nixpkgs/pkgs/tools/virtualization/ovftool/default.nix

187 lines
6.5 KiB
Nix

{ lib, stdenv, system ? builtins.currentSystem, ovftoolBundles ? {}
, requireFile, buildFHSUserEnv, autoPatchelfHook, makeWrapper, unzip
, glibc, c-ares, libressl, curl, expat, icu60, xercesc, zlib
}:
let
version = "4.4.1-16812187";
# FHS environment required to unpack ovftool on x86.
ovftoolX86Unpacker = buildFHSUserEnv rec {
name = "ovftool-unpacker";
targetPkgs = pkgs: [ pkgs.bash ];
multiPkgs = targetPkgs;
runScript = "bash";
};
# unpackPhase for i686 and x86_64 ovftool self-extracting bundles.
ovftoolX86UnpackPhase = ''
runHook preUnpack
# This is a self-extracting shell script and needs a FHS environment to run.
# In reality, it could be doing anything, which is bad for reproducibility.
# Our postUnpack uses nix-hash to verify the hash to prevent problems.
#
# Note that the Arch PKGBUILD at
# https://aur.archlinux.org/cgit/aur.git/tree/PKGBUILD?h=vmware-ovftool
# appears to use xvfb-run - this hasn't been proven necessary so far.
#
cp ${ovftoolSource} ./ovftool.bundle
chmod +x ./ovftool.bundle
${ovftoolX86Unpacker}/bin/ovftool-unpacker ./ovftool.bundle -x ovftool
rm ovftool.bundle
extracted=ovftool/vmware-ovftool/
if [ -d "$extracted" ]; then
# Move the directory we care about to ovftool/
mv "$extracted" .
rm -r ovftool
mv "$(basename -- "$extracted")" ovftool
echo "ovftool extracted successfully" >&2
else
echo "Could not find $extracted - are you sure this is ovftool?" >&2
rm -r ovftool
exit 1
fi
runHook postUnpack
'';
# unpackPhase for aarch64 .zip.
ovftoolAarch64UnpackPhase = ''
runHook preUnpack
unzip ${ovftoolSource}
extracted=ovftool/
if [ -d "$extracted" ]; then
echo "ovftool extracted successfully" >&2
else
echo "Could not find $extracted - are you sure this is ovftool?" >&2
exit 1
fi
runHook postUnpack
'';
# When the version is bumped, postUnpackHash will change
# for all these supported systems. Update it from the printed error on build.
#
# This is just a sanity check, since ovftool is a self-extracting bundle
# that could be doing absolutely anything on 2/3 of the supported platforms.
ovftoolSystems = {
"i686-linux" = {
filename = "VMware-ovftool-${version}-lin.i386.bundle";
sha256 = "0gx78g3s77mmpir7jbiskna10i6262ihal1ywivlb6xxxxbhqzwj";
unpackPhase = ovftoolX86UnpackPhase;
postUnpackHash = "1k8rp8ywhs0cl9aad37v1p0493bdvkxrsvwg5pgv2bhvjs4hqk7n";
};
"x86_64-linux" = {
filename = "VMware-ovftool-${version}-lin.x86_64.bundle";
sha256 = "1kp2bp4d9i8y7q25yqff2bn62mh292lws7b66lyn8ka9b35kvnzc";
unpackPhase = ovftoolX86UnpackPhase;
postUnpackHash = "0zvyakwi4iishqxxisihgh91bmdsfvj5vchm2c192hia03a143py";
};
"aarch64-linux" = {
filename = "VMware-ovftool-${version}-lin.aarch64.zip";
sha256 = "0all8bwv5p5adnzqvrly6nzmxmfpywvlbfr0finr4n100yv0v1xy";
unpackPhase = ovftoolAarch64UnpackPhase;
postUnpackHash = "16vyyzrmryi8b7mrd6nxnhywvvj2pw0ban4qfiqfahw763fn6971";
};
};
ovftoolSystem = if builtins.hasAttr system ovftoolSystems then
ovftoolSystems.${system}
else throw "System '${system}' is unsupported by ovftool";
ovftoolSource = if builtins.hasAttr system ovftoolBundles then
ovftoolBundles.${system}
else
requireFile {
name = ovftoolSystem.filename;
url = "https://my.vmware.com/group/vmware/downloads/get-download?downloadGroup=OVFTOOL441";
sha256 = ovftoolSystem.sha256;
};
in
stdenv.mkDerivation rec {
pname = "ovftool";
inherit version;
src = ovftoolSource;
buildInputs = [
glibc
libressl
c-ares
(curl.override { openssl = libressl; })
expat
icu60
xercesc
zlib
];
nativeBuildInputs = [ autoPatchelfHook makeWrapper unzip ];
sourceRoot = ".";
unpackPhase = ovftoolSystem.unpackPhase;
postUnpackHash = ovftoolSystem.postUnpackHash;
# Expects a directory named 'ovftool' containing the ovftool install.
# Based on https://aur.archlinux.org/packages/vmware-ovftool/
# with the addition of a libexec directory and a Nix-style binary wrapper.
installPhase = ''
runHook preInstall
if [ -d ovftool ]; then
# Ensure we're in the staging directory
cd ovftool
fi
# libraries
install -m 755 -d "$out/lib/${pname}"
# These all appear to be VMWare proprietary except for libgoogleurl.
# The rest of the libraries that the installer extracts are omitted here,
# and provided in buildInputs.
#
# FIXME: can we replace libgoogleurl? Possibly from Chromium?
#
install -m 644 -t "$out/lib/${pname}" \
libgoogleurl.so.59 \
libssoclient.so \
libvim-types.so libvmacore.so libvmomi.so
# ovftool specifically wants 1.0.2 but our libcrypto is named 1.0.0
ln -s "${lib.getLib libressl}/lib/libcrypto.so" \
"$out/lib/${pname}/libcrypto.so.1.0.2"
ln -s "${lib.getLib libressl}/lib/libssl.so" \
"$out/lib/${pname}/libssl.so.1.0.2"
# libexec
install -m 755 -d "$out/libexec/${pname}"
install -m 755 -t "$out/libexec/${pname}" ovftool.bin
install -m 644 -t "$out/libexec/${pname}" icudt44l.dat
# libexec resources
for subdir in "certs" "env" "env/en" "schemas/DMTF" "schemas/vmware"; do
install -m 755 -d "$out/libexec/${pname}/$subdir"
install -m 644 -t "$out/libexec/${pname}/$subdir" "$subdir"/*.*
done
# EULA/OSS files
install -m 755 -d "$out/share/licenses/${pname}"
install -m 644 -t "$out/share/licenses/${pname}" \
"vmware.eula" "vmware-eula.rtf" "open_source_licenses.txt"
# documentation files
install -m 755 -d "$out/share/doc/${pname}"
install -m 644 -t "$out/share/doc/${pname}" "README.txt"
# binary wrapper; note that LC_CTYPE is defaulted to en_US.UTF-8 by
# VMWare's wrapper script. We use C.UTF-8 instead.
install -m 755 -d "$out/bin"
makeWrapper "$out/libexec/${pname}/ovftool.bin" "$out/bin/ovftool" \
--set-default LC_CTYPE C.UTF-8 \
--prefix LD_LIBRARY_PATH : "$out/lib"
runHook postInstall
'';
preFixup = ''
addAutoPatchelfSearchPath "$out/lib"
'';
meta = with lib; {
description = "VMWare tools for working with OVF, OVA, and VMX images";
sourceProvenance = with sourceTypes; [ binaryNativeCode ];
license = licenses.unfree;
maintainers = with maintainers; [ numinit wolfangaukang ];
platforms = builtins.attrNames ovftoolSystems;
};
}