Files
2023-03-15 10:55:41 +03:00

634 lines
27 KiB
Nix

{ pkgs, stdenv, buildPackages, ghc, lib, gobject-introspection ? null, haskellLib, makeConfigFiles, haddockBuilder, ghcForComponent, hsPkgs, compiler, runCommand, libffi, gmp, windows, zlib, ncurses, nodejs }@defaults:
lib.makeOverridable (
let self =
{ componentId
, component
, package
, name # This is the package name
, setup
, src
, flags
, cabalFile
, cabal-generator
, patches ? []
, preUnpack ? component.preUnpack, postUnpack ? component.postUnpack
, configureFlags ? component.configureFlags
, preConfigure ? component.preConfigure, postConfigure ? component.postConfigure
, setupBuildFlags ? []
, preBuild ? component.preBuild , postBuild ? component.postBuild
, preCheck ? component.preCheck , postCheck ? component.postCheck
, setupInstallFlags ? component.setupInstallFlags
, preInstall ? component.preInstall , postInstall ? component.postInstall
, preHaddock ? component.preHaddock , postHaddock ? component.postHaddock
, shellHook ? ""
, configureAllComponents ? component.configureAllComponents ||
# When set, configure all the components in the package
# (not just the one we are building).
# Enable for tests in packages that use cabal-doctest.
( haskellLib.isTest componentId &&
lib.any (x: x.identifier.name or "" == "cabal-doctest") package.setup-depends
)
, allComponent # Used when `configureAllComponents` is set to get a suitable configuration.
, build-tools ? component.build-tools
, pkgconfig ? component.pkgconfig
, platforms ? component.platforms
, frameworks ? component.frameworks
, dontPatchELF ? component.dontPatchELF
, dontStrip ? component.dontStrip
, hardeningDisable ? component.hardeningDisable
, enableStatic ? component.enableStatic
, enableShared ? ghc.enableShared && component.enableShared && !haskellLib.isCrossHost
# on x86 we'll use shared libraries, even with musl m(
# ghc's internal linker seems to be broken on x86.
&& !(stdenv.hostPlatform.isMusl && !stdenv.hostPlatform.isx86)
, enableDeadCodeElimination ? component.enableDeadCodeElimination
, writeHieFiles ? component.writeHieFiles
, ghcOptions ? component.ghcOptions
, contentAddressed ? component.contentAddressed
# Options for Haddock generation
, doHaddock ? component.doHaddock # Enable haddock and hoogle generation
, doHoogle ? component.doHoogle # Also build a hoogle index
, hyperlinkSource ? component.doHyperlinkSource # Link documentation to the source code
, quickjump ? component.doQuickjump # Generate an index for interactive documentation navigation
, keepSource ? component.keepSource || configureAllComponents # Build from `source` output in the store then delete `dist`
, setupHaddockFlags ? component.setupHaddockFlags
# Profiling
, enableLibraryProfiling ? component.enableLibraryProfiling
, enableProfiling ? component.enableProfiling
, profilingDetail ? component.profilingDetail
# Coverage
, doCoverage ? component.doCoverage
# Data
, enableSeparateDataOutput ? component.enableSeparateDataOutput
# Prelinked ghci libraries; will make iserv faster; especially for static builds.
, enableLibraryForGhci ? true
# Debug
, enableDebugRTS ? false
, enableDWARF ? false
# This will only work with a custom TSan way enabled custom compiler
, enableTSanRTS ? false
# LLVM
, useLLVM ? ghc.useLLVM
, smallAddressSpace ? false
}@drvArgs:
let
componentForSetup =
if configureAllComponents
then allComponent
else component;
# Ignore attempts to include DWARF info when it is not possible
enableDWARF = drvArgs.enableDWARF or false
&& stdenv.hostPlatform.isLinux
&& !haskellLib.isCrossHost
&& !stdenv.hostPlatform.isMusl
&& builtins.compareVersions defaults.ghc.version "8.10.2" >= 0;
ghc = (if enableDWARF then (x: x.dwarf) else (x: x)) (
(if smallAddressSpace then (x: x.smallAddressSpace) else (x: x)) defaults.ghc);
setup = (if enableDWARF then (x: x.dwarf) else (x: x)) (
(if smallAddressSpace then (x: x.smallAddressSpace) else (x: x)) drvArgs.setup);
# TODO fix cabal wildcard support so hpack wildcards can be mapped to cabal wildcards
canCleanSource = !(cabal-generator == "hpack" && !(package.cleanHpack or false));
# In order to support relative references to other packages we need to use
# the `origSrc` diretory as the root `src` for the derivation.
# We use `rootAndSubDir` here to split the cleaned source into a `cleanSrc.root`
# path (that respects the filtering) and a `cleanSrc.subDir` that
# is the sub directory in that root path that contains the package.
# `cleanSrc.subDir` is used in `prePatch` and `lib/cover.nix`.
cleanSrc = haskellLib.rootAndSubDir (if canCleanSource
then haskellLib.cleanCabalComponent package componentForSetup "${componentId.ctype}-${componentId.cname}" src
else
# We can clean out the siblings though to at least avoid changes to other packages
# from triggering a rebuild of this one.
# Passing `subDir` but not `includeSiblings = true;` will exclude anything not
# in the `subDir`.
if src ? origSrc && src ? filter && src.origSubDir or "" != ""
then haskellLib.cleanSourceWith {
name = src.name or "source";
src = src.origSrc;
subDir = lib.removePrefix "/" src.origSubDir;
inherit (src) filter;
}
else src);
nameOnly = "${package.identifier.name}-${componentId.ctype}-${componentId.cname}";
fullName = "${nameOnly}-${package.identifier.version}";
needsProfiling = enableProfiling || enableLibraryProfiling;
configFiles = makeConfigFiles {
component = componentForSetup;
inherit (package) identifier;
inherit fullName flags needsProfiling enableDWARF;
};
enableFeature = enable: feature:
(if enable then "--enable-" else "--disable-") + feature;
disableFeature = disable: enableFeature (!disable);
finalConfigureFlags = lib.concatStringsSep " " (
[ "--prefix=$out"
] ++
# We don't specify this in 'commonConfigureFlags', as these are also
# used by haddock-builder.nix. If we do specify these options in
# commonConfigureFlags, then the haddock-builder will fail, because it
# sets its own outputs which *don't* include $hie
lib.optionals writeHieFiles [
"--ghc-option=-fwrite-ide-info" "--ghc-option=-hiedir$hie"
] ++
(
# If configureAllComponents is set we should not specify the component
# and Setup will attempt to configure them all.
if configureAllComponents
then ["--enable-tests" "--enable-benchmarks"]
else ["${haskellLib.componentTarget componentId}"]
) ++ [ "$(cat ${configFiles}/configure-flags)"
] ++ commonConfigureFlags);
# From nixpkgs 20.09, the pkg-config exe has a prefix matching the ghc one
pkgConfigHasPrefix = builtins.compareVersions lib.version "20.09pre" >= 0;
commonConfigureFlags = ([
# GHC
"--with-ghc=${ghc.targetPrefix}ghc"
"--with-ghc-pkg=${ghc.targetPrefix}ghc-pkg"
"--with-hsc2hs=${ghc.targetPrefix}hsc2hs"
] ++ lib.optional (pkgConfigHasPrefix && pkgconfig != [])
"--with-pkg-config=${ghc.targetPrefix}pkg-config"
++ lib.optionals (stdenv.hasCC or (stdenv.cc != null))
( # CC
[ "--with-gcc=${stdenv.cc.targetPrefix}cc"
] ++
# BINTOOLS
[
"--with-ar=${stdenv.cc.bintools.targetPrefix}ar"
"--with-strip=${stdenv.cc.bintools.targetPrefix}strip"
]
) ++ [ # other flags
(disableFeature dontStrip "executable-stripping")
(disableFeature dontStrip "library-stripping")
(enableFeature enableLibraryProfiling "library-profiling")
(enableFeature enableProfiling "profiling")
(enableFeature enableStatic "static")
(enableFeature enableShared "shared")
(enableFeature doCoverage "coverage")
(enableFeature enableLibraryForGhci "library-for-ghci")
] ++ lib.optionals (stdenv.hostPlatform.isMusl && (haskellLib.isExecutableType componentId)) [
# These flags will make sure the resulting executable is statically linked.
# If it uses other libraries it may be necessary for to add more
# `--ghc-option=-optl=-L` options to the `configureFlags` of the
# component.
"--disable-executable-dynamic"
"--ghc-option=-optl=-pthread"
"--ghc-option=-optl=-static"
] ++ lib.optional enableSeparateDataOutput "--datadir=$data/share/${ghc.name}"
++ lib.optional (enableLibraryProfiling || enableProfiling) "--profiling-detail=${profilingDetail}"
++ lib.optional stdenv.hostPlatform.isLinux (enableFeature enableDeadCodeElimination "split-sections")
++ lib.optionals haskellLib.isCrossHost (
map (arg: "--hsc2hs-option=" + arg) (["--cross-compile"] ++ lib.optionals (stdenv.hostPlatform.isWindows) ["--via-asm"])
++ lib.optional (package.buildType == "Configure") "--configure-option=--host=${stdenv.hostPlatform.config}" )
++ configureFlags
++ (ghc.extraConfigureFlags or [])
++ lib.optional enableDebugRTS "--ghc-option=-debug"
++ lib.optional enableTSanRTS "--ghc-option=-tsan"
++ lib.optional enableDWARF "--ghc-option=-g3"
++ lib.optionals useLLVM [
"--ghc-option=-fPIC" "--gcc-option=-fPIC"
]
++ map (o: ''--ghc${lib.optionalString (stdenv.hostPlatform.isGhcjs) "js"}-options="${o}"'') ghcOptions
++ lib.optional (
# GHC 9.2 cross compiler built with older versions of GHC seem to have problems
# with unique conters. Perhaps because the name changed for the counters.
# TODO This work around to use `-j1` should be removed once we are able to build 9.2 with 9.2.
haskellLib.isCrossHost
&& builtins.compareVersions defaults.ghc.version "9.2.1" >= 0
&& builtins.compareVersions defaults.ghc.version "9.3" < 0)
"--ghc-options=-j1"
);
# the build-tools version might be depending on the version of the package, similarly to patches
executableToolDepends =
(lib.concatMap (c: if c.isHaskell or false
then builtins.attrValues (c.components.exes or {})
else [c])
(builtins.filter (x: !(isNull x)
# We always exclude hsc2hs from build-tools because it is unecessary as it is provided by ghc
# and hsc2hs from ghc is first in PATH so the one from build-tools is never used.
&& x.identifier.name or "" != "hsc2hs")
(map
(p: if builtins.isFunction p
then p { inherit (package.identifier) version; }
else p) build-tools))) ++
lib.optional (pkgconfig != []) buildPackages.cabalPkgConfigWrapper;
# Unfortunately, we need to wrap ghc commands for cabal builds to
# work in the nix-shell. See ../docs/dev/removing-with-package-wrapper.md.
shellWrappers = ghcForComponent {
componentName = fullName;
inherit configFiles enableDWARF;
inherit (component) plugins;
};
# In order to let shell hooks make package-specific things like Hoogle databases
shellHookApplied = if builtins.isString shellHook then shellHook else
if builtins.isFunction shellHook then shellHook { inherit package shellWrappers; }
else abort "shellHook should be a string or a function";
exeExt = if stdenv.hostPlatform.isGhcjs then ".jsexe/all.js" else
stdenv.hostPlatform.extensions.executable;
exeName = componentId.cname + exeExt;
testExecutable = "dist/build/${componentId.cname}/${exeName}";
# Attributes that are common to both the build and haddock derivations
commonAttrs = {
src = cleanSrc.root;
LANG = "en_US.UTF-8"; # GHC needs the locale configured during the Haddock phase.
LC_ALL = "en_US.UTF-8";
enableParallelBuilding = true;
SETUP_HS = setup + /bin/Setup;
inherit cabalFile;
passAsFile = [ "cabalFile" ];
prePatch =
# If the package is in a sub directory `cd` there first.
# In some cases the `cleanSrc.subDir` will be empty and the `.cabal`
# file will be in the root of `src` (`cleanSrc.root`). This
# will happen when:
# * the .cabal file is in the projects `src.origSrc or src`
# * the package src was overridden with a value that does not
# include an `origSubDir`
(lib.optionalString (cleanSrc.subDir != "") ''
cd ${lib.removePrefix "/" cleanSrc.subDir}
''
) +
(if cabalFile != null
then ''cp -v $cabalFilePath ${package.identifier.name}.cabal''
else
# When building hpack package we use the internal nix-tools
# (compiled with a fixed GHC version)
lib.optionalString (cabal-generator == "hpack") ''
${buildPackages.haskell-nix.internal-nix-tools}/bin/hpack
''
);
}
# patches can (if they like) depend on the version of the package.
// lib.optionalAttrs (patches != []) {
patches = map (p:
if builtins.isFunction p
then p { inherit (package.identifier) version; }
else p
) patches;
}
// haskellLib.optionalHooks {
# These are hooks are needed to set up the source for building and running haddock
inherit preUnpack postUnpack preConfigure postConfigure;
}
// lib.optionalAttrs (stdenv.buildPlatform.libc == "glibc") {
LOCALE_ARCHIVE = "${buildPackages.glibcLocales}/lib/locale/locale-archive";
}
// lib.optionalAttrs stdenv.hostPlatform.isMusl {
# This fixes musl compilation of TH code that depends on C++ (for instance TH code that uses the double-conversion package)
LD_LIBRARY_PATH="${pkgs.buildPackages.gcc-unwrapped.lib}/x86_64-unknown-linux-musl/lib";
};
haddock = haddockBuilder {
inherit componentId component package flags commonConfigureFlags
commonAttrs doHaddock
doHoogle hyperlinkSource quickjump setupHaddockFlags
needsProfiling configFiles preHaddock postHaddock pkgconfig;
componentDrv = drv;
};
contentAddressedAttrs = lib.optionalAttrs contentAddressed {
__contentAddressed = true;
outputHashMode = "recursive";
outputHashAlgo = "sha256";
};
drv = stdenv.mkDerivation (commonAttrs // contentAddressedAttrs // {
pname = nameOnly;
inherit (package.identifier) version;
doCheck = false;
doCrossCheck = false;
inherit dontPatchELF dontStrip;
passthru = {
inherit (package) identifier;
config = component;
srcSubDir = cleanSrc.subDir;
srcSubDirPath = cleanSrc.root + cleanSrc.subDir;
inherit configFiles executableToolDepends exeName enableDWARF;
exePath = drv + "/bin/${exeName}";
env = shellWrappers;
profiled = self (drvArgs // { enableLibraryProfiling = true; });
dwarf = self (drvArgs // { enableDWARF = true; });
} // lib.optionalAttrs (haskellLib.isLibrary componentId) ({
inherit haddock;
inherit (haddock) haddockDir; # This is null if `doHaddock = false`
} // lib.optionalAttrs (haddock ? doc) {
# `doHaddock = false` turns the doc of haddock output off
inherit (haddock) doc;
}
);
meta = {
homepage = package.homepage or "";
description = package.synopsis or "";
license = haskellLib.cabalToNixpkgsLicense package.license;
platforms = if platforms == null then lib.platforms.all else platforms;
} // lib.optionalAttrs (haskellLib.isExecutableType componentId) {
# Set main executable name for executable components, so that `nix run` in
# nix flakes will work correctly. When not set, `nix run` would (typically
# erroneously) deduce the executable name from the derivation name and
# attempt to run, for example,
# `/nix/store/...-project-exe-app-0.1.0.0/bin/project-exe-app` instead of
# `/nix/store/...-project-exe-app-0.1.0.0/bin/app`.
mainProgram = exeName;
};
propagatedBuildInputs =
frameworks # Frameworks will be needed at link time
# Not sure why pkgconfig needs to be propagatedBuildInputs but
# for gi-gtk-hs it seems to help.
++ map pkgs.lib.getDev (builtins.concatLists pkgconfig)
++ lib.optionals (stdenv.hostPlatform.isWindows)
(lib.flatten component.libs
++ map haskellLib.dependToLib component.depends);
buildInputs = lib.optionals (!stdenv.hostPlatform.isWindows)
(lib.flatten component.libs
++ map haskellLib.dependToLib component.depends);
nativeBuildInputs =
[shellWrappers buildPackages.removeReferencesTo]
++ executableToolDepends;
outputs = ["out" ]
++ (lib.optional enableSeparateDataOutput "data")
++ (lib.optional keepSource "source")
++ (lib.optional writeHieFiles "hie");
prePatch =
# emcc is very slow if it cannot cache stuff in $HOME
(lib.optionalString (stdenv.hostPlatform.isGhcjs) ''
export HOME=$(mktemp -d)
'') +
(lib.optionalString (!canCleanSource) ''
echo "Cleaning component source not supported, leaving it un-cleaned"
'') +
(lib.optionalString keepSource ''
cp -r . $source
cd $source
chmod -R +w .
'') + commonAttrs.prePatch;
configurePhase = ''
runHook preConfigure
echo Configure flags:
printf "%q " ${finalConfigureFlags}
echo
$SETUP_HS configure ${finalConfigureFlags}
runHook postConfigure
'';
buildPhase =
# It seems that by the time the iserv wrapper specifiec by `--ghc-option=-pgmi` runs
# all the array environment variables are removed from the environment. To get a list
# of all the locations a DLLs might be present we need access to pkgsHostTarget.
# Adding a string version of the list array of nix store paths allows us to get that
# list when we need it.
(lib.optionalString stdenv.hostPlatform.isWindows ''
export pkgsHostTargetAsString="''${pkgsHostTarget[@]}"
'') +
# The following could be refactored but would lead to many rebuilds
# In case of content addressed components we need avoid parallel building (passing -j1)
# in order to have a deterministic output and therefore avoid potential situations
# where the binary cache becomes useless
# See also https://gitlab.haskell.org/ghc/ghc/-/issues/12935
(if contentAddressed then ''
runHook preBuild
$SETUP_HS build ${haskellLib.componentTarget componentId} -j1 ${lib.concatStringsSep " " (component.setupBuildFlags ++ setupBuildFlags)}
runHook postBuild
'' else if stdenv.hostPlatform.isGhcjs then ''
runHook preBuild
# https://gitlab.haskell.org/ghc/ghc/issues/9221
$SETUP_HS build ${haskellLib.componentTarget componentId} ${lib.concatStringsSep " " (component.setupBuildFlags ++ setupBuildFlags)}
runHook postBuild
'' else ''
runHook preBuild
# https://gitlab.haskell.org/ghc/ghc/issues/9221
$SETUP_HS build ${haskellLib.componentTarget componentId} -j$(($NIX_BUILD_CORES > 4 ? 4 : $NIX_BUILD_CORES)) ${lib.concatStringsSep " " (component.setupBuildFlags ++ setupBuildFlags)}
runHook postBuild
'');
# Note: Cabal does *not* copy test executables during the `install` phase.
#
# Note 2: if a package contains multiple libs (lib + sublibs) SETUP register will generate a
# folder instead of a file for the configuration. Therefore if the result is a folder,
# we need to register each and every element of that folder.
#
# Note 3: if a package has no libs SETUP will not generate anything. This can
# happen when building the `all` component of a package.
installPhase = let
target-pkg-and-db = "${ghc.targetPrefix}ghc-pkg -v0 --package-db $out/package.conf.d";
in ''
runHook preInstall
${ # `Setup copy` does not install tests and benchmarks.
if !haskellLib.isTest componentId && !haskellLib.isBenchmark componentId
then ''
$SETUP_HS copy ${lib.concatStringsSep " " (
setupInstallFlags
++ lib.optional configureAllComponents
(haskellLib.componentTarget componentId)
)}''
else
# However if there are exes or libraries it does copy the datadir.
# So run it, but expect it might complain there was nothing to do.
''
SETUP_ERR=$(mktemp)
if $SETUP_HS copy ${lib.concatStringsSep " " (
setupInstallFlags
++ lib.optional configureAllComponents
(haskellLib.componentTarget componentId)
)} 2> >(tee $SETUP_ERR >&2); then
echo Setup copy success
else
# we assume that if the SETUP_HS command fails and the following line was found in the error
# log, that it was the only error. Hence if we do _not_ find the line, grep will fail and this derivation
# will be marked as failure.
cat $SETUP_ERR | grep 'Error: Setup: No executables and no library found\. Nothing to do\.'
fi
''}
${lib.optionalString (haskellLib.isLibrary componentId) ''
$SETUP_HS register --gen-pkg-config=${name}.conf
${ghc.targetPrefix}ghc-pkg -v0 init $out/package.conf.d
${ghc.targetPrefix}ghc-pkg -v0 --package-db ${configFiles}/${configFiles.packageCfgDir} -f $out/package.conf.d register ${name}.conf
mkdir -p $out/exactDep
touch $out/exactDep/configure-flags
touch $out/exactDep/cabal.config
touch $out/envDep
${ # The main library in a package has the same name as the package
if package.identifier.name == componentId.cname
then ''
if id=$(${target-pkg-and-db} field ${package.identifier.name} id --simple-output); then
echo "--dependency=${package.identifier.name}=$id" >> $out/exactDep/configure-flags
echo "package-id $id" >> $out/envDep
else
echo 'ERROR: ${package.identifier.name} id could not be found with ${target-pkg-and-db}'
exit 1
fi
if ver=$(${target-pkg-and-db} field ${package.identifier.name} version --simple-output); then
echo "constraint: ${package.identifier.name} == $ver" >> $out/exactDep/cabal.config
echo "constraint: ${package.identifier.name} installed" >> $out/exactDep/cabal.config
else
echo 'ERROR: ${package.identifier.name} version could not be found with ${target-pkg-and-db}'
exit 1
fi
''
else
# If the component name is not the package name this must be a sublib.
# As we build sublibs separately, the following query should be safe.
(''
if id=$(${target-pkg-and-db} field "z-${package.identifier.name}-z-*" id --simple-output); then
name=$(${target-pkg-and-db} field "z-${package.identifier.name}-z-*" name --simple-output)
echo "--dependency=''${name#z-${package.identifier.name}-z-}=$id" >> $out/exactDep/configure-flags
''
# Allow `package-name:sublib-name` to work in `build-depends`
# by adding the same `--dependency` again, but with the package
# name added.
+ ''
echo "--dependency=${package.identifier.name}:''${name#z-${package.identifier.name}-z-}=$id" >> $out/exactDep/configure-flags
else
echo 'ERROR: ${package.identifier.name} id could not be found with ${target-pkg-and-db}'
exit 1
fi
'')
}
''}
${(lib.optionalString (haskellLib.isTest componentId || haskellLib.isBenchmark componentId) ''
mkdir -p $out/bin
if [ -f ${testExecutable} ]; then
mkdir -p $(dirname $out/bin/${exeName})
${lib.optionalString stdenv.buildPlatform.isLinux "sync"}
${if stdenv.hostPlatform.isGhcjs then ''
cat <(echo \#!${lib.getBin buildPackages.nodejs-18_x}/bin/node) ${testExecutable} >| $out/bin/${exeName}
chmod +x $out/bin/${exeName}
'' else ''
cp -r ${testExecutable} $(dirname $out/bin/${exeName})
''}
fi
'')
# In case `setup copy` did not create this
+ (lib.optionalString enableSeparateDataOutput ''
mkdir -p $data
'')
+ (lib.optionalString (stdenv.hostPlatform.isWindows && (haskellLib.mayHaveExecutable componentId)) (''
echo "Symlink libffi and gmp .dlls ..."
for p in ${lib.concatStringsSep " " ([ libffi gmp ] ++
# Also include C++ and mcfgthreads DLLs for GHC 9.4.1 and newer
lib.optionals (builtins.compareVersions defaults.ghc.version "9.4.1" >= 0)
[ buildPackages.gcc-unwrapped windows.mcfgthreads ])}; do
find "$p" -iname '*.dll' -exec ln -s {} $out/bin \;
done
''
# symlink all .dlls into the local directory.
+ ''
for p in $pkgsHostTargetAsString; do
find "$p" -iname '*.dll' -exec ln -s {} $out/bin \;
find "$p" -iname '*.dll.a' -exec ln -s {} $out/bin \;
done
''))
+ (lib.optionalString doCoverage ''
mkdir -p $out/share
cp -r dist/hpc $out/share
cp dist/setup-config $out/
'')
}
runHook postInstall
'' + (
# Keep just the autogen files and package.conf.inplace package
# DB (probably empty unless this is a library component).
# We also have to remove any refernces to $out to avoid
# circular references.
lib.optionalString (configureAllComponents || keepSource) ''
mv dist dist-tmp-dir
mkdir -p dist/build
if [ -d dist-tmp-dir/build/${componentId.cname}/autogen ]; then
mv dist-tmp-dir/build/${componentId.cname}/autogen dist/build/
elif [ -d dist-tmp-dir/build/autogen ]; then
mv dist-tmp-dir/build/autogen dist/build/
fi
mv dist-tmp-dir/package.conf.inplace dist/
if [ -d dist/build/autogen ]; then
remove-references-to -t $out dist/build/autogen/*
fi
rm -rf dist-tmp-dir
''
) + (
# Avoid circular refernces that crop up by removing references to $out
# from the current directory ($source).
# So far we have seen these in:
# * The `${name}.conf` of a library component.
# * The `hie` files for the Paths_ module (when building the stack exe).
lib.optionalString keepSource ''
find . -type f -exec remove-references-to -t $out '{}' +
'') + (lib.optionalString (haskellLib.isTest componentId) ''
echo The test ${package.identifier.name}.components.tests.${componentId.cname} was built. To run the test build ${package.identifier.name}.checks.${componentId.cname}.
'');
doInstallCheck = true;
installCheckPhase = lib.optionalString (haskellLib.isLibrary componentId) ''
if test -n "$(shopt -s nullglob; echo $out/package.conf.d/${name}-*.conf)"; then
echo $out/package.conf.d/${name}-*.conf " is present"
else
echo "ERROR: $out/package.conf.d/${name}-*.conf was not created"
exit 1
fi
'';
shellHook = ''
export PATH="${shellWrappers}/bin:$PATH"
${shellHookApplied}
'';
}
// haskellLib.optionalHooks {
# These are the hooks that are not needed by haddock (see commonAttrs for the ones that
# are shared with the haddock derivation)
inherit
preBuild postBuild
preInstall postInstall;
}
// lib.optionalAttrs (hardeningDisable != [] || stdenv.hostPlatform.isMusl) {
hardeningDisable = hardeningDisable ++ lib.optional stdenv.hostPlatform.isMusl "pie";
});
in drv; in self)