// Functions in this file are only for exporting to C++, DO NOT USE IN RUST use std::ffi::CStr; use std::os::unix::io::RawFd; use std::ptr; use libc::{ c_char, c_uint, c_ulong, c_void, dev_t, mode_t, nfds_t, off_t, pollfd, sockaddr, socklen_t, ssize_t, SYS_dup3, }; use crate::cxx_extern::readlinkat_for_cxx; use crate::{errno, raw_cstr, CxxResultExt, FsPath, Utf8CStr, Utf8CStrBufRef}; fn ptr_to_str<'a, T>(ptr: *const T) -> &'a str { if ptr.is_null() { "(null)" } else { unsafe { CStr::from_ptr(ptr.cast()) }.to_str().unwrap_or("") } } fn error_str() -> &'static str { unsafe { ptr_to_str(libc::strerror(*errno())) } } macro_rules! error_cxx { ($($args:tt)+) => { ($crate::log_with_args($crate::LogLevel::ErrorCxx, format_args_nl!($($args)+))) } } macro_rules! perror { ($fmt:expr) => { $crate::log_with_formatter($crate::LogLevel::ErrorCxx, |w| { w.write_str($fmt)?; w.write_fmt(format_args_nl!(" failed with {}: {}", $crate::errno(), error_str())) }) }; ($fmt:expr, $($args:tt)*) => { $crate::log_with_formatter($crate::LogLevel::ErrorCxx, |w| { w.write_fmt(format_args!($fmt, $($args)*))?; w.write_fmt(format_args_nl!(" failed with {}: {}", $crate::errno(), error_str())) }) }; } mod c_export { use std::os::unix::io::RawFd; use crate::{slice_from_ptr, slice_from_ptr_mut}; #[no_mangle] unsafe extern "C" fn xwrite(fd: RawFd, buf: *const u8, bufsz: usize) -> isize { super::xwrite(fd, slice_from_ptr(buf, bufsz)) } #[no_mangle] unsafe extern "C" fn xxread(fd: RawFd, buf: *mut u8, bufsz: usize) -> isize { super::xxread(fd, slice_from_ptr_mut(buf, bufsz)) } } #[no_mangle] unsafe extern "C" fn xrealpath(path: *const c_char, buf: *mut u8, bufsz: usize) -> isize { match Utf8CStr::from_ptr(path) { Ok(p) => { let mut buf = Utf8CStrBufRef::from_ptr(buf, bufsz); FsPath::from(p) .realpath(&mut buf) .log_cxx_with_msg(|w| w.write_fmt(format_args!("realpath {} failed", p))) .map_or(-1, |_| buf.len() as isize) } Err(_) => -1, } } #[no_mangle] unsafe extern "C" fn xreadlink(path: *const c_char, buf: *mut u8, bufsz: usize) -> isize { match Utf8CStr::from_ptr(path) { Ok(p) => { let mut buf = Utf8CStrBufRef::from_ptr(buf, bufsz); FsPath::from(p) .read_link(&mut buf) .log_cxx_with_msg(|w| w.write_fmt(format_args!("readlink {} failed", p))) .map_or(-1, |_| buf.len() as isize) } Err(_) => -1, } } #[no_mangle] unsafe extern "C" fn xreadlinkat( dirfd: RawFd, path: *const c_char, buf: *mut u8, bufsz: usize, ) -> isize { let r = readlinkat_for_cxx(dirfd, path, buf, bufsz); if r < 0 { perror!("readlinkat {}", ptr_to_str(path)) } r } #[no_mangle] unsafe extern "C" fn xfopen(path: *const c_char, mode: *const c_char) -> *mut libc::FILE { let fp = libc::fopen(path, mode); if fp.is_null() { perror!("fopen {}", ptr_to_str(path)); } fp } #[no_mangle] unsafe extern "C" fn xfdopen(fd: RawFd, mode: *const c_char) -> *mut libc::FILE { let fp = libc::fdopen(fd, mode); if fp.is_null() { perror!("fdopen"); } fp } #[no_mangle] unsafe extern "C" fn xopen(path: *const c_char, flags: i32, mode: mode_t) -> RawFd { let r = libc::open(path, flags, mode as c_uint); if r < 0 { perror!("open {}", ptr_to_str(path)); } r } #[no_mangle] unsafe extern "C" fn xopenat(dirfd: RawFd, path: *const c_char, flags: i32, mode: mode_t) -> RawFd { let r = libc::openat(dirfd, path, flags, mode as c_uint); if r < 0 { perror!("openat {}", ptr_to_str(path)); } r } // Fully write data slice fn xwrite(fd: RawFd, data: &[u8]) -> isize { unsafe { let mut write_sz: usize = 0; let mut r: ssize_t; let mut remain: &[u8] = data; loop { r = libc::write(fd, remain.as_ptr().cast(), remain.len()); if r < 0 { if *errno() == libc::EINTR { continue; } perror!("write"); return r; } let r = r as usize; write_sz += r; remain = &remain[r..]; if r == 0 || remain.is_empty() { break; } } if !remain.is_empty() { error_cxx!("write ({} != {})", write_sz, data.len()) } write_sz as isize } } #[no_mangle] unsafe extern "C" fn xread(fd: RawFd, buf: *mut c_void, bufsz: usize) -> isize { unsafe { let r = libc::read(fd, buf, bufsz); if r < 0 { perror!("read"); } r } } // Fully read size of data slice fn xxread(fd: RawFd, data: &mut [u8]) -> isize { unsafe { let mut read_sz: usize = 0; let mut r: ssize_t; let mut remain: &mut [u8] = data; loop { r = libc::read(fd, remain.as_mut_ptr().cast(), remain.len()); if r < 0 { if *errno() == libc::EINTR { continue; } perror!("read"); return r; } let r = r as usize; read_sz += r; remain = &mut remain[r..]; if r == 0 || remain.is_empty() { break; } } if !remain.is_empty() { error_cxx!("read ({} != {})", read_sz, data.len()) } read_sz as isize } } #[no_mangle] extern "C" fn xlseek64(fd: RawFd, offset: i64, whence: i32) -> i64 { unsafe { let r = libc::lseek64(fd, offset, whence); if r < 0 { perror!("lseek64"); } r } } pub(crate) fn xpipe2(fds: &mut [i32; 2], flags: i32) -> i32 { unsafe { let r = libc::pipe2(fds.as_mut_ptr(), flags); if r < 0 { perror!("pipe2"); } r } } #[no_mangle] extern "C" fn xsetns(fd: RawFd, nstype: i32) -> i32 { unsafe { let r = libc::setns(fd, nstype); if r < 0 { perror!("setns"); } r } } #[no_mangle] extern "C" fn xunshare(flags: i32) -> i32 { unsafe { let r = libc::unshare(flags); if r < 0 { perror!("unshare"); } r } } #[no_mangle] unsafe extern "C" fn xopendir(path: *const c_char) -> *mut libc::DIR { let dp = libc::opendir(path); if dp.is_null() { perror!("opendir {}", ptr_to_str(path)); } dp } #[no_mangle] extern "C" fn xfdopendir(fd: RawFd) -> *mut libc::DIR { unsafe { let dp = libc::fdopendir(fd); if dp.is_null() { perror!("fdopendir"); } dp } } #[no_mangle] unsafe extern "C" fn xreaddir(dirp: *mut libc::DIR) -> *mut libc::dirent { *errno() = 0; loop { let e = libc::readdir(dirp); if e.is_null() { if *errno() != 0 { perror!("readdir") } } else { // Filter out . and .. let s = (*e).d_name.as_ptr(); if libc::strcmp(s, raw_cstr!(".")) == 0 || libc::strcmp(s, raw_cstr!("..")) == 0 { continue; } }; return e; } } #[no_mangle] extern "C" fn xsetsid() -> i32 { unsafe { let r = libc::setsid(); if r < 0 { perror!("setsid"); } r } } #[no_mangle] extern "C" fn xsocket(domain: i32, ty: i32, protocol: i32) -> RawFd { unsafe { let fd = libc::socket(domain, ty, protocol); if fd < 0 { perror!("socket"); } fd } } #[no_mangle] unsafe extern "C" fn xbind(socket: i32, address: *const sockaddr, len: socklen_t) -> i32 { let r = libc::bind(socket, address, len); if r < 0 { perror!("bind"); } r } #[no_mangle] extern "C" fn xlisten(socket: i32, backlog: i32) -> i32 { unsafe { let r = libc::listen(socket, backlog); if r < 0 { perror!("listen"); } r } } #[no_mangle] unsafe extern "C" fn xaccept4( sockfd: RawFd, addr: *mut sockaddr, len: *mut socklen_t, flg: i32, ) -> RawFd { let fd = libc::accept4(sockfd, addr, len, flg); if fd < 0 { perror!("accept4"); } fd } #[no_mangle] unsafe extern "C" fn xsendmsg(fd: RawFd, msg: *const libc::msghdr, flags: i32) -> ssize_t { let r = libc::sendmsg(fd, msg, flags); if r < 0 { perror!("sendmsg"); } r } #[no_mangle] unsafe extern "C" fn xrecvmsg(fd: RawFd, msg: *mut libc::msghdr, flags: i32) -> ssize_t { let r = libc::recvmsg(fd, msg, flags); if r < 0 { perror!("recvmsg"); } r } #[no_mangle] unsafe extern "C" fn xaccess(path: *const c_char, mode: i32) -> i32 { let r = libc::access(path, mode); if r < 0 { perror!("access {}", ptr_to_str(path)); } r } #[no_mangle] unsafe extern "C" fn xfaccessat(dirfd: RawFd, path: *const c_char, mode: i32, flags: i32) -> i32 { #[allow(unused_mut)] let mut r = libc::faccessat(dirfd, path, mode, flags); if r < 0 { perror!("faccessat {}", ptr_to_str(path)); } #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] if r > 0 && *errno() == 0 { r = 0 } r } #[no_mangle] unsafe extern "C" fn xstat(path: *const c_char, buf: *mut libc::stat) -> i32 { let r = libc::stat(path, buf); if r < 0 { perror!("stat {}", ptr_to_str(path)); } r } #[no_mangle] unsafe extern "C" fn xlstat(path: *const c_char, buf: *mut libc::stat) -> i32 { let r = libc::lstat(path, buf); if r < 0 { perror!("lstat {}", ptr_to_str(path)); } r } #[no_mangle] unsafe extern "C" fn xfstat(fd: RawFd, buf: *mut libc::stat) -> i32 { let r = libc::fstat(fd, buf); if r < 0 { perror!("fstat"); } r } #[no_mangle] unsafe extern "C" fn xfstatat( dirfd: RawFd, path: *const c_char, buf: *mut libc::stat, flags: i32, ) -> i32 { let r = libc::fstatat(dirfd, path, buf, flags); if r < 0 { perror!("fstatat {}", ptr_to_str(path)); } r } #[no_mangle] extern "C" fn xdup(oldfd: RawFd) -> RawFd { unsafe { let fd = libc::dup(oldfd); if fd < 0 { perror!("dup"); } fd } } #[no_mangle] extern "C" fn xdup2(oldfd: RawFd, newfd: RawFd) -> RawFd { unsafe { let fd = libc::dup2(oldfd, newfd); if fd < 0 { perror!("dup2"); } fd } } #[no_mangle] extern "C" fn xdup3(oldfd: RawFd, newfd: RawFd, flags: i32) -> RawFd { unsafe { let fd = libc::syscall(SYS_dup3, oldfd, newfd, flags) as RawFd; if fd < 0 { perror!("dup3"); } fd } } #[no_mangle] unsafe extern "C" fn xsymlink(target: *const c_char, linkpath: *const c_char) -> i32 { let r = libc::symlink(target, linkpath); if r < 0 { perror!("symlink {} -> {}", ptr_to_str(target), ptr_to_str(linkpath)); } r } #[no_mangle] unsafe extern "C" fn xsymlinkat( target: *const c_char, dirfd: RawFd, linkpath: *const c_char, ) -> i32 { let r = libc::symlinkat(target, dirfd, linkpath); if r < 0 { perror!( "symlinkat {} -> {}", ptr_to_str(target), ptr_to_str(linkpath) ); } r } #[no_mangle] unsafe extern "C" fn xlinkat( olddirfd: RawFd, target: *const c_char, newdirfd: RawFd, linkpath: *const c_char, flags: i32, ) -> i32 { let r = libc::linkat(olddirfd, target, newdirfd, linkpath, flags); if r < 0 { perror!("linkat {} -> {}", ptr_to_str(target), ptr_to_str(linkpath)); } r } #[no_mangle] unsafe extern "C" fn xmount( src: *const c_char, target: *const c_char, fstype: *const c_char, flags: c_ulong, data: *const c_void, ) -> i32 { let r = libc::mount(src, target, fstype, flags, data); if r < 0 { perror!("mount {} -> {}", ptr_to_str(src), ptr_to_str(target)); } r } #[no_mangle] unsafe extern "C" fn xumount(target: *const c_char) -> i32 { let r = libc::umount(target); if r < 0 { perror!("umount {}", ptr_to_str(target)); } r } #[no_mangle] unsafe extern "C" fn xumount2(target: *const c_char, flags: i32) -> i32 { let r = libc::umount2(target, flags); if r < 0 { perror!("umount2 {}", ptr_to_str(target)); } r } #[no_mangle] unsafe extern "C" fn xrename(oldname: *const c_char, newname: *const c_char) -> i32 { let r = libc::rename(oldname, newname); if r < 0 { perror!("rename {} -> {}", ptr_to_str(oldname), ptr_to_str(newname)); } r } #[no_mangle] unsafe extern "C" fn xmkdir(path: *const c_char, mode: mode_t) -> i32 { let r = libc::mkdir(path, mode); if r < 0 && *errno() != libc::EEXIST { perror!("mkdir {}", ptr_to_str(path)); } r } #[no_mangle] unsafe extern "C" fn xmkdirs(path: *const c_char, mode: mode_t) -> i32 { match Utf8CStr::from_ptr(path) { Ok(p) => FsPath::from(p) .mkdirs(mode) .log_cxx_with_msg(|w| w.write_fmt(format_args!("mkdirs {} failed", p))) .map_or(-1, |_| 0), Err(_) => -1, } } #[no_mangle] unsafe extern "C" fn xmkdirat(dirfd: RawFd, path: *const c_char, mode: mode_t) -> i32 { let r = libc::mkdirat(dirfd, path, mode); if r < 0 && *errno() != libc::EEXIST { perror!("mkdirat {}", ptr_to_str(path)); } r } #[no_mangle] unsafe extern "C" fn xsendfile( out_fd: RawFd, in_fd: RawFd, offset: *mut off_t, count: usize, ) -> isize { let r = libc::sendfile(out_fd, in_fd, offset, count); if r < 0 { perror!("sendfile"); } r } #[no_mangle] unsafe extern "C" fn xmmap( addr: *mut c_void, len: usize, prot: i32, flags: i32, fd: RawFd, offset: off_t, ) -> *mut c_void { let r = libc::mmap(addr, len, prot, flags, fd, offset); if r == libc::MAP_FAILED { perror!("mmap"); return ptr::null_mut(); } r } #[no_mangle] extern "C" fn xfork() -> i32 { unsafe { let r = libc::fork(); if r < 0 { perror!("fork"); } r } } #[no_mangle] unsafe extern "C" fn xpoll(fds: *mut pollfd, nfds: nfds_t, timeout: i32) -> i32 { let r = libc::poll(fds, nfds, timeout); if r < 0 { perror!("poll"); } r } #[no_mangle] unsafe extern "C" fn xmknod(pathname: *const c_char, mode: mode_t, dev: dev_t) -> i32 { let r = libc::mknod(pathname, mode, dev); if r < 0 { perror!("mknod {}", ptr_to_str(pathname)); } r }