//! Libc and supplemental types and constants. #![allow(unused_imports)] // Import everything from libc, but we'll add some stuff and override some // things below. pub(crate) use libc::*; /// `PROC_SUPER_MAGIC`—The magic number for the procfs filesystem. #[cfg(all(linux_kernel, target_env = "musl"))] pub(crate) const PROC_SUPER_MAGIC: u32 = 0x0000_9fa0; /// `NFS_SUPER_MAGIC`—The magic number for the NFS filesystem. #[cfg(all(linux_kernel, target_env = "musl"))] pub(crate) const NFS_SUPER_MAGIC: u32 = 0x0000_6969; #[cfg(feature = "process")] #[cfg(not(any(target_os = "espidf", target_os = "wasi")))] pub(crate) const EXIT_SIGNALED_SIGABRT: c_int = 128 + SIGABRT as c_int; // TODO: Upstream these. #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_TSN: c_int = linux_raw_sys::if_ether::ETH_P_TSN as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_ERSPAN2: c_int = linux_raw_sys::if_ether::ETH_P_ERSPAN2 as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_ERSPAN: c_int = linux_raw_sys::if_ether::ETH_P_ERSPAN as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_PROFINET: c_int = linux_raw_sys::if_ether::ETH_P_PROFINET as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_REALTEK: c_int = linux_raw_sys::if_ether::ETH_P_REALTEK as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_ETHERCAT: c_int = linux_raw_sys::if_ether::ETH_P_ETHERCAT as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_PREAUTH: c_int = linux_raw_sys::if_ether::ETH_P_PREAUTH as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_LLDP: c_int = linux_raw_sys::if_ether::ETH_P_LLDP as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_MRP: c_int = linux_raw_sys::if_ether::ETH_P_MRP as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_NCSI: c_int = linux_raw_sys::if_ether::ETH_P_NCSI as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_CFM: c_int = linux_raw_sys::if_ether::ETH_P_CFM as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_IBOE: c_int = linux_raw_sys::if_ether::ETH_P_IBOE as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_HSR: c_int = linux_raw_sys::if_ether::ETH_P_HSR as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_NSH: c_int = linux_raw_sys::if_ether::ETH_P_NSH as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_DSA_8021Q: c_int = linux_raw_sys::if_ether::ETH_P_DSA_8021Q as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_DSA_A5PSW: c_int = linux_raw_sys::if_ether::ETH_P_DSA_A5PSW as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_IFE: c_int = linux_raw_sys::if_ether::ETH_P_IFE as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_CAN: c_int = linux_raw_sys::if_ether::ETH_P_CAN as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_CANXL: c_int = linux_raw_sys::if_ether::ETH_P_CANXL as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_XDSA: c_int = linux_raw_sys::if_ether::ETH_P_XDSA as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_MAP: c_int = linux_raw_sys::if_ether::ETH_P_MAP as _; #[cfg(all(linux_kernel, feature = "net"))] pub(crate) const ETH_P_MCTP: c_int = linux_raw_sys::if_ether::ETH_P_MCTP as _; #[cfg(all( linux_kernel, any( target_arch = "mips", target_arch = "mips32r6", target_arch = "mips64", target_arch = "mips64r6", target_arch = "sparc", target_arch = "sparc64" ) ))] pub(crate) const SIGEMT: c_int = linux_raw_sys::general::SIGEMT as _; // TODO: Upstream these. #[cfg(all(linux_kernel, feature = "termios"))] pub(crate) const IUCLC: tcflag_t = linux_raw_sys::general::IUCLC as _; #[cfg(all(linux_kernel, feature = "termios"))] pub(crate) const XCASE: tcflag_t = linux_raw_sys::general::XCASE as _; #[cfg(target_os = "aix")] pub(crate) const MSG_DONTWAIT: c_int = libc::MSG_NONBLOCK; // TODO: Remove once https://github.com/rust-lang/libc/pull/3377 is merged and released. #[cfg(target_os = "netbsd")] #[cfg(feature = "net")] pub(crate) const SO_NOSIGPIPE: c_int = 0x0800; // On PowerPC, the regular `termios` has the `termios2` fields and there is no // `termios2`. linux-raw-sys has aliases `termios2` to `termios` to cover this // difference, but we still need to manually import it since `libc` doesn't // have this. #[cfg(all( linux_kernel, feature = "termios", any(target_arch = "powerpc", target_arch = "powerpc64") ))] pub(crate) use { linux_raw_sys::general::{termios2, CIBAUD}, linux_raw_sys::ioctl::{TCGETS2, TCSETS2, TCSETSF2, TCSETSW2}, }; // Automatically enable “large file” support (LFS) features. #[cfg(target_os = "vxworks")] pub(super) use libc::_Vx_ticks64_t as _Vx_ticks_t; #[cfg(linux_kernel)] pub(super) use libc::fallocate64 as fallocate; #[cfg(not(any(target_arch = "aarch64", target_arch = "riscv64")))] #[cfg(any(linux_like, target_os = "aix"))] pub(super) use libc::open64 as open; #[cfg(any( linux_kernel, target_os = "aix", target_os = "hurd", target_os = "l4re" ))] pub(super) use libc::posix_fallocate64 as posix_fallocate; #[cfg(any(all(linux_like, not(target_os = "android")), target_os = "aix"))] pub(super) use libc::{blkcnt64_t as blkcnt_t, rlim64_t as rlim_t}; // TODO: AIX has `stat64x`, `fstat64x`, `lstat64x`, and `stat64xat`; add them // to the upstream libc crate and implement rustix's `statat` etc. with them. #[cfg(target_os = "aix")] pub(super) use libc::{ blksize64_t as blksize_t, fstat64 as fstat, fstatfs64 as fstatfs, fstatvfs64 as fstatvfs, ftruncate64 as ftruncate, getrlimit64 as getrlimit, ino_t, lseek64 as lseek, mmap, off64_t as off_t, openat, posix_fadvise64 as posix_fadvise, preadv, pwritev, rlimit64 as rlimit, setrlimit64 as setrlimit, statfs64 as statfs, statvfs64 as statvfs, RLIM_INFINITY, }; #[cfg(any(linux_like, target_os = "hurd"))] pub(super) use libc::{ fstat64 as fstat, fstatat64 as fstatat, fstatfs64 as fstatfs, fstatvfs64 as fstatvfs, ftruncate64 as ftruncate, getrlimit64 as getrlimit, ino64_t as ino_t, lseek64 as lseek, mmap64 as mmap, off64_t as off_t, openat64 as openat, posix_fadvise64 as posix_fadvise, rlimit64 as rlimit, setrlimit64 as setrlimit, statfs64 as statfs, statvfs64 as statvfs, RLIM64_INFINITY as RLIM_INFINITY, }; #[cfg(apple)] pub(super) use libc::{ host_info64_t as host_info_t, host_statistics64 as host_statistics, vm_statistics64_t as vm_statistics_t, }; #[cfg(not(all( linux_kernel, any( target_pointer_width = "32", target_arch = "mips64", target_arch = "mips64r6" ) )))] #[cfg(any(linux_like, target_os = "aix", target_os = "hurd"))] pub(super) use libc::{lstat64 as lstat, stat64 as stat}; #[cfg(any( linux_kernel, target_os = "aix", target_os = "hurd", target_os = "emscripten" ))] pub(super) use libc::{pread64 as pread, pwrite64 as pwrite}; #[cfg(any(target_os = "linux", target_os = "hurd", target_os = "emscripten"))] pub(super) use libc::{preadv64 as preadv, pwritev64 as pwritev}; #[cfg(all(target_os = "linux", target_env = "gnu"))] pub(super) unsafe fn prlimit( pid: libc::pid_t, resource: libc::__rlimit_resource_t, new_limit: *const libc::rlimit64, old_limit: *mut libc::rlimit64, ) -> libc::c_int { // `prlimit64` wasn't supported in glibc until 2.13. weak_or_syscall! { fn prlimit64( pid: libc::pid_t, resource: libc::__rlimit_resource_t, new_limit: *const libc::rlimit64, old_limit: *mut libc::rlimit64 ) via SYS_prlimit64 -> libc::c_int } prlimit64(pid, resource, new_limit, old_limit) } #[cfg(all(target_os = "linux", target_env = "musl"))] pub(super) unsafe fn prlimit( pid: libc::pid_t, resource: libc::c_int, new_limit: *const libc::rlimit64, old_limit: *mut libc::rlimit64, ) -> libc::c_int { weak_or_syscall! { fn prlimit64( pid: libc::pid_t, resource: libc::c_int, new_limit: *const libc::rlimit64, old_limit: *mut libc::rlimit64 ) via SYS_prlimit64 -> libc::c_int } prlimit64(pid, resource, new_limit, old_limit) } #[cfg(target_os = "android")] pub(super) unsafe fn prlimit( pid: libc::pid_t, resource: libc::c_int, new_limit: *const libc::rlimit64, old_limit: *mut libc::rlimit64, ) -> libc::c_int { weak_or_syscall! { fn prlimit64( pid: libc::pid_t, resource: libc::c_int, new_limit: *const libc::rlimit64, old_limit: *mut libc::rlimit64 ) via SYS_prlimit64 -> libc::c_int } prlimit64(pid, resource, new_limit, old_limit) } #[cfg(target_os = "android")] mod readwrite_pv64 { use super::*; pub(in super::super) unsafe fn preadv64( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off64_t, ) -> libc::ssize_t { // Older Android libc lacks `preadv64`, so use the `weak!` mechanism to // test for it, and call back to `libc::syscall`. We don't use // `weak_or_syscall` here because we need to pass the 64-bit offset // specially. weak! { fn preadv64(libc::c_int, *const libc::iovec, libc::c_int, libc::off64_t) -> libc::ssize_t } if let Some(fun) = preadv64.get() { fun(fd, iov, iovcnt, offset) } else { // Unlike the plain "p" functions, the "pv" functions pass their // offset in an endian-independent way, and always in two registers. syscall! { fn preadv( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset_lo: usize, offset_hi: usize ) via SYS_preadv -> libc::ssize_t } preadv(fd, iov, iovcnt, offset as usize, (offset >> 32) as usize) } } pub(in super::super) unsafe fn pwritev64( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off64_t, ) -> libc::ssize_t { // See the comments in `preadv64`. weak! { fn pwritev64(libc::c_int, *const libc::iovec, libc::c_int, libc::off64_t) -> libc::ssize_t } if let Some(fun) = pwritev64.get() { fun(fd, iov, iovcnt, offset) } else { // Unlike the plain "p" functions, the "pv" functions pass their // offset in an endian-independent way, and always in two registers. syscall! { fn pwritev( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset_lo: usize, offset_hi: usize ) via SYS_pwritev -> libc::ssize_t } pwritev(fd, iov, iovcnt, offset as usize, (offset >> 32) as usize) } } } #[cfg(target_os = "android")] pub(super) use readwrite_pv64::{preadv64 as preadv, pwritev64 as pwritev}; // macOS added `preadv` and `pwritev` in version 11.0. #[cfg(apple)] mod readwrite_pv { weakcall! { pub(in super::super) fn preadv( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off_t ) -> libc::ssize_t } weakcall! { pub(in super::super) fn pwritev( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off_t ) -> libc::ssize_t } } #[cfg(apple)] pub(super) use readwrite_pv::{preadv, pwritev}; // glibc added `preadv64v2` and `pwritev64v2` in version 2.26. #[cfg(all(target_os = "linux", target_env = "gnu"))] mod readwrite_pv64v2 { use super::*; pub(in super::super) unsafe fn preadv64v2( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off64_t, flags: libc::c_int, ) -> libc::ssize_t { // Older glibc lacks `preadv64v2`, so use the `weak!` mechanism to // test for it, and call back to `libc::syscall`. We don't use // `weak_or_syscall` here because we need to pass the 64-bit offset // specially. weak! { fn preadv64v2(libc::c_int, *const libc::iovec, libc::c_int, libc::off64_t, libc::c_int) -> libc::ssize_t } if let Some(fun) = preadv64v2.get() { fun(fd, iov, iovcnt, offset, flags) } else { // Unlike the plain "p" functions, the "pv" functions pass their // offset in an endian-independent way, and always in two registers. syscall! { fn preadv2( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset_lo: usize, offset_hi: usize, flags: libc::c_int ) via SYS_preadv2 -> libc::ssize_t } preadv2( fd, iov, iovcnt, offset as usize, (offset >> 32) as usize, flags, ) } } pub(in super::super) unsafe fn pwritev64v2( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off64_t, flags: libc::c_int, ) -> libc::ssize_t { // See the comments in `preadv64v2`. weak! { fn pwritev64v2(libc::c_int, *const libc::iovec, libc::c_int, libc::off64_t, libc::c_int) -> libc::ssize_t } if let Some(fun) = pwritev64v2.get() { fun(fd, iov, iovcnt, offset, flags) } else { // Unlike the plain "p" functions, the "pv" functions pass their // offset in an endian-independent way, and always in two registers. syscall! { fn pwritev2( fd: libc::c_int, iov: *const libc::iovec, iovec: libc::c_int, offset_lo: usize, offset_hi: usize, flags: libc::c_int ) via SYS_pwritev2 -> libc::ssize_t } pwritev2( fd, iov, iovcnt, offset as usize, (offset >> 32) as usize, flags, ) } } } #[cfg(all(target_os = "linux", target_env = "gnu"))] pub(super) use readwrite_pv64v2::{preadv64v2 as preadv2, pwritev64v2 as pwritev2}; // On non-glibc, assume we don't have `pwritev2`/`preadv2` in libc and use // `c::syscall` instead. #[cfg(any( target_os = "android", all(target_os = "linux", not(target_env = "gnu")), ))] mod readwrite_pv64v2 { use super::*; pub(in super::super) unsafe fn preadv64v2( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off64_t, flags: libc::c_int, ) -> libc::ssize_t { // Unlike the plain "p" functions, the "pv" functions pass their offset // in an endian-independent way, and always in two registers. syscall! { fn preadv2( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset_lo: usize, offset_hi: usize, flags: libc::c_int ) via SYS_preadv2 -> libc::ssize_t } preadv2( fd, iov, iovcnt, offset as usize, (offset >> 32) as usize, flags, ) } pub(in super::super) unsafe fn pwritev64v2( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset: libc::off64_t, flags: libc::c_int, ) -> libc::ssize_t { // Unlike the plain "p" functions, the "pv" functions pass their offset // in an endian-independent way, and always in two registers. syscall! { fn pwritev2( fd: libc::c_int, iov: *const libc::iovec, iovcnt: libc::c_int, offset_lo: usize, offset_hi: usize, flags: libc::c_int ) via SYS_pwritev2 -> libc::ssize_t } pwritev2( fd, iov, iovcnt, offset as usize, (offset >> 32) as usize, flags, ) } } #[cfg(any( target_os = "android", all(target_os = "linux", not(target_env = "gnu")), ))] pub(super) use readwrite_pv64v2::{preadv64v2 as preadv2, pwritev64v2 as pwritev2};