Nixyri/zig
1
0
Fork 0
mirror of https://github.com/ziglang/zig.git synced 2024-11-15 16:45:27 +00:00
Code Issues Packages Projects Releases Wiki Activity
91163b44dd
zig/lib/std/posix.zig

7400 lines
287 KiB
Zig
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

//! POSIX API layer.
//!
//! This is more cross platform than using OS-specific APIs, however, it is
//! lower-level and less portable than other namespaces such as `std.fs` and
//! `std.process`.
//!
//! These APIs are generally lowered to libc function calls if and only if libc
//! is linked. Most operating systems other than Windows, Linux, and WASI
//! require always linking libc because they use it as the stable syscall ABI.
//!
//! Operating systems that are not POSIX-compliant are sometimes supported by
//! this API layer; sometimes not. Generally, an implementation will be
//! provided only if such implementation is straightforward on that operating
//! system. Otherwise, programmers are expected to use OS-specific logic to
//! deal with the exception.
const builtin = @import("builtin");
const root = @import("root");
const std = @import("std.zig");
const mem = std.mem;
const fs = std.fs;
const max_path_bytes = fs.max_path_bytes;
const maxInt = std.math.maxInt;
const cast = std.math.cast;
const assert = std.debug.assert;
const native_os = builtin.os.tag;
test {
_ = @import("posix/test.zig");
}
/// Whether to use libc for the POSIX API layer.
const use_libc = builtin.link_libc or switch (native_os) {
.windows, .wasi => true,
else => false,
};
const linux = std.os.linux;
const windows = std.os.windows;
const wasi = std.os.wasi;
/// A libc-compatible API layer.
pub const system = if (use_libc)
std.c
else switch (native_os) {
.linux => linux,
.plan9 => std.os.plan9,
else => struct {
pub const ucontext_t = void;
},
};
pub const AF = system.AF;
pub const AF_SUN = system.AF_SUN;
pub const AI = system.AI;
pub const ARCH = system.ARCH;
pub const AT = system.AT;
pub const AT_SUN = system.AT_SUN;
pub const CLOCK = system.CLOCK;
pub const CPU_COUNT = system.CPU_COUNT;
pub const CTL = system.CTL;
pub const DT = system.DT;
pub const E = system.E;
pub const Elf_Symndx = system.Elf_Symndx;
pub const F = system.F;
pub const FD_CLOEXEC = system.FD_CLOEXEC;
pub const Flock = system.Flock;
pub const HOST_NAME_MAX = system.HOST_NAME_MAX;
pub const HW = system.HW;
pub const IFNAMESIZE = system.IFNAMESIZE;
pub const IOV_MAX = system.IOV_MAX;
pub const IPPROTO = system.IPPROTO;
pub const KERN = system.KERN;
pub const Kevent = system.Kevent;
pub const MADV = system.MADV;
pub const MAP = system.MAP;
pub const MAX_ADDR_LEN = system.MAX_ADDR_LEN;
pub const MFD = system.MFD;
pub const MMAP2_UNIT = system.MMAP2_UNIT;
pub const MSF = system.MSF;
pub const MSG = system.MSG;
pub const NAME_MAX = system.NAME_MAX;
pub const O = system.O;
pub const PATH_MAX = system.PATH_MAX;
pub const POLL = system.POLL;
pub const POSIX_FADV = system.POSIX_FADV;
pub const PR = system.PR;
pub const PROT = system.PROT;
pub const REG = system.REG;
pub const RLIM = system.RLIM;
pub const RR = system.RR;
pub const S = system.S;
pub const SA = system.SA;
pub const SC = system.SC;
pub const SEEK = system.SEEK;
pub const SHUT = system.SHUT;
pub const SIG = system.SIG;
pub const SIOCGIFINDEX = system.SIOCGIFINDEX;
pub const SO = system.SO;
pub const SOCK = system.SOCK;
pub const SOL = system.SOL;
pub const STDERR_FILENO = system.STDERR_FILENO;
pub const STDIN_FILENO = system.STDIN_FILENO;
pub const STDOUT_FILENO = system.STDOUT_FILENO;
pub const SYS = system.SYS;
pub const Sigaction = system.Sigaction;
pub const Stat = system.Stat;
pub const T = system.T;
pub const TCP = system.TCP;
pub const VDSO = system.VDSO;
pub const W = system.W;
pub const _SC = system._SC;
pub const addrinfo = system.addrinfo;
pub const blkcnt_t = system.blkcnt_t;
pub const blksize_t = system.blksize_t;
pub const clock_t = system.clock_t;
pub const clockid_t = system.clockid_t;
pub const cpu_set_t = system.cpu_set_t;
pub const dev_t = system.dev_t;
pub const dl_phdr_info = system.dl_phdr_info;
pub const empty_sigset = system.empty_sigset;
pub const fd_t = system.fd_t;
pub const file_obj = system.file_obj;
pub const filled_sigset = system.filled_sigset;
pub const gid_t = system.gid_t;
pub const ifreq = system.ifreq;
pub const ino_t = system.ino_t;
pub const mcontext_t = system.mcontext_t;
pub const mode_t = system.mode_t;
pub const msghdr = system.msghdr;
pub const msghdr_const = system.msghdr_const;
pub const nfds_t = system.nfds_t;
pub const nlink_t = system.nlink_t;
pub const off_t = system.off_t;
pub const pid_t = system.pid_t;
pub const pollfd = system.pollfd;
pub const port_event = system.port_event;
pub const port_notify = system.port_notify;
pub const port_t = system.port_t;
pub const rlim_t = system.rlim_t;
pub const rlimit = system.rlimit;
pub const rlimit_resource = system.rlimit_resource;
pub const rusage = system.rusage;
pub const sa_family_t = system.sa_family_t;
pub const siginfo_t = system.siginfo_t;
pub const sigset_t = system.sigset_t;
pub const sockaddr = system.sockaddr;
pub const socklen_t = system.socklen_t;
pub const stack_t = system.stack_t;
pub const time_t = system.time_t;
pub const timespec = system.timespec;
pub const timestamp_t = system.timestamp_t;
pub const timeval = system.timeval;
pub const timezone = system.timezone;
pub const ucontext_t = system.ucontext_t;
pub const uid_t = system.uid_t;
pub const user_desc = system.user_desc;
pub const utsname = system.utsname;
pub const termios = system.termios;
pub const CSIZE = system.CSIZE;
pub const NCCS = system.NCCS;
pub const cc_t = system.cc_t;
pub const V = system.V;
pub const speed_t = system.speed_t;
pub const tc_iflag_t = system.tc_iflag_t;
pub const tc_oflag_t = system.tc_oflag_t;
pub const tc_cflag_t = system.tc_cflag_t;
pub const tc_lflag_t = system.tc_lflag_t;
pub const F_OK = system.F_OK;
pub const R_OK = system.R_OK;
pub const W_OK = system.W_OK;
pub const X_OK = system.X_OK;
pub const iovec = extern struct {
base: [*]u8,
len: usize,
};
pub const iovec_const = extern struct {
base: [*]const u8,
len: usize,
};
pub const ACCMODE = enum(u2) {
RDONLY = 0,
WRONLY = 1,
RDWR = 2,
};
pub const TCSA = enum(c_uint) {
NOW,
DRAIN,
FLUSH,
_,
};
pub const winsize = extern struct {
row: u16,
col: u16,
xpixel: u16,
ypixel: u16,
};
pub const LOCK = struct {
pub const SH = 1;
pub const EX = 2;
pub const NB = 4;
pub const UN = 8;
};
pub const LOG = struct {
/// system is unusable
pub const EMERG = 0;
/// action must be taken immediately
pub const ALERT = 1;
/// critical conditions
pub const CRIT = 2;
/// error conditions
pub const ERR = 3;
/// warning conditions
pub const WARNING = 4;
/// normal but significant condition
pub const NOTICE = 5;
/// informational
pub const INFO = 6;
/// debug-level messages
pub const DEBUG = 7;
};
pub const socket_t = if (native_os == .windows) windows.ws2_32.SOCKET else fd_t;
/// Obtains errno from the return value of a system function call.
///
/// For some systems this will obtain the value directly from the syscall return value;
/// for others it will use a thread-local errno variable. Therefore, this
/// function only returns a well-defined value when it is called directly after
/// the system function call whose errno value is intended to be observed.
pub fn errno(rc: anytype) E {
if (use_libc) {
return if (rc == -1) @enumFromInt(std.c._errno().*) else .SUCCESS;
}
const signed: isize = @bitCast(rc);
const int = if (signed > -4096 and signed < 0) -signed else 0;
return @enumFromInt(int);
}
/// Closes the file descriptor.
///
/// Asserts the file descriptor is open.
///
/// This function is not capable of returning any indication of failure. An
/// application which wants to ensure writes have succeeded before closing must
/// call `fsync` before `close`.
///
/// The Zig standard library does not support POSIX thread cancellation.
pub fn close(fd: fd_t) void {
if (native_os == .windows) {
return windows.CloseHandle(fd);
}
if (native_os == .wasi and !builtin.link_libc) {
_ = std.os.wasi.fd_close(fd);
return;
}
switch (errno(system.close(fd))) {
.BADF => unreachable, // Always a race condition.
.INTR => return, // This is still a success. See https://github.com/ziglang/zig/issues/2425
else => return,
}
}
pub const FChmodError = error{
AccessDenied,
InputOutput,
SymLinkLoop,
FileNotFound,
SystemResources,
ReadOnlyFileSystem,
} || UnexpectedError;
/// Changes the mode of the file referred to by the file descriptor.
///
/// The process must have the correct privileges in order to do this
/// successfully, or must have the effective user ID matching the owner
/// of the file.
pub fn fchmod(fd: fd_t, mode: mode_t) FChmodError!void {
if (!fs.has_executable_bit) @compileError("fchmod unsupported by target OS");
while (true) {
const res = system.fchmod(fd, mode);
switch (errno(res)) {
.SUCCESS => return,
.INTR => continue,
.BADF => unreachable,
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.IO => return error.InputOutput,
.LOOP => return error.SymLinkLoop,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.FileNotFound,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
else => |err| return unexpectedErrno(err),
}
}
}
pub const FChmodAtError = FChmodError || error{
/// A component of `path` exceeded `NAME_MAX`, or the entire path exceeded
/// `PATH_MAX`.
NameTooLong,
/// `path` resolves to a symbolic link, and `AT.SYMLINK_NOFOLLOW` was set
/// in `flags`. This error only occurs on Linux, where changing the mode of
/// a symbolic link has no meaning and can cause undefined behaviour on
/// certain filesystems.
///
/// The procfs fallback was used but procfs was not mounted.
OperationNotSupported,
/// The procfs fallback was used but the process exceeded its open file
/// limit.
ProcessFdQuotaExceeded,
/// The procfs fallback was used but the system exceeded it open file limit.
SystemFdQuotaExceeded,
};
/// Changes the `mode` of `path` relative to the directory referred to by
/// `dirfd`. The process must have the correct privileges in order to do this
/// successfully, or must have the effective user ID matching the owner of the
/// file.
///
/// On Linux the `fchmodat2` syscall will be used if available, otherwise a
/// workaround using procfs will be employed. Changing the mode of a symbolic
/// link with `AT.SYMLINK_NOFOLLOW` set will also return
/// `OperationNotSupported`, as:
///
/// 1. Permissions on the link are ignored when resolving its target.
/// 2. This operation has been known to invoke undefined behaviour across
/// different filesystems[1].
///
/// [1]: https://sourceware.org/legacy-ml/libc-alpha/2020-02/msg00467.html.
pub inline fn fchmodat(dirfd: fd_t, path: []const u8, mode: mode_t, flags: u32) FChmodAtError!void {
if (!fs.has_executable_bit) @compileError("fchmodat unsupported by target OS");
// No special handling for linux is needed if we can use the libc fallback
// or `flags` is empty. Glibc only added the fallback in 2.32.
const skip_fchmodat_fallback = native_os != .linux or
std.c.versionCheck(.{ .major = 2, .minor = 32, .patch = 0 }) or
flags == 0;
// This function is marked inline so that when flags is comptime-known,
// skip_fchmodat_fallback will be comptime-known true.
if (skip_fchmodat_fallback)
return fchmodat1(dirfd, path, mode, flags);
return fchmodat2(dirfd, path, mode, flags);
}
fn fchmodat1(dirfd: fd_t, path: []const u8, mode: mode_t, flags: u32) FChmodAtError!void {
const path_c = try toPosixPath(path);
while (true) {
const res = system.fchmodat(dirfd, &path_c, mode, flags);
switch (errno(res)) {
.SUCCESS => return,
.INTR => continue,
.BADF => unreachable,
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.IO => return error.InputOutput,
.LOOP => return error.SymLinkLoop,
.MFILE => return error.ProcessFdQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NFILE => return error.SystemFdQuotaExceeded,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.OPNOTSUPP => return error.OperationNotSupported,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
else => |err| return unexpectedErrno(err),
}
}
}
fn fchmodat2(dirfd: fd_t, path: []const u8, mode: mode_t, flags: u32) FChmodAtError!void {
const global = struct {
var has_fchmodat2: bool = true;
};
const path_c = try toPosixPath(path);
const use_fchmodat2 = (builtin.os.isAtLeast(.linux, .{ .major = 6, .minor = 6, .patch = 0 }) orelse false) and
@atomicLoad(bool, &global.has_fchmodat2, .monotonic);
while (use_fchmodat2) {
// Later on this should be changed to `system.fchmodat2`
// when the musl/glibc add a wrapper.
const res = linux.fchmodat2(dirfd, &path_c, mode, flags);
switch (E.init(res)) {
.SUCCESS => return,
.INTR => continue,
.BADF => unreachable,
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.IO => return error.InputOutput,
.LOOP => return error.SymLinkLoop,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.FileNotFound,
.OPNOTSUPP => return error.OperationNotSupported,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
.NOSYS => {
@atomicStore(bool, &global.has_fchmodat2, false, .monotonic);
break;
},
else => |err| return unexpectedErrno(err),
}
}
// Fallback to changing permissions using procfs:
//
// 1. Open `path` as a `PATH` descriptor.
// 2. Stat the fd and check if it isn't a symbolic link.
// 3. Generate the procfs reference to the fd via `/proc/self/fd/{fd}`.
// 4. Pass the procfs path to `chmod` with the `mode`.
var pathfd: fd_t = undefined;
while (true) {
const rc = system.openat(dirfd, &path_c, .{ .PATH = true, .NOFOLLOW = true, .CLOEXEC = true }, @as(mode_t, 0));
switch (errno(rc)) {
.SUCCESS => {
pathfd = @intCast(rc);
break;
},
.INTR => continue,
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.LOOP => return error.SymLinkLoop,
.MFILE => return error.ProcessFdQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NFILE => return error.SystemFdQuotaExceeded,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
else => |err| return unexpectedErrno(err),
}
}
defer close(pathfd);
const stat = fstatatZ(pathfd, "", AT.EMPTY_PATH) catch |err| switch (err) {
error.NameTooLong => unreachable,
error.FileNotFound => unreachable,
error.InvalidUtf8 => unreachable,
else => |e| return e,
};
if ((stat.mode & S.IFMT) == S.IFLNK)
return error.OperationNotSupported;
var procfs_buf: ["/proc/self/fd/-2147483648\x00".len]u8 = undefined;
const proc_path = std.fmt.bufPrintZ(procfs_buf[0..], "/proc/self/fd/{d}", .{pathfd}) catch unreachable;
while (true) {
const res = system.chmod(proc_path, mode);
switch (errno(res)) {
// Getting NOENT here means that procfs isn't mounted.
.NOENT => return error.OperationNotSupported,
.SUCCESS => return,
.INTR => continue,
.BADF => unreachable,
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.IO => return error.InputOutput,
.LOOP => return error.SymLinkLoop,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.FileNotFound,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
else => |err| return unexpectedErrno(err),
}
}
}
pub const FChownError = error{
AccessDenied,
InputOutput,
SymLinkLoop,
FileNotFound,
SystemResources,
ReadOnlyFileSystem,
} || UnexpectedError;
/// Changes the owner and group of the file referred to by the file descriptor.
/// The process must have the correct privileges in order to do this
/// successfully. The group may be changed by the owner of the directory to
/// any group of which the owner is a member. If the owner or group is
/// specified as `null`, the ID is not changed.
pub fn fchown(fd: fd_t, owner: ?uid_t, group: ?gid_t) FChownError!void {
switch (native_os) {
.windows, .wasi => @compileError("Unsupported OS"),
else => {},
}
while (true) {
const res = system.fchown(fd, owner orelse ~@as(uid_t, 0), group orelse ~@as(gid_t, 0));
switch (errno(res)) {
.SUCCESS => return,
.INTR => continue,
.BADF => unreachable, // Can be reached if the fd refers to a directory opened without `Dir.OpenOptions{ .iterate = true }`
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.IO => return error.InputOutput,
.LOOP => return error.SymLinkLoop,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.FileNotFound,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
else => |err| return unexpectedErrno(err),
}
}
}
pub const RebootError = error{
PermissionDenied,
} || UnexpectedError;
pub const RebootCommand = switch (native_os) {
.linux => union(linux.LINUX_REBOOT.CMD) {
RESTART: void,
HALT: void,
CAD_ON: void,
CAD_OFF: void,
POWER_OFF: void,
RESTART2: [*:0]const u8,
SW_SUSPEND: void,
KEXEC: void,
},
else => @compileError("Unsupported OS"),
};
pub fn reboot(cmd: RebootCommand) RebootError!void {
switch (native_os) {
.linux => {
switch (linux.E.init(linux.reboot(
.MAGIC1,
.MAGIC2,
cmd,
switch (cmd) {
.RESTART2 => |s| s,
else => null,
},
))) {
.SUCCESS => {},
.PERM => return error.PermissionDenied,
else => |err| return std.posix.unexpectedErrno(err),
}
switch (cmd) {
.CAD_OFF => {},
.CAD_ON => {},
.SW_SUSPEND => {},
.HALT => unreachable,
.KEXEC => unreachable,
.POWER_OFF => unreachable,
.RESTART => unreachable,
.RESTART2 => unreachable,
}
},
else => @compileError("Unsupported OS"),
}
}
pub const GetRandomError = OpenError;
/// Obtain a series of random bytes. These bytes can be used to seed user-space
/// random number generators or for cryptographic purposes.
/// When linking against libc, this calls the
/// appropriate OS-specific library call. Otherwise it uses the zig standard
/// library implementation.
pub fn getrandom(buffer: []u8) GetRandomError!void {
if (native_os == .windows) {
return windows.RtlGenRandom(buffer);
}
if (builtin.link_libc and @TypeOf(system.arc4random_buf) != void) {
system.arc4random_buf(buffer.ptr, buffer.len);
return;
}
if (native_os == .wasi) switch (wasi.random_get(buffer.ptr, buffer.len)) {
.SUCCESS => return,
else => |err| return unexpectedErrno(err),
};
if (@TypeOf(system.getrandom) != void) {
var buf = buffer;
const use_c = native_os != .linux or
std.c.versionCheck(std.SemanticVersion{ .major = 2, .minor = 25, .patch = 0 });
while (buf.len != 0) {
const num_read: usize, const err = if (use_c) res: {
const rc = std.c.getrandom(buf.ptr, buf.len, 0);
break :res .{ @bitCast(rc), errno(rc) };
} else res: {
const rc = linux.getrandom(buf.ptr, buf.len, 0);
break :res .{ rc, linux.E.init(rc) };
};
switch (err) {
.SUCCESS => buf = buf[num_read..],
.INVAL => unreachable,
.FAULT => unreachable,
.INTR => continue,
else => return unexpectedErrno(err),
}
}
return;
}
if (native_os == .emscripten) {
const err = errno(std.c.getentropy(buffer.ptr, buffer.len));
switch (err) {
.SUCCESS => return,
else => return unexpectedErrno(err),
}
}
return getRandomBytesDevURandom(buffer);
}
fn getRandomBytesDevURandom(buf: []u8) !void {
const fd = try openZ("/dev/urandom", .{ .ACCMODE = .RDONLY, .CLOEXEC = true }, 0);
defer close(fd);
const st = try fstat(fd);
if (!S.ISCHR(st.mode)) {
return error.NoDevice;
}
const file: fs.File = .{ .handle = fd };
const stream = file.reader();
stream.readNoEof(buf) catch return error.Unexpected;
}
/// Causes abnormal process termination.
/// If linking against libc, this calls the abort() libc function. Otherwise
/// it raises SIGABRT followed by SIGKILL and finally lo
/// Invokes the current signal handler for SIGABRT, if any.
pub fn abort() noreturn {
@setCold(true);
// MSVCRT abort() sometimes opens a popup window which is undesirable, so
// even when linking libc on Windows we use our own abort implementation.
// See https://github.com/ziglang/zig/issues/2071 for more details.
if (native_os == .windows) {
if (builtin.mode == .Debug) {
@breakpoint();
}
windows.kernel32.ExitProcess(3);
}
if (!builtin.link_libc and native_os == .linux) {
// The Linux man page says that the libc abort() function
// "first unblocks the SIGABRT signal", but this is a footgun
// for user-defined signal handlers that want to restore some state in
// some program sections and crash in others.
// So, the user-installed SIGABRT handler is run, if present.
raise(SIG.ABRT) catch {};
// Disable all signal handlers.
sigprocmask(SIG.BLOCK, &linux.all_mask, null);
// Only one thread may proceed to the rest of abort().
if (!builtin.single_threaded) {
const global = struct {
var abort_entered: bool = false;
};
while (@cmpxchgWeak(bool, &global.abort_entered, false, true, .seq_cst, .seq_cst)) |_| {}
}
// Install default handler so that the tkill below will terminate.
const sigact = Sigaction{
.handler = .{ .handler = SIG.DFL },
.mask = empty_sigset,
.flags = 0,
};
sigaction(SIG.ABRT, &sigact, null);
_ = linux.tkill(linux.gettid(), SIG.ABRT);
const sigabrtmask: linux.sigset_t = [_]u32{0} ** 31 ++ [_]u32{1 << (SIG.ABRT - 1)};
sigprocmask(SIG.UNBLOCK, &sigabrtmask, null);
// Beyond this point should be unreachable.
@as(*allowzero volatile u8, @ptrFromInt(0)).* = 0;
raise(SIG.KILL) catch {};
exit(127); // Pid 1 might not be signalled in some containers.
}
switch (native_os) {
.uefi, .wasi, .emscripten, .cuda, .amdhsa => @trap(),
else => system.abort(),
}
}
pub const RaiseError = UnexpectedError;
pub fn raise(sig: u8) RaiseError!void {
if (builtin.link_libc) {
switch (errno(system.raise(sig))) {
.SUCCESS => return,
else => |err| return unexpectedErrno(err),
}
}
if (native_os == .linux) {
var set: sigset_t = undefined;
// block application signals
sigprocmask(SIG.BLOCK, &linux.app_mask, &set);
const tid = linux.gettid();
const rc = linux.tkill(tid, sig);
// restore signal mask
sigprocmask(SIG.SETMASK, &set, null);
switch (errno(rc)) {
.SUCCESS => return,
else => |err| return unexpectedErrno(err),
}
}
@compileError("std.posix.raise unimplemented for this target");
}
pub const KillError = error{ ProcessNotFound, PermissionDenied } || UnexpectedError;
pub fn kill(pid: pid_t, sig: u8) KillError!void {
switch (errno(system.kill(pid, sig))) {
.SUCCESS => return,
.INVAL => unreachable, // invalid signal
.PERM => return error.PermissionDenied,
.SRCH => return error.ProcessNotFound,
else => |err| return unexpectedErrno(err),
}
}
/// Exits all threads of the program with the specified status code.
pub fn exit(status: u8) noreturn {
if (builtin.link_libc) {
std.c.exit(status);
}
if (native_os == .windows) {
windows.kernel32.ExitProcess(status);
}
if (native_os == .wasi) {
wasi.proc_exit(status);
}
if (native_os == .linux and !builtin.single_threaded) {
linux.exit_group(status);
}
if (native_os == .uefi) {
const uefi = std.os.uefi;
// exit() is only available if exitBootServices() has not been called yet.
// This call to exit should not fail, so we don't care about its return value.
if (uefi.system_table.boot_services) |bs| {
_ = bs.exit(uefi.handle, @enumFromInt(status), 0, null);
}
// If we can't exit, reboot the system instead.
uefi.system_table.runtime_services.resetSystem(.ResetCold, @enumFromInt(status), 0, null);
}
system.exit(status);
}
pub const ReadError = error{
InputOutput,
SystemResources,
IsDir,
OperationAborted,
BrokenPipe,
ConnectionResetByPeer,
ConnectionTimedOut,
NotOpenForReading,
SocketNotConnected,
/// This error occurs when no global event loop is configured,
/// and reading from the file descriptor would block.
WouldBlock,
/// In WASI, this error occurs when the file descriptor does
/// not hold the required rights to read from it.
AccessDenied,
} || UnexpectedError;
/// Returns the number of bytes that were read, which can be less than
/// buf.len. If 0 bytes were read, that means EOF.
/// If `fd` is opened in non blocking mode, the function will return error.WouldBlock
/// when EAGAIN is received.
///
/// Linux has a limit on how many bytes may be transferred in one `read` call, which is `0x7ffff000`
/// on both 64-bit and 32-bit systems. This is due to using a signed C int as the return value, as
/// well as stuffing the errno codes into the last `4096` values. This is noted on the `read` man page.
/// The limit on Darwin is `0x7fffffff`, trying to read more than that returns EINVAL.
/// The corresponding POSIX limit is `maxInt(isize)`.
pub fn read(fd: fd_t, buf: []u8) ReadError!usize {
if (buf.len == 0) return 0;
if (native_os == .windows) {
return windows.ReadFile(fd, buf, null);
}
if (native_os == .wasi and !builtin.link_libc) {
const iovs = [1]iovec{iovec{
.base = buf.ptr,
.len = buf.len,
}};
var nread: usize = undefined;
switch (wasi.fd_read(fd, &iovs, iovs.len, &nread)) {
.SUCCESS => return nread,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable,
.BADF => return error.NotOpenForReading, // Can be a race condition.
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
// Prevents EINVAL.
const max_count = switch (native_os) {
.linux => 0x7ffff000,
.macos, .ios, .watchos, .tvos, .visionos => maxInt(i32),
else => maxInt(isize),
};
while (true) {
const rc = system.read(fd, buf.ptr, @min(buf.len, max_count));
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForReading, // Can be a race condition.
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
else => |err| return unexpectedErrno(err),
}
}
}
/// Number of bytes read is returned. Upon reading end-of-file, zero is returned.
///
/// For POSIX systems, if `fd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
/// On Windows, if the application has a global event loop enabled, I/O Completion Ports are
/// used to perform the I/O. `error.WouldBlock` is not possible on Windows.
///
/// This operation is non-atomic on the following systems:
/// * Windows
/// On these systems, the read races with concurrent writes to the same file descriptor.
///
/// This function assumes that all vectors, including zero-length vectors, have
/// a pointer within the address space of the application.
pub fn readv(fd: fd_t, iov: []const iovec) ReadError!usize {
if (native_os == .windows) {
// TODO improve this to use ReadFileScatter
if (iov.len == 0) return 0;
const first = iov[0];
return read(fd, first.base[0..first.len]);
}
if (native_os == .wasi and !builtin.link_libc) {
var nread: usize = undefined;
switch (wasi.fd_read(fd, iov.ptr, iov.len, &nread)) {
.SUCCESS => return nread,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable, // currently not support in WASI
.BADF => return error.NotOpenForReading, // can be a race condition
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
while (true) {
const rc = system.readv(fd, iov.ptr, @min(iov.len, IOV_MAX));
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForReading, // can be a race condition
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
else => |err| return unexpectedErrno(err),
}
}
}
pub const PReadError = ReadError || error{Unseekable};
/// Number of bytes read is returned. Upon reading end-of-file, zero is returned.
///
/// Retries when interrupted by a signal.
///
/// For POSIX systems, if `fd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
/// On Windows, if the application has a global event loop enabled, I/O Completion Ports are
/// used to perform the I/O. `error.WouldBlock` is not possible on Windows.
///
/// Linux has a limit on how many bytes may be transferred in one `pread` call, which is `0x7ffff000`
/// on both 64-bit and 32-bit systems. This is due to using a signed C int as the return value, as
/// well as stuffing the errno codes into the last `4096` values. This is noted on the `read` man page.
/// The limit on Darwin is `0x7fffffff`, trying to read more than that returns EINVAL.
/// The corresponding POSIX limit is `maxInt(isize)`.
pub fn pread(fd: fd_t, buf: []u8, offset: u64) PReadError!usize {
if (buf.len == 0) return 0;
if (native_os == .windows) {
return windows.ReadFile(fd, buf, offset);
}
if (native_os == .wasi and !builtin.link_libc) {
const iovs = [1]iovec{iovec{
.base = buf.ptr,
.len = buf.len,
}};
var nread: usize = undefined;
switch (wasi.fd_pread(fd, &iovs, iovs.len, offset, &nread)) {
.SUCCESS => return nread,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable,
.BADF => return error.NotOpenForReading, // Can be a race condition.
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
// Prevent EINVAL.
const max_count = switch (native_os) {
.linux => 0x7ffff000,
.macos, .ios, .watchos, .tvos, .visionos => maxInt(i32),
else => maxInt(isize),
};
const pread_sym = if (lfs64_abi) system.pread64 else system.pread;
while (true) {
const rc = pread_sym(fd, buf.ptr, @min(buf.len, max_count), @bitCast(offset));
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForReading, // Can be a race condition.
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
}
pub const TruncateError = error{
FileTooBig,
InputOutput,
FileBusy,
/// In WASI, this error occurs when the file descriptor does
/// not hold the required rights to call `ftruncate` on it.
AccessDenied,
} || UnexpectedError;
pub fn ftruncate(fd: fd_t, length: u64) TruncateError!void {
if (native_os == .windows) {
var io_status_block: windows.IO_STATUS_BLOCK = undefined;
var eof_info = windows.FILE_END_OF_FILE_INFORMATION{
.EndOfFile = @bitCast(length),
};
const rc = windows.ntdll.NtSetInformationFile(
fd,
&io_status_block,
&eof_info,
@sizeOf(windows.FILE_END_OF_FILE_INFORMATION),
.FileEndOfFileInformation,
);
switch (rc) {
.SUCCESS => return,
.INVALID_HANDLE => unreachable, // Handle not open for writing
.ACCESS_DENIED => return error.AccessDenied,
else => return windows.unexpectedStatus(rc),
}
}
if (native_os == .wasi and !builtin.link_libc) {
switch (wasi.fd_filestat_set_size(fd, length)) {
.SUCCESS => return,
.INTR => unreachable,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.PERM => return error.AccessDenied,
.TXTBSY => return error.FileBusy,
.BADF => unreachable, // Handle not open for writing
.INVAL => unreachable, // Handle not open for writing
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const ftruncate_sym = if (lfs64_abi) system.ftruncate64 else system.ftruncate;
while (true) {
switch (errno(ftruncate_sym(fd, @bitCast(length)))) {
.SUCCESS => return,
.INTR => continue,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.PERM => return error.AccessDenied,
.TXTBSY => return error.FileBusy,
.BADF => unreachable, // Handle not open for writing
.INVAL => unreachable, // Handle not open for writing
else => |err| return unexpectedErrno(err),
}
}
}
/// Number of bytes read is returned. Upon reading end-of-file, zero is returned.
///
/// Retries when interrupted by a signal.
///
/// For POSIX systems, if `fd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
/// On Windows, if the application has a global event loop enabled, I/O Completion Ports are
/// used to perform the I/O. `error.WouldBlock` is not possible on Windows.
///
/// This operation is non-atomic on the following systems:
/// * Darwin
/// * Windows
/// On these systems, the read races with concurrent writes to the same file descriptor.
pub fn preadv(fd: fd_t, iov: []const iovec, offset: u64) PReadError!usize {
const have_pread_but_not_preadv = switch (native_os) {
.windows, .macos, .ios, .watchos, .tvos, .visionos, .haiku => true,
else => false,
};
if (have_pread_but_not_preadv) {
// We could loop here; but proper usage of `preadv` must handle partial reads anyway.
// So we simply read into the first vector only.
if (iov.len == 0) return 0;
const first = iov[0];
return pread(fd, first.base[0..first.len], offset);
}
if (native_os == .wasi and !builtin.link_libc) {
var nread: usize = undefined;
switch (wasi.fd_pread(fd, iov.ptr, iov.len, offset, &nread)) {
.SUCCESS => return nread,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable,
.BADF => return error.NotOpenForReading, // can be a race condition
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const preadv_sym = if (lfs64_abi) system.preadv64 else system.preadv;
while (true) {
const rc = preadv_sym(fd, iov.ptr, @min(iov.len, IOV_MAX), @bitCast(offset));
switch (errno(rc)) {
.SUCCESS => return @bitCast(rc),
.INTR => continue,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForReading, // can be a race condition
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTCONN => return error.SocketNotConnected,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
}
pub const WriteError = error{
DiskQuota,
FileTooBig,
InputOutput,
NoSpaceLeft,
DeviceBusy,
InvalidArgument,
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to write to it.
AccessDenied,
BrokenPipe,
SystemResources,
OperationAborted,
NotOpenForWriting,
/// The process cannot access the file because another process has locked
/// a portion of the file. Windows-only.
LockViolation,
/// This error occurs when no global event loop is configured,
/// and reading from the file descriptor would block.
WouldBlock,
/// Connection reset by peer.
ConnectionResetByPeer,
} || UnexpectedError;
/// Write to a file descriptor.
/// Retries when interrupted by a signal.
/// Returns the number of bytes written. If nonzero bytes were supplied, this will be nonzero.
///
/// Note that a successful write() may transfer fewer than count bytes. Such partial writes can
/// occur for various reasons; for example, because there was insufficient space on the disk
/// device to write all of the requested bytes, or because a blocked write() to a socket, pipe, or
/// similar was interrupted by a signal handler after it had transferred some, but before it had
/// transferred all of the requested bytes. In the event of a partial write, the caller can make
/// another write() call to transfer the remaining bytes. The subsequent call will either
/// transfer further bytes or may result in an error (e.g., if the disk is now full).
///
/// For POSIX systems, if `fd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
/// On Windows, if the application has a global event loop enabled, I/O Completion Ports are
/// used to perform the I/O. `error.WouldBlock` is not possible on Windows.
///
/// Linux has a limit on how many bytes may be transferred in one `write` call, which is `0x7ffff000`
/// on both 64-bit and 32-bit systems. This is due to using a signed C int as the return value, as
/// well as stuffing the errno codes into the last `4096` values. This is noted on the `write` man page.
/// The limit on Darwin is `0x7fffffff`, trying to read more than that returns EINVAL.
/// The corresponding POSIX limit is `maxInt(isize)`.
pub fn write(fd: fd_t, bytes: []const u8) WriteError!usize {
if (bytes.len == 0) return 0;
if (native_os == .windows) {
return windows.WriteFile(fd, bytes, null);
}
if (native_os == .wasi and !builtin.link_libc) {
const ciovs = [_]iovec_const{iovec_const{
.base = bytes.ptr,
.len = bytes.len,
}};
var nwritten: usize = undefined;
switch (wasi.fd_write(fd, &ciovs, ciovs.len, &nwritten)) {
.SUCCESS => return nwritten,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable,
.BADF => return error.NotOpenForWriting, // can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const max_count = switch (native_os) {
.linux => 0x7ffff000,
.macos, .ios, .watchos, .tvos, .visionos => maxInt(i32),
else => maxInt(isize),
};
while (true) {
const rc = system.write(fd, bytes.ptr, @min(bytes.len, max_count));
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.INVAL => return error.InvalidArgument,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForWriting, // can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.CONNRESET => return error.ConnectionResetByPeer,
.BUSY => return error.DeviceBusy,
else => |err| return unexpectedErrno(err),
}
}
}
/// Write multiple buffers to a file descriptor.
/// Retries when interrupted by a signal.
/// Returns the number of bytes written. If nonzero bytes were supplied, this will be nonzero.
///
/// Note that a successful write() may transfer fewer bytes than supplied. Such partial writes can
/// occur for various reasons; for example, because there was insufficient space on the disk
/// device to write all of the requested bytes, or because a blocked write() to a socket, pipe, or
/// similar was interrupted by a signal handler after it had transferred some, but before it had
/// transferred all of the requested bytes. In the event of a partial write, the caller can make
/// another write() call to transfer the remaining bytes. The subsequent call will either
/// transfer further bytes or may result in an error (e.g., if the disk is now full).
///
/// For POSIX systems, if `fd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
/// On Windows, if the application has a global event loop enabled, I/O Completion Ports are
/// used to perform the I/O. `error.WouldBlock` is not possible on Windows.
///
/// If `iov.len` is larger than `IOV_MAX`, a partial write will occur.
///
/// This function assumes that all vectors, including zero-length vectors, have
/// a pointer within the address space of the application.
pub fn writev(fd: fd_t, iov: []const iovec_const) WriteError!usize {
if (native_os == .windows) {
// TODO improve this to use WriteFileScatter
if (iov.len == 0) return 0;
const first = iov[0];
return write(fd, first.base[0..first.len]);
}
if (native_os == .wasi and !builtin.link_libc) {
var nwritten: usize = undefined;
switch (wasi.fd_write(fd, iov.ptr, iov.len, &nwritten)) {
.SUCCESS => return nwritten,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable,
.BADF => return error.NotOpenForWriting, // can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
while (true) {
const rc = system.writev(fd, iov.ptr, @min(iov.len, IOV_MAX));
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.INVAL => return error.InvalidArgument,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForWriting, // Can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.CONNRESET => return error.ConnectionResetByPeer,
.BUSY => return error.DeviceBusy,
else => |err| return unexpectedErrno(err),
}
}
}
pub const PWriteError = WriteError || error{Unseekable};
/// Write to a file descriptor, with a position offset.
/// Retries when interrupted by a signal.
/// Returns the number of bytes written. If nonzero bytes were supplied, this will be nonzero.
///
/// Note that a successful write() may transfer fewer bytes than supplied. Such partial writes can
/// occur for various reasons; for example, because there was insufficient space on the disk
/// device to write all of the requested bytes, or because a blocked write() to a socket, pipe, or
/// similar was interrupted by a signal handler after it had transferred some, but before it had
/// transferred all of the requested bytes. In the event of a partial write, the caller can make
/// another write() call to transfer the remaining bytes. The subsequent call will either
/// transfer further bytes or may result in an error (e.g., if the disk is now full).
///
/// For POSIX systems, if `fd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
/// On Windows, if the application has a global event loop enabled, I/O Completion Ports are
/// used to perform the I/O. `error.WouldBlock` is not possible on Windows.
///
/// Linux has a limit on how many bytes may be transferred in one `pwrite` call, which is `0x7ffff000`
/// on both 64-bit and 32-bit systems. This is due to using a signed C int as the return value, as
/// well as stuffing the errno codes into the last `4096` values. This is noted on the `write` man page.
/// The limit on Darwin is `0x7fffffff`, trying to write more than that returns EINVAL.
/// The corresponding POSIX limit is `maxInt(isize)`.
pub fn pwrite(fd: fd_t, bytes: []const u8, offset: u64) PWriteError!usize {
if (bytes.len == 0) return 0;
if (native_os == .windows) {
return windows.WriteFile(fd, bytes, offset);
}
if (native_os == .wasi and !builtin.link_libc) {
const ciovs = [1]iovec_const{iovec_const{
.base = bytes.ptr,
.len = bytes.len,
}};
var nwritten: usize = undefined;
switch (wasi.fd_pwrite(fd, &ciovs, ciovs.len, offset, &nwritten)) {
.SUCCESS => return nwritten,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable,
.BADF => return error.NotOpenForWriting, // can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
// Prevent EINVAL.
const max_count = switch (native_os) {
.linux => 0x7ffff000,
.macos, .ios, .watchos, .tvos, .visionos => maxInt(i32),
else => maxInt(isize),
};
const pwrite_sym = if (lfs64_abi) system.pwrite64 else system.pwrite;
while (true) {
const rc = pwrite_sym(fd, bytes.ptr, @min(bytes.len, max_count), @bitCast(offset));
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.INVAL => return error.InvalidArgument,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForWriting, // Can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.BUSY => return error.DeviceBusy,
else => |err| return unexpectedErrno(err),
}
}
}
/// Write multiple buffers to a file descriptor, with a position offset.
/// Retries when interrupted by a signal.
/// Returns the number of bytes written. If nonzero bytes were supplied, this will be nonzero.
///
/// Note that a successful write() may transfer fewer than count bytes. Such partial writes can
/// occur for various reasons; for example, because there was insufficient space on the disk
/// device to write all of the requested bytes, or because a blocked write() to a socket, pipe, or
/// similar was interrupted by a signal handler after it had transferred some, but before it had
/// transferred all of the requested bytes. In the event of a partial write, the caller can make
/// another write() call to transfer the remaining bytes. The subsequent call will either
/// transfer further bytes or may result in an error (e.g., if the disk is now full).
///
/// If `fd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
///
/// The following systems do not have this syscall, and will return partial writes if more than one
/// vector is provided:
/// * Darwin
/// * Windows
///
/// If `iov.len` is larger than `IOV_MAX`, a partial write will occur.
pub fn pwritev(fd: fd_t, iov: []const iovec_const, offset: u64) PWriteError!usize {
const have_pwrite_but_not_pwritev = switch (native_os) {
.windows, .macos, .ios, .watchos, .tvos, .visionos, .haiku => true,
else => false,
};
if (have_pwrite_but_not_pwritev) {
// We could loop here; but proper usage of `pwritev` must handle partial writes anyway.
// So we simply write the first vector only.
if (iov.len == 0) return 0;
const first = iov[0];
return pwrite(fd, first.base[0..first.len], offset);
}
if (native_os == .wasi and !builtin.link_libc) {
var nwritten: usize = undefined;
switch (wasi.fd_pwrite(fd, iov.ptr, iov.len, offset, &nwritten)) {
.SUCCESS => return nwritten,
.INTR => unreachable,
.INVAL => unreachable,
.FAULT => unreachable,
.AGAIN => unreachable,
.BADF => return error.NotOpenForWriting, // Can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const pwritev_sym = if (lfs64_abi) system.pwritev64 else system.pwritev;
while (true) {
const rc = pwritev_sym(fd, iov.ptr, @min(iov.len, IOV_MAX), @bitCast(offset));
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.INVAL => return error.InvalidArgument,
.FAULT => unreachable,
.AGAIN => return error.WouldBlock,
.BADF => return error.NotOpenForWriting, // Can be a race condition.
.DESTADDRREQ => unreachable, // `connect` was never called.
.DQUOT => return error.DiskQuota,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.PIPE => return error.BrokenPipe,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.BUSY => return error.DeviceBusy,
else => |err| return unexpectedErrno(err),
}
}
}
pub const OpenError = error{
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to open a new resource relative to it.
AccessDenied,
SymLinkLoop,
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
NoDevice,
FileNotFound,
/// The path exceeded `max_path_bytes` bytes.
NameTooLong,
/// Insufficient kernel memory was available, or
/// the named file is a FIFO and per-user hard limit on
/// memory allocation for pipes has been reached.
SystemResources,
/// The file is too large to be opened. This error is unreachable
/// for 64-bit targets, as well as when opening directories.
FileTooBig,
/// The path refers to directory but the `DIRECTORY` flag was not provided.
IsDir,
/// A new path cannot be created because the device has no room for the new file.
/// This error is only reachable when the `CREAT` flag is provided.
NoSpaceLeft,
/// A component used as a directory in the path was not, in fact, a directory, or
/// `DIRECTORY` was specified and the path was not a directory.
NotDir,
/// The path already exists and the `CREAT` and `EXCL` flags were provided.
PathAlreadyExists,
DeviceBusy,
/// The underlying filesystem does not support file locks
FileLocksNotSupported,
/// Path contains characters that are disallowed by the underlying filesystem.
BadPathName,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
/// On Windows, `\\server` or `\\server\share` was not found.
NetworkNotFound,
/// One of these three things:
/// * pathname refers to an executable image which is currently being
/// executed and write access was requested.
/// * pathname refers to a file that is currently in use as a swap
/// file, and the O_TRUNC flag was specified.
/// * pathname refers to a file that is currently being read by the
/// kernel (e.g., for module/firmware loading), and write access was
/// requested.
FileBusy,
WouldBlock,
} || UnexpectedError;
/// Open and possibly create a file. Keeps trying if it gets interrupted.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// See also `openZ`.
pub fn open(file_path: []const u8, flags: O, perm: mode_t) OpenError!fd_t {
if (native_os == .windows) {
@compileError("Windows does not support POSIX; use Windows-specific API or cross-platform std.fs API");
} else if (native_os == .wasi and !builtin.link_libc) {
return openat(AT.FDCWD, file_path, flags, perm);
}
const file_path_c = try toPosixPath(file_path);
return openZ(&file_path_c, flags, perm);
}
/// Open and possibly create a file. Keeps trying if it gets interrupted.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// See also `open`.
pub fn openZ(file_path: [*:0]const u8, flags: O, perm: mode_t) OpenError!fd_t {
if (native_os == .windows) {
@compileError("Windows does not support POSIX; use Windows-specific API or cross-platform std.fs API");
} else if (native_os == .wasi and !builtin.link_libc) {
return open(mem.sliceTo(file_path, 0), flags, perm);
}
const open_sym = if (lfs64_abi) system.open64 else system.open;
while (true) {
const rc = open_sym(file_path, flags, perm);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.FAULT => unreachable,
.INVAL => return error.BadPathName,
.ACCES => return error.AccessDenied,
.FBIG => return error.FileTooBig,
.OVERFLOW => return error.FileTooBig,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.MFILE => return error.ProcessFdQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NFILE => return error.SystemFdQuotaExceeded,
.NODEV => return error.NoDevice,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.PERM => return error.AccessDenied,
.EXIST => return error.PathAlreadyExists,
.BUSY => return error.DeviceBusy,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
}
/// Open and possibly create a file. Keeps trying if it gets interrupted.
/// `file_path` is relative to the open directory handle `dir_fd`.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// See also `openatZ`.
pub fn openat(dir_fd: fd_t, file_path: []const u8, flags: O, mode: mode_t) OpenError!fd_t {
if (native_os == .windows) {
@compileError("Windows does not support POSIX; use Windows-specific API or cross-platform std.fs API");
} else if (native_os == .wasi and !builtin.link_libc) {
// `mode` is ignored on WASI, which does not support unix-style file permissions
const opts = try openOptionsFromFlagsWasi(flags);
const fd = try openatWasi(
dir_fd,
file_path,
opts.lookup_flags,
opts.oflags,
opts.fs_flags,
opts.fs_rights_base,
opts.fs_rights_inheriting,
);
errdefer close(fd);
if (flags.write) {
const info = try std.os.fstat_wasi(fd);
if (info.filetype == .DIRECTORY)
return error.IsDir;
}
return fd;
}
const file_path_c = try toPosixPath(file_path);
return openatZ(dir_fd, &file_path_c, flags, mode);
}
/// Open and possibly create a file in WASI.
pub fn openatWasi(
dir_fd: fd_t,
file_path: []const u8,
lookup_flags: wasi.lookupflags_t,
oflags: wasi.oflags_t,
fdflags: wasi.fdflags_t,
base: wasi.rights_t,
inheriting: wasi.rights_t,
) OpenError!fd_t {
while (true) {
var fd: fd_t = undefined;
switch (wasi.path_open(dir_fd, lookup_flags, file_path.ptr, file_path.len, oflags, base, inheriting, fdflags, &fd)) {
.SUCCESS => return fd,
.INTR => continue,
.FAULT => unreachable,
// Provides INVAL with a linux host on a bad path name, but NOENT on Windows
.INVAL => return error.BadPathName,
.BADF => unreachable,
.ACCES => return error.AccessDenied,
.FBIG => return error.FileTooBig,
.OVERFLOW => return error.FileTooBig,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.MFILE => return error.ProcessFdQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NFILE => return error.SystemFdQuotaExceeded,
.NODEV => return error.NoDevice,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.PERM => return error.AccessDenied,
.EXIST => return error.PathAlreadyExists,
.BUSY => return error.DeviceBusy,
.NOTCAPABLE => return error.AccessDenied,
.ILSEQ => return error.InvalidUtf8,
else => |err| return unexpectedErrno(err),
}
}
}
/// A struct to contain all lookup/rights flags accepted by `wasi.path_open`
const WasiOpenOptions = struct {
oflags: wasi.oflags_t,
lookup_flags: wasi.lookupflags_t,
fs_rights_base: wasi.rights_t,
fs_rights_inheriting: wasi.rights_t,
fs_flags: wasi.fdflags_t,
};
/// Compute rights + flags corresponding to the provided POSIX access mode.
fn openOptionsFromFlagsWasi(oflag: O) OpenError!WasiOpenOptions {
const w = std.os.wasi;
// Next, calculate the read/write rights to request, depending on the
// provided POSIX access mode
var rights: w.rights_t = .{};
if (oflag.read) {
rights.FD_READ = true;
rights.FD_READDIR = true;
}
if (oflag.write) {
rights.FD_DATASYNC = true;
rights.FD_WRITE = true;
rights.FD_ALLOCATE = true;
rights.FD_FILESTAT_SET_SIZE = true;
}
// https://github.com/ziglang/zig/issues/18882
const flag_bits: u32 = @bitCast(oflag);
const oflags_int: u16 = @as(u12, @truncate(flag_bits >> 12));
const fs_flags_int: u16 = @as(u12, @truncate(flag_bits));
return .{
// https://github.com/ziglang/zig/issues/18882
.oflags = @bitCast(oflags_int),
.lookup_flags = .{
.SYMLINK_FOLLOW = !oflag.NOFOLLOW,
},
.fs_rights_base = rights,
.fs_rights_inheriting = rights,
// https://github.com/ziglang/zig/issues/18882
.fs_flags = @bitCast(fs_flags_int),
};
}
/// Open and possibly create a file. Keeps trying if it gets interrupted.
/// `file_path` is relative to the open directory handle `dir_fd`.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// See also `openat`.
pub fn openatZ(dir_fd: fd_t, file_path: [*:0]const u8, flags: O, mode: mode_t) OpenError!fd_t {
if (native_os == .windows) {
@compileError("Windows does not support POSIX; use Windows-specific API or cross-platform std.fs API");
} else if (native_os == .wasi and !builtin.link_libc) {
return openat(dir_fd, mem.sliceTo(file_path, 0), flags, mode);
}
const openat_sym = if (lfs64_abi) system.openat64 else system.openat;
while (true) {
const rc = openat_sym(dir_fd, file_path, flags, mode);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.FAULT => unreachable,
.INVAL => return error.BadPathName,
.BADF => unreachable,
.ACCES => return error.AccessDenied,
.FBIG => return error.FileTooBig,
.OVERFLOW => return error.FileTooBig,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.MFILE => return error.ProcessFdQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NFILE => return error.SystemFdQuotaExceeded,
.NODEV => return error.NoDevice,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.PERM => return error.AccessDenied,
.EXIST => return error.PathAlreadyExists,
.BUSY => return error.DeviceBusy,
.OPNOTSUPP => return error.FileLocksNotSupported,
.AGAIN => return error.WouldBlock,
.TXTBSY => return error.FileBusy,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
}
pub fn dup(old_fd: fd_t) !fd_t {
const rc = system.dup(old_fd);
return switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.MFILE => error.ProcessFdQuotaExceeded,
.BADF => unreachable, // invalid file descriptor
else => |err| return unexpectedErrno(err),
};
}
pub fn dup2(old_fd: fd_t, new_fd: fd_t) !void {
while (true) {
switch (errno(system.dup2(old_fd, new_fd))) {
.SUCCESS => return,
.BUSY, .INTR => continue,
.MFILE => return error.ProcessFdQuotaExceeded,
.INVAL => unreachable, // invalid parameters passed to dup2
.BADF => unreachable, // invalid file descriptor
else => |err| return unexpectedErrno(err),
}
}
}
pub const ExecveError = error{
SystemResources,
AccessDenied,
InvalidExe,
FileSystem,
IsDir,
FileNotFound,
NotDir,
FileBusy,
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
NameTooLong,
} || UnexpectedError;
/// This function ignores PATH environment variable. See `execvpeZ` for that.
pub fn execveZ(
path: [*:0]const u8,
child_argv: [*:null]const ?[*:0]const u8,
envp: [*:null]const ?[*:0]const u8,
) ExecveError {
switch (errno(system.execve(path, child_argv, envp))) {
.SUCCESS => unreachable,
.FAULT => unreachable,
.@"2BIG" => return error.SystemResources,
.MFILE => return error.ProcessFdQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NFILE => return error.SystemFdQuotaExceeded,
.NOMEM => return error.SystemResources,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.INVAL => return error.InvalidExe,
.NOEXEC => return error.InvalidExe,
.IO => return error.FileSystem,
.LOOP => return error.FileSystem,
.ISDIR => return error.IsDir,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.TXTBSY => return error.FileBusy,
else => |err| switch (native_os) {
.macos, .ios, .tvos, .watchos, .visionos => switch (err) {
.BADEXEC => return error.InvalidExe,
.BADARCH => return error.InvalidExe,
else => return unexpectedErrno(err),
},
.linux => switch (err) {
.LIBBAD => return error.InvalidExe,
else => return unexpectedErrno(err),
},
else => return unexpectedErrno(err),
},
}
}
pub const Arg0Expand = enum {
expand,
no_expand,
};
/// Like `execvpeZ` except if `arg0_expand` is `.expand`, then `argv` is mutable,
/// and `argv[0]` is expanded to be the same absolute path that is passed to the execve syscall.
/// If this function returns with an error, `argv[0]` will be restored to the value it was when it was passed in.
pub fn execvpeZ_expandArg0(
comptime arg0_expand: Arg0Expand,
file: [*:0]const u8,
child_argv: switch (arg0_expand) {
.expand => [*:null]?[*:0]const u8,
.no_expand => [*:null]const ?[*:0]const u8,
},
envp: [*:null]const ?[*:0]const u8,
) ExecveError {
const file_slice = mem.sliceTo(file, 0);
if (mem.indexOfScalar(u8, file_slice, '/') != null) return execveZ(file, child_argv, envp);
const PATH = getenvZ("PATH") orelse "/usr/local/bin:/bin/:/usr/bin";
// Use of PATH_MAX here is valid as the path_buf will be passed
// directly to the operating system in execveZ.
var path_buf: [PATH_MAX]u8 = undefined;
var it = mem.tokenizeScalar(u8, PATH, ':');
var seen_eacces = false;
var err: ExecveError = error.FileNotFound;
// In case of expanding arg0 we must put it back if we return with an error.
const prev_arg0 = child_argv[0];
defer switch (arg0_expand) {
.expand => child_argv[0] = prev_arg0,
.no_expand => {},
};
while (it.next()) |search_path| {
const path_len = search_path.len + file_slice.len + 1;
if (path_buf.len < path_len + 1) return error.NameTooLong;
@memcpy(path_buf[0..search_path.len], search_path);
path_buf[search_path.len] = '/';
@memcpy(path_buf[search_path.len + 1 ..][0..file_slice.len], file_slice);
path_buf[path_len] = 0;
const full_path = path_buf[0..path_len :0].ptr;
switch (arg0_expand) {
.expand => child_argv[0] = full_path,
.no_expand => {},
}
err = execveZ(full_path, child_argv, envp);
switch (err) {
error.AccessDenied => seen_eacces = true,
error.FileNotFound, error.NotDir => {},
else => |e| return e,
}
}
if (seen_eacces) return error.AccessDenied;
return err;
}
/// This function also uses the PATH environment variable to get the full path to the executable.
/// If `file` is an absolute path, this is the same as `execveZ`.
pub fn execvpeZ(
file: [*:0]const u8,
argv_ptr: [*:null]const ?[*:0]const u8,
envp: [*:null]const ?[*:0]const u8,
) ExecveError {
return execvpeZ_expandArg0(.no_expand, file, argv_ptr, envp);
}
/// Get an environment variable.
/// See also `getenvZ`.
pub fn getenv(key: []const u8) ?[:0]const u8 {
if (native_os == .windows) {
@compileError("std.posix.getenv is unavailable for Windows because environment strings are in WTF-16 format. See std.process.getEnvVarOwned for a cross-platform API or std.process.getenvW for a Windows-specific API.");
}
if (builtin.link_libc) {
var ptr = std.c.environ;
while (ptr[0]) |line| : (ptr += 1) {
var line_i: usize = 0;
while (line[line_i] != 0 and line[line_i] != '=') : (line_i += 1) {}
const this_key = line[0..line_i];
if (!mem.eql(u8, this_key, key)) continue;
return mem.sliceTo(line + line_i + 1, 0);
}
return null;
}
if (native_os == .wasi) {
@compileError("std.posix.getenv is unavailable for WASI. See std.process.getEnvMap or std.process.getEnvVarOwned for a cross-platform API.");
}
// The simplified start logic doesn't populate environ.
if (std.start.simplified_logic) return null;
// TODO see https://github.com/ziglang/zig/issues/4524
for (std.os.environ) |ptr| {
var line_i: usize = 0;
while (ptr[line_i] != 0 and ptr[line_i] != '=') : (line_i += 1) {}
const this_key = ptr[0..line_i];
if (!mem.eql(u8, key, this_key)) continue;
return mem.sliceTo(ptr + line_i + 1, 0);
}
return null;
}
/// Get an environment variable with a null-terminated name.
/// See also `getenv`.
pub fn getenvZ(key: [*:0]const u8) ?[:0]const u8 {
if (builtin.link_libc) {
const value = system.getenv(key) orelse return null;
return mem.sliceTo(value, 0);
}
if (native_os == .windows) {
@compileError("std.posix.getenvZ is unavailable for Windows because environment string is in WTF-16 format. See std.process.getEnvVarOwned for cross-platform API or std.process.getenvW for Windows-specific API.");
}
return getenv(mem.sliceTo(key, 0));
}
pub const GetCwdError = error{
NameTooLong,
CurrentWorkingDirectoryUnlinked,
} || UnexpectedError;
/// The result is a slice of out_buffer, indexed from 0.
pub fn getcwd(out_buffer: []u8) GetCwdError![]u8 {
if (native_os == .windows) {
return windows.GetCurrentDirectory(out_buffer);
} else if (native_os == .wasi and !builtin.link_libc) {
const path = ".";
if (out_buffer.len < path.len) return error.NameTooLong;
const result = out_buffer[0..path.len];
@memcpy(result, path);
return result;
}
const err: E = if (builtin.link_libc) err: {
const c_err = if (std.c.getcwd(out_buffer.ptr, out_buffer.len)) |_| 0 else std.c._errno().*;
break :err @enumFromInt(c_err);
} else err: {
break :err errno(system.getcwd(out_buffer.ptr, out_buffer.len));
};
switch (err) {
.SUCCESS => return mem.sliceTo(out_buffer, 0),
.FAULT => unreachable,
.INVAL => unreachable,
.NOENT => return error.CurrentWorkingDirectoryUnlinked,
.RANGE => return error.NameTooLong,
else => return unexpectedErrno(err),
}
}
pub const SymLinkError = error{
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to create a new symbolic link relative to it.
AccessDenied,
DiskQuota,
PathAlreadyExists,
FileSystem,
SymLinkLoop,
FileNotFound,
SystemResources,
NoSpaceLeft,
ReadOnlyFileSystem,
NotDir,
NameTooLong,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
BadPathName,
} || UnexpectedError;
/// Creates a symbolic link named `sym_link_path` which contains the string `target_path`.
/// A symbolic link (also known as a soft link) may point to an existing file or to a nonexistent
/// one; the latter case is known as a dangling link.
/// On Windows, both paths should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
/// If `sym_link_path` exists, it will not be overwritten.
/// See also `symlinkZ.
pub fn symlink(target_path: []const u8, sym_link_path: []const u8) SymLinkError!void {
if (native_os == .windows) {
@compileError("symlink is not supported on Windows; use std.os.windows.CreateSymbolicLink instead");
} else if (native_os == .wasi and !builtin.link_libc) {
return symlinkat(target_path, wasi.AT.FDCWD, sym_link_path);
}
const target_path_c = try toPosixPath(target_path);
const sym_link_path_c = try toPosixPath(sym_link_path);
return symlinkZ(&target_path_c, &sym_link_path_c);
}
/// This is the same as `symlink` except the parameters are null-terminated pointers.
/// See also `symlink`.
pub fn symlinkZ(target_path: [*:0]const u8, sym_link_path: [*:0]const u8) SymLinkError!void {
if (native_os == .windows) {
@compileError("symlink is not supported on Windows; use std.os.windows.CreateSymbolicLink instead");
} else if (native_os == .wasi and !builtin.link_libc) {
return symlinkatZ(target_path, fs.cwd().fd, sym_link_path);
}
switch (errno(system.symlink(target_path, sym_link_path))) {
.SUCCESS => return,
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.ROFS => return error.ReadOnlyFileSystem,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Similar to `symlink`, however, creates a symbolic link named `sym_link_path` which contains the string
/// `target_path` **relative** to `newdirfd` directory handle.
/// A symbolic link (also known as a soft link) may point to an existing file or to a nonexistent
/// one; the latter case is known as a dangling link.
/// On Windows, both paths should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
/// If `sym_link_path` exists, it will not be overwritten.
/// See also `symlinkatWasi`, `symlinkatZ` and `symlinkatW`.
pub fn symlinkat(target_path: []const u8, newdirfd: fd_t, sym_link_path: []const u8) SymLinkError!void {
if (native_os == .windows) {
@compileError("symlinkat is not supported on Windows; use std.os.windows.CreateSymbolicLink instead");
} else if (native_os == .wasi and !builtin.link_libc) {
return symlinkatWasi(target_path, newdirfd, sym_link_path);
}
const target_path_c = try toPosixPath(target_path);
const sym_link_path_c = try toPosixPath(sym_link_path);
return symlinkatZ(&target_path_c, newdirfd, &sym_link_path_c);
}
/// WASI-only. The same as `symlinkat` but targeting WASI.
/// See also `symlinkat`.
pub fn symlinkatWasi(target_path: []const u8, newdirfd: fd_t, sym_link_path: []const u8) SymLinkError!void {
switch (wasi.path_symlink(target_path.ptr, target_path.len, newdirfd, sym_link_path.ptr, sym_link_path.len)) {
.SUCCESS => {},
.FAULT => unreachable,
.INVAL => unreachable,
.BADF => unreachable,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.ROFS => return error.ReadOnlyFileSystem,
.NOTCAPABLE => return error.AccessDenied,
.ILSEQ => return error.InvalidUtf8,
else => |err| return unexpectedErrno(err),
}
}
/// The same as `symlinkat` except the parameters are null-terminated pointers.
/// See also `symlinkat`.
pub fn symlinkatZ(target_path: [*:0]const u8, newdirfd: fd_t, sym_link_path: [*:0]const u8) SymLinkError!void {
if (native_os == .windows) {
@compileError("symlinkat is not supported on Windows; use std.os.windows.CreateSymbolicLink instead");
} else if (native_os == .wasi and !builtin.link_libc) {
return symlinkat(mem.sliceTo(target_path, 0), newdirfd, mem.sliceTo(sym_link_path, 0));
}
switch (errno(system.symlinkat(target_path, newdirfd, sym_link_path))) {
.SUCCESS => return,
.FAULT => unreachable,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.ROFS => return error.ReadOnlyFileSystem,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
pub const LinkError = UnexpectedError || error{
AccessDenied,
DiskQuota,
PathAlreadyExists,
FileSystem,
SymLinkLoop,
LinkQuotaExceeded,
NameTooLong,
FileNotFound,
SystemResources,
NoSpaceLeft,
ReadOnlyFileSystem,
NotSameFileSystem,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
};
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
pub fn linkZ(oldpath: [*:0]const u8, newpath: [*:0]const u8, flags: i32) LinkError!void {
if (native_os == .wasi and !builtin.link_libc) {
return link(mem.sliceTo(oldpath, 0), mem.sliceTo(newpath, 0), flags);
}
switch (errno(system.link(oldpath, newpath, flags))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.FAULT => unreachable,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
.XDEV => return error.NotSameFileSystem,
.INVAL => unreachable,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
pub fn link(oldpath: []const u8, newpath: []const u8, flags: i32) LinkError!void {
if (native_os == .wasi and !builtin.link_libc) {
return linkat(wasi.AT.FDCWD, oldpath, wasi.AT.FDCWD, newpath, flags) catch |err| switch (err) {
error.NotDir => unreachable, // link() does not support directories
else => |e| return e,
};
}
const old = try toPosixPath(oldpath);
const new = try toPosixPath(newpath);
return try linkZ(&old, &new, flags);
}
pub const LinkatError = LinkError || error{NotDir};
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
pub fn linkatZ(
olddir: fd_t,
oldpath: [*:0]const u8,
newdir: fd_t,
newpath: [*:0]const u8,
flags: i32,
) LinkatError!void {
if (native_os == .wasi and !builtin.link_libc) {
return linkat(olddir, mem.sliceTo(oldpath, 0), newdir, mem.sliceTo(newpath, 0), flags);
}
switch (errno(system.linkat(olddir, oldpath, newdir, newpath, flags))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.FAULT => unreachable,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
.XDEV => return error.NotSameFileSystem,
.INVAL => unreachable,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
pub fn linkat(
olddir: fd_t,
oldpath: []const u8,
newdir: fd_t,
newpath: []const u8,
flags: i32,
) LinkatError!void {
if (native_os == .wasi and !builtin.link_libc) {
const old: RelativePathWasi = .{ .dir_fd = olddir, .relative_path = oldpath };
const new: RelativePathWasi = .{ .dir_fd = newdir, .relative_path = newpath };
const old_flags: wasi.lookupflags_t = .{
.SYMLINK_FOLLOW = (flags & AT.SYMLINK_FOLLOW) != 0,
};
switch (wasi.path_link(
old.dir_fd,
old_flags,
old.relative_path.ptr,
old.relative_path.len,
new.dir_fd,
new.relative_path.ptr,
new.relative_path.len,
)) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.FAULT => unreachable,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.PERM => return error.AccessDenied,
.ROFS => return error.ReadOnlyFileSystem,
.XDEV => return error.NotSameFileSystem,
.INVAL => unreachable,
.ILSEQ => return error.InvalidUtf8,
else => |err| return unexpectedErrno(err),
}
}
const old = try toPosixPath(oldpath);
const new = try toPosixPath(newpath);
return try linkatZ(olddir, &old, newdir, &new, flags);
}
pub const UnlinkError = error{
FileNotFound,
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to unlink a resource by path relative to it.
AccessDenied,
FileBusy,
FileSystem,
IsDir,
SymLinkLoop,
NameTooLong,
NotDir,
SystemResources,
ReadOnlyFileSystem,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
/// On Windows, file paths cannot contain these characters:
/// '/', '*', '?', '"', '<', '>', '|'
BadPathName,
/// On Windows, `\\server` or `\\server\share` was not found.
NetworkNotFound,
} || UnexpectedError;
/// Delete a name and possibly the file it refers to.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// See also `unlinkZ`.
pub fn unlink(file_path: []const u8) UnlinkError!void {
if (native_os == .wasi and !builtin.link_libc) {
return unlinkat(wasi.AT.FDCWD, file_path, 0) catch |err| switch (err) {
error.DirNotEmpty => unreachable, // only occurs when targeting directories
else => |e| return e,
};
} else if (native_os == .windows) {
const file_path_w = try windows.sliceToPrefixedFileW(null, file_path);
return unlinkW(file_path_w.span());
} else {
const file_path_c = try toPosixPath(file_path);
return unlinkZ(&file_path_c);
}
}
/// Same as `unlink` except the parameter is null terminated.
pub fn unlinkZ(file_path: [*:0]const u8) UnlinkError!void {
if (native_os == .windows) {
const file_path_w = try windows.cStrToPrefixedFileW(null, file_path);
return unlinkW(file_path_w.span());
} else if (native_os == .wasi and !builtin.link_libc) {
return unlink(mem.sliceTo(file_path, 0));
}
switch (errno(system.unlink(file_path))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.BUSY => return error.FileBusy,
.FAULT => unreachable,
.INVAL => unreachable,
.IO => return error.FileSystem,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.ROFS => return error.ReadOnlyFileSystem,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Windows-only. Same as `unlink` except the parameter is null-terminated, WTF16 LE encoded.
pub fn unlinkW(file_path_w: []const u16) UnlinkError!void {
windows.DeleteFile(file_path_w, .{ .dir = fs.cwd().fd }) catch |err| switch (err) {
error.DirNotEmpty => unreachable, // we're not passing .remove_dir = true
else => |e| return e,
};
}
pub const UnlinkatError = UnlinkError || error{
/// When passing `AT.REMOVEDIR`, this error occurs when the named directory is not empty.
DirNotEmpty,
};
/// Delete a file name and possibly the file it refers to, based on an open directory handle.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// Asserts that the path parameter has no null bytes.
pub fn unlinkat(dirfd: fd_t, file_path: []const u8, flags: u32) UnlinkatError!void {
if (native_os == .windows) {
const file_path_w = try windows.sliceToPrefixedFileW(dirfd, file_path);
return unlinkatW(dirfd, file_path_w.span(), flags);
} else if (native_os == .wasi and !builtin.link_libc) {
return unlinkatWasi(dirfd, file_path, flags);
} else {
const file_path_c = try toPosixPath(file_path);
return unlinkatZ(dirfd, &file_path_c, flags);
}
}
/// WASI-only. Same as `unlinkat` but targeting WASI.
/// See also `unlinkat`.
pub fn unlinkatWasi(dirfd: fd_t, file_path: []const u8, flags: u32) UnlinkatError!void {
const remove_dir = (flags & AT.REMOVEDIR) != 0;
const res = if (remove_dir)
wasi.path_remove_directory(dirfd, file_path.ptr, file_path.len)
else
wasi.path_unlink_file(dirfd, file_path.ptr, file_path.len);
switch (res) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.BUSY => return error.FileBusy,
.FAULT => unreachable,
.IO => return error.FileSystem,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.ROFS => return error.ReadOnlyFileSystem,
.NOTEMPTY => return error.DirNotEmpty,
.NOTCAPABLE => return error.AccessDenied,
.ILSEQ => return error.InvalidUtf8,
.INVAL => unreachable, // invalid flags, or pathname has . as last component
.BADF => unreachable, // always a race condition
else => |err| return unexpectedErrno(err),
}
}
/// Same as `unlinkat` but `file_path` is a null-terminated string.
pub fn unlinkatZ(dirfd: fd_t, file_path_c: [*:0]const u8, flags: u32) UnlinkatError!void {
if (native_os == .windows) {
const file_path_w = try windows.cStrToPrefixedFileW(dirfd, file_path_c);
return unlinkatW(dirfd, file_path_w.span(), flags);
} else if (native_os == .wasi and !builtin.link_libc) {
return unlinkat(dirfd, mem.sliceTo(file_path_c, 0), flags);
}
switch (errno(system.unlinkat(dirfd, file_path_c, flags))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.BUSY => return error.FileBusy,
.FAULT => unreachable,
.IO => return error.FileSystem,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.ROFS => return error.ReadOnlyFileSystem,
.EXIST => return error.DirNotEmpty,
.NOTEMPTY => return error.DirNotEmpty,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
.INVAL => unreachable, // invalid flags, or pathname has . as last component
.BADF => unreachable, // always a race condition
else => |err| return unexpectedErrno(err),
}
}
/// Same as `unlinkat` but `sub_path_w` is WTF16LE, NT prefixed. Windows only.
pub fn unlinkatW(dirfd: fd_t, sub_path_w: []const u16, flags: u32) UnlinkatError!void {
const remove_dir = (flags & AT.REMOVEDIR) != 0;
return windows.DeleteFile(sub_path_w, .{ .dir = dirfd, .remove_dir = remove_dir });
}
pub const RenameError = error{
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to rename a resource by path relative to it.
///
/// On Windows, this error may be returned instead of PathAlreadyExists when
/// renaming a directory over an existing directory.
AccessDenied,
FileBusy,
DiskQuota,
IsDir,
SymLinkLoop,
LinkQuotaExceeded,
NameTooLong,
FileNotFound,
NotDir,
SystemResources,
NoSpaceLeft,
PathAlreadyExists,
ReadOnlyFileSystem,
RenameAcrossMountPoints,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
BadPathName,
NoDevice,
SharingViolation,
PipeBusy,
/// On Windows, `\\server` or `\\server\share` was not found.
NetworkNotFound,
/// On Windows, antivirus software is enabled by default. It can be
/// disabled, but Windows Update sometimes ignores the user's preference
/// and re-enables it. When enabled, antivirus software on Windows
/// intercepts file system operations and makes them significantly slower
/// in addition to possibly failing with this error code.
AntivirusInterference,
} || UnexpectedError;
/// Change the name or location of a file.
/// On Windows, both paths should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
pub fn rename(old_path: []const u8, new_path: []const u8) RenameError!void {
if (native_os == .wasi and !builtin.link_libc) {
return renameat(wasi.AT.FDCWD, old_path, wasi.AT.FDCWD, new_path);
} else if (native_os == .windows) {
const old_path_w = try windows.sliceToPrefixedFileW(null, old_path);
const new_path_w = try windows.sliceToPrefixedFileW(null, new_path);
return renameW(old_path_w.span().ptr, new_path_w.span().ptr);
} else {
const old_path_c = try toPosixPath(old_path);
const new_path_c = try toPosixPath(new_path);
return renameZ(&old_path_c, &new_path_c);
}
}
/// Same as `rename` except the parameters are null-terminated.
pub fn renameZ(old_path: [*:0]const u8, new_path: [*:0]const u8) RenameError!void {
if (native_os == .windows) {
const old_path_w = try windows.cStrToPrefixedFileW(null, old_path);
const new_path_w = try windows.cStrToPrefixedFileW(null, new_path);
return renameW(old_path_w.span().ptr, new_path_w.span().ptr);
} else if (native_os == .wasi and !builtin.link_libc) {
return rename(mem.sliceTo(old_path, 0), mem.sliceTo(new_path, 0));
}
switch (errno(system.rename(old_path, new_path))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.BUSY => return error.FileBusy,
.DQUOT => return error.DiskQuota,
.FAULT => unreachable,
.INVAL => unreachable,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.EXIST => return error.PathAlreadyExists,
.NOTEMPTY => return error.PathAlreadyExists,
.ROFS => return error.ReadOnlyFileSystem,
.XDEV => return error.RenameAcrossMountPoints,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Same as `rename` except the parameters are null-terminated and WTF16LE encoded.
/// Assumes target is Windows.
pub fn renameW(old_path: [*:0]const u16, new_path: [*:0]const u16) RenameError!void {
const flags = windows.MOVEFILE_REPLACE_EXISTING | windows.MOVEFILE_WRITE_THROUGH;
return windows.MoveFileExW(old_path, new_path, flags);
}
/// Change the name or location of a file based on an open directory handle.
/// On Windows, both paths should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, both paths should be encoded as valid UTF-8.
/// On other platforms, both paths are an opaque sequence of bytes with no particular encoding.
pub fn renameat(
old_dir_fd: fd_t,
old_path: []const u8,
new_dir_fd: fd_t,
new_path: []const u8,
) RenameError!void {
if (native_os == .windows) {
const old_path_w = try windows.sliceToPrefixedFileW(old_dir_fd, old_path);
const new_path_w = try windows.sliceToPrefixedFileW(new_dir_fd, new_path);
return renameatW(old_dir_fd, old_path_w.span(), new_dir_fd, new_path_w.span(), windows.TRUE);
} else if (native_os == .wasi and !builtin.link_libc) {
const old: RelativePathWasi = .{ .dir_fd = old_dir_fd, .relative_path = old_path };
const new: RelativePathWasi = .{ .dir_fd = new_dir_fd, .relative_path = new_path };
return renameatWasi(old, new);
} else {
const old_path_c = try toPosixPath(old_path);
const new_path_c = try toPosixPath(new_path);
return renameatZ(old_dir_fd, &old_path_c, new_dir_fd, &new_path_c);
}
}
/// WASI-only. Same as `renameat` expect targeting WASI.
/// See also `renameat`.
fn renameatWasi(old: RelativePathWasi, new: RelativePathWasi) RenameError!void {
switch (wasi.path_rename(old.dir_fd, old.relative_path.ptr, old.relative_path.len, new.dir_fd, new.relative_path.ptr, new.relative_path.len)) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.BUSY => return error.FileBusy,
.DQUOT => return error.DiskQuota,
.FAULT => unreachable,
.INVAL => unreachable,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.EXIST => return error.PathAlreadyExists,
.NOTEMPTY => return error.PathAlreadyExists,
.ROFS => return error.ReadOnlyFileSystem,
.XDEV => return error.RenameAcrossMountPoints,
.NOTCAPABLE => return error.AccessDenied,
.ILSEQ => return error.InvalidUtf8,
else => |err| return unexpectedErrno(err),
}
}
/// An fd-relative file path
///
/// This is currently only used for WASI-specific functionality, but the concept
/// is the same as the dirfd/pathname pairs in the `*at(...)` POSIX functions.
const RelativePathWasi = struct {
/// Handle to directory
dir_fd: fd_t,
/// Path to resource within `dir_fd`.
relative_path: []const u8,
};
/// Same as `renameat` except the parameters are null-terminated.
pub fn renameatZ(
old_dir_fd: fd_t,
old_path: [*:0]const u8,
new_dir_fd: fd_t,
new_path: [*:0]const u8,
) RenameError!void {
if (native_os == .windows) {
const old_path_w = try windows.cStrToPrefixedFileW(old_dir_fd, old_path);
const new_path_w = try windows.cStrToPrefixedFileW(new_dir_fd, new_path);
return renameatW(old_dir_fd, old_path_w.span(), new_dir_fd, new_path_w.span(), windows.TRUE);
} else if (native_os == .wasi and !builtin.link_libc) {
return renameat(old_dir_fd, mem.sliceTo(old_path, 0), new_dir_fd, mem.sliceTo(new_path, 0));
}
switch (errno(system.renameat(old_dir_fd, old_path, new_dir_fd, new_path))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.BUSY => return error.FileBusy,
.DQUOT => return error.DiskQuota,
.FAULT => unreachable,
.INVAL => unreachable,
.ISDIR => return error.IsDir,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.EXIST => return error.PathAlreadyExists,
.NOTEMPTY => return error.PathAlreadyExists,
.ROFS => return error.ReadOnlyFileSystem,
.XDEV => return error.RenameAcrossMountPoints,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Same as `renameat` but Windows-only and the path parameters are
/// [WTF-16](https://simonsapin.github.io/wtf-8/#potentially-ill-formed-utf-16) encoded.
pub fn renameatW(
old_dir_fd: fd_t,
old_path_w: []const u16,
new_dir_fd: fd_t,
new_path_w: []const u16,
ReplaceIfExists: windows.BOOLEAN,
) RenameError!void {
const src_fd = windows.OpenFile(old_path_w, .{
.dir = old_dir_fd,
.access_mask = windows.SYNCHRONIZE | windows.GENERIC_WRITE | windows.DELETE,
.creation = windows.FILE_OPEN,
.filter = .any, // This function is supposed to rename both files and directories.
.follow_symlinks = false,
}) catch |err| switch (err) {
error.WouldBlock => unreachable, // Not possible without `.share_access_nonblocking = true`.
else => |e| return e,
};
defer windows.CloseHandle(src_fd);
var need_fallback = true;
var rc: windows.NTSTATUS = undefined;
// FILE_RENAME_INFORMATION_EX and FILE_RENAME_POSIX_SEMANTICS require >= win10_rs1,
// but FILE_RENAME_IGNORE_READONLY_ATTRIBUTE requires >= win10_rs5. We check >= rs5 here
// so that we only use POSIX_SEMANTICS when we know IGNORE_READONLY_ATTRIBUTE will also be
// supported in order to avoid either (1) using a redundant call that we can know in advance will return
// STATUS_NOT_SUPPORTED or (2) only setting IGNORE_READONLY_ATTRIBUTE when >= rs5
// and therefore having different behavior when the Windows version is >= rs1 but < rs5.
if (builtin.target.os.isAtLeast(.windows, .win10_rs5) orelse false) {
const struct_buf_len = @sizeOf(windows.FILE_RENAME_INFORMATION_EX) + (max_path_bytes - 1);
var rename_info_buf: [struct_buf_len]u8 align(@alignOf(windows.FILE_RENAME_INFORMATION_EX)) = undefined;
const struct_len = @sizeOf(windows.FILE_RENAME_INFORMATION_EX) - 1 + new_path_w.len * 2;
if (struct_len > struct_buf_len) return error.NameTooLong;
const rename_info: *windows.FILE_RENAME_INFORMATION_EX = @ptrCast(&rename_info_buf);
var io_status_block: windows.IO_STATUS_BLOCK = undefined;
var flags: windows.ULONG = windows.FILE_RENAME_POSIX_SEMANTICS | windows.FILE_RENAME_IGNORE_READONLY_ATTRIBUTE;
if (ReplaceIfExists == windows.TRUE) flags |= windows.FILE_RENAME_REPLACE_IF_EXISTS;
rename_info.* = .{
.Flags = flags,
.RootDirectory = if (fs.path.isAbsoluteWindowsWTF16(new_path_w)) null else new_dir_fd,
.FileNameLength = @intCast(new_path_w.len * 2), // already checked error.NameTooLong
.FileName = undefined,
};
@memcpy((&rename_info.FileName).ptr, new_path_w);
rc = windows.ntdll.NtSetInformationFile(
src_fd,
&io_status_block,
rename_info,
@intCast(struct_len), // already checked for error.NameTooLong
.FileRenameInformationEx,
);
switch (rc) {
.SUCCESS => return,
// INVALID_PARAMETER here means that the filesystem does not support FileRenameInformationEx
.INVALID_PARAMETER => {},
// For all other statuses, fall down to the switch below to handle them.
else => need_fallback = false,
}
}
if (need_fallback) {
const struct_buf_len = @sizeOf(windows.FILE_RENAME_INFORMATION) + (max_path_bytes - 1);
var rename_info_buf: [struct_buf_len]u8 align(@alignOf(windows.FILE_RENAME_INFORMATION)) = undefined;
const struct_len = @sizeOf(windows.FILE_RENAME_INFORMATION) - 1 + new_path_w.len * 2;
if (struct_len > struct_buf_len) return error.NameTooLong;
const rename_info: *windows.FILE_RENAME_INFORMATION = @ptrCast(&rename_info_buf);
var io_status_block: windows.IO_STATUS_BLOCK = undefined;
rename_info.* = .{
.Flags = ReplaceIfExists,
.RootDirectory = if (fs.path.isAbsoluteWindowsWTF16(new_path_w)) null else new_dir_fd,
.FileNameLength = @intCast(new_path_w.len * 2), // already checked error.NameTooLong
.FileName = undefined,
};
@memcpy((&rename_info.FileName).ptr, new_path_w);
rc =
windows.ntdll.NtSetInformationFile(
src_fd,
&io_status_block,
rename_info,
@intCast(struct_len), // already checked for error.NameTooLong
.FileRenameInformation,
);
}
switch (rc) {
.SUCCESS => {},
.INVALID_HANDLE => unreachable,
.INVALID_PARAMETER => unreachable,
.OBJECT_PATH_SYNTAX_BAD => unreachable,
.ACCESS_DENIED => return error.AccessDenied,
.OBJECT_NAME_NOT_FOUND => return error.FileNotFound,
.OBJECT_PATH_NOT_FOUND => return error.FileNotFound,
.NOT_SAME_DEVICE => return error.RenameAcrossMountPoints,
.OBJECT_NAME_COLLISION => return error.PathAlreadyExists,
.DIRECTORY_NOT_EMPTY => return error.PathAlreadyExists,
.FILE_IS_A_DIRECTORY => return error.IsDir,
.NOT_A_DIRECTORY => return error.NotDir,
else => return windows.unexpectedStatus(rc),
}
}
/// On Windows, `sub_dir_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `sub_dir_path` should be encoded as valid UTF-8.
/// On other platforms, `sub_dir_path` is an opaque sequence of bytes with no particular encoding.
pub fn mkdirat(dir_fd: fd_t, sub_dir_path: []const u8, mode: u32) MakeDirError!void {
if (native_os == .windows) {
const sub_dir_path_w = try windows.sliceToPrefixedFileW(dir_fd, sub_dir_path);
return mkdiratW(dir_fd, sub_dir_path_w.span(), mode);
} else if (native_os == .wasi and !builtin.link_libc) {
return mkdiratWasi(dir_fd, sub_dir_path, mode);
} else {
const sub_dir_path_c = try toPosixPath(sub_dir_path);
return mkdiratZ(dir_fd, &sub_dir_path_c, mode);
}
}
pub fn mkdiratWasi(dir_fd: fd_t, sub_dir_path: []const u8, mode: u32) MakeDirError!void {
_ = mode;
switch (wasi.path_create_directory(dir_fd, sub_dir_path.ptr, sub_dir_path.len)) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.BADF => unreachable,
.PERM => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.FAULT => unreachable,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.ROFS => return error.ReadOnlyFileSystem,
.NOTCAPABLE => return error.AccessDenied,
.ILSEQ => return error.InvalidUtf8,
else => |err| return unexpectedErrno(err),
}
}
/// Same as `mkdirat` except the parameters are null-terminated.
pub fn mkdiratZ(dir_fd: fd_t, sub_dir_path: [*:0]const u8, mode: u32) MakeDirError!void {
if (native_os == .windows) {
const sub_dir_path_w = try windows.cStrToPrefixedFileW(dir_fd, sub_dir_path);
return mkdiratW(dir_fd, sub_dir_path_w.span(), mode);
} else if (native_os == .wasi and !builtin.link_libc) {
return mkdirat(dir_fd, mem.sliceTo(sub_dir_path, 0), mode);
}
switch (errno(system.mkdirat(dir_fd, sub_dir_path, mode))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.BADF => unreachable,
.PERM => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.FAULT => unreachable,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.ROFS => return error.ReadOnlyFileSystem,
// dragonfly: when dir_fd is unlinked from filesystem
.NOTCONN => return error.FileNotFound,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Windows-only. Same as `mkdirat` except the parameter WTF16 LE encoded.
pub fn mkdiratW(dir_fd: fd_t, sub_path_w: []const u16, mode: u32) MakeDirError!void {
_ = mode;
const sub_dir_handle = windows.OpenFile(sub_path_w, .{
.dir = dir_fd,
.access_mask = windows.GENERIC_READ | windows.SYNCHRONIZE,
.creation = windows.FILE_CREATE,
.filter = .dir_only,
}) catch |err| switch (err) {
error.IsDir => return error.Unexpected,
error.PipeBusy => return error.Unexpected,
error.WouldBlock => return error.Unexpected,
error.AntivirusInterference => return error.Unexpected,
else => |e| return e,
};
windows.CloseHandle(sub_dir_handle);
}
pub const MakeDirError = error{
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to create a new directory relative to it.
AccessDenied,
DiskQuota,
PathAlreadyExists,
SymLinkLoop,
LinkQuotaExceeded,
NameTooLong,
FileNotFound,
SystemResources,
NoSpaceLeft,
NotDir,
ReadOnlyFileSystem,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
BadPathName,
NoDevice,
/// On Windows, `\\server` or `\\server\share` was not found.
NetworkNotFound,
} || UnexpectedError;
/// Create a directory.
/// `mode` is ignored on Windows and WASI.
/// On Windows, `dir_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `dir_path` should be encoded as valid UTF-8.
/// On other platforms, `dir_path` is an opaque sequence of bytes with no particular encoding.
pub fn mkdir(dir_path: []const u8, mode: u32) MakeDirError!void {
if (native_os == .wasi and !builtin.link_libc) {
return mkdirat(wasi.AT.FDCWD, dir_path, mode);
} else if (native_os == .windows) {
const dir_path_w = try windows.sliceToPrefixedFileW(null, dir_path);
return mkdirW(dir_path_w.span(), mode);
} else {
const dir_path_c = try toPosixPath(dir_path);
return mkdirZ(&dir_path_c, mode);
}
}
/// Same as `mkdir` but the parameter is null-terminated.
/// On Windows, `dir_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `dir_path` should be encoded as valid UTF-8.
/// On other platforms, `dir_path` is an opaque sequence of bytes with no particular encoding.
pub fn mkdirZ(dir_path: [*:0]const u8, mode: u32) MakeDirError!void {
if (native_os == .windows) {
const dir_path_w = try windows.cStrToPrefixedFileW(null, dir_path);
return mkdirW(dir_path_w.span(), mode);
} else if (native_os == .wasi and !builtin.link_libc) {
return mkdir(mem.sliceTo(dir_path, 0), mode);
}
switch (errno(system.mkdir(dir_path, mode))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.DQUOT => return error.DiskQuota,
.EXIST => return error.PathAlreadyExists,
.FAULT => unreachable,
.LOOP => return error.SymLinkLoop,
.MLINK => return error.LinkQuotaExceeded,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.NoSpaceLeft,
.NOTDIR => return error.NotDir,
.ROFS => return error.ReadOnlyFileSystem,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Windows-only. Same as `mkdir` but the parameters is WTF16LE encoded.
pub fn mkdirW(dir_path_w: []const u16, mode: u32) MakeDirError!void {
_ = mode;
const sub_dir_handle = windows.OpenFile(dir_path_w, .{
.dir = fs.cwd().fd,
.access_mask = windows.GENERIC_READ | windows.SYNCHRONIZE,
.creation = windows.FILE_CREATE,
.filter = .dir_only,
}) catch |err| switch (err) {
error.IsDir => return error.Unexpected,
error.PipeBusy => return error.Unexpected,
error.WouldBlock => return error.Unexpected,
error.AntivirusInterference => return error.Unexpected,
else => |e| return e,
};
windows.CloseHandle(sub_dir_handle);
}
pub const DeleteDirError = error{
AccessDenied,
FileBusy,
SymLinkLoop,
NameTooLong,
FileNotFound,
SystemResources,
NotDir,
DirNotEmpty,
ReadOnlyFileSystem,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
BadPathName,
/// On Windows, `\\server` or `\\server\share` was not found.
NetworkNotFound,
} || UnexpectedError;
/// Deletes an empty directory.
/// On Windows, `dir_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `dir_path` should be encoded as valid UTF-8.
/// On other platforms, `dir_path` is an opaque sequence of bytes with no particular encoding.
pub fn rmdir(dir_path: []const u8) DeleteDirError!void {
if (native_os == .wasi and !builtin.link_libc) {
return unlinkat(wasi.AT.FDCWD, dir_path, AT.REMOVEDIR) catch |err| switch (err) {
error.FileSystem => unreachable, // only occurs when targeting files
error.IsDir => unreachable, // only occurs when targeting files
else => |e| return e,
};
} else if (native_os == .windows) {
const dir_path_w = try windows.sliceToPrefixedFileW(null, dir_path);
return rmdirW(dir_path_w.span());
} else {
const dir_path_c = try toPosixPath(dir_path);
return rmdirZ(&dir_path_c);
}
}
/// Same as `rmdir` except the parameter is null-terminated.
/// On Windows, `dir_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `dir_path` should be encoded as valid UTF-8.
/// On other platforms, `dir_path` is an opaque sequence of bytes with no particular encoding.
pub fn rmdirZ(dir_path: [*:0]const u8) DeleteDirError!void {
if (native_os == .windows) {
const dir_path_w = try windows.cStrToPrefixedFileW(null, dir_path);
return rmdirW(dir_path_w.span());
} else if (native_os == .wasi and !builtin.link_libc) {
return rmdir(mem.sliceTo(dir_path, 0));
}
switch (errno(system.rmdir(dir_path))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.BUSY => return error.FileBusy,
.FAULT => unreachable,
.INVAL => return error.BadPathName,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.NotDir,
.EXIST => return error.DirNotEmpty,
.NOTEMPTY => return error.DirNotEmpty,
.ROFS => return error.ReadOnlyFileSystem,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Windows-only. Same as `rmdir` except the parameter is WTF-16 LE encoded.
pub fn rmdirW(dir_path_w: []const u16) DeleteDirError!void {
return windows.DeleteFile(dir_path_w, .{ .dir = fs.cwd().fd, .remove_dir = true }) catch |err| switch (err) {
error.IsDir => unreachable,
else => |e| return e,
};
}
pub const ChangeCurDirError = error{
AccessDenied,
FileSystem,
SymLinkLoop,
NameTooLong,
FileNotFound,
SystemResources,
NotDir,
BadPathName,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
} || UnexpectedError;
/// Changes the current working directory of the calling process.
/// On Windows, `dir_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `dir_path` should be encoded as valid UTF-8.
/// On other platforms, `dir_path` is an opaque sequence of bytes with no particular encoding.
pub fn chdir(dir_path: []const u8) ChangeCurDirError!void {
if (native_os == .wasi and !builtin.link_libc) {
@compileError("WASI does not support os.chdir");
} else if (native_os == .windows) {
var wtf16_dir_path: [windows.PATH_MAX_WIDE]u16 = undefined;
if (try std.unicode.checkWtf8ToWtf16LeOverflow(dir_path, &wtf16_dir_path)) {
return error.NameTooLong;
}
const len = try std.unicode.wtf8ToWtf16Le(&wtf16_dir_path, dir_path);
return chdirW(wtf16_dir_path[0..len]);
} else {
const dir_path_c = try toPosixPath(dir_path);
return chdirZ(&dir_path_c);
}
}
/// Same as `chdir` except the parameter is null-terminated.
/// On Windows, `dir_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `dir_path` should be encoded as valid UTF-8.
/// On other platforms, `dir_path` is an opaque sequence of bytes with no particular encoding.
pub fn chdirZ(dir_path: [*:0]const u8) ChangeCurDirError!void {
if (native_os == .windows) {
const dir_path_span = mem.span(dir_path);
var wtf16_dir_path: [windows.PATH_MAX_WIDE]u16 = undefined;
if (try std.unicode.checkWtf8ToWtf16LeOverflow(dir_path_span, &wtf16_dir_path)) {
return error.NameTooLong;
}
const len = try std.unicode.wtf8ToWtf16Le(&wtf16_dir_path, dir_path_span);
return chdirW(wtf16_dir_path[0..len]);
} else if (native_os == .wasi and !builtin.link_libc) {
return chdir(mem.span(dir_path));
}
switch (errno(system.chdir(dir_path))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.FAULT => unreachable,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.NotDir,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Windows-only. Same as `chdir` except the parameter is WTF16 LE encoded.
pub fn chdirW(dir_path: []const u16) ChangeCurDirError!void {
windows.SetCurrentDirectory(dir_path) catch |err| switch (err) {
error.NoDevice => return error.FileSystem,
else => |e| return e,
};
}
pub const FchdirError = error{
AccessDenied,
NotDir,
FileSystem,
} || UnexpectedError;
pub fn fchdir(dirfd: fd_t) FchdirError!void {
if (dirfd == AT.FDCWD) return;
while (true) {
switch (errno(system.fchdir(dirfd))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.BADF => unreachable,
.NOTDIR => return error.NotDir,
.INTR => continue,
.IO => return error.FileSystem,
else => |err| return unexpectedErrno(err),
}
}
}
pub const ReadLinkError = error{
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to read value of a symbolic link relative to it.
AccessDenied,
FileSystem,
SymLinkLoop,
NameTooLong,
FileNotFound,
SystemResources,
NotLink,
NotDir,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
BadPathName,
/// Windows-only. This error may occur if the opened reparse point is
/// of unsupported type.
UnsupportedReparsePointType,
/// On Windows, `\\server` or `\\server\share` was not found.
NetworkNotFound,
} || UnexpectedError;
/// Read value of a symbolic link.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// The return value is a slice of `out_buffer` from index 0.
/// On Windows, the result is encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, the result is encoded as UTF-8.
/// On other platforms, the result is an opaque sequence of bytes with no particular encoding.
pub fn readlink(file_path: []const u8, out_buffer: []u8) ReadLinkError![]u8 {
if (native_os == .wasi and !builtin.link_libc) {
return readlinkat(wasi.AT.FDCWD, file_path, out_buffer);
} else if (native_os == .windows) {
const file_path_w = try windows.sliceToPrefixedFileW(null, file_path);
return readlinkW(file_path_w.span(), out_buffer);
} else {
const file_path_c = try toPosixPath(file_path);
return readlinkZ(&file_path_c, out_buffer);
}
}
/// Windows-only. Same as `readlink` except `file_path` is WTF16 LE encoded.
/// The result is encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// See also `readlinkZ`.
pub fn readlinkW(file_path: []const u16, out_buffer: []u8) ReadLinkError![]u8 {
return windows.ReadLink(fs.cwd().fd, file_path, out_buffer);
}
/// Same as `readlink` except `file_path` is null-terminated.
pub fn readlinkZ(file_path: [*:0]const u8, out_buffer: []u8) ReadLinkError![]u8 {
if (native_os == .windows) {
const file_path_w = try windows.cStrToPrefixedFileW(null, file_path);
return readlinkW(file_path_w.span(), out_buffer);
} else if (native_os == .wasi and !builtin.link_libc) {
return readlink(mem.sliceTo(file_path, 0), out_buffer);
}
const rc = system.readlink(file_path, out_buffer.ptr, out_buffer.len);
switch (errno(rc)) {
.SUCCESS => return out_buffer[0..@bitCast(rc)],
.ACCES => return error.AccessDenied,
.FAULT => unreachable,
.INVAL => return error.NotLink,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.NotDir,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Similar to `readlink` except reads value of a symbolink link **relative** to `dirfd` directory handle.
/// On Windows, `file_path` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, `file_path` should be encoded as valid UTF-8.
/// On other platforms, `file_path` is an opaque sequence of bytes with no particular encoding.
/// The return value is a slice of `out_buffer` from index 0.
/// On Windows, the result is encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// On WASI, the result is encoded as UTF-8.
/// On other platforms, the result is an opaque sequence of bytes with no particular encoding.
/// See also `readlinkatWasi`, `realinkatZ` and `realinkatW`.
pub fn readlinkat(dirfd: fd_t, file_path: []const u8, out_buffer: []u8) ReadLinkError![]u8 {
if (native_os == .wasi and !builtin.link_libc) {
return readlinkatWasi(dirfd, file_path, out_buffer);
}
if (native_os == .windows) {
const file_path_w = try windows.sliceToPrefixedFileW(dirfd, file_path);
return readlinkatW(dirfd, file_path_w.span(), out_buffer);
}
const file_path_c = try toPosixPath(file_path);
return readlinkatZ(dirfd, &file_path_c, out_buffer);
}
/// WASI-only. Same as `readlinkat` but targets WASI.
/// See also `readlinkat`.
pub fn readlinkatWasi(dirfd: fd_t, file_path: []const u8, out_buffer: []u8) ReadLinkError![]u8 {
var bufused: usize = undefined;
switch (wasi.path_readlink(dirfd, file_path.ptr, file_path.len, out_buffer.ptr, out_buffer.len, &bufused)) {
.SUCCESS => return out_buffer[0..bufused],
.ACCES => return error.AccessDenied,
.FAULT => unreachable,
.INVAL => return error.NotLink,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.NotDir,
.NOTCAPABLE => return error.AccessDenied,
.ILSEQ => return error.InvalidUtf8,
else => |err| return unexpectedErrno(err),
}
}
/// Windows-only. Same as `readlinkat` except `file_path` is null-terminated, WTF16 LE encoded.
/// The result is encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// See also `readlinkat`.
pub fn readlinkatW(dirfd: fd_t, file_path: []const u16, out_buffer: []u8) ReadLinkError![]u8 {
return windows.ReadLink(dirfd, file_path, out_buffer);
}
/// Same as `readlinkat` except `file_path` is null-terminated.
/// See also `readlinkat`.
pub fn readlinkatZ(dirfd: fd_t, file_path: [*:0]const u8, out_buffer: []u8) ReadLinkError![]u8 {
if (native_os == .windows) {
const file_path_w = try windows.cStrToPrefixedFileW(dirfd, file_path);
return readlinkatW(dirfd, file_path_w.span(), out_buffer);
} else if (native_os == .wasi and !builtin.link_libc) {
return readlinkat(dirfd, mem.sliceTo(file_path, 0), out_buffer);
}
const rc = system.readlinkat(dirfd, file_path, out_buffer.ptr, out_buffer.len);
switch (errno(rc)) {
.SUCCESS => return out_buffer[0..@bitCast(rc)],
.ACCES => return error.AccessDenied,
.FAULT => unreachable,
.INVAL => return error.NotLink,
.IO => return error.FileSystem,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.NotDir,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
pub const SetEidError = error{
InvalidUserId,
PermissionDenied,
} || UnexpectedError;
pub const SetIdError = error{ResourceLimitReached} || SetEidError;
pub fn setuid(uid: uid_t) SetIdError!void {
switch (errno(system.setuid(uid))) {
.SUCCESS => return,
.AGAIN => return error.ResourceLimitReached,
.INVAL => return error.InvalidUserId,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub fn seteuid(uid: uid_t) SetEidError!void {
switch (errno(system.seteuid(uid))) {
.SUCCESS => return,
.INVAL => return error.InvalidUserId,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub fn setreuid(ruid: uid_t, euid: uid_t) SetIdError!void {
switch (errno(system.setreuid(ruid, euid))) {
.SUCCESS => return,
.AGAIN => return error.ResourceLimitReached,
.INVAL => return error.InvalidUserId,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub fn setgid(gid: gid_t) SetIdError!void {
switch (errno(system.setgid(gid))) {
.SUCCESS => return,
.AGAIN => return error.ResourceLimitReached,
.INVAL => return error.InvalidUserId,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub fn setegid(uid: uid_t) SetEidError!void {
switch (errno(system.setegid(uid))) {
.SUCCESS => return,
.INVAL => return error.InvalidUserId,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub fn setregid(rgid: gid_t, egid: gid_t) SetIdError!void {
switch (errno(system.setregid(rgid, egid))) {
.SUCCESS => return,
.AGAIN => return error.ResourceLimitReached,
.INVAL => return error.InvalidUserId,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub const SetPgidError = error{
ProcessAlreadyExec,
InvalidProcessGroupId,
PermissionDenied,
ProcessNotFound,
} || UnexpectedError;
pub fn setpgid(pid: pid_t, pgid: pid_t) SetPgidError!void {
switch (errno(system.setpgid(pid, pgid))) {
.SUCCESS => return,
.ACCES => return error.ProcessAlreadyExec,
.INVAL => return error.InvalidProcessGroupId,
.PERM => return error.PermissionDenied,
.SRCH => return error.ProcessNotFound,
else => |err| return unexpectedErrno(err),
}
}
/// Test whether a file descriptor refers to a terminal.
pub fn isatty(handle: fd_t) bool {
if (native_os == .windows) {
if (fs.File.isCygwinPty(.{ .handle = handle }))
return true;
var out: windows.DWORD = undefined;
return windows.kernel32.GetConsoleMode(handle, &out) != 0;
}
if (builtin.link_libc) {
return system.isatty(handle) != 0;
}
if (native_os == .wasi) {
var statbuf: wasi.fdstat_t = undefined;
const err = wasi.fd_fdstat_get(handle, &statbuf);
if (err != .SUCCESS)
return false;
// A tty is a character device that we can't seek or tell on.
if (statbuf.fs_filetype != .CHARACTER_DEVICE)
return false;
if (statbuf.fs_rights_base.FD_SEEK or statbuf.fs_rights_base.FD_TELL)
return false;
return true;
}
if (native_os == .linux) {
while (true) {
var wsz: winsize = undefined;
const fd: usize = @bitCast(@as(isize, handle));
const rc = linux.syscall3(.ioctl, fd, linux.T.IOCGWINSZ, @intFromPtr(&wsz));
switch (linux.E.init(rc)) {
.SUCCESS => return true,
.INTR => continue,
else => return false,
}
}
}
return system.isatty(handle) != 0;
}
pub const SocketError = error{
/// Permission to create a socket of the specified type and/or
/// protocol is denied.
PermissionDenied,
/// The implementation does not support the specified address family.
AddressFamilyNotSupported,
/// Unknown protocol, or protocol family not available.
ProtocolFamilyNotAvailable,
/// The per-process limit on the number of open file descriptors has been reached.
ProcessFdQuotaExceeded,
/// The system-wide limit on the total number of open files has been reached.
SystemFdQuotaExceeded,
/// Insufficient memory is available. The socket cannot be created until sufficient
/// resources are freed.
SystemResources,
/// The protocol type or the specified protocol is not supported within this domain.
ProtocolNotSupported,
/// The socket type is not supported by the protocol.
SocketTypeNotSupported,
} || UnexpectedError;
pub fn socket(domain: u32, socket_type: u32, protocol: u32) SocketError!socket_t {
if (native_os == .windows) {
// NOTE: windows translates the SOCK.NONBLOCK/SOCK.CLOEXEC flags into
// windows-analogous operations
const filtered_sock_type = socket_type & ~@as(u32, SOCK.NONBLOCK | SOCK.CLOEXEC);
const flags: u32 = if ((socket_type & SOCK.CLOEXEC) != 0)
windows.ws2_32.WSA_FLAG_NO_HANDLE_INHERIT
else
0;
const rc = try windows.WSASocketW(
@bitCast(domain),
@bitCast(filtered_sock_type),
@bitCast(protocol),
null,
0,
flags,
);
errdefer windows.closesocket(rc) catch unreachable;
if ((socket_type & SOCK.NONBLOCK) != 0) {
var mode: c_ulong = 1; // nonblocking
if (windows.ws2_32.SOCKET_ERROR == windows.ws2_32.ioctlsocket(rc, windows.ws2_32.FIONBIO, &mode)) {
switch (windows.ws2_32.WSAGetLastError()) {
// have not identified any error codes that should be handled yet
else => unreachable,
}
}
}
return rc;
}
const have_sock_flags = !builtin.target.isDarwin() and native_os != .haiku;
const filtered_sock_type = if (!have_sock_flags)
socket_type & ~@as(u32, SOCK.NONBLOCK | SOCK.CLOEXEC)
else
socket_type;
const rc = system.socket(domain, filtered_sock_type, protocol);
switch (errno(rc)) {
.SUCCESS => {
const fd: fd_t = @intCast(rc);
errdefer close(fd);
if (!have_sock_flags) {
try setSockFlags(fd, socket_type);
}
return fd;
},
.ACCES => return error.PermissionDenied,
.AFNOSUPPORT => return error.AddressFamilyNotSupported,
.INVAL => return error.ProtocolFamilyNotAvailable,
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.PROTONOSUPPORT => return error.ProtocolNotSupported,
.PROTOTYPE => return error.SocketTypeNotSupported,
else => |err| return unexpectedErrno(err),
}
}
pub const ShutdownError = error{
ConnectionAborted,
/// Connection was reset by peer, application should close socket as it is no longer usable.
ConnectionResetByPeer,
BlockingOperationInProgress,
/// The network subsystem has failed.
NetworkSubsystemFailed,
/// The socket is not connected (connection-oriented sockets only).
SocketNotConnected,
SystemResources,
} || UnexpectedError;
pub const ShutdownHow = enum { recv, send, both };
/// Shutdown socket send/receive operations
pub fn shutdown(sock: socket_t, how: ShutdownHow) ShutdownError!void {
if (native_os == .windows) {
const result = windows.ws2_32.shutdown(sock, switch (how) {
.recv => windows.ws2_32.SD_RECEIVE,
.send => windows.ws2_32.SD_SEND,
.both => windows.ws2_32.SD_BOTH,
});
if (0 != result) switch (windows.ws2_32.WSAGetLastError()) {
.WSAECONNABORTED => return error.ConnectionAborted,
.WSAECONNRESET => return error.ConnectionResetByPeer,
.WSAEINPROGRESS => return error.BlockingOperationInProgress,
.WSAEINVAL => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAENOTCONN => return error.SocketNotConnected,
.WSAENOTSOCK => unreachable,
.WSANOTINITIALISED => unreachable,
else => |err| return windows.unexpectedWSAError(err),
};
} else {
const rc = system.shutdown(sock, switch (how) {
.recv => SHUT.RD,
.send => SHUT.WR,
.both => SHUT.RDWR,
});
switch (errno(rc)) {
.SUCCESS => return,
.BADF => unreachable,
.INVAL => unreachable,
.NOTCONN => return error.SocketNotConnected,
.NOTSOCK => unreachable,
.NOBUFS => return error.SystemResources,
else => |err| return unexpectedErrno(err),
}
}
}
pub const BindError = error{
/// The address is protected, and the user is not the superuser.
/// For UNIX domain sockets: Search permission is denied on a component
/// of the path prefix.
AccessDenied,
/// The given address is already in use, or in the case of Internet domain sockets,
/// The port number was specified as zero in the socket
/// address structure, but, upon attempting to bind to an ephemeral port, it was
/// determined that all port numbers in the ephemeral port range are currently in
/// use. See the discussion of /proc/sys/net/ipv4/ip_local_port_range ip(7).
AddressInUse,
/// A nonexistent interface was requested or the requested address was not local.
AddressNotAvailable,
/// The address is not valid for the address family of socket.
AddressFamilyNotSupported,
/// Too many symbolic links were encountered in resolving addr.
SymLinkLoop,
/// addr is too long.
NameTooLong,
/// A component in the directory prefix of the socket pathname does not exist.
FileNotFound,
/// Insufficient kernel memory was available.
SystemResources,
/// A component of the path prefix is not a directory.
NotDir,
/// The socket inode would reside on a read-only filesystem.
ReadOnlyFileSystem,
/// The network subsystem has failed.
NetworkSubsystemFailed,
FileDescriptorNotASocket,
AlreadyBound,
} || UnexpectedError;
/// addr is `*const T` where T is one of the sockaddr
pub fn bind(sock: socket_t, addr: *const sockaddr, len: socklen_t) BindError!void {
if (native_os == .windows) {
const rc = windows.bind(sock, addr, len);
if (rc == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable, // not initialized WSA
.WSAEACCES => return error.AccessDenied,
.WSAEADDRINUSE => return error.AddressInUse,
.WSAEADDRNOTAVAIL => return error.AddressNotAvailable,
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
.WSAEFAULT => unreachable, // invalid pointers
.WSAEINVAL => return error.AlreadyBound,
.WSAENOBUFS => return error.SystemResources,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
else => |err| return windows.unexpectedWSAError(err),
}
unreachable;
}
return;
} else {
const rc = system.bind(sock, addr, len);
switch (errno(rc)) {
.SUCCESS => return,
.ACCES, .PERM => return error.AccessDenied,
.ADDRINUSE => return error.AddressInUse,
.BADF => unreachable, // always a race condition if this error is returned
.INVAL => unreachable, // invalid parameters
.NOTSOCK => unreachable, // invalid `sockfd`
.AFNOSUPPORT => return error.AddressFamilyNotSupported,
.ADDRNOTAVAIL => return error.AddressNotAvailable,
.FAULT => unreachable, // invalid `addr` pointer
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOTDIR => return error.NotDir,
.ROFS => return error.ReadOnlyFileSystem,
else => |err| return unexpectedErrno(err),
}
}
unreachable;
}
pub const ListenError = error{
/// Another socket is already listening on the same port.
/// For Internet domain sockets, the socket referred to by sockfd had not previously
/// been bound to an address and, upon attempting to bind it to an ephemeral port, it
/// was determined that all port numbers in the ephemeral port range are currently in
/// use. See the discussion of /proc/sys/net/ipv4/ip_local_port_range in ip(7).
AddressInUse,
/// The file descriptor sockfd does not refer to a socket.
FileDescriptorNotASocket,
/// The socket is not of a type that supports the listen() operation.
OperationNotSupported,
/// The network subsystem has failed.
NetworkSubsystemFailed,
/// Ran out of system resources
/// On Windows it can either run out of socket descriptors or buffer space
SystemResources,
/// Already connected
AlreadyConnected,
/// Socket has not been bound yet
SocketNotBound,
} || UnexpectedError;
pub fn listen(sock: socket_t, backlog: u31) ListenError!void {
if (native_os == .windows) {
const rc = windows.listen(sock, backlog);
if (rc == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable, // not initialized WSA
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAEADDRINUSE => return error.AddressInUse,
.WSAEISCONN => return error.AlreadyConnected,
.WSAEINVAL => return error.SocketNotBound,
.WSAEMFILE, .WSAENOBUFS => return error.SystemResources,
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
.WSAEOPNOTSUPP => return error.OperationNotSupported,
.WSAEINPROGRESS => unreachable,
else => |err| return windows.unexpectedWSAError(err),
}
}
return;
} else {
const rc = system.listen(sock, backlog);
switch (errno(rc)) {
.SUCCESS => return,
.ADDRINUSE => return error.AddressInUse,
.BADF => unreachable,
.NOTSOCK => return error.FileDescriptorNotASocket,
.OPNOTSUPP => return error.OperationNotSupported,
else => |err| return unexpectedErrno(err),
}
}
}
pub const AcceptError = error{
ConnectionAborted,
/// The file descriptor sockfd does not refer to a socket.
FileDescriptorNotASocket,
/// The per-process limit on the number of open file descriptors has been reached.
ProcessFdQuotaExceeded,
/// The system-wide limit on the total number of open files has been reached.
SystemFdQuotaExceeded,
/// Not enough free memory. This often means that the memory allocation is limited
/// by the socket buffer limits, not by the system memory.
SystemResources,
/// Socket is not listening for new connections.
SocketNotListening,
ProtocolFailure,
/// Firewall rules forbid connection.
BlockedByFirewall,
/// This error occurs when no global event loop is configured,
/// and accepting from the socket would block.
WouldBlock,
/// An incoming connection was indicated, but was subsequently terminated by the
/// remote peer prior to accepting the call.
ConnectionResetByPeer,
/// The network subsystem has failed.
NetworkSubsystemFailed,
/// The referenced socket is not a type that supports connection-oriented service.
OperationNotSupported,
} || UnexpectedError;
/// Accept a connection on a socket.
/// If `sockfd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
pub fn accept(
/// This argument is a socket that has been created with `socket`, bound to a local address
/// with `bind`, and is listening for connections after a `listen`.
sock: socket_t,
/// This argument is a pointer to a sockaddr structure. This structure is filled in with the
/// address of the peer socket, as known to the communications layer. The exact format of the
/// address returned addr is determined by the socket's address family (see `socket` and the
/// respective protocol man pages).
addr: ?*sockaddr,
/// This argument is a value-result argument: the caller must initialize it to contain the
/// size (in bytes) of the structure pointed to by addr; on return it will contain the actual size
/// of the peer address.
///
/// The returned address is truncated if the buffer provided is too small; in this case, `addr_size`
/// will return a value greater than was supplied to the call.
addr_size: ?*socklen_t,
/// The following values can be bitwise ORed in flags to obtain different behavior:
/// * `SOCK.NONBLOCK` - Set the `NONBLOCK` file status flag on the open file description (see `open`)
/// referred to by the new file descriptor. Using this flag saves extra calls to `fcntl` to achieve
/// the same result.
/// * `SOCK.CLOEXEC` - Set the close-on-exec (`FD_CLOEXEC`) flag on the new file descriptor. See the
/// description of the `CLOEXEC` flag in `open` for reasons why this may be useful.
flags: u32,
) AcceptError!socket_t {
const have_accept4 = !(builtin.target.isDarwin() or native_os == .windows or native_os == .haiku);
assert(0 == (flags & ~@as(u32, SOCK.NONBLOCK | SOCK.CLOEXEC))); // Unsupported flag(s)
const accepted_sock: socket_t = while (true) {
const rc = if (have_accept4)
system.accept4(sock, addr, addr_size, flags)
else if (native_os == .windows)
windows.accept(sock, addr, addr_size)
else
system.accept(sock, addr, addr_size);
if (native_os == .windows) {
if (rc == windows.ws2_32.INVALID_SOCKET) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable, // not initialized WSA
.WSAECONNRESET => return error.ConnectionResetByPeer,
.WSAEFAULT => unreachable,
.WSAEINVAL => return error.SocketNotListening,
.WSAEMFILE => return error.ProcessFdQuotaExceeded,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAENOBUFS => return error.FileDescriptorNotASocket,
.WSAEOPNOTSUPP => return error.OperationNotSupported,
.WSAEWOULDBLOCK => return error.WouldBlock,
else => |err| return windows.unexpectedWSAError(err),
}
} else {
break rc;
}
} else {
switch (errno(rc)) {
.SUCCESS => break @intCast(rc),
.INTR => continue,
.AGAIN => return error.WouldBlock,
.BADF => unreachable, // always a race condition
.CONNABORTED => return error.ConnectionAborted,
.FAULT => unreachable,
.INVAL => return error.SocketNotListening,
.NOTSOCK => unreachable,
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.OPNOTSUPP => unreachable,
.PROTO => return error.ProtocolFailure,
.PERM => return error.BlockedByFirewall,
else => |err| return unexpectedErrno(err),
}
}
};
errdefer switch (native_os) {
.windows => windows.closesocket(accepted_sock) catch unreachable,
else => close(accepted_sock),
};
if (!have_accept4) {
try setSockFlags(accepted_sock, flags);
}
return accepted_sock;
}
fn setSockFlags(sock: socket_t, flags: u32) !void {
if ((flags & SOCK.CLOEXEC) != 0) {
if (native_os == .windows) {
// TODO: Find out if this is supported for sockets
} else {
var fd_flags = fcntl(sock, F.GETFD, 0) catch |err| switch (err) {
error.FileBusy => unreachable,
error.Locked => unreachable,
error.PermissionDenied => unreachable,
error.DeadLock => unreachable,
error.LockedRegionLimitExceeded => unreachable,
else => |e| return e,
};
fd_flags |= FD_CLOEXEC;
_ = fcntl(sock, F.SETFD, fd_flags) catch |err| switch (err) {
error.FileBusy => unreachable,
error.Locked => unreachable,
error.PermissionDenied => unreachable,
error.DeadLock => unreachable,
error.LockedRegionLimitExceeded => unreachable,
else => |e| return e,
};
}
}
if ((flags & SOCK.NONBLOCK) != 0) {
if (native_os == .windows) {
var mode: c_ulong = 1;
if (windows.ws2_32.ioctlsocket(sock, windows.ws2_32.FIONBIO, &mode) == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
// TODO: handle more errors
else => |err| return windows.unexpectedWSAError(err),
}
}
} else {
var fl_flags = fcntl(sock, F.GETFL, 0) catch |err| switch (err) {
error.FileBusy => unreachable,
error.Locked => unreachable,
error.PermissionDenied => unreachable,
error.DeadLock => unreachable,
error.LockedRegionLimitExceeded => unreachable,
else => |e| return e,
};
fl_flags |= 1 << @bitOffsetOf(O, "NONBLOCK");
_ = fcntl(sock, F.SETFL, fl_flags) catch |err| switch (err) {
error.FileBusy => unreachable,
error.Locked => unreachable,
error.PermissionDenied => unreachable,
error.DeadLock => unreachable,
error.LockedRegionLimitExceeded => unreachable,
else => |e| return e,
};
}
}
}
pub const EpollCreateError = error{
/// The per-user limit on the number of epoll instances imposed by
/// /proc/sys/fs/epoll/max_user_instances was encountered. See epoll(7) for further
/// details.
/// Or, The per-process limit on the number of open file descriptors has been reached.
ProcessFdQuotaExceeded,
/// The system-wide limit on the total number of open files has been reached.
SystemFdQuotaExceeded,
/// There was insufficient memory to create the kernel object.
SystemResources,
} || UnexpectedError;
pub fn epoll_create1(flags: u32) EpollCreateError!i32 {
const rc = system.epoll_create1(flags);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
else => |err| return unexpectedErrno(err),
.INVAL => unreachable,
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NOMEM => return error.SystemResources,
}
}
pub const EpollCtlError = error{
/// op was EPOLL_CTL_ADD, and the supplied file descriptor fd is already registered
/// with this epoll instance.
FileDescriptorAlreadyPresentInSet,
/// fd refers to an epoll instance and this EPOLL_CTL_ADD operation would result in a
/// circular loop of epoll instances monitoring one another.
OperationCausesCircularLoop,
/// op was EPOLL_CTL_MOD or EPOLL_CTL_DEL, and fd is not registered with this epoll
/// instance.
FileDescriptorNotRegistered,
/// There was insufficient memory to handle the requested op control operation.
SystemResources,
/// The limit imposed by /proc/sys/fs/epoll/max_user_watches was encountered while
/// trying to register (EPOLL_CTL_ADD) a new file descriptor on an epoll instance.
/// See epoll(7) for further details.
UserResourceLimitReached,
/// The target file fd does not support epoll. This error can occur if fd refers to,
/// for example, a regular file or a directory.
FileDescriptorIncompatibleWithEpoll,
} || UnexpectedError;
pub fn epoll_ctl(epfd: i32, op: u32, fd: i32, event: ?*system.epoll_event) EpollCtlError!void {
const rc = system.epoll_ctl(epfd, op, fd, event);
switch (errno(rc)) {
.SUCCESS => return,
else => |err| return unexpectedErrno(err),
.BADF => unreachable, // always a race condition if this happens
.EXIST => return error.FileDescriptorAlreadyPresentInSet,
.INVAL => unreachable,
.LOOP => return error.OperationCausesCircularLoop,
.NOENT => return error.FileDescriptorNotRegistered,
.NOMEM => return error.SystemResources,
.NOSPC => return error.UserResourceLimitReached,
.PERM => return error.FileDescriptorIncompatibleWithEpoll,
}
}
/// Waits for an I/O event on an epoll file descriptor.
/// Returns the number of file descriptors ready for the requested I/O,
/// or zero if no file descriptor became ready during the requested timeout milliseconds.
pub fn epoll_wait(epfd: i32, events: []system.epoll_event, timeout: i32) usize {
while (true) {
// TODO get rid of the @intCast
const rc = system.epoll_wait(epfd, events.ptr, @intCast(events.len), timeout);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.BADF => unreachable,
.FAULT => unreachable,
.INVAL => unreachable,
else => unreachable,
}
}
}
pub const EventFdError = error{
SystemResources,
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
} || UnexpectedError;
pub fn eventfd(initval: u32, flags: u32) EventFdError!i32 {
const rc = system.eventfd(initval, flags);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
else => |err| return unexpectedErrno(err),
.INVAL => unreachable, // invalid parameters
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NODEV => return error.SystemResources,
.NOMEM => return error.SystemResources,
}
}
pub const GetSockNameError = error{
/// Insufficient resources were available in the system to perform the operation.
SystemResources,
/// The network subsystem has failed.
NetworkSubsystemFailed,
/// Socket hasn't been bound yet
SocketNotBound,
FileDescriptorNotASocket,
} || UnexpectedError;
pub fn getsockname(sock: socket_t, addr: *sockaddr, addrlen: *socklen_t) GetSockNameError!void {
if (native_os == .windows) {
const rc = windows.getsockname(sock, addr, addrlen);
if (rc == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAEFAULT => unreachable, // addr or addrlen have invalid pointers or addrlen points to an incorrect value
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
.WSAEINVAL => return error.SocketNotBound,
else => |err| return windows.unexpectedWSAError(err),
}
}
return;
} else {
const rc = system.getsockname(sock, addr, addrlen);
switch (errno(rc)) {
.SUCCESS => return,
else => |err| return unexpectedErrno(err),
.BADF => unreachable, // always a race condition
.FAULT => unreachable,
.INVAL => unreachable, // invalid parameters
.NOTSOCK => return error.FileDescriptorNotASocket,
.NOBUFS => return error.SystemResources,
}
}
}
pub fn getpeername(sock: socket_t, addr: *sockaddr, addrlen: *socklen_t) GetSockNameError!void {
if (native_os == .windows) {
const rc = windows.getpeername(sock, addr, addrlen);
if (rc == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAEFAULT => unreachable, // addr or addrlen have invalid pointers or addrlen points to an incorrect value
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
.WSAEINVAL => return error.SocketNotBound,
else => |err| return windows.unexpectedWSAError(err),
}
}
return;
} else {
const rc = system.getpeername(sock, addr, addrlen);
switch (errno(rc)) {
.SUCCESS => return,
else => |err| return unexpectedErrno(err),
.BADF => unreachable, // always a race condition
.FAULT => unreachable,
.INVAL => unreachable, // invalid parameters
.NOTSOCK => return error.FileDescriptorNotASocket,
.NOBUFS => return error.SystemResources,
}
}
}
pub const ConnectError = error{
/// For UNIX domain sockets, which are identified by pathname: Write permission is denied on the socket
/// file, or search permission is denied for one of the directories in the path prefix.
/// or
/// The user tried to connect to a broadcast address without having the socket broadcast flag enabled or
/// the connection request failed because of a local firewall rule.
PermissionDenied,
/// Local address is already in use.
AddressInUse,
/// (Internet domain sockets) The socket referred to by sockfd had not previously been bound to an
/// address and, upon attempting to bind it to an ephemeral port, it was determined that all port numbers
/// in the ephemeral port range are currently in use. See the discussion of
/// /proc/sys/net/ipv4/ip_local_port_range in ip(7).
AddressNotAvailable,
/// The passed address didn't have the correct address family in its sa_family field.
AddressFamilyNotSupported,
/// Insufficient entries in the routing cache.
SystemResources,
/// A connect() on a stream socket found no one listening on the remote address.
ConnectionRefused,
/// Network is unreachable.
NetworkUnreachable,
/// Timeout while attempting connection. The server may be too busy to accept new connections. Note
/// that for IP sockets the timeout may be very long when syncookies are enabled on the server.
ConnectionTimedOut,
/// This error occurs when no global event loop is configured,
/// and connecting to the socket would block.
WouldBlock,
/// The given path for the unix socket does not exist.
FileNotFound,
/// Connection was reset by peer before connect could complete.
ConnectionResetByPeer,
/// Socket is non-blocking and already has a pending connection in progress.
ConnectionPending,
} || UnexpectedError;
/// Initiate a connection on a socket.
/// If `sockfd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN or EINPROGRESS is received.
pub fn connect(sock: socket_t, sock_addr: *const sockaddr, len: socklen_t) ConnectError!void {
if (native_os == .windows) {
const rc = windows.ws2_32.connect(sock, sock_addr, @intCast(len));
if (rc == 0) return;
switch (windows.ws2_32.WSAGetLastError()) {
.WSAEADDRINUSE => return error.AddressInUse,
.WSAEADDRNOTAVAIL => return error.AddressNotAvailable,
.WSAECONNREFUSED => return error.ConnectionRefused,
.WSAECONNRESET => return error.ConnectionResetByPeer,
.WSAETIMEDOUT => return error.ConnectionTimedOut,
.WSAEHOSTUNREACH, // TODO: should we return NetworkUnreachable in this case as well?
.WSAENETUNREACH,
=> return error.NetworkUnreachable,
.WSAEFAULT => unreachable,
.WSAEINVAL => unreachable,
.WSAEISCONN => unreachable,
.WSAENOTSOCK => unreachable,
.WSAEWOULDBLOCK => return error.WouldBlock,
.WSAEACCES => unreachable,
.WSAENOBUFS => return error.SystemResources,
.WSAEAFNOSUPPORT => return error.AddressFamilyNotSupported,
else => |err| return windows.unexpectedWSAError(err),
}
return;
}
while (true) {
switch (errno(system.connect(sock, sock_addr, len))) {
.SUCCESS => return,
.ACCES => return error.PermissionDenied,
.PERM => return error.PermissionDenied,
.ADDRINUSE => return error.AddressInUse,
.ADDRNOTAVAIL => return error.AddressNotAvailable,
.AFNOSUPPORT => return error.AddressFamilyNotSupported,
.AGAIN, .INPROGRESS => return error.WouldBlock,
.ALREADY => return error.ConnectionPending,
.BADF => unreachable, // sockfd is not a valid open file descriptor.
.CONNREFUSED => return error.ConnectionRefused,
.CONNRESET => return error.ConnectionResetByPeer,
.FAULT => unreachable, // The socket structure address is outside the user's address space.
.INTR => continue,
.ISCONN => unreachable, // The socket is already connected.
.HOSTUNREACH => return error.NetworkUnreachable,
.NETUNREACH => return error.NetworkUnreachable,
.NOTSOCK => unreachable, // The file descriptor sockfd does not refer to a socket.
.PROTOTYPE => unreachable, // The socket type does not support the requested communications protocol.
.TIMEDOUT => return error.ConnectionTimedOut,
.NOENT => return error.FileNotFound, // Returned when socket is AF.UNIX and the given path does not exist.
.CONNABORTED => unreachable, // Tried to reuse socket that previously received error.ConnectionRefused.
else => |err| return unexpectedErrno(err),
}
}
}
pub fn getsockoptError(sockfd: fd_t) ConnectError!void {
var err_code: i32 = undefined;
var size: u32 = @sizeOf(u32);
const rc = system.getsockopt(sockfd, SOL.SOCKET, SO.ERROR, @ptrCast(&err_code), &size);
assert(size == 4);
switch (errno(rc)) {
.SUCCESS => switch (@as(E, @enumFromInt(err_code))) {
.SUCCESS => return,
.ACCES => return error.PermissionDenied,
.PERM => return error.PermissionDenied,
.ADDRINUSE => return error.AddressInUse,
.ADDRNOTAVAIL => return error.AddressNotAvailable,
.AFNOSUPPORT => return error.AddressFamilyNotSupported,
.AGAIN => return error.SystemResources,
.ALREADY => return error.ConnectionPending,
.BADF => unreachable, // sockfd is not a valid open file descriptor.
.CONNREFUSED => return error.ConnectionRefused,
.FAULT => unreachable, // The socket structure address is outside the user's address space.
.ISCONN => unreachable, // The socket is already connected.
.HOSTUNREACH => return error.NetworkUnreachable,
.NETUNREACH => return error.NetworkUnreachable,
.NOTSOCK => unreachable, // The file descriptor sockfd does not refer to a socket.
.PROTOTYPE => unreachable, // The socket type does not support the requested communications protocol.
.TIMEDOUT => return error.ConnectionTimedOut,
.CONNRESET => return error.ConnectionResetByPeer,
else => |err| return unexpectedErrno(err),
},
.BADF => unreachable, // The argument sockfd is not a valid file descriptor.
.FAULT => unreachable, // The address pointed to by optval or optlen is not in a valid part of the process address space.
.INVAL => unreachable,
.NOPROTOOPT => unreachable, // The option is unknown at the level indicated.
.NOTSOCK => unreachable, // The file descriptor sockfd does not refer to a socket.
else => |err| return unexpectedErrno(err),
}
}
pub const WaitPidResult = struct {
pid: pid_t,
status: u32,
};
/// Use this version of the `waitpid` wrapper if you spawned your child process using explicit
/// `fork` and `execve` method.
pub fn waitpid(pid: pid_t, flags: u32) WaitPidResult {
var status: if (builtin.link_libc) c_int else u32 = undefined;
while (true) {
const rc = system.waitpid(pid, &status, @intCast(flags));
switch (errno(rc)) {
.SUCCESS => return .{
.pid = @intCast(rc),
.status = @bitCast(status),
},
.INTR => continue,
.CHILD => unreachable, // The process specified does not exist. It would be a race condition to handle this error.
.INVAL => unreachable, // Invalid flags.
else => unreachable,
}
}
}
pub fn wait4(pid: pid_t, flags: u32, ru: ?*rusage) WaitPidResult {
var status: if (builtin.link_libc) c_int else u32 = undefined;
while (true) {
const rc = system.wait4(pid, &status, @intCast(flags), ru);
switch (errno(rc)) {
.SUCCESS => return .{
.pid = @intCast(rc),
.status = @bitCast(status),
},
.INTR => continue,
.CHILD => unreachable, // The process specified does not exist. It would be a race condition to handle this error.
.INVAL => unreachable, // Invalid flags.
else => unreachable,
}
}
}
pub const FStatError = error{
SystemResources,
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to get its filestat information.
AccessDenied,
} || UnexpectedError;
/// Return information about a file descriptor.
pub fn fstat(fd: fd_t) FStatError!Stat {
if (native_os == .wasi and !builtin.link_libc) {
return Stat.fromFilestat(try std.os.fstat_wasi(fd));
}
if (native_os == .windows) {
@compileError("fstat is not yet implemented on Windows");
}
const fstat_sym = if (lfs64_abi) system.fstat64 else system.fstat;
var stat = mem.zeroes(Stat);
switch (errno(fstat_sym(fd, &stat))) {
.SUCCESS => return stat,
.INVAL => unreachable,
.BADF => unreachable, // Always a race condition.
.NOMEM => return error.SystemResources,
.ACCES => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
pub const FStatAtError = FStatError || error{
NameTooLong,
FileNotFound,
SymLinkLoop,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
};
/// Similar to `fstat`, but returns stat of a resource pointed to by `pathname`
/// which is relative to `dirfd` handle.
/// On WASI, `pathname` should be encoded as valid UTF-8.
/// On other platforms, `pathname` is an opaque sequence of bytes with no particular encoding.
/// See also `fstatatZ` and `std.os.fstatat_wasi`.
pub fn fstatat(dirfd: fd_t, pathname: []const u8, flags: u32) FStatAtError!Stat {
if (native_os == .wasi and !builtin.link_libc) {
const filestat = try std.os.fstatat_wasi(dirfd, pathname, .{
.SYMLINK_FOLLOW = (flags & AT.SYMLINK_NOFOLLOW) == 0,
});
return Stat.fromFilestat(filestat);
} else if (native_os == .windows) {
@compileError("fstatat is not yet implemented on Windows");
} else {
const pathname_c = try toPosixPath(pathname);
return fstatatZ(dirfd, &pathname_c, flags);
}
}
/// Same as `fstatat` but `pathname` is null-terminated.
/// See also `fstatat`.
pub fn fstatatZ(dirfd: fd_t, pathname: [*:0]const u8, flags: u32) FStatAtError!Stat {
if (native_os == .wasi and !builtin.link_libc) {
const filestat = try std.os.fstatat_wasi(dirfd, mem.sliceTo(pathname, 0), .{
.SYMLINK_FOLLOW = (flags & AT.SYMLINK_NOFOLLOW) == 0,
});
return Stat.fromFilestat(filestat);
}
const fstatat_sym = if (lfs64_abi) system.fstatat64 else system.fstatat;
var stat = mem.zeroes(Stat);
switch (errno(fstatat_sym(dirfd, pathname, &stat, flags))) {
.SUCCESS => return stat,
.INVAL => unreachable,
.BADF => unreachable, // Always a race condition.
.NOMEM => return error.SystemResources,
.ACCES => return error.AccessDenied,
.PERM => return error.AccessDenied,
.FAULT => unreachable,
.NAMETOOLONG => return error.NameTooLong,
.LOOP => return error.SymLinkLoop,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.FileNotFound,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
pub const KQueueError = error{
/// The per-process limit on the number of open file descriptors has been reached.
ProcessFdQuotaExceeded,
/// The system-wide limit on the total number of open files has been reached.
SystemFdQuotaExceeded,
} || UnexpectedError;
pub fn kqueue() KQueueError!i32 {
const rc = system.kqueue();
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
else => |err| return unexpectedErrno(err),
}
}
pub const KEventError = error{
/// The process does not have permission to register a filter.
AccessDenied,
/// The event could not be found to be modified or deleted.
EventNotFound,
/// No memory was available to register the event.
SystemResources,
/// The specified process to attach to does not exist.
ProcessNotFound,
/// changelist or eventlist had too many items on it.
/// TODO remove this possibility
Overflow,
};
pub fn kevent(
kq: i32,
changelist: []const Kevent,
eventlist: []Kevent,
timeout: ?*const timespec,
) KEventError!usize {
while (true) {
const rc = system.kevent(
kq,
changelist.ptr,
cast(c_int, changelist.len) orelse return error.Overflow,
eventlist.ptr,
cast(c_int, eventlist.len) orelse return error.Overflow,
timeout,
);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.ACCES => return error.AccessDenied,
.FAULT => unreachable,
.BADF => unreachable, // Always a race condition.
.INTR => continue,
.INVAL => unreachable,
.NOENT => return error.EventNotFound,
.NOMEM => return error.SystemResources,
.SRCH => return error.ProcessNotFound,
else => unreachable,
}
}
}
pub const INotifyInitError = error{
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
SystemResources,
} || UnexpectedError;
/// initialize an inotify instance
pub fn inotify_init1(flags: u32) INotifyInitError!i32 {
const rc = system.inotify_init1(flags);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INVAL => unreachable,
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NOMEM => return error.SystemResources,
else => |err| return unexpectedErrno(err),
}
}
pub const INotifyAddWatchError = error{
AccessDenied,
NameTooLong,
FileNotFound,
SystemResources,
UserResourceLimitReached,
NotDir,
WatchAlreadyExists,
} || UnexpectedError;
/// add a watch to an initialized inotify instance
pub fn inotify_add_watch(inotify_fd: i32, pathname: []const u8, mask: u32) INotifyAddWatchError!i32 {
const pathname_c = try toPosixPath(pathname);
return inotify_add_watchZ(inotify_fd, &pathname_c, mask);
}
/// Same as `inotify_add_watch` except pathname is null-terminated.
pub fn inotify_add_watchZ(inotify_fd: i32, pathname: [*:0]const u8, mask: u32) INotifyAddWatchError!i32 {
const rc = system.inotify_add_watch(inotify_fd, pathname, mask);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.ACCES => return error.AccessDenied,
.BADF => unreachable,
.FAULT => unreachable,
.INVAL => unreachable,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.UserResourceLimitReached,
.NOTDIR => return error.NotDir,
.EXIST => return error.WatchAlreadyExists,
else => |err| return unexpectedErrno(err),
}
}
/// remove an existing watch from an inotify instance
pub fn inotify_rm_watch(inotify_fd: i32, wd: i32) void {
switch (errno(system.inotify_rm_watch(inotify_fd, wd))) {
.SUCCESS => return,
.BADF => unreachable,
.INVAL => unreachable,
else => unreachable,
}
}
pub const FanotifyInitError = error{
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
SystemResources,
PermissionDenied,
} || UnexpectedError;
pub fn fanotify_init(flags: std.os.linux.fanotify.InitFlags, event_f_flags: u32) FanotifyInitError!i32 {
const rc = system.fanotify_init(flags, event_f_flags);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INVAL => unreachable,
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NOMEM => return error.SystemResources,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub const FanotifyMarkError = error{
MarkAlreadyExists,
IsDir,
NotAssociatedWithFileSystem,
FileNotFound,
SystemResources,
UserMarkQuotaExceeded,
NotDir,
OperationNotSupported,
PermissionDenied,
NotSameFileSystem,
NameTooLong,
} || UnexpectedError;
pub fn fanotify_mark(
fanotify_fd: fd_t,
flags: std.os.linux.fanotify.MarkFlags,
mask: std.os.linux.fanotify.MarkMask,
dirfd: fd_t,
pathname: ?[]const u8,
) FanotifyMarkError!void {
if (pathname) |path| {
const path_c = try toPosixPath(path);
return fanotify_markZ(fanotify_fd, flags, mask, dirfd, &path_c);
} else {
return fanotify_markZ(fanotify_fd, flags, mask, dirfd, null);
}
}
pub fn fanotify_markZ(
fanotify_fd: fd_t,
flags: std.os.linux.fanotify.MarkFlags,
mask: std.os.linux.fanotify.MarkMask,
dirfd: fd_t,
pathname: ?[*:0]const u8,
) FanotifyMarkError!void {
const rc = system.fanotify_mark(fanotify_fd, flags, mask, dirfd, pathname);
switch (errno(rc)) {
.SUCCESS => return,
.BADF => unreachable,
.EXIST => return error.MarkAlreadyExists,
.INVAL => unreachable,
.ISDIR => return error.IsDir,
.NODEV => return error.NotAssociatedWithFileSystem,
.NOENT => return error.FileNotFound,
.NOMEM => return error.SystemResources,
.NOSPC => return error.UserMarkQuotaExceeded,
.NOTDIR => return error.NotDir,
.OPNOTSUPP => return error.OperationNotSupported,
.PERM => return error.PermissionDenied,
.XDEV => return error.NotSameFileSystem,
else => |err| return unexpectedErrno(err),
}
}
pub const MProtectError = error{
/// The memory cannot be given the specified access. This can happen, for example, if you
/// mmap(2) a file to which you have read-only access, then ask mprotect() to mark it
/// PROT_WRITE.
AccessDenied,
/// Changing the protection of a memory region would result in the total number of map
/// pings with distinct attributes (e.g., read versus read/write protection) exceeding the
/// allowed maximum. (For example, making the protection of a range PROT_READ in the mid
/// dle of a region currently protected as PROT_READ|PROT_WRITE would result in three map
/// pings: two read/write mappings at each end and a read-only mapping in the middle.)
OutOfMemory,
} || UnexpectedError;
/// `memory.len` must be page-aligned.
pub fn mprotect(memory: []align(mem.page_size) u8, protection: u32) MProtectError!void {
assert(mem.isAligned(memory.len, mem.page_size));
if (native_os == .windows) {
const win_prot: windows.DWORD = switch (@as(u3, @truncate(protection))) {
0b000 => windows.PAGE_NOACCESS,
0b001 => windows.PAGE_READONLY,
0b010 => unreachable, // +w -r not allowed
0b011 => windows.PAGE_READWRITE,
0b100 => windows.PAGE_EXECUTE,
0b101 => windows.PAGE_EXECUTE_READ,
0b110 => unreachable, // +w -r not allowed
0b111 => windows.PAGE_EXECUTE_READWRITE,
};
var old: windows.DWORD = undefined;
windows.VirtualProtect(memory.ptr, memory.len, win_prot, &old) catch |err| switch (err) {
error.InvalidAddress => return error.AccessDenied,
error.Unexpected => return error.Unexpected,
};
} else {
switch (errno(system.mprotect(memory.ptr, memory.len, protection))) {
.SUCCESS => return,
.INVAL => unreachable,
.ACCES => return error.AccessDenied,
.NOMEM => return error.OutOfMemory,
else => |err| return unexpectedErrno(err),
}
}
}
pub const ForkError = error{SystemResources} || UnexpectedError;
pub fn fork() ForkError!pid_t {
const rc = system.fork();
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.AGAIN => return error.SystemResources,
.NOMEM => return error.SystemResources,
else => |err| return unexpectedErrno(err),
}
}
pub const MMapError = error{
/// The underlying filesystem of the specified file does not support memory mapping.
MemoryMappingNotSupported,
/// A file descriptor refers to a non-regular file. Or a file mapping was requested,
/// but the file descriptor is not open for reading. Or `MAP.SHARED` was requested
/// and `PROT_WRITE` is set, but the file descriptor is not open in `RDWR` mode.
/// Or `PROT_WRITE` is set, but the file is append-only.
AccessDenied,
/// The `prot` argument asks for `PROT_EXEC` but the mapped area belongs to a file on
/// a filesystem that was mounted no-exec.
PermissionDenied,
LockedMemoryLimitExceeded,
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
OutOfMemory,
} || UnexpectedError;
/// Map files or devices into memory.
/// `length` does not need to be aligned.
/// Use of a mapped region can result in these signals:
/// * SIGSEGV - Attempted write into a region mapped as read-only.
/// * SIGBUS - Attempted access to a portion of the buffer that does not correspond to the file
pub fn mmap(
ptr: ?[*]align(mem.page_size) u8,
length: usize,
prot: u32,
flags: system.MAP,
fd: fd_t,
offset: u64,
) MMapError![]align(mem.page_size) u8 {
const mmap_sym = if (lfs64_abi) system.mmap64 else system.mmap;
const rc = mmap_sym(ptr, length, prot, @bitCast(flags), fd, @bitCast(offset));
const err: E = if (builtin.link_libc) blk: {
if (rc != std.c.MAP_FAILED) return @as([*]align(mem.page_size) u8, @ptrCast(@alignCast(rc)))[0..length];
break :blk @enumFromInt(system._errno().*);
} else blk: {
const err = errno(rc);
if (err == .SUCCESS) return @as([*]align(mem.page_size) u8, @ptrFromInt(rc))[0..length];
break :blk err;
};
switch (err) {
.SUCCESS => unreachable,
.TXTBSY => return error.AccessDenied,
.ACCES => return error.AccessDenied,
.PERM => return error.PermissionDenied,
.AGAIN => return error.LockedMemoryLimitExceeded,
.BADF => unreachable, // Always a race condition.
.OVERFLOW => unreachable, // The number of pages used for length + offset would overflow.
.NODEV => return error.MemoryMappingNotSupported,
.INVAL => unreachable, // Invalid parameters to mmap()
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NOMEM => return error.OutOfMemory,
else => return unexpectedErrno(err),
}
}
/// Deletes the mappings for the specified address range, causing
/// further references to addresses within the range to generate invalid memory references.
/// Note that while POSIX allows unmapping a region in the middle of an existing mapping,
/// Zig's munmap function does not, for two reasons:
/// * It violates the Zig principle that resource deallocation must succeed.
/// * The Windows function, VirtualFree, has this restriction.
pub fn munmap(memory: []align(mem.page_size) const u8) void {
switch (errno(system.munmap(memory.ptr, memory.len))) {
.SUCCESS => return,
.INVAL => unreachable, // Invalid parameters.
.NOMEM => unreachable, // Attempted to unmap a region in the middle of an existing mapping.
else => unreachable,
}
}
pub const MSyncError = error{
UnmappedMemory,
} || UnexpectedError;
pub fn msync(memory: []align(mem.page_size) u8, flags: i32) MSyncError!void {
switch (errno(system.msync(memory.ptr, memory.len, flags))) {
.SUCCESS => return,
.NOMEM => return error.UnmappedMemory, // Unsuccessful, provided pointer does not point mapped memory
.INVAL => unreachable, // Invalid parameters.
else => unreachable,
}
}
pub const AccessError = error{
PermissionDenied,
FileNotFound,
NameTooLong,
InputOutput,
SystemResources,
BadPathName,
FileBusy,
SymLinkLoop,
ReadOnlyFileSystem,
/// WASI-only; file paths must be valid UTF-8.
InvalidUtf8,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
} || UnexpectedError;
/// check user's permissions for a file
///
/// * On Windows, asserts `path` is valid [WTF-8](https://simonsapin.github.io/wtf-8/).
/// * On WASI, invalid UTF-8 passed to `path` causes `error.InvalidUtf8`.
/// * On other platforms, `path` is an opaque sequence of bytes with no particular encoding.
///
/// On Windows, `mode` is ignored. This is a POSIX API that is only partially supported by
/// Windows. See `fs` for the cross-platform file system API.
pub fn access(path: []const u8, mode: u32) AccessError!void {
if (native_os == .windows) {
const path_w = windows.sliceToPrefixedFileW(null, path) catch |err| switch (err) {
error.AccessDenied => return error.PermissionDenied,
else => |e| return e,
};
_ = try windows.GetFileAttributesW(path_w.span().ptr);
return;
} else if (native_os == .wasi and !builtin.link_libc) {
return faccessat(wasi.AT.FDCWD, path, mode, 0);
}
const path_c = try toPosixPath(path);
return accessZ(&path_c, mode);
}
/// Same as `access` except `path` is null-terminated.
pub fn accessZ(path: [*:0]const u8, mode: u32) AccessError!void {
if (native_os == .windows) {
const path_w = windows.cStrToPrefixedFileW(null, path) catch |err| switch (err) {
error.AccessDenied => return error.PermissionDenied,
else => |e| return e,
};
_ = try windows.GetFileAttributesW(path_w.span().ptr);
return;
} else if (native_os == .wasi and !builtin.link_libc) {
return access(mem.sliceTo(path, 0), mode);
}
switch (errno(system.access(path, mode))) {
.SUCCESS => return,
.ACCES => return error.PermissionDenied,
.ROFS => return error.ReadOnlyFileSystem,
.LOOP => return error.SymLinkLoop,
.TXTBSY => return error.FileBusy,
.NOTDIR => return error.FileNotFound,
.NOENT => return error.FileNotFound,
.NAMETOOLONG => return error.NameTooLong,
.INVAL => unreachable,
.FAULT => unreachable,
.IO => return error.InputOutput,
.NOMEM => return error.SystemResources,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Check user's permissions for a file, based on an open directory handle.
///
/// * On Windows, asserts `path` is valid [WTF-8](https://simonsapin.github.io/wtf-8/).
/// * On WASI, invalid UTF-8 passed to `path` causes `error.InvalidUtf8`.
/// * On other platforms, `path` is an opaque sequence of bytes with no particular encoding.
///
/// On Windows, `mode` is ignored. This is a POSIX API that is only partially supported by
/// Windows. See `fs` for the cross-platform file system API.
pub fn faccessat(dirfd: fd_t, path: []const u8, mode: u32, flags: u32) AccessError!void {
if (native_os == .windows) {
const path_w = try windows.sliceToPrefixedFileW(dirfd, path);
return faccessatW(dirfd, path_w.span().ptr);
} else if (native_os == .wasi and !builtin.link_libc) {
const resolved: RelativePathWasi = .{ .dir_fd = dirfd, .relative_path = path };
const st = blk: {
break :blk std.os.fstatat_wasi(dirfd, path, .{
.SYMLINK_FOLLOW = (flags & AT.SYMLINK_NOFOLLOW) == 0,
});
} catch |err| switch (err) {
error.AccessDenied => return error.PermissionDenied,
else => |e| return e,
};
if (mode != F_OK) {
var directory: wasi.fdstat_t = undefined;
if (wasi.fd_fdstat_get(resolved.dir_fd, &directory) != .SUCCESS) {
return error.PermissionDenied;
}
var rights: wasi.rights_t = .{};
if (mode & R_OK != 0) {
if (st.filetype == .DIRECTORY) {
rights.FD_READDIR = true;
} else {
rights.FD_READ = true;
}
}
if (mode & W_OK != 0) {
rights.FD_WRITE = true;
}
// No validation for X_OK
// https://github.com/ziglang/zig/issues/18882
const rights_int: u64 = @bitCast(rights);
const inheriting_int: u64 = @bitCast(directory.fs_rights_inheriting);
if ((rights_int & inheriting_int) != rights_int) {
return error.PermissionDenied;
}
}
return;
}
const path_c = try toPosixPath(path);
return faccessatZ(dirfd, &path_c, mode, flags);
}
/// Same as `faccessat` except the path parameter is null-terminated.
pub fn faccessatZ(dirfd: fd_t, path: [*:0]const u8, mode: u32, flags: u32) AccessError!void {
if (native_os == .windows) {
const path_w = try windows.cStrToPrefixedFileW(dirfd, path);
return faccessatW(dirfd, path_w.span().ptr);
} else if (native_os == .wasi and !builtin.link_libc) {
return faccessat(dirfd, mem.sliceTo(path, 0), mode, flags);
}
switch (errno(system.faccessat(dirfd, path, mode, flags))) {
.SUCCESS => return,
.ACCES => return error.PermissionDenied,
.ROFS => return error.ReadOnlyFileSystem,
.LOOP => return error.SymLinkLoop,
.TXTBSY => return error.FileBusy,
.NOTDIR => return error.FileNotFound,
.NOENT => return error.FileNotFound,
.NAMETOOLONG => return error.NameTooLong,
.INVAL => unreachable,
.FAULT => unreachable,
.IO => return error.InputOutput,
.NOMEM => return error.SystemResources,
.ILSEQ => |err| if (native_os == .wasi)
return error.InvalidUtf8
else
return unexpectedErrno(err),
else => |err| return unexpectedErrno(err),
}
}
/// Same as `faccessat` except asserts the target is Windows and the path parameter
/// is NtDll-prefixed, null-terminated, WTF-16 encoded.
pub fn faccessatW(dirfd: fd_t, sub_path_w: [*:0]const u16) AccessError!void {
if (sub_path_w[0] == '.' and sub_path_w[1] == 0) {
return;
}
if (sub_path_w[0] == '.' and sub_path_w[1] == '.' and sub_path_w[2] == 0) {
return;
}
const path_len_bytes = cast(u16, mem.sliceTo(sub_path_w, 0).len * 2) orelse return error.NameTooLong;
var nt_name = windows.UNICODE_STRING{
.Length = path_len_bytes,
.MaximumLength = path_len_bytes,
.Buffer = @constCast(sub_path_w),
};
var attr = windows.OBJECT_ATTRIBUTES{
.Length = @sizeOf(windows.OBJECT_ATTRIBUTES),
.RootDirectory = if (fs.path.isAbsoluteWindowsW(sub_path_w)) null else dirfd,
.Attributes = 0, // Note we do not use OBJ_CASE_INSENSITIVE here.
.ObjectName = &nt_name,
.SecurityDescriptor = null,
.SecurityQualityOfService = null,
};
var basic_info: windows.FILE_BASIC_INFORMATION = undefined;
switch (windows.ntdll.NtQueryAttributesFile(&attr, &basic_info)) {
.SUCCESS => return,
.OBJECT_NAME_NOT_FOUND => return error.FileNotFound,
.OBJECT_PATH_NOT_FOUND => return error.FileNotFound,
.OBJECT_NAME_INVALID => unreachable,
.INVALID_PARAMETER => unreachable,
.ACCESS_DENIED => return error.PermissionDenied,
.OBJECT_PATH_SYNTAX_BAD => unreachable,
else => |rc| return windows.unexpectedStatus(rc),
}
}
pub const PipeError = error{
SystemFdQuotaExceeded,
ProcessFdQuotaExceeded,
} || UnexpectedError;
/// Creates a unidirectional data channel that can be used for interprocess communication.
pub fn pipe() PipeError![2]fd_t {
var fds: [2]fd_t = undefined;
switch (errno(system.pipe(&fds))) {
.SUCCESS => return fds,
.INVAL => unreachable, // Invalid parameters to pipe()
.FAULT => unreachable, // Invalid fds pointer
.NFILE => return error.SystemFdQuotaExceeded,
.MFILE => return error.ProcessFdQuotaExceeded,
else => |err| return unexpectedErrno(err),
}
}
pub fn pipe2(flags: O) PipeError![2]fd_t {
if (@TypeOf(system.pipe2) != void) {
var fds: [2]fd_t = undefined;
switch (errno(system.pipe2(&fds, flags))) {
.SUCCESS => return fds,
.INVAL => unreachable, // Invalid flags
.FAULT => unreachable, // Invalid fds pointer
.NFILE => return error.SystemFdQuotaExceeded,
.MFILE => return error.ProcessFdQuotaExceeded,
else => |err| return unexpectedErrno(err),
}
}
const fds: [2]fd_t = try pipe();
errdefer {
close(fds[0]);
close(fds[1]);
}
// https://github.com/ziglang/zig/issues/18882
if (@as(u32, @bitCast(flags)) == 0)
return fds;
// CLOEXEC is special, it's a file descriptor flag and must be set using
// F.SETFD.
if (flags.CLOEXEC) {
for (fds) |fd| {
switch (errno(system.fcntl(fd, F.SETFD, @as(u32, FD_CLOEXEC)))) {
.SUCCESS => {},
.INVAL => unreachable, // Invalid flags
.BADF => unreachable, // Always a race condition
else => |err| return unexpectedErrno(err),
}
}
}
const new_flags: u32 = f: {
var new_flags = flags;
new_flags.CLOEXEC = false;
break :f @bitCast(new_flags);
};
// Set every other flag affecting the file status using F.SETFL.
if (new_flags != 0) {
for (fds) |fd| {
switch (errno(system.fcntl(fd, F.SETFL, new_flags))) {
.SUCCESS => {},
.INVAL => unreachable, // Invalid flags
.BADF => unreachable, // Always a race condition
else => |err| return unexpectedErrno(err),
}
}
}
return fds;
}
pub const SysCtlError = error{
PermissionDenied,
SystemResources,
NameTooLong,
UnknownName,
} || UnexpectedError;
pub fn sysctl(
name: []const c_int,
oldp: ?*anyopaque,
oldlenp: ?*usize,
newp: ?*anyopaque,
newlen: usize,
) SysCtlError!void {
if (native_os == .wasi) {
@panic("unsupported"); // TODO should be compile error, not panic
}
if (native_os == .haiku) {
@panic("unsupported"); // TODO should be compile error, not panic
}
const name_len = cast(c_uint, name.len) orelse return error.NameTooLong;
switch (errno(system.sysctl(name.ptr, name_len, oldp, oldlenp, newp, newlen))) {
.SUCCESS => return,
.FAULT => unreachable,
.PERM => return error.PermissionDenied,
.NOMEM => return error.SystemResources,
.NOENT => return error.UnknownName,
else => |err| return unexpectedErrno(err),
}
}
pub fn sysctlbynameZ(
name: [*:0]const u8,
oldp: ?*anyopaque,
oldlenp: ?*usize,
newp: ?*anyopaque,
newlen: usize,
) SysCtlError!void {
if (native_os == .wasi) {
@panic("unsupported"); // TODO should be compile error, not panic
}
if (native_os == .haiku) {
@panic("unsupported"); // TODO should be compile error, not panic
}
switch (errno(system.sysctlbyname(name, oldp, oldlenp, newp, newlen))) {
.SUCCESS => return,
.FAULT => unreachable,
.PERM => return error.PermissionDenied,
.NOMEM => return error.SystemResources,
.NOENT => return error.UnknownName,
else => |err| return unexpectedErrno(err),
}
}
pub fn gettimeofday(tv: ?*timeval, tz: ?*timezone) void {
switch (errno(system.gettimeofday(tv, tz))) {
.SUCCESS => return,
.INVAL => unreachable,
else => unreachable,
}
}
pub const SeekError = error{
Unseekable,
/// In WASI, this error may occur when the file descriptor does
/// not hold the required rights to seek on it.
AccessDenied,
} || UnexpectedError;
/// Repositions read/write file offset relative to the beginning.
pub fn lseek_SET(fd: fd_t, offset: u64) SeekError!void {
if (native_os == .linux and !builtin.link_libc and @sizeOf(usize) == 4) {
var result: u64 = undefined;
switch (errno(system.llseek(fd, offset, &result, SEEK.SET))) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
if (native_os == .windows) {
return windows.SetFilePointerEx_BEGIN(fd, offset);
}
if (native_os == .wasi and !builtin.link_libc) {
var new_offset: wasi.filesize_t = undefined;
switch (wasi.fd_seek(fd, @bitCast(offset), .SET, &new_offset)) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const lseek_sym = if (lfs64_abi) system.lseek64 else system.lseek;
switch (errno(lseek_sym(fd, @bitCast(offset), SEEK.SET))) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
/// Repositions read/write file offset relative to the current offset.
pub fn lseek_CUR(fd: fd_t, offset: i64) SeekError!void {
if (native_os == .linux and !builtin.link_libc and @sizeOf(usize) == 4) {
var result: u64 = undefined;
switch (errno(system.llseek(fd, @bitCast(offset), &result, SEEK.CUR))) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
if (native_os == .windows) {
return windows.SetFilePointerEx_CURRENT(fd, offset);
}
if (native_os == .wasi and !builtin.link_libc) {
var new_offset: wasi.filesize_t = undefined;
switch (wasi.fd_seek(fd, offset, .CUR, &new_offset)) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const lseek_sym = if (lfs64_abi) system.lseek64 else system.lseek;
switch (errno(lseek_sym(fd, @bitCast(offset), SEEK.CUR))) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
/// Repositions read/write file offset relative to the end.
pub fn lseek_END(fd: fd_t, offset: i64) SeekError!void {
if (native_os == .linux and !builtin.link_libc and @sizeOf(usize) == 4) {
var result: u64 = undefined;
switch (errno(system.llseek(fd, @bitCast(offset), &result, SEEK.END))) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
if (native_os == .windows) {
return windows.SetFilePointerEx_END(fd, offset);
}
if (native_os == .wasi and !builtin.link_libc) {
var new_offset: wasi.filesize_t = undefined;
switch (wasi.fd_seek(fd, offset, .END, &new_offset)) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const lseek_sym = if (lfs64_abi) system.lseek64 else system.lseek;
switch (errno(lseek_sym(fd, @bitCast(offset), SEEK.END))) {
.SUCCESS => return,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
/// Returns the read/write file offset relative to the beginning.
pub fn lseek_CUR_get(fd: fd_t) SeekError!u64 {
if (native_os == .linux and !builtin.link_libc and @sizeOf(usize) == 4) {
var result: u64 = undefined;
switch (errno(system.llseek(fd, 0, &result, SEEK.CUR))) {
.SUCCESS => return result,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
if (native_os == .windows) {
return windows.SetFilePointerEx_CURRENT_get(fd);
}
if (native_os == .wasi and !builtin.link_libc) {
var new_offset: wasi.filesize_t = undefined;
switch (wasi.fd_seek(fd, 0, .CUR, &new_offset)) {
.SUCCESS => return new_offset,
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
.NOTCAPABLE => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
}
}
const lseek_sym = if (lfs64_abi) system.lseek64 else system.lseek;
const rc = lseek_sym(fd, 0, SEEK.CUR);
switch (errno(rc)) {
.SUCCESS => return @bitCast(rc),
.BADF => unreachable, // always a race condition
.INVAL => return error.Unseekable,
.OVERFLOW => return error.Unseekable,
.SPIPE => return error.Unseekable,
.NXIO => return error.Unseekable,
else => |err| return unexpectedErrno(err),
}
}
pub const FcntlError = error{
PermissionDenied,
FileBusy,
ProcessFdQuotaExceeded,
Locked,
DeadLock,
LockedRegionLimitExceeded,
} || UnexpectedError;
pub fn fcntl(fd: fd_t, cmd: i32, arg: usize) FcntlError!usize {
while (true) {
const rc = system.fcntl(fd, cmd, arg);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.INTR => continue,
.AGAIN, .ACCES => return error.Locked,
.BADF => unreachable,
.BUSY => return error.FileBusy,
.INVAL => unreachable, // invalid parameters
.PERM => return error.PermissionDenied,
.MFILE => return error.ProcessFdQuotaExceeded,
.NOTDIR => unreachable, // invalid parameter
.DEADLK => return error.DeadLock,
.NOLCK => return error.LockedRegionLimitExceeded,
else => |err| return unexpectedErrno(err),
}
}
}
pub const FlockError = error{
WouldBlock,
/// The kernel ran out of memory for allocating file locks
SystemResources,
/// The underlying filesystem does not support file locks
FileLocksNotSupported,
} || UnexpectedError;
/// Depending on the operating system `flock` may or may not interact with
/// `fcntl` locks made by other processes.
pub fn flock(fd: fd_t, operation: i32) FlockError!void {
while (true) {
const rc = system.flock(fd, operation);
switch (errno(rc)) {
.SUCCESS => return,
.BADF => unreachable,
.INTR => continue,
.INVAL => unreachable, // invalid parameters
.NOLCK => return error.SystemResources,
.AGAIN => return error.WouldBlock, // TODO: integrate with async instead of just returning an error
.OPNOTSUPP => return error.FileLocksNotSupported,
else => |err| return unexpectedErrno(err),
}
}
}
pub const RealPathError = error{
FileNotFound,
AccessDenied,
NameTooLong,
NotSupported,
NotDir,
SymLinkLoop,
InputOutput,
FileTooBig,
IsDir,
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
NoDevice,
SystemResources,
NoSpaceLeft,
FileSystem,
BadPathName,
DeviceBusy,
SharingViolation,
PipeBusy,
/// Windows-only; file paths provided by the user must be valid WTF-8.
/// https://simonsapin.github.io/wtf-8/
InvalidWtf8,
/// On Windows, `\\server` or `\\server\share` was not found.
NetworkNotFound,
PathAlreadyExists,
/// On Windows, antivirus software is enabled by default. It can be
/// disabled, but Windows Update sometimes ignores the user's preference
/// and re-enables it. When enabled, antivirus software on Windows
/// intercepts file system operations and makes them significantly slower
/// in addition to possibly failing with this error code.
AntivirusInterference,
/// On Windows, the volume does not contain a recognized file system. File
/// system drivers might not be loaded, or the volume may be corrupt.
UnrecognizedVolume,
} || UnexpectedError;
/// Return the canonicalized absolute pathname.
///
/// Expands all symbolic links and resolves references to `.`, `..`, and
/// extra `/` characters in `pathname`.
///
/// On Windows, `pathname` should be encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
///
/// On other platforms, `pathname` is an opaque sequence of bytes with no particular encoding.
///
/// The return value is a slice of `out_buffer`, but not necessarily from the beginning.
///
/// See also `realpathZ` and `realpathW`.
///
/// * On Windows, the result is encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
/// * On other platforms, the result is an opaque sequence of bytes with no particular encoding.
///
/// Calling this function is usually a bug.
pub fn realpath(pathname: []const u8, out_buffer: *[max_path_bytes]u8) RealPathError![]u8 {
if (native_os == .windows) {
const pathname_w = try windows.sliceToPrefixedFileW(null, pathname);
return realpathW(pathname_w.span(), out_buffer);
} else if (native_os == .wasi and !builtin.link_libc) {
@compileError("WASI does not support os.realpath");
}
const pathname_c = try toPosixPath(pathname);
return realpathZ(&pathname_c, out_buffer);
}
/// Same as `realpath` except `pathname` is null-terminated.
///
/// Calling this function is usually a bug.
pub fn realpathZ(pathname: [*:0]const u8, out_buffer: *[max_path_bytes]u8) RealPathError![]u8 {
if (native_os == .windows) {
const pathname_w = try windows.cStrToPrefixedFileW(null, pathname);
return realpathW(pathname_w.span(), out_buffer);
} else if (native_os == .wasi and !builtin.link_libc) {
return realpath(mem.sliceTo(pathname, 0), out_buffer);
}
if (!builtin.link_libc) {
const flags: O = switch (native_os) {
.linux => .{
.NONBLOCK = true,
.CLOEXEC = true,
.PATH = true,
},
else => .{
.NONBLOCK = true,
.CLOEXEC = true,
},
};
const fd = openZ(pathname, flags, 0) catch |err| switch (err) {
error.FileLocksNotSupported => unreachable,
error.WouldBlock => unreachable,
error.FileBusy => unreachable, // not asking for write permissions
error.InvalidUtf8 => unreachable, // WASI-only
else => |e| return e,
};
defer close(fd);
return std.os.getFdPath(fd, out_buffer);
}
const result_path = std.c.realpath(pathname, out_buffer) orelse switch (@as(E, @enumFromInt(std.c._errno().*))) {
.SUCCESS => unreachable,
.INVAL => unreachable,
.BADF => unreachable,
.FAULT => unreachable,
.ACCES => return error.AccessDenied,
.NOENT => return error.FileNotFound,
.OPNOTSUPP => return error.NotSupported,
.NOTDIR => return error.NotDir,
.NAMETOOLONG => return error.NameTooLong,
.LOOP => return error.SymLinkLoop,
.IO => return error.InputOutput,
else => |err| return unexpectedErrno(err),
};
return mem.sliceTo(result_path, 0);
}
/// Same as `realpath` except `pathname` is WTF16LE-encoded.
///
/// The result is encoded as [WTF-8](https://simonsapin.github.io/wtf-8/).
///
/// Calling this function is usually a bug.
pub fn realpathW(pathname: []const u16, out_buffer: *[max_path_bytes]u8) RealPathError![]u8 {
const w = windows;
const dir = fs.cwd().fd;
const access_mask = w.GENERIC_READ | w.SYNCHRONIZE;
const share_access = w.FILE_SHARE_READ | w.FILE_SHARE_WRITE | w.FILE_SHARE_DELETE;
const creation = w.FILE_OPEN;
const h_file = blk: {
const res = w.OpenFile(pathname, .{
.dir = dir,
.access_mask = access_mask,
.share_access = share_access,
.creation = creation,
.filter = .any,
}) catch |err| switch (err) {
error.WouldBlock => unreachable,
else => |e| return e,
};
break :blk res;
};
defer w.CloseHandle(h_file);
return std.os.getFdPath(h_file, out_buffer);
}
/// Spurious wakeups are possible and no precision of timing is guaranteed.
pub fn nanosleep(seconds: u64, nanoseconds: u64) void {
var req = timespec{
.sec = cast(isize, seconds) orelse maxInt(isize),
.nsec = cast(isize, nanoseconds) orelse maxInt(isize),
};
var rem: timespec = undefined;
while (true) {
switch (errno(system.nanosleep(&req, &rem))) {
.FAULT => unreachable,
.INVAL => {
// Sometimes Darwin returns EINVAL for no reason.
// We treat it as a spurious wakeup.
return;
},
.INTR => {
req = rem;
continue;
},
// This prong handles success as well as unexpected errors.
else => return,
}
}
}
pub fn dl_iterate_phdr(
context: anytype,
comptime Error: type,
comptime callback: fn (info: *dl_phdr_info, size: usize, context: @TypeOf(context)) Error!void,
) Error!void {
const Context = @TypeOf(context);
const elf = std.elf;
const dl = @import("dynamic_library.zig");
switch (builtin.object_format) {
.elf, .c => {},
else => @compileError("dl_iterate_phdr is not available for this target"),
}
if (builtin.link_libc) {
switch (system.dl_iterate_phdr(struct {
fn callbackC(info: *dl_phdr_info, size: usize, data: ?*anyopaque) callconv(.C) c_int {
const context_ptr: *const Context = @ptrCast(@alignCast(data));
callback(info, size, context_ptr.*) catch |err| return @intFromError(err);
return 0;
}
}.callbackC, @ptrCast(@constCast(&context)))) {
0 => return,
else => |err| return @as(Error, @errorCast(@errorFromInt(@as(std.meta.Int(.unsigned, @bitSizeOf(anyerror)), @intCast(err))))),
}
}
const elf_base = std.process.getBaseAddress();
const ehdr: *elf.Ehdr = @ptrFromInt(elf_base);
// Make sure the base address points to an ELF image.
assert(mem.eql(u8, ehdr.e_ident[0..4], elf.MAGIC));
const n_phdr = ehdr.e_phnum;
const phdrs = (@as([*]elf.Phdr, @ptrFromInt(elf_base + ehdr.e_phoff)))[0..n_phdr];
var it = dl.linkmap_iterator(phdrs) catch unreachable;
// The executable has no dynamic link segment, create a single entry for
// the whole ELF image.
if (it.end()) {
// Find the base address for the ELF image, if this is a PIE the value
// is non-zero.
const base_address = for (phdrs) |*phdr| {
if (phdr.p_type == elf.PT_PHDR) {
break @intFromPtr(phdrs.ptr) - phdr.p_vaddr;
// We could try computing the difference between _DYNAMIC and
// the p_vaddr of the PT_DYNAMIC section, but using the phdr is
// good enough (Is it?).
}
} else unreachable;
var info = dl_phdr_info{
.addr = base_address,
.name = "/proc/self/exe",
.phdr = phdrs.ptr,
.phnum = ehdr.e_phnum,
};
return callback(&info, @sizeOf(dl_phdr_info), context);
}
// Last return value from the callback function.
while (it.next()) |entry| {
var phdr: [*]elf.Phdr = undefined;
var phnum: u16 = undefined;
if (entry.l_addr != 0) {
const elf_header: *elf.Ehdr = @ptrFromInt(entry.l_addr);
phdr = @ptrFromInt(entry.l_addr + elf_header.e_phoff);
phnum = elf_header.e_phnum;
} else {
// This is the running ELF image
phdr = @ptrFromInt(elf_base + ehdr.e_phoff);
phnum = ehdr.e_phnum;
}
var info = dl_phdr_info{
.addr = entry.l_addr,
.name = entry.l_name,
.phdr = phdr,
.phnum = phnum,
};
try callback(&info, @sizeOf(dl_phdr_info), context);
}
}
pub const ClockGetTimeError = error{UnsupportedClock} || UnexpectedError;
/// TODO: change this to return the timespec as a return value
pub fn clock_gettime(clock_id: clockid_t, tp: *timespec) ClockGetTimeError!void {
if (native_os == .wasi and !builtin.link_libc) {
var ts: timestamp_t = undefined;
switch (system.clock_time_get(clock_id, 1, &ts)) {
.SUCCESS => {
tp.* = .{
.sec = @intCast(ts / std.time.ns_per_s),
.nsec = @intCast(ts % std.time.ns_per_s),
};
},
.INVAL => return error.UnsupportedClock,
else => |err| return unexpectedErrno(err),
}
return;
}
if (native_os == .windows) {
if (clock_id == .REALTIME) {
var ft: windows.FILETIME = undefined;
windows.kernel32.GetSystemTimeAsFileTime(&ft);
// FileTime has a granularity of 100 nanoseconds and uses the NTFS/Windows epoch.
const ft64 = (@as(u64, ft.dwHighDateTime) << 32) | ft.dwLowDateTime;
const ft_per_s = std.time.ns_per_s / 100;
tp.* = .{
.sec = @as(i64, @intCast(ft64 / ft_per_s)) + std.time.epoch.windows,
.nsec = @as(c_long, @intCast(ft64 % ft_per_s)) * 100,
};
return;
} else {
// TODO POSIX implementation of CLOCK.MONOTONIC on Windows.
return error.UnsupportedClock;
}
}
switch (errno(system.clock_gettime(clock_id, tp))) {
.SUCCESS => return,
.FAULT => unreachable,
.INVAL => return error.UnsupportedClock,
else => |err| return unexpectedErrno(err),
}
}
pub fn clock_getres(clock_id: clockid_t, res: *timespec) ClockGetTimeError!void {
if (native_os == .wasi and !builtin.link_libc) {
var ts: timestamp_t = undefined;
switch (system.clock_res_get(@bitCast(clock_id), &ts)) {
.SUCCESS => res.* = .{
.sec = @intCast(ts / std.time.ns_per_s),
.nsec = @intCast(ts % std.time.ns_per_s),
},
.INVAL => return error.UnsupportedClock,
else => |err| return unexpectedErrno(err),
}
return;
}
switch (errno(system.clock_getres(clock_id, res))) {
.SUCCESS => return,
.FAULT => unreachable,
.INVAL => return error.UnsupportedClock,
else => |err| return unexpectedErrno(err),
}
}
pub const SchedGetAffinityError = error{PermissionDenied} || UnexpectedError;
pub fn sched_getaffinity(pid: pid_t) SchedGetAffinityError!cpu_set_t {
var set: cpu_set_t = undefined;
switch (errno(system.sched_getaffinity(pid, @sizeOf(cpu_set_t), &set))) {
.SUCCESS => return set,
.FAULT => unreachable,
.INVAL => unreachable,
.SRCH => unreachable,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub const SigaltstackError = error{
/// The supplied stack size was less than MINSIGSTKSZ.
SizeTooSmall,
/// Attempted to change the signal stack while it was active.
PermissionDenied,
} || UnexpectedError;
pub fn sigaltstack(ss: ?*stack_t, old_ss: ?*stack_t) SigaltstackError!void {
switch (errno(system.sigaltstack(ss, old_ss))) {
.SUCCESS => return,
.FAULT => unreachable,
.INVAL => unreachable,
.NOMEM => return error.SizeTooSmall,
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
/// Examine and change a signal action.
pub fn sigaction(sig: u6, noalias act: ?*const Sigaction, noalias oact: ?*Sigaction) void {
switch (errno(system.sigaction(sig, act, oact))) {
.SUCCESS => return,
// EINVAL means the signal is either invalid or some signal that cannot have its action
// changed. For POSIX, this means SIGKILL/SIGSTOP. For e.g. Solaris, this also includes the
// non-standard SIGWAITING, SIGCANCEL, and SIGLWP. Either way, programmer error.
.INVAL => unreachable,
else => unreachable,
}
}
/// Sets the thread signal mask.
pub fn sigprocmask(flags: u32, noalias set: ?*const sigset_t, noalias oldset: ?*sigset_t) void {
switch (errno(system.sigprocmask(@bitCast(flags), set, oldset))) {
.SUCCESS => return,
.FAULT => unreachable,
.INVAL => unreachable,
else => unreachable,
}
}
pub const FutimensError = error{
/// times is NULL, or both nsec values are UTIME_NOW, and either:
/// * the effective user ID of the caller does not match the owner
/// of the file, the caller does not have write access to the
/// file, and the caller is not privileged (Linux: does not have
/// either the CAP_FOWNER or the CAP_DAC_OVERRIDE capability);
/// or,
/// * the file is marked immutable (see chattr(1)).
AccessDenied,
/// The caller attempted to change one or both timestamps to a value
/// other than the current time, or to change one of the timestamps
/// to the current time while leaving the other timestamp unchanged,
/// (i.e., times is not NULL, neither nsec field is UTIME_NOW,
/// and neither nsec field is UTIME_OMIT) and either:
/// * the caller's effective user ID does not match the owner of
/// file, and the caller is not privileged (Linux: does not have
/// the CAP_FOWNER capability); or,
/// * the file is marked append-only or immutable (see chattr(1)).
PermissionDenied,
ReadOnlyFileSystem,
} || UnexpectedError;
pub fn futimens(fd: fd_t, times: *const [2]timespec) FutimensError!void {
if (native_os == .wasi and !builtin.link_libc) {
// TODO WASI encodes `wasi.fstflags` to signify magic values
// similar to UTIME_NOW and UTIME_OMIT. Currently, we ignore
// this here, but we should really handle it somehow.
const atim = times[0].toTimestamp();
const mtim = times[1].toTimestamp();
switch (wasi.fd_filestat_set_times(fd, atim, mtim, .{
.ATIM = true,
.MTIM = true,
})) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.PermissionDenied,
.BADF => unreachable, // always a race condition
.FAULT => unreachable,
.INVAL => unreachable,
.ROFS => return error.ReadOnlyFileSystem,
else => |err| return unexpectedErrno(err),
}
}
switch (errno(system.futimens(fd, times))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.PERM => return error.PermissionDenied,
.BADF => unreachable, // always a race condition
.FAULT => unreachable,
.INVAL => unreachable,
.ROFS => return error.ReadOnlyFileSystem,
else => |err| return unexpectedErrno(err),
}
}
pub const GetHostNameError = error{PermissionDenied} || UnexpectedError;
pub fn gethostname(name_buffer: *[HOST_NAME_MAX]u8) GetHostNameError![]u8 {
if (builtin.link_libc) {
switch (errno(system.gethostname(name_buffer, name_buffer.len))) {
.SUCCESS => return mem.sliceTo(name_buffer, 0),
.FAULT => unreachable,
.NAMETOOLONG => unreachable, // HOST_NAME_MAX prevents this
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
if (native_os == .linux) {
const uts = uname();
const hostname = mem.sliceTo(&uts.nodename, 0);
const result = name_buffer[0..hostname.len];
@memcpy(result, hostname);
return result;
}
@compileError("TODO implement gethostname for this OS");
}
pub fn uname() utsname {
var uts: utsname = undefined;
switch (errno(system.uname(&uts))) {
.SUCCESS => return uts,
.FAULT => unreachable,
else => unreachable,
}
}
pub fn res_mkquery(
op: u4,
dname: []const u8,
class: u8,
ty: u8,
data: []const u8,
newrr: ?[*]const u8,
buf: []u8,
) usize {
_ = data;
_ = newrr;
// This implementation is ported from musl libc.
// A more idiomatic "ziggy" implementation would be welcome.
var name = dname;
if (mem.endsWith(u8, name, ".")) name.len -= 1;
assert(name.len <= 253);
const n = 17 + name.len + @intFromBool(name.len != 0);
// Construct query template - ID will be filled later
var q: [280]u8 = undefined;
@memset(q[0..n], 0);
q[2] = @as(u8, op) * 8 + 1;
q[5] = 1;
@memcpy(q[13..][0..name.len], name);
var i: usize = 13;
var j: usize = undefined;
while (q[i] != 0) : (i = j + 1) {
j = i;
while (q[j] != 0 and q[j] != '.') : (j += 1) {}
// TODO determine the circumstances for this and whether or
// not this should be an error.
if (j - i - 1 > 62) unreachable;
q[i - 1] = @intCast(j - i);
}
q[i + 1] = ty;
q[i + 3] = class;
// Make a reasonably unpredictable id
var ts: timespec = undefined;
clock_gettime(.REALTIME, &ts) catch {};
const UInt = std.meta.Int(.unsigned, @bitSizeOf(@TypeOf(ts.nsec)));
const unsec: UInt = @bitCast(ts.nsec);
const id: u32 = @truncate(unsec + unsec / 65536);
q[0] = @truncate(id / 256);
q[1] = @truncate(id);
@memcpy(buf[0..n], q[0..n]);
return n;
}
pub const SendError = error{
/// (For UNIX domain sockets, which are identified by pathname) Write permission is denied
/// on the destination socket file, or search permission is denied for one of the
/// directories the path prefix. (See path_resolution(7).)
/// (For UDP sockets) An attempt was made to send to a network/broadcast address as though
/// it was a unicast address.
AccessDenied,
/// The socket is marked nonblocking and the requested operation would block, and
/// there is no global event loop configured.
/// It's also possible to get this error under the following condition:
/// (Internet domain datagram sockets) The socket referred to by sockfd had not previously
/// been bound to an address and, upon attempting to bind it to an ephemeral port, it was
/// determined that all port numbers in the ephemeral port range are currently in use. See
/// the discussion of /proc/sys/net/ipv4/ip_local_port_range in ip(7).
WouldBlock,
/// Another Fast Open is already in progress.
FastOpenAlreadyInProgress,
/// Connection reset by peer.
ConnectionResetByPeer,
/// The socket type requires that message be sent atomically, and the size of the message
/// to be sent made this impossible. The message is not transmitted.
MessageTooBig,
/// The output queue for a network interface was full. This generally indicates that the
/// interface has stopped sending, but may be caused by transient congestion. (Normally,
/// this does not occur in Linux. Packets are just silently dropped when a device queue
/// overflows.)
/// This is also caused when there is not enough kernel memory available.
SystemResources,
/// The local end has been shut down on a connection oriented socket. In this case, the
/// process will also receive a SIGPIPE unless MSG.NOSIGNAL is set.
BrokenPipe,
FileDescriptorNotASocket,
/// Network is unreachable.
NetworkUnreachable,
/// The local network interface used to reach the destination is down.
NetworkSubsystemFailed,
} || UnexpectedError;
pub const SendMsgError = SendError || error{
/// The passed address didn't have the correct address family in its sa_family field.
AddressFamilyNotSupported,
/// Returned when socket is AF.UNIX and the given path has a symlink loop.
SymLinkLoop,
/// Returned when socket is AF.UNIX and the given path length exceeds `max_path_bytes` bytes.
NameTooLong,
/// Returned when socket is AF.UNIX and the given path does not point to an existing file.
FileNotFound,
NotDir,
/// The socket is not connected (connection-oriented sockets only).
SocketNotConnected,
AddressNotAvailable,
};
pub fn sendmsg(
/// The file descriptor of the sending socket.
sockfd: socket_t,
/// Message header and iovecs
msg: *const msghdr_const,
flags: u32,
) SendMsgError!usize {
while (true) {
const rc = system.sendmsg(sockfd, msg, flags);
if (native_os == .windows) {
if (rc == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSAEACCES => return error.AccessDenied,
.WSAEADDRNOTAVAIL => return error.AddressNotAvailable,
.WSAECONNRESET => return error.ConnectionResetByPeer,
.WSAEMSGSIZE => return error.MessageTooBig,
.WSAENOBUFS => return error.SystemResources,
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
.WSAEAFNOSUPPORT => return error.AddressFamilyNotSupported,
.WSAEDESTADDRREQ => unreachable, // A destination address is required.
.WSAEFAULT => unreachable, // The lpBuffers, lpTo, lpOverlapped, lpNumberOfBytesSent, or lpCompletionRoutine parameters are not part of the user address space, or the lpTo parameter is too small.
.WSAEHOSTUNREACH => return error.NetworkUnreachable,
// TODO: WSAEINPROGRESS, WSAEINTR
.WSAEINVAL => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAENETRESET => return error.ConnectionResetByPeer,
.WSAENETUNREACH => return error.NetworkUnreachable,
.WSAENOTCONN => return error.SocketNotConnected,
.WSAESHUTDOWN => unreachable, // The socket has been shut down; it is not possible to WSASendTo on a socket after shutdown has been invoked with how set to SD_SEND or SD_BOTH.
.WSAEWOULDBLOCK => return error.WouldBlock,
.WSANOTINITIALISED => unreachable, // A successful WSAStartup call must occur before using this function.
else => |err| return windows.unexpectedWSAError(err),
}
} else {
return @intCast(rc);
}
} else {
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.ACCES => return error.AccessDenied,
.AGAIN => return error.WouldBlock,
.ALREADY => return error.FastOpenAlreadyInProgress,
.BADF => unreachable, // always a race condition
.CONNRESET => return error.ConnectionResetByPeer,
.DESTADDRREQ => unreachable, // The socket is not connection-mode, and no peer address is set.
.FAULT => unreachable, // An invalid user space address was specified for an argument.
.INTR => continue,
.INVAL => unreachable, // Invalid argument passed.
.ISCONN => unreachable, // connection-mode socket was connected already but a recipient was specified
.MSGSIZE => return error.MessageTooBig,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTSOCK => unreachable, // The file descriptor sockfd does not refer to a socket.
.OPNOTSUPP => unreachable, // Some bit in the flags argument is inappropriate for the socket type.
.PIPE => return error.BrokenPipe,
.AFNOSUPPORT => return error.AddressFamilyNotSupported,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.HOSTUNREACH => return error.NetworkUnreachable,
.NETUNREACH => return error.NetworkUnreachable,
.NOTCONN => return error.SocketNotConnected,
.NETDOWN => return error.NetworkSubsystemFailed,
else => |err| return unexpectedErrno(err),
}
}
}
}
pub const SendToError = SendMsgError || error{
/// The destination address is not reachable by the bound address.
UnreachableAddress,
/// The destination address is not listening.
ConnectionRefused,
};
/// Transmit a message to another socket.
///
/// The `sendto` call may be used only when the socket is in a connected state (so that the intended
/// recipient is known). The following call
///
/// send(sockfd, buf, len, flags);
///
/// is equivalent to
///
/// sendto(sockfd, buf, len, flags, NULL, 0);
///
/// If sendto() is used on a connection-mode (`SOCK.STREAM`, `SOCK.SEQPACKET`) socket, the arguments
/// `dest_addr` and `addrlen` are asserted to be `null` and `0` respectively, and asserted
/// that the socket was actually connected.
/// Otherwise, the address of the target is given by `dest_addr` with `addrlen` specifying its size.
///
/// If the message is too long to pass atomically through the underlying protocol,
/// `SendError.MessageTooBig` is returned, and the message is not transmitted.
///
/// There is no indication of failure to deliver.
///
/// When the message does not fit into the send buffer of the socket, `sendto` normally blocks,
/// unless the socket has been placed in nonblocking I/O mode. In nonblocking mode it would fail
/// with `SendError.WouldBlock`. The `select` call may be used to determine when it is
/// possible to send more data.
pub fn sendto(
/// The file descriptor of the sending socket.
sockfd: socket_t,
/// Message to send.
buf: []const u8,
flags: u32,
dest_addr: ?*const sockaddr,
addrlen: socklen_t,
) SendToError!usize {
if (native_os == .windows) {
switch (windows.sendto(sockfd, buf.ptr, buf.len, flags, dest_addr, addrlen)) {
windows.ws2_32.SOCKET_ERROR => switch (windows.ws2_32.WSAGetLastError()) {
.WSAEACCES => return error.AccessDenied,
.WSAEADDRNOTAVAIL => return error.AddressNotAvailable,
.WSAECONNRESET => return error.ConnectionResetByPeer,
.WSAEMSGSIZE => return error.MessageTooBig,
.WSAENOBUFS => return error.SystemResources,
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
.WSAEAFNOSUPPORT => return error.AddressFamilyNotSupported,
.WSAEDESTADDRREQ => unreachable, // A destination address is required.
.WSAEFAULT => unreachable, // The lpBuffers, lpTo, lpOverlapped, lpNumberOfBytesSent, or lpCompletionRoutine parameters are not part of the user address space, or the lpTo parameter is too small.
.WSAEHOSTUNREACH => return error.NetworkUnreachable,
// TODO: WSAEINPROGRESS, WSAEINTR
.WSAEINVAL => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAENETRESET => return error.ConnectionResetByPeer,
.WSAENETUNREACH => return error.NetworkUnreachable,
.WSAENOTCONN => return error.SocketNotConnected,
.WSAESHUTDOWN => unreachable, // The socket has been shut down; it is not possible to WSASendTo on a socket after shutdown has been invoked with how set to SD_SEND or SD_BOTH.
.WSAEWOULDBLOCK => return error.WouldBlock,
.WSANOTINITIALISED => unreachable, // A successful WSAStartup call must occur before using this function.
else => |err| return windows.unexpectedWSAError(err),
},
else => |rc| return @intCast(rc),
}
}
while (true) {
const rc = system.sendto(sockfd, buf.ptr, buf.len, flags, dest_addr, addrlen);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.ACCES => return error.AccessDenied,
.AGAIN => return error.WouldBlock,
.ALREADY => return error.FastOpenAlreadyInProgress,
.BADF => unreachable, // always a race condition
.CONNREFUSED => return error.ConnectionRefused,
.CONNRESET => return error.ConnectionResetByPeer,
.DESTADDRREQ => unreachable, // The socket is not connection-mode, and no peer address is set.
.FAULT => unreachable, // An invalid user space address was specified for an argument.
.INTR => continue,
.INVAL => return error.UnreachableAddress,
.ISCONN => unreachable, // connection-mode socket was connected already but a recipient was specified
.MSGSIZE => return error.MessageTooBig,
.NOBUFS => return error.SystemResources,
.NOMEM => return error.SystemResources,
.NOTSOCK => unreachable, // The file descriptor sockfd does not refer to a socket.
.OPNOTSUPP => unreachable, // Some bit in the flags argument is inappropriate for the socket type.
.PIPE => return error.BrokenPipe,
.AFNOSUPPORT => return error.AddressFamilyNotSupported,
.LOOP => return error.SymLinkLoop,
.NAMETOOLONG => return error.NameTooLong,
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.HOSTUNREACH => return error.NetworkUnreachable,
.NETUNREACH => return error.NetworkUnreachable,
.NOTCONN => return error.SocketNotConnected,
.NETDOWN => return error.NetworkSubsystemFailed,
else => |err| return unexpectedErrno(err),
}
}
}
/// Transmit a message to another socket.
///
/// The `send` call may be used only when the socket is in a connected state (so that the intended
/// recipient is known). The only difference between `send` and `write` is the presence of
/// flags. With a zero flags argument, `send` is equivalent to `write`. Also, the following
/// call
///
/// send(sockfd, buf, len, flags);
///
/// is equivalent to
///
/// sendto(sockfd, buf, len, flags, NULL, 0);
///
/// There is no indication of failure to deliver.
///
/// When the message does not fit into the send buffer of the socket, `send` normally blocks,
/// unless the socket has been placed in nonblocking I/O mode. In nonblocking mode it would fail
/// with `SendError.WouldBlock`. The `select` call may be used to determine when it is
/// possible to send more data.
pub fn send(
/// The file descriptor of the sending socket.
sockfd: socket_t,
buf: []const u8,
flags: u32,
) SendError!usize {
return sendto(sockfd, buf, flags, null, 0) catch |err| switch (err) {
error.AddressFamilyNotSupported => unreachable,
error.SymLinkLoop => unreachable,
error.NameTooLong => unreachable,
error.FileNotFound => unreachable,
error.NotDir => unreachable,
error.NetworkUnreachable => unreachable,
error.AddressNotAvailable => unreachable,
error.SocketNotConnected => unreachable,
error.UnreachableAddress => unreachable,
error.ConnectionRefused => unreachable,
else => |e| return e,
};
}
pub const SendFileError = PReadError || WriteError || SendError;
/// Transfer data between file descriptors, with optional headers and trailers.
///
/// Returns the number of bytes written, which can be zero.
///
/// The `sendfile` call copies `in_len` bytes from one file descriptor to another. When possible,
/// this is done within the operating system kernel, which can provide better performance
/// characteristics than transferring data from kernel to user space and back, such as with
/// `read` and `write` calls. When `in_len` is `0`, it means to copy until the end of the input file has been
/// reached. Note, however, that partial writes are still possible in this case.
///
/// `in_fd` must be a file descriptor opened for reading, and `out_fd` must be a file descriptor
/// opened for writing. They may be any kind of file descriptor; however, if `in_fd` is not a regular
/// file system file, it may cause this function to fall back to calling `read` and `write`, in which case
/// atomicity guarantees no longer apply.
///
/// Copying begins reading at `in_offset`. The input file descriptor seek position is ignored and not updated.
/// If the output file descriptor has a seek position, it is updated as bytes are written. When
/// `in_offset` is past the end of the input file, it successfully reads 0 bytes.
///
/// `flags` has different meanings per operating system; refer to the respective man pages.
///
/// These systems support atomically sending everything, including headers and trailers:
/// * macOS
/// * FreeBSD
///
/// These systems support in-kernel data copying, but headers and trailers are not sent atomically:
/// * Linux
///
/// Other systems fall back to calling `read` / `write`.
///
/// Linux has a limit on how many bytes may be transferred in one `sendfile` call, which is `0x7ffff000`
/// on both 64-bit and 32-bit systems. This is due to using a signed C int as the return value, as
/// well as stuffing the errno codes into the last `4096` values. This is noted on the `sendfile` man page.
/// The limit on Darwin is `0x7fffffff`, trying to write more than that returns EINVAL.
/// The corresponding POSIX limit on this is `maxInt(isize)`.
pub fn sendfile(
out_fd: fd_t,
in_fd: fd_t,
in_offset: u64,
in_len: u64,
headers: []const iovec_const,
trailers: []const iovec_const,
flags: u32,
) SendFileError!usize {
var header_done = false;
var total_written: usize = 0;
// Prevents EOVERFLOW.
const size_t = std.meta.Int(.unsigned, @typeInfo(usize).Int.bits - 1);
const max_count = switch (native_os) {
.linux => 0x7ffff000,
.macos, .ios, .watchos, .tvos, .visionos => maxInt(i32),
else => maxInt(size_t),
};
switch (native_os) {
.linux => sf: {
if (headers.len != 0) {
const amt = try writev(out_fd, headers);
total_written += amt;
if (amt < count_iovec_bytes(headers)) return total_written;
header_done = true;
}
// Here we match BSD behavior, making a zero count value send as many bytes as possible.
const adjusted_count = if (in_len == 0) max_count else @min(in_len, max_count);
const sendfile_sym = if (lfs64_abi) system.sendfile64 else system.sendfile;
while (true) {
var offset: off_t = @bitCast(in_offset);
const rc = sendfile_sym(out_fd, in_fd, &offset, adjusted_count);
switch (errno(rc)) {
.SUCCESS => {
const amt: usize = @bitCast(rc);
total_written += amt;
if (in_len == 0 and amt == 0) {
// We have detected EOF from `in_fd`.
break;
} else if (amt < in_len) {
return total_written;
} else {
break;
}
},
.BADF => unreachable, // Always a race condition.
.FAULT => unreachable, // Segmentation fault.
.OVERFLOW => unreachable, // We avoid passing too large of a `count`.
.NOTCONN => return error.BrokenPipe, // `out_fd` is an unconnected socket
.INVAL => {
// EINVAL could be any of the following situations:
// * Descriptor is not valid or locked
// * an mmap(2)-like operation is not available for in_fd
// * count is negative
// * out_fd has the APPEND flag set
// Because of the "mmap(2)-like operation" possibility, we fall back to doing read/write
// manually.
break :sf;
},
.AGAIN => return error.WouldBlock,
.IO => return error.InputOutput,
.PIPE => return error.BrokenPipe,
.NOMEM => return error.SystemResources,
.NXIO => return error.Unseekable,
.SPIPE => return error.Unseekable,
else => |err| {
unexpectedErrno(err) catch {};
break :sf;
},
}
}
if (trailers.len != 0) {
total_written += try writev(out_fd, trailers);
}
return total_written;
},
.freebsd => sf: {
var hdtr_data: std.c.sf_hdtr = undefined;
var hdtr: ?*std.c.sf_hdtr = null;
if (headers.len != 0 or trailers.len != 0) {
// Here we carefully avoid `@intCast` by returning partial writes when
// too many io vectors are provided.
const hdr_cnt = cast(u31, headers.len) orelse maxInt(u31);
if (headers.len > hdr_cnt) return writev(out_fd, headers);
const trl_cnt = cast(u31, trailers.len) orelse maxInt(u31);
hdtr_data = std.c.sf_hdtr{
.headers = headers.ptr,
.hdr_cnt = hdr_cnt,
.trailers = trailers.ptr,
.trl_cnt = trl_cnt,
};
hdtr = &hdtr_data;
}
while (true) {
var sbytes: off_t = undefined;
const err = errno(system.sendfile(in_fd, out_fd, @bitCast(in_offset), @min(in_len, max_count), hdtr, &sbytes, flags));
const amt: usize = @bitCast(sbytes);
switch (err) {
.SUCCESS => return amt,
.BADF => unreachable, // Always a race condition.
.FAULT => unreachable, // Segmentation fault.
.NOTCONN => return error.BrokenPipe, // `out_fd` is an unconnected socket
.INVAL, .OPNOTSUPP, .NOTSOCK, .NOSYS => {
// EINVAL could be any of the following situations:
// * The fd argument is not a regular file.
// * The s argument is not a SOCK.STREAM type socket.
// * The offset argument is negative.
// Because of some of these possibilities, we fall back to doing read/write
// manually, the same as ENOSYS.
break :sf;
},
.INTR => if (amt != 0) return amt else continue,
.AGAIN => if (amt != 0) {
return amt;
} else {
return error.WouldBlock;
},
.BUSY => if (amt != 0) {
return amt;
} else {
return error.WouldBlock;
},
.IO => return error.InputOutput,
.NOBUFS => return error.SystemResources,
.PIPE => return error.BrokenPipe,
else => {
unexpectedErrno(err) catch {};
if (amt != 0) {
return amt;
} else {
break :sf;
}
},
}
}
},
.macos, .ios, .tvos, .watchos, .visionos => sf: {
var hdtr_data: std.c.sf_hdtr = undefined;
var hdtr: ?*std.c.sf_hdtr = null;
if (headers.len != 0 or trailers.len != 0) {
// Here we carefully avoid `@intCast` by returning partial writes when
// too many io vectors are provided.
const hdr_cnt = cast(u31, headers.len) orelse maxInt(u31);
if (headers.len > hdr_cnt) return writev(out_fd, headers);
const trl_cnt = cast(u31, trailers.len) orelse maxInt(u31);
hdtr_data = std.c.sf_hdtr{
.headers = headers.ptr,
.hdr_cnt = hdr_cnt,
.trailers = trailers.ptr,
.trl_cnt = trl_cnt,
};
hdtr = &hdtr_data;
}
while (true) {
var sbytes: off_t = @min(in_len, max_count);
const err = errno(system.sendfile(in_fd, out_fd, @bitCast(in_offset), &sbytes, hdtr, flags));
const amt: usize = @bitCast(sbytes);
switch (err) {
.SUCCESS => return amt,
.BADF => unreachable, // Always a race condition.
.FAULT => unreachable, // Segmentation fault.
.INVAL => unreachable,
.NOTCONN => return error.BrokenPipe, // `out_fd` is an unconnected socket
.OPNOTSUPP, .NOTSOCK, .NOSYS => break :sf,
.INTR => if (amt != 0) return amt else continue,
.AGAIN => if (amt != 0) {
return amt;
} else {
return error.WouldBlock;
},
.IO => return error.InputOutput,
.PIPE => return error.BrokenPipe,
else => {
unexpectedErrno(err) catch {};
if (amt != 0) {
return amt;
} else {
break :sf;
}
},
}
}
},
else => {}, // fall back to read/write
}
if (headers.len != 0 and !header_done) {
const amt = try writev(out_fd, headers);
total_written += amt;
if (amt < count_iovec_bytes(headers)) return total_written;
}
rw: {
var buf: [8 * 4096]u8 = undefined;
// Here we match BSD behavior, making a zero count value send as many bytes as possible.
const adjusted_count = if (in_len == 0) buf.len else @min(buf.len, in_len);
const amt_read = try pread(in_fd, buf[0..adjusted_count], in_offset);
if (amt_read == 0) {
if (in_len == 0) {
// We have detected EOF from `in_fd`.
break :rw;
} else {
return total_written;
}
}
const amt_written = try write(out_fd, buf[0..amt_read]);
total_written += amt_written;
if (amt_written < in_len or in_len == 0) return total_written;
}
if (trailers.len != 0) {
total_written += try writev(out_fd, trailers);
}
return total_written;
}
fn count_iovec_bytes(iovs: []const iovec_const) usize {
var count: usize = 0;
for (iovs) |iov| {
count += iov.len;
}
return count;
}
pub const CopyFileRangeError = error{
FileTooBig,
InputOutput,
/// `fd_in` is not open for reading; or `fd_out` is not open for writing;
/// or the `APPEND` flag is set for `fd_out`.
FilesOpenedWithWrongFlags,
IsDir,
OutOfMemory,
NoSpaceLeft,
Unseekable,
PermissionDenied,
SwapFile,
CorruptedData,
} || PReadError || PWriteError || UnexpectedError;
/// Transfer data between file descriptors at specified offsets.
///
/// Returns the number of bytes written, which can less than requested.
///
/// The `copy_file_range` call copies `len` bytes from one file descriptor to another. When possible,
/// this is done within the operating system kernel, which can provide better performance
/// characteristics than transferring data from kernel to user space and back, such as with
/// `pread` and `pwrite` calls.
///
/// `fd_in` must be a file descriptor opened for reading, and `fd_out` must be a file descriptor
/// opened for writing. They may be any kind of file descriptor; however, if `fd_in` is not a regular
/// file system file, it may cause this function to fall back to calling `pread` and `pwrite`, in which case
/// atomicity guarantees no longer apply.
///
/// If `fd_in` and `fd_out` are the same, source and target ranges must not overlap.
/// The file descriptor seek positions are ignored and not updated.
/// When `off_in` is past the end of the input file, it successfully reads 0 bytes.
///
/// `flags` has different meanings per operating system; refer to the respective man pages.
///
/// These systems support in-kernel data copying:
/// * Linux (cross-filesystem from version 5.3)
/// * FreeBSD 13.0
///
/// Other systems fall back to calling `pread` / `pwrite`.
///
/// Maximum offsets on Linux and FreeBSD are `maxInt(i64)`.
pub fn copy_file_range(fd_in: fd_t, off_in: u64, fd_out: fd_t, off_out: u64, len: usize, flags: u32) CopyFileRangeError!usize {
if ((comptime builtin.os.isAtLeast(.freebsd, .{ .major = 13, .minor = 0, .patch = 0 }) orelse false) or
(comptime builtin.os.tag == .linux and std.c.versionCheck(.{ .major = 2, .minor = 27, .patch = 0 })))
{
var off_in_copy: i64 = @bitCast(off_in);
var off_out_copy: i64 = @bitCast(off_out);
while (true) {
const rc = system.copy_file_range(fd_in, &off_in_copy, fd_out, &off_out_copy, len, flags);
if (native_os == .freebsd) {
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.BADF => return error.FilesOpenedWithWrongFlags,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOSPC => return error.NoSpaceLeft,
.INVAL => break, // these may not be regular files, try fallback
.INTEGRITY => return error.CorruptedData,
.INTR => continue,
else => |err| return unexpectedErrno(err),
}
} else { // assume linux
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.BADF => return error.FilesOpenedWithWrongFlags,
.FBIG => return error.FileTooBig,
.IO => return error.InputOutput,
.ISDIR => return error.IsDir,
.NOSPC => return error.NoSpaceLeft,
.INVAL => break, // these may not be regular files, try fallback
.NOMEM => return error.OutOfMemory,
.OVERFLOW => return error.Unseekable,
.PERM => return error.PermissionDenied,
.TXTBSY => return error.SwapFile,
.XDEV => break, // support for cross-filesystem copy added in Linux 5.3, use fallback
else => |err| return unexpectedErrno(err),
}
}
}
}
var buf: [8 * 4096]u8 = undefined;
const amt_read = try pread(fd_in, buf[0..@min(buf.len, len)], off_in);
if (amt_read == 0) return 0;
return pwrite(fd_out, buf[0..amt_read], off_out);
}
pub const PollError = error{
/// The network subsystem has failed.
NetworkSubsystemFailed,
/// The kernel had no space to allocate file descriptor tables.
SystemResources,
} || UnexpectedError;
pub fn poll(fds: []pollfd, timeout: i32) PollError!usize {
if (native_os == .windows) {
switch (windows.poll(fds.ptr, @intCast(fds.len), timeout)) {
windows.ws2_32.SOCKET_ERROR => switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAENOBUFS => return error.SystemResources,
// TODO: handle more errors
else => |err| return windows.unexpectedWSAError(err),
},
else => |rc| return @intCast(rc),
}
}
while (true) {
const fds_count = cast(nfds_t, fds.len) orelse return error.SystemResources;
const rc = system.poll(fds.ptr, fds_count, timeout);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.FAULT => unreachable,
.INTR => continue,
.INVAL => unreachable,
.NOMEM => return error.SystemResources,
else => |err| return unexpectedErrno(err),
}
}
unreachable;
}
pub const PPollError = error{
/// The operation was interrupted by a delivery of a signal before it could complete.
SignalInterrupt,
/// The kernel had no space to allocate file descriptor tables.
SystemResources,
} || UnexpectedError;
pub fn ppoll(fds: []pollfd, timeout: ?*const timespec, mask: ?*const sigset_t) PPollError!usize {
var ts: timespec = undefined;
var ts_ptr: ?*timespec = null;
if (timeout) |timeout_ns| {
ts_ptr = &ts;
ts = timeout_ns.*;
}
const fds_count = cast(nfds_t, fds.len) orelse return error.SystemResources;
const rc = system.ppoll(fds.ptr, fds_count, ts_ptr, mask);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.FAULT => unreachable,
.INTR => return error.SignalInterrupt,
.INVAL => unreachable,
.NOMEM => return error.SystemResources,
else => |err| return unexpectedErrno(err),
}
}
pub const RecvFromError = error{
/// The socket is marked nonblocking and the requested operation would block, and
/// there is no global event loop configured.
WouldBlock,
/// A remote host refused to allow the network connection, typically because it is not
/// running the requested service.
ConnectionRefused,
/// Could not allocate kernel memory.
SystemResources,
ConnectionResetByPeer,
ConnectionTimedOut,
/// The socket has not been bound.
SocketNotBound,
/// The UDP message was too big for the buffer and part of it has been discarded
MessageTooBig,
/// The network subsystem has failed.
NetworkSubsystemFailed,
/// The socket is not connected (connection-oriented sockets only).
SocketNotConnected,
} || UnexpectedError;
pub fn recv(sock: socket_t, buf: []u8, flags: u32) RecvFromError!usize {
return recvfrom(sock, buf, flags, null, null);
}
/// If `sockfd` is opened in non blocking mode, the function will
/// return error.WouldBlock when EAGAIN is received.
pub fn recvfrom(
sockfd: socket_t,
buf: []u8,
flags: u32,
src_addr: ?*sockaddr,
addrlen: ?*socklen_t,
) RecvFromError!usize {
while (true) {
const rc = system.recvfrom(sockfd, buf.ptr, buf.len, flags, src_addr, addrlen);
if (native_os == .windows) {
if (rc == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable,
.WSAECONNRESET => return error.ConnectionResetByPeer,
.WSAEINVAL => return error.SocketNotBound,
.WSAEMSGSIZE => return error.MessageTooBig,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAENOTCONN => return error.SocketNotConnected,
.WSAEWOULDBLOCK => return error.WouldBlock,
.WSAETIMEDOUT => return error.ConnectionTimedOut,
// TODO: handle more errors
else => |err| return windows.unexpectedWSAError(err),
}
} else {
return @intCast(rc);
}
} else {
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.BADF => unreachable, // always a race condition
.FAULT => unreachable,
.INVAL => unreachable,
.NOTCONN => return error.SocketNotConnected,
.NOTSOCK => unreachable,
.INTR => continue,
.AGAIN => return error.WouldBlock,
.NOMEM => return error.SystemResources,
.CONNREFUSED => return error.ConnectionRefused,
.CONNRESET => return error.ConnectionResetByPeer,
.TIMEDOUT => return error.ConnectionTimedOut,
else => |err| return unexpectedErrno(err),
}
}
}
}
pub const DnExpandError = error{InvalidDnsPacket};
pub fn dn_expand(
msg: []const u8,
comp_dn: []const u8,
exp_dn: []u8,
) DnExpandError!usize {
// This implementation is ported from musl libc.
// A more idiomatic "ziggy" implementation would be welcome.
var p = comp_dn.ptr;
var len: usize = maxInt(usize);
const end = msg.ptr + msg.len;
if (p == end or exp_dn.len == 0) return error.InvalidDnsPacket;
var dest = exp_dn.ptr;
const dend = dest + @min(exp_dn.len, 254);
// detect reference loop using an iteration counter
var i: usize = 0;
while (i < msg.len) : (i += 2) {
// loop invariants: p<end, dest<dend
if ((p[0] & 0xc0) != 0) {
if (p + 1 == end) return error.InvalidDnsPacket;
const j = @as(usize, p[0] & 0x3f) << 8 | p[1];
if (len == maxInt(usize)) len = @intFromPtr(p) + 2 - @intFromPtr(comp_dn.ptr);
if (j >= msg.len) return error.InvalidDnsPacket;
p = msg.ptr + j;
} else if (p[0] != 0) {
if (dest != exp_dn.ptr) {
dest[0] = '.';
dest += 1;
}
var j = p[0];
p += 1;
if (j >= @intFromPtr(end) - @intFromPtr(p) or j >= @intFromPtr(dend) - @intFromPtr(dest)) {
return error.InvalidDnsPacket;
}
while (j != 0) {
j -= 1;
dest[0] = p[0];
dest += 1;
p += 1;
}
} else {
dest[0] = 0;
if (len == maxInt(usize)) len = @intFromPtr(p) + 1 - @intFromPtr(comp_dn.ptr);
return len;
}
}
return error.InvalidDnsPacket;
}
pub const SetSockOptError = error{
/// The socket is already connected, and a specified option cannot be set while the socket is connected.
AlreadyConnected,
/// The option is not supported by the protocol.
InvalidProtocolOption,
/// The send and receive timeout values are too big to fit into the timeout fields in the socket structure.
TimeoutTooBig,
/// Insufficient resources are available in the system to complete the call.
SystemResources,
// Setting the socket option requires more elevated permissions.
PermissionDenied,
NetworkSubsystemFailed,
FileDescriptorNotASocket,
SocketNotBound,
NoDevice,
} || UnexpectedError;
/// Set a socket's options.
pub fn setsockopt(fd: socket_t, level: i32, optname: u32, opt: []const u8) SetSockOptError!void {
if (native_os == .windows) {
const rc = windows.ws2_32.setsockopt(fd, level, @intCast(optname), opt.ptr, @intCast(opt.len));
if (rc == windows.ws2_32.SOCKET_ERROR) {
switch (windows.ws2_32.WSAGetLastError()) {
.WSANOTINITIALISED => unreachable,
.WSAENETDOWN => return error.NetworkSubsystemFailed,
.WSAEFAULT => unreachable,
.WSAENOTSOCK => return error.FileDescriptorNotASocket,
.WSAEINVAL => return error.SocketNotBound,
else => |err| return windows.unexpectedWSAError(err),
}
}
return;
} else {
switch (errno(system.setsockopt(fd, level, optname, opt.ptr, @intCast(opt.len)))) {
.SUCCESS => {},
.BADF => unreachable, // always a race condition
.NOTSOCK => unreachable, // always a race condition
.INVAL => unreachable,
.FAULT => unreachable,
.DOM => return error.TimeoutTooBig,
.ISCONN => return error.AlreadyConnected,
.NOPROTOOPT => return error.InvalidProtocolOption,
.NOMEM => return error.SystemResources,
.NOBUFS => return error.SystemResources,
.PERM => return error.PermissionDenied,
.NODEV => return error.NoDevice,
else => |err| return unexpectedErrno(err),
}
}
}
pub const MemFdCreateError = error{
SystemFdQuotaExceeded,
ProcessFdQuotaExceeded,
OutOfMemory,
/// Either the name provided exceeded `NAME_MAX`, or invalid flags were passed.
NameTooLong,
} || UnexpectedError;
pub fn memfd_createZ(name: [*:0]const u8, flags: u32) MemFdCreateError!fd_t {
switch (native_os) {
.linux => {
// memfd_create is available only in glibc versions starting with 2.27.
const use_c = std.c.versionCheck(.{ .major = 2, .minor = 27, .patch = 0 });
const sys = if (use_c) std.c else linux;
const rc = sys.memfd_create(name, flags);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.FAULT => unreachable, // name has invalid memory
.INVAL => return error.NameTooLong, // or, program has a bug and flags are faulty
.NFILE => return error.SystemFdQuotaExceeded,
.MFILE => return error.ProcessFdQuotaExceeded,
.NOMEM => return error.OutOfMemory,
else => |err| return unexpectedErrno(err),
}
},
.freebsd => {
if (comptime builtin.os.version_range.semver.max.order(.{ .major = 13, .minor = 0, .patch = 0 }) == .lt)
@compileError("memfd_create is unavailable on FreeBSD < 13.0");
const rc = system.memfd_create(name, flags);
switch (errno(rc)) {
.SUCCESS => return rc,
.BADF => unreachable, // name argument NULL
.INVAL => unreachable, // name too long or invalid/unsupported flags.
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NOSYS => return error.SystemOutdated,
else => |err| return unexpectedErrno(err),
}
},
else => @compileError("target OS does not support memfd_create()"),
}
}
pub fn memfd_create(name: []const u8, flags: u32) MemFdCreateError!fd_t {
var buffer: [NAME_MAX - "memfd:".len - 1:0]u8 = undefined;
if (name.len > buffer.len) return error.NameTooLong;
@memcpy(buffer[0..name.len], name);
buffer[name.len] = 0;
return memfd_createZ(&buffer, flags);
}
pub fn getrusage(who: i32) rusage {
var result: rusage = undefined;
const rc = system.getrusage(who, &result);
switch (errno(rc)) {
.SUCCESS => return result,
.INVAL => unreachable,
.FAULT => unreachable,
else => unreachable,
}
}
pub const TIOCError = error{NotATerminal};
pub const TermiosGetError = TIOCError || UnexpectedError;
pub fn tcgetattr(handle: fd_t) TermiosGetError!termios {
while (true) {
var term: termios = undefined;
switch (errno(system.tcgetattr(handle, &term))) {
.SUCCESS => return term,
.INTR => continue,
.BADF => unreachable,
.NOTTY => return error.NotATerminal,
else => |err| return unexpectedErrno(err),
}
}
}
pub const TermiosSetError = TermiosGetError || error{ProcessOrphaned};
pub fn tcsetattr(handle: fd_t, optional_action: TCSA, termios_p: termios) TermiosSetError!void {
while (true) {
switch (errno(system.tcsetattr(handle, optional_action, &termios_p))) {
.SUCCESS => return,
.BADF => unreachable,
.INTR => continue,
.INVAL => unreachable,
.NOTTY => return error.NotATerminal,
.IO => return error.ProcessOrphaned,
else => |err| return unexpectedErrno(err),
}
}
}
pub const TermioGetPgrpError = TIOCError || UnexpectedError;
/// Returns the process group ID for the TTY associated with the given handle.
pub fn tcgetpgrp(handle: fd_t) TermioGetPgrpError!pid_t {
while (true) {
var pgrp: pid_t = undefined;
switch (errno(system.tcgetpgrp(handle, &pgrp))) {
.SUCCESS => return pgrp,
.BADF => unreachable,
.INVAL => unreachable,
.INTR => continue,
.NOTTY => return error.NotATerminal,
else => |err| return unexpectedErrno(err),
}
}
}
pub const TermioSetPgrpError = TermioGetPgrpError || error{NotAPgrpMember};
/// Sets the controlling process group ID for given TTY.
/// handle must be valid fd_t to a TTY associated with calling process.
/// pgrp must be a valid process group, and the calling process must be a member
/// of that group.
pub fn tcsetpgrp(handle: fd_t, pgrp: pid_t) TermioSetPgrpError!void {
while (true) {
switch (errno(system.tcsetpgrp(handle, &pgrp))) {
.SUCCESS => return,
.BADF => unreachable,
.INVAL => unreachable,
.INTR => continue,
.NOTTY => return error.NotATerminal,
.PERM => return TermioSetPgrpError.NotAPgrpMember,
else => |err| return unexpectedErrno(err),
}
}
}
pub fn signalfd(fd: fd_t, mask: *const sigset_t, flags: u32) !fd_t {
const rc = system.signalfd(fd, mask, flags);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.BADF, .INVAL => unreachable,
.NFILE => return error.SystemFdQuotaExceeded,
.NOMEM => return error.SystemResources,
.MFILE => return error.ProcessResources,
.NODEV => return error.InodeMountFail,
else => |err| return unexpectedErrno(err),
}
}
pub const SyncError = error{
InputOutput,
NoSpaceLeft,
DiskQuota,
AccessDenied,
} || UnexpectedError;
/// Write all pending file contents and metadata modifications to all filesystems.
pub fn sync() void {
system.sync();
}
/// Write all pending file contents and metadata modifications to the filesystem which contains the specified file.
pub fn syncfs(fd: fd_t) SyncError!void {
const rc = system.syncfs(fd);
switch (errno(rc)) {
.SUCCESS => return,
.BADF, .INVAL, .ROFS => unreachable,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.DQUOT => return error.DiskQuota,
else => |err| return unexpectedErrno(err),
}
}
/// Write all pending file contents and metadata modifications for the specified file descriptor to the underlying filesystem.
pub fn fsync(fd: fd_t) SyncError!void {
if (native_os == .windows) {
if (windows.kernel32.FlushFileBuffers(fd) != 0)
return;
switch (windows.GetLastError()) {
.SUCCESS => return,
.INVALID_HANDLE => unreachable,
.ACCESS_DENIED => return error.AccessDenied, // a sync was performed but the system couldn't update the access time
.UNEXP_NET_ERR => return error.InputOutput,
else => return error.InputOutput,
}
}
const rc = system.fsync(fd);
switch (errno(rc)) {
.SUCCESS => return,
.BADF, .INVAL, .ROFS => unreachable,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.DQUOT => return error.DiskQuota,
else => |err| return unexpectedErrno(err),
}
}
/// Write all pending file contents for the specified file descriptor to the underlying filesystem, but not necessarily the metadata.
pub fn fdatasync(fd: fd_t) SyncError!void {
if (native_os == .windows) {
return fsync(fd) catch |err| switch (err) {
SyncError.AccessDenied => return, // fdatasync doesn't promise that the access time was synced
else => return err,
};
}
const rc = system.fdatasync(fd);
switch (errno(rc)) {
.SUCCESS => return,
.BADF, .INVAL, .ROFS => unreachable,
.IO => return error.InputOutput,
.NOSPC => return error.NoSpaceLeft,
.DQUOT => return error.DiskQuota,
else => |err| return unexpectedErrno(err),
}
}
pub const PrctlError = error{
/// Can only occur with PR_SET_SECCOMP/SECCOMP_MODE_FILTER or
/// PR_SET_MM/PR_SET_MM_EXE_FILE
AccessDenied,
/// Can only occur with PR_SET_MM/PR_SET_MM_EXE_FILE
InvalidFileDescriptor,
InvalidAddress,
/// Can only occur with PR_SET_SPECULATION_CTRL, PR_MPX_ENABLE_MANAGEMENT,
/// or PR_MPX_DISABLE_MANAGEMENT
UnsupportedFeature,
/// Can only occur with PR_SET_FP_MODE
OperationNotSupported,
PermissionDenied,
} || UnexpectedError;
pub fn prctl(option: PR, args: anytype) PrctlError!u31 {
if (@typeInfo(@TypeOf(args)) != .Struct)
@compileError("Expected tuple or struct argument, found " ++ @typeName(@TypeOf(args)));
if (args.len > 4)
@compileError("prctl takes a maximum of 4 optional arguments");
var buf: [4]usize = undefined;
{
comptime var i = 0;
inline while (i < args.len) : (i += 1) buf[i] = args[i];
}
const rc = system.prctl(@intFromEnum(option), buf[0], buf[1], buf[2], buf[3]);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.ACCES => return error.AccessDenied,
.BADF => return error.InvalidFileDescriptor,
.FAULT => return error.InvalidAddress,
.INVAL => unreachable,
.NODEV, .NXIO => return error.UnsupportedFeature,
.OPNOTSUPP => return error.OperationNotSupported,
.PERM, .BUSY => return error.PermissionDenied,
.RANGE => unreachable,
else => |err| return unexpectedErrno(err),
}
}
pub const GetrlimitError = UnexpectedError;
pub fn getrlimit(resource: rlimit_resource) GetrlimitError!rlimit {
const getrlimit_sym = if (lfs64_abi) system.getrlimit64 else system.getrlimit;
var limits: rlimit = undefined;
switch (errno(getrlimit_sym(resource, &limits))) {
.SUCCESS => return limits,
.FAULT => unreachable, // bogus pointer
.INVAL => unreachable,
else => |err| return unexpectedErrno(err),
}
}
pub const SetrlimitError = error{ PermissionDenied, LimitTooBig } || UnexpectedError;
pub fn setrlimit(resource: rlimit_resource, limits: rlimit) SetrlimitError!void {
const setrlimit_sym = if (lfs64_abi) system.setrlimit64 else system.setrlimit;
switch (errno(setrlimit_sym(resource, &limits))) {
.SUCCESS => return,
.FAULT => unreachable, // bogus pointer
.INVAL => return error.LimitTooBig, // this could also mean "invalid resource", but that would be unreachable
.PERM => return error.PermissionDenied,
else => |err| return unexpectedErrno(err),
}
}
pub const MincoreError = error{
/// A kernel resource was temporarily unavailable.
SystemResources,
/// vec points to an invalid address.
InvalidAddress,
/// addr is not page-aligned.
InvalidSyscall,
/// One of the following:
/// * length is greater than user space TASK_SIZE - addr
/// * addr + length contains unmapped memory
OutOfMemory,
/// The mincore syscall is not available on this version and configuration
/// of this UNIX-like kernel.
MincoreUnavailable,
} || UnexpectedError;
/// Determine whether pages are resident in memory.
pub fn mincore(ptr: [*]align(mem.page_size) u8, length: usize, vec: [*]u8) MincoreError!void {
return switch (errno(system.mincore(ptr, length, vec))) {
.SUCCESS => {},
.AGAIN => error.SystemResources,
.FAULT => error.InvalidAddress,
.INVAL => error.InvalidSyscall,
.NOMEM => error.OutOfMemory,
.NOSYS => error.MincoreUnavailable,
else => |err| unexpectedErrno(err),
};
}
pub const MadviseError = error{
/// advice is MADV.REMOVE, but the specified address range is not a shared writable mapping.
AccessDenied,
/// advice is MADV.HWPOISON, but the caller does not have the CAP_SYS_ADMIN capability.
PermissionDenied,
/// A kernel resource was temporarily unavailable.
SystemResources,
/// One of the following:
/// * addr is not page-aligned or length is negative
/// * advice is not valid
/// * advice is MADV.DONTNEED or MADV.REMOVE and the specified address range
/// includes locked, Huge TLB pages, or VM_PFNMAP pages.
/// * advice is MADV.MERGEABLE or MADV.UNMERGEABLE, but the kernel was not
/// configured with CONFIG_KSM.
/// * advice is MADV.FREE or MADV.WIPEONFORK but the specified address range
/// includes file, Huge TLB, MAP.SHARED, or VM_PFNMAP ranges.
InvalidSyscall,
/// (for MADV.WILLNEED) Paging in this area would exceed the process's
/// maximum resident set size.
WouldExceedMaximumResidentSetSize,
/// One of the following:
/// * (for MADV.WILLNEED) Not enough memory: paging in failed.
/// * Addresses in the specified range are not currently mapped, or
/// are outside the address space of the process.
OutOfMemory,
/// The madvise syscall is not available on this version and configuration
/// of the Linux kernel.
MadviseUnavailable,
/// The operating system returned an undocumented error code.
Unexpected,
};
/// Give advice about use of memory.
/// This syscall is optional and is sometimes configured to be disabled.
pub fn madvise(ptr: [*]align(mem.page_size) u8, length: usize, advice: u32) MadviseError!void {
switch (errno(system.madvise(ptr, length, advice))) {
.SUCCESS => return,
.ACCES => return error.AccessDenied,
.AGAIN => return error.SystemResources,
.BADF => unreachable, // The map exists, but the area maps something that isn't a file.
.INVAL => return error.InvalidSyscall,
.IO => return error.WouldExceedMaximumResidentSetSize,
.NOMEM => return error.OutOfMemory,
.NOSYS => return error.MadviseUnavailable,
else => |err| return unexpectedErrno(err),
}
}
pub const PerfEventOpenError = error{
/// Returned if the perf_event_attr size value is too small (smaller
/// than PERF_ATTR_SIZE_VER0), too big (larger than the page size),
/// or larger than the kernel supports and the extra bytes are not
/// zero. When E2BIG is returned, the perf_event_attr size field is
/// overwritten by the kernel to be the size of the structure it was
/// expecting.
TooBig,
/// Returned when the requested event requires CAP_SYS_ADMIN permis
/// sions (or a more permissive perf_event paranoid setting). Some
/// common cases where an unprivileged process may encounter this
/// error: attaching to a process owned by a different user; moni
/// toring all processes on a given CPU (i.e., specifying the pid
/// argument as -1); and not setting exclude_kernel when the para
/// noid setting requires it.
/// Also:
/// Returned on many (but not all) architectures when an unsupported
/// exclude_hv, exclude_idle, exclude_user, or exclude_kernel set
/// ting is specified.
/// It can also happen, as with EACCES, when the requested event re
/// quires CAP_SYS_ADMIN permissions (or a more permissive
/// perf_event paranoid setting). This includes setting a break
/// point on a kernel address, and (since Linux 3.13) setting a ker
/// nel function-trace tracepoint.
PermissionDenied,
/// Returned if another event already has exclusive access to the
/// PMU.
DeviceBusy,
/// Each opened event uses one file descriptor. If a large number
/// of events are opened, the per-process limit on the number of
/// open file descriptors will be reached, and no more events can be
/// created.
ProcessResources,
EventRequiresUnsupportedCpuFeature,
/// Returned if you try to add more breakpoint
/// events than supported by the hardware.
TooManyBreakpoints,
/// Returned if PERF_SAMPLE_STACK_USER is set in sample_type and it
/// is not supported by hardware.
SampleStackNotSupported,
/// Returned if an event requiring a specific hardware feature is
/// requested but there is no hardware support. This includes re
/// questing low-skid events if not supported, branch tracing if it
/// is not available, sampling if no PMU interrupt is available, and
/// branch stacks for software events.
EventNotSupported,
/// Returned if PERF_SAMPLE_CALLCHAIN is requested and sam
/// ple_max_stack is larger than the maximum specified in
/// /proc/sys/kernel/perf_event_max_stack.
SampleMaxStackOverflow,
/// Returned if attempting to attach to a process that does not exist.
ProcessNotFound,
} || UnexpectedError;
pub fn perf_event_open(
attr: *system.perf_event_attr,
pid: pid_t,
cpu: i32,
group_fd: fd_t,
flags: usize,
) PerfEventOpenError!fd_t {
if (native_os == .linux) {
// There is no syscall wrapper for this function exposed by libcs
const rc = linux.perf_event_open(attr, pid, cpu, group_fd, flags);
switch (errno(rc)) {
.SUCCESS => return @intCast(rc),
.@"2BIG" => return error.TooBig,
.ACCES => return error.PermissionDenied,
.BADF => unreachable, // group_fd file descriptor is not valid.
.BUSY => return error.DeviceBusy,
.FAULT => unreachable, // Segmentation fault.
.INVAL => unreachable, // Bad attr settings.
.INTR => unreachable, // Mixed perf and ftrace handling for a uprobe.
.MFILE => return error.ProcessResources,
.NODEV => return error.EventRequiresUnsupportedCpuFeature,
.NOENT => unreachable, // Invalid type setting.
.NOSPC => return error.TooManyBreakpoints,
.NOSYS => return error.SampleStackNotSupported,
.OPNOTSUPP => return error.EventNotSupported,
.OVERFLOW => return error.SampleMaxStackOverflow,
.PERM => return error.PermissionDenied,
.SRCH => return error.ProcessNotFound,
else => |err| return unexpectedErrno(err),
}
}
}
pub const TimerFdCreateError = error{
AccessDenied,
ProcessFdQuotaExceeded,
SystemFdQuotaExceeded,
NoDevice,
SystemResources,
} || UnexpectedError;
pub const TimerFdGetError = error{InvalidHandle} || UnexpectedError;
pub const TimerFdSetError = TimerFdGetError || error{Canceled};
pub fn timerfd_create(clock_id: clockid_t, flags: system.TFD) TimerFdCreateError!fd_t {
const rc = system.timerfd_create(clock_id, @bitCast(flags));
return switch (errno(rc)) {
.SUCCESS => @intCast(rc),
.INVAL => unreachable,
.MFILE => return error.ProcessFdQuotaExceeded,
.NFILE => return error.SystemFdQuotaExceeded,
.NODEV => return error.NoDevice,
.NOMEM => return error.SystemResources,
.PERM => return error.AccessDenied,
else => |err| return unexpectedErrno(err),
};
}
pub fn timerfd_settime(
fd: i32,
flags: system.TFD.TIMER,
new_value: *const system.itimerspec,
old_value: ?*system.itimerspec,
) TimerFdSetError!void {
const rc = system.timerfd_settime(fd, @bitCast(flags), new_value, old_value);
return switch (errno(rc)) {
.SUCCESS => {},
.BADF => error.InvalidHandle,
.FAULT => unreachable,
.INVAL => unreachable,
.CANCELED => error.Canceled,
else => |err| return unexpectedErrno(err),
};
}
pub fn timerfd_gettime(fd: i32) TimerFdGetError!system.itimerspec {
var curr_value: system.itimerspec = undefined;
const rc = system.timerfd_gettime(fd, &curr_value);
return switch (errno(rc)) {
.SUCCESS => return curr_value,
.BADF => error.InvalidHandle,
.FAULT => unreachable,
.INVAL => unreachable,
else => |err| return unexpectedErrno(err),
};
}
pub const PtraceError = error{
DeviceBusy,
InputOutput,
ProcessNotFound,
PermissionDenied,
} || UnexpectedError;
pub fn ptrace(request: u32, pid: pid_t, addr: usize, signal: usize) PtraceError!void {
if (native_os == .windows or native_os == .wasi)
@compileError("Unsupported OS");
return switch (native_os) {
.linux => switch (errno(linux.ptrace(request, pid, addr, signal, 0))) {
.SUCCESS => {},
.SRCH => error.ProcessNotFound,
.FAULT => unreachable,
.INVAL => unreachable,
.IO => return error.InputOutput,
.PERM => error.PermissionDenied,
.BUSY => error.DeviceBusy,
else => |err| return unexpectedErrno(err),
},
.macos, .ios, .tvos, .watchos, .visionos => switch (errno(std.c.ptrace(
@intCast(request),
pid,
@ptrFromInt(addr),
@intCast(signal),
))) {
.SUCCESS => {},
.SRCH => error.ProcessNotFound,
.INVAL => unreachable,
.PERM => error.PermissionDenied,
.BUSY => error.DeviceBusy,
else => |err| return unexpectedErrno(err),
},
else => switch (errno(system.ptrace(request, pid, addr, signal))) {
.SUCCESS => {},
.SRCH => error.ProcessNotFound,
.INVAL => unreachable,
.PERM => error.PermissionDenied,
.BUSY => error.DeviceBusy,
else => |err| return unexpectedErrno(err),
},
};
}
pub const NameToFileHandleAtError = error{
FileNotFound,
NotDir,
OperationNotSupported,
NameTooLong,
Unexpected,
};
pub fn name_to_handle_at(
dirfd: fd_t,
pathname: []const u8,
handle: *std.os.linux.file_handle,
mount_id: *i32,
flags: u32,
) NameToFileHandleAtError!void {
const pathname_c = try toPosixPath(pathname);
return name_to_handle_atZ(dirfd, &pathname_c, handle, mount_id, flags);
}
pub fn name_to_handle_atZ(
dirfd: fd_t,
pathname_z: [*:0]const u8,
handle: *std.os.linux.file_handle,
mount_id: *i32,
flags: u32,
) NameToFileHandleAtError!void {
switch (errno(system.name_to_handle_at(dirfd, pathname_z, handle, mount_id, flags))) {
.SUCCESS => {},
.FAULT => unreachable, // pathname, mount_id, or handle outside accessible address space
.INVAL => unreachable, // bad flags, or handle_bytes too big
.NOENT => return error.FileNotFound,
.NOTDIR => return error.NotDir,
.OPNOTSUPP => return error.OperationNotSupported,
.OVERFLOW => return error.NameTooLong,
else => |err| return unexpectedErrno(err),
}
}
pub const IoCtl_SIOCGIFINDEX_Error = error{
FileSystem,
InterfaceNotFound,
} || UnexpectedError;
pub fn ioctl_SIOCGIFINDEX(fd: fd_t, ifr: *ifreq) IoCtl_SIOCGIFINDEX_Error!void {
while (true) {
switch (errno(system.ioctl(fd, SIOCGIFINDEX, @intFromPtr(ifr)))) {
.SUCCESS => return,
.INVAL => unreachable, // Bad parameters.
.NOTTY => unreachable,
.NXIO => unreachable,
.BADF => unreachable, // Always a race condition.
.FAULT => unreachable, // Bad pointer parameter.
.INTR => continue,
.IO => return error.FileSystem,
.NODEV => return error.InterfaceNotFound,
else => |err| return unexpectedErrno(err),
}
}
}
const lfs64_abi = native_os == .linux and builtin.link_libc and builtin.abi.isGnu();
/// Whether or not `error.Unexpected` will print its value and a stack trace.
///
/// If this happens the fix is to add the error code to the corresponding
/// switch expression, possibly introduce a new error in the error set, and
/// send a patch to Zig.
pub const unexpected_error_tracing = builtin.zig_backend == .stage2_llvm and builtin.mode == .Debug;
pub const UnexpectedError = error{
/// The Operating System returned an undocumented error code.
///
/// This error is in theory not possible, but it would be better
/// to handle this error than to invoke undefined behavior.
///
/// When this error code is observed, it usually means the Zig Standard
/// Library needs a small patch to add the error code to the error set for
/// the respective function.
Unexpected,
};
/// Call this when you made a syscall or something that sets errno
/// and you get an unexpected error.
pub fn unexpectedErrno(err: E) UnexpectedError {
if (unexpected_error_tracing) {
std.debug.print("unexpected errno: {d}\n", .{@intFromEnum(err)});
std.debug.dumpCurrentStackTrace(null);
}
return error.Unexpected;
}
/// Used to convert a slice to a null terminated slice on the stack.
pub fn toPosixPath(file_path: []const u8) error{NameTooLong}![PATH_MAX - 1:0]u8 {
if (std.debug.runtime_safety) assert(mem.indexOfScalar(u8, file_path, 0) == null);
var path_with_null: [PATH_MAX - 1:0]u8 = undefined;
// >= rather than > to make room for the null byte
if (file_path.len >= PATH_MAX) return error.NameTooLong;
@memcpy(path_with_null[0..file_path.len], file_path);
path_with_null[file_path.len] = 0;
return path_with_null;
}
Reference in New Issue View Git Blame Copy Permalink