copy content of targetPaths (64bit libs)
cp -rsHf ${staticUsrProfileTarget}/lib/* lib64/
chmod u+w -R lib64/
# symlink 32-bit ld-linux.so
ln -Ls ${staticUsrProfileTarget}/lib/32/ld-linux.so.2 lib/
'';
setupLibDirs = if isTargetBuild
then setupLibDirsTarget
else setupLibDirsMulti;
# the target profile is the actual profile that will be used for the chroot
setupTargetProfile = ''
mkdir -m0755 usr
pushd usr
${setupLibDirs}
'' + lib.optionalString isMultiBuild ''
if [ -d "${staticUsrProfileMulti}/share" ]; then
cp -rLf ${staticUsrProfileMulti}/share share
fi
'' + ''
if [ -d "${staticUsrProfileTarget}/share" ]; then
if [ -d share ]; then
chmod -R 755 share
cp -rLTf ${staticUsrProfileTarget}/share share
else
cp -rsHf ${staticUsrProfileTarget}/share share
fi
fi
for i in bin sbin include; do
if [ -d "${staticUsrProfileTarget}/$i" ]; then
cp -rsHf "${staticUsrProfileTarget}/$i" "$i"
fi
done
cd ..
for i in var etc opt; do
if [ -d "${staticUsrProfileTarget}/$i" ]; then
cp -rsHf "${staticUsrProfileTarget}/$i" "$i"
fi
done
for i in usr/{bin,sbin,lib,lib32,lib64}; do
if [ -d "$i" ]; then
ln -s "$i"
fi
done
popd
'';
in runCommandLocal "${name}-fhs" {
passthru = {
inherit args baseTargetPaths targetPaths baseMultiPaths ldconfig;
};
} ''
mkdir -p $out
pushd $out
${setupTargetProfile}
${extraBuildCommands}
${lib.optionalString isMultiBuild extraBuildCommandsMulti}
''