b8698cd8d6
Closes #193336 Closes #261694 Related to #108984 The goal here was to get the following flake to build and run on `aarch64-darwin`: ```nix { inputs.nixpkgs.url = <this branch>; outputs = { nixpkgs, ... }: { checks.aarch64-darwin.default = nixpkgs.legacyPackages.aarch64-darwin.nixosTest { name = "test"; nodes.machine = { }; testScript = ""; }; }; } ``` … and after this change it does. There's no longer a need for the user to set `nodes.*.nixpkgs.pkgs` or `nodes.*.virtualisation.host.pkgs` as the correct values are inferred from the host system.
322 lines
12 KiB
Nix
322 lines
12 KiB
Nix
/* This file composes a single bootstrapping stage of the Nix Packages
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collection. That is, it imports the functions that build the various
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packages, and calls them with appropriate arguments. The result is a set of
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all the packages in the Nix Packages collection for some particular platform
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for some particular stage.
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Default arguments are only provided for bootstrapping
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arguments. Normal users should not import this directly but instead
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import `pkgs/default.nix` or `default.nix`. */
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let
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# An overlay to auto-call packages in ../by-name.
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# By defining it at the top of the file,
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# this value gets reused even if this file is imported multiple times,
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# thanks to Nix's import-value cache.
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autoCalledPackages = import ./by-name-overlay.nix ../by-name;
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in
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{ ## Misc parameters kept the same for all stages
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##
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# Utility functions, could just import but passing in for efficiency
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lib
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, # Use to reevaluate Nixpkgs
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nixpkgsFun
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## Other parameters
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##
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, # Either null or an object in the form:
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#
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# {
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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 skipped on purpose.
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# pkgsTargetTarget ...;
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# }
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#
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# These are references to adjacent bootstrapping stages. The more familiar
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# `buildPackages` and `targetPackages` are defined in terms of them. If null,
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# they are instead defined internally as the current stage. This allows us to
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# avoid expensive splicing. `pkgsHostTarget` is skipped because it is always
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# defined as the current stage.
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adjacentPackages
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, # The standard environment to use for building packages.
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stdenv
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, # This is used because stdenv replacement and the stdenvCross do benefit from
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# the overridden configuration provided by the user, as opposed to the normal
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# bootstrapping stdenvs.
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allowCustomOverrides
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, # Non-GNU/Linux OSes are currently "impure" platforms, with their libc
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# outside of the store. Thus, GCC, GFortran, & co. must always look for files
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# in standard system directories (/usr/include, etc.)
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noSysDirs ? stdenv.buildPlatform.system != "x86_64-freebsd"
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&& stdenv.buildPlatform.system != "i686-freebsd"
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&& stdenv.buildPlatform.system != "x86_64-solaris"
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&& stdenv.buildPlatform.system != "x86_64-kfreebsd-gnu"
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, # The configuration attribute set
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config
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, # A list of overlays (Additional `self: super: { .. }` customization
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# functions) to be fixed together in the produced package set
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overlays
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} @args:
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let
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# This is a function from parsed platforms (like
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# stdenv.hostPlatform.parsed) to parsed platforms.
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makeMuslParsedPlatform = parsed:
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# The following line guarantees that the output of this function
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# is a well-formed platform with no missing fields. It will be
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# uncommented in a separate PR, in case it breaks the build.
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#(x: lib.trivial.pipe x [ (x: builtins.removeAttrs x [ "_type" ]) lib.systems.parse.mkSystem ])
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(parsed // {
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abi = {
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gnu = lib.systems.parse.abis.musl;
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gnueabi = lib.systems.parse.abis.musleabi;
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gnueabihf = lib.systems.parse.abis.musleabihf;
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gnuabin32 = lib.systems.parse.abis.muslabin32;
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gnuabi64 = lib.systems.parse.abis.muslabi64;
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gnuabielfv2 = lib.systems.parse.abis.musl;
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gnuabielfv1 = lib.systems.parse.abis.musl;
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# The following two entries ensure that this function is idempotent.
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musleabi = lib.systems.parse.abis.musleabi;
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musleabihf = lib.systems.parse.abis.musleabihf;
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muslabin32 = lib.systems.parse.abis.muslabin32;
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muslabi64 = lib.systems.parse.abis.muslabi64;
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}.${parsed.abi.name}
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or lib.systems.parse.abis.musl;
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});
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stdenvAdapters = self: super:
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let
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res = import ../stdenv/adapters.nix {
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inherit lib config;
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pkgs = self;
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};
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in res // {
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stdenvAdapters = res;
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};
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trivialBuilders = self: super:
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import ../build-support/trivial-builders {
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inherit lib;
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inherit (self) runtimeShell stdenv stdenvNoCC;
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inherit (self.pkgsBuildHost) shellcheck-minimal;
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inherit (self.pkgsBuildHost.xorg) lndir;
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};
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stdenvBootstappingAndPlatforms = self: super: let
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withFallback = thisPkgs:
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(if adjacentPackages == null then self else thisPkgs)
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// { recurseForDerivations = false; };
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in {
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# Here are package sets of from related stages. They are all in the form
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# `pkgs{theirHost}{theirTarget}`. For example, `pkgsBuildHost` means their
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# host platform is our build platform, and their target platform is our host
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# platform. We only care about their host/target platforms, not their build
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# platform, because the the former two alone affect the interface of the
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# final package; the build platform is just an implementation detail that
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# should not leak.
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pkgsBuildBuild = withFallback adjacentPackages.pkgsBuildBuild;
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pkgsBuildHost = withFallback adjacentPackages.pkgsBuildHost;
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pkgsBuildTarget = withFallback adjacentPackages.pkgsBuildTarget;
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pkgsHostHost = withFallback adjacentPackages.pkgsHostHost;
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pkgsHostTarget = self // { recurseForDerivations = false; }; # always `self`
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pkgsTargetTarget = withFallback adjacentPackages.pkgsTargetTarget;
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# Older names for package sets. Use these when only the host platform of the
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# package set matter (i.e. use `buildPackages` where any of `pkgsBuild*`
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# would do, and `targetPackages` when any of `pkgsTarget*` would do (if we
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# had more than just `pkgsTargetTarget`).)
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buildPackages = self.pkgsBuildHost;
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pkgs = self.pkgsHostTarget;
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targetPackages = self.pkgsTargetTarget;
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inherit stdenv;
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};
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splice = self: super: import ./splice.nix lib self (adjacentPackages != null);
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allPackages = self: super:
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let res = import ./all-packages.nix
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{ inherit lib noSysDirs config overlays; }
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res self super;
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in res;
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aliases = self: super: lib.optionalAttrs config.allowAliases (import ./aliases.nix lib self super);
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# stdenvOverrides is used to avoid having multiple of versions
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# of certain dependencies that were used in bootstrapping the
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# standard environment.
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stdenvOverrides = self: super:
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(super.stdenv.overrides or (_: _: {})) self super;
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# Allow packages to be overridden globally via the `packageOverrides'
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# configuration option, which must be a function that takes `pkgs'
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# as an argument and returns a set of new or overridden packages.
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# The `packageOverrides' function is called with the *original*
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# (un-overridden) set of packages, allowing packageOverrides
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# attributes to refer to the original attributes (e.g. "foo =
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# ... pkgs.foo ...").
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configOverrides = self: super:
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lib.optionalAttrs allowCustomOverrides
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((config.packageOverrides or (super: {})) super);
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# Convenience attributes for instantitating package sets. Each of
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# these will instantiate a new version of allPackages. Currently the
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# following package sets are provided:
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#
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# - pkgsCross.<system> where system is a member of lib.systems.examples
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# - pkgsMusl
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# - pkgsi686Linux
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otherPackageSets = self: super: {
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# This maps each entry in lib.systems.examples to its own package
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# set. Each of these will contain all packages cross compiled for
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# that target system. For instance, pkgsCross.raspberryPi.hello,
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# will refer to the "hello" package built for the ARM6-based
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# Raspberry Pi.
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pkgsCross = lib.mapAttrs (n: crossSystem:
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nixpkgsFun { inherit crossSystem; })
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lib.systems.examples;
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pkgsLLVM = nixpkgsFun {
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overlays = [
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(self': super': {
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pkgsLLVM = super';
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})
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] ++ overlays;
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# Bootstrap a cross stdenv using the LLVM toolchain.
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# This is currently not possible when compiling natively,
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# so we don't need to check hostPlatform != buildPlatform.
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crossSystem = stdenv.hostPlatform // {
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useLLVM = true;
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linker = "lld";
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};
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};
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# All packages built with the Musl libc. This will override the
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# default GNU libc on Linux systems. Non-Linux systems are not
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# supported. 32-bit is also not supported.
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pkgsMusl = if stdenv.hostPlatform.isLinux && stdenv.buildPlatform.is64bit then nixpkgsFun {
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overlays = [ (self': super': {
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pkgsMusl = super';
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})] ++ overlays;
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${if stdenv.hostPlatform == stdenv.buildPlatform
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then "localSystem" else "crossSystem"} = {
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parsed = makeMuslParsedPlatform stdenv.hostPlatform.parsed;
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};
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} else throw "Musl libc only supports 64-bit Linux systems.";
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# All packages built for i686 Linux.
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# Used by wine, firefox with debugging version of Flash, ...
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pkgsi686Linux = if stdenv.hostPlatform.isLinux && stdenv.hostPlatform.isx86 then nixpkgsFun {
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overlays = [ (self': super': {
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pkgsi686Linux = super';
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})] ++ overlays;
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${if stdenv.hostPlatform == stdenv.buildPlatform
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then "localSystem" else "crossSystem"} = {
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parsed = stdenv.hostPlatform.parsed // {
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cpu = lib.systems.parse.cpuTypes.i686;
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};
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};
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} else throw "i686 Linux package set can only be used with the x86 family.";
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# x86_64-darwin packages for aarch64-darwin users to use with Rosetta for incompatible packages
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pkgsx86_64Darwin = if stdenv.hostPlatform.isDarwin then nixpkgsFun {
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overlays = [ (self': super': {
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pkgsx86_64Darwin = super';
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})] ++ overlays;
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localSystem = {
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parsed = stdenv.hostPlatform.parsed // {
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cpu = lib.systems.parse.cpuTypes.x86_64;
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};
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};
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} else throw "x86_64 Darwin package set can only be used on Darwin systems.";
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# If already linux: the same package set unaltered
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# Otherwise, return a natively built linux package set for the current cpu architecture string.
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# (ABI and other details will be set to the default for the cpu/os pair)
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pkgsLinux =
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if stdenv.hostPlatform.isLinux
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then self
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else nixpkgsFun {
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localSystem = lib.systems.elaborate "${stdenv.hostPlatform.parsed.cpu.name}-linux";
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};
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# Extend the package set with zero or more overlays. This preserves
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# preexisting overlays. Prefer to initialize with the right overlays
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# in one go when calling Nixpkgs, for performance and simplicity.
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appendOverlays = extraOverlays:
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if extraOverlays == []
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then self
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else nixpkgsFun { overlays = args.overlays ++ extraOverlays; };
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# NOTE: each call to extend causes a full nixpkgs rebuild, adding ~130MB
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# of allocations. DO NOT USE THIS IN NIXPKGS.
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#
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# Extend the package set with a single overlay. This preserves
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# preexisting overlays. Prefer to initialize with the right overlays
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# in one go when calling Nixpkgs, for performance and simplicity.
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# Prefer appendOverlays if used repeatedly.
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extend = f: self.appendOverlays [f];
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# Fully static packages.
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# Currently uses Musl on Linux (couldn’t get static glibc to work).
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pkgsStatic = nixpkgsFun ({
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overlays = [ (self': super': {
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pkgsStatic = super';
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})] ++ overlays;
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crossSystem = {
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isStatic = true;
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parsed =
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if stdenv.isLinux
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then makeMuslParsedPlatform stdenv.hostPlatform.parsed
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else stdenv.hostPlatform.parsed;
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} // lib.optionalAttrs (stdenv.hostPlatform.system == "powerpc64-linux") {
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gcc.abi = "elfv2";
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};
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});
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pkgsExtraHardening = nixpkgsFun {
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overlays = [
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(self': super': {
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pkgsExtraHardening = super';
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stdenv = super'.withDefaultHardeningFlags (
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super'.stdenv.cc.defaultHardeningFlags ++ [
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"zerocallusedregs"
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]
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) super'.stdenv;
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})
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] ++ overlays;
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};
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};
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# The complete chain of package set builders, applied from top to bottom.
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# stdenvOverlays must be last as it brings package forward from the
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# previous bootstrapping phases which have already been overlayed.
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toFix = lib.foldl' (lib.flip lib.extends) (self: {}) ([
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stdenvBootstappingAndPlatforms
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stdenvAdapters
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trivialBuilders
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splice
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autoCalledPackages
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allPackages
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otherPackageSets
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aliases
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configOverrides
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] ++ overlays ++ [
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stdenvOverrides ]);
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in
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# Return the complete set of packages.
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lib.fix toFix
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