nixpkgs/pkgs/stdenv/generic/make-derivation.nix

{ lib, config }:

stdenv:

let
  checkMeta = import ./check-meta.nix {
    inherit lib config;
    # Nix itself uses the `system` field of a derivation to decide where
    # to build it. This is a bit confusing for cross compilation.
    inherit (stdenv) hostPlatform;
  };

  # Based off lib.makeExtensible, with modifications:
  makeDerivationExtensible = rattrs:
    let
      # NOTE: The following is a hint that will be printed by the Nix cli when
      # encountering an infinite recursion. It must not be formatted into
      # separate lines, because Nix would only show the last line of the comment.

      # An infinite recursion here can be caused by having the attribute names of expression `e` in `.overrideAttrs(finalAttrs: previousAttrs: e)` depend on `finalAttrs`. Only the attribute values of `e` can depend on `finalAttrs`.
      args = rattrs (args // { inherit finalPackage overrideAttrs; });
      #              ^^^^

      overrideAttrs = f0:
        let
          f = self: super:
            # Convert f0 to an overlay. Legacy is:
            #   overrideAttrs (super: {})
            # We want to introduce self. We follow the convention of overlays:
            #   overrideAttrs (self: super: {})
            # Which means the first parameter can be either self or super.
            # This is surprising, but far better than the confusion that would
            # arise from flipping an overlay's parameters in some cases.
            let x = f0 super;
            in
              if builtins.isFunction x
              then
                # Can't reuse `x`, because `self` comes first.
                # Looks inefficient, but `f0 super` was a cheap thunk.
                f0 self super
              else x;
        in
          makeDerivationExtensible
            (self: let super = rattrs self; in super // f self super);

      finalPackage =
        mkDerivationSimple overrideAttrs args;

    in finalPackage;

  # makeDerivationExtensibleConst == makeDerivationExtensible (_: attrs),
  # but pre-evaluated for a slight improvement in performance.
  makeDerivationExtensibleConst = attrs:
    mkDerivationSimple
      (f0:
        let
          f = self: super:
            let x = f0 super;
            in
              if builtins.isFunction x
              then
                f0 self super
              else x;
        in
          makeDerivationExtensible (self: attrs // f self attrs))
      attrs;

  mkDerivationSimple = overrideAttrs:


# `mkDerivation` wraps the builtin `derivation` function to
# produce derivations that use this stdenv and its shell.
#
# See also:
#
# * https://nixos.org/nixpkgs/manual/#sec-using-stdenv
#   Details on how to use this mkDerivation function
#
# * https://nixos.org/manual/nix/stable/expressions/derivations.html#derivations
#   Explanation about derivations in general
{

# These types of dependencies are all exhaustively documented in
# the "Specifying Dependencies" section of the "Standard
# Environment" chapter of the Nixpkgs manual.

# TODO(@Ericson2314): Stop using legacy dep attribute names

#                                 host offset -> target offset
  depsBuildBuild                    ? [] # -1 -> -1
, depsBuildBuildPropagated          ? [] # -1 -> -1
, nativeBuildInputs                 ? [] # -1 ->  0  N.B. Legacy name
, propagatedNativeBuildInputs       ? [] # -1 ->  0  N.B. Legacy name
, depsBuildTarget                   ? [] # -1 ->  1
, depsBuildTargetPropagated         ? [] # -1 ->  1

, depsHostHost                      ? [] #  0 ->  0
, depsHostHostPropagated            ? [] #  0 ->  0
, buildInputs                       ? [] #  0 ->  1  N.B. Legacy name
, propagatedBuildInputs             ? [] #  0 ->  1  N.B. Legacy name

, depsTargetTarget                  ? [] #  1 ->  1
, depsTargetTargetPropagated        ? [] #  1 ->  1

, checkInputs                       ? []
, installCheckInputs                ? []
, nativeCheckInputs                 ? []
, nativeInstallCheckInputs          ? []

# Configure Phase
, configureFlags ? []
, cmakeFlags ? []
, mesonFlags ? []
, # Target is not included by default because most programs don't care.
  # Including it then would cause needless mass rebuilds.
  #
  # TODO(@Ericson2314): Make [ "build" "host" ] always the default / resolve #87909
  configurePlatforms ? lib.optionals
    (stdenv.hostPlatform != stdenv.buildPlatform || config.configurePlatformsByDefault)
    [ "build" "host" ]

# TODO(@Ericson2314): Make unconditional / resolve #33599
# Check phase
, doCheck ? config.doCheckByDefault or false

# TODO(@Ericson2314): Make unconditional / resolve #33599
# InstallCheck phase
, doInstallCheck ? config.doCheckByDefault or false

, # TODO(@Ericson2314): Make always true and remove / resolve #178468
  strictDeps ? if config.strictDepsByDefault then true else stdenv.hostPlatform != stdenv.buildPlatform

, enableParallelBuilding ? config.enableParallelBuildingByDefault

, meta ? {}
, passthru ? {}
, pos ? # position used in error messages and for meta.position
    (if attrs.meta.description or null != null
      then builtins.unsafeGetAttrPos "description" attrs.meta
      else if attrs.version or null != null
      then builtins.unsafeGetAttrPos "version" attrs
      else builtins.unsafeGetAttrPos "name" attrs)
, separateDebugInfo ? false
, outputs ? [ "out" ]
, __darwinAllowLocalNetworking ? false
, __impureHostDeps ? []
, __propagatedImpureHostDeps ? []
, sandboxProfile ? ""
, propagatedSandboxProfile ? ""

, hardeningEnable ? []
, hardeningDisable ? []

, patches ? []

, __contentAddressed ?
  (! attrs ? outputHash) # Fixed-output drvs can't be content addressed too
  && config.contentAddressedByDefault

# Experimental.  For simple packages mostly just works,
# but for anything complex, be prepared to debug if enabling.
, __structuredAttrs ? config.structuredAttrsByDefault or false

, env ? { }

, ... } @ attrs:

let
  # TODO(@oxij, @Ericson2314): This is here to keep the old semantics, remove when
  # no package has `doCheck = true`.
  doCheck' = doCheck && stdenv.buildPlatform.canExecute stdenv.hostPlatform;
  doInstallCheck' = doInstallCheck && stdenv.buildPlatform.canExecute stdenv.hostPlatform;

  separateDebugInfo' = separateDebugInfo && stdenv.hostPlatform.isLinux && !(stdenv.hostPlatform.useLLVM or false);
  outputs' = outputs ++ lib.optional separateDebugInfo' "debug";

  # Turn a derivation into its outPath without a string context attached.
  # See the comment at the usage site.
  unsafeDerivationToUntrackedOutpath = drv:
    if lib.isDerivation drv
    then builtins.unsafeDiscardStringContext drv.outPath
    else drv;

  noNonNativeDeps = builtins.length (depsBuildTarget ++ depsBuildTargetPropagated
                                  ++ depsHostHost ++ depsHostHostPropagated
                                  ++ buildInputs ++ propagatedBuildInputs
                                  ++ depsTargetTarget ++ depsTargetTargetPropagated) == 0;
  dontAddHostSuffix = attrs ? outputHash && !noNonNativeDeps || !stdenv.hasCC;
  supportedHardeningFlags = [ "fortify" "stackprotector" "pie" "pic" "strictoverflow" "format" "relro" "bindnow" ];
  # Musl-based platforms will keep "pie", other platforms will not.
  # If you change this, make sure to update section `{#sec-hardening-in-nixpkgs}`
  # in the nixpkgs manual to inform users about the defaults.
  defaultHardeningFlags = if stdenv.hostPlatform.isMusl &&
                            # Except when:
                            #    - static aarch64, where compilation works, but produces segfaulting dynamically linked binaries.
                            #    - static armv7l, where compilation fails.
                            !(stdenv.hostPlatform.isAarch && stdenv.hostPlatform.isStatic)
                          then supportedHardeningFlags
                          else lib.remove "pie" supportedHardeningFlags;
  enabledHardeningOptions =
    if builtins.elem "all" hardeningDisable
    then []
    else lib.subtractLists hardeningDisable (defaultHardeningFlags ++ hardeningEnable);
  # hardeningDisable additionally supports "all".
  erroneousHardeningFlags = lib.subtractLists supportedHardeningFlags (hardeningEnable ++ lib.remove "all" hardeningDisable);

  checkDependencyList = checkDependencyList' [];
  checkDependencyList' = positions: name: deps: lib.flip lib.imap1 deps (index: dep:
    if lib.isDerivation dep || dep == null || builtins.typeOf dep == "string" || builtins.typeOf dep == "path" then dep
    else if lib.isList dep then checkDependencyList' ([index] ++ positions) name dep
    else throw "Dependency is not of a valid type: ${lib.concatMapStrings (ix: "element ${toString ix} of ") ([index] ++ positions)}${name} for ${attrs.name or attrs.pname}");
in if builtins.length erroneousHardeningFlags != 0
then abort ("mkDerivation was called with unsupported hardening flags: " + lib.generators.toPretty {} {
  inherit erroneousHardeningFlags hardeningDisable hardeningEnable supportedHardeningFlags;
})
else let
  doCheck = doCheck';
  doInstallCheck = doInstallCheck';
  buildInputs' = buildInputs
         ++ lib.optionals doCheck checkInputs
         ++ lib.optionals doInstallCheck installCheckInputs;
  nativeBuildInputs' = nativeBuildInputs
         ++ lib.optional separateDebugInfo' ../../build-support/setup-hooks/separate-debug-info.sh
         ++ lib.optional stdenv.hostPlatform.isWindows ../../build-support/setup-hooks/win-dll-link.sh
         ++ lib.optionals doCheck nativeCheckInputs
         ++ lib.optionals doInstallCheck nativeInstallCheckInputs;

  outputs = outputs';

  references = nativeBuildInputs ++ buildInputs
            ++ propagatedNativeBuildInputs ++ propagatedBuildInputs;

  dependencies = map (map lib.chooseDevOutputs) [
    [
      (map (drv: drv.__spliced.buildBuild or drv) (checkDependencyList "depsBuildBuild" depsBuildBuild))
      (map (drv: drv.__spliced.buildHost or drv) (checkDependencyList "nativeBuildInputs" nativeBuildInputs'))
      (map (drv: drv.__spliced.buildTarget or drv) (checkDependencyList "depsBuildTarget" depsBuildTarget))
    ]
    [
      (map (drv: drv.__spliced.hostHost or drv) (checkDependencyList "depsHostHost" depsHostHost))
      (map (drv: drv.__spliced.hostTarget or drv) (checkDependencyList "buildInputs" buildInputs'))
    ]
    [
      (map (drv: drv.__spliced.targetTarget or drv) (checkDependencyList "depsTargetTarget" depsTargetTarget))
    ]
  ];
  propagatedDependencies = map (map lib.chooseDevOutputs) [
    [
      (map (drv: drv.__spliced.buildBuild or drv) (checkDependencyList "depsBuildBuildPropagated" depsBuildBuildPropagated))
      (map (drv: drv.__spliced.buildHost or drv) (checkDependencyList "propagatedNativeBuildInputs" propagatedNativeBuildInputs))
      (map (drv: drv.__spliced.buildTarget or drv) (checkDependencyList "depsBuildTargetPropagated" depsBuildTargetPropagated))
    ]
    [
      (map (drv: drv.__spliced.hostHost or drv) (checkDependencyList "depsHostHostPropagated" depsHostHostPropagated))
      (map (drv: drv.__spliced.hostTarget or drv) (checkDependencyList "propagatedBuildInputs" propagatedBuildInputs))
    ]
    [
      (map (drv: drv.__spliced.targetTarget or drv) (checkDependencyList "depsTargetTargetPropagated" depsTargetTargetPropagated))
    ]
  ];

  computedSandboxProfile =
    lib.concatMap (input: input.__propagatedSandboxProfile or [])
      (stdenv.extraNativeBuildInputs
       ++ stdenv.extraBuildInputs
       ++ lib.concatLists dependencies);

  computedPropagatedSandboxProfile =
    lib.concatMap (input: input.__propagatedSandboxProfile or [])
      (lib.concatLists propagatedDependencies);

  computedImpureHostDeps =
    lib.unique (lib.concatMap (input: input.__propagatedImpureHostDeps or [])
      (stdenv.extraNativeBuildInputs
       ++ stdenv.extraBuildInputs
       ++ lib.concatLists dependencies));

  computedPropagatedImpureHostDeps =
    lib.unique (lib.concatMap (input: input.__propagatedImpureHostDeps or [])
      (lib.concatLists propagatedDependencies));

  envIsExportable = lib.isAttrs env && !lib.isDerivation env;

  derivationArg =
    (removeAttrs attrs
      (["meta" "passthru" "pos"
       "checkInputs" "installCheckInputs"
       "nativeCheckInputs" "nativeInstallCheckInputs"
       "__darwinAllowLocalNetworking"
       "__impureHostDeps" "__propagatedImpureHostDeps"
       "sandboxProfile" "propagatedSandboxProfile"]
       ++ lib.optional (__structuredAttrs || envIsExportable) "env"))
    // (lib.optionalAttrs (attrs ? name || (attrs ? pname && attrs ? version)) {
      name =
        let
          # Indicate the host platform of the derivation if cross compiling.
          # Fixed-output derivations like source tarballs shouldn't get a host
          # suffix. But we have some weird ones with run-time deps that are
          # just used for their side-affects. Those might as well since the
          # hash can't be the same. See #32986.
          hostSuffix = lib.optionalString
            (stdenv.hostPlatform != stdenv.buildPlatform && !dontAddHostSuffix)
            "-${stdenv.hostPlatform.config}";
          # Disambiguate statically built packages. This was originally
          # introduce as a means to prevent nix-env to get confused between
          # nix and nixStatic. This should be also achieved by moving the
          # hostSuffix before the version, so we could contemplate removing
          # it again.
          staticMarker = lib.optionalString stdenv.hostPlatform.isStatic "-static";
        in
        lib.strings.sanitizeDerivationName (
          if attrs ? name
          then attrs.name + hostSuffix
          else "${attrs.pname}${staticMarker}${hostSuffix}-${attrs.version}"
        );
    }) // lib.optionalAttrs __structuredAttrs { env = checkedEnv; } // {
      builder = attrs.realBuilder or stdenv.shell;
      args = attrs.args or ["-e" (attrs.builder or ./default-builder.sh)];
      inherit stdenv;

      # The `system` attribute of a derivation has special meaning to Nix.
      # Derivations set it to choose what sort of machine could be used to
      # execute the build, The build platform entirely determines this,
      # indeed more finely than Nix knows or cares about. The `system`
      # attribute of `buildPlatfom` matches Nix's degree of specificity.
      # exactly.
      inherit (stdenv.buildPlatform) system;

      userHook = config.stdenv.userHook or null;
      __ignoreNulls = true;
      inherit __structuredAttrs strictDeps;

      depsBuildBuild              = lib.elemAt (lib.elemAt dependencies 0) 0;
      nativeBuildInputs           = lib.elemAt (lib.elemAt dependencies 0) 1;
      depsBuildTarget             = lib.elemAt (lib.elemAt dependencies 0) 2;
      depsHostHost                = lib.elemAt (lib.elemAt dependencies 1) 0;
      buildInputs                 = lib.elemAt (lib.elemAt dependencies 1) 1;
      depsTargetTarget            = lib.elemAt (lib.elemAt dependencies 2) 0;

      depsBuildBuildPropagated    = lib.elemAt (lib.elemAt propagatedDependencies 0) 0;
      propagatedNativeBuildInputs = lib.elemAt (lib.elemAt propagatedDependencies 0) 1;
      depsBuildTargetPropagated   = lib.elemAt (lib.elemAt propagatedDependencies 0) 2;
      depsHostHostPropagated      = lib.elemAt (lib.elemAt propagatedDependencies 1) 0;
      propagatedBuildInputs       = lib.elemAt (lib.elemAt propagatedDependencies 1) 1;
      depsTargetTargetPropagated  = lib.elemAt (lib.elemAt propagatedDependencies 2) 0;

      # This parameter is sometimes a string, sometimes null, and sometimes a list, yuck
      configureFlags = let inherit (lib) optional elem; in
        (/**/ if lib.isString configureFlags then lib.warn "String 'configureFlags' is deprecated and will be removed in release 23.05. Please use a list of strings. Derivation name: ${derivationArg.name}, file: ${pos.file or "unknown file"}" [configureFlags]
         else if configureFlags == null      then lib.warn "Null 'configureFlags' is deprecated and will be removed in release 23.05. Please use a empty list instead '[]'. Derivation name: ${derivationArg.name}, file: ${pos.file or "unknown file"}" []
         else                                     configureFlags)
        ++ optional (elem "build"  configurePlatforms) "--build=${stdenv.buildPlatform.config}"
        ++ optional (elem "host"   configurePlatforms) "--host=${stdenv.hostPlatform.config}"
        ++ optional (elem "target" configurePlatforms) "--target=${stdenv.targetPlatform.config}";

      cmakeFlags =
        let
          explicitFlags =
            if lib.isString cmakeFlags then lib.warn
                "String 'cmakeFlags' is deprecated and will be removed in release 23.05. Please use a list of strings. Derivation name: ${derivationArg.name}, file: ${pos.file or "unknown file"}"
                [cmakeFlags]
            else if cmakeFlags == null then
              lib.warn
                "Null 'cmakeFlags' is deprecated and will be removed in release 23.05. Please use a empty list instead '[]'. Derivation name: ${derivationArg.name}, file: ${pos.file or "unknown file"}"
                []
            else
              cmakeFlags;

          crossFlags = [
            "-DCMAKE_SYSTEM_NAME=${lib.findFirst lib.isString "Generic" (lib.optional (!stdenv.hostPlatform.isRedox) stdenv.hostPlatform.uname.system)}"
          ] ++ lib.optionals (stdenv.hostPlatform.uname.processor != null) [
            "-DCMAKE_SYSTEM_PROCESSOR=${stdenv.hostPlatform.uname.processor}"
          ] ++ lib.optionals (stdenv.hostPlatform.uname.release != null) [
            "-DCMAKE_SYSTEM_VERSION=${stdenv.hostPlatform.uname.release}"
          ] ++ lib.optionals (stdenv.hostPlatform.isDarwin) [
            "-DCMAKE_OSX_ARCHITECTURES=${stdenv.hostPlatform.darwinArch}"
          ] ++ lib.optionals (stdenv.buildPlatform.uname.system != null) [
            "-DCMAKE_HOST_SYSTEM_NAME=${stdenv.buildPlatform.uname.system}"
          ] ++ lib.optionals (stdenv.buildPlatform.uname.processor != null) [
            "-DCMAKE_HOST_SYSTEM_PROCESSOR=${stdenv.buildPlatform.uname.processor}"
          ] ++ lib.optionals (stdenv.buildPlatform.uname.release != null) [
            "-DCMAKE_HOST_SYSTEM_VERSION=${stdenv.buildPlatform.uname.release}"
          ];
        in
          explicitFlags ++ lib.optionals (stdenv.hostPlatform != stdenv.buildPlatform) crossFlags;

      mesonFlags =
        let
          explicitFlags =
            if lib.isString mesonFlags then lib.warn
                "String 'mesonFlags' is deprecated and will be removed in release 23.05. Please use a list of strings. Derivation name: ${derivationArg.name}, file: ${pos.file or "unknown file"}"
                [mesonFlags]
            else if mesonFlags == null then
              lib.warn
                "Null 'mesonFlags' is deprecated and will be removed in release 23.05. Please use a empty list instead '[]'. Derivation name: ${derivationArg.name}, file: ${pos.file or "unknown file"}"
                []
            else
              mesonFlags;

          # See https://mesonbuild.com/Reference-tables.html#cpu-families
          cpuFamily = platform: with platform;
            /**/ if isAarch32 then "arm"
            else if isx86_32  then "x86"
            else platform.uname.processor;

          crossFile = builtins.toFile "cross-file.conf" ''
            [properties]
            needs_exe_wrapper = ${lib.boolToString (!stdenv.buildPlatform.canExecute stdenv.hostPlatform)}

            [host_machine]
            system = '${stdenv.targetPlatform.parsed.kernel.name}'
            cpu_family = '${cpuFamily stdenv.targetPlatform}'
            cpu = '${stdenv.targetPlatform.parsed.cpu.name}'
            endian = ${if stdenv.targetPlatform.isLittleEndian then "'little'" else "'big'"}

            [binaries]
            llvm-config = 'llvm-config-native'
          '';
          crossFlags = lib.optionals (stdenv.hostPlatform != stdenv.buildPlatform) [ "--cross-file=${crossFile}" ];
        in crossFlags ++ explicitFlags;

      inherit patches;

      inherit doCheck doInstallCheck;

      inherit outputs;
    } // lib.optionalAttrs (__contentAddressed) {
      inherit __contentAddressed;
      # Provide default values for outputHashMode and outputHashAlgo because
      # most people won't care about these anyways
      outputHashAlgo = attrs.outputHashAlgo or "sha256";
      outputHashMode = attrs.outputHashMode or "recursive";
    } // lib.optionalAttrs (enableParallelBuilding) {
      inherit enableParallelBuilding;
      enableParallelChecking = attrs.enableParallelChecking or true;
    } // lib.optionalAttrs (hardeningDisable != [] || hardeningEnable != [] || stdenv.hostPlatform.isMusl) {
      NIX_HARDENING_ENABLE = enabledHardeningOptions;
    } // lib.optionalAttrs (stdenv.hostPlatform.isx86_64 && stdenv.hostPlatform ? gcc.arch) {
      requiredSystemFeatures = attrs.requiredSystemFeatures or [] ++ [ "gccarch-${stdenv.hostPlatform.gcc.arch}" ];
    } // lib.optionalAttrs (stdenv.buildPlatform.isDarwin) {
      inherit __darwinAllowLocalNetworking;
      # TODO: remove lib.unique once nix has a list canonicalization primitive
      __sandboxProfile =
      let profiles = [ stdenv.extraSandboxProfile ] ++ computedSandboxProfile ++ computedPropagatedSandboxProfile ++ [ propagatedSandboxProfile sandboxProfile ];
          final = lib.concatStringsSep "\n" (lib.filter (x: x != "") (lib.unique profiles));
      in final;
      __propagatedSandboxProfile = lib.unique (computedPropagatedSandboxProfile ++ [ propagatedSandboxProfile ]);
      __impureHostDeps = computedImpureHostDeps ++ computedPropagatedImpureHostDeps ++ __propagatedImpureHostDeps ++ __impureHostDeps ++ stdenv.__extraImpureHostDeps ++ [
        "/dev/zero"
        "/dev/random"
        "/dev/urandom"
        "/bin/sh"
      ];
      __propagatedImpureHostDeps = computedPropagatedImpureHostDeps ++ __propagatedImpureHostDeps;
    } //
    # If we use derivations directly here, they end up as build-time dependencies.
    # This is especially problematic in the case of disallowed*, since the disallowed
    # derivations will be built by nix as build-time dependencies, while those
    # derivations might take a very long time to build, or might not even build
    # successfully on the platform used.
    # We can improve on this situation by instead passing only the outPath,
    # without an attached string context, to nix. The out path will be a placeholder
    # which will be replaced by the actual out path if the derivation in question
    # is part of the final closure (and thus needs to be built). If it is not
    # part of the final closure, then the placeholder will be passed along,
    # but in that case we know for a fact that the derivation is not part of the closure.
    # This means that passing the out path to nix does the right thing in either
    # case, both for disallowed and allowed references/requisites, and we won't
    # build the derivation if it wouldn't be part of the closure, saving time and resources.
    # While the problem is less severe for allowed*, since we want the derivation
    # to be built eventually, we would still like to get the error early and without
    # having to wait while nix builds a derivation that might not be used.
    # See also https://github.com/NixOS/nix/issues/4629
    lib.optionalAttrs (attrs ? disallowedReferences) {
      disallowedReferences =
        map unsafeDerivationToUntrackedOutpath attrs.disallowedReferences;
    } //
    lib.optionalAttrs (attrs ? disallowedRequisites) {
      disallowedRequisites =
        map unsafeDerivationToUntrackedOutpath attrs.disallowedRequisites;
    } //
    lib.optionalAttrs (attrs ? allowedReferences) {
      allowedReferences =
        lib.mapNullable unsafeDerivationToUntrackedOutpath attrs.allowedReferences;
    } //
    lib.optionalAttrs (attrs ? allowedRequisites) {
      allowedRequisites =
        lib.mapNullable unsafeDerivationToUntrackedOutpath attrs.allowedRequisites;
    };

  validity = checkMeta { inherit meta attrs; };

  # The meta attribute is passed in the resulting attribute set,
  # but it's not part of the actual derivation, i.e., it's not
  # passed to the builder and is not a dependency.  But since we
  # include it in the result, it *is* available to nix-env for queries.
  meta = {
      # `name` above includes cross-compilation cruft,
      # is under assert, and is sanitized.
      # Let's have a clean always accessible version here.
      name = attrs.name or "${attrs.pname}-${attrs.version}";

      # If the packager hasn't specified `outputsToInstall`, choose a default,
      # which is the name of `p.bin or p.out or p` along with `p.man` when
      # present.
      #
      # If the packager has specified it, it will be overridden below in
      # `// meta`.
      #
      #   Note: This default probably shouldn't be globally configurable.
      #   Services and users should specify outputs explicitly,
      #   unless they are comfortable with this default.
      outputsToInstall =
        let
          hasOutput = out: builtins.elem out outputs;
        in [( lib.findFirst hasOutput null (["bin" "out"] ++ outputs) )]
          ++ lib.optional (hasOutput "man") "man";
    }
    // attrs.meta or {}
    # Fill `meta.position` to identify the source location of the package.
    // lib.optionalAttrs (pos != null) {
      position = pos.file + ":" + toString pos.line;
    } // {
      # Expose the result of the checks for everyone to see.
      inherit (validity) unfree broken unsupported insecure;
      available = validity.valid != "no"
               && (if config.checkMetaRecursively or false
                   then lib.all (d: d.meta.available or true) references
                   else true);
    };

  checkedEnv =
    let
      overlappingNames = lib.attrNames (builtins.intersectAttrs env derivationArg);
    in
    assert lib.assertMsg envIsExportable
      "When using structured attributes, `env` must be an attribute set of environment variables.";
    assert lib.assertMsg (overlappingNames == [ ])
      "The ‘env’ attribute set cannot contain any attributes passed to derivation. The following attributes are overlapping: ${lib.concatStringsSep ", " overlappingNames}";
    lib.mapAttrs
      (n: v: assert lib.assertMsg (lib.isString v || lib.isBool v || lib.isInt v || lib.isDerivation v)
        "The ‘env’ attribute set can only contain derivation, string, boolean or integer attributes. The ‘${n}’ attribute is of type ${builtins.typeOf v}."; v)
      env;

in

lib.extendDerivation
  validity.handled
  ({
     # A derivation that always builds successfully and whose runtime
     # dependencies are the original derivations build time dependencies
     # This allows easy building and distributing of all derivations
     # needed to enter a nix-shell with
     #   nix-build shell.nix -A inputDerivation
     inputDerivation = derivation (derivationArg // {
       # Add a name in case the original drv didn't have one
       name = derivationArg.name or "inputDerivation";
       # This always only has one output
       outputs = [ "out" ];

       # Propagate the original builder and arguments, since we override
       # them and they might contain references to build inputs
       _derivation_original_builder = derivationArg.builder;
       _derivation_original_args = derivationArg.args;

       builder = stdenv.shell;
       # The bash builtin `export` dumps all current environment variables,
       # which is where all build input references end up (e.g. $PATH for
       # binaries). By writing this to $out, Nix can find and register
       # them as runtime dependencies (since Nix greps for store paths
       # through $out to find them)
       args = [ "-c" "export > $out" ];

       # inputDerivation produces the inputs; not the outputs, so any
       # restrictions on what used to be the outputs don't serve a purpose
       # anymore.
       disallowedReferences = [ ];
       disallowedRequisites = [ ];
     });

     inherit meta passthru overrideAttrs;
   } //
   # Pass through extra attributes that are not inputs, but
   # should be made available to Nix expressions using the
   # derivation (e.g., in assertions).
   passthru)
  (derivation (derivationArg // lib.optionalAttrs envIsExportable checkedEnv));

in
  fnOrAttrs:
    if builtins.isFunction fnOrAttrs
    then makeDerivationExtensible fnOrAttrs
    else makeDerivationExtensibleConst fnOrAttrs