depot/third_party/nixpkgs/pkgs/build-support/dotnet/build-dotnet-module/default.nix

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{ lib
, stdenvNoCC
, callPackage
, writeShellScript
, srcOnly
, linkFarmFromDrvs
, symlinkJoin
, makeWrapper
, dotnetCorePackages
, mkNugetSource
, mkNugetDeps
, nuget-to-nix
, cacert
, coreutils
}:
{ name ? "${args.pname}-${args.version}"
, pname ? name
, enableParallelBuilding ? true
, doCheck ? false
# Flags to pass to `makeWrapper`. This is done to avoid double wrapping.
, makeWrapperArgs ? [ ]
# Flags to pass to `dotnet restore`.
, dotnetRestoreFlags ? [ ]
# Flags to pass to `dotnet build`.
, dotnetBuildFlags ? [ ]
# Flags to pass to `dotnet test`, if running tests is enabled.
, dotnetTestFlags ? [ ]
# Flags to pass to `dotnet install`.
, dotnetInstallFlags ? [ ]
# Flags to pass to `dotnet pack`.
, dotnetPackFlags ? [ ]
# Flags to pass to dotnet in all phases.
, dotnetFlags ? [ ]
# The path to publish the project to. When unset, the directory "$out/lib/$pname" is used.
, installPath ? null
# The binaries that should get installed to `$out/bin`, relative to `$out/lib/$pname/`. These get wrapped accordingly.
# Unfortunately, dotnet has no method for doing this automatically.
# If unset, all executables in the projects root will get installed. This may cause bloat!
, executables ? null
# Packs a project as a `nupkg`, and installs it to `$out/share`. If set to `true`, the derivation can be used as a dependency for another dotnet project by adding it to `projectReferences`.
, packNupkg ? false
# The packages project file, which contains instructions on how to compile it. This can be an array of multiple project files as well.
, projectFile ? null
# The NuGet dependency file. This locks all NuGet dependency versions, as otherwise they cannot be deterministically fetched.
# This can be generated by running the `passthru.fetch-deps` script.
, nugetDeps ? null
# A list of derivations containing nupkg packages for local project references.
# Referenced derivations can be built with `buildDotnetModule` with `packNupkg=true` flag.
# Since we are sharing them as nugets they must be added to csproj/fsproj files as `PackageReference` as well.
# For example, your project has a local dependency:
# <ProjectReference Include="../foo/bar.fsproj" />
# To enable discovery through `projectReferences` you would need to add a line:
# <ProjectReference Include="../foo/bar.fsproj" />
# <PackageReference Include="bar" Version="*" Condition=" '$(ContinuousIntegrationBuild)'=='true' "/>
, projectReferences ? [ ]
# Libraries that need to be available at runtime should be passed through this.
# These get wrapped into `LD_LIBRARY_PATH`.
, runtimeDeps ? [ ]
# The dotnet runtime ID. If null, fetch-deps will gather dependencies for all
# platforms in meta.platforms which are supported by the sdk.
, runtimeId ? null
# Tests to disable. This gets passed to `dotnet test --filter "FullyQualifiedName!={}"`, to ensure compatibility with all frameworks.
# See https://docs.microsoft.com/en-us/dotnet/core/tools/dotnet-test#filter-option-details for more details.
, disabledTests ? [ ]
# The project file to run unit tests against. This is usually referenced in the regular project file, but sometimes it needs to be manually set.
# It gets restored and build, but not installed. You may need to regenerate your nuget lockfile after setting this.
, testProjectFile ? ""
# The type of build to perform. This is passed to `dotnet` with the `--configuration` flag. Possible values are `Release`, `Debug`, etc.
, buildType ? "Release"
# If set to true, builds the application as a self-contained - removing the runtime dependency on dotnet
, selfContainedBuild ? false
# Whether to explicitly enable UseAppHost when building
, useAppHost ? true
# The dotnet SDK to use.
, dotnet-sdk ? dotnetCorePackages.sdk_6_0
# The dotnet runtime to use.
, dotnet-runtime ? dotnetCorePackages.runtime_6_0
# The dotnet SDK to run tests against. This can differentiate from the SDK compiled against.
, dotnet-test-sdk ? dotnet-sdk
, ...
} @ args:
let
platforms =
if args ? meta.platforms
then lib.intersectLists args.meta.platforms dotnet-sdk.meta.platforms
else dotnet-sdk.meta.platforms;
inherit (callPackage ./hooks {
inherit dotnet-sdk dotnet-test-sdk disabledTests nuget-source dotnet-runtime runtimeDeps buildType;
runtimeId =
if runtimeId != null
then runtimeId
else dotnetCorePackages.systemToDotnetRid stdenvNoCC.targetPlatform.system;
}) dotnetConfigureHook dotnetBuildHook dotnetCheckHook dotnetInstallHook dotnetFixupHook;
localDeps =
if (projectReferences != [ ])
then linkFarmFromDrvs "${name}-project-references" projectReferences
else null;
_nugetDeps =
if (nugetDeps != null) then
if lib.isDerivation nugetDeps
then nugetDeps
else mkNugetDeps { inherit name; nugetDeps = import nugetDeps; }
else throw "Defining the `nugetDeps` attribute is required, as to lock the NuGet dependencies. This file can be generated by running the `passthru.fetch-deps` script.";
# contains the actual package dependencies
dependenciesSource = mkNugetSource {
name = "${name}-dependencies-source";
description = "A Nuget source with the dependencies for ${name}";
deps = [ _nugetDeps ] ++ lib.optional (localDeps != null) localDeps;
};
# this contains all the nuget packages that are implicitly referenced by the dotnet
# build system. having them as separate deps allows us to avoid having to regenerate
# a packages dependencies when the dotnet-sdk version changes
sdkDeps = lib.lists.flatten [ dotnet-sdk.packages ];
sdkSource = let
version = dotnet-sdk.version or (lib.concatStringsSep "-" dotnet-sdk.versions);
in mkNugetSource {
name = "dotnet-sdk-${version}-source";
deps = sdkDeps;
};
nuget-source = symlinkJoin {
name = "${name}-nuget-source";
paths = [ dependenciesSource sdkSource ];
};
in
stdenvNoCC.mkDerivation (args // {
nativeBuildInputs = args.nativeBuildInputs or [ ] ++ [
dotnetConfigureHook
dotnetBuildHook
dotnetCheckHook
dotnetInstallHook
dotnetFixupHook
cacert
makeWrapper
dotnet-sdk
];
makeWrapperArgs = args.makeWrapperArgs or [ ] ++ [
"--prefix LD_LIBRARY_PATH : ${dotnet-sdk.icu}/lib"
];
# Stripping breaks the executable
dontStrip = args.dontStrip or true;
# gappsWrapperArgs gets included when wrapping for dotnet, as to avoid double wrapping
dontWrapGApps = args.dontWrapGApps or true;
inherit selfContainedBuild useAppHost;
passthru = {
inherit nuget-source;
fetch-deps =
let
flags = dotnetFlags ++ dotnetRestoreFlags;
runtimeIds =
if runtimeId != null
then [ runtimeId ]
else map (system: dotnetCorePackages.systemToDotnetRid system) platforms;
defaultDepsFile =
# Wire in the nugetDeps file such that running the script with no args
# runs it agains the correct deps file by default.
# Note that toString is necessary here as it results in the path at
# eval time (i.e. to the file in your local Nixpkgs checkout) rather
# than the Nix store path of the path after it's been imported.
if lib.isPath nugetDeps && !lib.hasPrefix "/nix/store/" (toString nugetDeps)
then toString nugetDeps
else ''$(mktemp -t "${pname}-deps-XXXXXX.nix")'';
in
writeShellScript "fetch-${pname}-deps" ''
set -euo pipefail
export PATH="${lib.makeBinPath [ coreutils dotnet-sdk (nuget-to-nix.override { inherit dotnet-sdk; }) ]}"
for arg in "$@"; do
case "$arg" in
--keep-sources|-k)
keepSources=1
shift
;;
--help|-h)
echo "usage: $0 [--keep-sources] [--help] <output path>"
echo " <output path> The path to write the lockfile to. A temporary file is used if this is not set"
echo " --keep-sources Dont remove temporary directories upon exit, useful for debugging"
echo " --help Show this help message"
exit
;;
esac
done
if [[ ''${TMPDIR:-} == /run/user/* ]]; then
# /run/user is usually a tmpfs in RAM, which may be too small
# to store all downloaded dotnet packages
TMPDIR=
fi
export tmp=$(mktemp -td "deps-${pname}-XXXXXX")
HOME=$tmp/home
exitTrap() {
test -n "''${ranTrap-}" && return
ranTrap=1
if test -n "''${keepSources-}"; then
echo -e "Path to the source: $tmp/src\nPath to the fake home: $tmp/home"
else
rm -rf "$tmp"
fi
# Since mktemp is used this will be empty if the script didnt succesfully complete
if ! test -s "$depsFile"; then
rm -rf "$depsFile"
fi
}
trap exitTrap EXIT INT TERM
dotnetRestore() {
local -r project="''${1-}"
local -r rid="$2"
dotnet restore ''${project-} \
-p:ContinuousIntegrationBuild=true \
-p:Deterministic=true \
--packages "$tmp/nuget_pkgs" \
--runtime "$rid" \
--no-cache \
--force \
${lib.optionalString (!enableParallelBuilding) "--disable-parallel"} \
${lib.optionalString (flags != []) (toString flags)}
}
declare -a projectFiles=( ${toString (lib.toList projectFile)} )
declare -a testProjectFiles=( ${toString (lib.toList testProjectFile)} )
export DOTNET_NOLOGO=1
export DOTNET_CLI_TELEMETRY_OPTOUT=1
depsFile=$(realpath "''${1:-${defaultDepsFile}}")
echo Will write lockfile to "$depsFile"
mkdir -p "$tmp/nuget_pkgs"
storeSrc="${srcOnly args}"
src=$tmp/src
cp -rT "$storeSrc" "$src"
chmod -R +w "$src"
cd "$src"
echo "Restoring project..."
for rid in "${lib.concatStringsSep "\" \"" runtimeIds}"; do
(( ''${#projectFiles[@]} == 0 )) && dotnetRestore "" "$rid"
for project in ''${projectFiles[@]-} ''${testProjectFiles[@]-}; do
dotnetRestore "$project" "$rid"
done
done
echo "Succesfully restored project"
echo "Writing lockfile..."
echo -e "# This file was automatically generated by passthru.fetch-deps.\n# Please dont edit it manually, your changes might get overwritten!\n" > "$depsFile"
excluded_sources="${lib.concatStringsSep " " sdkDeps}"
for excluded_source in ''${excluded_sources[@]}; do
ls "$excluded_source" >> "$tmp/excluded_list"
done
nuget-to-nix "$tmp/nuget_pkgs" "$tmp/excluded_list" >> "$depsFile"
echo "Succesfully wrote lockfile to $depsFile"
'';
} // args.passthru or { };
meta = (args.meta or { }) // { inherit platforms; };
})