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#[cfg(all(test, not(any(target_os = "emscripten", target_env = "sgx"))))]
mod tests;
use crate::fmt;
use crate::io::{self, ErrorKind};
use crate::net::{Ipv4Addr, Ipv6Addr, SocketAddr, ToSocketAddrs};
use crate::sys_common::net as net_imp;
use crate::sys_common::{AsInner, FromInner, IntoInner};
use crate::time::Duration;
/// A UDP socket.
///
/// After creating a `UdpSocket` by [`bind`]ing it to a socket address, data can be
/// [sent to] and [received from] any other socket address.
///
/// Although UDP is a connectionless protocol, this implementation provides an interface
/// to set an address where data should be sent and received from. After setting a remote
/// address with [`connect`], data can be sent to and received from that address with
/// [`send`] and [`recv`].
///
/// As stated in the User Datagram Protocol's specification in [IETF RFC 768], UDP is
/// an unordered, unreliable protocol; refer to [`TcpListener`] and [`TcpStream`] for TCP
/// primitives.
///
/// [`bind`]: UdpSocket::bind
/// [`connect`]: UdpSocket::connect
/// [IETF RFC 768]: https://tools.ietf.org/html/rfc768
/// [`recv`]: UdpSocket::recv
/// [received from]: UdpSocket::recv_from
/// [`send`]: UdpSocket::send
/// [sent to]: UdpSocket::send_to
/// [`TcpListener`]: crate::net::TcpListener
/// [`TcpStream`]: crate::net::TcpStream
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// fn main() -> std::io::Result<()> {
/// {
/// let socket = UdpSocket::bind("127.0.0.1:34254")?;
///
/// // Receives a single datagram message on the socket. If `buf` is too small to hold
/// // the message, it will be cut off.
/// let mut buf = [0; 10];
/// let (amt, src) = socket.recv_from(&mut buf)?;
///
/// // Redeclare `buf` as slice of the received data and send reverse data back to origin.
/// let buf = &mut buf[..amt];
/// buf.reverse();
/// socket.send_to(buf, &src)?;
/// } // the socket is closed here
/// Ok(())
/// }
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub struct UdpSocket(net_imp::UdpSocket);
impl UdpSocket {
/// Creates a UDP socket from the given address.
///
/// The address type can be any implementor of [`ToSocketAddrs`] trait. See
/// its documentation for concrete examples.
///
/// If `addr` yields multiple addresses, `bind` will be attempted with
/// each of the addresses until one succeeds and returns the socket. If none
/// of the addresses succeed in creating a socket, the error returned from
/// the last attempt (the last address) is returned.
///
/// # Examples
///
/// Creates a UDP socket bound to `127.0.0.1:3400`:
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:3400").expect("couldn't bind to address");
/// ```
///
/// Creates a UDP socket bound to `127.0.0.1:3400`. If the socket cannot be
/// bound to that address, create a UDP socket bound to `127.0.0.1:3401`:
///
/// ```no_run
/// use std::net::{SocketAddr, UdpSocket};
///
/// let addrs = [
/// SocketAddr::from(([127, 0, 0, 1], 3400)),
/// SocketAddr::from(([127, 0, 0, 1], 3401)),
/// ];
/// let socket = UdpSocket::bind(&addrs[..]).expect("couldn't bind to address");
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn bind<A: ToSocketAddrs>(addr: A) -> io::Result<UdpSocket> {
super::each_addr(addr, net_imp::UdpSocket::bind).map(UdpSocket)
}
/// Receives a single datagram message on the socket. On success, returns the number
/// of bytes read and the origin.
///
/// The function must be called with valid byte array `buf` of sufficient size to
/// hold the message bytes. If a message is too long to fit in the supplied buffer,
/// excess bytes may be discarded.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// let mut buf = [0; 10];
/// let (number_of_bytes, src_addr) = socket.recv_from(&mut buf)
/// .expect("Didn't receive data");
/// let filled_buf = &mut buf[..number_of_bytes];
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn recv_from(&self, buf: &mut [u8]) -> io::Result<(usize, SocketAddr)> {
self.0.recv_from(buf)
}
/// Receives a single datagram message on the socket, without removing it from the
/// queue. On success, returns the number of bytes read and the origin.
///
/// The function must be called with valid byte array `buf` of sufficient size to
/// hold the message bytes. If a message is too long to fit in the supplied buffer,
/// excess bytes may be discarded.
///
/// Successive calls return the same data. This is accomplished by passing
/// `MSG_PEEK` as a flag to the underlying `recvfrom` system call.
///
/// Do not use this function to implement busy waiting, instead use `libc::poll` to
/// synchronize IO events on one or more sockets.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// let mut buf = [0; 10];
/// let (number_of_bytes, src_addr) = socket.peek_from(&mut buf)
/// .expect("Didn't receive data");
/// let filled_buf = &mut buf[..number_of_bytes];
/// ```
#[stable(feature = "peek", since = "1.18.0")]
pub fn peek_from(&self, buf: &mut [u8]) -> io::Result<(usize, SocketAddr)> {
self.0.peek_from(buf)
}
/// Sends data on the socket to the given address. On success, returns the
/// number of bytes written.
///
/// Address type can be any implementor of [`ToSocketAddrs`] trait. See its
/// documentation for concrete examples.
///
/// It is possible for `addr` to yield multiple addresses, but `send_to`
/// will only send data to the first address yielded by `addr`.
///
/// This will return an error when the IP version of the local socket
/// does not match that returned from [`ToSocketAddrs`].
///
/// See [Issue #34202] for more details.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.send_to(&[0; 10], "127.0.0.1:4242").expect("couldn't send data");
/// ```
///
/// [Issue #34202]: https://github.com/rust-lang/rust/issues/34202
#[stable(feature = "rust1", since = "1.0.0")]
pub fn send_to<A: ToSocketAddrs>(&self, buf: &[u8], addr: A) -> io::Result<usize> {
match addr.to_socket_addrs()?.next() {
Some(addr) => self.0.send_to(buf, &addr),
None => {
Err(io::const_io_error!(ErrorKind::InvalidInput, "no addresses to send data to"))
}
}
}
/// Returns the socket address of the remote peer this socket was connected to.
///
/// # Examples
///
/// ```no_run
/// use std::net::{Ipv4Addr, SocketAddr, SocketAddrV4, UdpSocket};
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.connect("192.168.0.1:41203").expect("couldn't connect to address");
/// assert_eq!(socket.peer_addr().unwrap(),
/// SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::new(192, 168, 0, 1), 41203)));
/// ```
///
/// If the socket isn't connected, it will return a [`NotConnected`] error.
///
/// [`NotConnected`]: io::ErrorKind::NotConnected
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// assert_eq!(socket.peer_addr().unwrap_err().kind(),
/// std::io::ErrorKind::NotConnected);
/// ```
#[stable(feature = "udp_peer_addr", since = "1.40.0")]
pub fn peer_addr(&self) -> io::Result<SocketAddr> {
self.0.peer_addr()
}
/// Returns the socket address that this socket was created from.
///
/// # Examples
///
/// ```no_run
/// use std::net::{Ipv4Addr, SocketAddr, SocketAddrV4, UdpSocket};
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// assert_eq!(socket.local_addr().unwrap(),
/// SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::new(127, 0, 0, 1), 34254)));
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn local_addr(&self) -> io::Result<SocketAddr> {
self.0.socket_addr()
}
/// Creates a new independently owned handle to the underlying socket.
///
/// The returned `UdpSocket` is a reference to the same socket that this
/// object references. Both handles will read and write the same port, and
/// options set on one socket will be propagated to the other.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// let socket_clone = socket.try_clone().expect("couldn't clone the socket");
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn try_clone(&self) -> io::Result<UdpSocket> {
self.0.duplicate().map(UdpSocket)
}
/// Sets the read timeout to the timeout specified.
///
/// If the value specified is [`None`], then [`read`] calls will block
/// indefinitely. An [`Err`] is returned if the zero [`Duration`] is
/// passed to this method.
///
/// # Platform-specific behavior
///
/// Platforms may return a different error code whenever a read times out as
/// a result of setting this option. For example Unix typically returns an
/// error of the kind [`WouldBlock`], but Windows may return [`TimedOut`].
///
/// [`read`]: io::Read::read
/// [`WouldBlock`]: io::ErrorKind::WouldBlock
/// [`TimedOut`]: io::ErrorKind::TimedOut
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_read_timeout(None).expect("set_read_timeout call failed");
/// ```
///
/// An [`Err`] is returned if the zero [`Duration`] is passed to this
/// method:
///
/// ```no_run
/// use std::io;
/// use std::net::UdpSocket;
/// use std::time::Duration;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").unwrap();
/// let result = socket.set_read_timeout(Some(Duration::new(0, 0)));
/// let err = result.unwrap_err();
/// assert_eq!(err.kind(), io::ErrorKind::InvalidInput)
/// ```
#[stable(feature = "socket_timeout", since = "1.4.0")]
pub fn set_read_timeout(&self, dur: Option<Duration>) -> io::Result<()> {
self.0.set_read_timeout(dur)
}
/// Sets the write timeout to the timeout specified.
///
/// If the value specified is [`None`], then [`write`] calls will block
/// indefinitely. An [`Err`] is returned if the zero [`Duration`] is
/// passed to this method.
///
/// # Platform-specific behavior
///
/// Platforms may return a different error code whenever a write times out
/// as a result of setting this option. For example Unix typically returns
/// an error of the kind [`WouldBlock`], but Windows may return [`TimedOut`].
///
/// [`write`]: io::Write::write
/// [`WouldBlock`]: io::ErrorKind::WouldBlock
/// [`TimedOut`]: io::ErrorKind::TimedOut
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_write_timeout(None).expect("set_write_timeout call failed");
/// ```
///
/// An [`Err`] is returned if the zero [`Duration`] is passed to this
/// method:
///
/// ```no_run
/// use std::io;
/// use std::net::UdpSocket;
/// use std::time::Duration;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").unwrap();
/// let result = socket.set_write_timeout(Some(Duration::new(0, 0)));
/// let err = result.unwrap_err();
/// assert_eq!(err.kind(), io::ErrorKind::InvalidInput)
/// ```
#[stable(feature = "socket_timeout", since = "1.4.0")]
pub fn set_write_timeout(&self, dur: Option<Duration>) -> io::Result<()> {
self.0.set_write_timeout(dur)
}
/// Returns the read timeout of this socket.
///
/// If the timeout is [`None`], then [`read`] calls will block indefinitely.
///
/// [`read`]: io::Read::read
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_read_timeout(None).expect("set_read_timeout call failed");
/// assert_eq!(socket.read_timeout().unwrap(), None);
/// ```
#[stable(feature = "socket_timeout", since = "1.4.0")]
pub fn read_timeout(&self) -> io::Result<Option<Duration>> {
self.0.read_timeout()
}
/// Returns the write timeout of this socket.
///
/// If the timeout is [`None`], then [`write`] calls will block indefinitely.
///
/// [`write`]: io::Write::write
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_write_timeout(None).expect("set_write_timeout call failed");
/// assert_eq!(socket.write_timeout().unwrap(), None);
/// ```
#[stable(feature = "socket_timeout", since = "1.4.0")]
pub fn write_timeout(&self) -> io::Result<Option<Duration>> {
self.0.write_timeout()
}
/// Sets the value of the `SO_BROADCAST` option for this socket.
///
/// When enabled, this socket is allowed to send packets to a broadcast
/// address.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_broadcast(false).expect("set_broadcast call failed");
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn set_broadcast(&self, broadcast: bool) -> io::Result<()> {
self.0.set_broadcast(broadcast)
}
/// Gets the value of the `SO_BROADCAST` option for this socket.
///
/// For more information about this option, see [`UdpSocket::set_broadcast`].
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_broadcast(false).expect("set_broadcast call failed");
/// assert_eq!(socket.broadcast().unwrap(), false);
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn broadcast(&self) -> io::Result<bool> {
self.0.broadcast()
}
/// Sets the value of the `IP_MULTICAST_LOOP` option for this socket.
///
/// If enabled, multicast packets will be looped back to the local socket.
/// Note that this might not have any effect on IPv6 sockets.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_multicast_loop_v4(false).expect("set_multicast_loop_v4 call failed");
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn set_multicast_loop_v4(&self, multicast_loop_v4: bool) -> io::Result<()> {
self.0.set_multicast_loop_v4(multicast_loop_v4)
}
/// Gets the value of the `IP_MULTICAST_LOOP` option for this socket.
///
/// For more information about this option, see [`UdpSocket::set_multicast_loop_v4`].
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_multicast_loop_v4(false).expect("set_multicast_loop_v4 call failed");
/// assert_eq!(socket.multicast_loop_v4().unwrap(), false);
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn multicast_loop_v4(&self) -> io::Result<bool> {
self.0.multicast_loop_v4()
}
/// Sets the value of the `IP_MULTICAST_TTL` option for this socket.
///
/// Indicates the time-to-live value of outgoing multicast packets for
/// this socket. The default value is 1 which means that multicast packets
/// don't leave the local network unless explicitly requested.
///
/// Note that this might not have any effect on IPv6 sockets.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_multicast_ttl_v4(42).expect("set_multicast_ttl_v4 call failed");
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn set_multicast_ttl_v4(&self, multicast_ttl_v4: u32) -> io::Result<()> {
self.0.set_multicast_ttl_v4(multicast_ttl_v4)
}
/// Gets the value of the `IP_MULTICAST_TTL` option for this socket.
///
/// For more information about this option, see [`UdpSocket::set_multicast_ttl_v4`].
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_multicast_ttl_v4(42).expect("set_multicast_ttl_v4 call failed");
/// assert_eq!(socket.multicast_ttl_v4().unwrap(), 42);
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn multicast_ttl_v4(&self) -> io::Result<u32> {
self.0.multicast_ttl_v4()
}
/// Sets the value of the `IPV6_MULTICAST_LOOP` option for this socket.
///
/// Controls whether this socket sees the multicast packets it sends itself.
/// Note that this might not have any affect on IPv4 sockets.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_multicast_loop_v6(false).expect("set_multicast_loop_v6 call failed");
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn set_multicast_loop_v6(&self, multicast_loop_v6: bool) -> io::Result<()> {
self.0.set_multicast_loop_v6(multicast_loop_v6)
}
/// Gets the value of the `IPV6_MULTICAST_LOOP` option for this socket.
///
/// For more information about this option, see [`UdpSocket::set_multicast_loop_v6`].
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_multicast_loop_v6(false).expect("set_multicast_loop_v6 call failed");
/// assert_eq!(socket.multicast_loop_v6().unwrap(), false);
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn multicast_loop_v6(&self) -> io::Result<bool> {
self.0.multicast_loop_v6()
}
/// Sets the value for the `IP_TTL` option on this socket.
///
/// This value sets the time-to-live field that is used in every packet sent
/// from this socket.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_ttl(42).expect("set_ttl call failed");
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn set_ttl(&self, ttl: u32) -> io::Result<()> {
self.0.set_ttl(ttl)
}
/// Gets the value of the `IP_TTL` option for this socket.
///
/// For more information about this option, see [`UdpSocket::set_ttl`].
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.set_ttl(42).expect("set_ttl call failed");
/// assert_eq!(socket.ttl().unwrap(), 42);
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn ttl(&self) -> io::Result<u32> {
self.0.ttl()
}
/// Executes an operation of the `IP_ADD_MEMBERSHIP` type.
///
/// This function specifies a new multicast group for this socket to join.
/// The address must be a valid multicast address, and `interface` is the
/// address of the local interface with which the system should join the
/// multicast group. If it's equal to `INADDR_ANY` then an appropriate
/// interface is chosen by the system.
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn join_multicast_v4(&self, multiaddr: &Ipv4Addr, interface: &Ipv4Addr) -> io::Result<()> {
self.0.join_multicast_v4(multiaddr, interface)
}
/// Executes an operation of the `IPV6_ADD_MEMBERSHIP` type.
///
/// This function specifies a new multicast group for this socket to join.
/// The address must be a valid multicast address, and `interface` is the
/// index of the interface to join/leave (or 0 to indicate any interface).
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn join_multicast_v6(&self, multiaddr: &Ipv6Addr, interface: u32) -> io::Result<()> {
self.0.join_multicast_v6(multiaddr, interface)
}
/// Executes an operation of the `IP_DROP_MEMBERSHIP` type.
///
/// For more information about this option, see [`UdpSocket::join_multicast_v4`].
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn leave_multicast_v4(&self, multiaddr: &Ipv4Addr, interface: &Ipv4Addr) -> io::Result<()> {
self.0.leave_multicast_v4(multiaddr, interface)
}
/// Executes an operation of the `IPV6_DROP_MEMBERSHIP` type.
///
/// For more information about this option, see [`UdpSocket::join_multicast_v6`].
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn leave_multicast_v6(&self, multiaddr: &Ipv6Addr, interface: u32) -> io::Result<()> {
self.0.leave_multicast_v6(multiaddr, interface)
}
/// Gets the value of the `SO_ERROR` option on this socket.
///
/// This will retrieve the stored error in the underlying socket, clearing
/// the field in the process. This can be useful for checking errors between
/// calls.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// match socket.take_error() {
/// Ok(Some(error)) => println!("UdpSocket error: {:?}", error),
/// Ok(None) => println!("No error"),
/// Err(error) => println!("UdpSocket.take_error failed: {:?}", error),
/// }
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn take_error(&self) -> io::Result<Option<io::Error>> {
self.0.take_error()
}
/// Connects this UDP socket to a remote address, allowing the `send` and
/// `recv` syscalls to be used to send data and also applies filters to only
/// receive data from the specified address.
///
/// If `addr` yields multiple addresses, `connect` will be attempted with
/// each of the addresses until the underlying OS function returns no
/// error. Note that usually, a successful `connect` call does not specify
/// that there is a remote server listening on the port, rather, such an
/// error would only be detected after the first send. If the OS returns an
/// error for each of the specified addresses, the error returned from the
/// last connection attempt (the last address) is returned.
///
/// # Examples
///
/// Creates a UDP socket bound to `127.0.0.1:3400` and connect the socket to
/// `127.0.0.1:8080`:
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:3400").expect("couldn't bind to address");
/// socket.connect("127.0.0.1:8080").expect("connect function failed");
/// ```
///
/// Unlike in the TCP case, passing an array of addresses to the `connect`
/// function of a UDP socket is not a useful thing to do: The OS will be
/// unable to determine whether something is listening on the remote
/// address without the application sending data.
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn connect<A: ToSocketAddrs>(&self, addr: A) -> io::Result<()> {
super::each_addr(addr, |addr| self.0.connect(addr))
}
/// Sends data on the socket to the remote address to which it is connected.
///
/// [`UdpSocket::connect`] will connect this socket to a remote address. This
/// method will fail if the socket is not connected.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.connect("127.0.0.1:8080").expect("connect function failed");
/// socket.send(&[0, 1, 2]).expect("couldn't send message");
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn send(&self, buf: &[u8]) -> io::Result<usize> {
self.0.send(buf)
}
/// Receives a single datagram message on the socket from the remote address to
/// which it is connected. On success, returns the number of bytes read.
///
/// The function must be called with valid byte array `buf` of sufficient size to
/// hold the message bytes. If a message is too long to fit in the supplied buffer,
/// excess bytes may be discarded.
///
/// [`UdpSocket::connect`] will connect this socket to a remote address. This
/// method will fail if the socket is not connected.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.connect("127.0.0.1:8080").expect("connect function failed");
/// let mut buf = [0; 10];
/// match socket.recv(&mut buf) {
/// Ok(received) => println!("received {} bytes {:?}", received, &buf[..received]),
/// Err(e) => println!("recv function failed: {:?}", e),
/// }
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn recv(&self, buf: &mut [u8]) -> io::Result<usize> {
self.0.recv(buf)
}
/// Receives single datagram on the socket from the remote address to which it is
/// connected, without removing the message from input queue. On success, returns
/// the number of bytes peeked.
///
/// The function must be called with valid byte array `buf` of sufficient size to
/// hold the message bytes. If a message is too long to fit in the supplied buffer,
/// excess bytes may be discarded.
///
/// Successive calls return the same data. This is accomplished by passing
/// `MSG_PEEK` as a flag to the underlying `recv` system call.
///
/// Do not use this function to implement busy waiting, instead use `libc::poll` to
/// synchronize IO events on one or more sockets.
///
/// [`UdpSocket::connect`] will connect this socket to a remote address. This
/// method will fail if the socket is not connected.
///
/// # Errors
///
/// This method will fail if the socket is not connected. The `connect` method
/// will connect this socket to a remote address.
///
/// # Examples
///
/// ```no_run
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:34254").expect("couldn't bind to address");
/// socket.connect("127.0.0.1:8080").expect("connect function failed");
/// let mut buf = [0; 10];
/// match socket.peek(&mut buf) {
/// Ok(received) => println!("received {} bytes", received),
/// Err(e) => println!("peek function failed: {:?}", e),
/// }
/// ```
#[stable(feature = "peek", since = "1.18.0")]
pub fn peek(&self, buf: &mut [u8]) -> io::Result<usize> {
self.0.peek(buf)
}
/// Moves this UDP socket into or out of nonblocking mode.
///
/// This will result in `recv`, `recv_from`, `send`, and `send_to`
/// operations becoming nonblocking, i.e., immediately returning from their
/// calls. If the IO operation is successful, `Ok` is returned and no
/// further action is required. If the IO operation could not be completed
/// and needs to be retried, an error with kind
/// [`io::ErrorKind::WouldBlock`] is returned.
///
/// On Unix platforms, calling this method corresponds to calling `fcntl`
/// `FIONBIO`. On Windows calling this method corresponds to calling
/// `ioctlsocket` `FIONBIO`.
///
/// # Examples
///
/// Creates a UDP socket bound to `127.0.0.1:7878` and read bytes in
/// nonblocking mode:
///
/// ```no_run
/// use std::io;
/// use std::net::UdpSocket;
///
/// let socket = UdpSocket::bind("127.0.0.1:7878").unwrap();
/// socket.set_nonblocking(true).unwrap();
///
/// # fn wait_for_fd() { unimplemented!() }
/// let mut buf = [0; 10];
/// let (num_bytes_read, _) = loop {
/// match socket.recv_from(&mut buf) {
/// Ok(n) => break n,
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// // wait until network socket is ready, typically implemented
/// // via platform-specific APIs such as epoll or IOCP
/// wait_for_fd();
/// }
/// Err(e) => panic!("encountered IO error: {}", e),
/// }
/// };
/// println!("bytes: {:?}", &buf[..num_bytes_read]);
/// ```
#[stable(feature = "net2_mutators", since = "1.9.0")]
pub fn set_nonblocking(&self, nonblocking: bool) -> io::Result<()> {
self.0.set_nonblocking(nonblocking)
}
}
// In addition to the `impl`s here, `UdpSocket` also has `impl`s for
// `AsFd`/`From<OwnedFd>`/`Into<OwnedFd>` and
// `AsRawFd`/`IntoRawFd`/`FromRawFd`, on Unix and WASI, and
// `AsSocket`/`From<OwnedSocket>`/`Into<OwnedSocket>` and
// `AsRawSocket`/`IntoRawSocket`/`FromRawSocket` on Windows.
impl AsInner<net_imp::UdpSocket> for UdpSocket {
fn as_inner(&self) -> &net_imp::UdpSocket {
&self.0
}
}
impl FromInner<net_imp::UdpSocket> for UdpSocket {
fn from_inner(inner: net_imp::UdpSocket) -> UdpSocket {
UdpSocket(inner)
}
}
impl IntoInner<net_imp::UdpSocket> for UdpSocket {
fn into_inner(self) -> net_imp::UdpSocket {
self.0
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl fmt::Debug for UdpSocket {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}