{ lib, stdenv, pkgsBuildTarget, pkgsHostTarget, targetPackages # build-tools , bootPkgs , autoconf, automake, coreutils, fetchpatch, fetchurl, perl, python3, m4, sphinx , bash , libiconv ? null, ncurses , # GHC can be built with system libffi or a bundled one. libffi ? null , useLLVM ? !(stdenv.targetPlatform.isx86 || stdenv.targetPlatform.isPowerPC || stdenv.targetPlatform.isSparc) , # LLVM is conceptually a run-time-only depedendency, but for # non-x86, we need LLVM to bootstrap later stages, so it becomes a # build-time dependency too. buildTargetLlvmPackages, llvmPackages , # If enabled, GHC will be built with the GPL-free but slower integer-simple # library instead of the faster but GPLed integer-gmp library. enableIntegerSimple ? !(lib.meta.availableOn stdenv.hostPlatform gmp), gmp , # If enabled, use -fPIC when compiling static libs. enableRelocatedStaticLibs ? stdenv.targetPlatform != stdenv.hostPlatform # aarch64 outputs otherwise exceed 2GB limit , enableProfiledLibs ? !stdenv.targetPlatform.isAarch64 , # Whether to build dynamic libs for the standard library (on the target # platform). Static libs are always built. enableShared ? !stdenv.targetPlatform.isWindows && !stdenv.targetPlatform.useiOSPrebuilt , # Whether to build terminfo. enableTerminfo ? !stdenv.targetPlatform.isWindows , # What flavour to build. An empty string indicates no # specific flavour and falls back to ghc default values. ghcFlavour ? lib.optionalString (stdenv.targetPlatform != stdenv.hostPlatform) (if useLLVM then "perf-cross" else "perf-cross-ncg") , # Whether to build sphinx documentation. enableDocs ? ( # Docs disabled for musl and cross because it's a large task to keep # all `sphinx` dependencies building in those environments. # `sphinx` pullls in among others: # Ruby, Python, Perl, Rust, OpenGL, Xorg, gtk, LLVM. (stdenv.targetPlatform == stdenv.hostPlatform) && !stdenv.hostPlatform.isMusl ) , enableHaddockProgram ? # Disabled for cross; see note [HADDOCK_DOCS]. (stdenv.targetPlatform == stdenv.hostPlatform) , # Whether to disable the large address space allocator # necessary fix for iOS: https://www.reddit.com/r/haskell/comments/4ttdz1/building_an_osxi386_to_iosarm64_cross_compiler/d5qvd67/ disableLargeAddressSpace ? stdenv.targetPlatform.isiOS }: assert !enableIntegerSimple -> gmp != null; # Cross cannot currently build the `haddock` program for silly reasons, # see note [HADDOCK_DOCS]. assert (stdenv.targetPlatform != stdenv.hostPlatform) -> !enableHaddockProgram; let inherit (stdenv) buildPlatform hostPlatform targetPlatform; inherit (bootPkgs) ghc; # TODO(@Ericson2314) Make unconditional targetPrefix = lib.optionalString (targetPlatform != hostPlatform) "${targetPlatform.config}-"; buildMK = dontStrip: '' BuildFlavour = ${ghcFlavour} ifneq \"\$(BuildFlavour)\" \"\" include mk/flavours/\$(BuildFlavour).mk endif BUILD_SPHINX_HTML = ${if enableDocs then "YES" else "NO"} BUILD_SPHINX_PDF = NO '' + # Note [HADDOCK_DOCS]: # Unfortunately currently `HADDOCK_DOCS` controls both whether the `haddock` # program is built (which we generally always want to have a complete GHC install) # and whether it is run on the GHC sources to generate hyperlinked source code # (which is impossible for cross-compilation); see: # https://gitlab.haskell.org/ghc/ghc/-/issues/20077 # This implies that currently a cross-compiled GHC will never have a `haddock` # program, so it can never generate haddocks for any packages. # If this is solved in the future, we'd like to unconditionally # build the haddock program (removing the `enableHaddockProgram` option). '' HADDOCK_DOCS = ${if enableHaddockProgram then "YES" else "NO"} DYNAMIC_GHC_PROGRAMS = ${if enableShared then "YES" else "NO"} INTEGER_LIBRARY = ${if enableIntegerSimple then "integer-simple" else "integer-gmp"} '' # We only need to build stage1 on most cross-compilation because # we will be running the compiler on the native system. In some # situations, like native Musl compilation, we need the compiler # to actually link to our new Libc. The iOS simulator is a special # exception because we can’t actually run simulators binaries # ourselves. + lib.optionalString (targetPlatform != hostPlatform) '' Stage1Only = ${if (targetPlatform.system == hostPlatform.system && !targetPlatform.isiOS) then "NO" else "YES"} CrossCompilePrefix = ${targetPrefix} '' + lib.optionalString dontStrip '' STRIP_CMD = : '' + lib.optionalString (!enableProfiledLibs) '' GhcLibWays = "v dyn" '' + lib.optionalString enableRelocatedStaticLibs '' GhcLibHcOpts += -fPIC GhcRtsHcOpts += -fPIC '' + lib.optionalString targetPlatform.useAndroidPrebuilt '' EXTRA_CC_OPTS += -std=gnu99 '' # While split sections are now enabled by default in ghc 8.8 for windows, # they seem to lead to `too many sections` errors when building base for # profiling. + lib.optionalString targetPlatform.isWindows '' SplitSections = NO ''; # Splicer will pull out correct variations libDeps = platform: lib.optional enableTerminfo ncurses ++ [libffi] ++ lib.optional (!enableIntegerSimple) gmp ++ lib.optional (platform.libc != "glibc" && !targetPlatform.isWindows) libiconv; # TODO(@sternenseemann): is buildTarget LLVM unnecessary? # GHC doesn't seem to have {LLC,OPT}_HOST toolsForTarget = [ pkgsBuildTarget.targetPackages.stdenv.cc ] ++ lib.optional useLLVM buildTargetLlvmPackages.llvm; targetCC = builtins.head toolsForTarget; # Use gold either following the default, or to avoid the BFD linker due to some bugs / perf issues. # But we cannot avoid BFD when using musl libc due to https://sourceware.org/bugzilla/show_bug.cgi?id=23856 # see #84670 and #49071 for more background. useLdGold = targetPlatform.linker == "gold" || (targetPlatform.linker == "bfd" && (targetCC.bintools.bintools.hasGold or false) && !targetPlatform.isMusl); # Makes debugging easier to see which variant is at play in `nix-store -q --tree`. variantSuffix = lib.concatStrings [ (lib.optionalString stdenv.hostPlatform.isMusl "-musl") (lib.optionalString enableIntegerSimple "-integer-simple") ]; in # C compiler, bintools and LLVM are used at build time, but will also leak into # the resulting GHC's settings file and used at runtime. This means that we are # currently only able to build GHC if hostPlatform == buildPlatform. assert targetCC == pkgsHostTarget.targetPackages.stdenv.cc; assert buildTargetLlvmPackages.llvm == llvmPackages.llvm; assert stdenv.targetPlatform.isDarwin -> buildTargetLlvmPackages.clang == llvmPackages.clang; stdenv.mkDerivation (rec { version = "8.8.4"; pname = "${targetPrefix}ghc${variantSuffix}"; src = fetchurl { url = "https://downloads.haskell.org/ghc/${version}/ghc-${version}-src.tar.xz"; sha256 = "0bgwbxxvdn56l91bp9p5d083gzcfdi6z8l8b17qzjpr3n8w5wl7h"; }; enableParallelBuilding = true; outputs = [ "out" "doc" ]; patches = [ # See upstream patch at # https://gitlab.haskell.org/ghc/ghc/-/merge_requests/4885. Since we build # from source distributions, the auto-generated configure script needs to be # patched as well, therefore we use an in-tree patch instead of pulling the # upstream patch. Don't forget to check backport status of the upstream patch # when adding new GHC releases in nixpkgs. ./respect-ar-path.patch # Fix documentation configuration which causes a syntax error with sphinx 4.* # See also https://gitlab.haskell.org/ghc/ghc/-/issues/19962 ./sphinx-4-configuration.patch # cabal passes incorrect --host= when cross-compiling # https://github.com/haskell/cabal/issues/5887 (fetchpatch { url = "https://raw.githubusercontent.com/input-output-hk/haskell.nix/122bd81150386867da07fdc9ad5096db6719545a/overlays/patches/ghc/cabal-host.patch"; sha256 = "sha256:0yd0sajgi24sc1w5m55lkg2lp6kfkgpp3lgija2c8y3cmkwfpdc1"; }) # error: 'VirtualAllocExNuma' redeclared as different kind of symbol # name conflict between rts/win32/OSMem.c and winbase.h from the mingw-w64 runtime package # Renamed to match ghc8.8: # https://gitlab.haskell.org/ghc/ghc/-/commit/4b431f334018eaef2cf36de3316025c68c922915#20d64c0bdc272817149d1d5cf20a73a8b5fd637f ./rename-numa-api-call.patch ]; postPatch = "patchShebangs ."; # GHC is a bit confused on its cross terminology. # TODO(@sternenseemann): investigate coreutils dependencies and pass absolute paths preConfigure = # Aarch64 allow backward bootstrapping since earlier versions are unstable. # Same for musl, as earlier versions do not provide a musl bindist for bootstrapping. lib.optionalString (stdenv.isAarch64 || stdenv.hostPlatform.isMusl) '' find . -name \*\.cabal\* -exec sed -i -e 's/\(base.*\)4.14/\14.16/' {} \; \ -exec sed -i -e 's/\(prim.*\)0.6/\10.8/' {} \; '' + '' for env in $(env | grep '^TARGET_' | sed -E 's|\+?=.*||'); do export "''${env#TARGET_}=''${!env}" done # GHC is a bit confused on its cross terminology, as these would normally be # the *host* tools. export CC="${targetCC}/bin/${targetCC.targetPrefix}cc" export CXX="${targetCC}/bin/${targetCC.targetPrefix}cxx" # Use gold to work around https://sourceware.org/bugzilla/show_bug.cgi?id=16177 export LD="${targetCC.bintools}/bin/${targetCC.bintools.targetPrefix}ld${lib.optionalString useLdGold ".gold"}" export AS="${targetCC.bintools.bintools}/bin/${targetCC.bintools.targetPrefix}as" export AR="${targetCC.bintools.bintools}/bin/${targetCC.bintools.targetPrefix}ar" export NM="${targetCC.bintools.bintools}/bin/${targetCC.bintools.targetPrefix}nm" export RANLIB="${targetCC.bintools.bintools}/bin/${targetCC.bintools.targetPrefix}ranlib" export READELF="${targetCC.bintools.bintools}/bin/${targetCC.bintools.targetPrefix}readelf" export STRIP="${targetCC.bintools.bintools}/bin/${targetCC.bintools.targetPrefix}strip" '' + lib.optionalString useLLVM '' export LLC="${lib.getBin buildTargetLlvmPackages.llvm}/bin/llc" export OPT="${lib.getBin buildTargetLlvmPackages.llvm}/bin/opt" '' + lib.optionalString (useLLVM && stdenv.targetPlatform.isDarwin) '' # LLVM backend on Darwin needs clang: https://downloads.haskell.org/~ghc/latest/docs/html/users_guide/codegens.html#llvm-code-generator-fllvm export CLANG="${buildTargetLlvmPackages.clang}/bin/${buildTargetLlvmPackages.clang.targetPrefix}clang" '' + '' echo -n "${buildMK dontStrip}" > mk/build.mk sed -i -e 's|-isysroot /Developer/SDKs/MacOSX10.5.sdk||' configure '' + lib.optionalString (!stdenv.isDarwin) '' export NIX_LDFLAGS+=" -rpath $out/lib/ghc-${version}" '' + lib.optionalString stdenv.isDarwin '' export NIX_LDFLAGS+=" -no_dtrace_dof" '' + lib.optionalString targetPlatform.useAndroidPrebuilt '' sed -i -e '5i ,("armv7a-unknown-linux-androideabi", ("e-m:e-p:32:32-i64:64-v128:64:128-a:0:32-n32-S64", "cortex-a8", ""))' llvm-targets '' + lib.optionalString targetPlatform.isMusl '' echo "patching llvm-targets for musl targets..." echo "Cloning these existing '*-linux-gnu*' targets:" grep linux-gnu llvm-targets | sed 's/^/ /' echo "(go go gadget sed)" sed -i 's,\(^.*linux-\)gnu\(.*\)$,\0\n\1musl\2,' llvm-targets echo "llvm-targets now contains these '*-linux-musl*' targets:" grep linux-musl llvm-targets | sed 's/^/ /' echo "And now patching to preserve '-musleabi' as done with '-gnueabi'" # (aclocal.m4 is actual source, but patch configure as well since we don't re-gen) for x in configure aclocal.m4; do substituteInPlace $x \ --replace '*-android*|*-gnueabi*)' \ '*-android*|*-gnueabi*|*-musleabi*)' done ''; # TODO(@Ericson2314): Always pass "--target" and always prefix. configurePlatforms = [ "build" "host" ] ++ lib.optional (targetPlatform != hostPlatform) "target"; # `--with` flags for libraries needed for RTS linker configureFlags = [ "--datadir=$doc/share/doc/ghc" "--with-curses-includes=${ncurses.dev}/include" "--with-curses-libraries=${ncurses.out}/lib" ] ++ lib.optionals (libffi != null) [ "--with-system-libffi" "--with-ffi-includes=${targetPackages.libffi.dev}/include" "--with-ffi-libraries=${targetPackages.libffi.out}/lib" ] ++ lib.optionals (targetPlatform == hostPlatform && !enableIntegerSimple) [ "--with-gmp-includes=${targetPackages.gmp.dev}/include" "--with-gmp-libraries=${targetPackages.gmp.out}/lib" ] ++ lib.optionals (targetPlatform == hostPlatform && hostPlatform.libc != "glibc" && !targetPlatform.isWindows) [ "--with-iconv-includes=${libiconv}/include" "--with-iconv-libraries=${libiconv}/lib" ] ++ lib.optionals (targetPlatform != hostPlatform) [ "--enable-bootstrap-with-devel-snapshot" ] ++ lib.optionals useLdGold [ "CFLAGS=-fuse-ld=gold" "CONF_GCC_LINKER_OPTS_STAGE1=-fuse-ld=gold" "CONF_GCC_LINKER_OPTS_STAGE2=-fuse-ld=gold" ] ++ lib.optionals (disableLargeAddressSpace) [ "--disable-large-address-space" ]; # Make sure we never relax`$PATH` and hooks support for compatibility. strictDeps = true; # Don’t add -liconv to LDFLAGS automatically so that GHC will add it itself. dontAddExtraLibs = true; nativeBuildInputs = [ perl autoconf automake m4 python3 ghc bootPkgs.alex bootPkgs.happy bootPkgs.hscolour ] ++ lib.optionals enableDocs [ sphinx ]; # For building runtime libs depsBuildTarget = toolsForTarget; buildInputs = [ perl bash ] ++ (libDeps hostPlatform); depsTargetTarget = map lib.getDev (libDeps targetPlatform); depsTargetTargetPropagated = map (lib.getOutput "out") (libDeps targetPlatform); # required, because otherwise all symbols from HSffi.o are stripped, and # that in turn causes GHCi to abort stripDebugFlags = [ "-S" ] ++ lib.optional (!targetPlatform.isDarwin) "--keep-file-symbols"; checkTarget = "test"; hardeningDisable = [ "format" ] # In nixpkgs, musl based builds currently enable `pie` hardening by default # (see `defaultHardeningFlags` in `make-derivation.nix`). # But GHC cannot currently produce outputs that are ready for `-pie` linking. # Thus, disable `pie` hardening, otherwise `recompile with -fPIE` errors appear. # See: # * https://github.com/NixOS/nixpkgs/issues/129247 # * https://gitlab.haskell.org/ghc/ghc/-/issues/19580 ++ lib.optional stdenv.targetPlatform.isMusl "pie"; postInstall = '' # Install the bash completion file. install -D -m 444 utils/completion/ghc.bash $out/share/bash-completion/completions/${targetPrefix}ghc ''; passthru = { inherit bootPkgs targetPrefix; inherit llvmPackages; inherit enableShared; # This is used by the haskell builder to query # the presence of the haddock program. hasHaddock = enableHaddockProgram; # Our Cabal compiler name haskellCompilerName = "ghc-${version}"; }; meta = { homepage = "http://haskell.org/ghc"; description = "The Glasgow Haskell Compiler"; maintainers = with lib.maintainers; [ guibou ] ++ lib.teams.haskell.members; timeout = 24 * 3600; inherit (ghc.meta) license; # hardcode platforms because the bootstrap GHC differs depending on the platform, # with differing platforms available for each of them; See HACK comment in # 8.10.2-binary.nix for an explanation of the musl special casing. platforms = [ "x86_64-linux" ] ++ lib.optionals (!hostPlatform.isMusl) [ "i686-linux" "aarch64-linux" "x86_64-darwin" ]; # integer-simple builds are broken with musl when bootstrapping using # GHC 8.10.2 and below, however it is not possible to reverse bootstrap # GHC 8.8.4 with GHC 8.10.7. # See https://github.com/NixOS/nixpkgs/pull/138523#issuecomment-927339953 broken = hostPlatform.isMusl && enableIntegerSimple; }; dontStrip = (targetPlatform.useAndroidPrebuilt || targetPlatform.isWasm); } // lib.optionalAttrs targetPlatform.useAndroidPrebuilt{ dontPatchELF = true; noAuditTmpdir = true; })