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// Copyright 2015 The Rust Project Developers.
// // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or // https://www.apache.org/licenses/LICENSE-2.0> or the MIT license // <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your // option. This file may not be copied, modified, or distributed // except according to those terms. use std::cmp::min; use std::io::{self, IoSlice}; use std::marker::PhantomData; use std::mem::{self, size_of, MaybeUninit}; use std::net::{self, Ipv4Addr, Ipv6Addr, Shutdown}; use std::os::windows::io::{ AsRawSocket, AsSocket, BorrowedSocket, FromRawSocket, IntoRawSocket, OwnedSocket, RawS }; use std::path::Path; use std::sync::Once; use std::time::{Duration, Instant}; use std::{process, ptr, slice}; use windows_sys::Win32::Foundation::{SetHandleInformation, HANDLE, HANDLE_FLAG_INHE #[cfg(feature = "all")] use windows_sys::Win32::Networking::WinSock::SO_PROTOCOL_INFOW; use windows_sys::Win32::Networking::WinSock::{ self, tcp_keepalive, FIONBIO, IN6_ADDR, IN6_ADDR_0, INVALID_SOCKET, IN_ADDR, IN_ADDR_0, POLLERR, POLLHUP, POLLRDNORM, POLLWRNORM, SD_BOTH, SD_RECEIVE, SD_SEND, SIO_KEEPALIVE_V SOCKET_ERROR, WSABUF, WSAEMSGSIZE, WSAESHUTDOWN, WSAPOLLFD, WSAPROTOCOL_INFOW, WSA_FLAG_NO_HANDLE_INHERIT, WSA_FLAG_OVERLAPPED, }; use windows_sys::Win32::System::Threading::INFINITE; use crate::{MsgHdr, RecvFlags, SockAddr, TcpKeepalive, Type}; #[allow(non_camel_case_types)] pub(crate) type c_int = std::os::raw::c_int; /// Fake MSG_TRUNC flag for the [`RecvFlags`] struct. /// /// The flag is enabled when a `WSARecv[From]` call returns `WSAEMSGSIZE`. The /// value of the flag is defined by us. pub(crate) const MSG_TRUNC: c_int = 0x01; // Used in `Domain`. pub(crate) const AF_INET: c_int = windows_sys::Win32::Networking::WinSock::AF_INET as c pub(crate) const AF_INET6: c_int = windows_sys::Win32::Networking::WinSock::AF_INET6 a pub(crate) const AF_UNIX: c_int = windows_sys::Win32::Networking::WinSock::AF_UNIX as c pub(crate) const AF_UNSPEC: c_int = windows_sys::Win32::Networking::WinSock::AF_UNSPE // Used in `Type`. pub(crate) const SOCK_STREAM: c_int = windows_sys::Win32::Networking::WinSock::SOCK_S pub(crate) const SOCK_DGRAM: c_int = windows_sys::Win32::Networking::WinSock::SOCK_DG pub(crate) const SOCK_RAW: c_int = windows_sys::Win32::Networking::WinSock::SOCK_RAW a const SOCK_RDM: c_int = windows_sys::Win32::Networking::WinSock::SOCK_RDM as c_int; pub(crate) const SOCK_SEQPACKET: c_int = windows_sys::Win32::Networking::WinSock::SOCK_SEQPACKET as c_int; // Used in `Protocol`. pub(crate) use windows_sys::Win32::Networking::WinSock::{ IPPROTO_ICMP, IPPROTO_ICMPV6, IPPROTO_TCP, IPPROTO_UDP, }; // Used in `SockAddr`. pub(crate) use windows_sys::Win32::Networking::WinSock::{ SOCKADDR as sockaddr, SOCKADDR_IN as sockaddr_in, SOCKADDR_IN6 as sockaddr_in6, SOCKADDR_STORAGE as sockaddr_storage, }; #[allow(non_camel_case_types)] pub(crate) type sa_family_t = windows_sys::Win32::Networking::WinSock::ADDRESS_FAMIL #[allow(non_camel_case_types)] pub(crate) type socklen_t = windows_sys::Win32::Networking::WinSock::socklen_t; // Used in `Socket`. #[cfg(feature = "all")] pub(crate) use windows_sys::Win32::Networking::WinSock::IP_HDRINCL; pub(crate) use windows_sys::Win32::Networking::WinSock::{ IPPROTO_IPV6, IPV6_ADD_MEMBERSHIP, IPV6_DROP_MEMBERSHIP, IPV6_MREQ as Ipv6Mreq, IPV6_MULTICAST_HOPS, IPV6_MULTICAST_IF, IPV6_MULTICAST_LOOP, IPV6_RECVTCLASS, IPV6_UNICAST_HOPS, IPV6_V6ONLY, IP_ADD_MEMBERSHIP, IP_ADD_SOURCE_MEMBERSHIP, IP_DROP_MEMBERSHIP, IP_DROP_SOURCE_MEMBERSHIP, IP_MREQ as IpMreq, IP_MREQ_SOURCE as IpMreqSource, IP_MULTICAST_IF, IP_MULTICAST_LOOP, IP_MULTICAST_TTL, IP_RECVTOS, IP_TOS, IP_TTL, LINGER as linger, MSG_OOB, MSG_PEEK, SO_BROADCAST, SO_ERROR, SO_KEEPALIVE, SO_LINGER, SO_OOBINLINE, SO_RCVBUF, SO_RCVTIMEO, SO_REUSEADDR, SO_SNDBUF SO_SNDTIMEO, SO_TYPE, TCP_NODELAY, }; pub(crate) const IPPROTO_IP: c_int = windows_sys::Win32::Networking::WinSock::IPPROTO pub(crate) const SOL_SOCKET: c_int = windows_sys::Win32::Networking::WinSock::SOL_SOC /// Type used in set/getsockopt to retrieve the `TCP_NODELAY` option. /// /// NOTE: <https://docs.microsoft.com/en-us/windows/win32/api/winsock2/nf-winsock2- /// documents that options such as `TCP_NODELAY` and `SO_KEEPALIVE` expect a /// `BOOL` (alias for `c_int`, 4 bytes), however in practice this turns out to /// be false (or misleading) as a `BOOLEAN` (`c_uchar`, 1 byte) is returned by /// `getsockopt`. pub(crate) type Bool = windows_sys::Win32::Foundation::BOOLEAN; /// Maximum size of a buffer passed to system call like `recv` and `send`. const MAX_BUF_LEN: usize = c_int::MAX as usize; /// Helper macro to execute a system call that returns an `io::Result`. macro_rules! syscall { ($fn: ident ( $($arg: expr),* $(,)* ), $err_test: path, $err_value: expr) => {{ #[allow(unused_unsafe)] let res = unsafe { windows_sys::Win32::Networking::WinSock::$fn($($arg, )*) }; if $err_test(&res, &$err_value) { Err(io::Error::last_os_error()) } else { Ok(res) } }}; } impl_debug!( crate::Domain, self::AF_INET, self::AF_INET6, self::AF_UNIX, self::AF_UNSPEC, ); /// Windows only API. impl Type { /// Our custom flag to set `WSA_FLAG_NO_HANDLE_INHERIT` on socket creation. /// Trying to mimic `Type::cloexec` on windows. const NO_INHERIT: c_int = 1 << ((size_of::<c_int>() * 8) - 1); // Last bit. /// Set `WSA_FLAG_NO_HANDLE_INHERIT` on the socket. #[cfg(feature = "all")] #[cfg_attr(docsrs, doc(cfg(all(windows, feature = "all"))))] pub const fn no_inherit(self) -> Type { self._no_inherit() } pub(crate) const fn _no_inherit(self) -> Type { Type(self.0 | Type::NO_INHERIT) } } impl_debug!( crate::Type, self::SOCK_STREAM, self::SOCK_DGRAM, self::SOCK_RAW, self::SOCK_RDM, self::SOCK_SEQPACKET, ); impl_debug!( crate::Protocol, WinSock::IPPROTO_ICMP, WinSock::IPPROTO_ICMPV6, WinSock::IPPROTO_TCP, WinSock::IPPROTO_UDP, ); impl std::fmt::Debug for RecvFlags { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.debug_struct("RecvFlags") .field("is_truncated", &self.is_truncated()) .finish() } } #[repr(transparent)] pub struct MaybeUninitSlice<'a> { vec: WSABUF, _lifetime: PhantomData<&'a mut [MaybeUninit<u8>]>, } unsafe impl<'a> Send for MaybeUninitSlice<'a> {} unsafe impl<'a> Sync for MaybeUninitSlice<'a> {} impl<'a> MaybeUninitSlice<'a> { pub fn new(buf: &'a mut [MaybeUninit<u8>]) -> MaybeUninitSlice<'a> { assert!(buf.len() <= u32::MAX as usize); MaybeUninitSlice { vec: WSABUF { len: buf.len() as u32, buf: buf.as_mut_ptr().cast(), }, _lifetime: PhantomData, } } pub fn as_slice(&self) -> &[MaybeUninit<u8>] { unsafe { slice::from_raw_parts(self.vec.buf.cast(), self.vec.len as usize) } } pub fn as_mut_slice(&mut self) -> &mut [MaybeUninit<u8>] { unsafe { slice::from_raw_parts_mut(self.vec.buf.cast(), self.vec.len as usize) } } } // Used in `MsgHdr`. pub(crate) use windows_sys::Win32::Networking::WinSock::WSAMSG as msghdr; pub(crate) fn set_msghdr_name(msg: &mut msghdr, name: &SockAddr) { msg.name = name.as_ptr() as *mut _; msg.namelen = name.len(); } pub(crate) fn set_msghdr_iov(msg: &mut msghdr, ptr: *mut WSABUF, len: usize) { msg.lpBuffers = ptr; msg.dwBufferCount = min(len, u32::MAX as usize) as u32; } pub(crate) fn set_msghdr_control(msg: &mut msghdr, ptr: *mut u8, len: usize) { msg.Control.buf = ptr; msg.Control.len = len as u32; } pub(crate) fn set_msghdr_flags(msg: &mut msghdr, flags: c_int) { msg.dwFlags = flags as u32; } pub(crate) fn msghdr_flags(msg: &msghdr) -> RecvFlags { RecvFlags(msg.dwFlags as c_int) } pub(crate) fn msghdr_control_len(msg: &msghdr) -> usize { msg.Control.len as _ } fn init() { static INIT: Once = Once::new(); INIT.call_once(|| { // Initialize winsock through the standard library by just creating a // dummy socket. Whether this is successful or not we drop the result as // libstd will be sure to have initialized winsock. let _ = net::UdpSocket::bind("127.0.0.1:34254"); }); } pub(crate) type Socket = windows_sys::Win32::Networking::WinSock::SOCKET; pub(crate) unsafe fn socket_from_raw(socket: Socket) -> crate::socket::Inner { crate::socket::Inner::from_raw_socket(socket as RawSocket) } pub(crate) fn socket_as_raw(socket: &crate::socket::Inner) -> Socket { socket.as_raw_socket() as Socket } pub(crate) fn socket_into_raw(socket: crate::socket::Inner) -> Socket { socket.into_raw_socket() as Socket } pub(crate) fn socket(family: c_int, mut ty: c_int, protocol: c_int) -> io::Result<Socket> { init(); // Check if we set our custom flag. let flags = if ty & Type::NO_INHERIT != 0 { ty = ty & !Type::NO_INHERIT; WSA_FLAG_NO_HANDLE_INHERIT } else { 0 }; syscall!( WSASocketW( family, ty, protocol, ptr::null_mut(), 0, WSA_FLAG_OVERLAPPED | flags, ), PartialEq::eq, INVALID_SOCKET ) } pub(crate) fn bind(socket: Socket, addr: &SockAddr) -> io::Result<()> { syscall!(bind(socket, addr.as_ptr(), addr.len()), PartialEq::ne, 0).map(|_| ()) } pub(crate) fn connect(socket: Socket, addr: &SockAddr) -> io::Result<()> { syscall!(connect(socket, addr.as_ptr(), addr.len()), PartialEq::ne, 0).map(|_| ()) } pub(crate) fn poll_connect(socket: &crate::Socket, timeout: Duration) -> io::Result<()> { let start = Instant::now(); let mut fd_array = WSAPOLLFD { fd: socket.as_raw(), events: (POLLRDNORM | POLLWRNORM) as i16, revents: 0, }; loop { let elapsed = start.elapsed(); if elapsed >= timeout { return Err(io::ErrorKind::TimedOut.into()); } let timeout = (timeout - elapsed).as_millis(); let timeout = clamp(timeout, 1, c_int::MAX as u128) as c_int; match syscall!( WSAPoll(&mut fd_array, 1, timeout), PartialEq::eq, SOCKET_ERROR ) { Ok(0) => return Err(io::ErrorKind::TimedOut.into()), Ok(_) => { // Error or hang up indicates an error (or failure to connect). if (fd_array.revents & POLLERR as i16) != 0 || (fd_array.revents & POLLHUP as i16) != 0 { match socket.take_error() { Ok(Some(err)) => return Err(err), Ok(None) => { return Err(io::Error::new( io::ErrorKind::Other, "no error set after POLLHUP", )) } Err(err) => return Err(err), } } return Ok(()); } // Got interrupted, try again. Err(ref err) if err.kind() == io::ErrorKind::Interrupted => continue, Err(err) => return Err(err), } } } // TODO: use clamp from std lib, stable since 1.50. fn clamp<T>(value: T, min: T, max: T) -> T where T: Ord, { if value <= min { min } else if value >= max { max } else { value } } pub(crate) fn listen(socket: Socket, backlog: c_int) -> io::Result<()> { syscall!(listen(socket, backlog), PartialEq::ne, 0).map(|_| ()) } pub(crate) fn accept(socket: Socket) -> io::Result<(Socket, SockAddr)> { // Safety: `accept` initialises the `SockAddr` for us. unsafe { SockAddr::try_init(|storage, len| { syscall!( accept(socket, storage.cast(), len), PartialEq::eq, INVALID_SOCKET ) }) } } pub(crate) fn getsockname(socket: Socket) -> io::Result<SockAddr> { // Safety: `getsockname` initialises the `SockAddr` for us. unsafe { SockAddr::try_init(|storage, len| { syscall!( getsockname(socket, storage.cast(), len), PartialEq::eq, SOCKET_ERROR ) }) } .map(|(_, addr)| addr) } pub(crate) fn getpeername(socket: Socket) -> io::Result<SockAddr> { // Safety: `getpeername` initialises the `SockAddr` for us. unsafe { SockAddr::try_init(|storage, len| { syscall!( getpeername(socket, storage.cast(), len), PartialEq::eq, SOCKET_ERROR ) }) } .map(|(_, addr)| addr) } pub(crate) fn try_clone(socket: Socket) -> io::Result<Socket> { let mut info: MaybeUninit<WSAPROTOCOL_INFOW> = MaybeUninit::uninit(); syscall!( // NOTE: `process.id` is the same as `GetCurrentProcessId`. WSADuplicateSocketW(socket, process::id(), info.as_mut_ptr()), PartialEq::eq, SOCKET_ERROR )?; // Safety: `WSADuplicateSocketW` intialised `info` for us. let mut info = unsafe { info.assume_init() }; syscall!( WSASocketW( info.iAddressFamily, info.iSocketType, info.iProtocol, &mut info, 0, WSA_FLAG_OVERLAPPED | WSA_FLAG_NO_HANDLE_INHERIT, ), PartialEq::eq, INVALID_SOCKET ) } pub(crate) fn set_nonblocking(socket: Socket, nonblocking: bool) -> io::Result<()> { let mut nonblocking = if nonblocking { 1 } else { 0 }; ioctlsocket(socket, FIONBIO, &mut nonblocking) } pub(crate) fn shutdown(socket: Socket, how: Shutdown) -> io::Result<()> { let how = match how { Shutdown::Write => SD_SEND, Shutdown::Read => SD_RECEIVE, Shutdown::Both => SD_BOTH, } as i32; syscall!(shutdown(socket, how), PartialEq::eq, SOCKET_ERROR).map(|_| ()) } pub(crate) fn recv(socket: Socket, buf: &mut [MaybeUninit<u8>], flags: c_int) -> io::Result<u let res = syscall!( recv( socket, buf.as_mut_ptr().cast(), min(buf.len(), MAX_BUF_LEN) as c_int, flags, ), PartialEq::eq, SOCKET_ERROR ); match res { Ok(n) => Ok(n as usize), Err(ref err) if err.raw_os_error() == Some(WSAESHUTDOWN as i32) => Ok(0), Err(err) => Err(err), } } pub(crate) fn recv_vectored( socket: Socket, bufs: &mut [crate::MaybeUninitSlice<'_>], flags: c_int, ) -> io::Result<(usize, RecvFlags)> { let mut nread = 0; let mut flags = flags as u32; let res = syscall!( WSARecv( socket, bufs.as_mut_ptr().cast(), min(bufs.len(), u32::MAX as usize) as u32, &mut nread, &mut flags, ptr::null_mut(), None, ), PartialEq::eq, SOCKET_ERROR ); match res { Ok(_) => Ok((nread as usize, RecvFlags(0))), Err(ref err) if err.raw_os_error() == Some(WSAESHUTDOWN as i32) => Ok((0, RecvFlags(0))), Err(ref err) if err.raw_os_error() == Some(WSAEMSGSIZE as i32) => { Ok((nread as usize, RecvFlags(MSG_TRUNC))) } Err(err) => Err(err), } } pub(crate) fn recv_from( socket: Socket, buf: &mut [MaybeUninit<u8>], flags: c_int, ) -> io::Result<(usize, SockAddr)> { // Safety: `recvfrom` initialises the `SockAddr` for us. unsafe { SockAddr::try_init(|storage, addrlen| { let res = syscall!( recvfrom( socket, buf.as_mut_ptr().cast(), min(buf.len(), MAX_BUF_LEN) as c_int, flags, storage.cast(), addrlen, ), PartialEq::eq, SOCKET_ERROR ); match res { Ok(n) => Ok(n as usize), Err(ref err) if err.raw_os_error() == Some(WSAESHUTDOWN as i32) => Ok(0), Err(err) => Err(err), } }) } } pub(crate) fn peek_sender(socket: Socket) -> io::Result<SockAddr> { // Safety: `recvfrom` initialises the `SockAddr` for us. let ((), sender) = unsafe { SockAddr::try_init(|storage, addrlen| { let res = syscall!( recvfrom( socket, // Windows *appears* not to care if you pass a null pointer. ptr::null_mut(), 0, MSG_PEEK, storage.cast(), addrlen, ), PartialEq::eq, SOCKET_ERROR ); match res { Ok(_n) => Ok(()), Err(e) => match e.raw_os_error() { Some(code) if code == (WSAESHUTDOWN as i32) || code == (WSAEMSGSIZE as i32) => { Ok(()) } _ => Err(e), }, } }) }?; Ok(sender) } pub(crate) fn recv_from_vectored( socket: Socket, bufs: &mut [crate::MaybeUninitSlice<'_>], flags: c_int, ) -> io::Result<(usize, RecvFlags, SockAddr)> { // Safety: `recvfrom` initialises the `SockAddr` for us. unsafe { SockAddr::try_init(|storage, addrlen| { let mut nread = 0; let mut flags = flags as u32; let res = syscall!( WSARecvFrom( socket, bufs.as_mut_ptr().cast(), min(bufs.len(), u32::MAX as usize) as u32, &mut nread, &mut flags, storage.cast(), addrlen, ptr::null_mut(), None, ), PartialEq::eq, SOCKET_ERROR ); match res { Ok(_) => Ok((nread as usize, RecvFlags(0))), Err(ref err) if err.raw_os_error() == Some(WSAESHUTDOWN as i32) => { Ok((nread as usize, RecvFlags(0))) } Err(ref err) if err.raw_os_error() == Some(WSAEMSGSIZE as i32) => { Ok((nread as usize, RecvFlags(MSG_TRUNC))) } Err(err) => Err(err), } }) } .map(|((n, recv_flags), addr)| (n, recv_flags, addr)) } pub(crate) fn send(socket: Socket, buf: &[u8], flags: c_int) -> io::Result<usize> { syscall!( send( socket, buf.as_ptr().cast(), min(buf.len(), MAX_BUF_LEN) as c_int, flags, ), PartialEq::eq, SOCKET_ERROR ) .map(|n| n as usize) } pub(crate) fn send_vectored( socket: Socket, bufs: &[IoSlice<'_>], flags: c_int, ) -> io::Result<usize> { let mut nsent = 0; syscall!( WSASend( socket, // FIXME: From the `WSASend` docs [1]: // > For a Winsock application, once the WSASend function is called, // > the system owns these buffers and the application may not // > access them. // // So what we're doing is actually UB as `bufs` needs to be `&mut // [IoSlice<'_>]`. // // Tracking issue: https://github.com/rust-lang/socket2-rs/issues/129. // // NOTE: `send_to_vectored` has the same problem. // // [1] https://docs.microsoft.com/en-us/windows/win32/api/winsock2/nf-winsock2-wsa bufs.as_ptr() as *mut _, min(bufs.len(), u32::MAX as usize) as u32, &mut nsent, flags as u32, std::ptr::null_mut(), None, ), PartialEq::eq, SOCKET_ERROR ) .map(|_| nsent as usize) } pub(crate) fn send_to( socket: Socket, buf: &[u8], addr: &SockAddr, flags: c_int, ) -> io::Result<usize> { syscall!( sendto( socket, buf.as_ptr().cast(), min(buf.len(), MAX_BUF_LEN) as c_int, flags, addr.as_ptr(), addr.len(), ), PartialEq::eq, SOCKET_ERROR ) .map(|n| n as usize) } pub(crate) fn send_to_vectored( socket: Socket, bufs: &[IoSlice<'_>], addr: &SockAddr, flags: c_int, ) -> io::Result<usize> { let mut nsent = 0; syscall!( WSASendTo( socket, // FIXME: Same problem as in `send_vectored`. bufs.as_ptr() as *mut _, bufs.len().min(u32::MAX as usize) as u32, &mut nsent, flags as u32, addr.as_ptr(), addr.len(), ptr::null_mut(), None, ), PartialEq::eq, SOCKET_ERROR ) .map(|_| nsent as usize) } pub(crate) fn sendmsg(socket: Socket, msg: &MsgHdr<'_, '_, '_>, flags: c_int) -> io::Result<usize> { let mut nsent = 0; syscall!( WSASendMsg( socket, &msg.inner, flags as u32, &mut nsent, ptr::null_mut(), None, ), PartialEq::eq, SOCKET_ERROR ) .map(|_| nsent as usize) } /// Wrapper around `getsockopt` to deal with platform specific timeouts. pub(crate) fn timeout_opt(fd: Socket, lvl: c_int, name: i32) -> io::Result<Option<Duration>> { unsafe { getsockopt(fd, lvl, name).map(from_ms) } } fn from_ms(duration: u32) -> Option<Duration> { if duration == 0 { None } else { let secs = duration / 1000; let nsec = (duration % 1000) * 1000000; Some(Duration::new(secs as u64, nsec as u32)) } } /// Wrapper around `setsockopt` to deal with platform specific timeouts. pub(crate) fn set_timeout_opt( socket: Socket, level: c_int, optname: i32, duration: Option<Duration>, ) -> io::Result<()> { let duration = into_ms(duration); unsafe { setsockopt(socket, level, optname, duration) } } fn into_ms(duration: Option<Duration>) -> u32 { // Note that a duration is a (u64, u32) (seconds, nanoseconds) pair, and the // timeouts in windows APIs are typically u32 milliseconds. To translate, we // have two pieces to take care of: // // * Nanosecond precision is rounded up // * Greater than u32::MAX milliseconds (50 days) is rounded up to // INFINITE (never time out). duration.map_or(0, |duration| { min(duration.as_millis(), INFINITE as u128) as u32 }) } pub(crate) fn set_tcp_keepalive(socket: Socket, keepalive: &TcpKeepalive) -> io::Result<()> { let mut keepalive = tcp_keepalive { onoff: 1, keepalivetime: into_ms(keepalive.time), keepaliveinterval: into_ms(keepalive.interval), }; let mut out = 0; syscall!( WSAIoctl( socket, SIO_KEEPALIVE_VALS, &mut keepalive as *mut _ as *mut _, size_of::<tcp_keepalive>() as _, ptr::null_mut(), 0, &mut out, ptr::null_mut(), None, ), PartialEq::eq, SOCKET_ERROR ) .map(|_| ()) } /// Caller must ensure `T` is the correct type for `level` and `optname`. // NOTE: `optname` is actually `i32`, but all constants are `u32`. pub(crate) unsafe fn getsockopt<T>(socket: Socket, level: c_int, optname: i32) -> io::Result<T> let mut optval: MaybeUninit<T> = MaybeUninit::uninit(); let mut optlen = mem::size_of::<T>() as c_int; syscall!( getsockopt( socket, level as i32, optname, optval.as_mut_ptr().cast(), &mut optlen, ), PartialEq::eq, SOCKET_ERROR ) .map(|_| { debug_assert_eq!(optlen as usize, mem::size_of::<T>()); // Safety: `getsockopt` initialised `optval` for us. optval.assume_init() }) } /// Caller must ensure `T` is the correct type for `level` and `optname`. // NOTE: `optname` is actually `i32`, but all constants are `u32`. pub(crate) unsafe fn setsockopt<T>( socket: Socket, level: c_int, optname: i32, optval: T, ) -> io::Result<()> { syscall!( setsockopt( socket, level as i32, optname, (&optval as *const T).cast(), mem::size_of::<T>() as c_int, ), PartialEq::eq, SOCKET_ERROR ) .map(|_| ()) } fn ioctlsocket(socket: Socket, cmd: i32, payload: &mut u32) -> io::Result<()> { syscall!( ioctlsocket(socket, cmd, payload), PartialEq::eq, SOCKET_ERROR ) .map(|_| ()) } pub(crate) fn to_in_addr(addr: &Ipv4Addr) -> IN_ADDR { IN_ADDR { S_un: IN_ADDR_0 { // `S_un` is stored as BE on all machines, and the array is in BE // order. So the native endian conversion method is used so that // it's never swapped. S_addr: u32::from_ne_bytes(addr.octets()), }, } } pub(crate) fn from_in_addr(in_addr: IN_ADDR) -> Ipv4Addr { Ipv4Addr::from(unsafe { in_addr.S_un.S_addr }.to_ne_bytes()) } pub(crate) fn to_in6_addr(addr: &Ipv6Addr) -> IN6_ADDR { IN6_ADDR { u: IN6_ADDR_0 { Byte: addr.octets(), }, } } pub(crate) fn from_in6_addr(addr: IN6_ADDR) -> Ipv6Addr { Ipv6Addr::from(unsafe { addr.u.Byte }) } pub(crate) fn to_mreqn( multiaddr: &Ipv4Addr, interface: &crate::socket::InterfaceIndexOrAddress, ) -> IpMreq { IpMreq { imr_multiaddr: to_in_addr(multiaddr), // Per https://docs.microsoft.com/en-us/windows/win32/api/ws2ipdef/ns-ws2ipdef-ip_ // // imr_interface // // The local IPv4 address of the interface or the interface index on // which the multicast group should be joined or dropped. This value is // in network byte order. If this member specifies an IPv4 address of // 0.0.0.0, the default IPv4 multicast interface is used. // // To use an interface index of 1 would be the same as an IP address of // 0.0.0.1. imr_interface: match interface { crate::socket::InterfaceIndexOrAddress::Index(interface) => { to_in_addr(&(*interface).into()) } crate::socket::InterfaceIndexOrAddress::Address(interface) => to_in_addr(interface) }, } } #[allow(unsafe_op_in_unsafe_fn)] pub(crate) fn unix_sockaddr(path: &Path) -> io::Result<SockAddr> { // SAFETY: a `sockaddr_storage` of all zeros is valid. let mut storage = unsafe { mem::zeroed::<sockaddr_storage>() }; let len = { let storage: &mut windows_sys::Win32::Networking::WinSock::SOCKADDR_UN = unsafe { &mut *(&mut storage as *mut sockaddr_storage).cast() }; // Windows expects a UTF-8 path here even though Windows paths are // usually UCS-2 encoded. If Rust exposed OsStr's Wtf8 encoded // buffer, this could be used directly, relying on Windows to // validate the path, but Rust hides this implementation detail. // // See <https://github.com/rust-lang/rust/pull/95290>. let bytes = path .to_str() .ok_or_else(|| io::Error::new(io::ErrorKind::InvalidInput, "path must be valid UTF-8") .as_bytes(); // Windows appears to allow non-null-terminated paths, but this is // not documented, so do not rely on it yet. // // See <https://github.com/rust-lang/socket2/issues/331>. if bytes.len() >= storage.sun_path.len() { return Err(io::Error::new( io::ErrorKind::InvalidInput, "path must be shorter than SUN_LEN", )); } storage.sun_family = crate::sys::AF_UNIX as sa_family_t; // `storage` was initialized to zero above, so the path is // already null terminated. storage.sun_path[..bytes.len()].copy_from_slice(bytes); let base = storage as *const _ as usize; let path = &storage.sun_path as *const _ as usize; let sun_path_offset = path - base; sun_path_offset + bytes.len() + 1 }; Ok(unsafe { SockAddr::new(storage, len as socklen_t) }) } /// Windows only API. impl crate::Socket { /// Sets `HANDLE_FLAG_INHERIT` using `SetHandleInformation`. #[cfg(feature = "all")] #[cfg_attr(docsrs, doc(cfg(all(windows, feature = "all"))))] pub fn set_no_inherit(&self, no_inherit: bool) -> io::Result<()> { self._set_no_inherit(no_inherit) } pub(crate) fn _set_no_inherit(&self, no_inherit: bool) -> io::Result<()> { // NOTE: can't use `syscall!` because it expects the function in the // `windows_sys::Win32::Networking::WinSock::` path. let res = unsafe { SetHandleInformation( self.as_raw() as HANDLE, HANDLE_FLAG_INHERIT, !no_inherit as _, ) }; if res == 0 { // Zero means error. Err(io::Error::last_os_error()) } else { Ok(()) } } /// Returns the [`Protocol`] of this socket by checking the `SO_PROTOCOL_INFOW` /// option on this socket. /// /// [`Protocol`]: crate::Protocol #[cfg(feature = "all")] pub fn protocol(&self) -> io::Result<Option<crate::Protocol>> { let info = unsafe { getsockopt::<WSAPROTOCOL_INFOW>(self.as_raw(), SOL_SOCKET, SO_PROTOCOL_INFOW)? }; match info.iProtocol { 0 => Ok(None), p => Ok(Some(crate::Protocol::from(p))), } } } #[cfg_attr(docsrs, doc(cfg(windows)))] impl AsSocket for crate::Socket { fn as_socket(&self) -> BorrowedSocket<'_> { // SAFETY: lifetime is bound by self. unsafe { BorrowedSocket::borrow_raw(self.as_raw() as RawSocket) } } } #[cfg_attr(docsrs, doc(cfg(windows)))] impl AsRawSocket for crate::Socket { fn as_raw_socket(&self) -> RawSocket { self.as_raw() as RawSocket } } #[cfg_attr(docsrs, doc(cfg(windows)))] impl From<crate::Socket> for OwnedSocket { fn from(sock: crate::Socket) -> OwnedSocket { // SAFETY: sock.into_raw() always returns a valid fd. unsafe { OwnedSocket::from_raw_socket(sock.into_raw() as RawSocket) } } } #[cfg_attr(docsrs, doc(cfg(windows)))] impl IntoRawSocket for crate::Socket { fn into_raw_socket(self) -> RawSocket { self.into_raw() as RawSocket } } #[cfg_attr(docsrs, doc(cfg(windows)))] impl From<OwnedSocket> for crate::Socket { fn from(fd: OwnedSocket) -> crate::Socket { // SAFETY: `OwnedFd` ensures the fd is valid. unsafe { crate::Socket::from_raw_socket(fd.into_raw_socket()) } } } #[cfg_attr(docsrs, doc(cfg(windows)))] impl FromRawSocket for crate::Socket { unsafe fn from_raw_socket(socket: RawSocket) -> crate::Socket { crate::Socket::from_raw(socket as Socket) } } #[test] fn in_addr_convertion() { let ip = Ipv4Addr::new(127, 0, 0, 1); let raw = to_in_addr(&ip); assert_eq!(unsafe { raw.S_un.S_addr }, 127 << 0 | 1 << 24); assert_eq!(from_in_addr(raw), ip); let ip = Ipv4Addr::new(127, 34, 4, 12); let raw = to_in_addr(&ip); assert_eq!( unsafe { raw.S_un.S_addr }, 127 << 0 | 34 << 8 | 4 << 16 | 12 << 24 ); assert_eq!(from_in_addr(raw), ip); } #[test] fn in6_addr_convertion() { let ip = Ipv6Addr::new(0x2000, 1, 2, 3, 4, 5, 6, 7); let raw = to_in6_addr(&ip); let want = [ 0x2000u16.to_be(), 1u16.to_be(), 2u16.to_be(), 3u16.to_be(), 4u16.to_be(), 5u16.to_be(), 6u16.to_be(), 7u16.to_be(), ]; assert_eq!(unsafe { raw.u.Word }, want); assert_eq!(from_in6_addr(raw), ip); } [ Dauer der Verarbeitung: 0.33 Sekunden (vorverarbeitet) ] |
2026-04-02