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zig/lib/std/c.zig
Alex Rønne Petersen c8ca05e93a
std.Target: Remove sparcel architecture tag. 
What is `sparcel`, you might ask? Good question!

If you take a peek in the SPARC v8 manual, §2.2, it is quite explicit that SPARC
v8 is a big-endian architecture. No little-endian or mixed-endian support to be
found here.

On the other hand, the SPARC v9 manual, in §3.2.1.2, states that it has support
for mixed-endian operation, with big-endian mode being the default.

Ok, so `sparcel` must just be referring to SPARC v9 running in little-endian
mode, surely?

Nope:

* 40b4fd7a3e/llvm/lib/Target/Sparc/SparcTargetMachine.cpp (L226)
* 40b4fd7a3e/llvm/lib/Target/Sparc/SparcTargetMachine.cpp (L104)

So, `sparcel` in LLVM is referring to some sort of fantastical little-endian
SPARC v8 architecture. I've scoured the internet and I can find absolutely no
evidence that such a thing exists or has ever existed. In fact, I can find no
evidence that a little-endian implementation of SPARC v9 ever existed, either.
Or any SPARC version, actually!

The support was added here: https://reviews.llvm.org/D8741

Notably, there is no mention whatsoever of what CPU this might be referring to,
and no justification given for the "but some are little" comment added in the
patch.

My best guess is that this might have been some private exercise in creating a
little-endian version of SPARC that never saw the light of day. Given that SPARC
v8 explicitly doesn't support little-endian operation (let alone little-endian
instruction encoding!), and no CPU is known to be implemented as such, I think
it's very reasonable for us to just remove this support.
2024-07-30 06:30:25 +02:00

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const std = @import("std");
const builtin = @import("builtin");
const c = @This();
const maxInt = std.math.maxInt;
const assert = std.debug.assert;
const page_size = std.mem.page_size;
const native_abi = builtin.abi;
const native_arch = builtin.cpu.arch;
const native_os = builtin.os.tag;
const linux = std.os.linux;
const emscripten = std.os.emscripten;
const wasi = std.os.wasi;
const windows = std.os.windows;
const ws2_32 = std.os.windows.ws2_32;
const darwin = @import("c/darwin.zig");
const freebsd = @import("c/freebsd.zig");
const solaris = @import("c/solaris.zig");
const netbsd = @import("c/netbsd.zig");
const dragonfly = @import("c/dragonfly.zig");
const haiku = @import("c/haiku.zig");
const openbsd = @import("c/openbsd.zig");
// These constants are shared among all operating systems even when not linking
// libc.
pub const iovec = std.posix.iovec;
pub const iovec_const = std.posix.iovec_const;
pub const LOCK = std.posix.LOCK;
pub const winsize = std.posix.winsize;
/// The value of the link editor defined symbol _MH_EXECUTE_SYM is the address
/// of the mach header in a Mach-O executable file type. It does not appear in
/// any file type other than a MH_EXECUTE file type. The type of the symbol is
/// absolute as the header is not part of any section.
/// This symbol is populated when linking the system's libc, which is guaranteed
/// on this operating system. However when building object files or libraries,
/// the system libc won't be linked until the final executable. So we
/// export a weak symbol here, to be overridden by the real one.
pub extern var _mh_execute_header: mach_hdr;
var dummy_execute_header: mach_hdr = undefined;
comptime {
if (native_os.isDarwin()) {
@export(dummy_execute_header, .{ .name = "_mh_execute_header", .linkage = .weak });
}
}
/// If not linking libc, returns false.
/// If linking musl libc, returns true.
/// If linking gnu libc (glibc), returns true if the target version is greater
/// than or equal to `glibc_version`.
/// If linking a libc other than these, returns `false`.
pub inline fn versionCheck(comptime glibc_version: std.SemanticVersion) bool {
return comptime blk: {
if (!builtin.link_libc) break :blk false;
if (native_abi.isMusl()) break :blk true;
if (builtin.target.isGnuLibC()) {
const ver = builtin.os.version_range.linux.glibc;
const order = ver.order(glibc_version);
break :blk switch (order) {
.gt, .eq => true,
.lt => false,
};
} else {
break :blk false;
}
};
}
pub const ino_t = switch (native_os) {
.linux => linux.ino_t,
.emscripten => emscripten.ino_t,
.wasi => wasi.inode_t,
.windows => windows.LARGE_INTEGER,
.haiku => i64,
else => u64,
};
pub const off_t = switch (native_os) {
.linux => linux.off_t,
.emscripten => emscripten.off_t,
else => i64,
};
pub const timespec = switch (native_os) {
.linux => linux.timespec,
.emscripten => emscripten.timespec,
.wasi => extern struct {
sec: time_t,
nsec: isize,
pub fn fromTimestamp(tm: wasi.timestamp_t) timespec {
const sec: wasi.timestamp_t = tm / 1_000_000_000;
const nsec = tm - sec * 1_000_000_000;
return .{
.sec = @as(time_t, @intCast(sec)),
.nsec = @as(isize, @intCast(nsec)),
};
}
pub fn toTimestamp(ts: timespec) wasi.timestamp_t {
return @as(wasi.timestamp_t, @intCast(ts.sec * 1_000_000_000)) +
@as(wasi.timestamp_t, @intCast(ts.nsec));
}
},
.windows => extern struct {
sec: time_t,
nsec: c_long,
},
.dragonfly, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => extern struct {
sec: isize,
nsec: isize,
},
.netbsd, .solaris, .illumos => extern struct {
sec: i64,
nsec: isize,
},
.openbsd, .haiku => extern struct {
sec: time_t,
nsec: isize,
},
else => void,
};
pub const dev_t = switch (native_os) {
.linux => linux.dev_t,
.emscripten => emscripten.dev_t,
.wasi => wasi.device_t,
.openbsd, .haiku, .solaris, .illumos, .macos, .ios, .tvos, .watchos, .visionos => i32,
.netbsd, .freebsd => u64,
else => void,
};
pub const mode_t = switch (native_os) {
.linux => linux.mode_t,
.emscripten => emscripten.mode_t,
.openbsd, .haiku, .netbsd, .solaris, .illumos, .wasi => u32,
.freebsd, .macos, .ios, .tvos, .watchos, .visionos => u16,
else => u0,
};
pub const nlink_t = switch (native_os) {
.linux => linux.nlink_t,
.emscripten => emscripten.nlink_t,
.wasi => c_ulonglong,
.freebsd => u64,
.openbsd, .netbsd, .solaris, .illumos => u32,
.haiku => i32,
else => void,
};
pub const uid_t = switch (native_os) {
.linux => linux.uid_t,
.emscripten => emscripten.uid_t,
else => u32,
};
pub const gid_t = switch (native_os) {
.linux => linux.gid_t,
.emscripten => emscripten.gid_t,
else => u32,
};
pub const blksize_t = switch (native_os) {
.linux => linux.blksize_t,
.emscripten => emscripten.blksize_t,
.wasi => c_long,
else => i32,
};
pub const passwd = switch (native_os) {
.linux => extern struct {
name: ?[*:0]const u8, // username
passwd: ?[*:0]const u8, // user password
uid: uid_t, // user ID
gid: gid_t, // group ID
gecos: ?[*:0]const u8, // user information
dir: ?[*:0]const u8, // home directory
shell: ?[*:0]const u8, // shell program
},
.openbsd => extern struct {
name: ?[*:0]const u8, // user name
passwd: ?[*:0]const u8, // encrypted password
uid: uid_t, // user uid
gid: gid_t, // user gid
change: time_t, // password change time
class: ?[*:0]const u8, // user access class
gecos: ?[*:0]const u8, // Honeywell login info
dir: ?[*:0]const u8, // home directory
shell: ?[*:0]const u8, // default shell
expire: time_t, // account expiration
},
else => void,
};
pub const blkcnt_t = switch (native_os) {
.linux => linux.blkcnt_t,
.emscripten => emscripten.blkcnt_t,
.wasi => c_longlong,
else => i64,
};
pub const fd_t = switch (native_os) {
.linux => linux.fd_t,
.wasi => wasi.fd_t,
.windows => windows.HANDLE,
else => i32,
};
pub const ARCH = switch (native_os) {
.linux => linux.ARCH,
else => void,
};
pub const CLOCK = clockid_t;
pub const clockid_t = switch (native_os) {
.linux, .emscripten => linux.clockid_t,
.wasi => wasi.clockid_t,
.macos, .ios, .tvos, .watchos, .visionos => enum(u32) {
REALTIME = 0,
MONOTONIC = 6,
MONOTONIC_RAW = 4,
MONOTONIC_RAW_APPROX = 5,
UPTIME_RAW = 8,
UPTIME_RAW_APPROX = 9,
PROCESS_CPUTIME_ID = 12,
THREAD_CPUTIME_ID = 16,
_,
},
.haiku => enum(i32) {
/// system-wide monotonic clock (aka system time)
MONOTONIC = 0,
/// system-wide real time clock
REALTIME = -1,
/// clock measuring the used CPU time of the current process
PROCESS_CPUTIME_ID = -2,
/// clock measuring the used CPU time of the current thread
THREAD_CPUTIME_ID = -3,
},
.freebsd => enum(u32) {
REALTIME = 0,
VIRTUAL = 1,
PROF = 2,
MONOTONIC = 4,
UPTIME = 5,
UPTIME_PRECISE = 7,
UPTIME_FAST = 8,
REALTIME_PRECISE = 9,
REALTIME_FAST = 10,
MONOTONIC_PRECISE = 11,
MONOTONIC_FAST = 12,
SECOND = 13,
THREAD_CPUTIME_ID = 14,
PROCESS_CPUTIME_ID = 15,
},
.solaris, .illumos => enum(u32) {
VIRTUAL = 1,
THREAD_CPUTIME_ID = 2,
REALTIME = 3,
MONOTONIC = 4,
PROCESS_CPUTIME_ID = 5,
},
.netbsd => enum(u32) {
REALTIME = 0,
VIRTUAL = 1,
PROF = 2,
MONOTONIC = 3,
THREAD_CPUTIME_ID = 0x20000000,
PROCESS_CPUTIME_ID = 0x40000000,
},
.dragonfly => enum(u32) {
REALTIME = 0,
VIRTUAL = 1,
PROF = 2,
MONOTONIC = 4,
UPTIME = 5,
UPTIME_PRECISE = 7,
UPTIME_FAST = 8,
REALTIME_PRECISE = 9,
REALTIME_FAST = 10,
MONOTONIC_PRECISE = 11,
MONOTONIC_FAST = 12,
SECOND = 13,
THREAD_CPUTIME_ID = 14,
PROCESS_CPUTIME_ID = 15,
},
.openbsd => enum(u32) {
REALTIME = 0,
PROCESS_CPUTIME_ID = 2,
MONOTONIC = 3,
THREAD_CPUTIME_ID = 4,
},
else => void,
};
pub const CPU_COUNT = switch (native_os) {
.linux => linux.CPU_COUNT,
.emscripten => emscripten.CPU_COUNT,
else => void,
};
pub const E = switch (native_os) {
.linux => linux.E,
.emscripten => emscripten.E,
.wasi => wasi.errno_t,
.windows => enum(u16) {
/// No error occurred.
SUCCESS = 0,
PERM = 1,
NOENT = 2,
SRCH = 3,
INTR = 4,
IO = 5,
NXIO = 6,
@"2BIG" = 7,
NOEXEC = 8,
BADF = 9,
CHILD = 10,
AGAIN = 11,
NOMEM = 12,
ACCES = 13,
FAULT = 14,
BUSY = 16,
EXIST = 17,
XDEV = 18,
NODEV = 19,
NOTDIR = 20,
ISDIR = 21,
NFILE = 23,
MFILE = 24,
NOTTY = 25,
FBIG = 27,
NOSPC = 28,
SPIPE = 29,
ROFS = 30,
MLINK = 31,
PIPE = 32,
DOM = 33,
/// Also means `DEADLOCK`.
DEADLK = 36,
NAMETOOLONG = 38,
NOLCK = 39,
NOSYS = 40,
NOTEMPTY = 41,
INVAL = 22,
RANGE = 34,
ILSEQ = 42,
// POSIX Supplement
ADDRINUSE = 100,
ADDRNOTAVAIL = 101,
AFNOSUPPORT = 102,
ALREADY = 103,
BADMSG = 104,
CANCELED = 105,
CONNABORTED = 106,
CONNREFUSED = 107,
CONNRESET = 108,
DESTADDRREQ = 109,
HOSTUNREACH = 110,
IDRM = 111,
INPROGRESS = 112,
ISCONN = 113,
LOOP = 114,
MSGSIZE = 115,
NETDOWN = 116,
NETRESET = 117,
NETUNREACH = 118,
NOBUFS = 119,
NODATA = 120,
NOLINK = 121,
NOMSG = 122,
NOPROTOOPT = 123,
NOSR = 124,
NOSTR = 125,
NOTCONN = 126,
NOTRECOVERABLE = 127,
NOTSOCK = 128,
NOTSUP = 129,
OPNOTSUPP = 130,
OTHER = 131,
OVERFLOW = 132,
OWNERDEAD = 133,
PROTO = 134,
PROTONOSUPPORT = 135,
PROTOTYPE = 136,
TIME = 137,
TIMEDOUT = 138,
TXTBSY = 139,
WOULDBLOCK = 140,
DQUOT = 10069,
_,
},
.macos, .ios, .tvos, .watchos, .visionos => darwin.E,
.freebsd => freebsd.E,
.solaris, .illumos => enum(u16) {
/// No error occurred.
SUCCESS = 0,
/// Not super-user
PERM = 1,
/// No such file or directory
NOENT = 2,
/// No such process
SRCH = 3,
/// interrupted system call
INTR = 4,
/// I/O error
IO = 5,
/// No such device or address
NXIO = 6,
/// Arg list too long
@"2BIG" = 7,
/// Exec format error
NOEXEC = 8,
/// Bad file number
BADF = 9,
/// No children
CHILD = 10,
/// Resource temporarily unavailable.
/// also: WOULDBLOCK: Operation would block.
AGAIN = 11,
/// Not enough core
NOMEM = 12,
/// Permission denied
ACCES = 13,
/// Bad address
FAULT = 14,
/// Block device required
NOTBLK = 15,
/// Mount device busy
BUSY = 16,
/// File exists
EXIST = 17,
/// Cross-device link
XDEV = 18,
/// No such device
NODEV = 19,
/// Not a directory
NOTDIR = 20,
/// Is a directory
ISDIR = 21,
/// Invalid argument
INVAL = 22,
/// File table overflow
NFILE = 23,
/// Too many open files
MFILE = 24,
/// Inappropriate ioctl for device
NOTTY = 25,
/// Text file busy
TXTBSY = 26,
/// File too large
FBIG = 27,
/// No space left on device
NOSPC = 28,
/// Illegal seek
SPIPE = 29,
/// Read only file system
ROFS = 30,
/// Too many links
MLINK = 31,
/// Broken pipe
PIPE = 32,
/// Math arg out of domain of func
DOM = 33,
/// Math result not representable
RANGE = 34,
/// No message of desired type
NOMSG = 35,
/// Identifier removed
IDRM = 36,
/// Channel number out of range
CHRNG = 37,
/// Level 2 not synchronized
L2NSYNC = 38,
/// Level 3 halted
L3HLT = 39,
/// Level 3 reset
L3RST = 40,
/// Link number out of range
LNRNG = 41,
/// Protocol driver not attached
UNATCH = 42,
/// No CSI structure available
NOCSI = 43,
/// Level 2 halted
L2HLT = 44,
/// Deadlock condition.
DEADLK = 45,
/// No record locks available.
NOLCK = 46,
/// Operation canceled
CANCELED = 47,
/// Operation not supported
NOTSUP = 48,
// Filesystem Quotas
/// Disc quota exceeded
DQUOT = 49,
// Convergent Error Returns
/// invalid exchange
BADE = 50,
/// invalid request descriptor
BADR = 51,
/// exchange full
XFULL = 52,
/// no anode
NOANO = 53,
/// invalid request code
BADRQC = 54,
/// invalid slot
BADSLT = 55,
/// file locking deadlock error
DEADLOCK = 56,
/// bad font file fmt
BFONT = 57,
// Interprocess Robust Locks
/// process died with the lock
OWNERDEAD = 58,
/// lock is not recoverable
NOTRECOVERABLE = 59,
/// locked lock was unmapped
LOCKUNMAPPED = 72,
/// Facility is not active
NOTACTIVE = 73,
/// multihop attempted
MULTIHOP = 74,
/// trying to read unreadable message
BADMSG = 77,
/// path name is too long
NAMETOOLONG = 78,
/// value too large to be stored in data type
OVERFLOW = 79,
/// given log. name not unique
NOTUNIQ = 80,
/// f.d. invalid for this operation
BADFD = 81,
/// Remote address changed
REMCHG = 82,
// Stream Problems
/// Device not a stream
NOSTR = 60,
/// no data (for no delay io)
NODATA = 61,
/// timer expired
TIME = 62,
/// out of streams resources
NOSR = 63,
/// Machine is not on the network
NONET = 64,
/// Package not installed
NOPKG = 65,
/// The object is remote
REMOTE = 66,
/// the link has been severed
NOLINK = 67,
/// advertise error
ADV = 68,
/// srmount error
SRMNT = 69,
/// Communication error on send
COMM = 70,
/// Protocol error
PROTO = 71,
// Shared Library Problems
/// Can't access a needed shared lib.
LIBACC = 83,
/// Accessing a corrupted shared lib.
LIBBAD = 84,
/// .lib section in a.out corrupted.
LIBSCN = 85,
/// Attempting to link in too many libs.
LIBMAX = 86,
/// Attempting to exec a shared library.
LIBEXEC = 87,
/// Illegal byte sequence.
ILSEQ = 88,
/// Unsupported file system operation
NOSYS = 89,
/// Symbolic link loop
LOOP = 90,
/// Restartable system call
RESTART = 91,
/// if pipe/FIFO, don't sleep in stream head
STRPIPE = 92,
/// directory not empty
NOTEMPTY = 93,
/// Too many users (for UFS)
USERS = 94,
// BSD Networking Software
// Argument Errors
/// Socket operation on non-socket
NOTSOCK = 95,
/// Destination address required
DESTADDRREQ = 96,
/// Message too long
MSGSIZE = 97,
/// Protocol wrong type for socket
PROTOTYPE = 98,
/// Protocol not available
NOPROTOOPT = 99,
/// Protocol not supported
PROTONOSUPPORT = 120,
/// Socket type not supported
SOCKTNOSUPPORT = 121,
/// Operation not supported on socket
OPNOTSUPP = 122,
/// Protocol family not supported
PFNOSUPPORT = 123,
/// Address family not supported by
AFNOSUPPORT = 124,
/// Address already in use
ADDRINUSE = 125,
/// Can't assign requested address
ADDRNOTAVAIL = 126,
// Operational Errors
/// Network is down
NETDOWN = 127,
/// Network is unreachable
NETUNREACH = 128,
/// Network dropped connection because
NETRESET = 129,
/// Software caused connection abort
CONNABORTED = 130,
/// Connection reset by peer
CONNRESET = 131,
/// No buffer space available
NOBUFS = 132,
/// Socket is already connected
ISCONN = 133,
/// Socket is not connected
NOTCONN = 134,
/// Can't send after socket shutdown
SHUTDOWN = 143,
/// Too many references: can't splice
TOOMANYREFS = 144,
/// Connection timed out
TIMEDOUT = 145,
/// Connection refused
CONNREFUSED = 146,
/// Host is down
HOSTDOWN = 147,
/// No route to host
HOSTUNREACH = 148,
/// operation already in progress
ALREADY = 149,
/// operation now in progress
INPROGRESS = 150,
// SUN Network File System
/// Stale NFS file handle
STALE = 151,
_,
},
.netbsd => netbsd.E,
.dragonfly => dragonfly.E,
.haiku => haiku.E,
.openbsd => openbsd.E,
else => void,
};
pub const Elf_Symndx = switch (native_os) {
.linux => linux.Elf_Symndx,
else => void,
};
/// Command flags for fcntl(2).
pub const F = switch (native_os) {
.linux => linux.F,
.emscripten => emscripten.F,
.wasi => struct {
pub const GETFD = 1;
pub const SETFD = 2;
pub const GETFL = 3;
pub const SETFL = 4;
},
.macos, .ios, .tvos, .watchos, .visionos => struct {
/// duplicate file descriptor
pub const DUPFD = 0;
/// get file descriptor flags
pub const GETFD = 1;
/// set file descriptor flags
pub const SETFD = 2;
/// get file status flags
pub const GETFL = 3;
/// set file status flags
pub const SETFL = 4;
/// get SIGIO/SIGURG proc/pgrp
pub const GETOWN = 5;
/// set SIGIO/SIGURG proc/pgrp
pub const SETOWN = 6;
/// get record locking information
pub const GETLK = 7;
/// set record locking information
pub const SETLK = 8;
/// F.SETLK; wait if blocked
pub const SETLKW = 9;
/// F.SETLK; wait if blocked, return on timeout
pub const SETLKWTIMEOUT = 10;
pub const FLUSH_DATA = 40;
/// Used for regression test
pub const CHKCLEAN = 41;
/// Preallocate storage
pub const PREALLOCATE = 42;
/// Truncate a file without zeroing space
pub const SETSIZE = 43;
/// Issue an advisory read async with no copy to user
pub const RDADVISE = 44;
/// turn read ahead off/on for this fd
pub const RDAHEAD = 45;
/// turn data caching off/on for this fd
pub const NOCACHE = 48;
/// file offset to device offset
pub const LOG2PHYS = 49;
/// return the full path of the fd
pub const GETPATH = 50;
/// fsync + ask the drive to flush to the media
pub const FULLFSYNC = 51;
/// find which component (if any) is a package
pub const PATHPKG_CHECK = 52;
/// "freeze" all fs operations
pub const FREEZE_FS = 53;
/// "thaw" all fs operations
pub const THAW_FS = 54;
/// turn data caching off/on (globally) for this file
pub const GLOBAL_NOCACHE = 55;
/// add detached signatures
pub const ADDSIGS = 59;
/// add signature from same file (used by dyld for shared libs)
pub const ADDFILESIGS = 61;
/// used in conjunction with F.NOCACHE to indicate that DIRECT, synchronous writes
/// should not be used (i.e. its ok to temporarily create cached pages)
pub const NODIRECT = 62;
/// Get the protection class of a file from the EA, returns int
pub const GETPROTECTIONCLASS = 63;
/// Set the protection class of a file for the EA, requires int
pub const SETPROTECTIONCLASS = 64;
/// file offset to device offset, extended
pub const LOG2PHYS_EXT = 65;
/// get record locking information, per-process
pub const GETLKPID = 66;
/// Mark the file as being the backing store for another filesystem
pub const SETBACKINGSTORE = 70;
/// return the full path of the FD, but error in specific mtmd circumstances
pub const GETPATH_MTMINFO = 71;
/// Returns the code directory, with associated hashes, to the caller
pub const GETCODEDIR = 72;
/// No SIGPIPE generated on EPIPE
pub const SETNOSIGPIPE = 73;
/// Status of SIGPIPE for this fd
pub const GETNOSIGPIPE = 74;
/// For some cases, we need to rewrap the key for AKS/MKB
pub const TRANSCODEKEY = 75;
/// file being written to a by single writer... if throttling enabled, writes
/// may be broken into smaller chunks with throttling in between
pub const SINGLE_WRITER = 76;
/// Get the protection version number for this filesystem
pub const GETPROTECTIONLEVEL = 77;
/// Add detached code signatures (used by dyld for shared libs)
pub const FINDSIGS = 78;
/// Add signature from same file, only if it is signed by Apple (used by dyld for simulator)
pub const ADDFILESIGS_FOR_DYLD_SIM = 83;
/// fsync + issue barrier to drive
pub const BARRIERFSYNC = 85;
/// Add signature from same file, return end offset in structure on success
pub const ADDFILESIGS_RETURN = 97;
/// Check if Library Validation allows this Mach-O file to be mapped into the calling process
pub const CHECK_LV = 98;
/// Deallocate a range of the file
pub const PUNCHHOLE = 99;
/// Trim an active file
pub const TRIM_ACTIVE_FILE = 100;
/// mark the dup with FD_CLOEXEC
pub const DUPFD_CLOEXEC = 67;
/// shared or read lock
pub const RDLCK = 1;
/// unlock
pub const UNLCK = 2;
/// exclusive or write lock
pub const WRLCK = 3;
},
.freebsd => struct {
/// Duplicate file descriptor.
pub const DUPFD = 0;
/// Get file descriptor flags.
pub const GETFD = 1;
/// Set file descriptor flags.
pub const SETFD = 2;
/// Get file status flags.
pub const GETFL = 3;
/// Set file status flags.
pub const SETFL = 4;
/// Get SIGIO/SIGURG proc/pgrrp.
pub const GETOWN = 5;
/// Set SIGIO/SIGURG proc/pgrrp.
pub const SETOWN = 6;
/// Get record locking information.
pub const GETLK = 11;
/// Set record locking information.
pub const SETLK = 12;
/// Set record locking information and wait if blocked.
pub const SETLKW = 13;
/// Debugging support for remote locks.
pub const SETLK_REMOTE = 14;
/// Read ahead.
pub const READAHEAD = 15;
/// DUPFD with FD_CLOEXEC set.
pub const DUPFD_CLOEXEC = 17;
/// DUP2FD with FD_CLOEXEC set.
pub const DUP2FD_CLOEXEC = 18;
pub const ADD_SEALS = 19;
pub const GET_SEALS = 20;
/// Return `kinfo_file` for a file descriptor.
pub const KINFO = 22;
// Seals (ADD_SEALS, GET_SEALS)
/// Prevent adding sealings.
pub const SEAL_SEAL = 0x0001;
/// May not shrink
pub const SEAL_SHRINK = 0x0002;
/// May not grow.
pub const SEAL_GROW = 0x0004;
/// May not write.
pub const SEAL_WRITE = 0x0008;
// Record locking flags (GETLK, SETLK, SETLKW).
/// Shared or read lock.
pub const RDLCK = 1;
/// Unlock.
pub const UNLCK = 2;
/// Exclusive or write lock.
pub const WRLCK = 3;
/// Purge locks for a given system ID.
pub const UNLCKSYS = 4;
/// Cancel an async lock request.
pub const CANCEL = 5;
pub const SETOWN_EX = 15;
pub const GETOWN_EX = 16;
pub const GETOWNER_UIDS = 17;
},
.solaris, .illumos => struct {
/// Unlock a previously locked region
pub const ULOCK = 0;
/// Lock a region for exclusive use
pub const LOCK = 1;
/// Test and lock a region for exclusive use
pub const TLOCK = 2;
/// Test a region for other processes locks
pub const TEST = 3;
/// Duplicate fildes
pub const DUPFD = 0;
/// Get fildes flags
pub const GETFD = 1;
/// Set fildes flags
pub const SETFD = 2;
/// Get file flags
pub const GETFL = 3;
/// Get file flags including open-only flags
pub const GETXFL = 45;
/// Set file flags
pub const SETFL = 4;
/// Unused
pub const CHKFL = 8;
/// Duplicate fildes at third arg
pub const DUP2FD = 9;
/// Like DUP2FD with O_CLOEXEC set EINVAL is fildes matches arg1
pub const DUP2FD_CLOEXEC = 36;
/// Like DUPFD with O_CLOEXEC set
pub const DUPFD_CLOEXEC = 37;
/// Is the file desc. a stream ?
pub const ISSTREAM = 13;
/// Turn on private access to file
pub const PRIV = 15;
/// Turn off private access to file
pub const NPRIV = 16;
/// UFS quota call
pub const QUOTACTL = 17;
/// Get number of BLKSIZE blocks allocated
pub const BLOCKS = 18;
/// Get optimal I/O block size
pub const BLKSIZE = 19;
/// Get owner (socket emulation)
pub const GETOWN = 23;
/// Set owner (socket emulation)
pub const SETOWN = 24;
/// Object reuse revoke access to file desc.
pub const REVOKE = 25;
/// Does vp have NFS locks private to lock manager
pub const HASREMOTELOCKS = 26;
/// Set file lock
pub const SETLK = 6;
/// Set file lock and wait
pub const SETLKW = 7;
/// Allocate file space
pub const ALLOCSP = 10;
/// Free file space
pub const FREESP = 11;
/// Get file lock
pub const GETLK = 14;
/// Get file lock owned by file
pub const OFD_GETLK = 47;
/// Set file lock owned by file
pub const OFD_SETLK = 48;
/// Set file lock owned by file and wait
pub const OFD_SETLKW = 49;
/// Set a file share reservation
pub const SHARE = 40;
/// Remove a file share reservation
pub const UNSHARE = 41;
/// Create Poison FD
pub const BADFD = 46;
/// Read lock
pub const RDLCK = 1;
/// Write lock
pub const WRLCK = 2;
/// Remove lock(s)
pub const UNLCK = 3;
/// remove remote locks for a given system
pub const UNLKSYS = 4;
// f_access values
/// Read-only share access
pub const RDACC = 0x1;
/// Write-only share access
pub const WRACC = 0x2;
/// Read-Write share access
pub const RWACC = 0x3;
// f_deny values
/// Don't deny others access
pub const NODNY = 0x0;
/// Deny others read share access
pub const RDDNY = 0x1;
/// Deny others write share access
pub const WRDNY = 0x2;
/// Deny others read or write share access
pub const RWDNY = 0x3;
/// private flag: Deny delete share access
pub const RMDNY = 0x4;
},
.netbsd => struct {
pub const DUPFD = 0;
pub const GETFD = 1;
pub const SETFD = 2;
pub const GETFL = 3;
pub const SETFL = 4;
pub const GETOWN = 5;
pub const SETOWN = 6;
pub const GETLK = 7;
pub const SETLK = 8;
pub const SETLKW = 9;
pub const CLOSEM = 10;
pub const MAXFD = 11;
pub const DUPFD_CLOEXEC = 12;
pub const GETNOSIGPIPE = 13;
pub const SETNOSIGPIPE = 14;
pub const GETPATH = 15;
pub const RDLCK = 1;
pub const WRLCK = 3;
pub const UNLCK = 2;
},
.dragonfly => struct {
pub const ULOCK = 0;
pub const LOCK = 1;
pub const TLOCK = 2;
pub const TEST = 3;
pub const DUPFD = 0;
pub const GETFD = 1;
pub const RDLCK = 1;
pub const SETFD = 2;
pub const UNLCK = 2;
pub const WRLCK = 3;
pub const GETFL = 3;
pub const SETFL = 4;
pub const GETOWN = 5;
pub const SETOWN = 6;
pub const GETLK = 7;
pub const SETLK = 8;
pub const SETLKW = 9;
pub const DUP2FD = 10;
pub const DUPFD_CLOEXEC = 17;
pub const DUP2FD_CLOEXEC = 18;
pub const GETPATH = 19;
},
.haiku => struct {
pub const DUPFD = 0x0001;
pub const GETFD = 0x0002;
pub const SETFD = 0x0004;
pub const GETFL = 0x0008;
pub const SETFL = 0x0010;
pub const GETLK = 0x0020;
pub const SETLK = 0x0080;
pub const SETLKW = 0x0100;
pub const DUPFD_CLOEXEC = 0x0200;
pub const RDLCK = 0x0040;
pub const UNLCK = 0x0200;
pub const WRLCK = 0x0400;
},
.openbsd => struct {
pub const DUPFD = 0;
pub const GETFD = 1;
pub const SETFD = 2;
pub const GETFL = 3;
pub const SETFL = 4;
pub const GETOWN = 5;
pub const SETOWN = 6;
pub const GETLK = 7;
pub const SETLK = 8;
pub const SETLKW = 9;
pub const RDLCK = 1;
pub const UNLCK = 2;
pub const WRLCK = 3;
},
else => void,
};
pub const FD_CLOEXEC = switch (native_os) {
.linux => linux.FD_CLOEXEC,
.emscripten => emscripten.FD_CLOEXEC,
else => 1,
};
/// Test for existence of file.
pub const F_OK = switch (native_os) {
.linux => linux.F_OK,
.emscripten => emscripten.F_OK,
else => 0,
};
/// Test for execute or search permission.
pub const X_OK = switch (native_os) {
.linux => linux.X_OK,
.emscripten => emscripten.X_OK,
else => 1,
};
/// Test for write permission.
pub const W_OK = switch (native_os) {
.linux => linux.W_OK,
.emscripten => emscripten.W_OK,
else => 2,
};
/// Test for read permission.
pub const R_OK = switch (native_os) {
.linux => linux.R_OK,
.emscripten => emscripten.R_OK,
else => 4,
};
pub const Flock = switch (native_os) {
.linux => linux.Flock,
.emscripten => emscripten.Flock,
.openbsd, .dragonfly, .netbsd, .macos, .ios, .tvos, .watchos, .visionos => extern struct {
start: off_t,
len: off_t,
pid: pid_t,
type: i16,
whence: i16,
},
.freebsd => extern struct {
/// Starting offset.
start: off_t,
/// Number of consecutive bytes to be locked.
/// A value of 0 means to the end of the file.
len: off_t,
/// Lock owner.
pid: pid_t,
/// Lock type.
type: i16,
/// Type of the start member.
whence: i16,
/// Remote system id or zero for local.
sysid: i32,
},
.solaris, .illumos => extern struct {
type: c_short,
whence: c_short,
start: off_t,
// len == 0 means until end of file.
len: off_t,
sysid: c_int,
pid: pid_t,
__pad: [4]c_long,
},
.haiku => extern struct {
type: i16,
whence: i16,
start: off_t,
len: off_t,
pid: pid_t,
},
else => void,
};
pub const HOST_NAME_MAX = switch (native_os) {
.linux => linux.HOST_NAME_MAX,
.macos, .ios, .tvos, .watchos, .visionos => 72,
.openbsd, .haiku, .dragonfly, .netbsd, .solaris, .illumos, .freebsd => 255,
else => {},
};
pub const IOV_MAX = switch (native_os) {
.linux => linux.IOV_MAX,
.emscripten => emscripten.IOV_MAX,
.openbsd, .haiku, .solaris, .illumos, .wasi => 1024,
.macos, .ios, .tvos, .watchos, .visionos => 16,
.dragonfly, .netbsd, .freebsd => KERN.IOV_MAX,
else => {},
};
pub const CTL = switch (native_os) {
.freebsd => struct {
pub const KERN = 1;
pub const DEBUG = 5;
},
.netbsd => struct {
pub const KERN = 1;
pub const DEBUG = 5;
},
.dragonfly => struct {
pub const UNSPEC = 0;
pub const KERN = 1;
pub const VM = 2;
pub const VFS = 3;
pub const NET = 4;
pub const DEBUG = 5;
pub const HW = 6;
pub const MACHDEP = 7;
pub const USER = 8;
pub const LWKT = 10;
pub const MAXID = 11;
pub const MAXNAME = 12;
},
.openbsd => struct {
pub const UNSPEC = 0;
pub const KERN = 1;
pub const VM = 2;
pub const FS = 3;
pub const NET = 4;
pub const DEBUG = 5;
pub const HW = 6;
pub const MACHDEP = 7;
pub const DDB = 9;
pub const VFS = 10;
},
else => void,
};
pub const KERN = switch (native_os) {
.freebsd => struct {
/// struct: process entries
pub const PROC = 14;
/// path to executable
pub const PROC_PATHNAME = 12;
/// file descriptors for process
pub const PROC_FILEDESC = 33;
pub const IOV_MAX = 35;
},
.netbsd => struct {
/// struct: process argv/env
pub const PROC_ARGS = 48;
/// path to executable
pub const PROC_PATHNAME = 5;
pub const IOV_MAX = 38;
},
.dragonfly => struct {
pub const PROC_ALL = 0;
pub const OSTYPE = 1;
pub const PROC_PID = 1;
pub const OSRELEASE = 2;
pub const PROC_PGRP = 2;
pub const OSREV = 3;
pub const PROC_SESSION = 3;
pub const VERSION = 4;
pub const PROC_TTY = 4;
pub const MAXVNODES = 5;
pub const PROC_UID = 5;
pub const MAXPROC = 6;
pub const PROC_RUID = 6;
pub const MAXFILES = 7;
pub const PROC_ARGS = 7;
pub const ARGMAX = 8;
pub const PROC_CWD = 8;
pub const PROC_PATHNAME = 9;
pub const SECURELVL = 9;
pub const PROC_SIGTRAMP = 10;
pub const HOSTNAME = 10;
pub const HOSTID = 11;
pub const CLOCKRATE = 12;
pub const VNODE = 13;
pub const PROC = 14;
pub const FILE = 15;
pub const PROC_FLAGMASK = 16;
pub const PROF = 16;
pub const PROC_FLAG_LWP = 16;
pub const POSIX1 = 17;
pub const NGROUPS = 18;
pub const JOB_CONTROL = 19;
pub const SAVED_IDS = 20;
pub const BOOTTIME = 21;
pub const NISDOMAINNAME = 22;
pub const UPDATEINTERVAL = 23;
pub const OSRELDATE = 24;
pub const NTP_PLL = 25;
pub const BOOTFILE = 26;
pub const MAXFILESPERPROC = 27;
pub const MAXPROCPERUID = 28;
pub const DUMPDEV = 29;
pub const IPC = 30;
pub const DUMMY = 31;
pub const PS_STRINGS = 32;
pub const USRSTACK = 33;
pub const LOGSIGEXIT = 34;
pub const IOV_MAX = 35;
pub const MAXPOSIXLOCKSPERUID = 36;
pub const MAXID = 37;
},
.openbsd => struct {
pub const OSTYPE = 1;
pub const OSRELEASE = 2;
pub const OSREV = 3;
pub const VERSION = 4;
pub const MAXVNODES = 5;
pub const MAXPROC = 6;
pub const MAXFILES = 7;
pub const ARGMAX = 8;
pub const SECURELVL = 9;
pub const HOSTNAME = 10;
pub const HOSTID = 11;
pub const CLOCKRATE = 12;
pub const PROF = 16;
pub const POSIX1 = 17;
pub const NGROUPS = 18;
pub const JOB_CONTROL = 19;
pub const SAVED_IDS = 20;
pub const BOOTTIME = 21;
pub const DOMAINNAME = 22;
pub const MAXPARTITIONS = 23;
pub const RAWPARTITION = 24;
pub const MAXTHREAD = 25;
pub const NTHREADS = 26;
pub const OSVERSION = 27;
pub const SOMAXCONN = 28;
pub const SOMINCONN = 29;
pub const NOSUIDCOREDUMP = 32;
pub const FSYNC = 33;
pub const SYSVMSG = 34;
pub const SYSVSEM = 35;
pub const SYSVSHM = 36;
pub const MSGBUFSIZE = 38;
pub const MALLOCSTATS = 39;
pub const CPTIME = 40;
pub const NCHSTATS = 41;
pub const FORKSTAT = 42;
pub const NSELCOLL = 43;
pub const TTY = 44;
pub const CCPU = 45;
pub const FSCALE = 46;
pub const NPROCS = 47;
pub const MSGBUF = 48;
pub const POOL = 49;
pub const STACKGAPRANDOM = 50;
pub const SYSVIPC_INFO = 51;
pub const ALLOWKMEM = 52;
pub const WITNESSWATCH = 53;
pub const SPLASSERT = 54;
pub const PROC_ARGS = 55;
pub const NFILES = 56;
pub const TTYCOUNT = 57;
pub const NUMVNODES = 58;
pub const MBSTAT = 59;
pub const WITNESS = 60;
pub const SEMINFO = 61;
pub const SHMINFO = 62;
pub const INTRCNT = 63;
pub const WATCHDOG = 64;
pub const ALLOWDT = 65;
pub const PROC = 66;
pub const MAXCLUSTERS = 67;
pub const EVCOUNT = 68;
pub const TIMECOUNTER = 69;
pub const MAXLOCKSPERUID = 70;
pub const CPTIME2 = 71;
pub const CACHEPCT = 72;
pub const FILE = 73;
pub const WXABORT = 74;
pub const CONSDEV = 75;
pub const NETLIVELOCKS = 76;
pub const POOL_DEBUG = 77;
pub const PROC_CWD = 78;
pub const PROC_NOBROADCASTKILL = 79;
pub const PROC_VMMAP = 80;
pub const GLOBAL_PTRACE = 81;
pub const CONSBUFSIZE = 82;
pub const CONSBUF = 83;
pub const AUDIO = 84;
pub const CPUSTATS = 85;
pub const PFSTATUS = 86;
pub const TIMEOUT_STATS = 87;
pub const UTC_OFFSET = 88;
pub const VIDEO = 89;
pub const PROC_ALL = 0;
pub const PROC_PID = 1;
pub const PROC_PGRP = 2;
pub const PROC_SESSION = 3;
pub const PROC_TTY = 4;
pub const PROC_UID = 5;
pub const PROC_RUID = 6;
pub const PROC_KTHREAD = 7;
pub const PROC_SHOW_THREADS = 0x40000000;
pub const PROC_ARGV = 1;
pub const PROC_NARGV = 2;
pub const PROC_ENV = 3;
pub const PROC_NENV = 4;
},
else => void,
};
pub const MADV = switch (native_os) {
.linux => linux.MADV,
.emscripten => emscripten.MADV,
.freebsd => struct {
pub const NORMAL = 0;
pub const RANDOM = 1;
pub const SEQUENTIAL = 2;
pub const WILLNEED = 3;
pub const DONTNEED = 4;
pub const FREE = 5;
pub const NOSYNC = 6;
pub const AUTOSYNC = 7;
pub const NOCORE = 8;
pub const CORE = 9;
pub const PROTECT = 10;
},
.solaris, .illumos => struct {
/// no further special treatment
pub const NORMAL = 0;
/// expect random page references
pub const RANDOM = 1;
/// expect sequential page references
pub const SEQUENTIAL = 2;
/// will need these pages
pub const WILLNEED = 3;
/// don't need these pages
pub const DONTNEED = 4;
/// contents can be freed
pub const FREE = 5;
/// default access
pub const ACCESS_DEFAULT = 6;
/// next LWP to access heavily
pub const ACCESS_LWP = 7;
/// many processes to access heavily
pub const ACCESS_MANY = 8;
/// contents will be purged
pub const PURGE = 9;
},
.dragonfly => struct {
pub const SEQUENTIAL = 2;
pub const CONTROL_END = SETMAP;
pub const DONTNEED = 4;
pub const RANDOM = 1;
pub const WILLNEED = 3;
pub const NORMAL = 0;
pub const CONTROL_START = INVAL;
pub const FREE = 5;
pub const NOSYNC = 6;
pub const AUTOSYNC = 7;
pub const NOCORE = 8;
pub const CORE = 9;
pub const INVAL = 10;
pub const SETMAP = 11;
},
else => void,
};
pub const MSF = switch (native_os) {
.linux => linux.MSF,
.emscripten => emscripten.MSF,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const ASYNC = 0x1;
pub const INVALIDATE = 0x2;
/// invalidate, leave mapped
pub const KILLPAGES = 0x4;
/// deactivate, leave mapped
pub const DEACTIVATE = 0x8;
pub const SYNC = 0x10;
},
.openbsd, .haiku, .dragonfly, .netbsd, .solaris, .illumos, .freebsd => struct {
pub const ASYNC = 1;
pub const INVALIDATE = 2;
pub const SYNC = 4;
},
else => void,
};
pub const MMAP2_UNIT = switch (native_os) {
.linux => linux.MMAP2_UNIT,
else => void,
};
pub const NAME_MAX = switch (native_os) {
.linux => linux.NAME_MAX,
.emscripten => emscripten.NAME_MAX,
// Haiku's headers make this 256, to contain room for the terminating null
// character, but POSIX definition says that NAME_MAX does not include the
// terminating null.
.haiku, .openbsd, .dragonfly, .netbsd, .solaris, .illumos, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => 255,
else => {},
};
pub const PATH_MAX = switch (native_os) {
.linux => linux.PATH_MAX,
.emscripten => emscripten.PATH_MAX,
.wasi => 4096,
.windows => 260,
.openbsd, .haiku, .dragonfly, .netbsd, .solaris, .illumos, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => 1024,
else => {},
};
pub const POLL = switch (native_os) {
.linux => linux.POLL,
.emscripten => emscripten.POLL,
.wasi => struct {
pub const RDNORM = 0x1;
pub const WRNORM = 0x2;
pub const IN = RDNORM;
pub const OUT = WRNORM;
pub const ERR = 0x1000;
pub const HUP = 0x2000;
pub const NVAL = 0x4000;
},
.windows => ws2_32.POLL,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const IN = 0x001;
pub const PRI = 0x002;
pub const OUT = 0x004;
pub const RDNORM = 0x040;
pub const WRNORM = OUT;
pub const RDBAND = 0x080;
pub const WRBAND = 0x100;
pub const EXTEND = 0x0200;
pub const ATTRIB = 0x0400;
pub const NLINK = 0x0800;
pub const WRITE = 0x1000;
pub const ERR = 0x008;
pub const HUP = 0x010;
pub const NVAL = 0x020;
pub const STANDARD = IN | PRI | OUT | RDNORM | RDBAND | WRBAND | ERR | HUP | NVAL;
},
.freebsd => struct {
/// any readable data available.
pub const IN = 0x0001;
/// OOB/Urgent readable data.
pub const PRI = 0x0002;
/// file descriptor is writeable.
pub const OUT = 0x0004;
/// non-OOB/URG data available.
pub const RDNORM = 0x0040;
/// no write type differentiation.
pub const WRNORM = OUT;
/// OOB/Urgent readable data.
pub const RDBAND = 0x0080;
/// OOB/Urgent data can be written.
pub const WRBAND = 0x0100;
/// like IN, except ignore EOF.
pub const INIGNEOF = 0x2000;
/// some poll error occurred.
pub const ERR = 0x0008;
/// file descriptor was "hung up".
pub const HUP = 0x0010;
/// requested events "invalid".
pub const NVAL = 0x0020;
pub const STANDARD = IN | PRI | OUT | RDNORM | RDBAND | WRBAND | ERR | HUP | NVAL;
},
.solaris, .illumos => struct {
pub const IN = 0x0001;
pub const PRI = 0x0002;
pub const OUT = 0x0004;
pub const RDNORM = 0x0040;
pub const WRNORM = .OUT;
pub const RDBAND = 0x0080;
pub const WRBAND = 0x0100;
/// Read-side hangup.
pub const RDHUP = 0x4000;
/// Non-testable events (may not be specified in events).
pub const ERR = 0x0008;
pub const HUP = 0x0010;
pub const NVAL = 0x0020;
/// Events to control `/dev/poll` (not specified in revents)
pub const REMOVE = 0x0800;
pub const ONESHOT = 0x1000;
pub const ET = 0x2000;
},
.dragonfly, .netbsd => struct {
/// Testable events (may be specified in events field).
pub const IN = 0x0001;
pub const PRI = 0x0002;
pub const OUT = 0x0004;
pub const RDNORM = 0x0040;
pub const WRNORM = OUT;
pub const RDBAND = 0x0080;
pub const WRBAND = 0x0100;
/// Non-testable events (may not be specified in events field).
pub const ERR = 0x0008;
pub const HUP = 0x0010;
pub const NVAL = 0x0020;
},
.haiku => struct {
/// any readable data available
pub const IN = 0x0001;
/// file descriptor is writeable
pub const OUT = 0x0002;
pub const RDNORM = IN;
pub const WRNORM = OUT;
/// priority readable data
pub const RDBAND = 0x0008;
/// priority data can be written
pub const WRBAND = 0x0010;
/// high priority readable data
pub const PRI = 0x0020;
/// errors pending
pub const ERR = 0x0004;
/// disconnected
pub const HUP = 0x0080;
/// invalid file descriptor
pub const NVAL = 0x1000;
},
.openbsd => struct {
pub const IN = 0x0001;
pub const PRI = 0x0002;
pub const OUT = 0x0004;
pub const ERR = 0x0008;
pub const HUP = 0x0010;
pub const NVAL = 0x0020;
pub const RDNORM = 0x0040;
pub const NORM = RDNORM;
pub const WRNORM = OUT;
pub const RDBAND = 0x0080;
pub const WRBAND = 0x0100;
},
else => void,
};
/// Basic memory protection flags
pub const PROT = switch (native_os) {
.linux => linux.PROT,
.emscripten => emscripten.PROT,
.openbsd, .haiku, .dragonfly, .netbsd, .solaris, .illumos, .freebsd, .windows => struct {
/// page can not be accessed
pub const NONE = 0x0;
/// page can be read
pub const READ = 0x1;
/// page can be written
pub const WRITE = 0x2;
/// page can be executed
pub const EXEC = 0x4;
},
.macos, .ios, .tvos, .watchos, .visionos => struct {
/// [MC2] no permissions
pub const NONE: vm_prot_t = 0x00;
/// [MC2] pages can be read
pub const READ: vm_prot_t = 0x01;
/// [MC2] pages can be written
pub const WRITE: vm_prot_t = 0x02;
/// [MC2] pages can be executed
pub const EXEC: vm_prot_t = 0x04;
/// When a caller finds that they cannot obtain write permission on a
/// mapped entry, the following flag can be used. The entry will be
/// made "needs copy" effectively copying the object (using COW),
/// and write permission will be added to the maximum protections for
/// the associated entry.
pub const COPY: vm_prot_t = 0x10;
},
else => void,
};
pub const REG = switch (native_os) {
.linux => linux.REG,
.emscripten => emscripten.REG,
.freebsd => switch (builtin.cpu.arch) {
.aarch64 => struct {
pub const FP = 29;
pub const SP = 31;
pub const PC = 32;
},
.arm => struct {
pub const FP = 11;
pub const SP = 13;
pub const PC = 15;
},
.x86_64 => struct {
pub const RBP = 12;
pub const RIP = 21;
pub const RSP = 24;
},
else => struct {},
},
.solaris, .illumos => struct {
pub const R15 = 0;
pub const R14 = 1;
pub const R13 = 2;
pub const R12 = 3;
pub const R11 = 4;
pub const R10 = 5;
pub const R9 = 6;
pub const R8 = 7;
pub const RDI = 8;
pub const RSI = 9;
pub const RBP = 10;
pub const RBX = 11;
pub const RDX = 12;
pub const RCX = 13;
pub const RAX = 14;
pub const RIP = 17;
pub const RSP = 20;
},
.netbsd => switch (builtin.cpu.arch) {
.aarch64 => struct {
pub const FP = 29;
pub const SP = 31;
pub const PC = 32;
},
.arm => struct {
pub const FP = 11;
pub const SP = 13;
pub const PC = 15;
},
.x86_64 => struct {
pub const RDI = 0;
pub const RSI = 1;
pub const RDX = 2;
pub const RCX = 3;
pub const R8 = 4;
pub const R9 = 5;
pub const R10 = 6;
pub const R11 = 7;
pub const R12 = 8;
pub const R13 = 9;
pub const R14 = 10;
pub const R15 = 11;
pub const RBP = 12;
pub const RBX = 13;
pub const RAX = 14;
pub const GS = 15;
pub const FS = 16;
pub const ES = 17;
pub const DS = 18;
pub const TRAPNO = 19;
pub const ERR = 20;
pub const RIP = 21;
pub const CS = 22;
pub const RFLAGS = 23;
pub const RSP = 24;
pub const SS = 25;
},
else => struct {},
},
else => struct {},
};
pub const RLIM = switch (native_os) {
.linux => linux.RLIM,
.emscripten => emscripten.RLIM,
.openbsd, .haiku, .dragonfly, .netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => struct {
/// No limit
pub const INFINITY: rlim_t = (1 << 63) - 1;
pub const SAVED_MAX = INFINITY;
pub const SAVED_CUR = INFINITY;
},
.solaris, .illumos => struct {
/// No limit
pub const INFINITY: rlim_t = (1 << 63) - 3;
pub const SAVED_MAX: rlim_t = (1 << 63) - 2;
pub const SAVED_CUR: rlim_t = (1 << 63) - 1;
},
else => void,
};
pub const S = switch (native_os) {
.linux => linux.S,
.emscripten => emscripten.S,
.wasi => struct {
pub const IEXEC = @compileError("TODO audit this");
pub const IFBLK = 0x6000;
pub const IFCHR = 0x2000;
pub const IFDIR = 0x4000;
pub const IFIFO = 0xc000;
pub const IFLNK = 0xa000;
pub const IFMT = IFBLK | IFCHR | IFDIR | IFIFO | IFLNK | IFREG | IFSOCK;
pub const IFREG = 0x8000;
/// There's no concept of UNIX domain socket but we define this value here
/// in order to line with other OSes.
pub const IFSOCK = 0x1;
},
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const IFMT = 0o170000;
pub const IFIFO = 0o010000;
pub const IFCHR = 0o020000;
pub const IFDIR = 0o040000;
pub const IFBLK = 0o060000;
pub const IFREG = 0o100000;
pub const IFLNK = 0o120000;
pub const IFSOCK = 0o140000;
pub const IFWHT = 0o160000;
pub const ISUID = 0o4000;
pub const ISGID = 0o2000;
pub const ISVTX = 0o1000;
pub const IRWXU = 0o700;
pub const IRUSR = 0o400;
pub const IWUSR = 0o200;
pub const IXUSR = 0o100;
pub const IRWXG = 0o070;
pub const IRGRP = 0o040;
pub const IWGRP = 0o020;
pub const IXGRP = 0o010;
pub const IRWXO = 0o007;
pub const IROTH = 0o004;
pub const IWOTH = 0o002;
pub const IXOTH = 0o001;
pub fn ISFIFO(m: u32) bool {
return m & IFMT == IFIFO;
}
pub fn ISCHR(m: u32) bool {
return m & IFMT == IFCHR;
}
pub fn ISDIR(m: u32) bool {
return m & IFMT == IFDIR;
}
pub fn ISBLK(m: u32) bool {
return m & IFMT == IFBLK;
}
pub fn ISREG(m: u32) bool {
return m & IFMT == IFREG;
}
pub fn ISLNK(m: u32) bool {
return m & IFMT == IFLNK;
}
pub fn ISSOCK(m: u32) bool {
return m & IFMT == IFSOCK;
}
pub fn IWHT(m: u32) bool {
return m & IFMT == IFWHT;
}
},
.freebsd => struct {
pub const IFMT = 0o170000;
pub const IFIFO = 0o010000;
pub const IFCHR = 0o020000;
pub const IFDIR = 0o040000;
pub const IFBLK = 0o060000;
pub const IFREG = 0o100000;
pub const IFLNK = 0o120000;
pub const IFSOCK = 0o140000;
pub const IFWHT = 0o160000;
pub const ISUID = 0o4000;
pub const ISGID = 0o2000;
pub const ISVTX = 0o1000;
pub const IRWXU = 0o700;
pub const IRUSR = 0o400;
pub const IWUSR = 0o200;
pub const IXUSR = 0o100;
pub const IRWXG = 0o070;
pub const IRGRP = 0o040;
pub const IWGRP = 0o020;
pub const IXGRP = 0o010;
pub const IRWXO = 0o007;
pub const IROTH = 0o004;
pub const IWOTH = 0o002;
pub const IXOTH = 0o001;
pub fn ISFIFO(m: u32) bool {
return m & IFMT == IFIFO;
}
pub fn ISCHR(m: u32) bool {
return m & IFMT == IFCHR;
}
pub fn ISDIR(m: u32) bool {
return m & IFMT == IFDIR;
}
pub fn ISBLK(m: u32) bool {
return m & IFMT == IFBLK;
}
pub fn ISREG(m: u32) bool {
return m & IFMT == IFREG;
}
pub fn ISLNK(m: u32) bool {
return m & IFMT == IFLNK;
}
pub fn ISSOCK(m: u32) bool {
return m & IFMT == IFSOCK;
}
pub fn IWHT(m: u32) bool {
return m & IFMT == IFWHT;
}
},
.solaris, .illumos => struct {
pub const IFMT = 0o170000;
pub const IFIFO = 0o010000;
pub const IFCHR = 0o020000;
pub const IFDIR = 0o040000;
pub const IFBLK = 0o060000;
pub const IFREG = 0o100000;
pub const IFLNK = 0o120000;
pub const IFSOCK = 0o140000;
/// SunOS 2.6 Door
pub const IFDOOR = 0o150000;
/// Solaris 10 Event Port
pub const IFPORT = 0o160000;
pub const ISUID = 0o4000;
pub const ISGID = 0o2000;
pub const ISVTX = 0o1000;
pub const IRWXU = 0o700;
pub const IRUSR = 0o400;
pub const IWUSR = 0o200;
pub const IXUSR = 0o100;
pub const IRWXG = 0o070;
pub const IRGRP = 0o040;
pub const IWGRP = 0o020;
pub const IXGRP = 0o010;
pub const IRWXO = 0o007;
pub const IROTH = 0o004;
pub const IWOTH = 0o002;
pub const IXOTH = 0o001;
pub fn ISFIFO(m: u32) bool {
return m & IFMT == IFIFO;
}
pub fn ISCHR(m: u32) bool {
return m & IFMT == IFCHR;
}
pub fn ISDIR(m: u32) bool {
return m & IFMT == IFDIR;
}
pub fn ISBLK(m: u32) bool {
return m & IFMT == IFBLK;
}
pub fn ISREG(m: u32) bool {
return m & IFMT == IFREG;
}
pub fn ISLNK(m: u32) bool {
return m & IFMT == IFLNK;
}
pub fn ISSOCK(m: u32) bool {
return m & IFMT == IFSOCK;
}
pub fn ISDOOR(m: u32) bool {
return m & IFMT == IFDOOR;
}
pub fn ISPORT(m: u32) bool {
return m & IFMT == IFPORT;
}
},
.netbsd => struct {
pub const IFMT = 0o170000;
pub const IFIFO = 0o010000;
pub const IFCHR = 0o020000;
pub const IFDIR = 0o040000;
pub const IFBLK = 0o060000;
pub const IFREG = 0o100000;
pub const IFLNK = 0o120000;
pub const IFSOCK = 0o140000;
pub const IFWHT = 0o160000;
pub const ISUID = 0o4000;
pub const ISGID = 0o2000;
pub const ISVTX = 0o1000;
pub const IRWXU = 0o700;
pub const IRUSR = 0o400;
pub const IWUSR = 0o200;
pub const IXUSR = 0o100;
pub const IRWXG = 0o070;
pub const IRGRP = 0o040;
pub const IWGRP = 0o020;
pub const IXGRP = 0o010;
pub const IRWXO = 0o007;
pub const IROTH = 0o004;
pub const IWOTH = 0o002;
pub const IXOTH = 0o001;
pub fn ISFIFO(m: u32) bool {
return m & IFMT == IFIFO;
}
pub fn ISCHR(m: u32) bool {
return m & IFMT == IFCHR;
}
pub fn ISDIR(m: u32) bool {
return m & IFMT == IFDIR;
}
pub fn ISBLK(m: u32) bool {
return m & IFMT == IFBLK;
}
pub fn ISREG(m: u32) bool {
return m & IFMT == IFREG;
}
pub fn ISLNK(m: u32) bool {
return m & IFMT == IFLNK;
}
pub fn ISSOCK(m: u32) bool {
return m & IFMT == IFSOCK;
}
pub fn IWHT(m: u32) bool {
return m & IFMT == IFWHT;
}
},
.dragonfly => struct {
pub const IREAD = IRUSR;
pub const IEXEC = IXUSR;
pub const IWRITE = IWUSR;
pub const IXOTH = 1;
pub const IWOTH = 2;
pub const IROTH = 4;
pub const IRWXO = 7;
pub const IXGRP = 8;
pub const IWGRP = 16;
pub const IRGRP = 32;
pub const IRWXG = 56;
pub const IXUSR = 64;
pub const IWUSR = 128;
pub const IRUSR = 256;
pub const IRWXU = 448;
pub const ISTXT = 512;
pub const BLKSIZE = 512;
pub const ISVTX = 512;
pub const ISGID = 1024;
pub const ISUID = 2048;
pub const IFIFO = 4096;
pub const IFCHR = 8192;
pub const IFDIR = 16384;
pub const IFBLK = 24576;
pub const IFREG = 32768;
pub const IFDB = 36864;
pub const IFLNK = 40960;
pub const IFSOCK = 49152;
pub const IFWHT = 57344;
pub const IFMT = 61440;
pub fn ISCHR(m: u32) bool {
return m & IFMT == IFCHR;
}
},
.haiku => struct {
pub const IFMT = 0o170000;
pub const IFSOCK = 0o140000;
pub const IFLNK = 0o120000;
pub const IFREG = 0o100000;
pub const IFBLK = 0o060000;
pub const IFDIR = 0o040000;
pub const IFCHR = 0o020000;
pub const IFIFO = 0o010000;
pub const INDEX_DIR = 0o4000000000;
pub const IUMSK = 0o7777;
pub const ISUID = 0o4000;
pub const ISGID = 0o2000;
pub const ISVTX = 0o1000;
pub const IRWXU = 0o700;
pub const IRUSR = 0o400;
pub const IWUSR = 0o200;
pub const IXUSR = 0o100;
pub const IRWXG = 0o070;
pub const IRGRP = 0o040;
pub const IWGRP = 0o020;
pub const IXGRP = 0o010;
pub const IRWXO = 0o007;
pub const IROTH = 0o004;
pub const IWOTH = 0o002;
pub const IXOTH = 0o001;
pub fn ISREG(m: u32) bool {
return m & IFMT == IFREG;
}
pub fn ISLNK(m: u32) bool {
return m & IFMT == IFLNK;
}
pub fn ISBLK(m: u32) bool {
return m & IFMT == IFBLK;
}
pub fn ISDIR(m: u32) bool {
return m & IFMT == IFDIR;
}
pub fn ISCHR(m: u32) bool {
return m & IFMT == IFCHR;
}
pub fn ISFIFO(m: u32) bool {
return m & IFMT == IFIFO;
}
pub fn ISSOCK(m: u32) bool {
return m & IFMT == IFSOCK;
}
pub fn ISINDEX(m: u32) bool {
return m & INDEX_DIR == INDEX_DIR;
}
},
.openbsd => struct {
pub const IFMT = 0o170000;
pub const IFIFO = 0o010000;
pub const IFCHR = 0o020000;
pub const IFDIR = 0o040000;
pub const IFBLK = 0o060000;
pub const IFREG = 0o100000;
pub const IFLNK = 0o120000;
pub const IFSOCK = 0o140000;
pub const ISUID = 0o4000;
pub const ISGID = 0o2000;
pub const ISVTX = 0o1000;
pub const IRWXU = 0o700;
pub const IRUSR = 0o400;
pub const IWUSR = 0o200;
pub const IXUSR = 0o100;
pub const IRWXG = 0o070;
pub const IRGRP = 0o040;
pub const IWGRP = 0o020;
pub const IXGRP = 0o010;
pub const IRWXO = 0o007;
pub const IROTH = 0o004;
pub const IWOTH = 0o002;
pub const IXOTH = 0o001;
pub fn ISFIFO(m: u32) bool {
return m & IFMT == IFIFO;
}
pub fn ISCHR(m: u32) bool {
return m & IFMT == IFCHR;
}
pub fn ISDIR(m: u32) bool {
return m & IFMT == IFDIR;
}
pub fn ISBLK(m: u32) bool {
return m & IFMT == IFBLK;
}
pub fn ISREG(m: u32) bool {
return m & IFMT == IFREG;
}
pub fn ISLNK(m: u32) bool {
return m & IFMT == IFLNK;
}
pub fn ISSOCK(m: u32) bool {
return m & IFMT == IFSOCK;
}
},
else => void,
};
pub const SA = switch (native_os) {
.linux => linux.SA,
.emscripten => emscripten.SA,
.macos, .ios, .tvos, .watchos, .visionos => struct {
/// take signal on signal stack
pub const ONSTACK = 0x0001;
/// restart system on signal return
pub const RESTART = 0x0002;
/// reset to SIG.DFL when taking signal
pub const RESETHAND = 0x0004;
/// do not generate SIG.CHLD on child stop
pub const NOCLDSTOP = 0x0008;
/// don't mask the signal we're delivering
pub const NODEFER = 0x0010;
/// don't keep zombies around
pub const NOCLDWAIT = 0x0020;
/// signal handler with SIGINFO args
pub const SIGINFO = 0x0040;
/// do not bounce off kernel's sigtramp
pub const USERTRAMP = 0x0100;
/// signal handler with SIGINFO args with 64bit regs information
pub const @"64REGSET" = 0x0200;
},
.freebsd => struct {
pub const ONSTACK = 0x0001;
pub const RESTART = 0x0002;
pub const RESETHAND = 0x0004;
pub const NOCLDSTOP = 0x0008;
pub const NODEFER = 0x0010;
pub const NOCLDWAIT = 0x0020;
pub const SIGINFO = 0x0040;
},
.solaris, .illumos => struct {
pub const ONSTACK = 0x00000001;
pub const RESETHAND = 0x00000002;
pub const RESTART = 0x00000004;
pub const SIGINFO = 0x00000008;
pub const NODEFER = 0x00000010;
pub const NOCLDWAIT = 0x00010000;
},
.netbsd => struct {
pub const ONSTACK = 0x0001;
pub const RESTART = 0x0002;
pub const RESETHAND = 0x0004;
pub const NOCLDSTOP = 0x0008;
pub const NODEFER = 0x0010;
pub const NOCLDWAIT = 0x0020;
pub const SIGINFO = 0x0040;
},
.dragonfly => struct {
pub const ONSTACK = 0x0001;
pub const RESTART = 0x0002;
pub const RESETHAND = 0x0004;
pub const NODEFER = 0x0010;
pub const NOCLDWAIT = 0x0020;
pub const SIGINFO = 0x0040;
},
.haiku => struct {
pub const NOCLDSTOP = 0x01;
pub const NOCLDWAIT = 0x02;
pub const RESETHAND = 0x04;
pub const NODEFER = 0x08;
pub const RESTART = 0x10;
pub const ONSTACK = 0x20;
pub const SIGINFO = 0x40;
pub const NOMASK = NODEFER;
pub const STACK = ONSTACK;
pub const ONESHOT = RESETHAND;
},
.openbsd => struct {
pub const ONSTACK = 0x0001;
pub const RESTART = 0x0002;
pub const RESETHAND = 0x0004;
pub const NOCLDSTOP = 0x0008;
pub const NODEFER = 0x0010;
pub const NOCLDWAIT = 0x0020;
pub const SIGINFO = 0x0040;
},
else => void,
};
pub const sigval_t = switch (native_os) {
.netbsd, .solaris, .illumos => extern union {
int: i32,
ptr: ?*anyopaque,
},
else => void,
};
pub const SC = switch (native_os) {
.linux => linux.SC,
else => void,
};
pub const SEEK = switch (native_os) {
.linux => linux.SEEK,
.emscripten => emscripten.SEEK,
.wasi => struct {
pub const SET: wasi.whence_t = .SET;
pub const CUR: wasi.whence_t = .CUR;
pub const END: wasi.whence_t = .END;
},
.openbsd, .haiku, .netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos, .windows => struct {
pub const SET = 0;
pub const CUR = 1;
pub const END = 2;
},
.dragonfly, .solaris, .illumos => struct {
pub const SET = 0;
pub const CUR = 1;
pub const END = 2;
pub const DATA = 3;
pub const HOLE = 4;
},
else => void,
};
pub const SHUT = switch (native_os) {
.linux => linux.SHUT,
.emscripten => emscripten.SHUT,
else => struct {
pub const RD = 0;
pub const WR = 1;
pub const RDWR = 2;
},
};
/// Signal types
pub const SIG = switch (native_os) {
.linux => linux.SIG,
.emscripten => emscripten.SIG,
.windows => struct {
/// interrupt
pub const INT = 2;
/// illegal instruction - invalid function image
pub const ILL = 4;
/// floating point exception
pub const FPE = 8;
/// segment violation
pub const SEGV = 11;
/// Software termination signal from kill
pub const TERM = 15;
/// Ctrl-Break sequence
pub const BREAK = 21;
/// abnormal termination triggered by abort call
pub const ABRT = 22;
/// SIGABRT compatible with other platforms, same as SIGABRT
pub const ABRT_COMPAT = 6;
// Signal action codes
/// default signal action
pub const DFL = 0;
/// ignore signal
pub const IGN = 1;
/// return current value
pub const GET = 2;
/// signal gets error
pub const SGE = 3;
/// acknowledge
pub const ACK = 4;
/// Signal error value (returned by signal call on error)
pub const ERR = -1;
},
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const ERR: ?Sigaction.handler_fn = @ptrFromInt(maxInt(usize));
pub const DFL: ?Sigaction.handler_fn = @ptrFromInt(0);
pub const IGN: ?Sigaction.handler_fn = @ptrFromInt(1);
pub const HOLD: ?Sigaction.handler_fn = @ptrFromInt(5);
/// block specified signal set
pub const BLOCK = 1;
/// unblock specified signal set
pub const UNBLOCK = 2;
/// set specified signal set
pub const SETMASK = 3;
/// hangup
pub const HUP = 1;
/// interrupt
pub const INT = 2;
/// quit
pub const QUIT = 3;
/// illegal instruction (not reset when caught)
pub const ILL = 4;
/// trace trap (not reset when caught)
pub const TRAP = 5;
/// abort()
pub const ABRT = 6;
/// pollable event ([XSR] generated, not supported)
pub const POLL = 7;
/// compatibility
pub const IOT = ABRT;
/// EMT instruction
pub const EMT = 7;
/// floating point exception
pub const FPE = 8;
/// kill (cannot be caught or ignored)
pub const KILL = 9;
/// bus error
pub const BUS = 10;
/// segmentation violation
pub const SEGV = 11;
/// bad argument to system call
pub const SYS = 12;
/// write on a pipe with no one to read it
pub const PIPE = 13;
/// alarm clock
pub const ALRM = 14;
/// software termination signal from kill
pub const TERM = 15;
/// urgent condition on IO channel
pub const URG = 16;
/// sendable stop signal not from tty
pub const STOP = 17;
/// stop signal from tty
pub const TSTP = 18;
/// continue a stopped process
pub const CONT = 19;
/// to parent on child stop or exit
pub const CHLD = 20;
/// to readers pgrp upon background tty read
pub const TTIN = 21;
/// like TTIN for output if (tp->t_local&LTOSTOP)
pub const TTOU = 22;
/// input/output possible signal
pub const IO = 23;
/// exceeded CPU time limit
pub const XCPU = 24;
/// exceeded file size limit
pub const XFSZ = 25;
/// virtual time alarm
pub const VTALRM = 26;
/// profiling time alarm
pub const PROF = 27;
/// window size changes
pub const WINCH = 28;
/// information request
pub const INFO = 29;
/// user defined signal 1
pub const USR1 = 30;
/// user defined signal 2
pub const USR2 = 31;
},
.freebsd => struct {
pub const HUP = 1;
pub const INT = 2;
pub const QUIT = 3;
pub const ILL = 4;
pub const TRAP = 5;
pub const ABRT = 6;
pub const IOT = ABRT;
pub const EMT = 7;
pub const FPE = 8;
pub const KILL = 9;
pub const BUS = 10;
pub const SEGV = 11;
pub const SYS = 12;
pub const PIPE = 13;
pub const ALRM = 14;
pub const TERM = 15;
pub const URG = 16;
pub const STOP = 17;
pub const TSTP = 18;
pub const CONT = 19;
pub const CHLD = 20;
pub const TTIN = 21;
pub const TTOU = 22;
pub const IO = 23;
pub const XCPU = 24;
pub const XFSZ = 25;
pub const VTALRM = 26;
pub const PROF = 27;
pub const WINCH = 28;
pub const INFO = 29;
pub const USR1 = 30;
pub const USR2 = 31;
pub const THR = 32;
pub const LWP = THR;
pub const LIBRT = 33;
pub const RTMIN = 65;
pub const RTMAX = 126;
pub const BLOCK = 1;
pub const UNBLOCK = 2;
pub const SETMASK = 3;
pub const DFL: ?Sigaction.handler_fn = @ptrFromInt(0);
pub const IGN: ?Sigaction.handler_fn = @ptrFromInt(1);
pub const ERR: ?Sigaction.handler_fn = @ptrFromInt(maxInt(usize));
pub const WORDS = 4;
pub const MAXSIG = 128;
pub inline fn IDX(sig: usize) usize {
return sig - 1;
}
pub inline fn WORD(sig: usize) usize {
return IDX(sig) >> 5;
}
pub inline fn BIT(sig: usize) usize {
return 1 << (IDX(sig) & 31);
}
pub inline fn VALID(sig: usize) usize {
return sig <= MAXSIG and sig > 0;
}
},
.solaris, .illumos => struct {
pub const DFL: ?Sigaction.handler_fn = @ptrFromInt(0);
pub const ERR: ?Sigaction.handler_fn = @ptrFromInt(maxInt(usize));
pub const IGN: ?Sigaction.handler_fn = @ptrFromInt(1);
pub const HOLD: ?Sigaction.handler_fn = @ptrFromInt(2);
pub const WORDS = 4;
pub const MAXSIG = 75;
pub const SIG_BLOCK = 1;
pub const SIG_UNBLOCK = 2;
pub const SIG_SETMASK = 3;
pub const HUP = 1;
pub const INT = 2;
pub const QUIT = 3;
pub const ILL = 4;
pub const TRAP = 5;
pub const IOT = 6;
pub const ABRT = 6;
pub const EMT = 7;
pub const FPE = 8;
pub const KILL = 9;
pub const BUS = 10;
pub const SEGV = 11;
pub const SYS = 12;
pub const PIPE = 13;
pub const ALRM = 14;
pub const TERM = 15;
pub const USR1 = 16;
pub const USR2 = 17;
pub const CLD = 18;
pub const CHLD = 18;
pub const PWR = 19;
pub const WINCH = 20;
pub const URG = 21;
pub const POLL = 22;
pub const IO = .POLL;
pub const STOP = 23;
pub const TSTP = 24;
pub const CONT = 25;
pub const TTIN = 26;
pub const TTOU = 27;
pub const VTALRM = 28;
pub const PROF = 29;
pub const XCPU = 30;
pub const XFSZ = 31;
pub const WAITING = 32;
pub const LWP = 33;
pub const FREEZE = 34;
pub const THAW = 35;
pub const CANCEL = 36;
pub const LOST = 37;
pub const XRES = 38;
pub const JVM1 = 39;
pub const JVM2 = 40;
pub const INFO = 41;
pub const RTMIN = 42;
pub const RTMAX = 74;
pub inline fn IDX(sig: usize) usize {
return sig - 1;
}
pub inline fn WORD(sig: usize) usize {
return IDX(sig) >> 5;
}
pub inline fn BIT(sig: usize) usize {
return 1 << (IDX(sig) & 31);
}
pub inline fn VALID(sig: usize) usize {
return sig <= MAXSIG and sig > 0;
}
},
.netbsd => struct {
pub const DFL: ?Sigaction.handler_fn = @ptrFromInt(0);
pub const IGN: ?Sigaction.handler_fn = @ptrFromInt(1);
pub const ERR: ?Sigaction.handler_fn = @ptrFromInt(maxInt(usize));
pub const WORDS = 4;
pub const MAXSIG = 128;
pub const BLOCK = 1;
pub const UNBLOCK = 2;
pub const SETMASK = 3;
pub const HUP = 1;
pub const INT = 2;
pub const QUIT = 3;
pub const ILL = 4;
pub const TRAP = 5;
pub const ABRT = 6;
pub const IOT = ABRT;
pub const EMT = 7;
pub const FPE = 8;
pub const KILL = 9;
pub const BUS = 10;
pub const SEGV = 11;
pub const SYS = 12;
pub const PIPE = 13;
pub const ALRM = 14;
pub const TERM = 15;
pub const URG = 16;
pub const STOP = 17;
pub const TSTP = 18;
pub const CONT = 19;
pub const CHLD = 20;
pub const TTIN = 21;
pub const TTOU = 22;
pub const IO = 23;
pub const XCPU = 24;
pub const XFSZ = 25;
pub const VTALRM = 26;
pub const PROF = 27;
pub const WINCH = 28;
pub const INFO = 29;
pub const USR1 = 30;
pub const USR2 = 31;
pub const PWR = 32;
pub const RTMIN = 33;
pub const RTMAX = 63;
pub inline fn IDX(sig: usize) usize {
return sig - 1;
}
pub inline fn WORD(sig: usize) usize {
return IDX(sig) >> 5;
}
pub inline fn BIT(sig: usize) usize {
return 1 << (IDX(sig) & 31);
}
pub inline fn VALID(sig: usize) usize {
return sig <= MAXSIG and sig > 0;
}
},
.dragonfly => struct {
pub const DFL: ?Sigaction.handler_fn = @ptrFromInt(0);
pub const IGN: ?Sigaction.handler_fn = @ptrFromInt(1);
pub const ERR: ?Sigaction.handler_fn = @ptrFromInt(maxInt(usize));
pub const BLOCK = 1;
pub const UNBLOCK = 2;
pub const SETMASK = 3;
pub const IOT = ABRT;
pub const HUP = 1;
pub const INT = 2;
pub const QUIT = 3;
pub const ILL = 4;
pub const TRAP = 5;
pub const ABRT = 6;
pub const EMT = 7;
pub const FPE = 8;
pub const KILL = 9;
pub const BUS = 10;
pub const SEGV = 11;
pub const SYS = 12;
pub const PIPE = 13;
pub const ALRM = 14;
pub const TERM = 15;
pub const URG = 16;
pub const STOP = 17;
pub const TSTP = 18;
pub const CONT = 19;
pub const CHLD = 20;
pub const TTIN = 21;
pub const TTOU = 22;
pub const IO = 23;
pub const XCPU = 24;
pub const XFSZ = 25;
pub const VTALRM = 26;
pub const PROF = 27;
pub const WINCH = 28;
pub const INFO = 29;
pub const USR1 = 30;
pub const USR2 = 31;
pub const THR = 32;
pub const CKPT = 33;
pub const CKPTEXIT = 34;
pub const WORDS = 4;
},
.haiku => struct {
pub const DFL: ?Sigaction.handler_fn = @ptrFromInt(0);
pub const IGN: ?Sigaction.handler_fn = @ptrFromInt(1);
pub const ERR: ?Sigaction.handler_fn = @ptrFromInt(maxInt(usize));
pub const HOLD: ?Sigaction.handler_fn = @ptrFromInt(3);
pub const HUP = 1;
pub const INT = 2;
pub const QUIT = 3;
pub const ILL = 4;
pub const CHLD = 5;
pub const ABRT = 6;
pub const IOT = ABRT;
pub const PIPE = 7;
pub const FPE = 8;
pub const KILL = 9;
pub const STOP = 10;
pub const SEGV = 11;
pub const CONT = 12;
pub const TSTP = 13;
pub const ALRM = 14;
pub const TERM = 15;
pub const TTIN = 16;
pub const TTOU = 17;
pub const USR1 = 18;
pub const USR2 = 19;
pub const WINCH = 20;
pub const KILLTHR = 21;
pub const TRAP = 22;
pub const POLL = 23;
pub const PROF = 24;
pub const SYS = 25;
pub const URG = 26;
pub const VTALRM = 27;
pub const XCPU = 28;
pub const XFSZ = 29;
pub const BUS = 30;
pub const RESERVED1 = 31;
pub const RESERVED2 = 32;
pub const BLOCK = 1;
pub const UNBLOCK = 2;
pub const SETMASK = 3;
},
.openbsd => struct {
pub const DFL: ?Sigaction.handler_fn = @ptrFromInt(0);
pub const IGN: ?Sigaction.handler_fn = @ptrFromInt(1);
pub const ERR: ?Sigaction.handler_fn = @ptrFromInt(maxInt(usize));
pub const CATCH: ?Sigaction.handler_fn = @ptrFromInt(2);
pub const HOLD: ?Sigaction.handler_fn = @ptrFromInt(3);
pub const HUP = 1;
pub const INT = 2;
pub const QUIT = 3;
pub const ILL = 4;
pub const TRAP = 5;
pub const ABRT = 6;
pub const IOT = ABRT;
pub const EMT = 7;
pub const FPE = 8;
pub const KILL = 9;
pub const BUS = 10;
pub const SEGV = 11;
pub const SYS = 12;
pub const PIPE = 13;
pub const ALRM = 14;
pub const TERM = 15;
pub const URG = 16;
pub const STOP = 17;
pub const TSTP = 18;
pub const CONT = 19;
pub const CHLD = 20;
pub const TTIN = 21;
pub const TTOU = 22;
pub const IO = 23;
pub const XCPU = 24;
pub const XFSZ = 25;
pub const VTALRM = 26;
pub const PROF = 27;
pub const WINCH = 28;
pub const INFO = 29;
pub const USR1 = 30;
pub const USR2 = 31;
pub const PWR = 32;
pub const BLOCK = 1;
pub const UNBLOCK = 2;
pub const SETMASK = 3;
},
else => void,
};
pub const SIOCGIFINDEX = switch (native_os) {
.linux => linux.SIOCGIFINDEX,
.emscripten => emscripten.SIOCGIFINDEX,
.solaris, .illumos => solaris.SIOCGLIFINDEX,
else => void,
};
pub const STDIN_FILENO = switch (native_os) {
.linux => linux.STDIN_FILENO,
.emscripten => emscripten.STDIN_FILENO,
else => 0,
};
pub const STDOUT_FILENO = switch (native_os) {
.linux => linux.STDOUT_FILENO,
.emscripten => emscripten.STDOUT_FILENO,
else => 1,
};
pub const STDERR_FILENO = switch (native_os) {
.linux => linux.STDERR_FILENO,
.emscripten => emscripten.STDERR_FILENO,
else => 2,
};
pub const SYS = switch (native_os) {
.linux => linux.SYS,
else => void,
};
/// Renamed from `sigaction` to `Sigaction` to avoid conflict with function name.
pub const Sigaction = switch (native_os) {
.linux => linux.Sigaction,
.emscripten => emscripten.Sigaction,
.netbsd, .macos, .ios, .tvos, .watchos, .visionos => extern struct {
pub const handler_fn = *align(1) const fn (i32) callconv(.C) void;
pub const sigaction_fn = *const fn (i32, *const siginfo_t, ?*anyopaque) callconv(.C) void;
handler: extern union {
handler: ?handler_fn,
sigaction: ?sigaction_fn,
},
mask: sigset_t,
flags: c_uint,
},
.dragonfly, .freebsd => extern struct {
pub const handler_fn = *align(1) const fn (i32) callconv(.C) void;
pub const sigaction_fn = *const fn (i32, *const siginfo_t, ?*anyopaque) callconv(.C) void;
/// signal handler
handler: extern union {
handler: ?handler_fn,
sigaction: ?sigaction_fn,
},
/// see signal options
flags: c_uint,
/// signal mask to apply
mask: sigset_t,
},
.solaris, .illumos => extern struct {
pub const handler_fn = *align(1) const fn (i32) callconv(.C) void;
pub const sigaction_fn = *const fn (i32, *const siginfo_t, ?*anyopaque) callconv(.C) void;
/// signal options
flags: c_uint,
/// signal handler
handler: extern union {
handler: ?handler_fn,
sigaction: ?sigaction_fn,
},
/// signal mask to apply
mask: sigset_t,
},
.haiku => extern struct {
pub const handler_fn = *align(1) const fn (i32) callconv(.C) void;
pub const sigaction_fn = *const fn (i32, *const siginfo_t, ?*anyopaque) callconv(.C) void;
/// signal handler
handler: extern union {
handler: handler_fn,
sigaction: sigaction_fn,
},
/// signal mask to apply
mask: sigset_t,
/// see signal options
flags: i32,
/// will be passed to the signal handler, BeOS extension
userdata: *allowzero anyopaque = undefined,
},
.openbsd => extern struct {
pub const handler_fn = *align(1) const fn (i32) callconv(.C) void;
pub const sigaction_fn = *const fn (i32, *const siginfo_t, ?*anyopaque) callconv(.C) void;
/// signal handler
handler: extern union {
handler: ?handler_fn,
sigaction: ?sigaction_fn,
},
/// signal mask to apply
mask: sigset_t,
/// signal options
flags: c_uint,
},
else => void,
};
pub const T = switch (native_os) {
.linux => linux.T,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const IOCGWINSZ = ior(0x40000000, 't', 104, @sizeOf(winsize));
fn ior(inout: u32, group: usize, num: usize, len: usize) usize {
return (inout | ((len & IOCPARM_MASK) << 16) | ((group) << 8) | (num));
}
},
.freebsd => struct {
pub const IOCEXCL = 0x2000740d;
pub const IOCNXCL = 0x2000740e;
pub const IOCSCTTY = 0x20007461;
pub const IOCGPGRP = 0x40047477;
pub const IOCSPGRP = 0x80047476;
pub const IOCOUTQ = 0x40047473;
pub const IOCSTI = 0x80017472;
pub const IOCGWINSZ = 0x40087468;
pub const IOCSWINSZ = 0x80087467;
pub const IOCMGET = 0x4004746a;
pub const IOCMBIS = 0x8004746c;
pub const IOCMBIC = 0x8004746b;
pub const IOCMSET = 0x8004746d;
pub const FIONREAD = 0x4004667f;
pub const IOCCONS = 0x80047462;
pub const IOCPKT = 0x80047470;
pub const FIONBIO = 0x8004667e;
pub const IOCNOTTY = 0x20007471;
pub const IOCSETD = 0x8004741b;
pub const IOCGETD = 0x4004741a;
pub const IOCSBRK = 0x2000747b;
pub const IOCCBRK = 0x2000747a;
pub const IOCGSID = 0x40047463;
pub const IOCGPTN = 0x4004740f;
pub const IOCSIG = 0x2004745f;
},
.solaris, .illumos => struct {
pub const CGETA = tioc('T', 1);
pub const CSETA = tioc('T', 2);
pub const CSETAW = tioc('T', 3);
pub const CSETAF = tioc('T', 4);
pub const CSBRK = tioc('T', 5);
pub const CXONC = tioc('T', 6);
pub const CFLSH = tioc('T', 7);
pub const IOCGWINSZ = tioc('T', 104);
pub const IOCSWINSZ = tioc('T', 103);
// Softcarrier ioctls
pub const IOCGSOFTCAR = tioc('T', 105);
pub const IOCSSOFTCAR = tioc('T', 106);
// termios ioctls
pub const CGETS = tioc('T', 13);
pub const CSETS = tioc('T', 14);
pub const CSANOW = tioc('T', 14);
pub const CSETSW = tioc('T', 15);
pub const CSADRAIN = tioc('T', 15);
pub const CSETSF = tioc('T', 16);
pub const IOCSETLD = tioc('T', 123);
pub const IOCGETLD = tioc('T', 124);
// NTP PPS ioctls
pub const IOCGPPS = tioc('T', 125);
pub const IOCSPPS = tioc('T', 126);
pub const IOCGPPSEV = tioc('T', 127);
pub const IOCGETD = tioc('t', 0);
pub const IOCSETD = tioc('t', 1);
pub const IOCHPCL = tioc('t', 2);
pub const IOCGETP = tioc('t', 8);
pub const IOCSETP = tioc('t', 9);
pub const IOCSETN = tioc('t', 10);
pub const IOCEXCL = tioc('t', 13);
pub const IOCNXCL = tioc('t', 14);
pub const IOCFLUSH = tioc('t', 16);
pub const IOCSETC = tioc('t', 17);
pub const IOCGETC = tioc('t', 18);
/// bis local mode bits
pub const IOCLBIS = tioc('t', 127);
/// bic local mode bits
pub const IOCLBIC = tioc('t', 126);
/// set entire local mode word
pub const IOCLSET = tioc('t', 125);
/// get local modes
pub const IOCLGET = tioc('t', 124);
/// set break bit
pub const IOCSBRK = tioc('t', 123);
/// clear break bit
pub const IOCCBRK = tioc('t', 122);
/// set data terminal ready
pub const IOCSDTR = tioc('t', 121);
/// clear data terminal ready
pub const IOCCDTR = tioc('t', 120);
/// set local special chars
pub const IOCSLTC = tioc('t', 117);
/// get local special chars
pub const IOCGLTC = tioc('t', 116);
/// driver output queue size
pub const IOCOUTQ = tioc('t', 115);
/// void tty association
pub const IOCNOTTY = tioc('t', 113);
/// get a ctty
pub const IOCSCTTY = tioc('t', 132);
/// stop output, like ^S
pub const IOCSTOP = tioc('t', 111);
/// start output, like ^Q
pub const IOCSTART = tioc('t', 110);
/// get pgrp of tty
pub const IOCGPGRP = tioc('t', 20);
/// set pgrp of tty
pub const IOCSPGRP = tioc('t', 21);
/// get session id on ctty
pub const IOCGSID = tioc('t', 22);
/// simulate terminal input
pub const IOCSTI = tioc('t', 23);
/// set all modem bits
pub const IOCMSET = tioc('t', 26);
/// bis modem bits
pub const IOCMBIS = tioc('t', 27);
/// bic modem bits
pub const IOCMBIC = tioc('t', 28);
/// get all modem bits
pub const IOCMGET = tioc('t', 29);
fn tioc(t: u16, num: u8) u16 {
return (t << 8) | num;
}
},
.netbsd => struct {
pub const IOCCBRK = 0x2000747a;
pub const IOCCDTR = 0x20007478;
pub const IOCCONS = 0x80047462;
pub const IOCDCDTIMESTAMP = 0x40107458;
pub const IOCDRAIN = 0x2000745e;
pub const IOCEXCL = 0x2000740d;
pub const IOCEXT = 0x80047460;
pub const IOCFLAG_CDTRCTS = 0x10;
pub const IOCFLAG_CLOCAL = 0x2;
pub const IOCFLAG_CRTSCTS = 0x4;
pub const IOCFLAG_MDMBUF = 0x8;
pub const IOCFLAG_SOFTCAR = 0x1;
pub const IOCFLUSH = 0x80047410;
pub const IOCGETA = 0x402c7413;
pub const IOCGETD = 0x4004741a;
pub const IOCGFLAGS = 0x4004745d;
pub const IOCGLINED = 0x40207442;
pub const IOCGPGRP = 0x40047477;
pub const IOCGQSIZE = 0x40047481;
pub const IOCGRANTPT = 0x20007447;
pub const IOCGSID = 0x40047463;
pub const IOCGSIZE = 0x40087468;
pub const IOCGWINSZ = 0x40087468;
pub const IOCMBIC = 0x8004746b;
pub const IOCMBIS = 0x8004746c;
pub const IOCMGET = 0x4004746a;
pub const IOCMSET = 0x8004746d;
pub const IOCM_CAR = 0x40;
pub const IOCM_CD = 0x40;
pub const IOCM_CTS = 0x20;
pub const IOCM_DSR = 0x100;
pub const IOCM_DTR = 0x2;
pub const IOCM_LE = 0x1;
pub const IOCM_RI = 0x80;
pub const IOCM_RNG = 0x80;
pub const IOCM_RTS = 0x4;
pub const IOCM_SR = 0x10;
pub const IOCM_ST = 0x8;
pub const IOCNOTTY = 0x20007471;
pub const IOCNXCL = 0x2000740e;
pub const IOCOUTQ = 0x40047473;
pub const IOCPKT = 0x80047470;
pub const IOCPKT_DATA = 0x0;
pub const IOCPKT_DOSTOP = 0x20;
pub const IOCPKT_FLUSHREAD = 0x1;
pub const IOCPKT_FLUSHWRITE = 0x2;
pub const IOCPKT_IOCTL = 0x40;
pub const IOCPKT_NOSTOP = 0x10;
pub const IOCPKT_START = 0x8;
pub const IOCPKT_STOP = 0x4;
pub const IOCPTMGET = 0x40287446;
pub const IOCPTSNAME = 0x40287448;
pub const IOCRCVFRAME = 0x80087445;
pub const IOCREMOTE = 0x80047469;
pub const IOCSBRK = 0x2000747b;
pub const IOCSCTTY = 0x20007461;
pub const IOCSDTR = 0x20007479;
pub const IOCSETA = 0x802c7414;
pub const IOCSETAF = 0x802c7416;
pub const IOCSETAW = 0x802c7415;
pub const IOCSETD = 0x8004741b;
pub const IOCSFLAGS = 0x8004745c;
pub const IOCSIG = 0x2000745f;
pub const IOCSLINED = 0x80207443;
pub const IOCSPGRP = 0x80047476;
pub const IOCSQSIZE = 0x80047480;
pub const IOCSSIZE = 0x80087467;
pub const IOCSTART = 0x2000746e;
pub const IOCSTAT = 0x80047465;
pub const IOCSTI = 0x80017472;
pub const IOCSTOP = 0x2000746f;
pub const IOCSWINSZ = 0x80087467;
pub const IOCUCNTL = 0x80047466;
pub const IOCXMTFRAME = 0x80087444;
},
.haiku => struct {
pub const CGETA = 0x8000;
pub const CSETA = 0x8001;
pub const CSETAF = 0x8002;
pub const CSETAW = 0x8003;
pub const CWAITEVENT = 0x8004;
pub const CSBRK = 0x8005;
pub const CFLSH = 0x8006;
pub const CXONC = 0x8007;
pub const CQUERYCONNECTED = 0x8008;
pub const CGETBITS = 0x8009;
pub const CSETDTR = 0x8010;
pub const CSETRTS = 0x8011;
pub const IOCGWINSZ = 0x8012;
pub const IOCSWINSZ = 0x8013;
pub const CVTIME = 0x8014;
pub const IOCGPGRP = 0x8015;
pub const IOCSPGRP = 0x8016;
pub const IOCSCTTY = 0x8017;
pub const IOCMGET = 0x8018;
pub const IOCMSET = 0x8019;
pub const IOCSBRK = 0x8020;
pub const IOCCBRK = 0x8021;
pub const IOCMBIS = 0x8022;
pub const IOCMBIC = 0x8023;
pub const IOCGSID = 0x8024;
pub const FIONREAD = 0xbe000001;
pub const FIONBIO = 0xbe000000;
},
.openbsd => struct {
pub const IOCCBRK = 0x2000747a;
pub const IOCCDTR = 0x20007478;
pub const IOCCONS = 0x80047462;
pub const IOCDCDTIMESTAMP = 0x40107458;
pub const IOCDRAIN = 0x2000745e;
pub const IOCEXCL = 0x2000740d;
pub const IOCEXT = 0x80047460;
pub const IOCFLAG_CDTRCTS = 0x10;
pub const IOCFLAG_CLOCAL = 0x2;
pub const IOCFLAG_CRTSCTS = 0x4;
pub const IOCFLAG_MDMBUF = 0x8;
pub const IOCFLAG_SOFTCAR = 0x1;
pub const IOCFLUSH = 0x80047410;
pub const IOCGETA = 0x402c7413;
pub const IOCGETD = 0x4004741a;
pub const IOCGFLAGS = 0x4004745d;
pub const IOCGLINED = 0x40207442;
pub const IOCGPGRP = 0x40047477;
pub const IOCGQSIZE = 0x40047481;
pub const IOCGRANTPT = 0x20007447;
pub const IOCGSID = 0x40047463;
pub const IOCGSIZE = 0x40087468;
pub const IOCGWINSZ = 0x40087468;
pub const IOCMBIC = 0x8004746b;
pub const IOCMBIS = 0x8004746c;
pub const IOCMGET = 0x4004746a;
pub const IOCMSET = 0x8004746d;
pub const IOCM_CAR = 0x40;
pub const IOCM_CD = 0x40;
pub const IOCM_CTS = 0x20;
pub const IOCM_DSR = 0x100;
pub const IOCM_DTR = 0x2;
pub const IOCM_LE = 0x1;
pub const IOCM_RI = 0x80;
pub const IOCM_RNG = 0x80;
pub const IOCM_RTS = 0x4;
pub const IOCM_SR = 0x10;
pub const IOCM_ST = 0x8;
pub const IOCNOTTY = 0x20007471;
pub const IOCNXCL = 0x2000740e;
pub const IOCOUTQ = 0x40047473;
pub const IOCPKT = 0x80047470;
pub const IOCPKT_DATA = 0x0;
pub const IOCPKT_DOSTOP = 0x20;
pub const IOCPKT_FLUSHREAD = 0x1;
pub const IOCPKT_FLUSHWRITE = 0x2;
pub const IOCPKT_IOCTL = 0x40;
pub const IOCPKT_NOSTOP = 0x10;
pub const IOCPKT_START = 0x8;
pub const IOCPKT_STOP = 0x4;
pub const IOCPTMGET = 0x40287446;
pub const IOCPTSNAME = 0x40287448;
pub const IOCRCVFRAME = 0x80087445;
pub const IOCREMOTE = 0x80047469;
pub const IOCSBRK = 0x2000747b;
pub const IOCSCTTY = 0x20007461;
pub const IOCSDTR = 0x20007479;
pub const IOCSETA = 0x802c7414;
pub const IOCSETAF = 0x802c7416;
pub const IOCSETAW = 0x802c7415;
pub const IOCSETD = 0x8004741b;
pub const IOCSFLAGS = 0x8004745c;
pub const IOCSIG = 0x2000745f;
pub const IOCSLINED = 0x80207443;
pub const IOCSPGRP = 0x80047476;
pub const IOCSQSIZE = 0x80047480;
pub const IOCSSIZE = 0x80087467;
pub const IOCSTART = 0x2000746e;
pub const IOCSTAT = 0x80047465;
pub const IOCSTI = 0x80017472;
pub const IOCSTOP = 0x2000746f;
pub const IOCSWINSZ = 0x80087467;
pub const IOCUCNTL = 0x80047466;
pub const IOCXMTFRAME = 0x80087444;
},
else => void,
};
pub const IOCPARM_MASK = switch (native_os) {
.windows => ws2_32.IOCPARM_MASK,
.macos, .ios, .tvos, .watchos, .visionos => 0x1fff,
else => void,
};
pub const TCSA = std.posix.TCSA;
pub const TFD = switch (native_os) {
.linux => linux.TFD,
else => void,
};
pub const VDSO = switch (native_os) {
.linux => linux.VDSO,
else => void,
};
pub const W = switch (native_os) {
.linux => linux.W,
.emscripten => emscripten.W,
.macos, .ios, .tvos, .watchos, .visionos => struct {
/// [XSI] no hang in wait/no child to reap
pub const NOHANG = 0x00000001;
/// [XSI] notify on stop, untraced child
pub const UNTRACED = 0x00000002;
pub fn EXITSTATUS(x: u32) u8 {
return @as(u8, @intCast(x >> 8));
}
pub fn TERMSIG(x: u32) u32 {
return status(x);
}
pub fn STOPSIG(x: u32) u32 {
return x >> 8;
}
pub fn IFEXITED(x: u32) bool {
return status(x) == 0;
}
pub fn IFSTOPPED(x: u32) bool {
return status(x) == stopped and STOPSIG(x) != 0x13;
}
pub fn IFSIGNALED(x: u32) bool {
return status(x) != stopped and status(x) != 0;
}
fn status(x: u32) u32 {
return x & 0o177;
}
const stopped = 0o177;
},
.freebsd => struct {
pub const NOHANG = 1;
pub const UNTRACED = 2;
pub const STOPPED = UNTRACED;
pub const CONTINUED = 4;
pub const NOWAIT = 8;
pub const EXITED = 16;
pub const TRAPPED = 32;
pub fn EXITSTATUS(s: u32) u8 {
return @as(u8, @intCast((s & 0xff00) >> 8));
}
pub fn TERMSIG(s: u32) u32 {
return s & 0x7f;
}
pub fn STOPSIG(s: u32) u32 {
return EXITSTATUS(s);
}
pub fn IFEXITED(s: u32) bool {
return TERMSIG(s) == 0;
}
pub fn IFSTOPPED(s: u32) bool {
return @as(u16, @truncate((((s & 0xffff) *% 0x10001) >> 8))) > 0x7f00;
}
pub fn IFSIGNALED(s: u32) bool {
return (s & 0xffff) -% 1 < 0xff;
}
},
.solaris, .illumos => struct {
pub const EXITED = 0o001;
pub const TRAPPED = 0o002;
pub const UNTRACED = 0o004;
pub const STOPPED = UNTRACED;
pub const CONTINUED = 0o010;
pub const NOHANG = 0o100;
pub const NOWAIT = 0o200;
pub fn EXITSTATUS(s: u32) u8 {
return @as(u8, @intCast((s >> 8) & 0xff));
}
pub fn TERMSIG(s: u32) u32 {
return s & 0x7f;
}
pub fn STOPSIG(s: u32) u32 {
return EXITSTATUS(s);
}
pub fn IFEXITED(s: u32) bool {
return TERMSIG(s) == 0;
}
pub fn IFCONTINUED(s: u32) bool {
return ((s & 0o177777) == 0o177777);
}
pub fn IFSTOPPED(s: u32) bool {
return (s & 0x00ff != 0o177) and !(s & 0xff00 != 0);
}
pub fn IFSIGNALED(s: u32) bool {
return s & 0x00ff > 0 and s & 0xff00 == 0;
}
},
.netbsd => struct {
pub const NOHANG = 0x00000001;
pub const UNTRACED = 0x00000002;
pub const STOPPED = UNTRACED;
pub const CONTINUED = 0x00000010;
pub const NOWAIT = 0x00010000;
pub const EXITED = 0x00000020;
pub const TRAPPED = 0x00000040;
pub fn EXITSTATUS(s: u32) u8 {
return @as(u8, @intCast((s >> 8) & 0xff));
}
pub fn TERMSIG(s: u32) u32 {
return s & 0x7f;
}
pub fn STOPSIG(s: u32) u32 {
return EXITSTATUS(s);
}
pub fn IFEXITED(s: u32) bool {
return TERMSIG(s) == 0;
}
pub fn IFCONTINUED(s: u32) bool {
return ((s & 0x7f) == 0xffff);
}
pub fn IFSTOPPED(s: u32) bool {
return ((s & 0x7f != 0x7f) and !IFCONTINUED(s));
}
pub fn IFSIGNALED(s: u32) bool {
return !IFSTOPPED(s) and !IFCONTINUED(s) and !IFEXITED(s);
}
},
.dragonfly => struct {
pub const NOHANG = 0x0001;
pub const UNTRACED = 0x0002;
pub const CONTINUED = 0x0004;
pub const STOPPED = UNTRACED;
pub const NOWAIT = 0x0008;
pub const EXITED = 0x0010;
pub const TRAPPED = 0x0020;
pub fn EXITSTATUS(s: u32) u8 {
return @as(u8, @intCast((s & 0xff00) >> 8));
}
pub fn TERMSIG(s: u32) u32 {
return s & 0x7f;
}
pub fn STOPSIG(s: u32) u32 {
return EXITSTATUS(s);
}
pub fn IFEXITED(s: u32) bool {
return TERMSIG(s) == 0;
}
pub fn IFSTOPPED(s: u32) bool {
return @as(u16, @truncate((((s & 0xffff) *% 0x10001) >> 8))) > 0x7f00;
}
pub fn IFSIGNALED(s: u32) bool {
return (s & 0xffff) -% 1 < 0xff;
}
},
.haiku => struct {
pub const NOHANG = 0x1;
pub const UNTRACED = 0x2;
pub const CONTINUED = 0x4;
pub const EXITED = 0x08;
pub const STOPPED = 0x10;
pub const NOWAIT = 0x20;
pub fn EXITSTATUS(s: u32) u8 {
return @as(u8, @intCast(s & 0xff));
}
pub fn TERMSIG(s: u32) u32 {
return (s >> 8) & 0xff;
}
pub fn STOPSIG(s: u32) u32 {
return (s >> 16) & 0xff;
}
pub fn IFEXITED(s: u32) bool {
return (s & ~@as(u32, 0xff)) == 0;
}
pub fn IFSTOPPED(s: u32) bool {
return ((s >> 16) & 0xff) != 0;
}
pub fn IFSIGNALED(s: u32) bool {
return ((s >> 8) & 0xff) != 0;
}
},
.openbsd => struct {
pub const NOHANG = 1;
pub const UNTRACED = 2;
pub const CONTINUED = 8;
pub fn EXITSTATUS(s: u32) u8 {
return @as(u8, @intCast((s >> 8) & 0xff));
}
pub fn TERMSIG(s: u32) u32 {
return (s & 0x7f);
}
pub fn STOPSIG(s: u32) u32 {
return EXITSTATUS(s);
}
pub fn IFEXITED(s: u32) bool {
return TERMSIG(s) == 0;
}
pub fn IFCONTINUED(s: u32) bool {
return ((s & 0o177777) == 0o177777);
}
pub fn IFSTOPPED(s: u32) bool {
return (s & 0xff == 0o177);
}
pub fn IFSIGNALED(s: u32) bool {
return (((s) & 0o177) != 0o177) and (((s) & 0o177) != 0);
}
},
else => void,
};
pub const clock_t = switch (native_os) {
.linux => linux.clock_t,
.emscripten => emscripten.clock_t,
.macos, .ios, .tvos, .watchos, .visionos => c_ulong,
.freebsd => isize,
.openbsd, .solaris, .illumos => i64,
.netbsd => u32,
.haiku => i32,
else => void,
};
pub const cpu_set_t = switch (native_os) {
.linux => linux.cpu_set_t,
.emscripten => emscripten.cpu_set_t,
else => void,
};
pub const dl_phdr_info = switch (native_os) {
.linux => linux.dl_phdr_info,
.emscripten => emscripten.dl_phdr_info,
.freebsd => extern struct {
/// Module relocation base.
addr: if (builtin.target.ptrBitWidth() == 32) std.elf.Elf32_Addr else std.elf.Elf64_Addr,
/// Module name.
name: ?[*:0]const u8,
/// Pointer to module's phdr.
phdr: [*]std.elf.Phdr,
/// Number of entries in phdr.
phnum: u16,
/// Total number of loads.
adds: u64,
/// Total number of unloads.
subs: u64,
tls_modid: usize,
tls_data: ?*anyopaque,
},
.solaris, .illumos => extern struct {
addr: std.elf.Addr,
name: ?[*:0]const u8,
phdr: [*]std.elf.Phdr,
phnum: std.elf.Half,
/// Incremented when a new object is mapped into the process.
adds: u64,
/// Incremented when an object is unmapped from the process.
subs: u64,
},
.openbsd, .haiku, .dragonfly, .netbsd => extern struct {
addr: usize,
name: ?[*:0]const u8,
phdr: [*]std.elf.Phdr,
phnum: u16,
},
else => void,
};
pub const epoll_event = switch (native_os) {
.linux => linux.epoll_event,
else => void,
};
pub const ifreq = switch (native_os) {
.linux => linux.ifreq,
.emscripten => emscripten.ifreq,
.solaris, .illumos => lifreq,
else => void,
};
pub const itimerspec = switch (native_os) {
.linux => linux.itimerspec,
.haiku => extern struct {
interval: timespec,
value: timespec,
},
else => void,
};
pub const msghdr = switch (native_os) {
.linux => linux.msghdr,
.openbsd, .emscripten, .dragonfly, .freebsd, .netbsd, .haiku, .solaris, .illumos => extern struct {
/// optional address
name: ?*sockaddr,
/// size of address
namelen: socklen_t,
/// scatter/gather array
iov: [*]iovec,
/// # elements in iov
iovlen: i32,
/// ancillary data
control: ?*anyopaque,
/// ancillary data buffer len
controllen: socklen_t,
/// flags on received message
flags: i32,
},
else => void,
};
pub const msghdr_const = switch (native_os) {
.linux => linux.msghdr_const,
.openbsd, .emscripten, .dragonfly, .freebsd, .netbsd, .haiku, .solaris, .illumos => extern struct {
/// optional address
name: ?*const sockaddr,
/// size of address
namelen: socklen_t,
/// scatter/gather array
iov: [*]const iovec_const,
/// # elements in iov
iovlen: i32,
/// ancillary data
control: ?*const anyopaque,
/// ancillary data buffer len
controllen: socklen_t,
/// flags on received message
flags: i32,
},
else => void,
};
pub const nfds_t = switch (native_os) {
.linux => linux.nfds_t,
.emscripten => emscripten.nfds_t,
.haiku, .solaris, .illumos, .wasi => usize,
.windows => c_ulong,
.openbsd, .dragonfly, .netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => u32,
else => void,
};
pub const perf_event_attr = switch (native_os) {
.linux => linux.perf_event_attr,
else => void,
};
pub const pid_t = switch (native_os) {
.linux => linux.pid_t,
.emscripten => emscripten.pid_t,
.windows => windows.HANDLE,
else => i32,
};
pub const pollfd = switch (native_os) {
.linux => linux.pollfd,
.emscripten => emscripten.pollfd,
.windows => ws2_32.pollfd,
else => extern struct {
fd: fd_t,
events: i16,
revents: i16,
},
};
pub const rlim_t = switch (native_os) {
.linux => linux.rlim_t,
.emscripten => emscripten.rlim_t,
.openbsd, .netbsd, .solaris, .illumos, .macos, .ios, .tvos, .watchos, .visionos => u64,
.haiku, .dragonfly, .freebsd => i64,
else => void,
};
pub const rlimit = switch (native_os) {
.linux, .emscripten => linux.rlimit,
.windows => void,
else => extern struct {
/// Soft limit
cur: rlim_t,
/// Hard limit
max: rlim_t,
},
};
pub const rlimit_resource = switch (native_os) {
.linux => linux.rlimit_resource,
.emscripten => emscripten.rlimit_resource,
.openbsd, .macos, .ios, .tvos, .watchos, .visionos => enum(c_int) {
CPU = 0,
FSIZE = 1,
DATA = 2,
STACK = 3,
CORE = 4,
RSS = 5,
MEMLOCK = 6,
NPROC = 7,
NOFILE = 8,
_,
pub const AS: rlimit_resource = .RSS;
},
.freebsd => enum(c_int) {
CPU = 0,
FSIZE = 1,
DATA = 2,
STACK = 3,
CORE = 4,
RSS = 5,
MEMLOCK = 6,
NPROC = 7,
NOFILE = 8,
SBSIZE = 9,
VMEM = 10,
NPTS = 11,
SWAP = 12,
KQUEUES = 13,
UMTXP = 14,
_,
pub const AS: rlimit_resource = .VMEM;
},
.solaris, .illumos => enum(c_int) {
CPU = 0,
FSIZE = 1,
DATA = 2,
STACK = 3,
CORE = 4,
NOFILE = 5,
VMEM = 6,
_,
pub const AS: rlimit_resource = .VMEM;
},
.netbsd => enum(c_int) {
CPU = 0,
FSIZE = 1,
DATA = 2,
STACK = 3,
CORE = 4,
RSS = 5,
MEMLOCK = 6,
NPROC = 7,
NOFILE = 8,
SBSIZE = 9,
VMEM = 10,
NTHR = 11,
_,
pub const AS: rlimit_resource = .VMEM;
},
.dragonfly => enum(c_int) {
CPU = 0,
FSIZE = 1,
DATA = 2,
STACK = 3,
CORE = 4,
RSS = 5,
MEMLOCK = 6,
NPROC = 7,
NOFILE = 8,
SBSIZE = 9,
VMEM = 10,
POSIXLOCKS = 11,
_,
pub const AS: rlimit_resource = .VMEM;
},
.haiku => enum(i32) {
CORE = 0,
CPU = 1,
DATA = 2,
FSIZE = 3,
NOFILE = 4,
STACK = 5,
AS = 6,
NOVMON = 7,
_,
},
else => void,
};
pub const rusage = switch (native_os) {
.linux => linux.rusage,
.emscripten => emscripten.rusage,
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
utime: timeval,
stime: timeval,
maxrss: isize,
ixrss: isize,
idrss: isize,
isrss: isize,
minflt: isize,
majflt: isize,
nswap: isize,
inblock: isize,
oublock: isize,
msgsnd: isize,
msgrcv: isize,
nsignals: isize,
nvcsw: isize,
nivcsw: isize,
pub const SELF = 0;
pub const CHILDREN = -1;
},
.solaris, .illumos => extern struct {
utime: timeval,
stime: timeval,
maxrss: isize,
ixrss: isize,
idrss: isize,
isrss: isize,
minflt: isize,
majflt: isize,
nswap: isize,
inblock: isize,
oublock: isize,
msgsnd: isize,
msgrcv: isize,
nsignals: isize,
nvcsw: isize,
nivcsw: isize,
pub const SELF = 0;
pub const CHILDREN = -1;
pub const THREAD = 1;
},
else => void,
};
pub const siginfo_t = switch (native_os) {
.linux => linux.siginfo_t,
.emscripten => emscripten.siginfo_t,
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
signo: c_int,
errno: c_int,
code: c_int,
pid: pid_t,
uid: uid_t,
status: c_int,
addr: *allowzero anyopaque,
value: extern union {
int: c_int,
ptr: *anyopaque,
},
si_band: c_long,
_pad: [7]c_ulong,
},
.freebsd => extern struct {
// Signal number.
signo: c_int,
// Errno association.
errno: c_int,
/// Signal code.
///
/// Cause of signal, one of the SI_ macros or signal-specific values, i.e.
/// one of the FPE_... values for SIGFPE.
/// This value is equivalent to the second argument to an old-style FreeBSD
/// signal handler.
code: c_int,
/// Sending process.
pid: pid_t,
/// Sender's ruid.
uid: uid_t,
/// Exit value.
status: c_int,
/// Faulting instruction.
addr: *allowzero anyopaque,
/// Signal value.
value: sigval,
reason: extern union {
fault: extern struct {
/// Machine specific trap code.
trapno: c_int,
},
timer: extern struct {
timerid: c_int,
overrun: c_int,
},
mesgq: extern struct {
mqd: c_int,
},
poll: extern struct {
/// Band event for SIGPOLL. UNUSED.
band: c_long,
},
spare: extern struct {
spare1: c_long,
spare2: [7]c_int,
},
},
},
.solaris, .illumos => extern struct {
signo: c_int,
code: c_int,
errno: c_int,
// 64bit architectures insert 4bytes of padding here, this is done by
// correctly aligning the reason field
reason: extern union {
proc: extern struct {
pid: pid_t,
pdata: extern union {
kill: extern struct {
uid: uid_t,
value: sigval_t,
},
cld: extern struct {
utime: clock_t,
status: c_int,
stime: clock_t,
},
},
contract: solaris.ctid_t,
zone: solaris.zoneid_t,
},
fault: extern struct {
addr: *allowzero anyopaque,
trapno: c_int,
pc: ?*anyopaque,
},
file: extern struct {
// fd not currently available for SIGPOLL.
fd: c_int,
band: c_long,
},
prof: extern struct {
addr: ?*anyopaque,
timestamp: timespec,
syscall: c_short,
sysarg: u8,
fault: u8,
args: [8]c_long,
state: [10]c_int,
},
rctl: extern struct {
entity: i32,
},
__pad: [256 - 4 * @sizeOf(c_int)]u8,
} align(@sizeOf(usize)),
comptime {
assert(@sizeOf(@This()) == 256);
assert(@alignOf(@This()) == @sizeOf(usize));
}
},
.netbsd => extern union {
pad: [128]u8,
info: netbsd._ksiginfo,
},
.dragonfly => extern struct {
signo: c_int,
errno: c_int,
code: c_int,
pid: c_int,
uid: uid_t,
status: c_int,
addr: *allowzero anyopaque,
value: sigval,
band: c_long,
__spare__: [7]c_int,
},
.haiku => extern struct {
signo: i32,
code: i32,
errno: i32,
pid: pid_t,
uid: uid_t,
addr: *allowzero anyopaque,
},
.openbsd => extern struct {
signo: c_int,
code: c_int,
errno: c_int,
data: extern union {
proc: extern struct {
pid: pid_t,
pdata: extern union {
kill: extern struct {
uid: uid_t,
value: sigval,
},
cld: extern struct {
utime: clock_t,
stime: clock_t,
status: c_int,
},
},
},
fault: extern struct {
addr: *allowzero anyopaque,
trapno: c_int,
},
__pad: [128 - 3 * @sizeOf(c_int)]u8,
},
comptime {
if (@sizeOf(usize) == 4)
assert(@sizeOf(@This()) == 128)
else
// Take into account the padding between errno and data fields.
assert(@sizeOf(@This()) == 136);
}
},
else => void,
};
pub const sigset_t = switch (native_os) {
.linux => linux.sigset_t,
.emscripten => emscripten.sigset_t,
.openbsd, .macos, .ios, .tvos, .watchos, .visionos => u32,
.dragonfly, .netbsd, .solaris, .illumos, .freebsd => extern struct {
__bits: [SIG.WORDS]u32,
},
.haiku => u64,
else => u0,
};
pub const empty_sigset: sigset_t = switch (native_os) {
.linux => linux.empty_sigset,
.emscripten => emscripten.empty_sigset,
.dragonfly, .netbsd, .solaris, .illumos, .freebsd => .{ .__bits = [_]u32{0} ** SIG.WORDS },
else => 0,
};
pub const filled_sigset = switch (native_os) {
.linux => linux.filled_sigset,
.haiku => ~@as(sigset_t, 0),
else => 0,
};
pub const sigval = switch (native_os) {
.linux => linux.sigval,
.openbsd, .dragonfly, .freebsd => extern union {
int: c_int,
ptr: ?*anyopaque,
},
else => void,
};
pub const addrinfo = switch (native_os) {
.linux, .emscripten => linux.addrinfo,
.windows => ws2_32.addrinfo,
.freebsd, .macos, .ios, .tvos, .watchos, .visionos => extern struct {
flags: AI,
family: i32,
socktype: i32,
protocol: i32,
addrlen: socklen_t,
canonname: ?[*:0]u8,
addr: ?*sockaddr,
next: ?*addrinfo,
},
.solaris, .illumos => extern struct {
flags: AI,
family: i32,
socktype: i32,
protocol: i32,
addrlen: socklen_t,
canonname: ?[*:0]u8,
addr: ?*sockaddr,
next: ?*addrinfo,
},
.netbsd => extern struct {
flags: AI,
family: i32,
socktype: i32,
protocol: i32,
addrlen: socklen_t,
canonname: ?[*:0]u8,
addr: ?*sockaddr,
next: ?*addrinfo,
},
.dragonfly => extern struct {
flags: AI,
family: i32,
socktype: i32,
protocol: i32,
addrlen: socklen_t,
canonname: ?[*:0]u8,
addr: ?*sockaddr,
next: ?*addrinfo,
},
.haiku => extern struct {
flags: AI,
family: i32,
socktype: i32,
protocol: i32,
addrlen: socklen_t,
canonname: ?[*:0]u8,
addr: ?*sockaddr,
next: ?*addrinfo,
},
.openbsd => extern struct {
flags: AI,
family: c_int,
socktype: c_int,
protocol: c_int,
addrlen: socklen_t,
addr: ?*sockaddr,
canonname: ?[*:0]u8,
next: ?*addrinfo,
},
else => void,
};
pub const sockaddr = switch (native_os) {
.linux, .emscripten => linux.sockaddr,
.windows => ws2_32.sockaddr,
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
len: u8,
family: sa_family_t,
data: [14]u8,
pub const SS_MAXSIZE = 128;
pub const storage = extern struct {
len: u8 align(8),
family: sa_family_t,
padding: [126]u8 = undefined,
comptime {
assert(@sizeOf(storage) == SS_MAXSIZE);
assert(@alignOf(storage) == 8);
}
};
pub const in = extern struct {
len: u8 = @sizeOf(in),
family: sa_family_t = AF.INET,
port: in_port_t,
addr: u32,
zero: [8]u8 = [8]u8{ 0, 0, 0, 0, 0, 0, 0, 0 },
};
pub const in6 = extern struct {
len: u8 = @sizeOf(in6),
family: sa_family_t = AF.INET6,
port: in_port_t,
flowinfo: u32,
addr: [16]u8,
scope_id: u32,
};
/// UNIX domain socket
pub const un = extern struct {
len: u8 = @sizeOf(un),
family: sa_family_t = AF.UNIX,
path: [104]u8,
};
},
.freebsd => extern struct {
/// total length
len: u8,
/// address family
family: sa_family_t,
/// actually longer; address value
data: [14]u8,
pub const SS_MAXSIZE = 128;
pub const storage = extern struct {
len: u8 align(8),
family: sa_family_t,
padding: [126]u8 = undefined,
comptime {
assert(@sizeOf(storage) == SS_MAXSIZE);
assert(@alignOf(storage) == 8);
}
};
pub const in = extern struct {
len: u8 = @sizeOf(in),
family: sa_family_t = AF.INET,
port: in_port_t,
addr: u32,
zero: [8]u8 = [8]u8{ 0, 0, 0, 0, 0, 0, 0, 0 },
};
pub const in6 = extern struct {
len: u8 = @sizeOf(in6),
family: sa_family_t = AF.INET6,
port: in_port_t,
flowinfo: u32,
addr: [16]u8,
scope_id: u32,
};
pub const un = extern struct {
len: u8 = @sizeOf(un),
family: sa_family_t = AF.UNIX,
path: [104]u8,
};
},
.solaris, .illumos => extern struct {
/// address family
family: sa_family_t,
/// actually longer; address value
data: [14]u8,
pub const SS_MAXSIZE = 256;
pub const storage = extern struct {
family: sa_family_t align(8),
padding: [254]u8 = undefined,
comptime {
assert(@sizeOf(storage) == SS_MAXSIZE);
assert(@alignOf(storage) == 8);
}
};
pub const in = extern struct {
family: sa_family_t = AF.INET,
port: in_port_t,
addr: u32,
zero: [8]u8 = [8]u8{ 0, 0, 0, 0, 0, 0, 0, 0 },
};
pub const in6 = extern struct {
family: sa_family_t = AF.INET6,
port: in_port_t,
flowinfo: u32,
addr: [16]u8,
scope_id: u32,
__src_id: u32 = 0,
};
/// Definitions for UNIX IPC domain.
pub const un = extern struct {
family: sa_family_t = AF.UNIX,
path: [108]u8,
};
},
.netbsd => extern struct {
/// total length
len: u8,
/// address family
family: sa_family_t,
/// actually longer; address value
data: [14]u8,
pub const SS_MAXSIZE = 128;
pub const storage = extern struct {
len: u8 align(8),
family: sa_family_t,
padding: [126]u8 = undefined,
comptime {
assert(@sizeOf(storage) == SS_MAXSIZE);
assert(@alignOf(storage) == 8);
}
};
pub const in = extern struct {
len: u8 = @sizeOf(in),
family: sa_family_t = AF.INET,
port: in_port_t,
addr: u32,
zero: [8]u8 = [8]u8{ 0, 0, 0, 0, 0, 0, 0, 0 },
};
pub const in6 = extern struct {
len: u8 = @sizeOf(in6),
family: sa_family_t = AF.INET6,
port: in_port_t,
flowinfo: u32,
addr: [16]u8,
scope_id: u32,
};
/// Definitions for UNIX IPC domain.
pub const un = extern struct {
/// total sockaddr length
len: u8 = @sizeOf(un),
family: sa_family_t = AF.LOCAL,
/// path name
path: [104]u8,
};
},
.dragonfly => extern struct {
len: u8,
family: sa_family_t,
data: [14]u8,
pub const SS_MAXSIZE = 128;
pub const storage = extern struct {
len: u8 align(8),
family: sa_family_t,
padding: [126]u8 = undefined,
comptime {
assert(@sizeOf(storage) == SS_MAXSIZE);
assert(@alignOf(storage) == 8);
}
};
pub const in = extern struct {
len: u8 = @sizeOf(in),
family: sa_family_t = AF.INET,
port: in_port_t,
addr: u32,
zero: [8]u8 = [8]u8{ 0, 0, 0, 0, 0, 0, 0, 0 },
};
pub const in6 = extern struct {
len: u8 = @sizeOf(in6),
family: sa_family_t = AF.INET6,
port: in_port_t,
flowinfo: u32,
addr: [16]u8,
scope_id: u32,
};
pub const un = extern struct {
len: u8 = @sizeOf(un),
family: sa_family_t = AF.UNIX,
path: [104]u8,
};
},
.haiku => extern struct {
/// total length
len: u8,
/// address family
family: sa_family_t,
/// actually longer; address value
data: [14]u8,
pub const SS_MAXSIZE = 128;
pub const storage = extern struct {
len: u8 align(8),
family: sa_family_t,
padding: [126]u8 = undefined,
comptime {
assert(@sizeOf(storage) == SS_MAXSIZE);
assert(@alignOf(storage) == 8);
}
};
pub const in = extern struct {
len: u8 = @sizeOf(in),
family: sa_family_t = AF.INET,
port: in_port_t,
addr: u32,
zero: [8]u8 = [8]u8{ 0, 0, 0, 0, 0, 0, 0, 0 },
};
pub const in6 = extern struct {
len: u8 = @sizeOf(in6),
family: sa_family_t = AF.INET6,
port: in_port_t,
flowinfo: u32,
addr: [16]u8,
scope_id: u32,
};
pub const un = extern struct {
len: u8 = @sizeOf(un),
family: sa_family_t = AF.UNIX,
path: [104]u8,
};
},
.openbsd => extern struct {
/// total length
len: u8,
/// address family
family: sa_family_t,
/// actually longer; address value
data: [14]u8,
pub const SS_MAXSIZE = 256;
pub const storage = extern struct {
len: u8 align(8),
family: sa_family_t,
padding: [254]u8 = undefined,
comptime {
assert(@sizeOf(storage) == SS_MAXSIZE);
assert(@alignOf(storage) == 8);
}
};
pub const in = extern struct {
len: u8 = @sizeOf(in),
family: sa_family_t = AF.INET,
port: in_port_t,
addr: u32,
zero: [8]u8 = [8]u8{ 0, 0, 0, 0, 0, 0, 0, 0 },
};
pub const in6 = extern struct {
len: u8 = @sizeOf(in6),
family: sa_family_t = AF.INET6,
port: in_port_t,
flowinfo: u32,
addr: [16]u8,
scope_id: u32,
};
/// Definitions for UNIX IPC domain.
pub const un = extern struct {
/// total sockaddr length
len: u8 = @sizeOf(un),
family: sa_family_t = AF.LOCAL,
/// path name
path: [104]u8,
};
},
else => void,
};
pub const socklen_t = switch (native_os) {
.linux, .emscripten => linux.socklen_t,
.windows => ws2_32.socklen_t,
else => u32,
};
pub const in_port_t = u16;
pub const sa_family_t = switch (native_os) {
.linux, .emscripten => linux.sa_family_t,
.windows => ws2_32.ADDRESS_FAMILY,
.openbsd, .haiku, .dragonfly, .netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => u8,
.solaris, .illumos => u16,
else => void,
};
pub const AF = switch (native_os) {
.linux, .emscripten => linux.AF,
.windows => ws2_32.AF,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const UNSPEC = 0;
pub const LOCAL = 1;
pub const UNIX = LOCAL;
pub const INET = 2;
pub const SYS_CONTROL = 2;
pub const IMPLINK = 3;
pub const PUP = 4;
pub const CHAOS = 5;
pub const NS = 6;
pub const ISO = 7;
pub const OSI = ISO;
pub const ECMA = 8;
pub const DATAKIT = 9;
pub const CCITT = 10;
pub const SNA = 11;
pub const DECnet = 12;
pub const DLI = 13;
pub const LAT = 14;
pub const HYLINK = 15;
pub const APPLETALK = 16;
pub const ROUTE = 17;
pub const LINK = 18;
pub const XTP = 19;
pub const COIP = 20;
pub const CNT = 21;
pub const RTIP = 22;
pub const IPX = 23;
pub const SIP = 24;
pub const PIP = 25;
pub const ISDN = 28;
pub const E164 = ISDN;
pub const KEY = 29;
pub const INET6 = 30;
pub const NATM = 31;
pub const SYSTEM = 32;
pub const NETBIOS = 33;
pub const PPP = 34;
pub const MAX = 40;
},
.freebsd => struct {
pub const UNSPEC = 0;
pub const UNIX = 1;
pub const LOCAL = UNIX;
pub const FILE = LOCAL;
pub const INET = 2;
pub const IMPLINK = 3;
pub const PUP = 4;
pub const CHAOS = 5;
pub const NETBIOS = 6;
pub const ISO = 7;
pub const OSI = ISO;
pub const ECMA = 8;
pub const DATAKIT = 9;
pub const CCITT = 10;
pub const SNA = 11;
pub const DECnet = 12;
pub const DLI = 13;
pub const LAT = 14;
pub const HYLINK = 15;
pub const APPLETALK = 16;
pub const ROUTE = 17;
pub const LINK = 18;
pub const pseudo_XTP = 19;
pub const COIP = 20;
pub const CNT = 21;
pub const pseudo_RTIP = 22;
pub const IPX = 23;
pub const SIP = 24;
pub const pseudo_PIP = 25;
pub const ISDN = 26;
pub const E164 = ISDN;
pub const pseudo_KEY = 27;
pub const INET6 = 28;
pub const NATM = 29;
pub const ATM = 30;
pub const pseudo_HDRCMPLT = 31;
pub const NETGRAPH = 32;
pub const SLOW = 33;
pub const SCLUSTER = 34;
pub const ARP = 35;
pub const BLUETOOTH = 36;
pub const IEEE80211 = 37;
pub const INET_SDP = 40;
pub const INET6_SDP = 42;
pub const MAX = 42;
},
.solaris, .illumos => struct {
pub const UNSPEC = 0;
pub const UNIX = 1;
pub const LOCAL = UNIX;
pub const FILE = UNIX;
pub const INET = 2;
pub const IMPLINK = 3;
pub const PUP = 4;
pub const CHAOS = 5;
pub const NS = 6;
pub const NBS = 7;
pub const ECMA = 8;
pub const DATAKIT = 9;
pub const CCITT = 10;
pub const SNA = 11;
pub const DECnet = 12;
pub const DLI = 13;
pub const LAT = 14;
pub const HYLINK = 15;
pub const APPLETALK = 16;
pub const NIT = 17;
pub const @"802" = 18;
pub const OSI = 19;
pub const X25 = 20;
pub const OSINET = 21;
pub const GOSIP = 22;
pub const IPX = 23;
pub const ROUTE = 24;
pub const LINK = 25;
pub const INET6 = 26;
pub const KEY = 27;
pub const NCA = 28;
pub const POLICY = 29;
pub const INET_OFFLOAD = 30;
pub const TRILL = 31;
pub const PACKET = 32;
pub const LX_NETLINK = 33;
pub const MAX = 33;
},
.netbsd => struct {
pub const UNSPEC = 0;
pub const LOCAL = 1;
pub const UNIX = LOCAL;
pub const INET = 2;
pub const IMPLINK = 3;
pub const PUP = 4;
pub const CHAOS = 5;
pub const NS = 6;
pub const ISO = 7;
pub const OSI = ISO;
pub const ECMA = 8;
pub const DATAKIT = 9;
pub const CCITT = 10;
pub const SNA = 11;
pub const DECnet = 12;
pub const DLI = 13;
pub const LAT = 14;
pub const HYLINK = 15;
pub const APPLETALK = 16;
pub const OROUTE = 17;
pub const LINK = 18;
pub const COIP = 20;
pub const CNT = 21;
pub const IPX = 23;
pub const INET6 = 24;
pub const ISDN = 26;
pub const E164 = ISDN;
pub const NATM = 27;
pub const ARP = 28;
pub const BLUETOOTH = 31;
pub const IEEE80211 = 32;
pub const MPLS = 33;
pub const ROUTE = 34;
pub const CAN = 35;
pub const ETHER = 36;
pub const MAX = 37;
},
.dragonfly => struct {
pub const UNSPEC = 0;
pub const OSI = ISO;
pub const UNIX = LOCAL;
pub const LOCAL = 1;
pub const INET = 2;
pub const IMPLINK = 3;
pub const PUP = 4;
pub const CHAOS = 5;
pub const NETBIOS = 6;
pub const ISO = 7;
pub const ECMA = 8;
pub const DATAKIT = 9;
pub const CCITT = 10;
pub const SNA = 11;
pub const DLI = 13;
pub const LAT = 14;
pub const HYLINK = 15;
pub const APPLETALK = 16;
pub const ROUTE = 17;
pub const LINK = 18;
pub const COIP = 20;
pub const CNT = 21;
pub const IPX = 23;
pub const SIP = 24;
pub const ISDN = 26;
pub const INET6 = 28;
pub const NATM = 29;
pub const ATM = 30;
pub const NETGRAPH = 32;
pub const BLUETOOTH = 33;
pub const MPLS = 34;
pub const MAX = 36;
},
.haiku => struct {
pub const UNSPEC = 0;
pub const INET = 1;
pub const APPLETALK = 2;
pub const ROUTE = 3;
pub const LINK = 4;
pub const INET6 = 5;
pub const DLI = 6;
pub const IPX = 7;
pub const NOTIFY = 8;
pub const LOCAL = 9;
pub const UNIX = LOCAL;
pub const BLUETOOTH = 10;
pub const MAX = 11;
},
.openbsd => struct {
pub const UNSPEC = 0;
pub const UNIX = 1;
pub const LOCAL = UNIX;
pub const INET = 2;
pub const APPLETALK = 16;
pub const INET6 = 24;
pub const KEY = 30;
pub const ROUTE = 17;
pub const SNA = 11;
pub const MPLS = 33;
pub const BLUETOOTH = 32;
pub const ISDN = 26;
pub const MAX = 36;
},
else => void,
};
pub const PF = switch (native_os) {
.linux, .emscripten => linux.PF,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const UNSPEC = AF.UNSPEC;
pub const LOCAL = AF.LOCAL;
pub const UNIX = PF.LOCAL;
pub const INET = AF.INET;
pub const IMPLINK = AF.IMPLINK;
pub const PUP = AF.PUP;
pub const CHAOS = AF.CHAOS;
pub const NS = AF.NS;
pub const ISO = AF.ISO;
pub const OSI = AF.ISO;
pub const ECMA = AF.ECMA;
pub const DATAKIT = AF.DATAKIT;
pub const CCITT = AF.CCITT;
pub const SNA = AF.SNA;
pub const DECnet = AF.DECnet;
pub const DLI = AF.DLI;
pub const LAT = AF.LAT;
pub const HYLINK = AF.HYLINK;
pub const APPLETALK = AF.APPLETALK;
pub const ROUTE = AF.ROUTE;
pub const LINK = AF.LINK;
pub const XTP = AF.XTP;
pub const COIP = AF.COIP;
pub const CNT = AF.CNT;
pub const SIP = AF.SIP;
pub const IPX = AF.IPX;
pub const RTIP = AF.RTIP;
pub const PIP = AF.PIP;
pub const ISDN = AF.ISDN;
pub const KEY = AF.KEY;
pub const INET6 = AF.INET6;
pub const NATM = AF.NATM;
pub const SYSTEM = AF.SYSTEM;
pub const NETBIOS = AF.NETBIOS;
pub const PPP = AF.PPP;
pub const MAX = AF.MAX;
},
.freebsd => struct {
pub const UNSPEC = AF.UNSPEC;
pub const LOCAL = AF.LOCAL;
pub const UNIX = PF.LOCAL;
pub const INET = AF.INET;
pub const IMPLINK = AF.IMPLINK;
pub const PUP = AF.PUP;
pub const CHAOS = AF.CHAOS;
pub const NETBIOS = AF.NETBIOS;
pub const ISO = AF.ISO;
pub const OSI = AF.ISO;
pub const ECMA = AF.ECMA;
pub const DATAKIT = AF.DATAKIT;
pub const CCITT = AF.CCITT;
pub const DECnet = AF.DECnet;
pub const DLI = AF.DLI;
pub const LAT = AF.LAT;
pub const HYLINK = AF.HYLINK;
pub const APPLETALK = AF.APPLETALK;
pub const ROUTE = AF.ROUTE;
pub const LINK = AF.LINK;
pub const XTP = AF.pseudo_XTP;
pub const COIP = AF.COIP;
pub const CNT = AF.CNT;
pub const SIP = AF.SIP;
pub const IPX = AF.IPX;
pub const RTIP = AF.pseudo_RTIP;
pub const PIP = AF.pseudo_PIP;
pub const ISDN = AF.ISDN;
pub const KEY = AF.pseudo_KEY;
pub const INET6 = AF.pseudo_INET6;
pub const NATM = AF.NATM;
pub const ATM = AF.ATM;
pub const NETGRAPH = AF.NETGRAPH;
pub const SLOW = AF.SLOW;
pub const SCLUSTER = AF.SCLUSTER;
pub const ARP = AF.ARP;
pub const BLUETOOTH = AF.BLUETOOTH;
pub const IEEE80211 = AF.IEEE80211;
pub const INET_SDP = AF.INET_SDP;
pub const INET6_SDP = AF.INET6_SDP;
pub const MAX = AF.MAX;
},
.solaris, .illumos => struct {
pub const UNSPEC = AF.UNSPEC;
pub const UNIX = AF.UNIX;
pub const LOCAL = UNIX;
pub const FILE = UNIX;
pub const INET = AF.INET;
pub const IMPLINK = AF.IMPLINK;
pub const PUP = AF.PUP;
pub const CHAOS = AF.CHAOS;
pub const NS = AF.NS;
pub const NBS = AF.NBS;
pub const ECMA = AF.ECMA;
pub const DATAKIT = AF.DATAKIT;
pub const CCITT = AF.CCITT;
pub const SNA = AF.SNA;
pub const DECnet = AF.DECnet;
pub const DLI = AF.DLI;
pub const LAT = AF.LAT;
pub const HYLINK = AF.HYLINK;
pub const APPLETALK = AF.APPLETALK;
pub const NIT = AF.NIT;
pub const @"802" = AF.@"802";
pub const OSI = AF.OSI;
pub const X25 = AF.X25;
pub const OSINET = AF.OSINET;
pub const GOSIP = AF.GOSIP;
pub const IPX = AF.IPX;
pub const ROUTE = AF.ROUTE;
pub const LINK = AF.LINK;
pub const INET6 = AF.INET6;
pub const KEY = AF.KEY;
pub const NCA = AF.NCA;
pub const POLICY = AF.POLICY;
pub const TRILL = AF.TRILL;
pub const PACKET = AF.PACKET;
pub const LX_NETLINK = AF.LX_NETLINK;
pub const MAX = AF.MAX;
},
.netbsd => struct {
pub const UNSPEC = AF.UNSPEC;
pub const LOCAL = AF.LOCAL;
pub const UNIX = PF.LOCAL;
pub const INET = AF.INET;
pub const IMPLINK = AF.IMPLINK;
pub const PUP = AF.PUP;
pub const CHAOS = AF.CHAOS;
pub const NS = AF.NS;
pub const ISO = AF.ISO;
pub const OSI = AF.ISO;
pub const ECMA = AF.ECMA;
pub const DATAKIT = AF.DATAKIT;
pub const CCITT = AF.CCITT;
pub const SNA = AF.SNA;
pub const DECnet = AF.DECnet;
pub const DLI = AF.DLI;
pub const LAT = AF.LAT;
pub const HYLINK = AF.HYLINK;
pub const APPLETALK = AF.APPLETALK;
pub const OROUTE = AF.OROUTE;
pub const LINK = AF.LINK;
pub const COIP = AF.COIP;
pub const CNT = AF.CNT;
pub const INET6 = AF.INET6;
pub const IPX = AF.IPX;
pub const ISDN = AF.ISDN;
pub const E164 = AF.E164;
pub const NATM = AF.NATM;
pub const ARP = AF.ARP;
pub const BLUETOOTH = AF.BLUETOOTH;
pub const MPLS = AF.MPLS;
pub const ROUTE = AF.ROUTE;
pub const CAN = AF.CAN;
pub const ETHER = AF.ETHER;
pub const MAX = AF.MAX;
},
.dragonfly => struct {
pub const INET6 = AF.INET6;
pub const IMPLINK = AF.IMPLINK;
pub const ROUTE = AF.ROUTE;
pub const ISO = AF.ISO;
pub const PIP = AF.pseudo_PIP;
pub const CHAOS = AF.CHAOS;
pub const DATAKIT = AF.DATAKIT;
pub const INET = AF.INET;
pub const APPLETALK = AF.APPLETALK;
pub const SIP = AF.SIP;
pub const OSI = AF.ISO;
pub const CNT = AF.CNT;
pub const LINK = AF.LINK;
pub const HYLINK = AF.HYLINK;
pub const MAX = AF.MAX;
pub const KEY = AF.pseudo_KEY;
pub const PUP = AF.PUP;
pub const COIP = AF.COIP;
pub const SNA = AF.SNA;
pub const LOCAL = AF.LOCAL;
pub const NETBIOS = AF.NETBIOS;
pub const NATM = AF.NATM;
pub const BLUETOOTH = AF.BLUETOOTH;
pub const UNSPEC = AF.UNSPEC;
pub const NETGRAPH = AF.NETGRAPH;
pub const ECMA = AF.ECMA;
pub const IPX = AF.IPX;
pub const DLI = AF.DLI;
pub const ATM = AF.ATM;
pub const CCITT = AF.CCITT;
pub const ISDN = AF.ISDN;
pub const RTIP = AF.pseudo_RTIP;
pub const LAT = AF.LAT;
pub const UNIX = PF.LOCAL;
pub const XTP = AF.pseudo_XTP;
pub const DECnet = AF.DECnet;
},
.haiku => struct {
pub const UNSPEC = AF.UNSPEC;
pub const INET = AF.INET;
pub const ROUTE = AF.ROUTE;
pub const LINK = AF.LINK;
pub const INET6 = AF.INET6;
pub const LOCAL = AF.LOCAL;
pub const UNIX = AF.UNIX;
pub const BLUETOOTH = AF.BLUETOOTH;
},
.openbsd => struct {
pub const UNSPEC = AF.UNSPEC;
pub const LOCAL = AF.LOCAL;
pub const UNIX = AF.UNIX;
pub const INET = AF.INET;
pub const APPLETALK = AF.APPLETALK;
pub const INET6 = AF.INET6;
pub const DECnet = AF.DECnet;
pub const KEY = AF.KEY;
pub const ROUTE = AF.ROUTE;
pub const SNA = AF.SNA;
pub const MPLS = AF.MPLS;
pub const BLUETOOTH = AF.BLUETOOTH;
pub const ISDN = AF.ISDN;
pub const MAX = AF.MAX;
},
else => void,
};
pub const DT = switch (native_os) {
.linux => linux.DT,
.netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => struct {
pub const UNKNOWN = 0;
pub const FIFO = 1;
pub const CHR = 2;
pub const DIR = 4;
pub const BLK = 6;
pub const REG = 8;
pub const LNK = 10;
pub const SOCK = 12;
pub const WHT = 14;
},
.dragonfly => struct {
pub const UNKNOWN = 0;
pub const FIFO = 1;
pub const CHR = 2;
pub const DIR = 4;
pub const BLK = 6;
pub const REG = 8;
pub const LNK = 10;
pub const SOCK = 12;
pub const WHT = 14;
pub const DBF = 15;
},
.openbsd => struct {
pub const UNKNOWN = 0;
pub const FIFO = 1;
pub const CHR = 2;
pub const DIR = 4;
pub const BLK = 6;
pub const REG = 8;
pub const LNK = 10;
pub const SOCK = 12;
pub const WHT = 14; // XXX
},
else => void,
};
pub const MSG = switch (native_os) {
.linux => linux.MSG,
.emscripten => emscripten.MSG,
.windows => ws2_32.MSG,
.haiku => struct {
pub const OOB = 0x0001;
pub const PEEK = 0x0002;
pub const DONTROUTE = 0x0004;
pub const EOR = 0x0008;
pub const TRUNC = 0x0010;
pub const CTRUNC = 0x0020;
pub const WAITALL = 0x0040;
pub const DONTWAIT = 0x0080;
pub const BCAST = 0x0100;
pub const MCAST = 0x0200;
pub const EOF = 0x0400;
pub const NOSIGNAL = 0x0800;
},
else => void,
};
pub const SOCK = switch (native_os) {
.linux => linux.SOCK,
.emscripten => emscripten.SOCK,
.windows => ws2_32.SOCK,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const STREAM = 1;
pub const DGRAM = 2;
pub const RAW = 3;
pub const RDM = 4;
pub const SEQPACKET = 5;
pub const MAXADDRLEN = 255;
/// Not actually supported by Darwin, but Zig supplies a shim.
/// This numerical value is not ABI-stable. It need only not conflict
/// with any other `SOCK` bits.
pub const CLOEXEC = 1 << 15;
/// Not actually supported by Darwin, but Zig supplies a shim.
/// This numerical value is not ABI-stable. It need only not conflict
/// with any other `SOCK` bits.
pub const NONBLOCK = 1 << 16;
},
.freebsd => struct {
pub const STREAM = 1;
pub const DGRAM = 2;
pub const RAW = 3;
pub const RDM = 4;
pub const SEQPACKET = 5;
pub const CLOEXEC = 0x10000000;
pub const NONBLOCK = 0x20000000;
},
.solaris, .illumos => struct {
/// Datagram.
pub const DGRAM = 1;
/// STREAM.
pub const STREAM = 2;
/// Raw-protocol interface.
pub const RAW = 4;
/// Reliably-delivered message.
pub const RDM = 5;
/// Sequenced packed stream.
pub const SEQPACKET = 6;
pub const NONBLOCK = 0x100000;
pub const NDELAY = 0x200000;
pub const CLOEXEC = 0x080000;
},
.netbsd => struct {
pub const STREAM = 1;
pub const DGRAM = 2;
pub const RAW = 3;
pub const RDM = 4;
pub const SEQPACKET = 5;
pub const CONN_DGRAM = 6;
pub const DCCP = CONN_DGRAM;
pub const CLOEXEC = 0x10000000;
pub const NONBLOCK = 0x20000000;
pub const NOSIGPIPE = 0x40000000;
pub const FLAGS_MASK = 0xf0000000;
},
.dragonfly => struct {
pub const STREAM = 1;
pub const DGRAM = 2;
pub const RAW = 3;
pub const RDM = 4;
pub const SEQPACKET = 5;
pub const MAXADDRLEN = 255;
pub const CLOEXEC = 0x10000000;
pub const NONBLOCK = 0x20000000;
},
.haiku => struct {
pub const STREAM = 1;
pub const DGRAM = 2;
pub const RAW = 3;
pub const SEQPACKET = 5;
pub const MISC = 255;
},
.openbsd => struct {
pub const STREAM = 1;
pub const DGRAM = 2;
pub const RAW = 3;
pub const RDM = 4;
pub const SEQPACKET = 5;
pub const CLOEXEC = 0x8000;
pub const NONBLOCK = 0x4000;
},
else => void,
};
pub const TCP = switch (native_os) {
.linux => linux.TCP,
.emscripten => emscripten.TCP,
.windows => ws2_32.TCP,
else => void,
};
pub const IPPROTO = switch (native_os) {
.linux, .emscripten => linux.IPPROTO,
.windows => ws2_32.IPPROTO,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const ICMP = 1;
pub const ICMPV6 = 58;
pub const TCP = 6;
pub const UDP = 17;
pub const IP = 0;
pub const IPV6 = 41;
},
.freebsd => struct {
/// dummy for IP
pub const IP = 0;
/// control message protocol
pub const ICMP = 1;
/// tcp
pub const TCP = 6;
/// user datagram protocol
pub const UDP = 17;
/// IP6 header
pub const IPV6 = 41;
/// raw IP packet
pub const RAW = 255;
/// IP6 hop-by-hop options
pub const HOPOPTS = 0;
/// group mgmt protocol
pub const IGMP = 2;
/// gateway^2 (deprecated)
pub const GGP = 3;
/// IPv4 encapsulation
pub const IPV4 = 4;
/// for compatibility
pub const IPIP = IPV4;
/// Stream protocol II
pub const ST = 7;
/// exterior gateway protocol
pub const EGP = 8;
/// private interior gateway
pub const PIGP = 9;
/// BBN RCC Monitoring
pub const RCCMON = 10;
/// network voice protocol
pub const NVPII = 11;
/// pup
pub const PUP = 12;
/// Argus
pub const ARGUS = 13;
/// EMCON
pub const EMCON = 14;
/// Cross Net Debugger
pub const XNET = 15;
/// Chaos
pub const CHAOS = 16;
/// Multiplexing
pub const MUX = 18;
/// DCN Measurement Subsystems
pub const MEAS = 19;
/// Host Monitoring
pub const HMP = 20;
/// Packet Radio Measurement
pub const PRM = 21;
/// xns idp
pub const IDP = 22;
/// Trunk-1
pub const TRUNK1 = 23;
/// Trunk-2
pub const TRUNK2 = 24;
/// Leaf-1
pub const LEAF1 = 25;
/// Leaf-2
pub const LEAF2 = 26;
/// Reliable Data
pub const RDP = 27;
/// Reliable Transaction
pub const IRTP = 28;
/// tp-4 w/ class negotiation
pub const TP = 29;
/// Bulk Data Transfer
pub const BLT = 30;
/// Network Services
pub const NSP = 31;
/// Merit Internodal
pub const INP = 32;
/// Datagram Congestion Control Protocol
pub const DCCP = 33;
/// Third Party Connect
pub const @"3PC" = 34;
/// InterDomain Policy Routing
pub const IDPR = 35;
/// XTP
pub const XTP = 36;
/// Datagram Delivery
pub const DDP = 37;
/// Control Message Transport
pub const CMTP = 38;
/// TP++ Transport
pub const TPXX = 39;
/// IL transport protocol
pub const IL = 40;
/// Source Demand Routing
pub const SDRP = 42;
/// IP6 routing header
pub const ROUTING = 43;
/// IP6 fragmentation header
pub const FRAGMENT = 44;
/// InterDomain Routing
pub const IDRP = 45;
/// resource reservation
pub const RSVP = 46;
/// General Routing Encap.
pub const GRE = 47;
/// Mobile Host Routing
pub const MHRP = 48;
/// BHA
pub const BHA = 49;
/// IP6 Encap Sec. Payload
pub const ESP = 50;
/// IP6 Auth Header
pub const AH = 51;
/// Integ. Net Layer Security
pub const INLSP = 52;
/// IP with encryption
pub const SWIPE = 53;
/// Next Hop Resolution
pub const NHRP = 54;
/// IP Mobility
pub const MOBILE = 55;
/// Transport Layer Security
pub const TLSP = 56;
/// SKIP
pub const SKIP = 57;
/// ICMP6
pub const ICMPV6 = 58;
/// IP6 no next header
pub const NONE = 59;
/// IP6 destination option
pub const DSTOPTS = 60;
/// any host internal protocol
pub const AHIP = 61;
/// CFTP
pub const CFTP = 62;
/// "hello" routing protocol
pub const HELLO = 63;
/// SATNET/Backroom EXPAK
pub const SATEXPAK = 64;
/// Kryptolan
pub const KRYPTOLAN = 65;
/// Remote Virtual Disk
pub const RVD = 66;
/// Pluribus Packet Core
pub const IPPC = 67;
/// Any distributed FS
pub const ADFS = 68;
/// Satnet Monitoring
pub const SATMON = 69;
/// VISA Protocol
pub const VISA = 70;
/// Packet Core Utility
pub const IPCV = 71;
/// Comp. Prot. Net. Executive
pub const CPNX = 72;
/// Comp. Prot. HeartBeat
pub const CPHB = 73;
/// Wang Span Network
pub const WSN = 74;
/// Packet Video Protocol
pub const PVP = 75;
/// BackRoom SATNET Monitoring
pub const BRSATMON = 76;
/// Sun net disk proto (temp.)
pub const ND = 77;
/// WIDEBAND Monitoring
pub const WBMON = 78;
/// WIDEBAND EXPAK
pub const WBEXPAK = 79;
/// ISO cnlp
pub const EON = 80;
/// VMTP
pub const VMTP = 81;
/// Secure VMTP
pub const SVMTP = 82;
/// Banyon VINES
pub const VINES = 83;
/// TTP
pub const TTP = 84;
/// NSFNET-IGP
pub const IGP = 85;
/// dissimilar gateway prot.
pub const DGP = 86;
/// TCF
pub const TCF = 87;
/// Cisco/GXS IGRP
pub const IGRP = 88;
/// OSPFIGP
pub const OSPFIGP = 89;
/// Strite RPC protocol
pub const SRPC = 90;
/// Locus Address Resoloution
pub const LARP = 91;
/// Multicast Transport
pub const MTP = 92;
/// AX.25 Frames
pub const AX25 = 93;
/// IP encapsulated in IP
pub const IPEIP = 94;
/// Mobile Int.ing control
pub const MICP = 95;
/// Semaphore Comm. security
pub const SCCSP = 96;
/// Ethernet IP encapsulation
pub const ETHERIP = 97;
/// encapsulation header
pub const ENCAP = 98;
/// any private encr. scheme
pub const APES = 99;
/// GMTP
pub const GMTP = 100;
/// payload compression (IPComp)
pub const IPCOMP = 108;
/// SCTP
pub const SCTP = 132;
/// IPv6 Mobility Header
pub const MH = 135;
/// UDP-Lite
pub const UDPLITE = 136;
/// IP6 Host Identity Protocol
pub const HIP = 139;
/// IP6 Shim6 Protocol
pub const SHIM6 = 140;
/// Protocol Independent Mcast
pub const PIM = 103;
/// CARP
pub const CARP = 112;
/// PGM
pub const PGM = 113;
/// MPLS-in-IP
pub const MPLS = 137;
/// PFSYNC
pub const PFSYNC = 240;
/// Reserved
pub const RESERVED_253 = 253;
/// Reserved
pub const RESERVED_254 = 254;
},
.solaris, .illumos => struct {
/// dummy for IP
pub const IP = 0;
/// Hop by hop header for IPv6
pub const HOPOPTS = 0;
/// control message protocol
pub const ICMP = 1;
/// group control protocol
pub const IGMP = 2;
/// gateway^2 (deprecated)
pub const GGP = 3;
/// IP in IP encapsulation
pub const ENCAP = 4;
/// tcp
pub const TCP = 6;
/// exterior gateway protocol
pub const EGP = 8;
/// pup
pub const PUP = 12;
/// user datagram protocol
pub const UDP = 17;
/// xns idp
pub const IDP = 22;
/// IPv6 encapsulated in IP
pub const IPV6 = 41;
/// Routing header for IPv6
pub const ROUTING = 43;
/// Fragment header for IPv6
pub const FRAGMENT = 44;
/// rsvp
pub const RSVP = 46;
/// IPsec Encap. Sec. Payload
pub const ESP = 50;
/// IPsec Authentication Hdr.
pub const AH = 51;
/// ICMP for IPv6
pub const ICMPV6 = 58;
/// No next header for IPv6
pub const NONE = 59;
/// Destination options
pub const DSTOPTS = 60;
/// "hello" routing protocol
pub const HELLO = 63;
/// UNOFFICIAL net disk proto
pub const ND = 77;
/// ISO clnp
pub const EON = 80;
/// OSPF
pub const OSPF = 89;
/// PIM routing protocol
pub const PIM = 103;
/// Stream Control
pub const SCTP = 132;
/// raw IP packet
pub const RAW = 255;
/// Sockets Direct Protocol
pub const PROTO_SDP = 257;
},
.netbsd => struct {
/// dummy for IP
pub const IP = 0;
/// IP6 hop-by-hop options
pub const HOPOPTS = 0;
/// control message protocol
pub const ICMP = 1;
/// group mgmt protocol
pub const IGMP = 2;
/// gateway^2 (deprecated)
pub const GGP = 3;
/// IP header
pub const IPV4 = 4;
/// IP inside IP
pub const IPIP = 4;
/// tcp
pub const TCP = 6;
/// exterior gateway protocol
pub const EGP = 8;
/// pup
pub const PUP = 12;
/// user datagram protocol
pub const UDP = 17;
/// xns idp
pub const IDP = 22;
/// tp-4 w/ class negotiation
pub const TP = 29;
/// DCCP
pub const DCCP = 33;
/// IP6 header
pub const IPV6 = 41;
/// IP6 routing header
pub const ROUTING = 43;
/// IP6 fragmentation header
pub const FRAGMENT = 44;
/// resource reservation
pub const RSVP = 46;
/// GRE encaps RFC 1701
pub const GRE = 47;
/// encap. security payload
pub const ESP = 50;
/// authentication header
pub const AH = 51;
/// IP Mobility RFC 2004
pub const MOBILE = 55;
/// IPv6 ICMP
pub const IPV6_ICMP = 58;
/// ICMP6
pub const ICMPV6 = 58;
/// IP6 no next header
pub const NONE = 59;
/// IP6 destination option
pub const DSTOPTS = 60;
/// ISO cnlp
pub const EON = 80;
/// Ethernet-in-IP
pub const ETHERIP = 97;
/// encapsulation header
pub const ENCAP = 98;
/// Protocol indep. multicast
pub const PIM = 103;
/// IP Payload Comp. Protocol
pub const IPCOMP = 108;
/// VRRP RFC 2338
pub const VRRP = 112;
/// Common Address Resolution Protocol
pub const CARP = 112;
/// L2TPv3
pub const L2TP = 115;
/// SCTP
pub const SCTP = 132;
/// PFSYNC
pub const PFSYNC = 240;
/// raw IP packet
pub const RAW = 255;
},
.dragonfly => struct {
pub const IP = 0;
pub const ICMP = 1;
pub const TCP = 6;
pub const UDP = 17;
pub const IPV6 = 41;
pub const RAW = 255;
pub const HOPOPTS = 0;
pub const IGMP = 2;
pub const GGP = 3;
pub const IPV4 = 4;
pub const IPIP = IPV4;
pub const ST = 7;
pub const EGP = 8;
pub const PIGP = 9;
pub const RCCMON = 10;
pub const NVPII = 11;
pub const PUP = 12;
pub const ARGUS = 13;
pub const EMCON = 14;
pub const XNET = 15;
pub const CHAOS = 16;
pub const MUX = 18;
pub const MEAS = 19;
pub const HMP = 20;
pub const PRM = 21;
pub const IDP = 22;
pub const TRUNK1 = 23;
pub const TRUNK2 = 24;
pub const LEAF1 = 25;
pub const LEAF2 = 26;
pub const RDP = 27;
pub const IRTP = 28;
pub const TP = 29;
pub const BLT = 30;
pub const NSP = 31;
pub const INP = 32;
pub const SEP = 33;
pub const @"3PC" = 34;
pub const IDPR = 35;
pub const XTP = 36;
pub const DDP = 37;
pub const CMTP = 38;
pub const TPXX = 39;
pub const IL = 40;
pub const SDRP = 42;
pub const ROUTING = 43;
pub const FRAGMENT = 44;
pub const IDRP = 45;
pub const RSVP = 46;
pub const GRE = 47;
pub const MHRP = 48;
pub const BHA = 49;
pub const ESP = 50;
pub const AH = 51;
pub const INLSP = 52;
pub const SWIPE = 53;
pub const NHRP = 54;
pub const MOBILE = 55;
pub const TLSP = 56;
pub const SKIP = 57;
pub const ICMPV6 = 58;
pub const NONE = 59;
pub const DSTOPTS = 60;
pub const AHIP = 61;
pub const CFTP = 62;
pub const HELLO = 63;
pub const SATEXPAK = 64;
pub const KRYPTOLAN = 65;
pub const RVD = 66;
pub const IPPC = 67;
pub const ADFS = 68;
pub const SATMON = 69;
pub const VISA = 70;
pub const IPCV = 71;
pub const CPNX = 72;
pub const CPHB = 73;
pub const WSN = 74;
pub const PVP = 75;
pub const BRSATMON = 76;
pub const ND = 77;
pub const WBMON = 78;
pub const WBEXPAK = 79;
pub const EON = 80;
pub const VMTP = 81;
pub const SVMTP = 82;
pub const VINES = 83;
pub const TTP = 84;
pub const IGP = 85;
pub const DGP = 86;
pub const TCF = 87;
pub const IGRP = 88;
pub const OSPFIGP = 89;
pub const SRPC = 90;
pub const LARP = 91;
pub const MTP = 92;
pub const AX25 = 93;
pub const IPEIP = 94;
pub const MICP = 95;
pub const SCCSP = 96;
pub const ETHERIP = 97;
pub const ENCAP = 98;
pub const APES = 99;
pub const GMTP = 100;
pub const IPCOMP = 108;
pub const PIM = 103;
pub const CARP = 112;
pub const PGM = 113;
pub const PFSYNC = 240;
pub const DIVERT = 254;
pub const MAX = 256;
pub const DONE = 257;
pub const UNKNOWN = 258;
},
.haiku => struct {
pub const IP = 0;
pub const HOPOPTS = 0;
pub const ICMP = 1;
pub const IGMP = 2;
pub const TCP = 6;
pub const UDP = 17;
pub const IPV6 = 41;
pub const ROUTING = 43;
pub const FRAGMENT = 44;
pub const ESP = 50;
pub const AH = 51;
pub const ICMPV6 = 58;
pub const NONE = 59;
pub const DSTOPTS = 60;
pub const ETHERIP = 97;
pub const RAW = 255;
pub const MAX = 256;
},
.openbsd => struct {
/// dummy for IP
pub const IP = 0;
/// IP6 hop-by-hop options
pub const HOPOPTS = IP;
/// control message protocol
pub const ICMP = 1;
/// group mgmt protocol
pub const IGMP = 2;
/// gateway^2 (deprecated)
pub const GGP = 3;
/// IP header
pub const IPV4 = IPIP;
/// IP inside IP
pub const IPIP = 4;
/// tcp
pub const TCP = 6;
/// exterior gateway protocol
pub const EGP = 8;
/// pup
pub const PUP = 12;
/// user datagram protocol
pub const UDP = 17;
/// xns idp
pub const IDP = 22;
/// tp-4 w/ class negotiation
pub const TP = 29;
/// IP6 header
pub const IPV6 = 41;
/// IP6 routing header
pub const ROUTING = 43;
/// IP6 fragmentation header
pub const FRAGMENT = 44;
/// resource reservation
pub const RSVP = 46;
/// GRE encaps RFC 1701
pub const GRE = 47;
/// encap. security payload
pub const ESP = 50;
/// authentication header
pub const AH = 51;
/// IP Mobility RFC 2004
pub const MOBILE = 55;
/// IPv6 ICMP
pub const IPV6_ICMP = 58;
/// ICMP6
pub const ICMPV6 = 58;
/// IP6 no next header
pub const NONE = 59;
/// IP6 destination option
pub const DSTOPTS = 60;
/// ISO cnlp
pub const EON = 80;
/// Ethernet-in-IP
pub const ETHERIP = 97;
/// encapsulation header
pub const ENCAP = 98;
/// Protocol indep. multicast
pub const PIM = 103;
/// IP Payload Comp. Protocol
pub const IPCOMP = 108;
/// VRRP RFC 2338
pub const VRRP = 112;
/// Common Address Resolution Protocol
pub const CARP = 112;
/// PFSYNC
pub const PFSYNC = 240;
/// raw IP packet
pub const RAW = 255;
},
else => void,
};
pub const SOL = switch (native_os) {
.linux => linux.SOL,
.emscripten => emscripten.SOL,
.windows => ws2_32.SOL,
.openbsd, .haiku, .dragonfly, .netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => struct {
pub const SOCKET = 0xffff;
},
.solaris, .illumos => struct {
pub const SOCKET = 0xffff;
pub const ROUTE = 0xfffe;
pub const PACKET = 0xfffd;
pub const FILTER = 0xfffc;
},
else => void,
};
pub const SO = switch (native_os) {
.linux => linux.SO,
.emscripten => emscripten.SO,
.windows => ws2_32.SO,
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const DEBUG = 0x0001;
pub const ACCEPTCONN = 0x0002;
pub const REUSEADDR = 0x0004;
pub const KEEPALIVE = 0x0008;
pub const DONTROUTE = 0x0010;
pub const BROADCAST = 0x0020;
pub const USELOOPBACK = 0x0040;
pub const LINGER = 0x1080;
pub const OOBINLINE = 0x0100;
pub const REUSEPORT = 0x0200;
pub const ACCEPTFILTER = 0x1000;
pub const SNDBUF = 0x1001;
pub const RCVBUF = 0x1002;
pub const SNDLOWAT = 0x1003;
pub const RCVLOWAT = 0x1004;
pub const SNDTIMEO = 0x1005;
pub const RCVTIMEO = 0x1006;
pub const ERROR = 0x1007;
pub const TYPE = 0x1008;
pub const NREAD = 0x1020;
pub const NKE = 0x1021;
pub const NOSIGPIPE = 0x1022;
pub const NOADDRERR = 0x1023;
pub const NWRITE = 0x1024;
pub const REUSESHAREUID = 0x1025;
},
.freebsd => struct {
pub const DEBUG = 0x00000001;
pub const ACCEPTCONN = 0x00000002;
pub const REUSEADDR = 0x00000004;
pub const KEEPALIVE = 0x00000008;
pub const DONTROUTE = 0x00000010;
pub const BROADCAST = 0x00000020;
pub const USELOOPBACK = 0x00000040;
pub const LINGER = 0x00000080;
pub const OOBINLINE = 0x00000100;
pub const REUSEPORT = 0x00000200;
pub const TIMESTAMP = 0x00000400;
pub const NOSIGPIPE = 0x00000800;
pub const ACCEPTFILTER = 0x00001000;
pub const BINTIME = 0x00002000;
pub const NO_OFFLOAD = 0x00004000;
pub const NO_DDP = 0x00008000;
pub const REUSEPORT_LB = 0x00010000;
pub const SNDBUF = 0x1001;
pub const RCVBUF = 0x1002;
pub const SNDLOWAT = 0x1003;
pub const RCVLOWAT = 0x1004;
pub const SNDTIMEO = 0x1005;
pub const RCVTIMEO = 0x1006;
pub const ERROR = 0x1007;
pub const TYPE = 0x1008;
pub const LABEL = 0x1009;
pub const PEERLABEL = 0x1010;
pub const LISTENQLIMIT = 0x1011;
pub const LISTENQLEN = 0x1012;
pub const LISTENINCQLEN = 0x1013;
pub const SETFIB = 0x1014;
pub const USER_COOKIE = 0x1015;
pub const PROTOCOL = 0x1016;
pub const PROTOTYPE = PROTOCOL;
pub const TS_CLOCK = 0x1017;
pub const MAX_PACING_RATE = 0x1018;
pub const DOMAIN = 0x1019;
},
.solaris, .illumos => struct {
pub const DEBUG = 0x0001;
pub const ACCEPTCONN = 0x0002;
pub const REUSEADDR = 0x0004;
pub const KEEPALIVE = 0x0008;
pub const DONTROUTE = 0x0010;
pub const BROADCAST = 0x0020;
pub const USELOOPBACK = 0x0040;
pub const LINGER = 0x0080;
pub const OOBINLINE = 0x0100;
pub const DGRAM_ERRIND = 0x0200;
pub const RECVUCRED = 0x0400;
pub const SNDBUF = 0x1001;
pub const RCVBUF = 0x1002;
pub const SNDLOWAT = 0x1003;
pub const RCVLOWAT = 0x1004;
pub const SNDTIMEO = 0x1005;
pub const RCVTIMEO = 0x1006;
pub const ERROR = 0x1007;
pub const TYPE = 0x1008;
pub const PROTOTYPE = 0x1009;
pub const ANON_MLP = 0x100a;
pub const MAC_EXEMPT = 0x100b;
pub const DOMAIN = 0x100c;
pub const RCVPSH = 0x100d;
pub const SECATTR = 0x1011;
pub const TIMESTAMP = 0x1013;
pub const ALLZONES = 0x1014;
pub const EXCLBIND = 0x1015;
pub const MAC_IMPLICIT = 0x1016;
pub const VRRP = 0x1017;
},
.netbsd => struct {
pub const DEBUG = 0x0001;
pub const ACCEPTCONN = 0x0002;
pub const REUSEADDR = 0x0004;
pub const KEEPALIVE = 0x0008;
pub const DONTROUTE = 0x0010;
pub const BROADCAST = 0x0020;
pub const USELOOPBACK = 0x0040;
pub const LINGER = 0x0080;
pub const OOBINLINE = 0x0100;
pub const REUSEPORT = 0x0200;
pub const NOSIGPIPE = 0x0800;
pub const ACCEPTFILTER = 0x1000;
pub const TIMESTAMP = 0x2000;
pub const RERROR = 0x4000;
pub const SNDBUF = 0x1001;
pub const RCVBUF = 0x1002;
pub const SNDLOWAT = 0x1003;
pub const RCVLOWAT = 0x1004;
pub const ERROR = 0x1007;
pub const TYPE = 0x1008;
pub const OVERFLOWED = 0x1009;
pub const NOHEADER = 0x100a;
pub const SNDTIMEO = 0x100b;
pub const RCVTIMEO = 0x100c;
},
.dragonfly => struct {
pub const DEBUG = 0x0001;
pub const ACCEPTCONN = 0x0002;
pub const REUSEADDR = 0x0004;
pub const KEEPALIVE = 0x0008;
pub const DONTROUTE = 0x0010;
pub const BROADCAST = 0x0020;
pub const USELOOPBACK = 0x0040;
pub const LINGER = 0x0080;
pub const OOBINLINE = 0x0100;
pub const REUSEPORT = 0x0200;
pub const TIMESTAMP = 0x0400;
pub const NOSIGPIPE = 0x0800;
pub const ACCEPTFILTER = 0x1000;
pub const RERROR = 0x2000;
pub const PASSCRED = 0x4000;
pub const SNDBUF = 0x1001;
pub const RCVBUF = 0x1002;
pub const SNDLOWAT = 0x1003;
pub const RCVLOWAT = 0x1004;
pub const SNDTIMEO = 0x1005;
pub const RCVTIMEO = 0x1006;
pub const ERROR = 0x1007;
pub const TYPE = 0x1008;
pub const SNDSPACE = 0x100a;
pub const CPUHINT = 0x1030;
},
.haiku => struct {
pub const ACCEPTCONN = 0x00000001;
pub const BROADCAST = 0x00000002;
pub const DEBUG = 0x00000004;
pub const DONTROUTE = 0x00000008;
pub const KEEPALIVE = 0x00000010;
pub const OOBINLINE = 0x00000020;
pub const REUSEADDR = 0x00000040;
pub const REUSEPORT = 0x00000080;
pub const USELOOPBACK = 0x00000100;
pub const LINGER = 0x00000200;
pub const SNDBUF = 0x40000001;
pub const SNDLOWAT = 0x40000002;
pub const SNDTIMEO = 0x40000003;
pub const RCVBUF = 0x40000004;
pub const RCVLOWAT = 0x40000005;
pub const RCVTIMEO = 0x40000006;
pub const ERROR = 0x40000007;
pub const TYPE = 0x40000008;
pub const NONBLOCK = 0x40000009;
pub const BINDTODEVICE = 0x4000000a;
pub const PEERCRED = 0x4000000b;
},
.openbsd => struct {
pub const DEBUG = 0x0001;
pub const ACCEPTCONN = 0x0002;
pub const REUSEADDR = 0x0004;
pub const KEEPALIVE = 0x0008;
pub const DONTROUTE = 0x0010;
pub const BROADCAST = 0x0020;
pub const USELOOPBACK = 0x0040;
pub const LINGER = 0x0080;
pub const OOBINLINE = 0x0100;
pub const REUSEPORT = 0x0200;
pub const TIMESTAMP = 0x0800;
pub const BINDANY = 0x1000;
pub const ZEROIZE = 0x2000;
pub const SNDBUF = 0x1001;
pub const RCVBUF = 0x1002;
pub const SNDLOWAT = 0x1003;
pub const RCVLOWAT = 0x1004;
pub const SNDTIMEO = 0x1005;
pub const RCVTIMEO = 0x1006;
pub const ERROR = 0x1007;
pub const TYPE = 0x1008;
pub const NETPROC = 0x1020;
pub const RTABLE = 0x1021;
pub const PEERCRED = 0x1022;
pub const SPLICE = 0x1023;
pub const DOMAIN = 0x1024;
pub const PROTOCOL = 0x1025;
},
else => void,
};
pub const SOMAXCONN = switch (native_os) {
.linux => linux.SOMAXCONN,
.windows => ws2_32.SOMAXCONN,
.solaris, .illumos => 128,
.openbsd => 28,
else => void,
};
pub const IFNAMESIZE = switch (native_os) {
.linux => linux.IFNAMESIZE,
.emscripten => emscripten.IFNAMESIZE,
.windows => 30,
.openbsd, .dragonfly, .netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => 16,
.solaris, .illumos => 32,
else => void,
};
pub const stack_t = switch (native_os) {
.linux => linux.stack_t,
.emscripten => emscripten.stack_t,
.freebsd => extern struct {
/// Signal stack base.
sp: *anyopaque,
/// Signal stack length.
size: usize,
/// SS_DISABLE and/or SS_ONSTACK.
flags: i32,
},
else => extern struct {
sp: [*]u8,
size: isize,
flags: i32,
},
};
pub const time_t = switch (native_os) {
.linux => linux.time_t,
.emscripten => emscripten.time_t,
.haiku, .dragonfly => isize,
else => i64,
};
pub const suseconds_t = switch (native_os) {
.solaris, .illumos => i64,
.freebsd, .dragonfly => c_long,
.netbsd => c_int,
.haiku => i32,
else => void,
};
pub const timeval = switch (native_os) {
.linux => linux.timeval,
.emscripten => emscripten.timeval,
.windows => extern struct {
sec: c_long,
usec: c_long,
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
sec: c_long,
usec: i32,
},
.dragonfly, .netbsd, .freebsd, .solaris, .illumos => extern struct {
/// seconds
sec: time_t,
/// microseconds
usec: suseconds_t,
},
.openbsd => extern struct {
sec: time_t,
usec: c_long,
},
else => void,
};
pub const timezone = switch (native_os) {
.linux => linux.timezone,
.emscripten => emscripten.timezone,
.openbsd, .macos, .ios, .tvos, .watchos, .visionos => extern struct {
minuteswest: i32,
dsttime: i32,
},
else => void,
};
pub const ucontext_t = switch (native_os) {
.linux => linux.ucontext_t,
.emscripten => emscripten.ucontext_t,
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
onstack: c_int,
sigmask: sigset_t,
stack: stack_t,
link: ?*ucontext_t,
mcsize: u64,
mcontext: *mcontext_t,
__mcontext_data: mcontext_t,
},
.freebsd => extern struct {
sigmask: sigset_t,
mcontext: mcontext_t,
link: ?*ucontext_t,
stack: stack_t,
flags: c_int,
__spare__: [4]c_int,
},
.solaris, .illumos => extern struct {
flags: u64,
link: ?*ucontext_t,
sigmask: sigset_t,
stack: stack_t,
mcontext: mcontext_t,
brand_data: [3]?*anyopaque,
filler: [2]i64,
},
.netbsd => extern struct {
flags: u32,
link: ?*ucontext_t,
sigmask: sigset_t,
stack: stack_t,
mcontext: mcontext_t,
__pad: [
switch (builtin.cpu.arch) {
.x86 => 4,
.mips, .mipsel, .mips64, .mips64el => 14,
.arm, .armeb, .thumb, .thumbeb => 1,
.sparc, .sparc64 => if (@sizeOf(usize) == 4) 43 else 8,
else => 0,
}
]u32,
},
.dragonfly => extern struct {
sigmask: sigset_t,
mcontext: mcontext_t,
link: ?*ucontext_t,
stack: stack_t,
cofunc: ?*fn (?*ucontext_t, ?*anyopaque) void,
arg: ?*void,
_spare: [4]c_int,
},
.haiku => extern struct {
link: ?*ucontext_t,
sigmask: sigset_t,
stack: stack_t,
mcontext: mcontext_t,
},
.openbsd => openbsd.ucontext_t,
else => void,
};
pub const mcontext_t = switch (native_os) {
.linux => linux.mcontext_t,
.emscripten => emscripten.mcontext_t,
.macos, .ios, .tvos, .watchos, .visionos => darwin.mcontext_t,
.freebsd => switch (builtin.cpu.arch) {
.x86_64 => extern struct {
onstack: u64,
rdi: u64,
rsi: u64,
rdx: u64,
rcx: u64,
r8: u64,
r9: u64,
rax: u64,
rbx: u64,
rbp: u64,
r10: u64,
r11: u64,
r12: u64,
r13: u64,
r14: u64,
r15: u64,
trapno: u32,
fs: u16,
gs: u16,
addr: u64,
flags: u32,
es: u16,
ds: u16,
err: u64,
rip: u64,
cs: u64,
rflags: u64,
rsp: u64,
ss: u64,
len: u64,
fpformat: u64,
ownedfp: u64,
fpstate: [64]u64 align(16),
fsbase: u64,
gsbase: u64,
xfpustate: u64,
xfpustate_len: u64,
spare: [4]u64,
},
.aarch64 => extern struct {
gpregs: extern struct {
x: [30]u64,
lr: u64,
sp: u64,
elr: u64,
spsr: u32,
_pad: u32,
},
fpregs: extern struct {
q: [32]u128,
sr: u32,
cr: u32,
flags: u32,
_pad: u32,
},
flags: u32,
_pad: u32,
_spare: [8]u64,
},
else => struct {},
},
.solaris, .illumos => extern struct {
gregs: [28]u64,
fpregs: solaris.fpregset_t,
},
.netbsd => switch (builtin.cpu.arch) {
.aarch64 => extern struct {
gregs: [35]u64,
fregs: [528]u8 align(16),
spare: [8]u64,
},
.x86_64 => extern struct {
gregs: [26]u64,
mc_tlsbase: u64,
fpregs: [512]u8 align(8),
},
else => struct {},
},
.dragonfly => dragonfly.mcontext_t,
.haiku => haiku.mcontext_t,
else => void,
};
pub const user_desc = switch (native_os) {
.linux => linux.user_desc,
else => void,
};
pub const utsname = switch (native_os) {
.linux => linux.utsname,
.emscripten => emscripten.utsname,
.solaris, .illumos => extern struct {
sysname: [256:0]u8,
nodename: [256:0]u8,
release: [256:0]u8,
version: [256:0]u8,
machine: [256:0]u8,
domainname: [256:0]u8,
},
else => void,
};
pub const PR = switch (native_os) {
.linux => linux.PR,
else => void,
};
pub const _errno = switch (native_os) {
.linux => switch (native_abi) {
.android => private.__errno,
else => private.__errno_location,
},
.emscripten => private.__errno_location,
.wasi, .dragonfly => private.errnoFromThreadLocal,
.windows => private._errno,
.macos, .ios, .tvos, .watchos, .visionos, .freebsd => private.__error,
.solaris, .illumos => private.___errno,
.openbsd, .netbsd => private.__errno,
.haiku => haiku._errnop,
else => {},
};
pub const RTLD = switch (native_os) {
.linux, .emscripten => packed struct(u32) {
LAZY: bool = false,
NOW: bool = false,
NOLOAD: bool = false,
_3: u5 = 0,
GLOBAL: bool = false,
_9: u3 = 0,
NODELETE: bool = false,
_: u19 = 0,
},
.dragonfly, .freebsd => packed struct(u32) {
LAZY: bool = false,
NOW: bool = false,
_2: u6 = 0,
GLOBAL: bool = false,
TRACE: bool = false,
_10: u2 = 0,
NODELETE: bool = false,
NOLOAD: bool = false,
_: u18 = 0,
},
.haiku => packed struct(u32) {
NOW: bool = false,
GLOBAL: bool = false,
_: u30 = 0,
},
.netbsd => packed struct(u32) {
LAZY: bool = false,
NOW: bool = false,
_2: u6 = 0,
GLOBAL: bool = false,
LOCAL: bool = false,
_10: u2 = 0,
NODELETE: bool = false,
NOLOAD: bool = false,
_: u18 = 0,
},
.solaris, .illumos => packed struct(u32) {
LAZY: bool = false,
NOW: bool = false,
NOLOAD: bool = false,
_3: u5 = 0,
GLOBAL: bool = false,
PARENT: bool = false,
GROUP: bool = false,
WORLD: bool = false,
NODELETE: bool = false,
FIRST: bool = false,
_14: u2 = 0,
CONFGEN: bool = false,
_: u15 = 0,
},
.openbsd => packed struct(u32) {
LAZY: bool = false,
NOW: bool = false,
_2: u6 = 0,
GLOBAL: bool = false,
TRACE: bool = false,
_: u22 = 0,
},
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u32) {
LAZY: bool = false,
NOW: bool = false,
LOCAL: bool = false,
GLOBAL: bool = false,
NOLOAD: bool = false,
_5: u2 = 0,
NODELETE: bool = false,
FIRST: bool = false,
_: u23 = 0,
},
else => void,
};
pub const dirent = switch (native_os) {
.linux, .emscripten => extern struct {
ino: c_uint,
off: c_uint,
reclen: c_ushort,
type: u8,
name: [256]u8,
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
ino: u64,
seekoff: u64,
reclen: u16,
namlen: u16,
type: u8,
name: [1024]u8,
},
.freebsd => extern struct {
/// File number of entry.
fileno: ino_t,
/// Directory offset of entry.
off: off_t,
/// Length of this record.
reclen: u16,
/// File type, one of DT_.
type: u8,
pad0: u8 = 0,
/// Length of the name member.
namlen: u16,
pad1: u16 = 0,
/// Name of entry.
name: [255:0]u8,
},
.solaris, .illumos => extern struct {
/// Inode number of entry.
ino: ino_t,
/// Offset of this entry on disk.
off: off_t,
/// Length of this record.
reclen: u16,
/// File name.
name: [MAXNAMLEN:0]u8,
},
.netbsd => extern struct {
fileno: ino_t,
reclen: u16,
namlen: u16,
type: u8,
name: [MAXNAMLEN:0]u8,
},
.dragonfly => extern struct {
fileno: c_ulong,
namlen: u16,
type: u8,
unused1: u8,
unused2: u32,
name: [256]u8,
pub fn reclen(self: dirent) u16 {
return (@offsetOf(dirent, "name") + self.namlen + 1 + 7) & ~@as(u16, 7);
}
},
.openbsd => extern struct {
fileno: ino_t,
off: off_t,
reclen: u16,
type: u8,
namlen: u8,
_: u32 align(1) = 0,
name: [MAXNAMLEN:0]u8,
},
else => void,
};
pub const MAXNAMLEN = switch (native_os) {
.netbsd, .solaris, .illumos => 511,
.haiku => NAME_MAX,
.openbsd => 255,
else => {},
};
pub const dirent64 = switch (native_os) {
.linux => extern struct {
ino: c_ulong,
off: c_ulong,
reclen: c_ushort,
type: u8,
name: [256]u8,
},
else => void,
};
pub const AI = switch (native_os) {
.linux, .emscripten => linux.AI,
.dragonfly, .haiku, .freebsd => packed struct(u32) {
PASSIVE: bool = false,
CANONNAME: bool = false,
NUMERICHOST: bool = false,
NUMERICSERV: bool = false,
_4: u4 = 0,
ALL: bool = false,
V4MAPPED_CFG: bool = false,
ADDRCONFIG: bool = false,
V4MAPPED: bool = false,
_: u20 = 0,
},
.netbsd => packed struct(u32) {
PASSIVE: bool = false,
CANONNAME: bool = false,
NUMERICHOST: bool = false,
NUMERICSERV: bool = false,
_4: u6 = 0,
ADDRCONFIG: bool = false,
_: u21 = 0,
},
.solaris, .illumos => packed struct(u32) {
V4MAPPED: bool = false,
ALL: bool = false,
ADDRCONFIG: bool = false,
PASSIVE: bool = false,
CANONNAME: bool = false,
NUMERICHOST: bool = false,
NUMERICSERV: bool = false,
_: u25 = 0,
},
.openbsd => packed struct(u32) {
PASSIVE: bool = false,
CANONNAME: bool = false,
NUMERICHOST: bool = false,
_3: u1 = 0,
NUMERICSERV: bool = false,
_5: u1 = 0,
ADDRCONFIG: bool = false,
_: u25 = 0,
},
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u32) {
PASSIVE: bool = false,
CANONNAME: bool = false,
NUMERICHOST: bool = false,
_3: u9 = 0,
NUMERICSERV: bool = false,
_: u19 = 0,
},
.windows => ws2_32.AI,
else => void,
};
pub const NI = switch (native_os) {
.linux, .emscripten => packed struct(u32) {
NUMERICHOST: bool = false,
NUMERICSERV: bool = false,
NOFQDN: bool = false,
NAMEREQD: bool = false,
DGRAM: bool = false,
_5: u3 = 0,
NUMERICSCOPE: bool = false,
_: u23 = 0,
},
.solaris, .illumos => packed struct(u32) {
NOFQDN: bool = false,
NUMERICHOST: bool = false,
NAMEREQD: bool = false,
NUMERICSERV: bool = false,
DGRAM: bool = false,
WITHSCOPEID: bool = false,
NUMERICSCOPE: bool = false,
_: u25 = 0,
},
else => void,
};
pub const EAI = switch (native_os) {
.linux, .emscripten => enum(c_int) {
BADFLAGS = -1,
NONAME = -2,
AGAIN = -3,
FAIL = -4,
FAMILY = -6,
SOCKTYPE = -7,
SERVICE = -8,
MEMORY = -10,
SYSTEM = -11,
OVERFLOW = -12,
NODATA = -5,
ADDRFAMILY = -9,
INPROGRESS = -100,
CANCELED = -101,
NOTCANCELED = -102,
ALLDONE = -103,
INTR = -104,
IDN_ENCODE = -105,
_,
},
.haiku, .dragonfly, .netbsd, .freebsd, .macos, .ios, .tvos, .watchos, .visionos => enum(c_int) {
/// address family for hostname not supported
ADDRFAMILY = 1,
/// temporary failure in name resolution
AGAIN = 2,
/// invalid value for ai_flags
BADFLAGS = 3,
/// non-recoverable failure in name resolution
FAIL = 4,
/// ai_family not supported
FAMILY = 5,
/// memory allocation failure
MEMORY = 6,
/// no address associated with hostname
NODATA = 7,
/// hostname nor servname provided, or not known
NONAME = 8,
/// servname not supported for ai_socktype
SERVICE = 9,
/// ai_socktype not supported
SOCKTYPE = 10,
/// system error returned in errno
SYSTEM = 11,
/// invalid value for hints
BADHINTS = 12,
/// resolved protocol is unknown
PROTOCOL = 13,
/// argument buffer overflow
OVERFLOW = 14,
_,
},
.solaris, .illumos => enum(c_int) {
/// address family for hostname not supported
ADDRFAMILY = 1,
/// name could not be resolved at this time
AGAIN = 2,
/// flags parameter had an invalid value
BADFLAGS = 3,
/// non-recoverable failure in name resolution
FAIL = 4,
/// address family not recognized
FAMILY = 5,
/// memory allocation failure
MEMORY = 6,
/// no address associated with hostname
NODATA = 7,
/// name does not resolve
NONAME = 8,
/// service not recognized for socket type
SERVICE = 9,
/// intended socket type was not recognized
SOCKTYPE = 10,
/// system error returned in errno
SYSTEM = 11,
/// argument buffer overflow
OVERFLOW = 12,
/// resolved protocol is unknown
PROTOCOL = 13,
_,
},
.openbsd => enum(c_int) {
/// address family for hostname not supported
ADDRFAMILY = -9,
/// name could not be resolved at this time
AGAIN = -3,
/// flags parameter had an invalid value
BADFLAGS = -1,
/// non-recoverable failure in name resolution
FAIL = -4,
/// address family not recognized
FAMILY = -6,
/// memory allocation failure
MEMORY = -10,
/// no address associated with hostname
NODATA = -5,
/// name does not resolve
NONAME = -2,
/// service not recognized for socket type
SERVICE = -8,
/// intended socket type was not recognized
SOCKTYPE = -7,
/// system error returned in errno
SYSTEM = -11,
/// invalid value for hints
BADHINTS = -12,
/// resolved protocol is unknown
PROTOCOL = -13,
/// argument buffer overflow
OVERFLOW = -14,
_,
},
else => void,
};
pub const dl_iterate_phdr_callback = *const fn (info: *dl_phdr_info, size: usize, data: ?*anyopaque) callconv(.C) c_int;
pub const Stat = switch (native_os) {
.linux => switch (native_arch) {
.sparc64 => extern struct {
dev: u64,
__pad1: u16,
ino: ino_t,
mode: u32,
nlink: u32,
uid: u32,
gid: u32,
rdev: u64,
__pad2: u16,
size: off_t,
blksize: isize,
blocks: i64,
atim: timespec,
mtim: timespec,
ctim: timespec,
__reserved: [2]usize,
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
},
.mips, .mipsel => extern struct {
dev: dev_t,
__pad0: [2]u32,
ino: ino_t,
mode: mode_t,
nlink: nlink_t,
uid: uid_t,
gid: gid_t,
rdev: dev_t,
__pad1: [2]u32,
size: off_t,
atim: timespec,
mtim: timespec,
ctim: timespec,
blksize: blksize_t,
__pad3: u32,
blocks: blkcnt_t,
__pad4: [14]u32,
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
},
else => std.os.linux.Stat, // libc stat is the same as kernel stat.
},
.emscripten => emscripten.Stat,
.wasi => extern struct {
dev: dev_t,
ino: ino_t,
nlink: nlink_t,
mode: mode_t,
uid: uid_t,
gid: gid_t,
__pad0: c_uint = 0,
rdev: dev_t,
size: off_t,
blksize: blksize_t,
blocks: blkcnt_t,
atim: timespec,
mtim: timespec,
ctim: timespec,
__reserved: [3]c_longlong = [3]c_longlong{ 0, 0, 0 },
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
pub fn fromFilestat(st: wasi.filestat_t) Stat {
return .{
.dev = st.dev,
.ino = st.ino,
.mode = switch (st.filetype) {
.UNKNOWN => 0,
.BLOCK_DEVICE => S.IFBLK,
.CHARACTER_DEVICE => S.IFCHR,
.DIRECTORY => S.IFDIR,
.REGULAR_FILE => S.IFREG,
.SOCKET_DGRAM => S.IFSOCK,
.SOCKET_STREAM => S.IFIFO,
.SYMBOLIC_LINK => S.IFLNK,
_ => 0,
},
.nlink = st.nlink,
.size = @intCast(st.size),
.atim = timespec.fromTimestamp(st.atim),
.mtim = timespec.fromTimestamp(st.mtim),
.ctim = timespec.fromTimestamp(st.ctim),
.uid = 0,
.gid = 0,
.rdev = 0,
.blksize = 0,
.blocks = 0,
};
}
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
dev: i32,
mode: u16,
nlink: u16,
ino: ino_t,
uid: uid_t,
gid: gid_t,
rdev: i32,
atimespec: timespec,
mtimespec: timespec,
ctimespec: timespec,
birthtimespec: timespec,
size: off_t,
blocks: i64,
blksize: i32,
flags: u32,
gen: u32,
lspare: i32,
qspare: [2]i64,
pub fn atime(self: @This()) timespec {
return self.atimespec;
}
pub fn mtime(self: @This()) timespec {
return self.mtimespec;
}
pub fn ctime(self: @This()) timespec {
return self.ctimespec;
}
pub fn birthtime(self: @This()) timespec {
return self.birthtimespec;
}
},
.freebsd => freebsd.Stat,
.solaris, .illumos => extern struct {
dev: dev_t,
ino: ino_t,
mode: mode_t,
nlink: nlink_t,
uid: uid_t,
gid: gid_t,
rdev: dev_t,
size: off_t,
atim: timespec,
mtim: timespec,
ctim: timespec,
blksize: blksize_t,
blocks: blkcnt_t,
fstype: [16]u8,
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
},
.netbsd => extern struct {
dev: dev_t,
mode: mode_t,
ino: ino_t,
nlink: nlink_t,
uid: uid_t,
gid: gid_t,
rdev: dev_t,
atim: timespec,
mtim: timespec,
ctim: timespec,
birthtim: timespec,
size: off_t,
blocks: blkcnt_t,
blksize: blksize_t,
flags: u32,
gen: u32,
__spare: [2]u32,
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
pub fn birthtime(self: @This()) timespec {
return self.birthtim;
}
},
.dragonfly => extern struct {
ino: ino_t,
nlink: c_uint,
dev: c_uint,
mode: c_ushort,
padding1: u16,
uid: uid_t,
gid: gid_t,
rdev: c_uint,
atim: timespec,
mtim: timespec,
ctim: timespec,
size: c_ulong,
blocks: i64,
blksize: u32,
flags: u32,
gen: u32,
lspare: i32,
qspare1: i64,
qspare2: i64,
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
},
.haiku => extern struct {
dev: dev_t,
ino: ino_t,
mode: mode_t,
nlink: nlink_t,
uid: uid_t,
gid: gid_t,
size: off_t,
rdev: dev_t,
blksize: blksize_t,
atim: timespec,
mtim: timespec,
ctim: timespec,
crtim: timespec,
type: u32,
blocks: blkcnt_t,
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
pub fn birthtime(self: @This()) timespec {
return self.crtim;
}
},
.openbsd => extern struct {
mode: mode_t,
dev: dev_t,
ino: ino_t,
nlink: nlink_t,
uid: uid_t,
gid: gid_t,
rdev: dev_t,
atim: timespec,
mtim: timespec,
ctim: timespec,
size: off_t,
blocks: blkcnt_t,
blksize: blksize_t,
flags: u32,
gen: u32,
birthtim: timespec,
pub fn atime(self: @This()) timespec {
return self.atim;
}
pub fn mtime(self: @This()) timespec {
return self.mtim;
}
pub fn ctime(self: @This()) timespec {
return self.ctim;
}
pub fn birthtime(self: @This()) timespec {
return self.birthtim;
}
},
else => void,
};
pub const pthread_mutex_t = switch (native_os) {
.linux, .minix => extern struct {
data: [data_len]u8 align(@alignOf(usize)) = [_]u8{0} ** data_len,
const data_len = switch (native_abi) {
.musl, .musleabi, .musleabihf => if (@sizeOf(usize) == 8) 40 else 24,
.gnu, .gnuabin32, .gnuabi64, .gnueabi, .gnueabihf, .gnux32 => switch (native_arch) {
.aarch64 => 48,
.x86_64 => if (native_abi == .gnux32) 40 else 32,
.mips64, .powerpc64, .powerpc64le, .sparc64 => 40,
else => if (@sizeOf(usize) == 8) 40 else 24,
},
.android => if (@sizeOf(usize) == 8) 40 else 4,
else => @compileError("unsupported ABI"),
};
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
sig: c_long = 0x32AAABA7,
data: [data_len]u8 = [_]u8{0} ** data_len,
const data_len = if (@sizeOf(usize) == 8) 56 else 40;
},
.freebsd, .dragonfly, .openbsd => extern struct {
inner: ?*anyopaque = null,
},
.hermit => extern struct {
ptr: usize = maxInt(usize),
},
.netbsd => extern struct {
magic: u32 = 0x33330003,
errorcheck: padded_pthread_spin_t = 0,
ceiling: padded_pthread_spin_t = 0,
owner: usize = 0,
waiters: ?*u8 = null,
recursed: u32 = 0,
spare2: ?*anyopaque = null,
},
.haiku => extern struct {
flags: u32 = 0,
lock: i32 = 0,
unused: i32 = -42,
owner: i32 = -1,
owner_count: i32 = 0,
},
.solaris, .illumos => extern struct {
flag1: u16 = 0,
flag2: u8 = 0,
ceiling: u8 = 0,
type: u16 = 0,
magic: u16 = 0x4d58,
lock: u64 = 0,
data: u64 = 0,
},
.fuchsia => extern struct {
data: [40]u8 align(@alignOf(usize)) = [_]u8{0} ** 40,
},
.emscripten => extern struct {
data: [24]u8 align(4) = [_]u8{0} ** 24,
},
else => void,
};
pub const pthread_cond_t = switch (native_os) {
.linux => extern struct {
data: [48]u8 align(@alignOf(usize)) = [_]u8{0} ** 48,
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
sig: c_long = 0x3CB0B1BB,
data: [data_len]u8 = [_]u8{0} ** data_len,
const data_len = if (@sizeOf(usize) == 8) 40 else 24;
},
.freebsd, .dragonfly, .openbsd => extern struct {
inner: ?*anyopaque = null,
},
.hermit => extern struct {
ptr: usize = maxInt(usize),
},
.netbsd => extern struct {
magic: u32 = 0x55550005,
lock: pthread_spin_t = 0,
waiters_first: ?*u8 = null,
waiters_last: ?*u8 = null,
mutex: ?*pthread_mutex_t = null,
private: ?*anyopaque = null,
},
.haiku => extern struct {
flags: u32 = 0,
unused: i32 = -42,
mutex: ?*anyopaque = null,
waiter_count: i32 = 0,
lock: i32 = 0,
},
.solaris, .illumos => extern struct {
flag: [4]u8 = [_]u8{0} ** 4,
type: u16 = 0,
magic: u16 = 0x4356,
data: u64 = 0,
},
.fuchsia, .minix, .emscripten => extern struct {
data: [48]u8 align(@alignOf(usize)) = [_]u8{0} ** 48,
},
else => void,
};
pub const pthread_rwlock_t = switch (native_os) {
.linux => switch (native_abi) {
.android => switch (@sizeOf(usize)) {
4 => extern struct {
data: [40]u8 align(@alignOf(usize)) = [_]u8{0} ** 40,
},
8 => extern struct {
data: [56]u8 align(@alignOf(usize)) = [_]u8{0} ** 56,
},
else => @compileError("impossible pointer size"),
},
else => extern struct {
data: [56]u8 align(@alignOf(usize)) = [_]u8{0} ** 56,
},
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
sig: c_long = 0x2DA8B3B4,
data: [192]u8 = [_]u8{0} ** 192,
},
.freebsd, .dragonfly, .openbsd => extern struct {
ptr: ?*anyopaque = null,
},
.hermit => extern struct {
ptr: usize = maxInt(usize),
},
.netbsd => extern struct {
magic: c_uint = 0x99990009,
interlock: switch (builtin.cpu.arch) {
.aarch64, .sparc, .x86_64, .x86 => u8,
.arm, .powerpc => c_int,
else => unreachable,
} = 0,
rblocked_first: ?*u8 = null,
rblocked_last: ?*u8 = null,
wblocked_first: ?*u8 = null,
wblocked_last: ?*u8 = null,
nreaders: c_uint = 0,
owner: ?pthread_t = null,
private: ?*anyopaque = null,
},
.solaris, .illumos => extern struct {
readers: i32 = 0,
type: u16 = 0,
magic: u16 = 0x5257,
mutex: pthread_mutex_t = .{},
readercv: pthread_cond_t = .{},
writercv: pthread_cond_t = .{},
},
.fuchsia => extern struct {
size: [56]u8 align(@alignOf(usize)) = [_]u8{0} ** 56,
},
.emscripten => extern struct {
size: [32]u8 align(4) = [_]u8{0} ** 32,
},
else => void,
};
pub const pthread_attr_t = switch (native_os) {
.linux, .emscripten, .dragonfly => extern struct {
__size: [56]u8,
__align: c_long,
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
__sig: c_long,
__opaque: [56]u8,
},
.freebsd => extern struct {
inner: ?*anyopaque = null,
},
.solaris, .illumos => extern struct {
mutexattr: ?*anyopaque = null,
},
.netbsd => extern struct {
magic: u32,
flags: i32,
private: ?*anyopaque,
},
.haiku => extern struct {
detach_state: i32,
sched_priority: i32,
stack_size: i32,
guard_size: i32,
stack_address: ?*anyopaque,
},
.openbsd => extern struct {
inner: ?*anyopaque = null,
},
else => void,
};
pub const pthread_key_t = switch (native_os) {
.linux, .emscripten => c_uint,
.openbsd, .solaris, .illumos => c_int,
else => void,
};
pub const padded_pthread_spin_t = switch (native_os) {
.netbsd => switch (builtin.cpu.arch) {
.x86, .x86_64 => u32,
.sparc, .sparc64 => u32,
else => pthread_spin_t,
},
else => void,
};
pub const pthread_spin_t = switch (native_os) {
.netbsd => switch (builtin.cpu.arch) {
.aarch64, .aarch64_be => u8,
.mips, .mipsel, .mips64, .mips64el => u32,
.powerpc, .powerpc64, .powerpc64le => i32,
.x86, .x86_64 => u8,
.arm, .armeb, .thumb, .thumbeb => i32,
.sparc, .sparc64 => u8,
.riscv32, .riscv64 => u32,
else => @compileError("undefined pthread_spin_t for this arch"),
},
else => void,
};
pub const sem_t = switch (native_os) {
.linux, .emscripten => extern struct {
__size: [4 * @sizeOf(usize)]u8 align(@alignOf(usize)),
},
.macos, .ios, .tvos, .watchos, .visionos => c_int,
.freebsd => extern struct {
_magic: u32,
_kern: extern struct {
_count: u32,
_flags: u32,
},
_padding: u32,
},
.solaris, .illumos => extern struct {
count: u32 = 0,
type: u16 = 0,
magic: u16 = 0x534d,
__pad1: [3]u64 = [_]u64{0} ** 3,
__pad2: [2]u64 = [_]u64{0} ** 2,
},
.openbsd, .netbsd, .dragonfly => ?*opaque {},
.haiku => extern struct {
type: i32,
u: extern union {
named_sem_id: i32,
unnamed_sem: i32,
},
padding: [2]i32,
},
else => void,
};
/// Renamed from `kevent` to `Kevent` to avoid conflict with function name.
pub const Kevent = switch (native_os) {
.netbsd => extern struct {
ident: usize,
filter: i32,
flags: u32,
fflags: u32,
data: i64,
udata: usize,
},
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
ident: usize,
filter: i16,
flags: u16,
fflags: u32,
data: isize,
udata: usize,
// sys/types.h on macos uses #pragma pack(4) so these checks are
// to make sure the struct is laid out the same. These values were
// produced from C code using the offsetof macro.
comptime {
assert(@offsetOf(@This(), "ident") == 0);
assert(@offsetOf(@This(), "filter") == 8);
assert(@offsetOf(@This(), "flags") == 10);
assert(@offsetOf(@This(), "fflags") == 12);
assert(@offsetOf(@This(), "data") == 16);
assert(@offsetOf(@This(), "udata") == 24);
}
},
.freebsd => extern struct {
/// Identifier for this event.
ident: usize,
/// Filter for event.
filter: i16,
/// Action flags for kqueue.
flags: u16,
/// Filter flag value.
fflags: u32,
/// Filter data value.
data: i64,
/// Opaque user data identifier.
udata: usize,
/// Future extensions.
_ext: [4]u64 = [_]u64{0} ** 4,
},
.dragonfly => extern struct {
ident: usize,
filter: c_short,
flags: c_ushort,
fflags: c_uint,
data: isize,
udata: usize,
},
.openbsd => extern struct {
ident: usize,
filter: c_short,
flags: u16,
fflags: c_uint,
data: i64,
udata: usize,
},
else => void,
};
pub const port_t = switch (native_os) {
.solaris, .illumos => c_int,
else => void,
};
pub const port_event = switch (native_os) {
.solaris, .illumos => extern struct {
events: u32,
/// Event source.
source: u16,
__pad: u16,
/// Source-specific object.
object: ?*anyopaque,
/// User cookie.
cookie: ?*anyopaque,
},
else => void,
};
pub const AT = switch (native_os) {
.linux => linux.AT,
.windows => struct {
/// Remove directory instead of unlinking file
pub const REMOVEDIR = 0x200;
},
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const FDCWD = -2;
/// Use effective ids in access check
pub const EACCESS = 0x0010;
/// Act on the symlink itself not the target
pub const SYMLINK_NOFOLLOW = 0x0020;
/// Act on target of symlink
pub const SYMLINK_FOLLOW = 0x0040;
/// Path refers to directory
pub const REMOVEDIR = 0x0080;
},
.freebsd => struct {
/// Magic value that specify the use of the current working directory
/// to determine the target of relative file paths in the openat() and
/// similar syscalls.
pub const FDCWD = -100;
/// Check access using effective user and group ID
pub const EACCESS = 0x0100;
/// Do not follow symbolic links
pub const SYMLINK_NOFOLLOW = 0x0200;
/// Follow symbolic link
pub const SYMLINK_FOLLOW = 0x0400;
/// Remove directory instead of file
pub const REMOVEDIR = 0x0800;
/// Fail if not under dirfd
pub const BENEATH = 0x1000;
},
.netbsd => struct {
/// Magic value that specify the use of the current working directory
/// to determine the target of relative file paths in the openat() and
/// similar syscalls.
pub const FDCWD = -100;
/// Check access using effective user and group ID
pub const EACCESS = 0x0100;
/// Do not follow symbolic links
pub const SYMLINK_NOFOLLOW = 0x0200;
/// Follow symbolic link
pub const SYMLINK_FOLLOW = 0x0400;
/// Remove directory instead of file
pub const REMOVEDIR = 0x0800;
},
.dragonfly => struct {
pub const FDCWD = -328243;
pub const SYMLINK_NOFOLLOW = 1;
pub const REMOVEDIR = 2;
pub const EACCESS = 4;
pub const SYMLINK_FOLLOW = 8;
},
.openbsd => struct {
/// Magic value that specify the use of the current working directory
/// to determine the target of relative file paths in the openat() and
/// similar syscalls.
pub const FDCWD = -100;
/// Check access using effective user and group ID
pub const EACCESS = 0x01;
/// Do not follow symbolic links
pub const SYMLINK_NOFOLLOW = 0x02;
/// Follow symbolic link
pub const SYMLINK_FOLLOW = 0x04;
/// Remove directory instead of file
pub const REMOVEDIR = 0x08;
},
.haiku => struct {
pub const FDCWD = -1;
pub const SYMLINK_NOFOLLOW = 0x01;
pub const SYMLINK_FOLLOW = 0x02;
pub const REMOVEDIR = 0x04;
pub const EACCESS = 0x08;
},
.solaris, .illumos => struct {
/// Magic value that specify the use of the current working directory
/// to determine the target of relative file paths in the openat() and
/// similar syscalls.
pub const FDCWD: fd_t = @bitCast(@as(u32, 0xffd19553));
/// Do not follow symbolic links
pub const SYMLINK_NOFOLLOW = 0x1000;
/// Follow symbolic link
pub const SYMLINK_FOLLOW = 0x2000;
/// Remove directory instead of file
pub const REMOVEDIR = 0x1;
pub const TRIGGER = 0x2;
/// Check access using effective user and group ID
pub const EACCESS = 0x4;
},
.emscripten => struct {
pub const FDCWD = -100;
pub const SYMLINK_NOFOLLOW = 0x100;
pub const REMOVEDIR = 0x200;
pub const SYMLINK_FOLLOW = 0x400;
pub const NO_AUTOMOUNT = 0x800;
pub const EMPTY_PATH = 0x1000;
pub const STATX_SYNC_TYPE = 0x6000;
pub const STATX_SYNC_AS_STAT = 0x0000;
pub const STATX_FORCE_SYNC = 0x2000;
pub const STATX_DONT_SYNC = 0x4000;
pub const RECURSIVE = 0x8000;
},
.wasi => struct {
pub const SYMLINK_NOFOLLOW = 0x100;
pub const SYMLINK_FOLLOW = 0x400;
pub const REMOVEDIR: u32 = 0x4;
/// When linking libc, we follow their convention and use -2 for current working directory.
/// However, without libc, Zig does a different convention: it assumes the
/// current working directory is the first preopen. This behavior can be
/// overridden with a public function called `wasi_cwd` in the root source
/// file.
pub const FDCWD: fd_t = if (builtin.link_libc) -2 else 3;
},
else => void,
};
pub const O = switch (native_os) {
.linux => linux.O,
.emscripten => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
_2: u4 = 0,
CREAT: bool = false,
EXCL: bool = false,
NOCTTY: bool = false,
TRUNC: bool = false,
APPEND: bool = false,
NONBLOCK: bool = false,
DSYNC: bool = false,
ASYNC: bool = false,
DIRECT: bool = false,
LARGEFILE: bool = false,
DIRECTORY: bool = false,
NOFOLLOW: bool = false,
NOATIME: bool = false,
CLOEXEC: bool = false,
SYNC: bool = false,
PATH: bool = false,
TMPFILE: bool = false,
_: u9 = 0,
},
.wasi => packed struct(u32) {
APPEND: bool = false,
DSYNC: bool = false,
NONBLOCK: bool = false,
RSYNC: bool = false,
SYNC: bool = false,
_5: u7 = 0,
CREAT: bool = false,
DIRECTORY: bool = false,
EXCL: bool = false,
TRUNC: bool = false,
_16: u8 = 0,
NOFOLLOW: bool = false,
EXEC: bool = false,
read: bool = false,
SEARCH: bool = false,
write: bool = false,
_: u3 = 0,
},
.solaris, .illumos => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
NDELAY: bool = false,
APPEND: bool = false,
SYNC: bool = false,
_5: u1 = 0,
DSYNC: bool = false,
NONBLOCK: bool = false,
CREAT: bool = false,
TRUNC: bool = false,
EXCL: bool = false,
NOCTTY: bool = false,
_12: u1 = 0,
LARGEFILE: bool = false,
XATTR: bool = false,
RSYNC: bool = false,
_16: u1 = 0,
NOFOLLOW: bool = false,
NOLINKS: bool = false,
_19: u2 = 0,
SEARCH: bool = false,
EXEC: bool = false,
CLOEXEC: bool = false,
DIRECTORY: bool = false,
DIRECT: bool = false,
_: u6 = 0,
},
.netbsd => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
NONBLOCK: bool = false,
APPEND: bool = false,
SHLOCK: bool = false,
EXLOCK: bool = false,
ASYNC: bool = false,
SYNC: bool = false,
NOFOLLOW: bool = false,
CREAT: bool = false,
TRUNC: bool = false,
EXCL: bool = false,
_12: u3 = 0,
NOCTTY: bool = false,
DSYNC: bool = false,
RSYNC: bool = false,
ALT_IO: bool = false,
DIRECT: bool = false,
_20: u1 = 0,
DIRECTORY: bool = false,
CLOEXEC: bool = false,
SEARCH: bool = false,
_: u8 = 0,
},
.openbsd => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
NONBLOCK: bool = false,
APPEND: bool = false,
SHLOCK: bool = false,
EXLOCK: bool = false,
ASYNC: bool = false,
SYNC: bool = false,
NOFOLLOW: bool = false,
CREAT: bool = false,
TRUNC: bool = false,
EXCL: bool = false,
_12: u3 = 0,
NOCTTY: bool = false,
CLOEXEC: bool = false,
DIRECTORY: bool = false,
_: u14 = 0,
},
.haiku => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
_2: u4 = 0,
CLOEXEC: bool = false,
NONBLOCK: bool = false,
EXCL: bool = false,
CREAT: bool = false,
TRUNC: bool = false,
APPEND: bool = false,
NOCTTY: bool = false,
NOTRAVERSE: bool = false,
_14: u2 = 0,
SYNC: bool = false,
RSYNC: bool = false,
DSYNC: bool = false,
NOFOLLOW: bool = false,
DIRECT: bool = false,
DIRECTORY: bool = false,
_: u10 = 0,
},
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
NONBLOCK: bool = false,
APPEND: bool = false,
SHLOCK: bool = false,
EXLOCK: bool = false,
ASYNC: bool = false,
SYNC: bool = false,
NOFOLLOW: bool = false,
CREAT: bool = false,
TRUNC: bool = false,
EXCL: bool = false,
_12: u3 = 0,
EVTONLY: bool = false,
_16: u1 = 0,
NOCTTY: bool = false,
_18: u2 = 0,
DIRECTORY: bool = false,
SYMLINK: bool = false,
DSYNC: bool = false,
_23: u1 = 0,
CLOEXEC: bool = false,
_25: u4 = 0,
ALERT: bool = false,
_30: u1 = 0,
POPUP: bool = false,
},
.dragonfly => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
NONBLOCK: bool = false,
APPEND: bool = false,
SHLOCK: bool = false,
EXLOCK: bool = false,
ASYNC: bool = false,
SYNC: bool = false,
NOFOLLOW: bool = false,
CREAT: bool = false,
TRUNC: bool = false,
EXCL: bool = false,
_12: u3 = 0,
NOCTTY: bool = false,
DIRECT: bool = false,
CLOEXEC: bool = false,
FBLOCKING: bool = false,
FNONBLOCKING: bool = false,
FAPPEND: bool = false,
FOFFSET: bool = false,
FSYNCWRITE: bool = false,
FASYNCWRITE: bool = false,
_24: u3 = 0,
DIRECTORY: bool = false,
_: u4 = 0,
},
.freebsd => packed struct(u32) {
ACCMODE: std.posix.ACCMODE = .RDONLY,
NONBLOCK: bool = false,
APPEND: bool = false,
SHLOCK: bool = false,
EXLOCK: bool = false,
ASYNC: bool = false,
SYNC: bool = false,
NOFOLLOW: bool = false,
CREAT: bool = false,
TRUNC: bool = false,
EXCL: bool = false,
DSYNC: bool = false,
_13: u2 = 0,
NOCTTY: bool = false,
DIRECT: bool = false,
DIRECTORY: bool = false,
NOATIME: bool = false,
_19: u1 = 0,
CLOEXEC: bool = false,
PATH: bool = false,
TMPFILE: bool = false,
_: u9 = 0,
},
else => void,
};
pub const MAP = switch (native_os) {
.linux => linux.MAP,
.emscripten => packed struct(u32) {
TYPE: enum(u4) {
SHARED = 0x01,
PRIVATE = 0x02,
SHARED_VALIDATE = 0x03,
},
FIXED: bool = false,
ANONYMOUS: bool = false,
_6: u2 = 0,
GROWSDOWN: bool = false,
_9: u2 = 0,
DENYWRITE: bool = false,
EXECUTABLE: bool = false,
LOCKED: bool = false,
NORESERVE: bool = false,
POPULATE: bool = false,
NONBLOCK: bool = false,
STACK: bool = false,
HUGETLB: bool = false,
SYNC: bool = false,
FIXED_NOREPLACE: bool = false,
_: u11 = 0,
},
.solaris, .illumos => packed struct(u32) {
TYPE: enum(u4) {
SHARED = 0x01,
PRIVATE = 0x02,
},
FIXED: bool = false,
RENAME: bool = false,
NORESERVE: bool = false,
@"32BIT": bool = false,
ANONYMOUS: bool = false,
ALIGN: bool = false,
TEXT: bool = false,
INITDATA: bool = false,
_: u20 = 0,
},
.netbsd => packed struct(u32) {
TYPE: enum(u2) {
SHARED = 0x01,
PRIVATE = 0x02,
},
REMAPDUP: bool = false,
_3: u1 = 0,
FIXED: bool = false,
RENAME: bool = false,
NORESERVE: bool = false,
INHERIT: bool = false,
_8: u1 = 0,
HASSEMAPHORE: bool = false,
TRYFIXED: bool = false,
WIRED: bool = false,
ANONYMOUS: bool = false,
STACK: bool = false,
_: u18 = 0,
},
.openbsd => packed struct(u32) {
TYPE: enum(u4) {
SHARED = 0x01,
PRIVATE = 0x02,
},
FIXED: bool = false,
_5: u7 = 0,
ANONYMOUS: bool = false,
_13: u1 = 0,
STACK: bool = false,
CONCEAL: bool = false,
_: u16 = 0,
},
.haiku => packed struct(u32) {
TYPE: enum(u2) {
SHARED = 0x01,
PRIVATE = 0x02,
},
FIXED: bool = false,
ANONYMOUS: bool = false,
NORESERVE: bool = false,
_: u27 = 0,
},
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u32) {
TYPE: enum(u4) {
SHARED = 0x01,
PRIVATE = 0x02,
},
FIXED: bool = false,
_5: u1 = 0,
NORESERVE: bool = false,
_7: u2 = 0,
HASSEMAPHORE: bool = false,
NOCACHE: bool = false,
_11: u1 = 0,
ANONYMOUS: bool = false,
_: u19 = 0,
},
.dragonfly => packed struct(u32) {
TYPE: enum(u4) {
SHARED = 0x01,
PRIVATE = 0x02,
},
FIXED: bool = false,
RENAME: bool = false,
NORESERVE: bool = false,
INHERIT: bool = false,
NOEXTEND: bool = false,
HASSEMAPHORE: bool = false,
STACK: bool = false,
NOSYNC: bool = false,
ANONYMOUS: bool = false,
VPAGETABLE: bool = false,
_14: u2 = 0,
TRYFIXED: bool = false,
NOCORE: bool = false,
SIZEALIGN: bool = false,
_: u13 = 0,
},
.freebsd => packed struct(u32) {
TYPE: enum(u4) {
SHARED = 0x01,
PRIVATE = 0x02,
},
FIXED: bool = false,
_5: u5 = 0,
STACK: bool = false,
NOSYNC: bool = false,
ANONYMOUS: bool = false,
GUARD: bool = false,
EXCL: bool = false,
_15: u2 = 0,
NOCORE: bool = false,
PREFAULT_READ: bool = false,
@"32BIT": bool = false,
_: u12 = 0,
},
else => void,
};
/// Used by libc to communicate failure. Not actually part of the underlying syscall.
pub const MAP_FAILED: *anyopaque = @ptrFromInt(maxInt(usize));
pub const cc_t = u8;
/// Indices into the `cc` array in the `termios` struct.
pub const V = switch (native_os) {
.linux => linux.V,
.macos, .ios, .tvos, .watchos, .visionos, .netbsd, .openbsd => enum {
EOF,
EOL,
EOL2,
ERASE,
WERASE,
KILL,
REPRINT,
reserved,
INTR,
QUIT,
SUSP,
DSUSP,
START,
STOP,
LNEXT,
DISCARD,
MIN,
TIME,
STATUS,
},
.freebsd => enum {
EOF,
EOL,
EOL2,
ERASE,
WERASE,
KILL,
REPRINT,
ERASE2,
INTR,
QUIT,
SUSP,
DSUSP,
START,
STOP,
LNEXT,
DISCARD,
MIN,
TIME,
STATUS,
},
.haiku => enum {
INTR,
QUIT,
ERASE,
KILL,
EOF,
EOL,
EOL2,
SWTCH,
START,
STOP,
SUSP,
},
.solaris, .illumos => enum {
INTR,
QUIT,
ERASE,
KILL,
EOF,
EOL,
EOL2,
SWTCH,
START,
STOP,
SUSP,
DSUSP,
REPRINT,
DISCARD,
WERASE,
LNEXT,
STATUS,
ERASE2,
},
.emscripten, .wasi => enum {
INTR,
QUIT,
ERASE,
KILL,
EOF,
TIME,
MIN,
SWTC,
START,
STOP,
SUSP,
EOL,
REPRINT,
DISCARD,
WERASE,
LNEXT,
EOL2,
},
else => void,
};
pub const NCCS = switch (native_os) {
.linux => linux.NCCS,
.macos, .ios, .tvos, .watchos, .visionos, .freebsd, .netbsd, .openbsd, .dragonfly => 20,
.haiku => 11,
.solaris, .illumos => 19,
.emscripten, .wasi => 32,
else => void,
};
pub const termios = switch (native_os) {
.linux => linux.termios,
.macos, .ios, .tvos, .watchos, .visionos => extern struct {
iflag: tc_iflag_t,
oflag: tc_oflag_t,
cflag: tc_cflag_t,
lflag: tc_lflag_t,
cc: [NCCS]cc_t,
ispeed: speed_t align(8),
ospeed: speed_t,
},
.freebsd, .netbsd, .dragonfly, .openbsd => extern struct {
iflag: tc_iflag_t,
oflag: tc_oflag_t,
cflag: tc_cflag_t,
lflag: tc_lflag_t,
cc: [NCCS]cc_t,
ispeed: speed_t,
ospeed: speed_t,
},
.haiku => extern struct {
iflag: tc_iflag_t,
oflag: tc_oflag_t,
cflag: tc_cflag_t,
lflag: tc_lflag_t,
line: cc_t,
ispeed: speed_t,
ospeed: speed_t,
cc: [NCCS]cc_t,
},
.solaris, .illumos => extern struct {
iflag: tc_iflag_t,
oflag: tc_oflag_t,
cflag: tc_cflag_t,
lflag: tc_lflag_t,
cc: [NCCS]cc_t,
},
.emscripten, .wasi => extern struct {
iflag: tc_iflag_t,
oflag: tc_oflag_t,
cflag: tc_cflag_t,
lflag: tc_lflag_t,
line: cc_t,
cc: [NCCS]cc_t,
ispeed: speed_t,
ospeed: speed_t,
},
else => void,
};
pub const tc_iflag_t = switch (native_os) {
.linux => linux.tc_iflag_t,
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u64) {
IGNBRK: bool = false,
BRKINT: bool = false,
IGNPAR: bool = false,
PARMRK: bool = false,
INPCK: bool = false,
ISTRIP: bool = false,
INLCR: bool = false,
IGNCR: bool = false,
ICRNL: bool = false,
IXON: bool = false,
IXOFF: bool = false,
IXANY: bool = false,
_12: u1 = 0,
IMAXBEL: bool = false,
IUTF8: bool = false,
_: u49 = 0,
},
.netbsd, .freebsd, .dragonfly => packed struct(u32) {
IGNBRK: bool = false,
BRKINT: bool = false,
IGNPAR: bool = false,
PARMRK: bool = false,
INPCK: bool = false,
ISTRIP: bool = false,
INLCR: bool = false,
IGNCR: bool = false,
ICRNL: bool = false,
IXON: bool = false,
IXOFF: bool = false,
IXANY: bool = false,
_12: u1 = 0,
IMAXBEL: bool = false,
_: u18 = 0,
},
.openbsd => packed struct(u32) {
IGNBRK: bool = false,
BRKINT: bool = false,
IGNPAR: bool = false,
PARMRK: bool = false,
INPCK: bool = false,
ISTRIP: bool = false,
INLCR: bool = false,
IGNCR: bool = false,
ICRNL: bool = false,
IXON: bool = false,
IXOFF: bool = false,
IXANY: bool = false,
IUCLC: bool = false,
IMAXBEL: bool = false,
_: u18 = 0,
},
.haiku => packed struct(u32) {
IGNBRK: bool = false,
BRKINT: bool = false,
IGNPAR: bool = false,
PARMRK: bool = false,
INPCK: bool = false,
ISTRIP: bool = false,
INLCR: bool = false,
IGNCR: bool = false,
ICRNL: bool = false,
IUCLC: bool = false,
IXON: bool = false,
IXANY: bool = false,
IXOFF: bool = false,
_: u19 = 0,
},
.solaris, .illumos => packed struct(u32) {
IGNBRK: bool = false,
BRKINT: bool = false,
IGNPAR: bool = false,
PARMRK: bool = false,
INPCK: bool = false,
ISTRIP: bool = false,
INLCR: bool = false,
IGNCR: bool = false,
ICRNL: bool = false,
IUCLC: bool = false,
IXON: bool = false,
IXANY: bool = false,
_12: u1 = 0,
IMAXBEL: bool = false,
_14: u1 = 0,
DOSMODE: bool = false,
_: u16 = 0,
},
.emscripten, .wasi => packed struct(u32) {
IGNBRK: bool = false,
BRKINT: bool = false,
IGNPAR: bool = false,
PARMRK: bool = false,
INPCK: bool = false,
ISTRIP: bool = false,
INLCR: bool = false,
IGNCR: bool = false,
ICRNL: bool = false,
IUCLC: bool = false,
IXON: bool = false,
IXANY: bool = false,
IXOFF: bool = false,
IMAXBEL: bool = false,
IUTF8: bool = false,
_: u17 = 0,
},
else => void,
};
pub const tc_oflag_t = switch (native_os) {
.linux => linux.tc_oflag_t,
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u64) {
OPOST: bool = false,
ONLCR: bool = false,
OXTABS: bool = false,
ONOEOT: bool = false,
OCRNL: bool = false,
ONOCR: bool = false,
ONLRET: bool = false,
OFILL: bool = false,
NLDLY: u2 = 0,
TABDLY: u2 = 0,
CRDLY: u2 = 0,
FFDLY: u1 = 0,
BSDLY: u1 = 0,
VTDLY: u1 = 0,
OFDEL: bool = false,
_: u46 = 0,
},
.netbsd => packed struct(u32) {
OPOST: bool = false,
ONLCR: bool = false,
OXTABS: bool = false,
ONOEOT: bool = false,
OCRNL: bool = false,
_5: u1 = 0,
ONOCR: bool = false,
ONLRET: bool = false,
_: u24 = 0,
},
.openbsd => packed struct(u32) {
OPOST: bool = false,
ONLCR: bool = false,
OXTABS: bool = false,
ONOEOT: bool = false,
OCRNL: bool = false,
OLCUC: bool = false,
ONOCR: bool = false,
ONLRET: bool = false,
_: u24 = 0,
},
.freebsd, .dragonfly => packed struct(u32) {
OPOST: bool = false,
ONLCR: bool = false,
_2: u1 = 0,
ONOEOT: bool = false,
OCRNL: bool = false,
ONOCR: bool = false,
ONLRET: bool = false,
_: u25 = 0,
},
.solaris, .illumos => packed struct(u32) {
OPOST: bool = false,
OLCUC: bool = false,
ONLCR: bool = false,
OCRNL: bool = false,
ONOCR: bool = false,
ONLRET: bool = false,
OFILL: bool = false,
OFDEL: bool = false,
NLDLY: u1 = 0,
CRDLY: u2 = 0,
TABDLY: u2 = 0,
BSDLY: u1 = 0,
VTDLY: u1 = 0,
FFDLY: u1 = 0,
PAGEOUT: bool = false,
WRAP: bool = false,
_: u14 = 0,
},
.haiku, .wasi, .emscripten => packed struct(u32) {
OPOST: bool = false,
OLCUC: bool = false,
ONLCR: bool = false,
OCRNL: bool = false,
ONOCR: bool = false,
ONLRET: bool = false,
OFILL: bool = false,
OFDEL: bool = false,
NLDLY: u1 = 0,
CRDLY: u2 = 0,
TABDLY: u2 = 0,
BSDLY: u1 = 0,
VTDLY: u1 = 0,
FFDLY: u1 = 0,
_: u16 = 0,
},
else => void,
};
pub const CSIZE = switch (native_os) {
.linux => linux.CSIZE,
.haiku => enum(u1) { CS7, CS8 },
else => enum(u2) { CS5, CS6, CS7, CS8 },
};
pub const tc_cflag_t = switch (native_os) {
.linux => linux.tc_cflag_t,
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u64) {
CIGNORE: bool = false,
_1: u5 = 0,
CSTOPB: bool = false,
_7: u1 = 0,
CSIZE: CSIZE = .CS5,
_10: u1 = 0,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
CCTS_OFLOW: bool = false,
CRTS_IFLOW: bool = false,
CDTR_IFLOW: bool = false,
CDSR_OFLOW: bool = false,
CCAR_OFLOW: bool = false,
_: u43 = 0,
},
.freebsd => packed struct(u32) {
CIGNORE: bool = false,
_1: u7 = 0,
CSIZE: CSIZE = .CS5,
CSTOPB: bool = false,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
CCTS_OFLOW: bool = false,
CRTS_IFLOW: bool = false,
CDTR_IFLOW: bool = false,
CDSR_OFLOW: bool = false,
CCAR_OFLOW: bool = false,
CNO_RTSDTR: bool = false,
_: u10 = 0,
},
.netbsd => packed struct(u32) {
CIGNORE: bool = false,
_1: u7 = 0,
CSIZE: CSIZE = .CS5,
CSTOPB: bool = false,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
CRTSCTS: bool = false,
CDTRCTS: bool = false,
_18: u2 = 0,
MDMBUF: bool = false,
_: u11 = 0,
},
.dragonfly => packed struct(u32) {
CIGNORE: bool = false,
_1: u7 = 0,
CSIZE: CSIZE = .CS5,
CSTOPB: bool = false,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
CCTS_OFLOW: bool = false,
CRTS_IFLOW: bool = false,
CDTR_IFLOW: bool = false,
CDSR_OFLOW: bool = false,
CCAR_OFLOW: bool = false,
_: u11 = 0,
},
.openbsd => packed struct(u32) {
CIGNORE: bool = false,
_1: u7 = 0,
CSIZE: CSIZE = .CS5,
CSTOPB: bool = false,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
CRTSCTS: bool = false,
_17: u3 = 0,
MDMBUF: bool = false,
_: u11 = 0,
},
.haiku => packed struct(u32) {
_0: u5 = 0,
CSIZE: CSIZE = .CS7,
CSTOPB: bool = false,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
XLOBLK: bool = false,
CTSFLOW: bool = false,
RTSFLOW: bool = false,
_: u17 = 0,
},
.solaris, .illumos => packed struct(u32) {
_0: u4 = 0,
CSIZE: CSIZE = .CS5,
CSTOPB: bool = false,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
RCV1EN: bool = false,
XMT1EN: bool = false,
LOBLK: bool = false,
XCLUDE: bool = false,
_16: u4 = 0,
PAREXT: bool = false,
CBAUDEXT: bool = false,
CIBAUDEXT: bool = false,
_23: u7 = 0,
CRTSXOFF: bool = false,
CRTSCTS: bool = false,
},
.wasi, .emscripten => packed struct(u32) {
_0: u4 = 0,
CSIZE: CSIZE = .CS5,
CSTOPB: bool = false,
CREAD: bool = false,
PARENB: bool = false,
PARODD: bool = false,
HUPCL: bool = false,
CLOCAL: bool = false,
_: u20 = 0,
},
else => void,
};
pub const tc_lflag_t = switch (native_os) {
.linux => linux.tc_lflag_t,
.macos, .ios, .tvos, .watchos, .visionos => packed struct(u64) {
ECHOKE: bool = false,
ECHOE: bool = false,
ECHOK: bool = false,
ECHO: bool = false,
ECHONL: bool = false,
ECHOPRT: bool = false,
ECHOCTL: bool = false,
ISIG: bool = false,
ICANON: bool = false,
ALTWERASE: bool = false,
IEXTEN: bool = false,
EXTPROC: bool = false,
_12: u10 = 0,
TOSTOP: bool = false,
FLUSHO: bool = false,
_24: u1 = 0,
NOKERNINFO: bool = false,
_26: u3 = 0,
PENDIN: bool = false,
_30: u1 = 0,
NOFLSH: bool = false,
_: u32 = 0,
},
.netbsd, .freebsd, .dragonfly => packed struct(u32) {
ECHOKE: bool = false,
ECHOE: bool = false,
ECHOK: bool = false,
ECHO: bool = false,
ECHONL: bool = false,
ECHOPRT: bool = false,
ECHOCTL: bool = false,
ISIG: bool = false,
ICANON: bool = false,
ALTWERASE: bool = false,
IEXTEN: bool = false,
EXTPROC: bool = false,
_12: u10 = 0,
TOSTOP: bool = false,
FLUSHO: bool = false,
_24: u1 = 0,
NOKERNINFO: bool = false,
_26: u3 = 0,
PENDIN: bool = false,
_30: u1 = 0,
NOFLSH: bool = false,
},
.openbsd => packed struct(u32) {
ECHOKE: bool = false,
ECHOE: bool = false,
ECHOK: bool = false,
ECHO: bool = false,
ECHONL: bool = false,
ECHOPRT: bool = false,
ECHOCTL: bool = false,
ISIG: bool = false,
ICANON: bool = false,
ALTWERASE: bool = false,
IEXTEN: bool = false,
EXTPROC: bool = false,
_12: u10 = 0,
TOSTOP: bool = false,
FLUSHO: bool = false,
XCASE: bool = false,
NOKERNINFO: bool = false,
_26: u3 = 0,
PENDIN: bool = false,
_30: u1 = 0,
NOFLSH: bool = false,
},
.haiku => packed struct(u32) {
ISIG: bool = false,
ICANON: bool = false,
XCASE: bool = false,
ECHO: bool = false,
ECHOE: bool = false,
ECHOK: bool = false,
ECHONL: bool = false,
NOFLSH: bool = false,
TOSTOP: bool = false,
IEXTEN: bool = false,
ECHOCTL: bool = false,
ECHOPRT: bool = false,
ECHOKE: bool = false,
FLUSHO: bool = false,
PENDIN: bool = false,
_: u17 = 0,
},
.solaris, .illumos => packed struct(u32) {
ISIG: bool = false,
ICANON: bool = false,
XCASE: bool = false,
ECHO: bool = false,
ECHOE: bool = false,
ECHOK: bool = false,
ECHONL: bool = false,
NOFLSH: bool = false,
TOSTOP: bool = false,
ECHOCTL: bool = false,
ECHOPRT: bool = false,
ECHOKE: bool = false,
DEFECHO: bool = false,
FLUSHO: bool = false,
PENDIN: bool = false,
IEXTEN: bool = false,
_: u16 = 0,
},
.wasi, .emscripten => packed struct(u32) {
ISIG: bool = false,
ICANON: bool = false,
_2: u1 = 0,
ECHO: bool = false,
ECHOE: bool = false,
ECHOK: bool = false,
ECHONL: bool = false,
NOFLSH: bool = false,
TOSTOP: bool = false,
_9: u6 = 0,
IEXTEN: bool = false,
_: u16 = 0,
},
else => void,
};
pub const speed_t = switch (native_os) {
.linux => linux.speed_t,
.macos, .ios, .tvos, .watchos, .visionos, .openbsd => enum(u64) {
B0 = 0,
B50 = 50,
B75 = 75,
B110 = 110,
B134 = 134,
B150 = 150,
B200 = 200,
B300 = 300,
B600 = 600,
B1200 = 1200,
B1800 = 1800,
B2400 = 2400,
B4800 = 4800,
B9600 = 9600,
B19200 = 19200,
B38400 = 38400,
B7200 = 7200,
B14400 = 14400,
B28800 = 28800,
B57600 = 57600,
B76800 = 76800,
B115200 = 115200,
B230400 = 230400,
},
.freebsd, .netbsd => enum(c_uint) {
B0 = 0,
B50 = 50,
B75 = 75,
B110 = 110,
B134 = 134,
B150 = 150,
B200 = 200,
B300 = 300,
B600 = 600,
B1200 = 1200,
B1800 = 1800,
B2400 = 2400,
B4800 = 4800,
B9600 = 9600,
B19200 = 19200,
B38400 = 38400,
B7200 = 7200,
B14400 = 14400,
B28800 = 28800,
B57600 = 57600,
B76800 = 76800,
B115200 = 115200,
B230400 = 230400,
B460800 = 460800,
B500000 = 500000,
B921600 = 921600,
B1000000 = 1000000,
B1500000 = 1500000,
B2000000 = 2000000,
B2500000 = 2500000,
B3000000 = 3000000,
B3500000 = 3500000,
B4000000 = 4000000,
},
.dragonfly => enum(c_uint) {
B0 = 0,
B50 = 50,
B75 = 75,
B110 = 110,
B134 = 134,
B150 = 150,
B200 = 200,
B300 = 300,
B600 = 600,
B1200 = 1200,
B1800 = 1800,
B2400 = 2400,
B4800 = 4800,
B9600 = 9600,
B19200 = 19200,
B38400 = 38400,
B7200 = 7200,
B14400 = 14400,
B28800 = 28800,
B57600 = 57600,
B76800 = 76800,
B115200 = 115200,
B230400 = 230400,
B460800 = 460800,
B921600 = 921600,
},
.haiku => enum(u8) {
B0 = 0x00,
B50 = 0x01,
B75 = 0x02,
B110 = 0x03,
B134 = 0x04,
B150 = 0x05,
B200 = 0x06,
B300 = 0x07,
B600 = 0x08,
B1200 = 0x09,
B1800 = 0x0A,
B2400 = 0x0B,
B4800 = 0x0C,
B9600 = 0x0D,
B19200 = 0x0E,
B38400 = 0x0F,
B57600 = 0x10,
B115200 = 0x11,
B230400 = 0x12,
B31250 = 0x13,
},
.solaris, .illumos => enum(c_uint) {
B0 = 0,
B50 = 1,
B75 = 2,
B110 = 3,
B134 = 4,
B150 = 5,
B200 = 6,
B300 = 7,
B600 = 8,
B1200 = 9,
B1800 = 10,
B2400 = 11,
B4800 = 12,
B9600 = 13,
B19200 = 14,
B38400 = 15,
B57600 = 16,
B76800 = 17,
B115200 = 18,
B153600 = 19,
B230400 = 20,
B307200 = 21,
B460800 = 22,
B921600 = 23,
B1000000 = 24,
B1152000 = 25,
B1500000 = 26,
B2000000 = 27,
B2500000 = 28,
B3000000 = 29,
B3500000 = 30,
B4000000 = 31,
},
.emscripten, .wasi => enum(u32) {
B0 = 0o0000000,
B50 = 0o0000001,
B75 = 0o0000002,
B110 = 0o0000003,
B134 = 0o0000004,
B150 = 0o0000005,
B200 = 0o0000006,
B300 = 0o0000007,
B600 = 0o0000010,
B1200 = 0o0000011,
B1800 = 0o0000012,
B2400 = 0o0000013,
B4800 = 0o0000014,
B9600 = 0o0000015,
B19200 = 0o0000016,
B38400 = 0o0000017,
B57600 = 0o0010001,
B115200 = 0o0010002,
B230400 = 0o0010003,
B460800 = 0o0010004,
B500000 = 0o0010005,
B576000 = 0o0010006,
B921600 = 0o0010007,
B1000000 = 0o0010010,
B1152000 = 0o0010011,
B1500000 = 0o0010012,
B2000000 = 0o0010013,
B2500000 = 0o0010014,
B3000000 = 0o0010015,
B3500000 = 0o0010016,
B4000000 = 0o0010017,
},
else => void,
};
pub const whence_t = if (native_os == .wasi) std.os.wasi.whence_t else c_int;
pub const sig_atomic_t = c_int;
/// maximum signal number + 1
pub const NSIG = switch (native_os) {
.linux => linux.NSIG,
.windows => 23,
.haiku => 65,
.netbsd, .freebsd => 32,
.solaris, .illumos => 75,
.openbsd => 33,
else => {},
};
pub const MINSIGSTKSZ = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => 32768,
.freebsd => switch (builtin.cpu.arch) {
.x86, .x86_64 => 2048,
.arm, .aarch64 => 4096,
else => @compileError("unsupported arch"),
},
.solaris, .illumos => 2048,
.haiku, .netbsd => 8192,
.openbsd => 1 << openbsd.MAX_PAGE_SHIFT,
else => {},
};
pub const SIGSTKSZ = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => 131072,
.netbsd, .freebsd => MINSIGSTKSZ + 32768,
.solaris, .illumos => 8192,
.haiku => 16384,
.openbsd => MINSIGSTKSZ + (1 << openbsd.MAX_PAGE_SHIFT) * 4,
else => {},
};
pub const SS = switch (native_os) {
.linux => linux.SS,
.openbsd, .macos, .ios, .tvos, .watchos, .visionos, .netbsd, .freebsd => struct {
pub const ONSTACK = 1;
pub const DISABLE = 4;
},
.haiku, .solaris, .illumos => struct {
pub const ONSTACK = 0x1;
pub const DISABLE = 0x2;
},
else => void,
};
pub const EV = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => struct {
/// add event to kq (implies enable)
pub const ADD = 0x0001;
/// delete event from kq
pub const DELETE = 0x0002;
/// enable event
pub const ENABLE = 0x0004;
/// disable event (not reported)
pub const DISABLE = 0x0008;
/// only report one occurrence
pub const ONESHOT = 0x0010;
/// clear event state after reporting
pub const CLEAR = 0x0020;
/// force immediate event output
/// ... with or without ERROR
/// ... use KEVENT_FLAG_ERROR_EVENTS
/// on syscalls supporting flags
pub const RECEIPT = 0x0040;
/// disable event after reporting
pub const DISPATCH = 0x0080;
/// unique kevent per udata value
pub const UDATA_SPECIFIC = 0x0100;
/// ... in combination with DELETE
/// will defer delete until udata-specific
/// event enabled. EINPROGRESS will be
/// returned to indicate the deferral
pub const DISPATCH2 = DISPATCH | UDATA_SPECIFIC;
/// report that source has vanished
/// ... only valid with DISPATCH2
pub const VANISHED = 0x0200;
/// reserved by system
pub const SYSFLAGS = 0xF000;
/// filter-specific flag
pub const FLAG0 = 0x1000;
/// filter-specific flag
pub const FLAG1 = 0x2000;
/// EOF detected
pub const EOF = 0x8000;
/// error, data contains errno
pub const ERROR = 0x4000;
pub const POLL = FLAG0;
pub const OOBAND = FLAG1;
},
.dragonfly => struct {
pub const ADD = 1;
pub const DELETE = 2;
pub const ENABLE = 4;
pub const DISABLE = 8;
pub const ONESHOT = 16;
pub const CLEAR = 32;
pub const RECEIPT = 64;
pub const DISPATCH = 128;
pub const NODATA = 4096;
pub const FLAG1 = 8192;
pub const ERROR = 16384;
pub const EOF = 32768;
pub const SYSFLAGS = 61440;
},
.netbsd => struct {
/// add event to kq (implies enable)
pub const ADD = 0x0001;
/// delete event from kq
pub const DELETE = 0x0002;
/// enable event
pub const ENABLE = 0x0004;
/// disable event (not reported)
pub const DISABLE = 0x0008;
/// only report one occurrence
pub const ONESHOT = 0x0010;
/// clear event state after reporting
pub const CLEAR = 0x0020;
/// force immediate event output
/// ... with or without ERROR
/// ... use KEVENT_FLAG_ERROR_EVENTS
/// on syscalls supporting flags
pub const RECEIPT = 0x0040;
/// disable event after reporting
pub const DISPATCH = 0x0080;
},
.freebsd => struct {
/// add event to kq (implies enable)
pub const ADD = 0x0001;
/// delete event from kq
pub const DELETE = 0x0002;
/// enable event
pub const ENABLE = 0x0004;
/// disable event (not reported)
pub const DISABLE = 0x0008;
/// only report one occurrence
pub const ONESHOT = 0x0010;
/// clear event state after reporting
pub const CLEAR = 0x0020;
/// error, event data contains errno
pub const ERROR = 0x4000;
/// force immediate event output
/// ... with or without ERROR
/// ... use KEVENT_FLAG_ERROR_EVENTS
/// on syscalls supporting flags
pub const RECEIPT = 0x0040;
/// disable event after reporting
pub const DISPATCH = 0x0080;
},
.openbsd => struct {
pub const ADD = 0x0001;
pub const DELETE = 0x0002;
pub const ENABLE = 0x0004;
pub const DISABLE = 0x0008;
pub const ONESHOT = 0x0010;
pub const CLEAR = 0x0020;
pub const RECEIPT = 0x0040;
pub const DISPATCH = 0x0080;
pub const FLAG1 = 0x2000;
pub const ERROR = 0x4000;
pub const EOF = 0x8000;
},
.haiku => struct {
/// add event to kq (implies enable)
pub const ADD = 0x0001;
/// delete event from kq
pub const DELETE = 0x0002;
/// enable event
pub const ENABLE = 0x0004;
/// disable event (not reported)
pub const DISABLE = 0x0008;
/// only report one occurrence
pub const ONESHOT = 0x0010;
/// clear event state after reporting
pub const CLEAR = 0x0020;
/// force immediate event output
/// ... with or without ERROR
/// ... use KEVENT_FLAG_ERROR_EVENTS
/// on syscalls supporting flags
pub const RECEIPT = 0x0040;
/// disable event after reporting
pub const DISPATCH = 0x0080;
},
else => void,
};
pub const EVFILT = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => struct {
pub const READ = -1;
pub const WRITE = -2;
/// attached to aio requests
pub const AIO = -3;
/// attached to vnodes
pub const VNODE = -4;
/// attached to struct proc
pub const PROC = -5;
/// attached to struct proc
pub const SIGNAL = -6;
/// timers
pub const TIMER = -7;
/// Mach portsets
pub const MACHPORT = -8;
/// Filesystem events
pub const FS = -9;
/// User events
pub const USER = -10;
/// Virtual memory events
pub const VM = -12;
/// Exception events
pub const EXCEPT = -15;
pub const SYSCOUNT = 17;
},
.haiku => struct {
pub const READ = -1;
pub const WRITE = -2;
/// attached to aio requests
pub const AIO = -3;
/// attached to vnodes
pub const VNODE = -4;
/// attached to struct proc
pub const PROC = -5;
/// attached to struct proc
pub const SIGNAL = -6;
/// timers
pub const TIMER = -7;
/// Process descriptors
pub const PROCDESC = -8;
/// Filesystem events
pub const FS = -9;
pub const LIO = -10;
/// User events
pub const USER = -11;
/// Sendfile events
pub const SENDFILE = -12;
pub const EMPTY = -13;
},
.dragonfly => struct {
pub const FS = -10;
pub const USER = -9;
pub const EXCEPT = -8;
pub const TIMER = -7;
pub const SIGNAL = -6;
pub const PROC = -5;
pub const VNODE = -4;
pub const AIO = -3;
pub const WRITE = -2;
pub const READ = -1;
pub const SYSCOUNT = 10;
pub const MARKER = 15;
},
.netbsd => struct {
pub const READ = 0;
pub const WRITE = 1;
/// attached to aio requests
pub const AIO = 2;
/// attached to vnodes
pub const VNODE = 3;
/// attached to struct proc
pub const PROC = 4;
/// attached to struct proc
pub const SIGNAL = 5;
/// timers
pub const TIMER = 6;
/// Filesystem events
pub const FS = 7;
/// User events
pub const USER = 1;
},
.freebsd => struct {
pub const READ = -1;
pub const WRITE = -2;
/// attached to aio requests
pub const AIO = -3;
/// attached to vnodes
pub const VNODE = -4;
/// attached to struct proc
pub const PROC = -5;
/// attached to struct proc
pub const SIGNAL = -6;
/// timers
pub const TIMER = -7;
/// Process descriptors
pub const PROCDESC = -8;
/// Filesystem events
pub const FS = -9;
pub const LIO = -10;
/// User events
pub const USER = -11;
/// Sendfile events
pub const SENDFILE = -12;
pub const EMPTY = -13;
},
.openbsd => struct {
pub const READ = -1;
pub const WRITE = -2;
pub const AIO = -3;
pub const VNODE = -4;
pub const PROC = -5;
pub const SIGNAL = -6;
pub const TIMER = -7;
pub const EXCEPT = -9;
},
else => void,
};
pub const NOTE = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => struct {
/// On input, TRIGGER causes the event to be triggered for output.
pub const TRIGGER = 0x01000000;
/// ignore input fflags
pub const FFNOP = 0x00000000;
/// and fflags
pub const FFAND = 0x40000000;
/// or fflags
pub const FFOR = 0x80000000;
/// copy fflags
pub const FFCOPY = 0xc0000000;
/// mask for operations
pub const FFCTRLMASK = 0xc0000000;
pub const FFLAGSMASK = 0x00ffffff;
/// low water mark
pub const LOWAT = 0x00000001;
/// OOB data
pub const OOB = 0x00000002;
/// vnode was removed
pub const DELETE = 0x00000001;
/// data contents changed
pub const WRITE = 0x00000002;
/// size increased
pub const EXTEND = 0x00000004;
/// attributes changed
pub const ATTRIB = 0x00000008;
/// link count changed
pub const LINK = 0x00000010;
/// vnode was renamed
pub const RENAME = 0x00000020;
/// vnode access was revoked
pub const REVOKE = 0x00000040;
/// No specific vnode event: to test for EVFILT_READ activation
pub const NONE = 0x00000080;
/// vnode was unlocked by flock(2)
pub const FUNLOCK = 0x00000100;
/// process exited
pub const EXIT = 0x80000000;
/// process forked
pub const FORK = 0x40000000;
/// process exec'd
pub const EXEC = 0x20000000;
/// shared with EVFILT_SIGNAL
pub const SIGNAL = 0x08000000;
/// exit status to be returned, valid for child process only
pub const EXITSTATUS = 0x04000000;
/// provide details on reasons for exit
pub const EXIT_DETAIL = 0x02000000;
/// mask for signal & exit status
pub const PDATAMASK = 0x000fffff;
pub const PCTRLMASK = (~PDATAMASK);
pub const EXIT_DETAIL_MASK = 0x00070000;
pub const EXIT_DECRYPTFAIL = 0x00010000;
pub const EXIT_MEMORY = 0x00020000;
pub const EXIT_CSERROR = 0x00040000;
/// will react on memory pressure
pub const VM_PRESSURE = 0x80000000;
/// will quit on memory pressure, possibly after cleaning up dirty state
pub const VM_PRESSURE_TERMINATE = 0x40000000;
/// will quit immediately on memory pressure
pub const VM_PRESSURE_SUDDEN_TERMINATE = 0x20000000;
/// there was an error
pub const VM_ERROR = 0x10000000;
/// data is seconds
pub const SECONDS = 0x00000001;
/// data is microseconds
pub const USECONDS = 0x00000002;
/// data is nanoseconds
pub const NSECONDS = 0x00000004;
/// absolute timeout
pub const ABSOLUTE = 0x00000008;
/// ext[1] holds leeway for power aware timers
pub const LEEWAY = 0x00000010;
/// system does minimal timer coalescing
pub const CRITICAL = 0x00000020;
/// system does maximum timer coalescing
pub const BACKGROUND = 0x00000040;
pub const MACH_CONTINUOUS_TIME = 0x00000080;
/// data is mach absolute time units
pub const MACHTIME = 0x00000100;
},
.dragonfly => struct {
pub const FFNOP = 0;
pub const TRACK = 1;
pub const DELETE = 1;
pub const LOWAT = 1;
pub const TRACKERR = 2;
pub const OOB = 2;
pub const WRITE = 2;
pub const EXTEND = 4;
pub const CHILD = 4;
pub const ATTRIB = 8;
pub const LINK = 16;
pub const RENAME = 32;
pub const REVOKE = 64;
pub const PDATAMASK = 1048575;
pub const FFLAGSMASK = 16777215;
pub const TRIGGER = 16777216;
pub const EXEC = 536870912;
pub const FFAND = 1073741824;
pub const FORK = 1073741824;
pub const EXIT = 2147483648;
pub const FFOR = 2147483648;
pub const FFCTRLMASK = 3221225472;
pub const FFCOPY = 3221225472;
pub const PCTRLMASK = 4026531840;
},
.netbsd => struct {
/// On input, TRIGGER causes the event to be triggered for output.
pub const TRIGGER = 0x08000000;
/// low water mark
pub const LOWAT = 0x00000001;
/// vnode was removed
pub const DELETE = 0x00000001;
/// data contents changed
pub const WRITE = 0x00000002;
/// size increased
pub const EXTEND = 0x00000004;
/// attributes changed
pub const ATTRIB = 0x00000008;
/// link count changed
pub const LINK = 0x00000010;
/// vnode was renamed
pub const RENAME = 0x00000020;
/// vnode access was revoked
pub const REVOKE = 0x00000040;
/// process exited
pub const EXIT = 0x80000000;
/// process forked
pub const FORK = 0x40000000;
/// process exec'd
pub const EXEC = 0x20000000;
/// mask for signal & exit status
pub const PDATAMASK = 0x000fffff;
pub const PCTRLMASK = 0xf0000000;
},
.freebsd => struct {
/// On input, TRIGGER causes the event to be triggered for output.
pub const TRIGGER = 0x01000000;
/// ignore input fflags
pub const FFNOP = 0x00000000;
/// and fflags
pub const FFAND = 0x40000000;
/// or fflags
pub const FFOR = 0x80000000;
/// copy fflags
pub const FFCOPY = 0xc0000000;
/// mask for operations
pub const FFCTRLMASK = 0xc0000000;
pub const FFLAGSMASK = 0x00ffffff;
/// low water mark
pub const LOWAT = 0x00000001;
/// behave like poll()
pub const FILE_POLL = 0x00000002;
/// vnode was removed
pub const DELETE = 0x00000001;
/// data contents changed
pub const WRITE = 0x00000002;
/// size increased
pub const EXTEND = 0x00000004;
/// attributes changed
pub const ATTRIB = 0x00000008;
/// link count changed
pub const LINK = 0x00000010;
/// vnode was renamed
pub const RENAME = 0x00000020;
/// vnode access was revoked
pub const REVOKE = 0x00000040;
/// vnode was opened
pub const OPEN = 0x00000080;
/// file closed, fd did not allow write
pub const CLOSE = 0x00000100;
/// file closed, fd did allow write
pub const CLOSE_WRITE = 0x00000200;
/// file was read
pub const READ = 0x00000400;
/// process exited
pub const EXIT = 0x80000000;
/// process forked
pub const FORK = 0x40000000;
/// process exec'd
pub const EXEC = 0x20000000;
/// mask for signal & exit status
pub const PDATAMASK = 0x000fffff;
pub const PCTRLMASK = (~PDATAMASK);
/// data is seconds
pub const SECONDS = 0x00000001;
/// data is milliseconds
pub const MSECONDS = 0x00000002;
/// data is microseconds
pub const USECONDS = 0x00000004;
/// data is nanoseconds
pub const NSECONDS = 0x00000008;
/// timeout is absolute
pub const ABSTIME = 0x00000010;
},
.openbsd => struct {
// data/hint flags for EVFILT.{READ|WRITE}
pub const LOWAT = 0x0001;
pub const EOF = 0x0002;
// data/hint flags for EVFILT.EXCEPT and EVFILT.{READ|WRITE}
pub const OOB = 0x0004;
// data/hint flags for EVFILT.VNODE
pub const DELETE = 0x0001;
pub const WRITE = 0x0002;
pub const EXTEND = 0x0004;
pub const ATTRIB = 0x0008;
pub const LINK = 0x0010;
pub const RENAME = 0x0020;
pub const REVOKE = 0x0040;
pub const TRUNCATE = 0x0080;
// data/hint flags for EVFILT.PROC
pub const EXIT = 0x80000000;
pub const FORK = 0x40000000;
pub const EXEC = 0x20000000;
pub const PDATAMASK = 0x000fffff;
pub const PCTRLMASK = 0xf0000000;
pub const TRACK = 0x00000001;
pub const TRACKERR = 0x00000002;
pub const CHILD = 0x00000004;
// data/hint flags for EVFILT.DEVICE
pub const CHANGE = 0x00000001;
},
else => void,
};
// Unix-like systems
pub const DIR = opaque {};
pub extern "c" fn opendir(pathname: [*:0]const u8) ?*DIR;
pub extern "c" fn fdopendir(fd: c_int) ?*DIR;
pub extern "c" fn rewinddir(dp: *DIR) void;
pub extern "c" fn closedir(dp: *DIR) c_int;
pub extern "c" fn telldir(dp: *DIR) c_long;
pub extern "c" fn seekdir(dp: *DIR, loc: c_long) void;
pub extern "c" fn sigwait(set: ?*sigset_t, sig: ?*c_int) c_int;
pub extern "c" fn alarm(seconds: c_uint) c_uint;
pub const close = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => darwin.@"close$NOCANCEL",
else => private.close,
};
pub const clock_getres = switch (native_os) {
.netbsd => private.__clock_getres50,
else => private.clock_getres,
};
pub const clock_gettime = switch (native_os) {
.netbsd => private.__clock_gettime50,
else => private.clock_gettime,
};
pub const fstat = switch (native_os) {
.macos => switch (native_arch) {
.x86_64 => private.@"fstat$INODE64",
else => private.fstat,
},
.netbsd => private.__fstat50,
else => private.fstat,
};
pub const fstatat = switch (native_os) {
.macos => switch (native_arch) {
.x86_64 => private.@"fstatat$INODE64",
else => private.fstatat,
},
else => private.fstatat,
};
pub extern "c" fn getpwnam(name: [*:0]const u8) ?*passwd;
pub extern "c" fn getpwuid(uid: uid_t) ?*passwd;
pub extern "c" fn getrlimit64(resource: rlimit_resource, rlim: *rlimit) c_int;
pub extern "c" fn lseek64(fd: fd_t, offset: i64, whence: c_int) i64;
pub extern "c" fn mmap64(addr: ?*align(std.mem.page_size) anyopaque, len: usize, prot: c_uint, flags: c_uint, fd: fd_t, offset: i64) *anyopaque;
pub extern "c" fn open64(path: [*:0]const u8, oflag: O, ...) c_int;
pub extern "c" fn openat64(fd: c_int, path: [*:0]const u8, oflag: O, ...) c_int;
pub extern "c" fn pread64(fd: fd_t, buf: [*]u8, nbyte: usize, offset: i64) isize;
pub extern "c" fn preadv64(fd: c_int, iov: [*]const iovec, iovcnt: c_uint, offset: i64) isize;
pub extern "c" fn pwrite64(fd: fd_t, buf: [*]const u8, nbyte: usize, offset: i64) isize;
pub extern "c" fn pwritev64(fd: c_int, iov: [*]const iovec_const, iovcnt: c_uint, offset: i64) isize;
pub extern "c" fn sendfile64(out_fd: fd_t, in_fd: fd_t, offset: ?*i64, count: usize) isize;
pub extern "c" fn setrlimit64(resource: rlimit_resource, rlim: *const rlimit) c_int;
pub const arc4random_buf = switch (native_os) {
.dragonfly, .netbsd, .freebsd, .solaris, .openbsd, .macos, .ios, .tvos, .watchos, .visionos => private.arc4random_buf,
else => {},
};
pub const getentropy = switch (native_os) {
.emscripten => private.getentropy,
else => {},
};
pub const getrandom = switch (native_os) {
.freebsd => private.getrandom,
.linux => if (versionCheck(.{ .major = 2, .minor = 25, .patch = 0 })) private.getrandom else {},
else => {},
};
pub extern "c" fn sched_getaffinity(pid: c_int, size: usize, set: *cpu_set_t) c_int;
pub extern "c" fn eventfd(initval: c_uint, flags: c_uint) c_int;
pub extern "c" fn epoll_ctl(epfd: fd_t, op: c_uint, fd: fd_t, event: ?*epoll_event) c_int;
pub extern "c" fn epoll_create1(flags: c_uint) c_int;
pub extern "c" fn epoll_wait(epfd: fd_t, events: [*]epoll_event, maxevents: c_uint, timeout: c_int) c_int;
pub extern "c" fn epoll_pwait(
epfd: fd_t,
events: [*]epoll_event,
maxevents: c_int,
timeout: c_int,
sigmask: *const sigset_t,
) c_int;
pub extern "c" fn timerfd_create(clockid: clockid_t, flags: c_int) c_int;
pub extern "c" fn timerfd_settime(
fd: c_int,
flags: c_int,
new_value: *const itimerspec,
old_value: ?*itimerspec,
) c_int;
pub extern "c" fn timerfd_gettime(fd: c_int, curr_value: *itimerspec) c_int;
pub extern "c" fn inotify_init1(flags: c_uint) c_int;
pub extern "c" fn inotify_add_watch(fd: fd_t, pathname: [*:0]const u8, mask: u32) c_int;
pub extern "c" fn inotify_rm_watch(fd: fd_t, wd: c_int) c_int;
pub extern "c" fn fstat64(fd: fd_t, buf: *Stat) c_int;
pub extern "c" fn fstatat64(dirfd: fd_t, noalias path: [*:0]const u8, noalias stat_buf: *Stat, flags: u32) c_int;
pub extern "c" fn fallocate64(fd: fd_t, mode: c_int, offset: off_t, len: off_t) c_int;
pub extern "c" fn fopen64(noalias filename: [*:0]const u8, noalias modes: [*:0]const u8) ?*FILE;
pub extern "c" fn ftruncate64(fd: c_int, length: off_t) c_int;
pub extern "c" fn fallocate(fd: fd_t, mode: c_int, offset: off_t, len: off_t) c_int;
pub const sendfile = switch (native_os) {
.freebsd => freebsd.sendfile,
.macos, .ios, .tvos, .watchos, .visionos => darwin.sendfile,
.linux => private.sendfile,
else => {},
};
/// See std.elf for constants for this
pub extern "c" fn getauxval(__type: c_ulong) c_ulong;
pub extern "c" fn dl_iterate_phdr(callback: dl_iterate_phdr_callback, data: ?*anyopaque) c_int;
pub const sigaltstack = switch (native_os) {
.netbsd => private.__sigaltstack14,
else => private.sigaltstack,
};
pub extern "c" fn memfd_create(name: [*:0]const u8, flags: c_uint) c_int;
pub const pipe2 = switch (native_os) {
.dragonfly, .emscripten, .netbsd, .freebsd, .solaris, .illumos, .openbsd, .linux => private.pipe2,
else => {},
};
pub const copy_file_range = switch (native_os) {
.linux => private.copy_file_range,
.freebsd => freebsd.copy_file_range,
else => {},
};
pub extern "c" fn signalfd(fd: fd_t, mask: *const sigset_t, flags: u32) c_int;
pub extern "c" fn prlimit(pid: pid_t, resource: rlimit_resource, new_limit: *const rlimit, old_limit: *rlimit) c_int;
pub extern "c" fn mincore(
addr: *align(std.mem.page_size) anyopaque,
length: usize,
vec: [*]u8,
) c_int;
pub extern "c" fn madvise(
addr: *align(std.mem.page_size) anyopaque,
length: usize,
advice: u32,
) c_int;
pub const getdirentries = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => private.__getdirentries64,
else => private.getdirentries,
};
pub const getdents = switch (native_os) {
.netbsd => private.__getdents30,
else => private.getdents,
};
pub const getrusage = switch (native_os) {
.netbsd => private.__getrusage50,
else => private.getrusage,
};
pub const gettimeofday = switch (native_os) {
.netbsd => private.__gettimeofday50,
else => private.gettimeofday,
};
pub const msync = switch (native_os) {
.netbsd => private.__msync13,
else => private.msync,
};
pub const nanosleep = switch (native_os) {
.netbsd => private.__nanosleep50,
else => private.nanosleep,
};
pub const readdir = switch (native_os) {
.macos => switch (native_arch) {
.x86_64 => private.@"readdir$INODE64",
else => private.readdir,
},
.windows => {},
else => private.readdir,
};
pub const realpath = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => private.@"realpath$DARWIN_EXTSN",
else => private.realpath,
};
pub const sched_yield = switch (native_os) {
.netbsd => private.__libc_thr_yield,
else => private.sched_yield,
};
pub const sigaction = switch (native_os) {
.netbsd => private.__sigaction14,
else => private.sigaction,
};
pub const sigfillset = switch (native_os) {
.netbsd => private.__sigfillset14,
else => private.sigfillset,
};
pub const sigprocmask = switch (native_os) {
.netbsd => private.__sigprocmask14,
else => private.sigprocmask,
};
pub const socket = switch (native_os) {
.netbsd => private.__socket30,
else => private.socket,
};
pub const stat = switch (native_os) {
.macos => switch (native_arch) {
.x86_64 => private.@"stat$INODE64",
else => private.stat,
},
else => private.stat,
};
pub const _msize = switch (native_os) {
.windows => private._msize,
else => {},
};
pub const malloc_size = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => private.malloc_size,
else => {},
};
pub const malloc_usable_size = switch (native_os) {
.freebsd, .linux => private.malloc_usable_size,
else => {},
};
pub const posix_memalign = switch (native_os) {
.dragonfly, .netbsd, .freebsd, .solaris, .openbsd, .linux, .macos, .ios, .tvos, .watchos, .visionos => private.posix_memalign,
else => {},
};
pub const sf_hdtr = switch (native_os) {
.freebsd, .macos, .ios, .tvos, .watchos, .visionos => extern struct {
headers: [*]const iovec_const,
hdr_cnt: c_int,
trailers: [*]const iovec_const,
trl_cnt: c_int,
},
else => void,
};
pub const flock = switch (native_os) {
.windows, .wasi => {},
else => private.flock,
};
pub extern "c" var environ: [*:null]?[*:0]u8;
pub extern "c" fn fopen(noalias filename: [*:0]const u8, noalias modes: [*:0]const u8) ?*FILE;
pub extern "c" fn fclose(stream: *FILE) c_int;
pub extern "c" fn fwrite(noalias ptr: [*]const u8, size_of_type: usize, item_count: usize, noalias stream: *FILE) usize;
pub extern "c" fn fread(noalias ptr: [*]u8, size_of_type: usize, item_count: usize, noalias stream: *FILE) usize;
pub extern "c" fn printf(format: [*:0]const u8, ...) c_int;
pub extern "c" fn abort() noreturn;
pub extern "c" fn exit(code: c_int) noreturn;
pub extern "c" fn _exit(code: c_int) noreturn;
pub extern "c" fn isatty(fd: fd_t) c_int;
pub extern "c" fn lseek(fd: fd_t, offset: off_t, whence: whence_t) off_t;
pub extern "c" fn open(path: [*:0]const u8, oflag: O, ...) c_int;
pub extern "c" fn openat(fd: c_int, path: [*:0]const u8, oflag: O, ...) c_int;
pub extern "c" fn ftruncate(fd: c_int, length: off_t) c_int;
pub extern "c" fn raise(sig: c_int) c_int;
pub extern "c" fn read(fd: fd_t, buf: [*]u8, nbyte: usize) isize;
pub extern "c" fn readv(fd: c_int, iov: [*]const iovec, iovcnt: c_uint) isize;
pub extern "c" fn pread(fd: fd_t, buf: [*]u8, nbyte: usize, offset: off_t) isize;
pub extern "c" fn preadv(fd: c_int, iov: [*]const iovec, iovcnt: c_uint, offset: off_t) isize;
pub extern "c" fn writev(fd: c_int, iov: [*]const iovec_const, iovcnt: c_uint) isize;
pub extern "c" fn pwritev(fd: c_int, iov: [*]const iovec_const, iovcnt: c_uint, offset: off_t) isize;
pub extern "c" fn write(fd: fd_t, buf: [*]const u8, nbyte: usize) isize;
pub extern "c" fn pwrite(fd: fd_t, buf: [*]const u8, nbyte: usize, offset: off_t) isize;
pub extern "c" fn mmap(addr: ?*align(page_size) anyopaque, len: usize, prot: c_uint, flags: MAP, fd: fd_t, offset: off_t) *anyopaque;
pub extern "c" fn munmap(addr: *align(page_size) const anyopaque, len: usize) c_int;
pub extern "c" fn mprotect(addr: *align(page_size) anyopaque, len: usize, prot: c_uint) c_int;
pub extern "c" fn link(oldpath: [*:0]const u8, newpath: [*:0]const u8, flags: c_int) c_int;
pub extern "c" fn linkat(oldfd: fd_t, oldpath: [*:0]const u8, newfd: fd_t, newpath: [*:0]const u8, flags: c_int) c_int;
pub extern "c" fn unlink(path: [*:0]const u8) c_int;
pub extern "c" fn unlinkat(dirfd: fd_t, path: [*:0]const u8, flags: c_uint) c_int;
pub extern "c" fn getcwd(buf: [*]u8, size: usize) ?[*]u8;
pub extern "c" fn waitpid(pid: pid_t, status: ?*c_int, options: c_int) pid_t;
pub extern "c" fn wait4(pid: pid_t, status: ?*c_int, options: c_int, ru: ?*rusage) pid_t;
pub const fork = switch (native_os) {
.dragonfly,
.freebsd,
.ios,
.linux,
.macos,
.netbsd,
.openbsd,
.solaris,
.illumos,
.tvos,
.watchos,
.visionos,
.haiku,
=> private.fork,
else => {},
};
pub extern "c" fn access(path: [*:0]const u8, mode: c_uint) c_int;
pub extern "c" fn faccessat(dirfd: fd_t, path: [*:0]const u8, mode: c_uint, flags: c_uint) c_int;
pub extern "c" fn pipe(fds: *[2]fd_t) c_int;
pub extern "c" fn mkdir(path: [*:0]const u8, mode: c_uint) c_int;
pub extern "c" fn mkdirat(dirfd: fd_t, path: [*:0]const u8, mode: u32) c_int;
pub extern "c" fn symlink(existing: [*:0]const u8, new: [*:0]const u8) c_int;
pub extern "c" fn symlinkat(oldpath: [*:0]const u8, newdirfd: fd_t, newpath: [*:0]const u8) c_int;
pub extern "c" fn rename(old: [*:0]const u8, new: [*:0]const u8) c_int;
pub extern "c" fn renameat(olddirfd: fd_t, old: [*:0]const u8, newdirfd: fd_t, new: [*:0]const u8) c_int;
pub extern "c" fn chdir(path: [*:0]const u8) c_int;
pub extern "c" fn fchdir(fd: fd_t) c_int;
pub extern "c" fn execve(path: [*:0]const u8, argv: [*:null]const ?[*:0]const u8, envp: [*:null]const ?[*:0]const u8) c_int;
pub extern "c" fn dup(fd: fd_t) c_int;
pub extern "c" fn dup2(old_fd: fd_t, new_fd: fd_t) c_int;
pub extern "c" fn dup3(old: c_int, new: c_int, flags: c_uint) c_int;
pub extern "c" fn readlink(noalias path: [*:0]const u8, noalias buf: [*]u8, bufsize: usize) isize;
pub extern "c" fn readlinkat(dirfd: fd_t, noalias path: [*:0]const u8, noalias buf: [*]u8, bufsize: usize) isize;
pub extern "c" fn chmod(path: [*:0]const u8, mode: mode_t) c_int;
pub extern "c" fn fchmod(fd: fd_t, mode: mode_t) c_int;
pub extern "c" fn fchmodat(fd: fd_t, path: [*:0]const u8, mode: mode_t, flags: c_uint) c_int;
pub extern "c" fn fchown(fd: fd_t, owner: uid_t, group: gid_t) c_int;
pub extern "c" fn umask(mode: mode_t) mode_t;
pub extern "c" fn rmdir(path: [*:0]const u8) c_int;
pub extern "c" fn getenv(name: [*:0]const u8) ?[*:0]u8;
pub extern "c" fn sysctl(name: [*]const c_int, namelen: c_uint, oldp: ?*anyopaque, oldlenp: ?*usize, newp: ?*anyopaque, newlen: usize) c_int;
pub extern "c" fn sysctlbyname(name: [*:0]const u8, oldp: ?*anyopaque, oldlenp: ?*usize, newp: ?*anyopaque, newlen: usize) c_int;
pub extern "c" fn sysctlnametomib(name: [*:0]const u8, mibp: ?*c_int, sizep: ?*usize) c_int;
pub extern "c" fn tcgetattr(fd: fd_t, termios_p: *termios) c_int;
pub extern "c" fn tcsetattr(fd: fd_t, optional_action: TCSA, termios_p: *const termios) c_int;
pub extern "c" fn fcntl(fd: fd_t, cmd: c_int, ...) c_int;
pub extern "c" fn ioctl(fd: fd_t, request: c_int, ...) c_int;
pub extern "c" fn uname(buf: *utsname) c_int;
pub extern "c" fn gethostname(name: [*]u8, len: usize) c_int;
pub extern "c" fn shutdown(socket: fd_t, how: c_int) c_int;
pub extern "c" fn bind(socket: fd_t, address: ?*const sockaddr, address_len: socklen_t) c_int;
pub extern "c" fn socketpair(domain: c_uint, sock_type: c_uint, protocol: c_uint, sv: *[2]fd_t) c_int;
pub extern "c" fn listen(sockfd: fd_t, backlog: c_uint) c_int;
pub extern "c" fn getsockname(sockfd: fd_t, noalias addr: *sockaddr, noalias addrlen: *socklen_t) c_int;
pub extern "c" fn getpeername(sockfd: fd_t, noalias addr: *sockaddr, noalias addrlen: *socklen_t) c_int;
pub extern "c" fn connect(sockfd: fd_t, sock_addr: *const sockaddr, addrlen: socklen_t) c_int;
pub extern "c" fn accept(sockfd: fd_t, noalias addr: ?*sockaddr, noalias addrlen: ?*socklen_t) c_int;
pub extern "c" fn accept4(sockfd: fd_t, noalias addr: ?*sockaddr, noalias addrlen: ?*socklen_t, flags: c_uint) c_int;
pub extern "c" fn getsockopt(sockfd: fd_t, level: i32, optname: u32, noalias optval: ?*anyopaque, noalias optlen: *socklen_t) c_int;
pub extern "c" fn setsockopt(sockfd: fd_t, level: i32, optname: u32, optval: ?*const anyopaque, optlen: socklen_t) c_int;
pub extern "c" fn send(sockfd: fd_t, buf: *const anyopaque, len: usize, flags: u32) isize;
pub extern "c" fn sendto(
sockfd: fd_t,
buf: *const anyopaque,
len: usize,
flags: u32,
dest_addr: ?*const sockaddr,
addrlen: socklen_t,
) isize;
pub extern "c" fn sendmsg(sockfd: fd_t, msg: *const msghdr_const, flags: u32) isize;
pub extern "c" fn recv(
sockfd: fd_t,
arg1: ?*anyopaque,
arg2: usize,
arg3: c_int,
) if (native_os == .windows) c_int else isize;
pub extern "c" fn recvfrom(
sockfd: fd_t,
noalias buf: *anyopaque,
len: usize,
flags: u32,
noalias src_addr: ?*sockaddr,
noalias addrlen: ?*socklen_t,
) if (native_os == .windows) c_int else isize;
pub extern "c" fn recvmsg(sockfd: fd_t, msg: *msghdr, flags: u32) isize;
pub extern "c" fn kill(pid: pid_t, sig: c_int) c_int;
pub extern "c" fn setuid(uid: uid_t) c_int;
pub extern "c" fn setgid(gid: gid_t) c_int;
pub extern "c" fn seteuid(euid: uid_t) c_int;
pub extern "c" fn setegid(egid: gid_t) c_int;
pub extern "c" fn setreuid(ruid: uid_t, euid: uid_t) c_int;
pub extern "c" fn setregid(rgid: gid_t, egid: gid_t) c_int;
pub extern "c" fn setresuid(ruid: uid_t, euid: uid_t, suid: uid_t) c_int;
pub extern "c" fn setresgid(rgid: gid_t, egid: gid_t, sgid: gid_t) c_int;
pub extern "c" fn setpgid(pid: pid_t, pgid: pid_t) c_int;
pub extern "c" fn malloc(usize) ?*anyopaque;
pub extern "c" fn realloc(?*anyopaque, usize) ?*anyopaque;
pub extern "c" fn free(?*anyopaque) void;
pub extern "c" fn futimes(fd: fd_t, times: *[2]timeval) c_int;
pub extern "c" fn utimes(path: [*:0]const u8, times: *[2]timeval) c_int;
pub extern "c" fn utimensat(dirfd: fd_t, pathname: [*:0]const u8, times: *[2]timespec, flags: u32) c_int;
pub extern "c" fn futimens(fd: fd_t, times: *const [2]timespec) c_int;
pub extern "c" fn pthread_create(
noalias newthread: *pthread_t,
noalias attr: ?*const pthread_attr_t,
start_routine: *const fn (?*anyopaque) callconv(.C) ?*anyopaque,
noalias arg: ?*anyopaque,
) E;
pub extern "c" fn pthread_attr_init(attr: *pthread_attr_t) E;
pub extern "c" fn pthread_attr_setstack(attr: *pthread_attr_t, stackaddr: *anyopaque, stacksize: usize) E;
pub extern "c" fn pthread_attr_setstacksize(attr: *pthread_attr_t, stacksize: usize) E;
pub extern "c" fn pthread_attr_setguardsize(attr: *pthread_attr_t, guardsize: usize) E;
pub extern "c" fn pthread_attr_destroy(attr: *pthread_attr_t) E;
pub extern "c" fn pthread_self() pthread_t;
pub extern "c" fn pthread_join(thread: pthread_t, arg_return: ?*?*anyopaque) E;
pub extern "c" fn pthread_detach(thread: pthread_t) E;
pub extern "c" fn pthread_atfork(
prepare: ?*const fn () callconv(.C) void,
parent: ?*const fn () callconv(.C) void,
child: ?*const fn () callconv(.C) void,
) c_int;
pub extern "c" fn pthread_key_create(
key: *pthread_key_t,
destructor: ?*const fn (value: *anyopaque) callconv(.C) void,
) E;
pub extern "c" fn pthread_key_delete(key: pthread_key_t) E;
pub extern "c" fn pthread_getspecific(key: pthread_key_t) ?*anyopaque;
pub extern "c" fn pthread_setspecific(key: pthread_key_t, value: ?*anyopaque) c_int;
pub extern "c" fn pthread_sigmask(how: c_int, set: *const sigset_t, oldset: *sigset_t) c_int;
pub const pthread_setname_np = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => darwin.pthread_setname_np,
.solaris, .illumos => solaris.pthread_setname_np,
.netbsd => netbsd.pthread_setname_np,
else => private.pthread_setname_np,
};
pub extern "c" fn pthread_getname_np(thread: pthread_t, name: [*:0]u8, len: usize) c_int;
pub const pthread_threadid_np = switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => private.pthread_threadid_np,
else => {},
};
pub extern "c" fn sem_init(sem: *sem_t, pshared: c_int, value: c_uint) c_int;
pub extern "c" fn sem_destroy(sem: *sem_t) c_int;
pub extern "c" fn sem_open(name: [*:0]const u8, flag: c_int, mode: mode_t, value: c_uint) *sem_t;
pub extern "c" fn sem_close(sem: *sem_t) c_int;
pub extern "c" fn sem_post(sem: *sem_t) c_int;
pub extern "c" fn sem_wait(sem: *sem_t) c_int;
pub extern "c" fn sem_trywait(sem: *sem_t) c_int;
pub extern "c" fn sem_timedwait(sem: *sem_t, abs_timeout: *const timespec) c_int;
pub extern "c" fn sem_getvalue(sem: *sem_t, sval: *c_int) c_int;
pub extern "c" fn shm_open(name: [*:0]const u8, flag: c_int, mode: mode_t) c_int;
pub extern "c" fn shm_unlink(name: [*:0]const u8) c_int;
pub extern "c" fn kqueue() c_int;
pub extern "c" fn kevent(
kq: c_int,
changelist: [*]const Kevent,
nchanges: c_int,
eventlist: [*]Kevent,
nevents: c_int,
timeout: ?*const timespec,
) c_int;
pub extern "c" fn port_create() port_t;
pub extern "c" fn port_associate(
port: port_t,
source: u32,
object: usize,
events: u32,
user_var: ?*anyopaque,
) c_int;
pub extern "c" fn port_dissociate(port: port_t, source: u32, object: usize) c_int;
pub extern "c" fn port_send(port: port_t, events: u32, user_var: ?*anyopaque) c_int;
pub extern "c" fn port_sendn(
ports: [*]port_t,
errors: []u32,
num_ports: u32,
events: u32,
user_var: ?*anyopaque,
) c_int;
pub extern "c" fn port_get(port: port_t, event: *port_event, timeout: ?*timespec) c_int;
pub extern "c" fn port_getn(
port: port_t,
event_list: []port_event,
max_events: u32,
events_retrieved: *u32,
timeout: ?*timespec,
) c_int;
pub extern "c" fn port_alert(port: port_t, flags: u32, events: u32, user_var: ?*anyopaque) c_int;
pub extern "c" fn getaddrinfo(
noalias node: ?[*:0]const u8,
noalias service: ?[*:0]const u8,
noalias hints: ?*const addrinfo,
/// On Linux, `res` will not be modified on error and `freeaddrinfo` will
/// potentially crash if you pass it an undefined pointer
noalias res: *?*addrinfo,
) EAI;
pub extern "c" fn freeaddrinfo(res: *addrinfo) void;
pub extern "c" fn getnameinfo(
noalias addr: *const sockaddr,
addrlen: socklen_t,
noalias host: [*]u8,
hostlen: socklen_t,
noalias serv: [*]u8,
servlen: socklen_t,
flags: u32,
) EAI;
pub extern "c" fn gai_strerror(errcode: EAI) [*:0]const u8;
pub extern "c" fn poll(fds: [*]pollfd, nfds: nfds_t, timeout: c_int) c_int;
pub extern "c" fn ppoll(fds: [*]pollfd, nfds: nfds_t, timeout: ?*const timespec, sigmask: ?*const sigset_t) c_int;
pub extern "c" fn dn_expand(
msg: [*:0]const u8,
eomorig: [*:0]const u8,
comp_dn: [*:0]const u8,
exp_dn: [*:0]u8,
length: c_int,
) c_int;
pub const PTHREAD_MUTEX_INITIALIZER = pthread_mutex_t{};
pub extern "c" fn pthread_mutex_lock(mutex: *pthread_mutex_t) E;
pub extern "c" fn pthread_mutex_unlock(mutex: *pthread_mutex_t) E;
pub extern "c" fn pthread_mutex_trylock(mutex: *pthread_mutex_t) E;
pub extern "c" fn pthread_mutex_destroy(mutex: *pthread_mutex_t) E;
pub const PTHREAD_COND_INITIALIZER = pthread_cond_t{};
pub extern "c" fn pthread_cond_wait(noalias cond: *pthread_cond_t, noalias mutex: *pthread_mutex_t) E;
pub extern "c" fn pthread_cond_timedwait(noalias cond: *pthread_cond_t, noalias mutex: *pthread_mutex_t, noalias abstime: *const timespec) E;
pub extern "c" fn pthread_cond_signal(cond: *pthread_cond_t) E;
pub extern "c" fn pthread_cond_broadcast(cond: *pthread_cond_t) E;
pub extern "c" fn pthread_cond_destroy(cond: *pthread_cond_t) E;
pub extern "c" fn pthread_rwlock_destroy(rwl: *pthread_rwlock_t) callconv(.C) E;
pub extern "c" fn pthread_rwlock_rdlock(rwl: *pthread_rwlock_t) callconv(.C) E;
pub extern "c" fn pthread_rwlock_wrlock(rwl: *pthread_rwlock_t) callconv(.C) E;
pub extern "c" fn pthread_rwlock_tryrdlock(rwl: *pthread_rwlock_t) callconv(.C) E;
pub extern "c" fn pthread_rwlock_trywrlock(rwl: *pthread_rwlock_t) callconv(.C) E;
pub extern "c" fn pthread_rwlock_unlock(rwl: *pthread_rwlock_t) callconv(.C) E;
pub const pthread_t = *opaque {};
pub const FILE = opaque {};
pub extern "c" fn dlopen(path: [*:0]const u8, mode: RTLD) ?*anyopaque;
pub extern "c" fn dlclose(handle: *anyopaque) c_int;
pub extern "c" fn dlsym(handle: ?*anyopaque, symbol: [*:0]const u8) ?*anyopaque;
pub extern "c" fn dlerror() ?[*:0]u8;
pub extern "c" fn sync() void;
pub extern "c" fn syncfs(fd: c_int) c_int;
pub extern "c" fn fsync(fd: c_int) c_int;
pub extern "c" fn fdatasync(fd: c_int) c_int;
pub extern "c" fn prctl(option: c_int, ...) c_int;
pub extern "c" fn getrlimit(resource: rlimit_resource, rlim: *rlimit) c_int;
pub extern "c" fn setrlimit(resource: rlimit_resource, rlim: *const rlimit) c_int;
pub extern "c" fn fmemopen(noalias buf: ?*anyopaque, size: usize, noalias mode: [*:0]const u8) ?*FILE;
pub extern "c" fn syslog(priority: c_int, message: [*:0]const u8, ...) void;
pub extern "c" fn openlog(ident: [*:0]const u8, logopt: c_int, facility: c_int) void;
pub extern "c" fn closelog() void;
pub extern "c" fn setlogmask(maskpri: c_int) c_int;
pub extern "c" fn if_nametoindex([*:0]const u8) c_int;
pub extern "c" fn getpid() pid_t;
/// These are implementation defined but share identical values in at least musl and glibc:
/// - https://git.musl-libc.org/cgit/musl/tree/include/locale.h?id=ab31e9d6a0fa7c5c408856c89df2dfb12c344039#n18
/// - https://sourceware.org/git/?p=glibc.git;a=blob;f=locale/bits/locale.h;h=0fcbb66114be5fef0577dc9047256eb508c45919;hb=c90cfce849d010474e8cccf3e5bff49a2c8b141f#l26
pub const LC = enum(c_int) {
CTYPE = 0,
NUMERIC = 1,
TIME = 2,
COLLATE = 3,
MONETARY = 4,
MESSAGES = 5,
ALL = 6,
PAPER = 7,
NAME = 8,
ADDRESS = 9,
TELEPHONE = 10,
MEASUREMENT = 11,
IDENTIFICATION = 12,
_,
};
pub extern "c" fn setlocale(category: LC, locale: ?[*:0]const u8) ?[*:0]const u8;
pub const getcontext = if (builtin.target.isAndroid())
{} // android bionic libc does not implement getcontext
else if (native_os == .linux and builtin.target.isMusl())
linux.getcontext
else
private.getcontext;
pub const max_align_t = if (native_abi == .msvc)
f64
else if (builtin.target.isDarwin())
c_longdouble
else
extern struct {
a: c_longlong,
b: c_longdouble,
};
pub extern "c" fn pthread_getthreadid_np() c_int;
pub extern "c" fn pthread_set_name_np(thread: pthread_t, name: [*:0]const u8) void;
pub extern "c" fn pthread_get_name_np(thread: pthread_t, name: [*:0]u8, len: usize) void;
// OS-specific bits. These are protected from being used on the wrong OS by
// comptime assertions inside each OS-specific file.
pub const AF_SUN = solaris.AF_SUN;
pub const AT_SUN = solaris.AT_SUN;
pub const FILE_EVENT = solaris.FILE_EVENT;
pub const GETCONTEXT = solaris.GETCONTEXT;
pub const GETUSTACK = solaris.GETUSTACK;
pub const PORT_ALERT = solaris.PORT_ALERT;
pub const PORT_SOURCE = solaris.PORT_SOURCE;
pub const POSIX_FADV = solaris.POSIX_FADV;
pub const SCM = solaris.SCM;
pub const SETCONTEXT = solaris.SETCONTEXT;
pub const SETUSTACK = solaris.GETUSTACK;
pub const SFD = solaris.SFD;
pub const _SC = solaris._SC;
pub const cmsghdr = solaris.cmsghdr;
pub const ctid_t = solaris.ctid_t;
pub const file_obj = solaris.file_obj;
pub const fpregset_t = solaris.fpregset_t;
pub const id_t = solaris.id_t;
pub const lif_ifinfo_req = solaris.lif_ifinfo_req;
pub const lif_nd_req = solaris.lif_nd_req;
pub const lifreq = solaris.lifreq;
pub const major_t = solaris.major_t;
pub const minor_t = solaris.minor_t;
pub const poolid_t = solaris.poolid_t;
pub const port_notify = solaris.port_notify;
pub const priority = solaris.priority;
pub const procfs = solaris.procfs;
pub const projid_t = solaris.projid_t;
pub const signalfd_siginfo = solaris.signalfd_siginfo;
pub const sysconf = solaris.sysconf;
pub const taskid_t = solaris.taskid_t;
pub const zoneid_t = solaris.zoneid_t;
pub const DirEnt = haiku.DirEnt;
pub const _get_next_area_info = haiku._get_next_area_info;
pub const _get_next_image_info = haiku._get_next_image_info;
pub const _get_team_info = haiku._get_team_info;
pub const _kern_get_current_team = haiku._kern_get_current_team;
pub const _kern_open_dir = haiku._kern_open_dir;
pub const _kern_read_dir = haiku._kern_read_dir;
pub const _kern_read_stat = haiku._kern_read_stat;
pub const _kern_rewind_dir = haiku._kern_rewind_dir;
pub const area_id = haiku.area_id;
pub const area_info = haiku.area_info;
pub const directory_which = haiku.directory_which;
pub const find_directory = haiku.find_directory;
pub const find_thread = haiku.find_thread;
pub const get_system_info = haiku.get_system_info;
pub const image_info = haiku.image_info;
pub const port_id = haiku.port_id;
pub const sem_id = haiku.sem_id;
pub const status_t = haiku.status_t;
pub const system_info = haiku.system_info;
pub const team_id = haiku.team_id;
pub const team_info = haiku.team_info;
pub const thread_id = haiku.thread_id;
pub const vregs = haiku.vregs;
pub const AUTH = openbsd.AUTH;
pub const BI = openbsd.BI;
pub const FUTEX = openbsd.FUTEX;
pub const HW = openbsd.HW;
pub const PTHREAD_STACK_MIN = openbsd.PTHREAD_STACK_MIN;
pub const TCFLUSH = openbsd.TCFLUSH;
pub const TCIO = openbsd.TCIO;
pub const auth_approval = openbsd.auth_approval;
pub const auth_call = openbsd.auth_call;
pub const auth_cat = openbsd.auth_cat;
pub const auth_challenge = openbsd.auth_challenge;
pub const auth_check_change = openbsd.auth_check_change;
pub const auth_check_expire = openbsd.auth_check_expire;
pub const auth_checknologin = openbsd.auth_checknologin;
pub const auth_clean = openbsd.auth_clean;
pub const auth_close = openbsd.auth_close;
pub const auth_clrenv = openbsd.auth_clrenv;
pub const auth_clroption = openbsd.auth_clroption;
pub const auth_clroptions = openbsd.auth_clroptions;
pub const auth_getitem = openbsd.auth_getitem;
pub const auth_getpwd = openbsd.auth_getpwd;
pub const auth_getstate = openbsd.auth_getstate;
pub const auth_getvalue = openbsd.auth_getvalue;
pub const auth_item_t = openbsd.auth_item_t;
pub const auth_mkvalue = openbsd.auth_mkvalue;
pub const auth_open = openbsd.auth_open;
pub const auth_session_t = openbsd.auth_session_t;
pub const auth_setdata = openbsd.auth_setdata;
pub const auth_setenv = openbsd.auth_setenv;
pub const auth_setitem = openbsd.auth_setitem;
pub const auth_setoption = openbsd.auth_setoption;
pub const auth_setpwd = openbsd.auth_setpwd;
pub const auth_setstate = openbsd.auth_setstate;
pub const auth_userchallenge = openbsd.auth_userchallenge;
pub const auth_usercheck = openbsd.auth_usercheck;
pub const auth_userokay = openbsd.auth_userokay;
pub const auth_userresponse = openbsd.auth_userresponse;
pub const auth_verify = openbsd.auth_verify;
pub const bcrypt = openbsd.bcrypt;
pub const bcrypt_checkpass = openbsd.bcrypt_checkpass;
pub const bcrypt_gensalt = openbsd.bcrypt_gensalt;
pub const bcrypt_newhash = openbsd.bcrypt_newhash;
pub const endpwent = openbsd.endpwent;
pub const futex = openbsd.futex;
pub const getpwent = openbsd.getpwent;
pub const getpwnam_r = openbsd.getpwnam_r;
pub const getpwnam_shadow = openbsd.getpwnam_shadow;
pub const getpwuid_r = openbsd.getpwuid_r;
pub const getpwuid_shadow = openbsd.getpwuid_shadow;
pub const getthrid = openbsd.getthrid;
pub const login_cap_t = openbsd.login_cap_t;
pub const login_close = openbsd.login_close;
pub const login_getcapbool = openbsd.login_getcapbool;
pub const login_getcapnum = openbsd.login_getcapnum;
pub const login_getcapsize = openbsd.login_getcapsize;
pub const login_getcapstr = openbsd.login_getcapstr;
pub const login_getcaptime = openbsd.login_getcaptime;
pub const login_getclass = openbsd.login_getclass;
pub const login_getstyle = openbsd.login_getstyle;
pub const pledge = openbsd.pledge;
pub const pthread_spinlock_t = openbsd.pthread_spinlock_t;
pub const pw_dup = openbsd.pw_dup;
pub const setclasscontext = openbsd.setclasscontext;
pub const setpassent = openbsd.setpassent;
pub const setpwent = openbsd.setpwent;
pub const setusercontext = openbsd.setusercontext;
pub const uid_from_user = openbsd.uid_from_user;
pub const unveil = openbsd.unveil;
pub const user_from_uid = openbsd.user_from_uid;
pub const CAP_RIGHTS_VERSION = freebsd.CAP_RIGHTS_VERSION;
pub const KINFO_FILE_SIZE = freebsd.KINFO_FILE_SIZE;
pub const MFD = freebsd.MFD;
pub const UMTX_ABSTIME = freebsd.UMTX_ABSTIME;
pub const UMTX_OP = freebsd.UMTX_OP;
pub const _umtx_op = freebsd._umtx_op;
pub const _umtx_time = freebsd._umtx_time;
pub const cap_rights = freebsd.cap_rights;
pub const fflags_t = freebsd.fflags_t;
pub const fsblkcnt_t = freebsd.fsblkcnt_t;
pub const fsfilcnt_t = freebsd.fsfilcnt_t;
pub const kinfo_file = freebsd.kinfo_file;
pub const kinfo_getfile = freebsd.kinfo_getfile;
pub const COPYFILE = darwin.COPYFILE;
pub const CPUFAMILY = darwin.CPUFAMILY;
pub const DB_RECORDTYPE = darwin.DB_RECORDTYPE;
pub const EXC = darwin.EXC;
pub const EXCEPTION = darwin.EXCEPTION;
pub const MACH_MSG_TYPE = darwin.MACH_MSG_TYPE;
pub const MACH_PORT_RIGHT = darwin.MACH_PORT_RIGHT;
pub const MACH_TASK_BASIC_INFO = darwin.MACH_TASK_BASIC_INFO;
pub const MACH_TASK_BASIC_INFO_COUNT = darwin.MACH_TASK_BASIC_INFO_COUNT;
pub const MATTR = darwin.MATTR;
pub const NSVersionOfRunTimeLibrary = darwin.NSVersionOfRunTimeLibrary;
pub const OPEN_MAX = darwin.OPEN_MAX;
pub const POSIX_SPAWN = darwin.POSIX_SPAWN;
pub const TASK_NULL = darwin.TASK_NULL;
pub const TASK_VM_INFO = darwin.TASK_VM_INFO;
pub const TASK_VM_INFO_COUNT = darwin.TASK_VM_INFO_COUNT;
pub const THREAD_BASIC_INFO = darwin.THREAD_BASIC_INFO;
pub const THREAD_BASIC_INFO_COUNT = darwin.THREAD_BASIC_INFO_COUNT;
pub const THREAD_IDENTIFIER_INFO_COUNT = darwin.THREAD_IDENTIFIER_INFO_COUNT;
pub const THREAD_NULL = darwin.THREAD_NULL;
pub const THREAD_STATE_NONE = darwin.THREAD_STATE_NONE;
pub const UL = darwin.UL;
pub const VM = darwin.VM;
pub const _NSGetExecutablePath = darwin._NSGetExecutablePath;
pub const __getdirentries64 = darwin.__getdirentries64;
pub const __ulock_wait = darwin.__ulock_wait;
pub const __ulock_wait2 = darwin.__ulock_wait2;
pub const __ulock_wake = darwin.__ulock_wake;
pub const _dyld_get_image_header = darwin._dyld_get_image_header;
pub const _dyld_get_image_name = darwin._dyld_get_image_name;
pub const _dyld_get_image_vmaddr_slide = darwin._dyld_get_image_vmaddr_slide;
pub const _dyld_image_count = darwin._dyld_image_count;
pub const _host_page_size = darwin._host_page_size;
pub const clock_get_time = darwin.clock_get_time;
pub const dispatch_release = darwin.dispatch_release;
pub const dispatch_semaphore_create = darwin.dispatch_semaphore_create;
pub const dispatch_semaphore_signal = darwin.dispatch_semaphore_signal;
pub const dispatch_semaphore_wait = darwin.dispatch_semaphore_wait;
pub const dispatch_time = darwin.dispatch_time;
pub const fcopyfile = darwin.fcopyfile;
pub const kern_return_t = darwin.kern_return_t;
pub const kevent64 = darwin.kevent64;
pub const mach_absolute_time = darwin.mach_absolute_time;
pub const mach_continuous_time = darwin.mach_continuous_time;
pub const mach_hdr = darwin.mach_hdr;
pub const mach_host_self = darwin.mach_host_self;
pub const mach_msg = darwin.mach_msg;
pub const mach_msg_type_number_t = darwin.mach_msg_type_number_t;
pub const mach_port_allocate = darwin.mach_port_allocate;
pub const mach_port_array_t = darwin.mach_port_array_t;
pub const mach_port_deallocate = darwin.mach_port_deallocate;
pub const mach_port_insert_right = darwin.mach_port_insert_right;
pub const mach_port_name_t = darwin.mach_port_name_t;
pub const mach_port_t = darwin.mach_port_t;
pub const mach_task_basic_info = darwin.mach_task_basic_info;
pub const mach_task_self = darwin.mach_task_self;
pub const mach_timebase_info = darwin.mach_timebase_info;
pub const mach_vm_protect = darwin.mach_vm_protect;
pub const mach_vm_read = darwin.mach_vm_read;
pub const mach_vm_region = darwin.mach_vm_region;
pub const mach_vm_region_recurse = darwin.mach_vm_region_recurse;
pub const mach_vm_write = darwin.mach_vm_write;
pub const os_log_create = darwin.os_log_create;
pub const os_log_type_enabled = darwin.os_log_type_enabled;
pub const os_signpost_enabled = darwin.os_signpost_enabled;
pub const os_signpost_id_generate = darwin.os_signpost_id_generate;
pub const os_signpost_id_make_with_pointer = darwin.os_signpost_id_make_with_pointer;
pub const os_signpost_interval_begin = darwin.os_signpost_interval_begin;
pub const os_signpost_interval_end = darwin.os_signpost_interval_end;
pub const os_unfair_lock = darwin.os_unfair_lock;
pub const os_unfair_lock_assert_not_owner = darwin.os_unfair_lock_assert_not_owner;
pub const os_unfair_lock_assert_owner = darwin.os_unfair_lock_assert_owner;
pub const os_unfair_lock_lock = darwin.os_unfair_lock_lock;
pub const os_unfair_lock_trylock = darwin.os_unfair_lock_trylock;
pub const os_unfair_lock_unlock = darwin.os_unfair_lock_unlock;
pub const pid_for_task = darwin.pid_for_task;
pub const posix_spawn = darwin.posix_spawn;
pub const posix_spawn_file_actions_addchdir_np = darwin.posix_spawn_file_actions_addchdir_np;
pub const posix_spawn_file_actions_addclose = darwin.posix_spawn_file_actions_addclose;
pub const posix_spawn_file_actions_adddup2 = darwin.posix_spawn_file_actions_adddup2;
pub const posix_spawn_file_actions_addfchdir_np = darwin.posix_spawn_file_actions_addfchdir_np;
pub const posix_spawn_file_actions_addinherit_np = darwin.posix_spawn_file_actions_addinherit_np;
pub const posix_spawn_file_actions_addopen = darwin.posix_spawn_file_actions_addopen;
pub const posix_spawn_file_actions_destroy = darwin.posix_spawn_file_actions_destroy;
pub const posix_spawn_file_actions_init = darwin.posix_spawn_file_actions_init;
pub const posix_spawn_file_actions_t = darwin.posix_spawn_file_actions_t;
pub const posix_spawnattr_destroy = darwin.posix_spawnattr_destroy;
pub const posix_spawnattr_getflags = darwin.posix_spawnattr_getflags;
pub const posix_spawnattr_init = darwin.posix_spawnattr_init;
pub const posix_spawnattr_setflags = darwin.posix_spawnattr_setflags;
pub const posix_spawnattr_t = darwin.posix_spawnattr_t;
pub const posix_spawnp = darwin.posix_spawnp;
pub const pthread_attr_get_qos_class_np = darwin.pthread_attr_get_qos_class_np;
pub const pthread_attr_set_qos_class_np = darwin.pthread_attr_set_qos_class_np;
pub const pthread_get_qos_class_np = darwin.pthread_get_qos_class_np;
pub const pthread_set_qos_class_self_np = darwin.pthread_set_qos_class_self_np;
pub const ptrace = darwin.ptrace;
pub const sigaddset = darwin.sigaddset;
pub const task_for_pid = darwin.task_for_pid;
pub const task_get_exception_ports = darwin.task_get_exception_ports;
pub const task_info = darwin.task_info;
pub const task_info_t = darwin.task_info_t;
pub const task_resume = darwin.task_resume;
pub const task_set_exception_ports = darwin.task_set_exception_ports;
pub const task_suspend = darwin.task_suspend;
pub const task_threads = darwin.task_threads;
pub const task_vm_info_data_t = darwin.task_vm_info_data_t;
pub const thread_basic_info = darwin.thread_basic_info;
pub const thread_get_state = darwin.thread_get_state;
pub const thread_identifier_info = darwin.thread_identifier_info;
pub const thread_info = darwin.thread_info;
pub const thread_info_t = darwin.thread_info_t;
pub const thread_resume = darwin.thread_resume;
pub const thread_set_state = darwin.thread_set_state;
pub const vm_deallocate = darwin.vm_deallocate;
pub const vm_machine_attribute = darwin.vm_machine_attribute;
pub const vm_machine_attribute_val_t = darwin.vm_machine_attribute_val_t;
pub const vm_offset_t = darwin.vm_offset_t;
pub const vm_prot_t = darwin.vm_prot_t;
pub const vm_region_basic_info_64 = darwin.vm_region_basic_info_64;
pub const vm_region_extended_info = darwin.vm_region_extended_info;
pub const vm_region_info_t = darwin.vm_region_info_t;
pub const vm_region_recurse_info_t = darwin.vm_region_recurse_info_t;
pub const vm_region_submap_info_64 = darwin.vm_region_submap_info_64;
pub const vm_region_submap_short_info_64 = darwin.vm_region_submap_short_info_64;
pub const vm_region_top_info = darwin.vm_region_top_info;
pub const _ksiginfo = netbsd._ksiginfo;
pub const _lwp_self = netbsd._lwp_self;
pub const lwpid_t = netbsd.lwpid_t;
/// External definitions shared by two or more operating systems.
const private = struct {
extern "c" fn close(fd: fd_t) c_int;
extern "c" fn clock_getres(clk_id: clockid_t, tp: *timespec) c_int;
extern "c" fn clock_gettime(clk_id: clockid_t, tp: *timespec) c_int;
extern "c" fn copy_file_range(fd_in: fd_t, off_in: ?*i64, fd_out: fd_t, off_out: ?*i64, len: usize, flags: c_uint) isize;
extern "c" fn flock(fd: fd_t, operation: c_int) c_int;
extern "c" fn fork() c_int;
extern "c" fn fstat(fd: fd_t, buf: *Stat) c_int;
extern "c" fn fstatat(dirfd: fd_t, path: [*:0]const u8, buf: *Stat, flag: u32) c_int;
extern "c" fn getdirentries(fd: fd_t, buf_ptr: [*]u8, nbytes: usize, basep: *i64) isize;
extern "c" fn getdents(fd: c_int, buf_ptr: [*]u8, nbytes: usize) switch (native_os) {
.freebsd => isize,
.solaris, .illumos => usize,
else => c_int,
};
extern "c" fn getrusage(who: c_int, usage: *rusage) c_int;
extern "c" fn gettimeofday(noalias tv: ?*timeval, noalias tz: ?*timezone) c_int;
extern "c" fn msync(addr: *align(page_size) const anyopaque, len: usize, flags: c_int) c_int;
extern "c" fn nanosleep(rqtp: *const timespec, rmtp: ?*timespec) c_int;
extern "c" fn pipe2(fds: *[2]fd_t, flags: O) c_int;
extern "c" fn readdir(dir: *DIR) ?*dirent;
extern "c" fn realpath(noalias file_name: [*:0]const u8, noalias resolved_name: [*]u8) ?[*:0]u8;
extern "c" fn sched_yield() c_int;
extern "c" fn sendfile(out_fd: fd_t, in_fd: fd_t, offset: ?*off_t, count: usize) isize;
extern "c" fn sigaction(sig: c_int, noalias act: ?*const Sigaction, noalias oact: ?*Sigaction) c_int;
extern "c" fn sigfillset(set: ?*sigset_t) void;
extern "c" fn sigprocmask(how: c_int, noalias set: ?*const sigset_t, noalias oset: ?*sigset_t) c_int;
extern "c" fn socket(domain: c_uint, sock_type: c_uint, protocol: c_uint) c_int;
extern "c" fn stat(noalias path: [*:0]const u8, noalias buf: *Stat) c_int;
extern "c" fn sigaltstack(ss: ?*stack_t, old_ss: ?*stack_t) c_int;
extern "c" fn pthread_setname_np(thread: pthread_t, name: [*:0]const u8) c_int;
extern "c" fn getcontext(ucp: *ucontext_t) c_int;
extern "c" fn getrandom(buf_ptr: [*]u8, buf_len: usize, flags: c_uint) isize;
extern "c" fn getentropy(buffer: [*]u8, size: usize) c_int;
extern "c" fn arc4random_buf(buf: [*]u8, len: usize) void;
extern "c" fn _msize(memblock: ?*anyopaque) usize;
extern "c" fn malloc_size(?*const anyopaque) usize;
extern "c" fn malloc_usable_size(?*const anyopaque) usize;
extern "c" fn posix_memalign(memptr: *?*anyopaque, alignment: usize, size: usize) c_int;
/// macos modernized symbols.
/// x86_64 links to $INODE64 suffix for 64-bit support.
/// Note these are not necessary on aarch64.
extern "c" fn @"fstat$INODE64"(fd: fd_t, buf: *Stat) c_int;
extern "c" fn @"fstatat$INODE64"(dirfd: fd_t, path: [*:0]const u8, buf: *Stat, flag: u32) c_int;
extern "c" fn @"readdir$INODE64"(dir: *DIR) ?*dirent;
extern "c" fn @"stat$INODE64"(noalias path: [*:0]const u8, noalias buf: *Stat) c_int;
/// macos modernized symbols.
extern "c" fn @"realpath$DARWIN_EXTSN"(noalias file_name: [*:0]const u8, noalias resolved_name: [*]u8) ?[*:0]u8;
extern "c" fn __getdirentries64(fd: fd_t, buf_ptr: [*]u8, buf_len: usize, basep: *i64) isize;
extern "c" fn pthread_threadid_np(thread: ?pthread_t, thread_id: *u64) c_int;
/// netbsd modernized symbols.
extern "c" fn __clock_getres50(clk_id: clockid_t, tp: *timespec) c_int;
extern "c" fn __clock_gettime50(clk_id: clockid_t, tp: *timespec) c_int;
extern "c" fn __fstat50(fd: fd_t, buf: *Stat) c_int;
extern "c" fn __getrusage50(who: c_int, usage: *rusage) c_int;
extern "c" fn __gettimeofday50(noalias tv: ?*timeval, noalias tz: ?*timezone) c_int;
extern "c" fn __libc_thr_yield() c_int;
extern "c" fn __msync13(addr: *align(std.mem.page_size) const anyopaque, len: usize, flags: c_int) c_int;
extern "c" fn __nanosleep50(rqtp: *const timespec, rmtp: ?*timespec) c_int;
extern "c" fn __sigaction14(sig: c_int, noalias act: ?*const Sigaction, noalias oact: ?*Sigaction) c_int;
extern "c" fn __sigfillset14(set: ?*sigset_t) void;
extern "c" fn __sigprocmask14(how: c_int, noalias set: ?*const sigset_t, noalias oset: ?*sigset_t) c_int;
extern "c" fn __socket30(domain: c_uint, sock_type: c_uint, protocol: c_uint) c_int;
extern "c" fn __stat50(path: [*:0]const u8, buf: *Stat) c_int;
extern "c" fn __getdents30(fd: c_int, buf_ptr: [*]u8, nbytes: usize) c_int;
extern "c" fn __sigaltstack14(ss: ?*stack_t, old_ss: ?*stack_t) c_int;
// Don't forget to add another clown when an OS picks yet another unique
// symbol name for errno location!
// 🤡🤡🤡🤡🤡🤡
extern "c" fn ___errno() *c_int;
extern "c" fn __errno() *c_int;
extern "c" fn __errno_location() *c_int;
extern "c" fn __error() *c_int;
extern "c" fn _errno() *c_int;
extern threadlocal var errno: c_int;
fn errnoFromThreadLocal() *c_int {
return &errno;
}
};
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