{ lib , stdenv , fetchFromGitHub , python , cmake }: let pyEnv = python.withPackages (ps: [ ps.setuptools ]); in stdenv.mkDerivation rec { pname = "lief"; version = "0.11.4"; src = fetchFromGitHub { owner = "lief-project"; repo = "LIEF"; rev = version; sha256 = "DgsTrJ2+zdXJK6CdDOan7roakaaxQiwrVeiQnzJnk0A="; }; outputs = [ "out" "py" ]; nativeBuildInputs = [ cmake ]; # Not a propagatedBuildInput because only the $py output needs it; $out is # just the library itself (e.g. C/C++ headers). buildInputs = [ python ]; dontUseCmakeConfigure = true; buildPhase = '' runHook preBuild substituteInPlace setup.py \ --replace 'cmake_args = []' "cmake_args = [ \"-DCMAKE_INSTALL_PREFIX=$prefix\" ]" ${pyEnv.interpreter} setup.py --sdk build --parallel=$NIX_BUILD_CORES runHook postBuild ''; # I was unable to find a way to build the library itself and have it install # to $out, while also installing the Python bindings to $py without building # the project twice (using cmake), so this is the best we've got. It uses # something called CPack to create the tarball, but it's not obvious to me # *how* that happens, or how to intercept it to just get the structured # library output. installPhase = '' runHook preInstall mkdir -p $out $py/nix-support echo "${python}" >> $py/nix-support/propagated-build-inputs tar xf build/*.tar.gz --directory $out --strip-components 1 ${pyEnv.interpreter} setup.py install --skip-build --root=/ --prefix=$py runHook postInstall ''; meta = with lib; { description = "Library to Instrument Executable Formats"; homepage = "https://lief.quarkslab.com/"; license = [ licenses.asl20 ]; platforms = platforms.linux; maintainers = [ maintainers.lassulus ]; }; }