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zig/lib/std/posix.zig
Hila Friedman a76e98e7d5 remove length assertion from mprotect
2024-08-31 20:59:47 -07:00

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//! 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 pid_t = void;
pub const pollfd = void;
pub const fd_t = void;
pub const uid_t = void;
pub const gid_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 {
@branchHint(.cold);
// 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,
/// reading a timerfd with CANCEL_ON_SET will lead to this error
/// when the clock goes through a discontinuous change
Canceled,
/// 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,
.CANCELED => return error.Canceled,
.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) LinkError!void {
if (native_os == .wasi and !builtin.link_libc) {
return link(mem.sliceTo(oldpath, 0), mem.sliceTo(newpath, 0));
}
switch (errno(system.link(oldpath, newpath))) {
.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) LinkError!void {
if (native_os == .wasi and !builtin.link_libc) {
return linkat(wasi.AT.FDCWD, oldpath, wasi.AT.FDCWD, newpath, 0) 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);
}
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;
pub fn mprotect(memory: []align(mem.page_size) u8, protection: u32) MProtectError!void {
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,
PermissionDenied,
} || 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,
.PERM => return error.PermissionDenied,
.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,
.PERM => return error.PermissionDenied,
.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;
}
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