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nixpkgs/lib/systems/inspect.nix
David McFarland 39fd8e4adf cygwin: init as a target toolchain 
The old cygwin support used -pc-windows-cygnus as the config.  This is
supported by LLVM, but not by GNU. This will change it to -pc-cygwin,
which is more generally supported.

Because the kernel is now 'cygwin' rather than 'windows', isWindows will
return false. There are lots of different reasons isWindows is used in
nixpkgs, but in my experience they often have to do with posix
compatibility and don't apply to cygwin.

Co-authored-by: Brian McKenna <brian@brianmckenna.org>
2025-09-27 13:29:44 -03:00

490 lines
8.5 KiB
Nix
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{ lib }:
let
inherit (lib)
any
attrValues
concatMap
filter
hasPrefix
isList
mapAttrs
matchAttrs
recursiveUpdateUntil
toList
;
inherit (lib.strings) toJSON;
inherit (lib.systems.parse)
kernels
kernelFamilies
significantBytes
cpuTypes
execFormats
;
abis = mapAttrs (_: abi: removeAttrs abi [ "assertions" ]) lib.systems.parse.abis;
in
rec {
# these patterns are to be matched against {host,build,target}Platform.parsed
patterns = rec {
# The patterns below are lists in sum-of-products form.
#
# Each attribute is list of product conditions; non-list values are treated
# as a singleton list. If *any* product condition in the list matches then
# the predicate matches. Each product condition is tested by
# `lib.attrsets.matchAttrs`, which requires a match on *all* attributes of
# the product.
isi686 = {
cpu = cpuTypes.i686;
};
isx86_32 = {
cpu = {
family = "x86";
bits = 32;
};
};
isx86_64 = {
cpu = {
family = "x86";
bits = 64;
};
};
isPower = {
cpu = {
family = "power";
};
};
isPower64 = {
cpu = {
family = "power";
bits = 64;
};
};
isAbiElfv1 = {
abi = {
abi = "elfv1";
};
};
# This ABI is the default in NixOS PowerPC64 BE, but not on mainline GCC,
# so it sometimes causes issues in certain packages that makes the wrong
# assumption on the used ABI.
isAbiElfv2 = [
{
abi = {
abi = "elfv2";
};
}
{
abi = {
name = "musl";
};
cpu = {
family = "power";
bits = 64;
};
}
];
isx86 = {
cpu = {
family = "x86";
};
};
isAarch32 = {
cpu = {
family = "arm";
bits = 32;
};
};
isArmv7 = map (
{ arch, ... }:
{
cpu = { inherit arch; };
}
) (filter (cpu: hasPrefix "armv7" cpu.arch or "") (attrValues cpuTypes));
isAarch64 = {
cpu = {
family = "arm";
bits = 64;
};
};
isAarch = {
cpu = {
family = "arm";
};
};
isMicroBlaze = {
cpu = {
family = "microblaze";
};
};
isMips = {
cpu = {
family = "mips";
};
};
isMips32 = {
cpu = {
family = "mips";
bits = 32;
};
};
isMips64 = {
cpu = {
family = "mips";
bits = 64;
};
};
isMips64n32 = {
cpu = {
family = "mips";
bits = 64;
};
abi = {
abi = "n32";
};
};
isMips64n64 = {
cpu = {
family = "mips";
bits = 64;
};
abi = {
abi = "64";
};
};
isMmix = {
cpu = {
family = "mmix";
};
};
isRiscV = {
cpu = {
family = "riscv";
};
};
isRiscV32 = {
cpu = {
family = "riscv";
bits = 32;
};
};
isRiscV64 = {
cpu = {
family = "riscv";
bits = 64;
};
};
isRx = {
cpu = {
family = "rx";
};
};
isSparc = {
cpu = {
family = "sparc";
};
};
isSparc64 = {
cpu = {
family = "sparc";
bits = 64;
};
};
isWasm = {
cpu = {
family = "wasm";
};
};
isMsp430 = {
cpu = {
family = "msp430";
};
};
isVc4 = {
cpu = {
family = "vc4";
};
};
isAvr = {
cpu = {
family = "avr";
};
};
isAlpha = {
cpu = {
family = "alpha";
};
};
isOr1k = {
cpu = {
family = "or1k";
};
};
isM68k = {
cpu = {
family = "m68k";
};
};
isS390 = {
cpu = {
family = "s390";
};
};
isS390x = {
cpu = {
family = "s390";
bits = 64;
};
};
isLoongArch64 = {
cpu = {
family = "loongarch";
bits = 64;
};
};
isJavaScript = {
cpu = cpuTypes.javascript;
};
is32bit = {
cpu = {
bits = 32;
};
};
is64bit = {
cpu = {
bits = 64;
};
};
isILP32 = [
{
cpu = {
family = "wasm";
bits = 32;
};
}
]
++
map
(a: {
abi = {
abi = a;
};
})
[
"n32"
"ilp32"
"x32"
];
isBigEndian = {
cpu = {
significantByte = significantBytes.bigEndian;
};
};
isLittleEndian = {
cpu = {
significantByte = significantBytes.littleEndian;
};
};
isBSD = {
kernel = {
families = { inherit (kernelFamilies) bsd; };
};
};
isDarwin = {
kernel = {
families = { inherit (kernelFamilies) darwin; };
};
};
isUnix = [
isBSD
isDarwin
isLinux
isSunOS
isCygwin
isRedox
];
isMacOS = {
kernel = kernels.macos;
};
isiOS = {
kernel = kernels.ios;
};
isLinux = {
kernel = kernels.linux;
};
isSunOS = {
kernel = kernels.solaris;
};
isFreeBSD = {
kernel = {
name = "freebsd";
};
};
isNetBSD = {
kernel = kernels.netbsd;
};
isOpenBSD = {
kernel = kernels.openbsd;
};
isWindows = {
kernel = kernels.windows;
};
isCygwin = {
kernel = kernels.cygwin;
};
isMinGW = {
kernel = kernels.windows;
abi = abis.gnu;
};
isMsvc = {
kernel = kernels.windows;
abi = abis.msvc;
};
isWasi = {
kernel = kernels.wasi;
};
isRedox = {
kernel = kernels.redox;
};
isGhcjs = {
kernel = kernels.ghcjs;
};
isGenode = {
kernel = kernels.genode;
};
isNone = {
kernel = kernels.none;
};
isAndroid = [
{ abi = abis.android; }
{ abi = abis.androideabi; }
];
isGnu =
with abis;
map (a: { abi = a; }) [
gnuabi64
gnuabin32
gnu
gnueabi
gnueabihf
gnuabielfv1
gnuabielfv2
];
isMusl =
with abis;
map (a: { abi = a; }) [
musl
musleabi
musleabihf
muslabin32
muslabi64
];
isUClibc =
with abis;
map (a: { abi = a; }) [
uclibc
uclibceabi
uclibceabihf
];
isEfi = [
{
cpu = {
family = "arm";
version = "6";
};
}
{
cpu = {
family = "arm";
version = "7";
};
}
{
cpu = {
family = "arm";
version = "8";
};
}
{
cpu = {
family = "riscv";
};
}
{
cpu = {
family = "x86";
};
}
{
cpu = {
family = "loongarch";
};
}
];
isElf = {
kernel.execFormat = execFormats.elf;
};
isMacho = {
kernel.execFormat = execFormats.macho;
};
};
# given two patterns, return a pattern which is their logical AND.
# Since a pattern is a list-of-disjuncts, this needs to
patternLogicalAnd =
pat1_: pat2_:
let
# patterns can be either a list or a (bare) singleton; turn
# them into singletons for uniform handling
pat1 = toList pat1_;
pat2 = toList pat2_;
in
concatMap (
attr1:
map (
attr2:
recursiveUpdateUntil (
path: subattr1: subattr2:
if (builtins.intersectAttrs subattr1 subattr2) == { } || subattr1 == subattr2 then
true
else
throw ''
pattern conflict at path ${toString path}:
${toJSON subattr1}
${toJSON subattr2}
''
) attr1 attr2
) pat2
) pat1;
matchAnyAttrs =
patterns:
if isList patterns then
attrs: any (pattern: matchAttrs pattern attrs) patterns
else
matchAttrs patterns;
predicates = mapAttrs (_: matchAnyAttrs) patterns;
# these patterns are to be matched against the entire
# {host,build,target}Platform structure; they include a `parsed={}` marker so
# that `lib.meta.availableOn` can distinguish them from the patterns which
# apply only to the `parsed` field.
platformPatterns = mapAttrs (_: p: { parsed = { }; } // p) {
isStatic = {
isStatic = true;
};
};
}
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