nixpkgs/pkgs/stdenv/darwin/override-sdk.nix
Emily f69ba1fed5 overrideSDK: fix on aarch64-darwin
I don’t want to talk about it.

Fixes QEMU.
2024-09-06 16:59:17 +01:00

445 lines
16 KiB
Nix
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

# The basic algorithm is to rewrite the propagated inputs of a package and any of its
# own propagated inputs recursively to replace references from the default SDK with
# those from the requested SDK version. This is done across all propagated inputs to
# avoid making assumptions about how those inputs are being used.
#
# For example, packages may propagate target-target dependencies with the expectation that
# they will be just build inputs when the package itself is used as a native build input.
#
# To support this use case and operate without regard to the original package set,
# `overrideSDK` creates a mapping from the default SDK in all package categories to the
# requested SDK. If the lookup fails, it is assumed the package is not part of the SDK.
# Non-SDK packages are processed per the algorithm described above.
{
lib,
stdenvNoCC,
extendMkDerivationArgs,
pkgsBuildBuild,
pkgsBuildHost,
pkgsBuildTarget,
pkgsHostHost,
pkgsHostTarget,
pkgsTargetTarget,
}@args:
let
# Takes a mapping from a package to its replacement and transforms it into a list of
# mappings by output (e.g., a package with three outputs produces a list of size 3).
expandOutputs =
mapping:
map (output: {
name = builtins.unsafeDiscardStringContext (lib.getOutput output mapping.original);
value = lib.getOutput output mapping.replacement;
}) mapping.original.outputs;
# Produces a list of mappings from the default SDK to the new SDK (`sdk`).
# `attr` indicates which SDK path to remap (e.g., `libs` remaps `apple_sdk.libs`).
#
# TODO: Update once the SDKs have been refactored to a common pattern to better handle
# frameworks that are not present in both SDKs. Currently, theyre dropped.
mkMapping =
attr: pkgs: sdk:
lib.foldlAttrs (
mappings: name: pkg:
let
# Avoid evaluation failures due to missing or throwing
# frameworks (such as QuickTime in the 11.0 SDK).
maybeReplacement = builtins.tryEval sdk.${attr}.${name} or { success = false; };
in
if maybeReplacement.success then
mappings
++ expandOutputs {
original = pkg;
replacement = maybeReplacement.value;
}
else
mappings
) [ ] pkgs.darwin.apple_sdk.${attr};
# Produces a list of overrides for the given package set, SDK, and version.
# If you want to manually specify a mapping, this is where you should do it.
mkOverrides =
pkgs: sdk: version:
lib.concatMap expandOutputs [
# Libsystem needs to match the one used by the SDK or weird errors happen.
{
original = pkgs.darwin.apple_sdk.Libsystem;
replacement = sdk.Libsystem;
}
# This is different to `pkgs.darwin.apple_sdk.Libsystem` on `aarch64-darwin`.
# Isnt that neat? I think thats neat. Dont do macOS SDKs like this.
{
original = pkgs.darwin.Libsystem;
replacement = sdk.Libsystem;
}
# Make sure darwin.CF is mapped to the correct version for the SDK.
{
original = pkgs.darwin.CF;
replacement = sdk.frameworks.CoreFoundation;
}
# libobjc needs to be handled specially because its not actually in the SDK.
{
original = pkgs.darwin.libobjc;
replacement = sdk.objc4;
}
# Unfortunately, this is not consistent between Darwin SDKs in nixpkgs, so
# try both versions to map between them.
{
original = pkgs.darwin.apple_sdk.sdk or pkgs.darwin.apple_sdk.MacOSX-SDK;
replacement = sdk.sdk or sdk.MacOSX-SDK;
}
# Remap the SDK root. This is used by clang to set the SDK version when
# linking. This behavior is automatic by clang and cant be overriden.
# Otherwise, without the SDK root set, the SDK version will be inferred to
# be the same as the deployment target, which is not usually what you want.
{
original = pkgs.darwin.apple_sdk.sdkRoot;
replacement = sdk.sdkRoot;
}
# Override xcodebuild because it hardcodes the SDK version.
# TODO: Make xcodebuild defer to the SDK root set in the stdenv.
{
original = pkgs.xcodebuild;
replacement = pkgs.xcodebuild.override {
# Do the override manually to avoid an infinite recursion.
stdenv = pkgs.stdenv.override (old: {
buildPlatform = mkPlatform version old.buildPlatform;
hostPlatform = mkPlatform version old.hostPlatform;
targetPlatform = mkPlatform version old.targetPlatform;
allowedRequisites = null;
cc = mkCC sdk.Libsystem old.cc;
});
};
}
];
mkBintools =
Libsystem: bintools:
if bintools ? override then
bintools.override { libc = Libsystem; }
else
let
# `override` isnt available, so bintools has to be rewrapped with the new libc.
# Most of the required arguments can be recovered except for `postLinkSignHook`
# and `signingUtils`, which have to be scrapped from the originals `postFixup`.
# This isnt ideal, but it works.
postFixup = lib.splitString "\n" bintools.postFixup;
postLinkSignHook = lib.pipe postFixup [
(lib.findFirst (lib.hasPrefix "echo 'source") null)
(builtins.match "^echo 'source (.*-post-link-sign-hook)' >> \\$out/nix-support/post-link-hook$")
lib.head
];
signingUtils = lib.pipe postFixup [
(lib.findFirst (lib.hasPrefix "export signingUtils") null)
(builtins.match "^export signingUtils=(.*)$")
lib.head
];
newBintools = pkgsBuildTarget.wrapBintoolsWith {
inherit (bintools) name;
buildPackages = { };
libc = Libsystem;
inherit lib;
coreutils = bintools.coreutils_bin;
gnugrep = bintools.gnugrep_bin;
inherit (bintools) bintools;
inherit postLinkSignHook signingUtils;
};
in
lib.getOutput bintools.outputName newBintools;
mkCC =
Libsystem: cc:
if cc ? override then
cc.override {
bintools = mkBintools Libsystem cc.bintools;
libc = Libsystem;
}
else
builtins.throw "CC has no override: ${cc}";
mkPlatform =
version: platform:
platform
// lib.optionalAttrs platform.isDarwin { inherit (version) darwinMinVersion darwinSdkVersion; };
# Creates a stub package. Unchanged files from the original package are symlinked
# into the package. The contents of `nix-support` are updated to reference any
# replaced packages.
#
# Note: `env` is an attrset containing `outputs` and `dependencies`.
# `dependencies` is a regex passed to sed and must be `passAsFile`.
mkProxyPackage =
name: env:
stdenvNoCC.mkDerivation {
inherit name;
inherit (env) outputs replacements sourceOutputs;
# Take advantage of the fact that replacements and sourceOutputs will be passed
# via JSON and parsed into environment variables.
__structuredAttrs = true;
buildCommand = ''
# Map over the outputs in the package being replaced to make sure the proxy is
# a fully functional replacement. This is like `symlinkJoin` except for
# outputs and the contents of `nix-support`, which will be customized.
function replacePropagatedInputs() {
local sourcePath=$1
local targetPath=$2
mkdir -p "$targetPath"
local sourceFile
for sourceFile in "$sourcePath"/*; do
local fileName=$(basename "$sourceFile")
local targetFile="$targetPath/$fileName"
if [ -d "$sourceFile" ]; then
replacePropagatedInputs "$sourceFile" "$targetPath/$fileName"
# Check to see if any of the files in the folder were replaced.
# Otherwise, replace the folder with a symlink if none were changed.
if [ "$(find -maxdepth 1 "$targetPath/$fileName" -not -type l)" = "" ]; then
rm "$targetPath/$fileName"/*
ln -s "$sourceFile" "$targetPath/$fileName"
fi
else
cp "$sourceFile" "$targetFile"
local original
for original in "''${!replacements[@]}"; do
substituteInPlace "$targetFile" \
--replace-quiet "$original" "''${replacements[$original]}"
done
if cmp -s "$sourceFile" "$targetFile"; then
rm "$targetFile"
ln -s "$sourceFile" "$targetFile"
fi
fi
done
}
local outputName
for outputName in "''${!outputs[@]}"; do
local outPath=''${outputs[$outputName]}
mkdir -p "$outPath"
local sourcePath
for sourcePath in "''${sourceOutputs[$outputName]}"/*; do
sourceName=$(basename "$sourcePath")
# `nix-support` is special-cased because any propagated inputs need their
# SDK frameworks replaced with those from the requested SDK.
if [ "$sourceName" == "nix-support" ]; then
replacePropagatedInputs "$sourcePath" "$outPath/nix-support"
else
ln -s "$sourcePath" "$outPath/$sourceName"
fi
done
done
'';
};
# Gets all propagated inputs in a package. This does not recurse.
getPropagatedInputs =
pkg:
lib.optionals (lib.isDerivation pkg) (
lib.concatMap (input: pkg.${input} or [ ]) [
"depsBuildBuildPropagated"
"propagatedNativeBuildInputs"
"depsBuildTargetPropagated"
"depsHostHostPropagated"
"propagatedBuildInputs"
"depsTargetTargetPropagated"
]
);
# Looks up the replacement for `pkg` in the `newPackages` mapping. If `pkg` is a
# compiler (meaning it has a `libc` attribute), the compiler will be overriden.
getReplacement =
newPackages: pkg:
let
pkgOrCC =
if pkg.libc or null != null then
# Heuristic to determine whether package is a compiler or bintools.
if pkg.wrapperName == "CC_WRAPPER" then
mkCC (getReplacement newPackages pkg.libc) pkg
else
mkBintools (getReplacement newPackages pkg.libc) pkg
else
pkg;
in
if lib.isDerivation pkg then
newPackages.${builtins.unsafeDiscardStringContext pkg} or pkgOrCC
else
pkg;
# Replaces all packages propagated by `pkgs` using the `newPackages` mapping.
# It is assumed that all possible overrides have already been incorporated into
# the mapping. If any propagated packages are replaced, a proxy package will be
# created with references to the old packages replaced in `nix-support`.
replacePropagatedPackages =
newPackages: pkg:
let
propagatedInputs = getPropagatedInputs pkg;
env = {
inherit (pkg) outputs;
replacements = lib.pipe propagatedInputs [
(lib.filter (pkg: pkg != null))
lib.flatten
(map (dep: {
name = builtins.unsafeDiscardStringContext dep;
value = getReplacement newPackages dep;
}))
(lib.filter (mapping: mapping.name != mapping.value))
lib.listToAttrs
];
sourceOutputs = lib.genAttrs pkg.outputs (output: lib.getOutput output pkg);
};
in
# Only remap the packages propagated inputs if there are any and if any of them
# had packages remapped (with frameworks or proxy packages).
if propagatedInputs != [ ] && env.replacements != { } then mkProxyPackage pkg.name env else pkg;
# Gets all propagated dependencies in a package in reverse order sorted topologically.
# This takes advantage of the fact that items produced by `operator` are pushed to
# the end of the working set, ensuring that dependencies always appear after their
# parent in the list with leaf nodes at the end.
topologicallyOrderedPropagatedDependencies =
pkgs:
let
mapPackageDeps = lib.flip lib.pipe [
(lib.filter (pkg: pkg != null))
lib.flatten
(map (pkg: {
key = builtins.unsafeDiscardStringContext pkg;
package = pkg;
deps = getPropagatedInputs pkg;
}))
];
in
lib.genericClosure {
startSet = mapPackageDeps pkgs;
operator = { deps, ... }: mapPackageDeps deps;
};
# Returns a package mapping based on remapping all propagated packages.
getPackageMapping =
baseMapping: input:
let
dependencies = topologicallyOrderedPropagatedDependencies input;
in
lib.foldr (
pkg: newPackages:
let
replacement = replacePropagatedPackages newPackages pkg.package;
outPath = pkg.key;
in
if pkg.key == null || newPackages ? ${outPath} then
newPackages
else
newPackages // { ${outPath} = replacement; }
) baseMapping dependencies;
overrideSDK =
stdenv: sdkVersion:
let
newVersion = {
inherit (stdenv.hostPlatform) darwinMinVersion darwinSdkVersion;
} // (if lib.isAttrs sdkVersion then sdkVersion else { darwinSdkVersion = sdkVersion; });
inherit (newVersion) darwinMinVersion darwinSdkVersion;
# Used to get an SDK version corresponding to the requested `darwinSdkVersion`.
# TODO: Treat `darwinSdkVersion` as a constraint rather than as an exact version.
resolveSDK = pkgs: pkgs.darwin."apple_sdk_${lib.replaceStrings [ "." ] [ "_" ] darwinSdkVersion}";
# `newSdkPackages` is constructed based on the assumption that SDK packages only
# propagate versioned packages from that SDK -- that they neither propagate
# unversioned SDK packages nor propagate non-SDK packages (such as curl).
#
# Note: `builtins.unsafeDiscardStringContext` is used to allow the path from the
# original package output to be mapped to the replacement. This is safe because
# the value is not persisted anywhere and necessary because store paths are not
# allowed as attrset names otherwise.
baseSdkMapping = lib.pipe args [
(lib.flip removeAttrs [
"lib"
"stdenvNoCC"
"extendMkDerivationArgs"
])
(lib.filterAttrs (_: lib.hasAttr "darwin"))
lib.attrValues
(lib.concatMap (
pkgs:
let
newSDK = resolveSDK pkgs;
frameworks = mkMapping "frameworks" pkgs newSDK;
libs = mkMapping "libs" pkgs newSDK;
overrides = mkOverrides pkgs newSDK newVersion;
in
frameworks ++ libs ++ overrides
))
lib.listToAttrs
];
# Remaps all inputs given to the requested SDK version. The result is an attrset
# that can be passed to `extendMkDerivationArgs`.
mapInputsToSDK =
inputs: args:
lib.pipe inputs [
(lib.filter (input: args ? ${input}))
(lib.flip lib.genAttrs (
inputName:
let
input = args.${inputName};
newPackages = getPackageMapping baseSdkMapping input;
in
map (getReplacement newPackages) input
))
];
in
stdenv.override (
old:
{
buildPlatform = mkPlatform newVersion stdenv.buildPlatform;
hostPlatform = mkPlatform newVersion stdenv.hostPlatform;
targetPlatform = mkPlatform newVersion stdenv.targetPlatform;
}
# Only perform replacements if the SDK version has changed. Changing only the
# deployment target does not require replacing the libc or SDK dependencies.
// lib.optionalAttrs (stdenv.hostPlatform.darwinSdkVersion != darwinSdkVersion) {
allowedRequisites = null;
mkDerivationFromStdenv = extendMkDerivationArgs old (mapInputsToSDK [
"depsBuildBuild"
"nativeBuildInputs"
"depsBuildTarget"
"depsHostHost"
"buildInputs"
"depsTargetTarget"
"depsBuildBuildPropagated"
"propagatedNativeBuildInputs"
"depsBuildTargetPropagated"
"depsHostHostPropagated"
"propagatedBuildInputs"
"depsTargetTargetPropagated"
]);
cc = getReplacement baseSdkMapping old.cc;
extraBuildInputs = map (getReplacement baseSdkMapping) stdenv.extraBuildInputs;
extraNativeBuildInputs = map (getReplacement baseSdkMapping) stdenv.extraNativeBuildInputs;
}
);
in
overrideSDK