nixpkgs/pkgs/development/compilers/ghc/8.10.7.nix
sternenseemann 5ad0f9ac30 haskell.compiler.*: let configure know about objdump
This seems to be a build time only dependency as there is no
corresponding settings entry.
2024-09-23 18:44:43 +02:00

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{ lib, stdenv, pkgsBuildTarget, pkgsHostTarget, buildPackages, targetPackages
# build-tools
, bootPkgs
, autoreconfHook, autoconf, automake, coreutils, fetchpatch, fetchurl, perl, python3, m4, sphinx
, xattr, autoSignDarwinBinariesHook
, bash
, libiconv ? null, ncurses
, # GHC can be built with system libffi or a bundled one.
# we explicitly use libffi-3.3 here because 3.4 removes a flag that causes
# problems for ghc-8.10.7's RTS. See #324384.
# Save for aarch_darwin since libffi-3.3 is broken there but the issue isn't present anyway
libffi ? null
, libffi_3_3 ? null
, useLLVM ? !(stdenv.targetPlatform.isx86
|| stdenv.targetPlatform.isPower
|| stdenv.targetPlatform.isSparc)
, # LLVM is conceptually a run-time-only dependency, 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
&& lib.meta.availableOn stdenv.targetPlatform gmp)
, gmp
, # If enabled, use -fPIC when compiling static libs.
enableRelocatedStaticLibs ? stdenv.targetPlatform != stdenv.hostPlatform
, enableProfiledLibs ? true
, # 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
# terminfo can't be built for cross
|| (stdenv.buildPlatform != stdenv.hostPlatform)
|| (stdenv.hostPlatform != stdenv.targetPlatform))
, # 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 if we are building on musl because it's a large task to keep
# all `sphinx` dependencies building in this environment.
!stdenv.buildPlatform.isMusl
)
, enableHaddockProgram ?
# Disabled for cross; see note [HADDOCK_DOCS].
(stdenv.buildPlatform == stdenv.hostPlatform && 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
, # Whether to build an unregisterised version of GHC.
# GHC will normally auto-detect whether it can do a registered build, but this
# option will force it to do an unregistered build when set to true.
# See https://gitlab.haskell.org/ghc/ghc/-/wikis/building/unregisterised
enableUnregisterised ? false
}@args:
assert !enableIntegerSimple -> gmp != null;
# Cross cannot currently build the `haddock` program for silly reasons,
# see note [HADDOCK_DOCS].
assert (stdenv.buildPlatform != stdenv.hostPlatform || stdenv.targetPlatform != stdenv.hostPlatform) -> !enableHaddockProgram;
# GHC does not support building when all 3 platforms are different.
assert stdenv.buildPlatform == stdenv.hostPlatform || stdenv.hostPlatform == stdenv.targetPlatform;
let
inherit (stdenv) buildPlatform hostPlatform targetPlatform;
# TODO(@Ericson2314) Make unconditional
targetPrefix = lib.optionalString
(targetPlatform != hostPlatform)
"${targetPlatform.config}-";
buildMK = ''
BuildFlavour = ${ghcFlavour}
ifneq \"\$(BuildFlavour)\" \"\"
include mk/flavours/\$(BuildFlavour).mk
endif
BUILD_SPHINX_HTML = ${if enableDocs then "YES" else "NO"}
BUILD_SPHINX_PDF = NO
WITH_TERMINFO = ${if enableTerminfo then "YES" else "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"}
# Build haddocks for boot packages with hyperlinking
EXTRA_HADDOCK_OPTS += --hyperlinked-source --quickjump
DYNAMIC_GHC_PROGRAMS = ${if enableShared then "YES" else "NO"}
INTEGER_LIBRARY = ${if enableIntegerSimple then "integer-simple" else "integer-gmp"}
'' + lib.optionalString (targetPlatform != hostPlatform) ''
Stage1Only = ${if targetPlatform.system == hostPlatform.system then "NO" else "YES"}
CrossCompilePrefix = ${targetPrefix}
'' + lib.optionalString (!enableProfiledLibs) ''
BUILD_PROF_LIBS = NO
'' + lib.optionalString enableRelocatedStaticLibs ''
GhcLibHcOpts += -fPIC
GhcRtsHcOpts += -fPIC
'' + lib.optionalString targetPlatform.useAndroidPrebuilt ''
EXTRA_CC_OPTS += -std=gnu99
''
# While split sections are now enabled by default in ghc 8.8 for windows,
# they seem to lead to `too many sections` errors when building base for
# profiling.
+ lib.optionalString targetPlatform.isWindows ''
SplitSections = NO
'';
# Splicer will pull out correct variations
libDeps = platform: lib.optional enableTerminfo ncurses
++ [args.${libffi_name}]
++ 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;
buildCC = buildPackages.stdenv.cc;
targetCC = builtins.head toolsForTarget;
installCC = pkgsHostTarget.targetPackages.stdenv.cc;
# toolPath calculates the absolute path to the name tool associated with a
# given `stdenv.cc` derivation, i.e. it picks the correct derivation to take
# the tool from (cc, cc.bintools, cc.bintools.bintools) and adds the correct
# subpath of the tool.
toolPath = name: cc:
let
tools = {
"cc" = cc;
"c++" = cc;
as = cc.bintools.bintools;
ar = cc.bintools.bintools;
ranlib = cc.bintools.bintools;
nm = cc.bintools.bintools;
readelf = cc.bintools.bintools;
objdump = cc.bintools;
ld = cc.bintools;
"ld.gold" = cc.bintools;
otool = cc.bintools.bintools;
# GHC needs install_name_tool on all darwin platforms. The same one can
# be used on both platforms. It is safe to use with linker-generated
# signatures because it will update the signatures automatically after
# modifying the target binary.
install_name_tool = cc.bintools.bintools;
# strip on darwin is wrapped to enable deterministic mode.
strip =
# TODO(@sternenseemann): also use wrapper if linker == "bfd" or "gold"
if stdenv.targetPlatform.isDarwin
then cc.bintools
else cc.bintools.bintools;
# clang is used as an assembler on darwin with the LLVM backend
clang = cc;
}.${name};
in
"${tools}/bin/${tools.targetPrefix}${name}";
# 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")
];
libffi_name = if stdenv.isDarwin && stdenv.isAarch64 then "libffi" else "libffi_3_3";
# These libraries are library dependencies of the standard libraries bundled
# by GHC (core libs) users will link their compiled artifacts again. Thus,
# they should be taken from targetPackages.
#
# We need to use pkgsHostTarget if we are cross compiling a native GHC compiler,
# though (when native compiling GHC, pkgsHostTarget == targetPackages):
#
# 1. targetPackages would be empty(-ish) in this situation since we can't
# execute cross compiled compilers in order to obtain the libraries
# that would be in targetPackages.
# 2. pkgsHostTarget is fine to use since hostPlatform == targetPlatform in this
# situation.
# 3. The core libs used by the final GHC (stage 2) for user artifacts are also
# used to build stage 2 GHC itself, i.e. the core libs are both host and
# target.
targetLibs =
let
basePackageSet =
if hostPlatform != targetPlatform
then targetPackages
else pkgsHostTarget;
in
{
inherit (basePackageSet) gmp ncurses;
# dynamic inherits are not possible in Nix
libffi = basePackageSet.${libffi_name};
};
in
stdenv.mkDerivation (rec {
version = "8.10.7";
pname = "${targetPrefix}ghc${variantSuffix}";
src = fetchurl {
url = "https://downloads.haskell.org/ghc/${version}/ghc-${version}-src.tar.xz";
sha256 = "e3eef6229ce9908dfe1ea41436befb0455fefb1932559e860ad4c606b0d03c9d";
};
enableParallelBuilding = true;
outputs = [ "out" "doc" ];
patches = [
# Fix docs build with sphinx >= 6.0
# https://gitlab.haskell.org/ghc/ghc/-/issues/22766
(fetchpatch {
name = "ghc-docs-sphinx-6.0.patch";
url = "https://gitlab.haskell.org/ghc/ghc/-/commit/10e94a556b4f90769b7fd718b9790d58ae566600.patch";
sha256 = "0kmhfamr16w8gch0lgln2912r8aryjky1hfcda3jkcwa5cdzgjdv";
})
# 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 hyperlinked haddock sources: https://github.com/haskell/haddock/pull/1482
(fetchpatch {
url = "https://patch-diff.githubusercontent.com/raw/haskell/haddock/pull/1482.patch";
sha256 = "sha256-8w8QUCsODaTvknCDGgTfFNZa8ZmvIKaKS+2ZJZ9foYk=";
extraPrefix = "utils/haddock/";
stripLen = 1;
})
# 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";
})
# In order to build ghcjs packages, the Cabal of the ghc used for the ghcjs
# needs to be patched. Ref https://github.com/haskell/cabal/pull/7575
(fetchpatch {
url = "https://github.com/haskell/cabal/commit/369c4a0a54ad08a9e6b0d3bd303fedd7b5e5a336.patch";
sha256 = "120f11hwyaqa0pq9g5l1300crqij49jg0rh83hnp9sa49zfdwx1n";
stripLen = 3;
extraPrefix = "libraries/Cabal/Cabal/";
})
# We need to be able to set AR_STAGE0 and LD_STAGE0 when cross-compiling
(fetchpatch {
url = "https://gitlab.haskell.org/ghc/ghc/-/commit/8f7dd5710b80906ea7a3e15b7bb56a883a49fed8.patch";
hash = "sha256-C636Nq2U8YOG/av7XQmG3L1rU0bmC9/7m7Hty5pm5+s=";
})
] ++ lib.optionals stdenv.isDarwin [
# Make Block.h compile with c++ compilers. Remove with the next release
(fetchpatch {
url = "https://gitlab.haskell.org/ghc/ghc/-/commit/97d0b0a367e4c6a52a17c3299439ac7de129da24.patch";
sha256 = "0r4zjj0bv1x1m2dgxp3adsf2xkr94fjnyj1igsivd9ilbs5ja0b5";
})
] ++ lib.optionals (stdenv.targetPlatform.isDarwin && stdenv.targetPlatform.isAarch64) [
# Prevent the paths module from emitting symbols that we don't use
# when building with separate outputs.
#
# These cause problems as they're not eliminated by GHC's dead code
# elimination on aarch64-darwin. (see
# https://github.com/NixOS/nixpkgs/issues/140774 for details).
./Cabal-3.2-3.4-paths-fix-cycle-aarch64-darwin.patch
];
postPatch = "patchShebangs .";
# GHC is a bit confused on its cross terminology.
# TODO(@sternenseemann): investigate coreutils dependencies and pass absolute paths
preConfigure = ''
for env in $(env | grep '^TARGET_' | sed -E 's|\+?=.*||'); do
export "''${env#TARGET_}=''${!env}"
done
# Stage0 (build->build) which builds stage 1
export GHC="${bootPkgs.ghc}/bin/ghc"
# GHC is a bit confused on its cross terminology, as these would normally be
# the *host* tools.
export CC="${toolPath "cc" targetCC}"
export CXX="${toolPath "c++" targetCC}"
# Use gold to work around https://sourceware.org/bugzilla/show_bug.cgi?id=16177
export LD="${toolPath "ld${lib.optionalString useLdGold ".gold"}" targetCC}"
export AS="${toolPath "as" targetCC}"
export AR="${toolPath "ar" targetCC}"
export NM="${toolPath "nm" targetCC}"
export RANLIB="${toolPath "ranlib" targetCC}"
export READELF="${toolPath "readelf" targetCC}"
export STRIP="${toolPath "strip" targetCC}"
export OBJDUMP="${toolPath "objdump" targetCC}"
'' + lib.optionalString (stdenv.targetPlatform.linker == "cctools") ''
export OTOOL="${toolPath "otool" targetCC}"
export INSTALL_NAME_TOOL="${toolPath "install_name_tool" targetCC}"
'' + lib.optionalString useLLVM ''
export LLC="${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
# The executable we specify via $CLANG is used as an assembler (exclusively, it seems, but this isn't
# clarified in any user facing documentation). As such, it'll be called on assembly produced by $CC
# which usually comes from the darwin stdenv. To prevent a situation where $CLANG doesn't understand
# the assembly it is given, we need to make sure that it matches the LLVM version of $CC if possible.
# It is unclear (at the time of writing 2024-09-01) whether $CC should match the LLVM version we use
# for llc and opt which would require using a custom darwin stdenv for targetCC.
export CLANG="${
if targetCC.isClang
then toolPath "clang" targetCC
else "${buildTargetLlvmPackages.clang}/bin/${buildTargetLlvmPackages.clang.targetPrefix}clang"
}"
'' + ''
# No need for absolute paths since these tools only need to work during the build
export CC_STAGE0="$CC_FOR_BUILD"
export LD_STAGE0="$LD_FOR_BUILD"
export AR_STAGE0="$AR_FOR_BUILD"
echo -n "${buildMK}" > 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"
# GHC tries the host xattr /usr/bin/xattr by default which fails since it expects python to be 2.7
export XATTR=${lib.getBin xattr}/bin/xattr
'' + 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 $x \
--replace '*-android*|*-gnueabi*)' \
'*-android*|*-gnueabi*|*-musleabi*)'
done
'';
# Although it is usually correct to pass --host, we don't do that here because
# GHC's usage of build, host, and target is non-standard.
# See https://gitlab.haskell.org/ghc/ghc/-/wikis/building/cross-compiling
# TODO(@Ericson2314): Always pass "--target" and always prefix.
configurePlatforms = [ "build" ]
++ lib.optional (buildPlatform != hostPlatform || targetPlatform != hostPlatform) "target";
# `--with` flags for libraries needed for RTS linker
configureFlags = [
"--datadir=$doc/share/doc/ghc"
] ++ lib.optionals enableTerminfo [
"--with-curses-includes=${lib.getDev targetLibs.ncurses}/include"
"--with-curses-libraries=${lib.getLib targetLibs.ncurses}/lib"
] ++ lib.optionals (args.${libffi_name} != null) [
"--with-system-libffi"
"--with-ffi-includes=${targetLibs.libffi.dev}/include"
"--with-ffi-libraries=${targetLibs.libffi.out}/lib"
] ++ lib.optionals (targetPlatform == hostPlatform && !enableIntegerSimple) [
"--with-gmp-includes=${targetLibs.gmp.dev}/include"
"--with-gmp-libraries=${targetLibs.gmp.out}/lib"
] ++ lib.optionals (targetPlatform == hostPlatform && hostPlatform.libc != "glibc" && !targetPlatform.isWindows) [
"--with-iconv-includes=${libiconv}/include"
"--with-iconv-libraries=${libiconv}/lib"
] ++ lib.optionals (targetPlatform != hostPlatform) [
"--enable-bootstrap-with-devel-snapshot"
] ++ lib.optionals useLdGold [
"CFLAGS=-fuse-ld=gold"
"CONF_GCC_LINKER_OPTS_STAGE1=-fuse-ld=gold"
"CONF_GCC_LINKER_OPTS_STAGE2=-fuse-ld=gold"
] ++ lib.optionals (disableLargeAddressSpace) [
"--disable-large-address-space"
] ++ lib.optionals enableUnregisterised [
"--enable-unregisterised"
];
# Make sure we never relax`$PATH` and hooks support for compatibility.
strictDeps = true;
# Dont add -liconv to LDFLAGS automatically so that GHC will add it itself.
dontAddExtraLibs = true;
nativeBuildInputs = [
perl autoreconfHook autoconf automake m4 python3
bootPkgs.alex bootPkgs.happy bootPkgs.hscolour
bootPkgs.ghc-settings-edit
] ++ lib.optionals (stdenv.isDarwin && stdenv.isAarch64) [
autoSignDarwinBinariesHook
] ++ lib.optionals enableDocs [
sphinx
];
# Everything the stage0 compiler needs to build stage1: CC, bintools, extra libs.
# See also GHC, {CC,LD,AR}_STAGE0 in preConfigure.
depsBuildBuild = [
# N.B. We do not declare bootPkgs.ghc in any of the stdenv.mkDerivation
# dependency lists to prevent the bintools setup hook from adding ghc's
# lib directory to the linker flags. Instead we tell configure about it
# via the GHC environment variable.
buildCC
# stage0 builds terminfo unconditionally, so we always need ncurses
ncurses
];
# For building runtime libs
depsBuildTarget = toolsForTarget;
# Prevent stage0 ghc from leaking into the final result. This was an issue
# with GHC 9.6.
disallowedReferences = [
bootPkgs.ghc
];
buildInputs = [ 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";
# big-parallel allows us to build with more than 2 cores on
# Hydra which already warrants a significant speedup
requiredSystemFeatures = [ "big-parallel" ];
postInstall = ''
settingsFile="$out/lib/${targetPrefix}${passthru.haskellCompilerName}/settings"
# Make the installed GHC use the host->target tools.
ghc-settings-edit "$settingsFile" \
"C compiler command" "${toolPath "cc" installCC}" \
"Haskell CPP command" "${toolPath "cc" installCC}" \
"C++ compiler command" "${toolPath "c++" installCC}" \
"ld command" "${toolPath "ld${lib.optionalString useLdGold ".gold"}" installCC}" \
"Merge objects command" "${toolPath "ld${lib.optionalString useLdGold ".gold"}" installCC}" \
"ar command" "${toolPath "ar" installCC}" \
"ranlib command" "${toolPath "ranlib" installCC}"
''
+ lib.optionalString (stdenv.targetPlatform.linker == "cctools") ''
ghc-settings-edit "$settingsFile" \
"otool command" "${toolPath "otool" installCC}" \
"install_name_tool command" "${toolPath "install_name_tool" installCC}"
''
+ lib.optionalString useLLVM ''
ghc-settings-edit "$settingsFile" \
"LLVM llc command" "${lib.getBin llvmPackages.llvm}/bin/llc" \
"LLVM opt command" "${lib.getBin llvmPackages.llvm}/bin/opt"
''
+ lib.optionalString (useLLVM && stdenv.targetPlatform.isDarwin) ''
ghc-settings-edit "$settingsFile" \
"LLVM clang command" "${
# See comment for CLANG in preConfigure
if installCC.isClang
then toolPath "clang" installCC
else "${llvmPackages.clang}/bin/${llvmPackages.clang.targetPrefix}clang"
}"
''
+ ''
# 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 = "Glasgow Haskell Compiler";
maintainers = with lib.maintainers; [
guibou
] ++ lib.teams.haskell.members;
timeout = 24 * 3600;
platforms = lib.platforms.all;
inherit (bootPkgs.ghc.meta) license;
};
} // lib.optionalAttrs targetPlatform.useAndroidPrebuilt {
dontStrip = true;
dontPatchELF = true;
noAuditTmpdir = true;
})