nixpkgs/pkgs/stdenv/darwin/make-bootstrap-tools.nix
Dan Peebles bddf4e2180 make-bootstrap-tools.darwin: upgrade to llvm 3.8
This will break part of the bootstrap tools tests because the new tools
need some changes in the stdenv, but if I change them all at once, the
stdenv breaks with the old bootstrap tools. So I'm doing this first, then
will make changes to the stdenv once this bundle is built and I can use
it.

I also added some functionality to let me test one set of bootstrap tools
on another nixpkgs tree, which makes testing a lot more pleasant.
2016-08-19 23:22:22 -04:00

306 lines
10 KiB
Nix

{ pkgspath ? ../../.., test-pkgspath ? pkgspath }:
with import pkgspath { system = builtins.currentSystem; };
let
llvmPackages = llvmPackages_38;
in rec {
coreutils_ = coreutils.override (args: {
# We want coreutils without ACL support.
aclSupport = false;
# Cannot use a single binary build, or it gets dynamically linked against gmp.
singleBinary = false;
});
# Avoid debugging larger changes for now.
bzip2_ = bzip2.override (args: { linkStatic = true; });
build = stdenv.mkDerivation {
name = "stdenv-bootstrap-tools";
buildInputs = [nukeReferences cpio];
buildCommand = ''
mkdir -p $out/bin $out/lib
# Our (fake) loader
cp -d ${darwin.dyld}/lib/dyld $out/lib/
# C standard library stuff
cp -d ${darwin.Libsystem}/lib/*.o $out/lib/
cp -d ${darwin.Libsystem}/lib/*.dylib $out/lib/
cp -d ${darwin.Libsystem}/lib/system/*.dylib $out/lib/
# Resolv is actually a link to another package, so let's copy it properly
rm $out/lib/libresolv.9.dylib
cp -L ${darwin.Libsystem}/lib/libresolv.9.dylib $out/lib
cp -rL ${darwin.Libsystem}/include $out
chmod -R u+w $out/include
cp -rL ${icu.dev}/include* $out/include
cp -rL ${libiconv}/include/* $out/include
cp -rL ${gnugrep.pcre.dev}/include/* $out/include
mv $out/include $out/include-Libsystem
# Copy coreutils, bash, etc.
cp ${coreutils_}/bin/* $out/bin
(cd $out/bin && rm vdir dir sha*sum pinky factor pathchk runcon shuf who whoami shred users)
cp ${bash}/bin/bash $out/bin
cp ${findutils}/bin/find $out/bin
cp ${findutils}/bin/xargs $out/bin
cp -d ${diffutils}/bin/* $out/bin
cp -d ${gnused}/bin/* $out/bin
cp -d ${gnugrep}/bin/grep $out/bin
cp ${gawk}/bin/gawk $out/bin
cp -d ${gawk}/bin/awk $out/bin
cp ${gnutar}/bin/tar $out/bin
cp ${gzip}/bin/gzip $out/bin
cp ${bzip2_.bin}/bin/bzip2 $out/bin
cp -d ${gnumake}/bin/* $out/bin
cp -d ${patch}/bin/* $out/bin
cp -d ${xz.bin}/bin/xz $out/bin
# This used to be in-nixpkgs, but now is in the bundle
# because I can't be bothered to make it partially static
cp ${curl.bin}/bin/curl $out/bin
cp -d ${curl.out}/lib/libcurl*.dylib $out/lib
cp -d ${libssh2.out}/lib/libssh*.dylib $out/lib
cp -d ${openssl.out}/lib/*.dylib $out/lib
cp -d ${gnugrep.pcre.out}/lib/libpcre*.dylib $out/lib
cp -d ${lib.getLib libiconv}/lib/lib*.dylib $out/lib
cp -d ${gettext}/lib/libintl*.dylib $out/lib
chmod +x $out/lib/libintl*.dylib
cp -d ${ncurses.out}/lib/libncurses*.dylib $out/lib
# Copy what we need of clang
cp -d ${llvmPackages.clang-unwrapped}/bin/clang $out/bin
cp -d ${llvmPackages.clang-unwrapped}/bin/clang++ $out/bin
cp -d ${llvmPackages.clang-unwrapped}/bin/clang-[0-9].[0-9] $out/bin
cp -rL ${llvmPackages.clang-unwrapped}/lib/clang $out/lib
cp -d ${llvmPackages.libcxx}/lib/libc++*.dylib $out/lib
cp -d ${llvmPackages.libcxxabi}/lib/libc++abi*.dylib $out/lib
mkdir $out/include
cp -rd ${llvmPackages.libcxx}/include/c++ $out/include
cp -d ${icu.out}/lib/libicu*.dylib $out/lib
cp -d ${zlib.out}/lib/libz.* $out/lib
cp -d ${gmpxx.out}/lib/libgmp*.* $out/lib
cp -d ${xz.out}/lib/liblzma*.* $out/lib
# Copy binutils.
for i in as ld ar ranlib nm strip otool install_name_tool dsymutil; do
cp ${darwin.cctools}/bin/$i $out/bin
done
cp -rd ${pkgs.darwin.CF}/Library $out
chmod -R u+w $out
nuke-refs $out/bin/*
rpathify() {
local libs=$(${darwin.cctools}/bin/otool -L "$1" | tail -n +2 | grep -o "$NIX_STORE.*-\S*") || true
for lib in $libs; do
${darwin.cctools}/bin/install_name_tool -change $lib "@rpath/$(basename $lib)" "$1"
done
}
fix_dyld() {
# This is clearly a hack. Once we have an install_name_tool-alike that can patch dyld, this will be nicer.
${perl}/bin/perl -i -0777 -pe 's/\/nix\/store\/eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee-dyld-239\.4\/lib\/dyld/\/usr\/lib\/dyld\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00/sg' "$1"
}
# Strip executables even further
for i in $out/bin/*; do
if test -x $i -a ! -L $i; then
chmod +w $i
fix_dyld $i
strip $i || true
fi
done
for i in $out/bin/* $out/lib/*.dylib $out/lib/clang/*/lib/darwin/*.dylib $out/Library/Frameworks/CoreFoundation.framework/Versions/A/CoreFoundation; do
if test -x $i -a ! -L $i; then
echo "Adding rpath to $i"
rpathify $i
fi
done
nuke-refs $out/lib/*
nuke-refs $out/lib/clang/*/lib/darwin/*
nuke-refs $out/Library/Frameworks/CoreFoundation.framework/Versions/A/CoreFoundation
set -x
mkdir $out/.pack
mv $out/* $out/.pack
mv $out/.pack $out/pack
mkdir $out/on-server
cp ${stdenv.shell} $out/on-server/sh
cp ${cpio}/bin/cpio $out/on-server
cp ${coreutils_}/bin/mkdir $out/on-server
cp ${bzip2_.bin}/bin/bzip2 $out/on-server
chmod u+w $out/on-server/*
strip $out/on-server/*
nuke-refs $out/on-server/*
for i in $out/on-server/*; do
fix_dyld $i
done
(cd $out/pack && (find | cpio -o -H newc)) | bzip2 > $out/on-server/bootstrap-tools.cpio.bz2
'';
allowedReferences = [];
meta = {
maintainers = [ stdenv.lib.maintainers.copumpkin ];
};
};
dist = stdenv.mkDerivation {
name = "stdenv-bootstrap-tools";
buildCommand = ''
mkdir -p $out/nix-support
echo "file tarball ${build}/on-server/bootstrap-tools.cpio.bz2" >> $out/nix-support/hydra-build-products
echo "file sh ${build}/on-server/sh" >> $out/nix-support/hydra-build-products
echo "file cpio ${build}/on-server/cpio" >> $out/nix-support/hydra-build-products
echo "file mkdir ${build}/on-server/mkdir" >> $out/nix-support/hydra-build-products
echo "file bzip2 ${build}/on-server/bzip2" >> $out/nix-support/hydra-build-products
'';
};
bootstrapFiles = {
sh = "${build}/on-server/sh";
bzip2 = "${build}/on-server/bzip2";
mkdir = "${build}/on-server/mkdir";
cpio = "${build}/on-server/cpio";
tarball = "${build}/on-server/bootstrap-tools.cpio.bz2";
};
unpack = stdenv.mkDerivation (bootstrapFiles // {
name = "unpack";
# This is by necessity a near-duplicate of unpack-bootstrap-tools.sh. If we refer to it directly,
# we can't make any changes to it due to our testing stdenv depending on it. Think of this as the
# unpack-bootstrap-tools.sh for the next round of bootstrap tools.
# TODO: think through alternate designs, such as hosting this script as an output of the process.
buildCommand = ''
# Unpack the bootstrap tools tarball.
echo Unpacking the bootstrap tools...
$mkdir $out
$bzip2 -d < $tarball | (cd $out && $cpio -i)
# Set the ELF interpreter / RPATH in the bootstrap binaries.
echo Patching the tools...
export PATH=$out/bin
for i in $out/bin/*; do
if ! test -L $i; then
echo patching $i
install_name_tool -add_rpath $out/lib $i || true
fi
done
for i in $out/lib/*.dylib $out/Library/Frameworks/CoreFoundation.framework/Versions/A/CoreFoundation; do
if ! test -L $i; then
echo patching $i
id=$(otool -D "$i" | tail -n 1)
install_name_tool -id "$(dirname $i)/$(basename $id)" $i
libs=$(otool -L "$i" | tail -n +2 | grep -v Libsystem | cat)
if [ -n "$libs" ]; then
install_name_tool -add_rpath $out/lib $i
fi
fi
done
ln -s bash $out/bin/sh
ln -s bzip2 $out/bin/bunzip2
cat >$out/bin/dsymutil << EOF
#!$out/bin/sh
EOF
'';
allowedReferences = [ "out" ];
});
test = stdenv.mkDerivation {
name = "test";
realBuilder = "${unpack}/bin/bash";
buildCommand = ''
export PATH=${unpack}/bin
ls -l
mkdir $out
mkdir $out/bin
sed --version
find --version
diff --version
patch --version
make --version
awk --version
grep --version
clang --version
xz --version
# The grep will return a nonzero exit code if there is no match, and we want to assert that we have
# an SSL-capable curl
curl --version | grep SSL
${build}/on-server/sh -c 'echo Hello World'
export flags="-idirafter ${unpack}/include-Libsystem --sysroot=${unpack} -L${unpack}/lib"
export CPP="clang -E $flags"
export CC="clang $flags -Wl,-rpath,${unpack}/lib -Wl,-v"
export CXX="clang++ $flags --stdlib=libc++ -lc++abi -isystem${unpack}/include/c++/v1 -Wl,-rpath,${unpack}/lib -Wl,-v"
echo '#include <stdio.h>' >> foo.c
echo '#include <float.h>' >> foo.c
echo '#include <limits.h>' >> foo.c
echo 'int main() { printf("Hello World\n"); return 0; }' >> foo.c
$CC -o $out/bin/foo foo.c
$out/bin/foo
echo '#include <CoreFoundation/CoreFoundation.h>' >> bar.c
echo 'int main() { CFShow(CFSTR("Hullo")); return 0; }' >> bar.c
$CC -F${unpack}/Library/Frameworks -framework CoreFoundation -o $out/bin/bar bar.c
$out/bin/bar
echo '#include <iostream>' >> bar.cc
echo 'int main() { std::cout << "Hello World\n"; }' >> bar.cc
$CXX -v -o $out/bin/bar bar.cc
$out/bin/bar
tar xvf ${hello.src}
cd hello-*
./configure --prefix=$out
make
make install
$out/bin/hello
'';
};
# The ultimate test: bootstrap a whole stdenv from the tools specified above and get a package set out of it
test-pkgs = let
stdenv = import "${test-pkgspath}/pkgs/stdenv/darwin" { inherit system bootstrapFiles; };
in import test-pkgspath {
inherit system;
bootStdenv = stdenv.stdenvDarwin;
};
}