forked from auxolotl/core
438 lines
16 KiB
Nix
438 lines
16 KiB
Nix
# The basic algorithm is to rewrite the propagated inputs of a package and any of its
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# own propagated inputs recursively to replace references from the default SDK with
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# those from the requested SDK version. This is done across all propagated inputs to
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# avoid making assumptions about how those inputs are being used.
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#
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# For example, packages may propagate target-target dependencies with the expectation that
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# they will be just build inputs when the package itself is used as a native build input.
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#
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# To support this use case and operate without regard to the original package set,
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# `overrideSDK` creates a mapping from the default SDK in all package categories to the
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# requested SDK. If the lookup fails, it is assumed the package is not part of the SDK.
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# Non-SDK packages are processed per the algorithm described above.
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{
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lib,
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stdenvNoCC,
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extendMkDerivationArgs,
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pkgsBuildBuild,
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pkgsBuildHost,
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pkgsBuildTarget,
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pkgsHostHost,
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pkgsHostTarget,
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pkgsTargetTarget,
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}@args:
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let
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# Takes a mapping from a package to its replacement and transforms it into a list of
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# mappings by output (e.g., a package with three outputs produces a list of size 3).
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expandOutputs =
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mapping:
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map (output: {
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name = builtins.unsafeDiscardStringContext (lib.getOutput output mapping.original);
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value = lib.getOutput output mapping.replacement;
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}) mapping.original.outputs;
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# Produces a list of mappings from the default SDK to the new SDK (`sdk`).
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# `attr` indicates which SDK path to remap (e.g., `libs` remaps `apple_sdk.libs`).
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#
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# TODO: Update once the SDKs have been refactored to a common pattern to better handle
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# frameworks that are not present in both SDKs. Currently, they’re dropped.
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mkMapping =
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attr: pkgs: sdk:
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lib.foldlAttrs (
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mappings: name: pkg:
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let
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# Avoid evaluation failures due to missing or throwing
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# frameworks (such as QuickTime in the 11.0 SDK).
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maybeReplacement = builtins.tryEval sdk.${attr}.${name} or { success = false; };
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in
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if maybeReplacement.success then
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mappings
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++ expandOutputs {
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original = pkg;
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replacement = maybeReplacement.value;
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}
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else
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mappings
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) [ ] pkgs.darwin.apple_sdk.${attr};
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# Produces a list of overrides for the given package set, SDK, and version.
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# If you want to manually specify a mapping, this is where you should do it.
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mkOverrides =
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pkgs: sdk: version:
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lib.concatMap expandOutputs [
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# Libsystem needs to match the one used by the SDK or weird errors happen.
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{
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original = pkgs.darwin.apple_sdk.Libsystem;
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replacement = sdk.Libsystem;
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}
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# Make sure darwin.CF is mapped to the correct version for the SDK.
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{
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original = pkgs.darwin.CF;
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replacement = sdk.frameworks.CoreFoundation;
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}
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# libobjc needs to be handled specially because it’s not actually in the SDK.
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{
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original = pkgs.darwin.libobjc;
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replacement = sdk.objc4;
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}
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# Unfortunately, this is not consistent between Darwin SDKs in nixpkgs, so
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# try both versions to map between them.
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{
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original = pkgs.darwin.apple_sdk.sdk or pkgs.darwin.apple_sdk.MacOSX-SDK;
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replacement = sdk.sdk or sdk.MacOSX-SDK;
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}
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# Remap the SDK root. This is used by clang to set the SDK version when
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# linking. This behavior is automatic by clang and can’t be overriden.
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# Otherwise, without the SDK root set, the SDK version will be inferred to
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# be the same as the deployment target, which is not usually what you want.
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{
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original = pkgs.darwin.apple_sdk.sdkRoot;
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replacement = sdk.sdkRoot;
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}
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# Override xcodebuild because it hardcodes the SDK version.
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# TODO: Make xcodebuild defer to the SDK root set in the stdenv.
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{
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original = pkgs.xcodebuild;
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replacement = pkgs.xcodebuild.override {
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# Do the override manually to avoid an infinite recursion.
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stdenv = pkgs.stdenv.override (old: {
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buildPlatform = mkPlatform version old.buildPlatform;
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hostPlatform = mkPlatform version old.hostPlatform;
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targetPlatform = mkPlatform version old.targetPlatform;
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allowedRequisites = null;
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cc = mkCC sdk.Libsystem old.cc;
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});
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};
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}
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];
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mkBintools =
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Libsystem: bintools:
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if bintools ? override then
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bintools.override { libc = Libsystem; }
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else
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let
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# `override` isn’t available, so bintools has to be rewrapped with the new libc.
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# Most of the required arguments can be recovered except for `postLinkSignHook`
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# and `signingUtils`, which have to be scrapped from the original’s `postFixup`.
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# This isn’t ideal, but it works.
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postFixup = lib.splitString "\n" bintools.postFixup;
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postLinkSignHook = lib.pipe postFixup [
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(lib.findFirst (lib.hasPrefix "echo 'source") null)
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(builtins.match "^echo 'source (.*-post-link-sign-hook)' >> \\$out/nix-support/post-link-hook$")
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lib.head
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];
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signingUtils = lib.pipe postFixup [
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(lib.findFirst (lib.hasPrefix "export signingUtils") null)
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(builtins.match "^export signingUtils=(.*)$")
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lib.head
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];
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newBintools = pkgsBuildTarget.wrapBintoolsWith {
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inherit (bintools) name;
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buildPackages = { };
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libc = Libsystem;
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inherit lib;
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coreutils = bintools.coreutils_bin;
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gnugrep = bintools.gnugrep_bin;
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inherit (bintools) bintools;
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inherit postLinkSignHook signingUtils;
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};
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in
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lib.getOutput bintools.outputName newBintools;
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mkCC =
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Libsystem: cc:
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if cc ? override then
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cc.override {
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bintools = mkBintools Libsystem cc.bintools;
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libc = Libsystem;
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}
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else
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builtins.throw "CC has no override: ${cc}";
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mkPlatform =
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version: platform:
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platform
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// lib.optionalAttrs platform.isDarwin { inherit (version) darwinMinVersion darwinSdkVersion; };
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# Creates a stub package. Unchanged files from the original package are symlinked
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# into the package. The contents of `nix-support` are updated to reference any
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# replaced packages.
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#
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# Note: `env` is an attrset containing `outputs` and `dependencies`.
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# `dependencies` is a regex passed to sed and must be `passAsFile`.
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mkProxyPackage =
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name: env:
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stdenvNoCC.mkDerivation {
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inherit name;
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inherit (env) outputs replacements sourceOutputs;
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# Take advantage of the fact that replacements and sourceOutputs will be passed
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# via JSON and parsed into environment variables.
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__structuredAttrs = true;
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buildCommand = ''
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# Map over the outputs in the package being replaced to make sure the proxy is
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# a fully functional replacement. This is like `symlinkJoin` except for
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# outputs and the contents of `nix-support`, which will be customized.
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function replacePropagatedInputs() {
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local sourcePath=$1
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local targetPath=$2
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mkdir -p "$targetPath"
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local sourceFile
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for sourceFile in "$sourcePath"/*; do
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local fileName=$(basename "$sourceFile")
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local targetFile="$targetPath/$fileName"
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if [ -d "$sourceFile" ]; then
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replacePropagatedInputs "$sourceFile" "$targetPath/$fileName"
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# Check to see if any of the files in the folder were replaced.
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# Otherwise, replace the folder with a symlink if none were changed.
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if [ "$(find -maxdepth 1 "$targetPath/$fileName" -not -type l)" = "" ]; then
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rm "$targetPath/$fileName"/*
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ln -s "$sourceFile" "$targetPath/$fileName"
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fi
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else
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cp "$sourceFile" "$targetFile"
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local original
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for original in "''${!replacements[@]}"; do
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substituteInPlace "$targetFile" \
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--replace-quiet "$original" "''${replacements[$original]}"
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done
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if cmp -s "$sourceFile" "$targetFile"; then
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rm "$targetFile"
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ln -s "$sourceFile" "$targetFile"
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fi
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fi
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done
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}
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local outputName
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for outputName in "''${!outputs[@]}"; do
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local outPath=''${outputs[$outputName]}
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mkdir -p "$outPath"
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local sourcePath
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for sourcePath in "''${sourceOutputs[$outputName]}"/*; do
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sourceName=$(basename "$sourcePath")
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# `nix-support` is special-cased because any propagated inputs need their
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# SDK frameworks replaced with those from the requested SDK.
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if [ "$sourceName" == "nix-support" ]; then
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replacePropagatedInputs "$sourcePath" "$outPath/nix-support"
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else
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ln -s "$sourcePath" "$outPath/$sourceName"
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fi
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done
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done
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'';
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};
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# Gets all propagated inputs in a package. This does not recurse.
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getPropagatedInputs =
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pkg:
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lib.optionals (lib.isDerivation pkg) (
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lib.concatMap (input: pkg.${input} or [ ]) [
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"depsBuildBuildPropagated"
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"propagatedNativeBuildInputs"
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"depsBuildTargetPropagated"
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"depsHostHostPropagated"
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"propagatedBuildInputs"
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"depsTargetTargetPropagated"
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]
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);
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# Looks up the replacement for `pkg` in the `newPackages` mapping. If `pkg` is a
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# compiler (meaning it has a `libc` attribute), the compiler will be overriden.
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getReplacement =
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newPackages: pkg:
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let
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pkgOrCC =
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if pkg.libc or null != null then
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# Heuristic to determine whether package is a compiler or bintools.
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if pkg.wrapperName == "CC_WRAPPER" then
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mkCC (getReplacement newPackages pkg.libc) pkg
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else
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mkBintools (getReplacement newPackages pkg.libc) pkg
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else
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pkg;
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in
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if lib.isDerivation pkg then
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newPackages.${builtins.unsafeDiscardStringContext pkg} or pkgOrCC
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else
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pkg;
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# Replaces all packages propagated by `pkgs` using the `newPackages` mapping.
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# It is assumed that all possible overrides have already been incorporated into
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# the mapping. If any propagated packages are replaced, a proxy package will be
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# created with references to the old packages replaced in `nix-support`.
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replacePropagatedPackages =
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newPackages: pkg:
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let
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propagatedInputs = getPropagatedInputs pkg;
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env = {
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inherit (pkg) outputs;
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replacements = lib.pipe propagatedInputs [
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(lib.filter (pkg: pkg != null))
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(map (dep: {
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name = builtins.unsafeDiscardStringContext dep;
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value = getReplacement newPackages dep;
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}))
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(lib.filter (mapping: mapping.name != mapping.value))
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lib.listToAttrs
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];
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sourceOutputs = lib.genAttrs pkg.outputs (output: lib.getOutput output pkg);
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};
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in
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# Only remap the package’s propagated inputs if there are any and if any of them
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# had packages remapped (with frameworks or proxy packages).
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if propagatedInputs != [ ] && env.replacements != { } then mkProxyPackage pkg.name env else pkg;
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# Gets all propagated dependencies in a package in reverse order sorted topologically.
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# This takes advantage of the fact that items produced by `operator` are pushed to
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# the end of the working set, ensuring that dependencies always appear after their
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# parent in the list with leaf nodes at the end.
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topologicallyOrderedPropagatedDependencies =
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pkgs:
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let
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mapPackageDeps = lib.flip lib.pipe [
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(lib.filter (pkg: pkg != null))
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(map (pkg: {
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key = builtins.unsafeDiscardStringContext pkg;
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package = pkg;
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deps = getPropagatedInputs pkg;
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}))
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];
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in
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lib.genericClosure {
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startSet = mapPackageDeps pkgs;
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operator = { deps, ... }: mapPackageDeps deps;
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};
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# Returns a package mapping based on remapping all propagated packages.
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getPackageMapping =
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baseMapping: input:
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let
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dependencies = topologicallyOrderedPropagatedDependencies input;
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in
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lib.foldr (
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pkg: newPackages:
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let
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replacement = replacePropagatedPackages newPackages pkg.package;
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outPath = pkg.key;
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in
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if pkg.key == null || newPackages ? ${outPath} then
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newPackages
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else
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newPackages // { ${outPath} = replacement; }
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) baseMapping dependencies;
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overrideSDK =
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stdenv: sdkVersion:
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let
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newVersion = {
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inherit (stdenv.hostPlatform) darwinMinVersion darwinSdkVersion;
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} // (if lib.isAttrs sdkVersion then sdkVersion else { darwinSdkVersion = sdkVersion; });
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inherit (newVersion) darwinMinVersion darwinSdkVersion;
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# Used to get an SDK version corresponding to the requested `darwinSdkVersion`.
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# TODO: Treat `darwinSdkVersion` as a constraint rather than as an exact version.
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resolveSDK = pkgs: pkgs.darwin."apple_sdk_${lib.replaceStrings [ "." ] [ "_" ] darwinSdkVersion}";
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# `newSdkPackages` is constructed based on the assumption that SDK packages only
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# propagate versioned packages from that SDK -- that they neither propagate
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# unversioned SDK packages nor propagate non-SDK packages (such as curl).
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#
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# Note: `builtins.unsafeDiscardStringContext` is used to allow the path from the
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# original package output to be mapped to the replacement. This is safe because
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# the value is not persisted anywhere and necessary because store paths are not
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# allowed as attrset names otherwise.
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baseSdkMapping = lib.pipe args [
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(lib.flip removeAttrs [
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"lib"
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"stdenvNoCC"
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"extendMkDerivationArgs"
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])
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(lib.filterAttrs (_: lib.hasAttr "darwin"))
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lib.attrValues
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(lib.concatMap (
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pkgs:
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let
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newSDK = resolveSDK pkgs;
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frameworks = mkMapping "frameworks" pkgs newSDK;
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libs = mkMapping "libs" pkgs newSDK;
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overrides = mkOverrides pkgs newSDK newVersion;
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in
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frameworks ++ libs ++ overrides
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))
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lib.listToAttrs
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];
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# Remaps all inputs given to the requested SDK version. The result is an attrset
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# that can be passed to `extendMkDerivationArgs`.
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mapInputsToSDK =
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inputs: args:
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lib.pipe inputs [
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(lib.filter (input: args ? ${input}))
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(lib.flip lib.genAttrs (
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inputName:
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let
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input = args.${inputName};
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newPackages = getPackageMapping baseSdkMapping input;
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in
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map (getReplacement newPackages) input
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))
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];
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in
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stdenv.override (
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old:
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{
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buildPlatform = mkPlatform newVersion old.buildPlatform;
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hostPlatform = mkPlatform newVersion old.hostPlatform;
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targetPlatform = mkPlatform newVersion old.targetPlatform;
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}
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# Only perform replacements if the SDK version has changed. Changing only the
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# deployment target does not require replacing the libc or SDK dependencies.
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// lib.optionalAttrs (old.hostPlatform.darwinSdkVersion != darwinSdkVersion) {
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allowedRequisites = null;
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mkDerivationFromStdenv = extendMkDerivationArgs old (mapInputsToSDK [
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"depsBuildBuild"
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"nativeBuildInputs"
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"depsBuildTarget"
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"depsHostHost"
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"buildInputs"
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"depsTargetTarget"
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"depsBuildBuildPropagated"
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"propagatedNativeBuildInputs"
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"depsBuildTargetPropagated"
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"depsHostHostPropagated"
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"propagatedBuildInputs"
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"depsTargetTargetPropagated"
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]);
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cc = getReplacement baseSdkMapping old.cc;
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extraBuildInputs = map (getReplacement baseSdkMapping) stdenv.extraBuildInputs;
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extraNativeBuildInputs = map (getReplacement baseSdkMapping) stdenv.extraNativeBuildInputs;
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}
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);
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in
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overrideSDK
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