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//! libc syscalls supporting `rustix::fs`.
use crate::backend::c;
#[cfg(any(
not(target_os = "redox"),
feature = "alloc",
all(linux_kernel, feature = "procfs")
))]
use crate::backend::conv::ret_usize;
use crate::backend::conv::{borrowed_fd, c_str, ret, ret_c_int, ret_off_t, ret_owned_fd};
use crate::fd::{BorrowedFd, OwnedFd};
use crate::ffi::CStr;
#[cfg(all(apple, feature = "alloc"))]
use crate::ffi::CString;
#[cfg(not(any(target_os = "espidf", target_os = "vita")))]
use crate::fs::Access;
#[cfg(not(any(
apple,
netbsdlike,
solarish,
target_os = "dragonfly",
target_os = "espidf",
target_os = "haiku",
target_os = "redox",
target_os = "vita",
)))]
use crate::fs::Advice;
#[cfg(not(any(target_os = "espidf", target_os = "redox")))]
use crate::fs::AtFlags;
#[cfg(not(any(
netbsdlike,
solarish,
target_os = "dragonfly",
target_os = "espidf",
target_os = "nto",
target_os = "redox",
target_os = "vita",
)))]
use crate::fs::FallocateFlags;
#[cfg(not(any(target_os = "espidf", target_os = "vita", target_os = "wasi")))]
use crate::fs::FlockOperation;
#[cfg(any(linux_kernel, target_os = "freebsd"))]
use crate::fs::MemfdFlags;
#[cfg(any(linux_kernel, target_os = "freebsd", target_os = "fuchsia"))]
use crate::fs::SealFlags;
#[cfg(not(any(
solarish,
target_os = "espidf",
target_os = "haiku",
target_os = "netbsd",
target_os = "nto",
target_os = "redox",
target_os = "vita",
target_os = "wasi",
)))]
use crate::fs::StatFs;
#[cfg(not(any(target_os = "espidf", target_os = "vita")))]
use crate::fs::Timestamps;
#[cfg(not(any(
apple,
target_os = "espidf",
target_os = "redox",
target_os = "vita",
target_os = "wasi"
)))]
use crate::fs::{Dev, FileType};
use crate::fs::{Mode, OFlags, SeekFrom, Stat};
#[cfg(not(any(target_os = "haiku", target_os = "redox", target_os = "wasi")))]
use crate::fs::{StatVfs, StatVfsMountFlags};
use crate::io;
#[cfg(all(target_env = "gnu", fix_y2038))]
use crate::timespec::LibcTimespec;
#[cfg(not(target_os = "wasi"))]
use crate::ugid::{Gid, Uid};
#[cfg(all(apple, feature = "alloc"))]
use alloc::vec;
use core::mem::MaybeUninit;
#[cfg(apple)]
use {
crate::backend::conv::nonnegative_ret,
crate::fs::{copyfile_state_t, CloneFlags, CopyfileFlags},
};
#[cfg(any(apple, linux_kernel))]
use {crate::fs::XattrFlags, core::mem::size_of, core::ptr::null_mut};
#[cfg(linux_kernel)]
use {
crate::fs::{RenameFlags, ResolveFlags, Statx, StatxFlags, CWD},
core::ptr::null,
};
#[cfg(all(target_env = "gnu", fix_y2038))]
weak!(fn __utimensat64(c::c_int, *const c::c_char, *const LibcTimespec, c::c_int) -> c::c_int);
#[cfg(all(target_env = "gnu", fix_y2038))]
weak!(fn __futimens64(c::c_int, *const LibcTimespec) -> c::c_int);
/// Use a direct syscall (via libc) for `open`.
///
/// This is only currently necessary as a workaround for old glibc; see below.
#[cfg(all(unix, target_env = "gnu"))]
fn open_via_syscall(path: &CStr, oflags: OFlags, mode: Mode) -> io::Result<OwnedFd> {
// Linux on aarch64, loongarch64 and riscv64 has no `open` syscall so use
// `openat`.
#[cfg(any(
target_arch = "aarch64",
target_arch = "riscv32",
target_arch = "riscv64",
target_arch = "csky",
target_arch = "loongarch64"
))]
{
openat_via_syscall(CWD, path, oflags, mode)
}
// Use the `open` syscall.
#[cfg(not(any(
target_arch = "aarch64",
target_arch = "riscv32",
target_arch = "riscv64",
target_arch = "csky",
target_arch = "loongarch64"
)))]
unsafe {
syscall! {
fn open(
pathname: *const c::c_char,
oflags: c::c_int,
mode: c::mode_t
) via SYS_open -> c::c_int
}
ret_owned_fd(open(
c_str(path),
bitflags_bits!(oflags),
bitflags_bits!(mode),
))
}
}
pub(crate) fn open(path: &CStr, oflags: OFlags, mode: Mode) -> io::Result<OwnedFd> {
// glibc versions before 2.25 don't handle `O_TMPFILE` correctly.
#[cfg(all(
unix,
target_env = "gnu",
not(target_os = "hurd"),
not(target_os = "freebsd")
))]
if oflags.contains(OFlags::TMPFILE) && crate::backend::if_glibc_is_less_than_2_25() {
return open_via_syscall(path, oflags, mode);
}
// On these platforms, `mode_t` is `u16` and can't be passed directly to a
// variadic function.
#[cfg(any(
apple,
freebsdlike,
all(target_os = "android", target_pointer_width = "32")
))]
let mode: c::c_uint = mode.bits().into();
// Otherwise, cast to `mode_t` as that's what `open` is documented to take.
#[cfg(not(any(
apple,
freebsdlike,
all(target_os = "android", target_pointer_width = "32")
)))]
let mode: c::mode_t = mode.bits() as _;
unsafe { ret_owned_fd(c::open(c_str(path), bitflags_bits!(oflags), mode)) }
}
/// Use a direct syscall (via libc) for `openat`.
///
/// This is only currently necessary as a workaround for old glibc; see below.
#[cfg(all(unix, target_env = "gnu", not(target_os = "hurd")))]
fn openat_via_syscall(
dirfd: BorrowedFd<'_>,
path: &CStr,
oflags: OFlags,
mode: Mode,
) -> io::Result<OwnedFd> {
syscall! {
fn openat(
base_dirfd: c::c_int,
pathname: *const c::c_char,
oflags: c::c_int,
mode: c::mode_t
) via SYS_openat -> c::c_int
}
unsafe {
ret_owned_fd(openat(
borrowed_fd(dirfd),
c_str(path),
bitflags_bits!(oflags),
bitflags_bits!(mode),
))
}
}
#[cfg(not(target_os = "redox"))]
pub(crate) fn openat(
dirfd: BorrowedFd<'_>,
path: &CStr,
oflags: OFlags,
mode: Mode,
) -> io::Result<OwnedFd> {
// glibc versions before 2.25 don't handle `O_TMPFILE` correctly.
#[cfg(all(
unix,
target_env = "gnu",
not(target_os = "hurd"),
not(target_os = "freebsd")
))]
if oflags.contains(OFlags::TMPFILE) && crate::backend::if_glibc_is_less_than_2_25() {
return openat_via_syscall(dirfd, path, oflags, mode);
}
// On these platforms, `mode_t` is `u16` and can't be passed directly to a
// variadic function.
#[cfg(any(
apple,
freebsdlike,
all(target_os = "android", target_pointer_width = "32")
))]
let mode: c::c_uint = mode.bits().into();
// Otherwise, cast to `mode_t` as that's what `open` is documented to take.
#[cfg(not(any(
apple,
freebsdlike,
all(target_os = "android", target_pointer_width = "32")
)))]
let mode: c::mode_t = mode.bits() as _;
unsafe {
ret_owned_fd(c::openat(
borrowed_fd(dirfd),
c_str(path),
bitflags_bits!(oflags),
mode,
))
}
}
#[cfg(not(any(
solarish,
target_os = "espidf",
target_os = "haiku",
target_os = "netbsd",
target_os = "nto",
target_os = "redox",
target_os = "vita",
target_os = "wasi",
)))]
#[inline]
pub(crate) fn statfs(filename: &CStr) -> io::Result<StatFs> {
unsafe {
let mut result = MaybeUninit::<StatFs>::uninit();
ret(c::statfs(c_str(filename), result.as_mut_ptr()))?;
Ok(result.assume_init())
}
}
#[cfg(not(any(target_os = "haiku", target_os = "redox", target_os = "wasi")))]
#[inline]
pub(crate) fn statvfs(filename: &CStr) -> io::Result<StatVfs> {
unsafe {
let mut result = MaybeUninit::<c::statvfs>::uninit();
ret(c::statvfs(c_str(filename), result.as_mut_ptr()))?;
Ok(libc_statvfs_to_statvfs(result.assume_init()))
}
}
#[cfg(feature = "alloc")]
#[inline]
pub(crate) fn readlink(path: &CStr, buf: &mut [u8]) -> io::Result<usize> {
unsafe {
ret_usize(
c::readlink(c_str(path), buf.as_mut_ptr().cast::<c::c_char>(), buf.len()) as isize,
)
}
}
#[cfg(not(target_os = "redox"))]
#[inline]
pub(crate) fn readlinkat(
dirfd: BorrowedFd<'_>,
path: &CStr,
buf: &mut [MaybeUninit<u8>],
) -> io::Result<usize> {
unsafe {
ret_usize(c::readlinkat(
borrowed_fd(dirfd),
c_str(path),
buf.as_mut_ptr().cast::<c::c_char>(),
buf.len(),
) as isize)
}
}
pub(crate) fn mkdir(path: &CStr, mode: Mode) -> io::Result<()> {
unsafe { ret(c::mkdir(c_str(path), mode.bits() as c::mode_t)) }
}
#[cfg(not(target_os = "redox"))]
pub(crate) fn mkdirat(dirfd: BorrowedFd<'_>, path: &CStr, mode: Mode) -> io::Result<()> {
unsafe {
ret(c::mkdirat(
borrowed_fd(dirfd),
c_str(path),
mode.bits() as c::mode_t,
))
}
}
#[cfg(linux_kernel)]
pub(crate) fn getdents_uninit(
fd: BorrowedFd<'_>,
buf: &mut [MaybeUninit<u8>],
) -> io::Result<usize> {
syscall! {
fn getdents64(
fd: c::c_int,
dirp: *mut c::c_void,
count: usize
) via SYS_getdents64 -> c::ssize_t
}
unsafe {
ret_usize(getdents64(
borrowed_fd(fd),
buf.as_mut_ptr().cast::<c::c_void>(),
buf.len(),
))
}
}
pub(crate) fn link(old_path: &CStr, new_path: &CStr) -> io::Result<()> {
unsafe { ret(c::link(c_str(old_path), c_str(new_path))) }
}
#[cfg(not(any(target_os = "espidf", target_os = "redox")))]
pub(crate) fn linkat(
old_dirfd: BorrowedFd<'_>,
old_path: &CStr,
new_dirfd: BorrowedFd<'_>,
new_path: &CStr,
flags: AtFlags,
) -> io::Result<()> {
// macOS <= 10.9 lacks `linkat`.
#[cfg(target_os = "macos")]
unsafe {
weak! {
fn linkat(
c::c_int,
*const c::c_char,
c::c_int,
*const c::c_char,
c::c_int
) -> c::c_int
}
// If we have `linkat`, use it.
if let Some(libc_linkat) = linkat.get() {
return ret(libc_linkat(
borrowed_fd(old_dirfd),
c_str(old_path),
borrowed_fd(new_dirfd),
c_str(new_path),
bitflags_bits!(flags),
));
}
// Otherwise, see if we can emulate the `AT_FDCWD` case.
if borrowed_fd(old_dirfd) != c::AT_FDCWD || borrowed_fd(new_dirfd) != c::AT_FDCWD {
return Err(io::Errno::NOSYS);
}
if flags.intersects(!AtFlags::SYMLINK_FOLLOW) {
return Err(io::Errno::INVAL);
}
if !flags.is_empty() {
return Err(io::Errno::OPNOTSUPP);
}
ret(c::link(c_str(old_path), c_str(new_path)))
}
#[cfg(not(target_os = "macos"))]
unsafe {
ret(c::linkat(
borrowed_fd(old_dirfd),
c_str(old_path),
borrowed_fd(new_dirfd),
c_str(new_path),
bitflags_bits!(flags),
))
}
}
pub(crate) fn rmdir(path: &CStr) -> io::Result<()> {
unsafe { ret(c::rmdir(c_str(path))) }
}
pub(crate) fn unlink(path: &CStr) -> io::Result<()> {
unsafe { ret(c::unlink(c_str(path))) }
}
#[cfg(not(any(target_os = "espidf", target_os = "redox")))]
pub(crate) fn unlinkat(dirfd: BorrowedFd<'_>, path: &CStr, flags: AtFlags) -> io::Result<()> {
// macOS <= 10.9 lacks `unlinkat`.
#[cfg(target_os = "macos")]
unsafe {
weak! {
fn unlinkat(
c::c_int,
*const c::c_char,
c::c_int
) -> c::c_int
}
// If we have `unlinkat`, use it.
if let Some(libc_unlinkat) = unlinkat.get() {
return ret(libc_unlinkat(
borrowed_fd(dirfd),
c_str(path),
bitflags_bits!(flags),
));
}
// Otherwise, see if we can emulate the `AT_FDCWD` case.
if borrowed_fd(dirfd) != c::AT_FDCWD {
return Err(io::Errno::NOSYS);
}
if flags.intersects(!AtFlags::REMOVEDIR) {
return Err(io::Errno::INVAL);
}
if flags.contains(AtFlags::REMOVEDIR) {
ret(c::rmdir(c_str(path)))
} else {
ret(c::unlink(c_str(path)))
}
}
#[cfg(not(target_os = "macos"))]
unsafe {
ret(c::unlinkat(
borrowed_fd(dirfd),
c_str(path),
bitflags_bits!(flags),
))
}
}
pub(crate) fn rename(old_path: &CStr, new_path: &CStr) -> io::Result<()> {
unsafe { ret(c::rename(c_str(old_path), c_str(new_path))) }
}
#[cfg(not(target_os = "redox"))]
pub(crate) fn renameat(
old_dirfd: BorrowedFd<'_>,
old_path: &CStr,
new_dirfd: BorrowedFd<'_>,
new_path: &CStr,
) -> io::Result<()> {
// macOS <= 10.9 lacks `renameat`.
#[cfg(target_os = "macos")]
unsafe {
weak! {
fn renameat(
c::c_int,
*const c::c_char,
c::c_int,
*const c::c_char
) -> c::c_int
}
// If we have `renameat`, use it.
if let Some(libc_renameat) = renameat.get() {
return ret(libc_renameat(
borrowed_fd(old_dirfd),
c_str(old_path),
borrowed_fd(new_dirfd),
c_str(new_path),
));
}
// Otherwise, see if we can emulate the `AT_FDCWD` case.
if borrowed_fd(old_dirfd) != c::AT_FDCWD || borrowed_fd(new_dirfd) != c::AT_FDCWD {
return Err(io::Errno::NOSYS);
}
ret(c::rename(c_str(old_path), c_str(new_path)))
}
#[cfg(not(target_os = "macos"))]
unsafe {
ret(c::renameat(
borrowed_fd(old_dirfd),
c_str(old_path),
borrowed_fd(new_dirfd),
c_str(new_path),
))
}
}
#[cfg(all(target_os = "linux", target_env = "gnu"))]
pub(crate) fn renameat2(
old_dirfd: BorrowedFd<'_>,
old_path: &CStr,
new_dirfd: BorrowedFd<'_>,
new_path: &CStr,
flags: RenameFlags,
) -> io::Result<()> {
// `renameat2` wasn't supported in glibc until 2.28.
weak_or_syscall! {
fn renameat2(
olddirfd: c::c_int,
oldpath: *const c::c_char,
newdirfd: c::c_int,
newpath: *const c::c_char,
flags: c::c_uint
) via SYS_renameat2 -> c::c_int
}
unsafe {
ret(renameat2(
borrowed_fd(old_dirfd),
c_str(old_path),
borrowed_fd(new_dirfd),
c_str(new_path),
flags.bits(),
))
}
}
#[cfg(any(
target_os = "android",
all(target_os = "linux", not(target_env = "gnu")),
))]
#[inline]
pub(crate) fn renameat2(
old_dirfd: BorrowedFd<'_>,
old_path: &CStr,
new_dirfd: BorrowedFd<'_>,
new_path: &CStr,
flags: RenameFlags,
) -> io::Result<()> {
// At present, `libc` only has `renameat2` defined for glibc. If we have
// no flags, we can use plain `renameat`, but otherwise we use `syscall!`.
// to call `renameat2` ourselves.
if flags.is_empty() {
renameat(old_dirfd, old_path, new_dirfd, new_path)
} else {
syscall! {
fn renameat2(
olddirfd: c::c_int,
oldpath: *const c::c_char,
newdirfd: c::c_int,
newpath: *const c::c_char,
flags: c::c_uint
) via SYS_renameat2 -> c::c_int
}
unsafe {
ret(renameat2(
borrowed_fd(old_dirfd),
c_str(old_path),
borrowed_fd(new_dirfd),
c_str(new_path),
flags.bits(),
))
}
}
}
pub(crate) fn symlink(old_path: &CStr, new_path: &CStr) -> io::Result<()> {
unsafe { ret(c::symlink(c_str(old_path), c_str(new_path))) }
}
#[cfg(not(target_os = "redox"))]
pub(crate) fn symlinkat(
old_path: &CStr,
new_dirfd: BorrowedFd<'_>,
new_path: &CStr,
) -> io::Result<()> {
unsafe {
ret(c::symlinkat(
c_str(old_path),
borrowed_fd(new_dirfd),
c_str(new_path),
))
}
}
pub(crate) fn stat(path: &CStr) -> io::Result<Stat> {
// See the comments in `fstat` about using `crate::fs::statx` here.
#[cfg(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
))]
{
match crate::fs::statx(
crate::fs::CWD,
path,
AtFlags::empty(),
StatxFlags::BASIC_STATS,
) {
Ok(x) => statx_to_stat(x),
Err(io::Errno::NOSYS) => statat_old(crate::fs::CWD, path, AtFlags::empty()),
Err(err) => Err(err),
}
}
// Main version: libc is y2038 safe. Or, the platform is not y2038 safe and
// there's nothing practical we can do.
#[cfg(not(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
)))]
unsafe {
let mut stat = MaybeUninit::<Stat>::uninit();
ret(c::stat(c_str(path), stat.as_mut_ptr()))?;
Ok(stat.assume_init())
}
}
pub(crate) fn lstat(path: &CStr) -> io::Result<Stat> {
// See the comments in `fstat` about using `crate::fs::statx` here.
#[cfg(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
))]
{
match crate::fs::statx(
crate::fs::CWD,
path,
AtFlags::SYMLINK_NOFOLLOW,
StatxFlags::BASIC_STATS,
) {
Ok(x) => statx_to_stat(x),
Err(io::Errno::NOSYS) => statat_old(crate::fs::CWD, path, AtFlags::SYMLINK_NOFOLLOW),
Err(err) => Err(err),
}
}
// Main version: libc is y2038 safe. Or, the platform is not y2038 safe and
// there's nothing practical we can do.
#[cfg(not(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
)))]
unsafe {
let mut stat = MaybeUninit::<Stat>::uninit();
ret(c::lstat(c_str(path), stat.as_mut_ptr()))?;
Ok(stat.assume_init())
}
}
#[cfg(not(any(target_os = "espidf", target_os = "redox")))]
pub(crate) fn statat(dirfd: BorrowedFd<'_>, path: &CStr, flags: AtFlags) -> io::Result<Stat> {
// See the comments in `fstat` about using `crate::fs::statx` here.
#[cfg(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
))]
{
match crate::fs::statx(dirfd, path, flags, StatxFlags::BASIC_STATS) {
Ok(x) => statx_to_stat(x),
Err(io::Errno::NOSYS) => statat_old(dirfd, path, flags),
Err(err) => Err(err),
}
}
// Main version: libc is y2038 safe. Or, the platform is not y2038 safe and
// there's nothing practical we can do.
#[cfg(not(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
)))]
unsafe {
let mut stat = MaybeUninit::<Stat>::uninit();
ret(c::fstatat(
borrowed_fd(dirfd),
c_str(path),
stat.as_mut_ptr(),
bitflags_bits!(flags),
))?;
Ok(stat.assume_init())
}
}
#[cfg(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
))]
fn statat_old(dirfd: BorrowedFd<'_>, path: &CStr, flags: AtFlags) -> io::Result<Stat> {
unsafe {
let mut result = MaybeUninit::<c::stat64>::uninit();
ret(c::fstatat(
borrowed_fd(dirfd),
c_str(path),
result.as_mut_ptr(),
bitflags_bits!(flags),
))?;
stat64_to_stat(result.assume_init())
}
}
#[cfg(not(any(target_os = "espidf", target_os = "emscripten", target_os = "vita")))]
pub(crate) fn access(path: &CStr, access: Access) -> io::Result<()> {
unsafe { ret(c::access(c_str(path), access.bits())) }
}
#[cfg(not(any(
target_os = "emscripten",
target_os = "espidf",
target_os = "redox",
target_os = "vita"
)))]
pub(crate) fn accessat(
dirfd: BorrowedFd<'_>,
path: &CStr,
access: Access,
flags: AtFlags,
) -> io::Result<()> {
// macOS <= 10.9 lacks `faccessat`.
#[cfg(target_os = "macos")]
unsafe {
weak! {
fn faccessat(
c::c_int,
*const c::c_char,
c::c_int,
c::c_int
) -> c::c_int
}
// If we have `faccessat`, use it.
if let Some(libc_faccessat) = faccessat.get() {
return ret(libc_faccessat(
borrowed_fd(dirfd),
c_str(path),
bitflags_bits!(access),
bitflags_bits!(flags),
));
}
// Otherwise, see if we can emulate the `AT_FDCWD` case.
if borrowed_fd(dirfd) != c::AT_FDCWD {
return Err(io::Errno::NOSYS);
}
if flags.intersects(!(AtFlags::EACCESS | AtFlags::SYMLINK_NOFOLLOW)) {
return Err(io::Errno::INVAL);
}
if !flags.is_empty() {
return Err(io::Errno::OPNOTSUPP);
}
ret(c::access(c_str(path), bitflags_bits!(access)))
}
#[cfg(not(target_os = "macos"))]
unsafe {
ret(c::faccessat(
borrowed_fd(dirfd),
c_str(path),
bitflags_bits!(access),
bitflags_bits!(flags),
))
}
}
#[cfg(target_os = "emscripten")]
pub(crate) fn access(_path: &CStr, _access: Access) -> io::Result<()> {
Ok(())
}
#[cfg(target_os = "emscripten")]
pub(crate) fn accessat(
_dirfd: BorrowedFd<'_>,
_path: &CStr,
_access: Access,
_flags: AtFlags,
) -> io::Result<()> {
Ok(())
}
#[cfg(not(any(target_os = "espidf", target_os = "redox", target_os = "vita")))]
pub(crate) fn utimensat(
dirfd: BorrowedFd<'_>,
path: &CStr,
times: &Timestamps,
flags: AtFlags,
) -> io::Result<()> {
// Old 32-bit version: libc has `utimensat` but it is not y2038 safe by
// default. But there may be a `__utimensat64` we can use.
#[cfg(all(fix_y2038, not(apple)))]
{
#[cfg(target_env = "gnu")]
if let Some(libc_utimensat) = __utimensat64.get() {
let libc_times: [LibcTimespec; 2] = [
times.last_access.clone().into(),
times.last_modification.clone().into(),
];
unsafe {
return ret(libc_utimensat(
borrowed_fd(dirfd),
c_str(path),
libc_times.as_ptr(),
bitflags_bits!(flags),
));
}
}
utimensat_old(dirfd, path, times, flags)
}
// Main version: libc is y2038 safe and has `utimensat`. Or, the platform
// is not y2038 safe and there's nothing practical we can do.
#[cfg(not(any(apple, fix_y2038)))]
unsafe {
use crate::utils::as_ptr;
ret(c::utimensat(
borrowed_fd(dirfd),
c_str(path),
as_ptr(times).cast(),
bitflags_bits!(flags),
))
}
// Apple version: `utimensat` was introduced in macOS 10.13.
#[cfg(apple)]
unsafe {
use crate::utils::as_ptr;
// ABI details
weak! {
fn utimensat(
c::c_int,
*const c::c_char,
*const c::timespec,
c::c_int
) -> c::c_int
}
extern "C" {
fn setattrlist(
path: *const c::c_char,
attr_list: *const Attrlist,
attr_buf: *const c::c_void,
attr_buf_size: c::size_t,
options: c::c_ulong,
) -> c::c_int;
}
const FSOPT_NOFOLLOW: c::c_ulong = 0x0000_0001;
// If we have `utimensat`, use it.
if let Some(have_utimensat) = utimensat.get() {
return ret(have_utimensat(
borrowed_fd(dirfd),
c_str(path),
as_ptr(times).cast(),
bitflags_bits!(flags),
));
}
// Convert `times`. We only need this in the child, but do it before
// calling `fork` because it might fail.
let (attrbuf_size, times, attrs) = times_to_attrlist(times)?;
// `setattrlistat` was introduced in 10.13 along with `utimensat`, so
// if we don't have `utimensat`, we don't have `setattrlistat` either.
// Emulate it using `fork`, and `fchdir` and [`setattrlist`].
//
// [`setattrlist`]: https://developer.apple.com/library/archive/documentation/System/Conceptual/ManPages_iPhoneOS/man2/setattrlist.2.html
match c::fork() {
-1 => Err(io::Errno::IO),
0 => {
if c::fchdir(borrowed_fd(dirfd)) != 0 {
let code = match libc_errno::errno().0 {
c::EACCES => 2,
c::ENOTDIR => 3,
_ => 1,
};
c::_exit(code);
}
let mut flags_arg = 0;
if flags.contains(AtFlags::SYMLINK_NOFOLLOW) {
flags_arg |= FSOPT_NOFOLLOW;
}
if setattrlist(
c_str(path),
&attrs,
as_ptr(×).cast(),
attrbuf_size,
flags_arg,
) != 0
{
// Translate expected `errno` codes into ad-hoc integer
// values suitable for exit statuses.
let code = match libc_errno::errno().0 {
c::EACCES => 2,
c::ENOTDIR => 3,
c::EPERM => 4,
c::EROFS => 5,
c::ELOOP => 6,
c::ENOENT => 7,
c::ENAMETOOLONG => 8,
c::EINVAL => 9,
c::ESRCH => 10,
c::ENOTSUP => 11,
_ => 1,
};
c::_exit(code);
}
c::_exit(0);
}
child_pid => {
let mut wstatus = 0;
let _ = ret_c_int(c::waitpid(child_pid, &mut wstatus, 0))?;
if c::WIFEXITED(wstatus) {
// Translate our ad-hoc exit statuses back to `errno`
// codes.
match c::WEXITSTATUS(wstatus) {
0 => Ok(()),
2 => Err(io::Errno::ACCESS),
3 => Err(io::Errno::NOTDIR),
4 => Err(io::Errno::PERM),
5 => Err(io::Errno::ROFS),
6 => Err(io::Errno::LOOP),
7 => Err(io::Errno::NOENT),
8 => Err(io::Errno::NAMETOOLONG),
9 => Err(io::Errno::INVAL),
10 => Err(io::Errno::SRCH),
11 => Err(io::Errno::NOTSUP),
_ => Err(io::Errno::IO),
}
} else {
Err(io::Errno::IO)
}
}
}
}
}
#[cfg(all(fix_y2038, not(apple)))]
fn utimensat_old(
dirfd: BorrowedFd<'_>,
path: &CStr,
times: &Timestamps,
flags: AtFlags,
) -> io::Result<()> {
let old_times = [
c::timespec {
tv_sec: times
.last_access
.tv_sec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
tv_nsec: times
.last_access
.tv_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
},
c::timespec {
tv_sec: times
.last_modification
.tv_sec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
tv_nsec: times
.last_modification
.tv_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
},
];
unsafe {
ret(c::utimensat(
borrowed_fd(dirfd),
c_str(path),
old_times.as_ptr(),
bitflags_bits!(flags),
))
}
}
#[cfg(not(target_os = "wasi"))]
pub(crate) fn chmod(path: &CStr, mode: Mode) -> io::Result<()> {
unsafe { ret(c::chmod(c_str(path), mode.bits() as c::mode_t)) }
}
#[cfg(not(any(
linux_kernel,
target_os = "espidf",
target_os = "redox",
target_os = "wasi"
)))]
pub(crate) fn chmodat(
dirfd: BorrowedFd<'_>,
path: &CStr,
mode: Mode,
flags: AtFlags,
) -> io::Result<()> {
unsafe {
ret(c::fchmodat(
borrowed_fd(dirfd),
c_str(path),
mode.bits() as c::mode_t,
bitflags_bits!(flags),
))
}
}
#[cfg(linux_kernel)]
pub(crate) fn chmodat(
dirfd: BorrowedFd<'_>,
path: &CStr,
mode: Mode,
flags: AtFlags,
) -> io::Result<()> {
// Linux's `fchmodat` does not have a flags argument.
//
// Use `c::syscall` rather than `c::fchmodat` because some libc
// implementations, such as musl, add extra logic to `fchmod` to emulate
// support for `AT_SYMLINK_NOFOLLOW`, which uses `/proc` outside our
// control.
syscall! {
fn fchmodat(
base_dirfd: c::c_int,
pathname: *const c::c_char,
mode: c::mode_t
) via SYS_fchmodat -> c::c_int
}
if flags == AtFlags::SYMLINK_NOFOLLOW {
return Err(io::Errno::OPNOTSUPP);
}
if !flags.is_empty() {
return Err(io::Errno::INVAL);
}
unsafe {
ret(fchmodat(
borrowed_fd(dirfd),
c_str(path),
mode.bits() as c::mode_t,
))
}
}
#[cfg(apple)]
pub(crate) fn fclonefileat(
srcfd: BorrowedFd<'_>,
dst_dirfd: BorrowedFd<'_>,
dst: &CStr,
flags: CloneFlags,
) -> io::Result<()> {
syscall! {
fn fclonefileat(
srcfd: BorrowedFd<'_>,
dst_dirfd: BorrowedFd<'_>,
dst: *const c::c_char,
flags: c::c_int
) via SYS_fclonefileat -> c::c_int
}
unsafe {
ret(fclonefileat(
srcfd,
dst_dirfd,
c_str(dst),
bitflags_bits!(flags),
))
}
}
#[cfg(not(any(target_os = "espidf", target_os = "redox", target_os = "wasi")))]
pub(crate) fn chownat(
dirfd: BorrowedFd<'_>,
path: &CStr,
owner: Option<Uid>,
group: Option<Gid>,
flags: AtFlags,
) -> io::Result<()> {
unsafe {
let (ow, gr) = crate::ugid::translate_fchown_args(owner, group);
ret(c::fchownat(
borrowed_fd(dirfd),
c_str(path),
ow,
gr,
bitflags_bits!(flags),
))
}
}
#[cfg(not(any(
apple,
target_os = "espidf",
target_os = "redox",
target_os = "vita",
target_os = "wasi"
)))]
pub(crate) fn mknodat(
dirfd: BorrowedFd<'_>,
path: &CStr,
file_type: FileType,
mode: Mode,
dev: Dev,
) -> io::Result<()> {
unsafe {
ret(c::mknodat(
borrowed_fd(dirfd),
c_str(path),
(mode.bits() | file_type.as_raw_mode()) as c::mode_t,
dev.try_into().map_err(|_e| io::Errno::PERM)?,
))
}
}
#[cfg(linux_kernel)]
pub(crate) fn copy_file_range(
fd_in: BorrowedFd<'_>,
off_in: Option<&mut u64>,
fd_out: BorrowedFd<'_>,
off_out: Option<&mut u64>,
len: usize,
) -> io::Result<usize> {
syscall! {
fn copy_file_range(
fd_in: c::c_int,
off_in: *mut c::loff_t,
fd_out: c::c_int,
off_out: *mut c::loff_t,
len: usize,
flags: c::c_uint
) via SYS_copy_file_range -> c::ssize_t
}
let mut off_in_val: c::loff_t = 0;
let mut off_out_val: c::loff_t = 0;
// Silently cast; we'll get `EINVAL` if the value is negative.
let off_in_ptr = if let Some(off_in) = &off_in {
off_in_val = **off_in as i64;
&mut off_in_val
} else {
null_mut()
};
let off_out_ptr = if let Some(off_out) = &off_out {
off_out_val = **off_out as i64;
&mut off_out_val
} else {
null_mut()
};
let copied = unsafe {
ret_usize(copy_file_range(
borrowed_fd(fd_in),
off_in_ptr,
borrowed_fd(fd_out),
off_out_ptr,
len,
0, // no flags are defined yet
))?
};
if let Some(off_in) = off_in {
*off_in = off_in_val as u64;
}
if let Some(off_out) = off_out {
*off_out = off_out_val as u64;
}
Ok(copied)
}
#[cfg(not(any(
apple,
netbsdlike,
solarish,
target_os = "dragonfly",
target_os = "espidf",
target_os = "haiku",
target_os = "redox",
target_os = "vita",
)))]
pub(crate) fn fadvise(fd: BorrowedFd<'_>, offset: u64, len: u64, advice: Advice) -> io::Result<()> {
let offset = offset as i64;
let len = len as i64;
// FreeBSD returns `EINVAL` on invalid offsets; emulate the POSIX behavior.
#[cfg(target_os = "freebsd")]
let offset = if (offset as i64) < 0 {
i64::MAX
} else {
offset
};
// FreeBSD returns `EINVAL` on overflow; emulate the POSIX behavior.
#[cfg(target_os = "freebsd")]
let len = if len > 0 && offset.checked_add(len).is_none() {
i64::MAX - offset
} else {
len
};
let err = unsafe { c::posix_fadvise(borrowed_fd(fd), offset, len, advice as c::c_int) };
// `posix_fadvise` returns its error status rather than using `errno`.
if err == 0 {
Ok(())
} else {
Err(io::Errno(err))
}
}
pub(crate) fn fcntl_getfl(fd: BorrowedFd<'_>) -> io::Result<OFlags> {
let flags = unsafe { ret_c_int(c::fcntl(borrowed_fd(fd), c::F_GETFL))? };
Ok(OFlags::from_bits_retain(bitcast!(flags)))
}
pub(crate) fn fcntl_setfl(fd: BorrowedFd<'_>, flags: OFlags) -> io::Result<()> {
unsafe { ret(c::fcntl(borrowed_fd(fd), c::F_SETFL, flags.bits())) }
}
#[cfg(any(linux_kernel, target_os = "freebsd", target_os = "fuchsia"))]
pub(crate) fn fcntl_get_seals(fd: BorrowedFd<'_>) -> io::Result<SealFlags> {
let flags = unsafe { ret_c_int(c::fcntl(borrowed_fd(fd), c::F_GET_SEALS))? };
Ok(SealFlags::from_bits_retain(bitcast!(flags)))
}
#[cfg(any(linux_kernel, target_os = "freebsd", target_os = "fuchsia"))]
pub(crate) fn fcntl_add_seals(fd: BorrowedFd<'_>, seals: SealFlags) -> io::Result<()> {
unsafe { ret(c::fcntl(borrowed_fd(fd), c::F_ADD_SEALS, seals.bits())) }
}
#[cfg(not(any(
target_os = "emscripten",
target_os = "espidf",
target_os = "fuchsia",
target_os = "redox",
target_os = "vita",
target_os = "wasi"
)))]
#[inline]
pub(crate) fn fcntl_lock(fd: BorrowedFd<'_>, operation: FlockOperation) -> io::Result<()> {
use c::{flock, F_RDLCK, F_SETLK, F_SETLKW, F_UNLCK, F_WRLCK, SEEK_SET};
let (cmd, l_type) = match operation {
FlockOperation::LockShared => (F_SETLKW, F_RDLCK),
FlockOperation::LockExclusive => (F_SETLKW, F_WRLCK),
FlockOperation::Unlock => (F_SETLKW, F_UNLCK),
FlockOperation::NonBlockingLockShared => (F_SETLK, F_RDLCK),
FlockOperation::NonBlockingLockExclusive => (F_SETLK, F_WRLCK),
FlockOperation::NonBlockingUnlock => (F_SETLK, F_UNLCK),
};
unsafe {
let mut lock: flock = core::mem::zeroed();
lock.l_type = l_type as _;
// When `l_len` is zero, this locks all the bytes from
// `l_whence`/`l_start` to the end of the file, even as the
// file grows dynamically.
lock.l_whence = SEEK_SET as _;
lock.l_start = 0;
lock.l_len = 0;
ret(c::fcntl(borrowed_fd(fd), cmd, &lock))
}
}
pub(crate) fn seek(fd: BorrowedFd<'_>, pos: SeekFrom) -> io::Result<u64> {
let (whence, offset) = match pos {
SeekFrom::Start(pos) => {
let pos: u64 = pos;
// Silently cast; we'll get `EINVAL` if the value is negative.
(c::SEEK_SET, pos as i64)
}
SeekFrom::End(offset) => (c::SEEK_END, offset),
SeekFrom::Current(offset) => (c::SEEK_CUR, offset),
#[cfg(any(apple, freebsdlike, linux_kernel, solarish))]
SeekFrom::Data(offset) => (c::SEEK_DATA, offset),
#[cfg(any(apple, freebsdlike, linux_kernel, solarish))]
SeekFrom::Hole(offset) => (c::SEEK_HOLE, offset),
};
// ESP-IDF and Vita don't support 64-bit offsets.
#[cfg(any(target_os = "espidf", target_os = "vita"))]
let offset: i32 = offset.try_into().map_err(|_| io::Errno::OVERFLOW)?;
let offset = unsafe { ret_off_t(c::lseek(borrowed_fd(fd), offset, whence))? };
Ok(offset as u64)
}
pub(crate) fn tell(fd: BorrowedFd<'_>) -> io::Result<u64> {
let offset = unsafe { ret_off_t(c::lseek(borrowed_fd(fd), 0, c::SEEK_CUR))? };
Ok(offset as u64)
}
#[cfg(not(any(linux_kernel, target_os = "wasi")))]
pub(crate) fn fchmod(fd: BorrowedFd<'_>, mode: Mode) -> io::Result<()> {
unsafe { ret(c::fchmod(borrowed_fd(fd), bitflags_bits!(mode))) }
}
#[cfg(linux_kernel)]
pub(crate) fn fchmod(fd: BorrowedFd<'_>, mode: Mode) -> io::Result<()> {
// Use `c::syscall` rather than `c::fchmod` because some libc
// implementations, such as musl, add extra logic to `fchmod` to emulate
// support for `O_PATH`, which uses `/proc` outside our control and
// interferes with our own use of `O_PATH`.
syscall! {
fn fchmod(
fd: c::c_int,
mode: c::mode_t
) via SYS_fchmod -> c::c_int
}
unsafe { ret(fchmod(borrowed_fd(fd), mode.bits() as c::mode_t)) }
}
#[cfg(not(target_os = "wasi"))]
pub(crate) fn chown(path: &CStr, owner: Option<Uid>, group: Option<Gid>) -> io::Result<()> {
unsafe {
let (ow, gr) = crate::ugid::translate_fchown_args(owner, group);
ret(c::chown(c_str(path), ow, gr))
}
}
#[cfg(linux_kernel)]
pub(crate) fn fchown(fd: BorrowedFd<'_>, owner: Option<Uid>, group: Option<Gid>) -> io::Result<()> {
// Use `c::syscall` rather than `c::fchown` because some libc
// implementations, such as musl, add extra logic to `fchown` to emulate
// support for `O_PATH`, which uses `/proc` outside our control and
// interferes with our own use of `O_PATH`.
syscall! {
fn fchown(
fd: c::c_int,
owner: c::uid_t,
group: c::gid_t
) via SYS_fchown -> c::c_int
}
unsafe {
let (ow, gr) = crate::ugid::translate_fchown_args(owner, group);
ret(fchown(borrowed_fd(fd), ow, gr))
}
}
#[cfg(not(any(linux_kernel, target_os = "wasi")))]
pub(crate) fn fchown(fd: BorrowedFd<'_>, owner: Option<Uid>, group: Option<Gid>) -> io::Result<()> {
unsafe {
let (ow, gr) = crate::ugid::translate_fchown_args(owner, group);
ret(c::fchown(borrowed_fd(fd), ow, gr))
}
}
#[cfg(not(any(
target_os = "espidf",
target_os = "solaris",
target_os = "vita",
target_os = "wasi"
)))]
pub(crate) fn flock(fd: BorrowedFd<'_>, operation: FlockOperation) -> io::Result<()> {
unsafe { ret(c::flock(borrowed_fd(fd), operation as c::c_int)) }
}
#[cfg(linux_kernel)]
pub(crate) fn syncfs(fd: BorrowedFd<'_>) -> io::Result<()> {
// Some versions of Android libc lack a `syncfs` function.
#[cfg(target_os = "android")]
syscall! {
fn syncfs(fd: c::c_int) via SYS_syncfs -> c::c_int
}
// `syncfs` was added to glibc in 2.20.
#[cfg(not(target_os = "android"))]
weak_or_syscall! {
fn syncfs(fd: c::c_int) via SYS_syncfs -> c::c_int
}
unsafe { ret(syncfs(borrowed_fd(fd))) }
}
#[cfg(not(any(
target_os = "espidf",
target_os = "redox",
target_os = "vita",
target_os = "wasi"
)))]
pub(crate) fn sync() {
unsafe { c::sync() }
}
pub(crate) fn fstat(fd: BorrowedFd<'_>) -> io::Result<Stat> {
// 32-bit and mips64 Linux: `struct stat64` is not y2038 compatible; use
// `statx`.
//
// And, some old platforms don't support `statx`, and some fail with a
// confusing error code, so we call `crate::fs::statx` to handle that. If
// `statx` isn't available, fall back to the buggy system call.
#[cfg(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
))]
{
match crate::fs::statx(fd, cstr!(""), AtFlags::EMPTY_PATH, StatxFlags::BASIC_STATS) {
Ok(x) => statx_to_stat(x),
Err(io::Errno::NOSYS) => fstat_old(fd),
Err(err) => Err(err),
}
}
// Main version: libc is y2038 safe. Or, the platform is not y2038 safe and
// there's nothing practical we can do.
#[cfg(not(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
)))]
unsafe {
let mut stat = MaybeUninit::<Stat>::uninit();
ret(c::fstat(borrowed_fd(fd), stat.as_mut_ptr()))?;
Ok(stat.assume_init())
}
}
#[cfg(all(
linux_kernel,
any(
target_pointer_width = "32",
target_arch = "mips64",
target_arch = "mips64r6"
)
))]
fn fstat_old(fd: BorrowedFd<'_>) -> io::Result<Stat> {
unsafe {
let mut result = MaybeUninit::<c::stat64>::uninit();
ret(c::fstat(borrowed_fd(fd), result.as_mut_ptr()))?;
stat64_to_stat(result.assume_init())
}
}
#[cfg(not(any(
solarish,
target_os = "espidf",
target_os = "haiku",
target_os = "netbsd",
target_os = "nto",
target_os = "redox",
target_os = "vita",
target_os = "wasi",
)))]
pub(crate) fn fstatfs(fd: BorrowedFd<'_>) -> io::Result<StatFs> {
let mut statfs = MaybeUninit::<StatFs>::uninit();
unsafe {
ret(c::fstatfs(borrowed_fd(fd), statfs.as_mut_ptr()))?;
Ok(statfs.assume_init())
}
}
#[cfg(not(any(target_os = "haiku", target_os = "redox", target_os = "wasi")))]
pub(crate) fn fstatvfs(fd: BorrowedFd<'_>) -> io::Result<StatVfs> {
let mut statvfs = MaybeUninit::<c::statvfs>::uninit();
unsafe {
ret(c::fstatvfs(borrowed_fd(fd), statvfs.as_mut_ptr()))?;
Ok(libc_statvfs_to_statvfs(statvfs.assume_init()))
}
}
#[cfg(not(any(target_os = "haiku", target_os = "redox", target_os = "wasi")))]
fn libc_statvfs_to_statvfs(from: c::statvfs) -> StatVfs {
StatVfs {
f_bsize: from.f_bsize as u64,
f_frsize: from.f_frsize as u64,
f_blocks: from.f_blocks as u64,
f_bfree: from.f_bfree as u64,
f_bavail: from.f_bavail as u64,
f_files: from.f_files as u64,
f_ffree: from.f_ffree as u64,
f_favail: from.f_ffree as u64,
#[cfg(not(target_os = "aix"))]
f_fsid: from.f_fsid as u64,
#[cfg(target_os = "aix")]
f_fsid: ((from.f_fsid.val[0] as u64) << 32) | from.f_fsid.val[1],
f_flag: StatVfsMountFlags::from_bits_retain(from.f_flag as u64),
f_namemax: from.f_namemax as u64,
}
}
#[cfg(not(any(target_os = "espidf", target_os = "vita")))]
pub(crate) fn futimens(fd: BorrowedFd<'_>, times: &Timestamps) -> io::Result<()> {
// Old 32-bit version: libc has `futimens` but it is not y2038 safe by
// default. But there may be a `__futimens64` we can use.
#[cfg(all(fix_y2038, not(apple)))]
{
#[cfg(target_env = "gnu")]
if let Some(libc_futimens) = __futimens64.get() {
let libc_times: [LibcTimespec; 2] = [
times.last_access.clone().into(),
times.last_modification.clone().into(),
];
unsafe {
return ret(libc_futimens(borrowed_fd(fd), libc_times.as_ptr()));
}
}
futimens_old(fd, times)
}
// Main version: libc is y2038 safe and has `futimens`. Or, the platform
// is not y2038 safe and there's nothing practical we can do.
#[cfg(not(any(apple, fix_y2038)))]
unsafe {
use crate::utils::as_ptr;
ret(c::futimens(borrowed_fd(fd), as_ptr(times).cast()))
}
// Apple version: `futimens` was introduced in macOS 10.13.
#[cfg(apple)]
unsafe {
use crate::utils::as_ptr;
// ABI details.
weak! {
fn futimens(c::c_int, *const c::timespec) -> c::c_int
}
extern "C" {
fn fsetattrlist(
fd: c::c_int,
attr_list: *const Attrlist,
attr_buf: *const c::c_void,
attr_buf_size: c::size_t,
options: c::c_ulong,
) -> c::c_int;
}
// If we have `futimens`, use it.
if let Some(have_futimens) = futimens.get() {
return ret(have_futimens(borrowed_fd(fd), as_ptr(times).cast()));
}
// Otherwise use `fsetattrlist`.
let (attrbuf_size, times, attrs) = times_to_attrlist(times)?;
ret(fsetattrlist(
borrowed_fd(fd),
&attrs,
as_ptr(×).cast(),
attrbuf_size,
0,
))
}
}
#[cfg(all(fix_y2038, not(apple)))]
fn futimens_old(fd: BorrowedFd<'_>, times: &Timestamps) -> io::Result<()> {
let old_times = [
c::timespec {
tv_sec: times
.last_access
.tv_sec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
tv_nsec: times
.last_access
.tv_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
},
c::timespec {
tv_sec: times
.last_modification
.tv_sec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
tv_nsec: times
.last_modification
.tv_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
},
];
unsafe { ret(c::futimens(borrowed_fd(fd), old_times.as_ptr())) }
}
#[cfg(not(any(
apple,
netbsdlike,
solarish,
target_os = "dragonfly",
target_os = "espidf",
target_os = "nto",
target_os = "redox",
target_os = "vita",
)))]
pub(crate) fn fallocate(
fd: BorrowedFd<'_>,
mode: FallocateFlags,
offset: u64,
len: u64,
) -> io::Result<()> {
// Silently cast; we'll get `EINVAL` if the value is negative.
let offset = offset as i64;
let len = len as i64;
#[cfg(any(linux_kernel, target_os = "fuchsia"))]
unsafe {
ret(c::fallocate(
borrowed_fd(fd),
bitflags_bits!(mode),
offset,
len,
))
}
#[cfg(not(any(linux_kernel, target_os = "fuchsia")))]
{
assert!(mode.is_empty());
let err = unsafe { c::posix_fallocate(borrowed_fd(fd), offset, len) };
// `posix_fallocate` returns its error status rather than using
// `errno`.
if err == 0 {
Ok(())
} else {
Err(io::Errno(err))
}
}
}
#[cfg(apple)]
pub(crate) fn fallocate(
fd: BorrowedFd<'_>,
mode: FallocateFlags,
offset: u64,
len: u64,
) -> io::Result<()> {
let offset: i64 = offset.try_into().map_err(|_e| io::Errno::INVAL)?;
let len = len as i64;
assert!(mode.is_empty());
let new_len = offset.checked_add(len).ok_or(io::Errno::FBIG)?;
let mut store = c::fstore_t {
fst_flags: c::F_ALLOCATECONTIG,
fst_posmode: c::F_PEOFPOSMODE,
fst_offset: 0,
fst_length: new_len,
fst_bytesalloc: 0,
};
unsafe {
if c::fcntl(borrowed_fd(fd), c::F_PREALLOCATE, &store) == -1 {
// Unable to allocate contiguous disk space; attempt to allocate
// non-contiguously.
store.fst_flags = c::F_ALLOCATEALL;
let _ = ret_c_int(c::fcntl(borrowed_fd(fd), c::F_PREALLOCATE, &store))?;
}
ret(c::ftruncate(borrowed_fd(fd), new_len))
}
}
pub(crate) fn fsync(fd: BorrowedFd<'_>) -> io::Result<()> {
unsafe { ret(c::fsync(borrowed_fd(fd))) }
}
#[cfg(not(any(
apple,
target_os = "dragonfly",
target_os = "espidf",
target_os = "haiku",
target_os = "redox",
target_os = "vita",
)))]
pub(crate) fn fdatasync(fd: BorrowedFd<'_>) -> io::Result<()> {
unsafe { ret(c::fdatasync(borrowed_fd(fd))) }
}
pub(crate) fn ftruncate(fd: BorrowedFd<'_>, length: u64) -> io::Result<()> {
let length = length.try_into().map_err(|_overflow_err| io::Errno::FBIG)?;
unsafe { ret(c::ftruncate(borrowed_fd(fd), length)) }
}
#[cfg(any(linux_kernel, target_os = "freebsd"))]
pub(crate) fn memfd_create(name: &CStr, flags: MemfdFlags) -> io::Result<OwnedFd> {
#[cfg(target_os = "freebsd")]
weakcall! {
fn memfd_create(
name: *const c::c_char,
flags: c::c_uint
) -> c::c_int
}
#[cfg(linux_kernel)]
weak_or_syscall! {
fn memfd_create(
name: *const c::c_char,
flags: c::c_uint
) via SYS_memfd_create -> c::c_int
}
unsafe { ret_owned_fd(memfd_create(c_str(name), bitflags_bits!(flags))) }
}
#[cfg(linux_kernel)]
pub(crate) fn openat2(
dirfd: BorrowedFd<'_>,
path: &CStr,
oflags: OFlags,
mode: Mode,
resolve: ResolveFlags,
) -> io::Result<OwnedFd> {
use linux_raw_sys::general::open_how;
syscall! {
fn openat2(
base_dirfd: c::c_int,
pathname: *const c::c_char,
how: *mut open_how,
size: usize
) via SYS_OPENAT2 -> c::c_int
}
let oflags = oflags.bits();
let mut open_how = open_how {
flags: u64::from(oflags),
mode: u64::from(mode.bits()),
resolve: resolve.bits(),
};
unsafe {
ret_owned_fd(openat2(
borrowed_fd(dirfd),
c_str(path),
&mut open_how,
size_of::<open_how>(),
))
}
}
#[cfg(all(linux_kernel, target_pointer_width = "32"))]
const SYS_OPENAT2: i32 = 437;
#[cfg(all(linux_kernel, target_pointer_width = "64"))]
const SYS_OPENAT2: i64 = 437;
#[cfg(target_os = "linux")]
pub(crate) fn sendfile(
out_fd: BorrowedFd<'_>,
in_fd: BorrowedFd<'_>,
offset: Option<&mut u64>,
count: usize,
) -> io::Result<usize> {
unsafe {
ret_usize(c::sendfile64(
borrowed_fd(out_fd),
borrowed_fd(in_fd),
offset.map_or(null_mut(), crate::utils::as_mut_ptr).cast(),
count,
))
}
}
/// Convert from a Linux `statx` value to rustix's `Stat`.
#[cfg(all(linux_kernel, target_pointer_width = "32"))]
#[allow(deprecated)] // for `st_[amc]time` u64->i64 transition
fn statx_to_stat(x: crate::fs::Statx) -> io::Result<Stat> {
Ok(Stat {
st_dev: crate::fs::makedev(x.stx_dev_major, x.stx_dev_minor).into(),
st_mode: x.stx_mode.into(),
st_nlink: x.stx_nlink.into(),
st_uid: x.stx_uid.into(),
st_gid: x.stx_gid.into(),
st_rdev: crate::fs::makedev(x.stx_rdev_major, x.stx_rdev_minor).into(),
st_size: x.stx_size.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_blksize: x.stx_blksize.into(),
st_blocks: x.stx_blocks.into(),
st_atime: bitcast!(i64::from(x.stx_atime.tv_sec)),
st_atime_nsec: x.stx_atime.tv_nsec as _,
st_mtime: bitcast!(i64::from(x.stx_mtime.tv_sec)),
st_mtime_nsec: x.stx_mtime.tv_nsec as _,
st_ctime: bitcast!(i64::from(x.stx_ctime.tv_sec)),
st_ctime_nsec: x.stx_ctime.tv_nsec as _,
st_ino: x.stx_ino.into(),
})
}
/// Convert from a Linux `statx` value to rustix's `Stat`.
///
/// mips64' `struct stat64` in libc has private fields, and `stx_blocks`
#[cfg(all(linux_kernel, any(target_arch = "mips64", target_arch = "mips64r6")))]
fn statx_to_stat(x: crate::fs::Statx) -> io::Result<Stat> {
let mut result: Stat = unsafe { core::mem::zeroed() };
result.st_dev = crate::fs::makedev(x.stx_dev_major, x.stx_dev_minor);
result.st_mode = x.stx_mode.into();
result.st_nlink = x.stx_nlink.into();
result.st_uid = x.stx_uid.into();
result.st_gid = x.stx_gid.into();
result.st_rdev = crate::fs::makedev(x.stx_rdev_major, x.stx_rdev_minor);
result.st_size = x.stx_size.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_blksize = x.stx_blksize.into();
result.st_blocks = x.stx_blocks.try_into().map_err(|_e| io::Errno::OVERFLOW)?;
result.st_atime = bitcast!(i64::from(x.stx_atime.tv_sec));
result.st_atime_nsec = x.stx_atime.tv_nsec as _;
result.st_mtime = bitcast!(i64::from(x.stx_mtime.tv_sec));
result.st_mtime_nsec = x.stx_mtime.tv_nsec as _;
result.st_ctime = bitcast!(i64::from(x.stx_ctime.tv_sec));
result.st_ctime_nsec = x.stx_ctime.tv_nsec as _;
result.st_ino = x.stx_ino.into();
Ok(result)
}
/// Convert from a Linux `stat64` value to rustix's `Stat`.
#[cfg(all(linux_kernel, target_pointer_width = "32"))]
#[allow(deprecated)] // for `st_[amc]time` u64->i64 transition
fn stat64_to_stat(s64: c::stat64) -> io::Result<Stat> {
Ok(Stat {
st_dev: s64.st_dev.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_mode: s64.st_mode.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_nlink: s64.st_nlink.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_uid: s64.st_uid.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_gid: s64.st_gid.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_rdev: s64.st_rdev.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_size: s64.st_size.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_blksize: s64.st_blksize.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_blocks: s64.st_blocks.try_into().map_err(|_| io::Errno::OVERFLOW)?,
st_atime: bitcast!(i64::from(s64.st_atime)),
st_atime_nsec: s64
.st_atime_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
st_mtime: bitcast!(i64::from(s64.st_mtime)),
st_mtime_nsec: s64
.st_mtime_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
st_ctime: bitcast!(i64::from(s64.st_ctime)),
st_ctime_nsec: s64
.st_ctime_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
st_ino: s64.st_ino.try_into().map_err(|_| io::Errno::OVERFLOW)?,
})
}
/// Convert from a Linux `stat64` value to rustix's `Stat`.
///
/// mips64' `struct stat64` in libc has private fields, and `st_blocks` has
/// type `i64`.
#[cfg(all(linux_kernel, any(target_arch = "mips64", target_arch = "mips64r6")))]
fn stat64_to_stat(s64: c::stat64) -> io::Result<Stat> {
let mut result: Stat = unsafe { core::mem::zeroed() };
result.st_dev = s64.st_dev.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_mode = s64.st_mode.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_nlink = s64.st_nlink.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_uid = s64.st_uid.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_gid = s64.st_gid.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_rdev = s64.st_rdev.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_size = s64.st_size.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_blksize = s64.st_blksize.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_blocks = s64.st_blocks.try_into().map_err(|_| io::Errno::OVERFLOW)?;
result.st_atime = i64::from(s64.st_atime) as _;
result.st_atime_nsec = s64
.st_atime_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?;
result.st_mtime = i64::from(s64.st_mtime) as _;
result.st_mtime_nsec = s64
.st_mtime_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?;
result.st_ctime = i64::from(s64.st_ctime) as _;
result.st_ctime_nsec = s64
.st_ctime_nsec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?;
result.st_ino = s64.st_ino.try_into().map_err(|_| io::Errno::OVERFLOW)?;
Ok(result)
}
#[cfg(linux_kernel)]
#[allow(non_upper_case_globals)]
mod sys {
use super::{c, BorrowedFd, Statx};
weak_or_syscall! {
pub(super) fn statx(
dirfd_: BorrowedFd<'_>,
path: *const c::c_char,
flags: c::c_int,
mask: c::c_uint,
buf: *mut Statx
) via SYS_statx -> c::c_int
}
}
#[cfg(linux_kernel)]
#[allow(non_upper_case_globals)]
pub(crate) fn statx(
dirfd: BorrowedFd<'_>,
path: &CStr,
flags: AtFlags,
mask: StatxFlags,
) -> io::Result<Statx> {
// If a future Linux kernel adds more fields to `struct statx` and users
// passing flags unknown to rustix in `StatxFlags`, we could end up
// writing outside of the buffer. To prevent this possibility, we mask off
// any flags that we don't know about.
//
// This includes `STATX__RESERVED`, which has a value that we know, but
// which could take on arbitrary new meaning in the future. Linux currently
// rejects this flag with `EINVAL`, so we do the same.
//
// This doesn't rely on `STATX_ALL` because [it's deprecated] and already
// doesn't represent all the known flags.
//
// [it's deprecated]: https://patchwork.kernel.org/project/linux-fsdevel/patch/20200505095915.11275-7-mszeredi@redhat.com/
#[cfg(not(any(target_os = "android", target_env = "musl")))]
const STATX__RESERVED: u32 = c::STATX__RESERVED as u32;
#[cfg(any(target_os = "android", target_env = "musl"))]
const STATX__RESERVED: u32 = linux_raw_sys::general::STATX__RESERVED;
if (mask.bits() & STATX__RESERVED) == STATX__RESERVED {
return Err(io::Errno::INVAL);
}
let mask = mask & StatxFlags::all();
let mut statx_buf = MaybeUninit::<Statx>::uninit();
unsafe {
ret(sys::statx(
dirfd,
c_str(path),
bitflags_bits!(flags),
mask.bits(),
statx_buf.as_mut_ptr(),
))?;
Ok(statx_buf.assume_init())
}
}
#[cfg(linux_kernel)]
#[inline]
pub(crate) fn is_statx_available() -> bool {
unsafe {
// Call `statx` with null pointers so that if it fails for any reason
// other than `EFAULT`, we know it's not supported.
matches!(
ret(sys::statx(CWD, null(), 0, 0, null_mut())),
Err(io::Errno::FAULT)
)
}
}
#[cfg(apple)]
pub(crate) unsafe fn fcopyfile(
from: BorrowedFd<'_>,
to: BorrowedFd<'_>,
state: copyfile_state_t,
flags: CopyfileFlags,
) -> io::Result<()> {
extern "C" {
fn fcopyfile(
from: c::c_int,
to: c::c_int,
state: copyfile_state_t,
flags: c::c_uint,
) -> c::c_int;
}
nonnegative_ret(fcopyfile(
borrowed_fd(from),
borrowed_fd(to),
state,
bitflags_bits!(flags),
))
}
#[cfg(apple)]
pub(crate) fn copyfile_state_alloc() -> io::Result<copyfile_state_t> {
extern "C" {
fn copyfile_state_alloc() -> copyfile_state_t;
}
let result = unsafe { copyfile_state_alloc() };
if result.0.is_null() {
Err(io::Errno::last_os_error())
} else {
Ok(result)
}
}
#[cfg(apple)]
pub(crate) unsafe fn copyfile_state_free(state: copyfile_state_t) -> io::Result<()> {
extern "C" {
fn copyfile_state_free(state: copyfile_state_t) -> c::c_int;
}
nonnegative_ret(copyfile_state_free(state))
}
#[cfg(apple)]
const COPYFILE_STATE_COPIED: u32 = 8;
#[cfg(apple)]
pub(crate) unsafe fn copyfile_state_get_copied(state: copyfile_state_t) -> io::Result<u64> {
let mut copied = MaybeUninit::<u64>::uninit();
copyfile_state_get(state, COPYFILE_STATE_COPIED, copied.as_mut_ptr().cast())?;
Ok(copied.assume_init())
}
#[cfg(apple)]
pub(crate) unsafe fn copyfile_state_get(
state: copyfile_state_t,
flag: u32,
dst: *mut c::c_void,
) -> io::Result<()> {
extern "C" {
fn copyfile_state_get(state: copyfile_state_t, flag: u32, dst: *mut c::c_void) -> c::c_int;
}
nonnegative_ret(copyfile_state_get(state, flag, dst))
}
#[cfg(all(apple, feature = "alloc"))]
pub(crate) fn getpath(fd: BorrowedFd<'_>) -> io::Result<CString> {
// The use of `PATH_MAX` is generally not encouraged, but it
// is inevitable in this case because macOS defines `fcntl` with
// `F_GETPATH` in terms of `MAXPATHLEN`, and there are no
// alternatives. If a better method is invented, it should be used
// instead.
let mut buf = vec![0; c::PATH_MAX as usize];
// From the [macOS `fcntl` manual page]:
// `F_GETPATH` - Get the path of the file descriptor `Fildes`. The argument
// must be a buffer of size `MAXPATHLEN` or greater.
//
// [macOS `fcntl` manual page]: https://developer.apple.com/library/archive/documentation/System/Conceptual/ManPages_iPhoneOS/man2/fcntl.2.html
unsafe {
ret(c::fcntl(borrowed_fd(fd), c::F_GETPATH, buf.as_mut_ptr()))?;
}
let l = buf.iter().position(|&c| c == 0).unwrap();
buf.truncate(l);
buf.shrink_to_fit();
Ok(CString::new(buf).unwrap())
}
#[cfg(apple)]
pub(crate) fn fcntl_rdadvise(fd: BorrowedFd<'_>, offset: u64, len: u64) -> io::Result<()> {
// From the [macOS `fcntl` manual page]:
// `F_RDADVISE` - Issue an advisory read async with no copy to user.
//
// The `F_RDADVISE` command operates on the following structure which holds
// information passed from the user to the system:
//
// ```c
// struct radvisory {
// off_t ra_offset; /* offset into the file */
// int ra_count; /* size of the read */
// };
// ```
//
// [macOS `fcntl` manual page]: https://developer.apple.com/library/archive/documentation/System/Conceptual/ManPages_iPhoneOS/man2/fcntl.2.html
let ra_offset = match offset.try_into() {
Ok(len) => len,
// If this conversion fails, the user is providing an offset outside
// any possible file extent, so just ignore it.
Err(_) => return Ok(()),
};
let ra_count = match len.try_into() {
Ok(len) => len,
// If this conversion fails, the user is providing a dubiously large
// hint which is unlikely to improve performance.
Err(_) => return Ok(()),
};
unsafe {
let radvisory = c::radvisory {
ra_offset,
ra_count,
};
ret(c::fcntl(borrowed_fd(fd), c::F_RDADVISE, &radvisory))
}
}
#[cfg(apple)]
pub(crate) fn fcntl_fullfsync(fd: BorrowedFd<'_>) -> io::Result<()> {
unsafe { ret(c::fcntl(borrowed_fd(fd), c::F_FULLFSYNC)) }
}
#[cfg(apple)]
pub(crate) fn fcntl_nocache(fd: BorrowedFd<'_>, value: bool) -> io::Result<()> {
unsafe { ret(c::fcntl(borrowed_fd(fd), c::F_NOCACHE, value as c::c_int)) }
}
#[cfg(apple)]
pub(crate) fn fcntl_global_nocache(fd: BorrowedFd<'_>, value: bool) -> io::Result<()> {
unsafe {
ret(c::fcntl(
borrowed_fd(fd),
c::F_GLOBAL_NOCACHE,
value as c::c_int,
))
}
}
/// Convert `times` from a `futimens`/`utimensat` argument into `setattrlist`
/// arguments.
#[cfg(apple)]
fn times_to_attrlist(times: &Timestamps) -> io::Result<(c::size_t, [c::timespec; 2], Attrlist)> {
// ABI details.
const ATTR_CMN_MODTIME: u32 = 0x0000_0400;
const ATTR_CMN_ACCTIME: u32 = 0x0000_1000;
const ATTR_BIT_MAP_COUNT: u16 = 5;
let mut times = times.clone();
// If we have any `UTIME_NOW` elements, replace them with the current time.
if times.last_access.tv_nsec == c::UTIME_NOW.into()
|| times.last_modification.tv_nsec == c::UTIME_NOW.into()
{
let now = {
let mut tv = c::timeval {
tv_sec: 0,
tv_usec: 0,
};
unsafe {
let r = c::gettimeofday(&mut tv, null_mut());
assert_eq!(r, 0);
}
c::timespec {
tv_sec: tv.tv_sec,
tv_nsec: (tv.tv_usec * 1000) as _,
}
};
if times.last_access.tv_nsec == c::UTIME_NOW.into() {
times.last_access = crate::timespec::Timespec {
tv_sec: now.tv_sec.into(),
tv_nsec: now.tv_nsec as _,
};
}
if times.last_modification.tv_nsec == c::UTIME_NOW.into() {
times.last_modification = crate::timespec::Timespec {
tv_sec: now.tv_sec.into(),
tv_nsec: now.tv_nsec as _,
};
}
}
// Pack the return values following the rules for [`getattrlist`].
//
// [`getattrlist`]: https://developer.apple.com/library/archive/documentation/System/Conceptual/ManPages_iPhoneOS/man2/getattrlist.2.html
let mut times_size = 0;
let mut attrs = Attrlist {
bitmapcount: ATTR_BIT_MAP_COUNT,
reserved: 0,
commonattr: 0,
volattr: 0,
dirattr: 0,
fileattr: 0,
forkattr: 0,
};
let mut return_times = [c::timespec {
tv_sec: 0,
tv_nsec: 0,
}; 2];
let mut times_index = 0;
if times.last_modification.tv_nsec != c::UTIME_OMIT.into() {
attrs.commonattr |= ATTR_CMN_MODTIME;
return_times[times_index] = c::timespec {
tv_sec: times
.last_modification
.tv_sec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
tv_nsec: times.last_modification.tv_nsec as _,
};
times_index += 1;
times_size += size_of::<c::timespec>();
}
if times.last_access.tv_nsec != c::UTIME_OMIT.into() {
attrs.commonattr |= ATTR_CMN_ACCTIME;
return_times[times_index] = c::timespec {
tv_sec: times
.last_access
.tv_sec
.try_into()
.map_err(|_| io::Errno::OVERFLOW)?,
tv_nsec: times.last_access.tv_nsec as _,
};
times_size += size_of::<c::timespec>();
}
Ok((times_size, return_times, attrs))
}
/// Support type for `Attrlist`.
#[cfg(apple)]
type Attrgroup = u32;
/// Attribute list for use with `setattrlist`.
#[cfg(apple)]
#[repr(C)]
struct Attrlist {
bitmapcount: u16,
reserved: u16,
commonattr: Attrgroup,
volattr: Attrgroup,
dirattr: Attrgroup,
fileattr: Attrgroup,
forkattr: Attrgroup,
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn getxattr(path: &CStr, name: &CStr, value: &mut [u8]) -> io::Result<usize> {
let value_ptr = value.as_mut_ptr();
#[cfg(not(apple))]
unsafe {
ret_usize(c::getxattr(
path.as_ptr(),
name.as_ptr(),
value_ptr.cast::<c::c_void>(),
value.len(),
))
}
#[cfg(apple)]
{
// Passing an empty to slice to getxattr leads to ERANGE on macOS. Pass null
// instead.
let ptr = if value.is_empty() {
core::ptr::null_mut()
} else {
value_ptr.cast::<c::c_void>()
};
unsafe {
ret_usize(c::getxattr(
path.as_ptr(),
name.as_ptr(),
ptr,
value.len(),
0,
0,
))
}
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn lgetxattr(path: &CStr, name: &CStr, value: &mut [u8]) -> io::Result<usize> {
let value_ptr = value.as_mut_ptr();
#[cfg(not(apple))]
unsafe {
ret_usize(c::lgetxattr(
path.as_ptr(),
name.as_ptr(),
value_ptr.cast::<c::c_void>(),
value.len(),
))
}
#[cfg(apple)]
{
// Passing an empty to slice to getxattr leads to ERANGE on macOS. Pass null
// instead.
let ptr = if value.is_empty() {
core::ptr::null_mut()
} else {
value_ptr.cast::<c::c_void>()
};
unsafe {
ret_usize(c::getxattr(
path.as_ptr(),
name.as_ptr(),
ptr,
value.len(),
0,
c::XATTR_NOFOLLOW,
))
}
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn fgetxattr(fd: BorrowedFd<'_>, name: &CStr, value: &mut [u8]) -> io::Result<usize> {
let value_ptr = value.as_mut_ptr();
#[cfg(not(apple))]
unsafe {
ret_usize(c::fgetxattr(
borrowed_fd(fd),
name.as_ptr(),
value_ptr.cast::<c::c_void>(),
value.len(),
))
}
#[cfg(apple)]
{
// Passing an empty to slice to getxattr leads to ERANGE on macOS. Pass null
// instead.
let ptr = if value.is_empty() {
core::ptr::null_mut()
} else {
value_ptr.cast::<c::c_void>()
};
unsafe {
ret_usize(c::fgetxattr(
borrowed_fd(fd),
name.as_ptr(),
ptr,
value.len(),
0,
0,
))
}
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn setxattr(
path: &CStr,
name: &CStr,
value: &[u8],
flags: XattrFlags,
) -> io::Result<()> {
#[cfg(not(apple))]
unsafe {
ret(c::setxattr(
path.as_ptr(),
name.as_ptr(),
value.as_ptr().cast::<c::c_void>(),
value.len(),
flags.bits() as i32,
))
}
#[cfg(apple)]
unsafe {
ret(c::setxattr(
path.as_ptr(),
name.as_ptr(),
value.as_ptr().cast::<c::c_void>(),
value.len(),
0,
flags.bits() as i32,
))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn lsetxattr(
path: &CStr,
name: &CStr,
value: &[u8],
flags: XattrFlags,
) -> io::Result<()> {
#[cfg(not(apple))]
unsafe {
ret(c::lsetxattr(
path.as_ptr(),
name.as_ptr(),
value.as_ptr().cast::<c::c_void>(),
value.len(),
flags.bits() as i32,
))
}
#[cfg(apple)]
unsafe {
ret(c::setxattr(
path.as_ptr(),
name.as_ptr(),
value.as_ptr().cast::<c::c_void>(),
value.len(),
0,
flags.bits() as i32 | c::XATTR_NOFOLLOW,
))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn fsetxattr(
fd: BorrowedFd<'_>,
name: &CStr,
value: &[u8],
flags: XattrFlags,
) -> io::Result<()> {
#[cfg(not(apple))]
unsafe {
ret(c::fsetxattr(
borrowed_fd(fd),
name.as_ptr(),
value.as_ptr().cast::<c::c_void>(),
value.len(),
flags.bits() as i32,
))
}
#[cfg(apple)]
unsafe {
ret(c::fsetxattr(
borrowed_fd(fd),
name.as_ptr(),
value.as_ptr().cast::<c::c_void>(),
value.len(),
0,
flags.bits() as i32,
))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn listxattr(path: &CStr, list: &mut [c::c_char]) -> io::Result<usize> {
#[cfg(not(apple))]
unsafe {
ret_usize(c::listxattr(path.as_ptr(), list.as_mut_ptr(), list.len()))
}
#[cfg(apple)]
unsafe {
ret_usize(c::listxattr(
path.as_ptr(),
list.as_mut_ptr(),
list.len(),
0,
))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn llistxattr(path: &CStr, list: &mut [c::c_char]) -> io::Result<usize> {
#[cfg(not(apple))]
unsafe {
ret_usize(c::llistxattr(path.as_ptr(), list.as_mut_ptr(), list.len()))
}
#[cfg(apple)]
unsafe {
ret_usize(c::listxattr(
path.as_ptr(),
list.as_mut_ptr(),
list.len(),
c::XATTR_NOFOLLOW,
))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn flistxattr(fd: BorrowedFd<'_>, list: &mut [c::c_char]) -> io::Result<usize> {
let fd = borrowed_fd(fd);
#[cfg(not(apple))]
unsafe {
ret_usize(c::flistxattr(fd, list.as_mut_ptr(), list.len()))
}
#[cfg(apple)]
unsafe {
ret_usize(c::flistxattr(fd, list.as_mut_ptr(), list.len(), 0))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn removexattr(path: &CStr, name: &CStr) -> io::Result<()> {
#[cfg(not(apple))]
unsafe {
ret(c::removexattr(path.as_ptr(), name.as_ptr()))
}
#[cfg(apple)]
unsafe {
ret(c::removexattr(path.as_ptr(), name.as_ptr(), 0))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn lremovexattr(path: &CStr, name: &CStr) -> io::Result<()> {
#[cfg(not(apple))]
unsafe {
ret(c::lremovexattr(path.as_ptr(), name.as_ptr()))
}
#[cfg(apple)]
unsafe {
ret(c::removexattr(
path.as_ptr(),
name.as_ptr(),
c::XATTR_NOFOLLOW,
))
}
}
#[cfg(any(apple, linux_kernel))]
pub(crate) fn fremovexattr(fd: BorrowedFd<'_>, name: &CStr) -> io::Result<()> {
let fd = borrowed_fd(fd);
#[cfg(not(apple))]
unsafe {
ret(c::fremovexattr(fd, name.as_ptr()))
}
#[cfg(apple)]
unsafe {
ret(c::fremovexattr(fd, name.as_ptr(), 0))
}
}
#[test]
fn test_sizes() {
#[cfg(linux_kernel)]
assert_eq_size!(c::loff_t, u64);
// Assert that `Timestamps` has the expected layout. If we're not fixing
// y2038, libc's type should match ours. If we are, it's smaller.
#[cfg(not(fix_y2038))]
assert_eq_size!([c::timespec; 2], Timestamps);
#[cfg(fix_y2038)]
assert!(core::mem::size_of::<[c::timespec; 2]>() < core::mem::size_of::<Timestamps>());
}