nixpkgs/lib/systems/default.nix
2018-12-12 08:00:07 +00:00

121 lines
4.3 KiB
Nix

{ lib }:
let inherit (lib.attrsets) mapAttrs; in
rec {
doubles = import ./doubles.nix { inherit lib; };
forMeta = import ./for-meta.nix { inherit lib; };
parse = import ./parse.nix { inherit lib; };
inspect = import ./inspect.nix { inherit lib; };
platforms = import ./platforms.nix { inherit lib; };
examples = import ./examples.nix { inherit lib; };
# Elaborate a `localSystem` or `crossSystem` so that it contains everything
# necessary.
#
# `parsed` is inferred from args, both because there are two options with one
# clearly prefered, and to prevent cycles. A simpler fixed point where the RHS
# always just used `final.*` would fail on both counts.
elaborate = args: let
final = {
# Prefer to parse `config` as it is strictly more informative.
parsed = parse.mkSystemFromString (if args ? config then args.config else args.system);
# Either of these can be losslessly-extracted from `parsed` iff parsing succeeds.
system = parse.doubleFromSystem final.parsed;
config = parse.tripleFromSystem final.parsed;
# Just a guess, based on `system`
platform = platforms.selectBySystem final.system;
# Derived meta-data
libc =
/**/ if final.isDarwin then "libSystem"
else if final.isMinGW then "msvcrt"
else if final.isMusl then "musl"
else if final.isUClibc then "uclibc"
else if final.isAndroid then "bionic"
else if final.isLinux /* default */ then "glibc"
else if final.isAvr then "avrlibc"
# TODO(@Ericson2314) think more about other operating systems
else "native/impure";
extensions = {
sharedLibrary =
/**/ if final.isDarwin then ".dylib"
else if final.isWindows then ".dll"
else ".so";
executable =
/**/ if final.isWindows then ".exe"
else "";
};
# Misc boolean options
useAndroidPrebuilt = false;
useiOSPrebuilt = false;
# Output from uname
uname = {
# uname -s
system = {
"linux" = "Linux";
"windows" = "Windows";
"darwin" = "Darwin";
"netbsd" = "NetBSD";
"freebsd" = "FreeBSD";
"openbsd" = "OpenBSD";
}.${final.parsed.kernel.name} or null;
# uname -p
processor = final.parsed.cpu.name;
# uname -r
release = null;
};
qemuArch =
if final.isArm then "arm"
else if final.isx86_64 then "x86_64"
else if final.isx86 then "i386"
else {
"powerpc" = "ppc";
"powerpc64" = "ppc64";
"powerpc64le" = "ppc64";
"mips64" = "mips";
"mipsel64" = "mipsel";
}.${final.parsed.cpu.name} or final.parsed.cpu.name;
emulator = pkgs: let
qemu-user = pkgs.qemu.override {
smartcardSupport = false;
spiceSupport = false;
openGLSupport = false;
virglSupport = false;
vncSupport = false;
gtkSupport = false;
sdlSupport = false;
pulseSupport = false;
smbdSupport = false;
seccompSupport = false;
hostCpuTargets = ["${final.qemuArch}-linux-user"];
};
wine-name = "wine${toString final.parsed.cpu.bits}";
wine = (pkgs.winePackagesFor wine-name).minimal;
in
if final.parsed.kernel.name == pkgs.stdenv.hostPlatform.parsed.kernel.name &&
(final.parsed.cpu.name == pkgs.stdenv.hostPlatform.parsed.cpu.name ||
(final.isi686 && pkgs.stdenv.hostPlatform.isx86_64))
then pkgs.runtimeShell
else if final.isWindows
then "${wine}/bin/${wine-name}"
else if final.isLinux && pkgs.stdenv.hostPlatform.isLinux
then "${qemu-user}/bin/qemu-${final.qemuArch}"
else throw "Don't know how to run ${final.config} executables.";
} // mapAttrs (n: v: v final.parsed) inspect.predicates
// args;
in assert final.useAndroidPrebuilt -> final.isAndroid;
assert lib.foldl
(pass: { assertion, message }:
if assertion final
then pass
else throw message)
true
(final.parsed.abi.assertions or []);
final;
}