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use crate::future::poll_fn;
use crate::io::{AsyncRead, AsyncWrite, Interest, PollEvented, ReadBuf, Ready};
use crate::net::unix::split::{split, ReadHalf, WriteHalf};
use crate::net::unix::split_owned::{split_owned, OwnedReadHalf, OwnedWriteHalf};
use crate::net::unix::ucred::{self, UCred};
use crate::net::unix::SocketAddr;
use std::fmt;
use std::io::{self, Read, Write};
use std::net::Shutdown;
#[cfg(not(tokio_no_as_fd))]
use std::os::unix::io::{AsFd, BorrowedFd};
use std::os::unix::io::{AsRawFd, FromRawFd, IntoRawFd, RawFd};
use std::os::unix::net;
use std::path::Path;
use std::pin::Pin;
use std::task::{Context, Poll};
cfg_io_util! {
use bytes::BufMut;
}
cfg_net_unix! {
/// A structure representing a connected Unix socket.
///
/// This socket can be connected directly with [`UnixStream::connect`] or accepted
/// from a listener with [`UnixListener::accept`]. Additionally, a pair of
/// anonymous Unix sockets can be created with `UnixStream::pair`.
///
/// To shut down the stream in the write direction, you can call the
/// [`shutdown()`] method. This will cause the other peer to receive a read of
/// length 0, indicating that no more data will be sent. This only closes
/// the stream in one direction.
///
/// [`shutdown()`]: fn@crate::io::AsyncWriteExt::shutdown
/// [`UnixListener::accept`]: crate::net::UnixListener::accept
pub struct UnixStream {
io: PollEvented<mio::net::UnixStream>,
}
}
impl UnixStream {
/// Connects to the socket named by `path`.
///
/// This function will create a new Unix socket and connect to the path
/// specified, associating the returned stream with the default event loop's
/// handle.
pub async fn connect<P>(path: P) -> io::Result<UnixStream>
where
P: AsRef<Path>,
{
let stream = mio::net::UnixStream::connect(path)?;
let stream = UnixStream::new(stream)?;
poll_fn(|cx| stream.io.registration().poll_write_ready(cx)).await?;
if let Some(e) = stream.io.take_error()? {
return Err(e);
}
Ok(stream)
}
/// Waits for any of the requested ready states.
///
/// This function is usually paired with `try_read()` or `try_write()`. It
/// can be used to concurrently read / write to the same socket on a single
/// task without splitting the socket.
///
/// The function may complete without the socket being ready. This is a
/// false-positive and attempting an operation will return with
/// `io::ErrorKind::WouldBlock`. The function can also return with an empty
/// [`Ready`] set, so you should always check the returned value and possibly
/// wait again if the requested states are not set.
///
/// # Cancel safety
///
/// This method is cancel safe. Once a readiness event occurs, the method
/// will continue to return immediately until the readiness event is
/// consumed by an attempt to read or write that fails with `WouldBlock` or
/// `Poll::Pending`.
///
/// # Examples
///
/// Concurrently read and write to the stream on the same task without
/// splitting.
///
/// ```no_run
/// use tokio::io::Interest;
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// loop {
/// let ready = stream.ready(Interest::READABLE | Interest::WRITABLE).await?;
///
/// if ready.is_readable() {
/// let mut data = vec![0; 1024];
/// // Try to read data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_read(&mut data) {
/// Ok(n) => {
/// println!("read {} bytes", n);
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
///
/// }
///
/// if ready.is_writable() {
/// // Try to write data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_write(b"hello world") {
/// Ok(n) => {
/// println!("write {} bytes", n);
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
/// }
/// }
/// ```
pub async fn ready(&self, interest: Interest) -> io::Result<Ready> {
let event = self.io.registration().readiness(interest).await?;
Ok(event.ready)
}
/// Waits for the socket to become readable.
///
/// This function is equivalent to `ready(Interest::READABLE)` and is usually
/// paired with `try_read()`.
///
/// # Cancel safety
///
/// This method is cancel safe. Once a readiness event occurs, the method
/// will continue to return immediately until the readiness event is
/// consumed by an attempt to read that fails with `WouldBlock` or
/// `Poll::Pending`.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// // Connect to a peer
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// let mut msg = vec![0; 1024];
///
/// loop {
/// // Wait for the socket to be readable
/// stream.readable().await?;
///
/// // Try to read data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_read(&mut msg) {
/// Ok(n) => {
/// msg.truncate(n);
/// break;
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
///
/// println!("GOT = {:?}", msg);
/// Ok(())
/// }
/// ```
pub async fn readable(&self) -> io::Result<()> {
self.ready(Interest::READABLE).await?;
Ok(())
}
/// Polls for read readiness.
///
/// If the unix stream is not currently ready for reading, this method will
/// store a clone of the `Waker` from the provided `Context`. When the unix
/// stream becomes ready for reading, `Waker::wake` will be called on the
/// waker.
///
/// Note that on multiple calls to `poll_read_ready` or `poll_read`, only
/// the `Waker` from the `Context` passed to the most recent call is
/// scheduled to receive a wakeup. (However, `poll_write_ready` retains a
/// second, independent waker.)
///
/// This function is intended for cases where creating and pinning a future
/// via [`readable`] is not feasible. Where possible, using [`readable`] is
/// preferred, as this supports polling from multiple tasks at once.
///
/// # Return value
///
/// The function returns:
///
/// * `Poll::Pending` if the unix stream is not ready for reading.
/// * `Poll::Ready(Ok(()))` if the unix stream is ready for reading.
/// * `Poll::Ready(Err(e))` if an error is encountered.
///
/// # Errors
///
/// This function may encounter any standard I/O error except `WouldBlock`.
///
/// [`readable`]: method@Self::readable
pub fn poll_read_ready(&self, cx: &mut Context<'_>) -> Poll<io::Result<()>> {
self.io.registration().poll_read_ready(cx).map_ok(|_| ())
}
/// Try to read data from the stream into the provided buffer, returning how
/// many bytes were read.
///
/// Receives any pending data from the socket but does not wait for new data
/// to arrive. On success, returns the number of bytes read. Because
/// `try_read()` is non-blocking, the buffer does not have to be stored by
/// the async task and can exist entirely on the stack.
///
/// Usually, [`readable()`] or [`ready()`] is used with this function.
///
/// [`readable()`]: UnixStream::readable()
/// [`ready()`]: UnixStream::ready()
///
/// # Return
///
/// If data is successfully read, `Ok(n)` is returned, where `n` is the
/// number of bytes read. If `n` is `0`, then it can indicate one of two scenarios:
///
/// 1. The stream's read half is closed and will no longer yield data.
/// 2. The specified buffer was 0 bytes in length.
///
/// If the stream is not ready to read data,
/// `Err(io::ErrorKind::WouldBlock)` is returned.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// // Connect to a peer
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// loop {
/// // Wait for the socket to be readable
/// stream.readable().await?;
///
/// // Creating the buffer **after** the `await` prevents it from
/// // being stored in the async task.
/// let mut buf = [0; 4096];
///
/// // Try to read data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_read(&mut buf) {
/// Ok(0) => break,
/// Ok(n) => {
/// println!("read {} bytes", n);
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
///
/// Ok(())
/// }
/// ```
pub fn try_read(&self, buf: &mut [u8]) -> io::Result<usize> {
self.io
.registration()
.try_io(Interest::READABLE, || (&*self.io).read(buf))
}
/// Tries to read data from the stream into the provided buffers, returning
/// how many bytes were read.
///
/// Data is copied to fill each buffer in order, with the final buffer
/// written to possibly being only partially filled. This method behaves
/// equivalently to a single call to [`try_read()`] with concatenated
/// buffers.
///
/// Receives any pending data from the socket but does not wait for new data
/// to arrive. On success, returns the number of bytes read. Because
/// `try_read_vectored()` is non-blocking, the buffer does not have to be
/// stored by the async task and can exist entirely on the stack.
///
/// Usually, [`readable()`] or [`ready()`] is used with this function.
///
/// [`try_read()`]: UnixStream::try_read()
/// [`readable()`]: UnixStream::readable()
/// [`ready()`]: UnixStream::ready()
///
/// # Return
///
/// If data is successfully read, `Ok(n)` is returned, where `n` is the
/// number of bytes read. `Ok(0)` indicates the stream's read half is closed
/// and will no longer yield data. If the stream is not ready to read data
/// `Err(io::ErrorKind::WouldBlock)` is returned.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io::{self, IoSliceMut};
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// // Connect to a peer
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// loop {
/// // Wait for the socket to be readable
/// stream.readable().await?;
///
/// // Creating the buffer **after** the `await` prevents it from
/// // being stored in the async task.
/// let mut buf_a = [0; 512];
/// let mut buf_b = [0; 1024];
/// let mut bufs = [
/// IoSliceMut::new(&mut buf_a),
/// IoSliceMut::new(&mut buf_b),
/// ];
///
/// // Try to read data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_read_vectored(&mut bufs) {
/// Ok(0) => break,
/// Ok(n) => {
/// println!("read {} bytes", n);
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
///
/// Ok(())
/// }
/// ```
pub fn try_read_vectored(&self, bufs: &mut [io::IoSliceMut<'_>]) -> io::Result<usize> {
self.io
.registration()
.try_io(Interest::READABLE, || (&*self.io).read_vectored(bufs))
}
cfg_io_util! {
/// Tries to read data from the stream into the provided buffer, advancing the
/// buffer's internal cursor, returning how many bytes were read.
///
/// Receives any pending data from the socket but does not wait for new data
/// to arrive. On success, returns the number of bytes read. Because
/// `try_read_buf()` is non-blocking, the buffer does not have to be stored by
/// the async task and can exist entirely on the stack.
///
/// Usually, [`readable()`] or [`ready()`] is used with this function.
///
/// [`readable()`]: UnixStream::readable()
/// [`ready()`]: UnixStream::ready()
///
/// # Return
///
/// If data is successfully read, `Ok(n)` is returned, where `n` is the
/// number of bytes read. `Ok(0)` indicates the stream's read half is closed
/// and will no longer yield data. If the stream is not ready to read data
/// `Err(io::ErrorKind::WouldBlock)` is returned.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// // Connect to a peer
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// loop {
/// // Wait for the socket to be readable
/// stream.readable().await?;
///
/// let mut buf = Vec::with_capacity(4096);
///
/// // Try to read data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_read_buf(&mut buf) {
/// Ok(0) => break,
/// Ok(n) => {
/// println!("read {} bytes", n);
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
///
/// Ok(())
/// }
/// ```
pub fn try_read_buf<B: BufMut>(&self, buf: &mut B) -> io::Result<usize> {
self.io.registration().try_io(Interest::READABLE, || {
use std::io::Read;
let dst = buf.chunk_mut();
let dst =
unsafe { &mut *(dst as *mut _ as *mut [std::mem::MaybeUninit<u8>] as *mut [u8]) };
// Safety: We trust `UnixStream::read` to have filled up `n` bytes in the
// buffer.
let n = (&*self.io).read(dst)?;
unsafe {
buf.advance_mut(n);
}
Ok(n)
})
}
}
/// Waits for the socket to become writable.
///
/// This function is equivalent to `ready(Interest::WRITABLE)` and is usually
/// paired with `try_write()`.
///
/// # Cancel safety
///
/// This method is cancel safe. Once a readiness event occurs, the method
/// will continue to return immediately until the readiness event is
/// consumed by an attempt to write that fails with `WouldBlock` or
/// `Poll::Pending`.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// // Connect to a peer
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// loop {
/// // Wait for the socket to be writable
/// stream.writable().await?;
///
/// // Try to write data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_write(b"hello world") {
/// Ok(n) => {
/// break;
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
///
/// Ok(())
/// }
/// ```
pub async fn writable(&self) -> io::Result<()> {
self.ready(Interest::WRITABLE).await?;
Ok(())
}
/// Polls for write readiness.
///
/// If the unix stream is not currently ready for writing, this method will
/// store a clone of the `Waker` from the provided `Context`. When the unix
/// stream becomes ready for writing, `Waker::wake` will be called on the
/// waker.
///
/// Note that on multiple calls to `poll_write_ready` or `poll_write`, only
/// the `Waker` from the `Context` passed to the most recent call is
/// scheduled to receive a wakeup. (However, `poll_read_ready` retains a
/// second, independent waker.)
///
/// This function is intended for cases where creating and pinning a future
/// via [`writable`] is not feasible. Where possible, using [`writable`] is
/// preferred, as this supports polling from multiple tasks at once.
///
/// # Return value
///
/// The function returns:
///
/// * `Poll::Pending` if the unix stream is not ready for writing.
/// * `Poll::Ready(Ok(()))` if the unix stream is ready for writing.
/// * `Poll::Ready(Err(e))` if an error is encountered.
///
/// # Errors
///
/// This function may encounter any standard I/O error except `WouldBlock`.
///
/// [`writable`]: method@Self::writable
pub fn poll_write_ready(&self, cx: &mut Context<'_>) -> Poll<io::Result<()>> {
self.io.registration().poll_write_ready(cx).map_ok(|_| ())
}
/// Tries to write a buffer to the stream, returning how many bytes were
/// written.
///
/// The function will attempt to write the entire contents of `buf`, but
/// only part of the buffer may be written.
///
/// This function is usually paired with `writable()`.
///
/// # Return
///
/// If data is successfully written, `Ok(n)` is returned, where `n` is the
/// number of bytes written. If the stream is not ready to write data,
/// `Err(io::ErrorKind::WouldBlock)` is returned.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// // Connect to a peer
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// loop {
/// // Wait for the socket to be writable
/// stream.writable().await?;
///
/// // Try to write data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_write(b"hello world") {
/// Ok(n) => {
/// break;
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
///
/// Ok(())
/// }
/// ```
pub fn try_write(&self, buf: &[u8]) -> io::Result<usize> {
self.io
.registration()
.try_io(Interest::WRITABLE, || (&*self.io).write(buf))
}
/// Tries to write several buffers to the stream, returning how many bytes
/// were written.
///
/// Data is written from each buffer in order, with the final buffer read
/// from possible being only partially consumed. This method behaves
/// equivalently to a single call to [`try_write()`] with concatenated
/// buffers.
///
/// This function is usually paired with `writable()`.
///
/// [`try_write()`]: UnixStream::try_write()
///
/// # Return
///
/// If data is successfully written, `Ok(n)` is returned, where `n` is the
/// number of bytes written. If the stream is not ready to write data,
/// `Err(io::ErrorKind::WouldBlock)` is returned.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::error::Error;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// // Connect to a peer
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// let bufs = [io::IoSlice::new(b"hello "), io::IoSlice::new(b"world")];
///
/// loop {
/// // Wait for the socket to be writable
/// stream.writable().await?;
///
/// // Try to write data, this may still fail with `WouldBlock`
/// // if the readiness event is a false positive.
/// match stream.try_write_vectored(&bufs) {
/// Ok(n) => {
/// break;
/// }
/// Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => {
/// continue;
/// }
/// Err(e) => {
/// return Err(e.into());
/// }
/// }
/// }
///
/// Ok(())
/// }
/// ```
pub fn try_write_vectored(&self, buf: &[io::IoSlice<'_>]) -> io::Result<usize> {
self.io
.registration()
.try_io(Interest::WRITABLE, || (&*self.io).write_vectored(buf))
}
/// Tries to read or write from the socket using a user-provided IO operation.
///
/// If the socket is ready, the provided closure is called. The closure
/// should attempt to perform IO operation on the socket by manually
/// calling the appropriate syscall. If the operation fails because the
/// socket is not actually ready, then the closure should return a
/// `WouldBlock` error and the readiness flag is cleared. The return value
/// of the closure is then returned by `try_io`.
///
/// If the socket is not ready, then the closure is not called
/// and a `WouldBlock` error is returned.
///
/// The closure should only return a `WouldBlock` error if it has performed
/// an IO operation on the socket that failed due to the socket not being
/// ready. Returning a `WouldBlock` error in any other situation will
/// incorrectly clear the readiness flag, which can cause the socket to
/// behave incorrectly.
///
/// The closure should not perform the IO operation using any of the methods
/// defined on the Tokio `UnixStream` type, as this will mess with the
/// readiness flag and can cause the socket to behave incorrectly.
///
/// This method is not intended to be used with combined interests.
/// The closure should perform only one type of IO operation, so it should not
/// require more than one ready state. This method may panic or sleep forever
/// if it is called with a combined interest.
///
/// Usually, [`readable()`], [`writable()`] or [`ready()`] is used with this function.
///
/// [`readable()`]: UnixStream::readable()
/// [`writable()`]: UnixStream::writable()
/// [`ready()`]: UnixStream::ready()
pub fn try_io<R>(
&self,
interest: Interest,
f: impl FnOnce() -> io::Result<R>,
) -> io::Result<R> {
self.io
.registration()
.try_io(interest, || self.io.try_io(f))
}
/// Reads or writes from the socket using a user-provided IO operation.
///
/// The readiness of the socket is awaited and when the socket is ready,
/// the provided closure is called. The closure should attempt to perform
/// IO operation on the socket by manually calling the appropriate syscall.
/// If the operation fails because the socket is not actually ready,
/// then the closure should return a `WouldBlock` error. In such case the
/// readiness flag is cleared and the socket readiness is awaited again.
/// This loop is repeated until the closure returns an `Ok` or an error
/// other than `WouldBlock`.
///
/// The closure should only return a `WouldBlock` error if it has performed
/// an IO operation on the socket that failed due to the socket not being
/// ready. Returning a `WouldBlock` error in any other situation will
/// incorrectly clear the readiness flag, which can cause the socket to
/// behave incorrectly.
///
/// The closure should not perform the IO operation using any of the methods
/// defined on the Tokio `UnixStream` type, as this will mess with the
/// readiness flag and can cause the socket to behave incorrectly.
///
/// This method is not intended to be used with combined interests.
/// The closure should perform only one type of IO operation, so it should not
/// require more than one ready state. This method may panic or sleep forever
/// if it is called with a combined interest.
pub async fn async_io<R>(
&self,
interest: Interest,
mut f: impl FnMut() -> io::Result<R>,
) -> io::Result<R> {
self.io
.registration()
.async_io(interest, || self.io.try_io(&mut f))
.await
}
/// Creates new `UnixStream` from a `std::os::unix::net::UnixStream`.
///
/// This function is intended to be used to wrap a UnixStream from the
/// standard library in the Tokio equivalent.
///
/// # Notes
///
/// The caller is responsible for ensuring that the stream is in
/// non-blocking mode. Otherwise all I/O operations on the stream
/// will block the thread, which will cause unexpected behavior.
/// Non-blocking mode can be set using [`set_nonblocking`].
///
/// [`set_nonblocking`]: std::os::unix::net::UnixStream::set_nonblocking
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
/// use std::os::unix::net::UnixStream as StdUnixStream;
/// # use std::error::Error;
///
/// # async fn dox() -> Result<(), Box<dyn Error>> {
/// let std_stream = StdUnixStream::connect("/path/to/the/socket")?;
/// std_stream.set_nonblocking(true)?;
/// let stream = UnixStream::from_std(std_stream)?;
/// # Ok(())
/// # }
/// ```
///
/// # Panics
///
/// This function panics if it is not called from within a runtime with
/// IO enabled.
///
/// The runtime is usually set implicitly when this function is called
/// from a future driven by a tokio runtime, otherwise runtime can be set
/// explicitly with [`Runtime::enter`](crate::runtime::Runtime::enter) function.
#[track_caller]
pub fn from_std(stream: net::UnixStream) -> io::Result<UnixStream> {
let stream = mio::net::UnixStream::from_std(stream);
let io = PollEvented::new(stream)?;
Ok(UnixStream { io })
}
/// Turns a [`tokio::net::UnixStream`] into a [`std::os::unix::net::UnixStream`].
///
/// The returned [`std::os::unix::net::UnixStream`] will have nonblocking
/// mode set as `true`. Use [`set_nonblocking`] to change the blocking
/// mode if needed.
///
/// # Examples
///
/// ```
/// use std::error::Error;
/// use std::io::Read;
/// use tokio::net::UnixListener;
/// # use tokio::net::UnixStream;
/// # use tokio::io::AsyncWriteExt;
///
/// #[tokio::main]
/// async fn main() -> Result<(), Box<dyn Error>> {
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
///
/// let mut data = [0u8; 12];
/// let listener = UnixListener::bind(&bind_path)?;
/// # let handle = tokio::spawn(async {
/// # let mut stream = UnixStream::connect(bind_path).await.unwrap();
/// # stream.write(b"Hello world!").await.unwrap();
/// # });
/// let (tokio_unix_stream, _) = listener.accept().await?;
/// let mut std_unix_stream = tokio_unix_stream.into_std()?;
/// # handle.await.expect("The task being joined has panicked");
/// std_unix_stream.set_nonblocking(false)?;
/// std_unix_stream.read_exact(&mut data)?;
/// # assert_eq!(b"Hello world!", &data);
/// Ok(())
/// }
/// ```
/// [`tokio::net::UnixStream`]: UnixStream
/// [`std::os::unix::net::UnixStream`]: std::os::unix::net::UnixStream
/// [`set_nonblocking`]: fn@std::os::unix::net::UnixStream::set_nonblocking
pub fn into_std(self) -> io::Result<std::os::unix::net::UnixStream> {
self.io
.into_inner()
.map(|io| io.into_raw_fd())
.map(|raw_fd| unsafe { std::os::unix::net::UnixStream::from_raw_fd(raw_fd) })
}
/// Creates an unnamed pair of connected sockets.
///
/// This function will create a pair of interconnected Unix sockets for
/// communicating back and forth between one another. Each socket will
/// be associated with the default event loop's handle.
pub fn pair() -> io::Result<(UnixStream, UnixStream)> {
let (a, b) = mio::net::UnixStream::pair()?;
let a = UnixStream::new(a)?;
let b = UnixStream::new(b)?;
Ok((a, b))
}
pub(crate) fn new(stream: mio::net::UnixStream) -> io::Result<UnixStream> {
let io = PollEvented::new(stream)?;
Ok(UnixStream { io })
}
/// Returns the socket address of the local half of this connection.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
///
/// # async fn dox() -> Result<(), Box<dyn std::error::Error>> {
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// println!("{:?}", stream.local_addr()?);
/// # Ok(())
/// # }
/// ```
pub fn local_addr(&self) -> io::Result<SocketAddr> {
self.io.local_addr().map(SocketAddr)
}
/// Returns the socket address of the remote half of this connection.
///
/// # Examples
///
/// ```no_run
/// use tokio::net::UnixStream;
///
/// # async fn dox() -> Result<(), Box<dyn std::error::Error>> {
/// let dir = tempfile::tempdir().unwrap();
/// let bind_path = dir.path().join("bind_path");
/// let stream = UnixStream::connect(bind_path).await?;
///
/// println!("{:?}", stream.peer_addr()?);
/// # Ok(())
/// # }
/// ```
pub fn peer_addr(&self) -> io::Result<SocketAddr> {
self.io.peer_addr().map(SocketAddr)
}
/// Returns effective credentials of the process which called `connect` or `pair`.
pub fn peer_cred(&self) -> io::Result<UCred> {
ucred::get_peer_cred(self)
}
/// Returns the value of the `SO_ERROR` option.
pub fn take_error(&self) -> io::Result<Option<io::Error>> {
self.io.take_error()
}
/// Shuts down the read, write, or both halves of this connection.
///
/// This function will cause all pending and future I/O calls on the
/// specified portions to immediately return with an appropriate value
/// (see the documentation of `Shutdown`).
pub(super) fn shutdown_std(&self, how: Shutdown) -> io::Result<()> {
self.io.shutdown(how)
}
// These lifetime markers also appear in the generated documentation, and make
// it more clear that this is a *borrowed* split.
#[allow(clippy::needless_lifetimes)]
/// Splits a `UnixStream` into a read half and a write half, which can be used
/// to read and write the stream concurrently.
///
/// This method is more efficient than [`into_split`], but the halves cannot be
/// moved into independently spawned tasks.
///
/// [`into_split`]: Self::into_split()
pub fn split<'a>(&'a mut self) -> (ReadHalf<'a>, WriteHalf<'a>) {
split(self)
}
/// Splits a `UnixStream` into a read half and a write half, which can be used
/// to read and write the stream concurrently.
///
/// Unlike [`split`], the owned halves can be moved to separate tasks, however
/// this comes at the cost of a heap allocation.
///
/// **Note:** Dropping the write half will shut down the write half of the
/// stream. This is equivalent to calling [`shutdown()`] on the `UnixStream`.
///
/// [`split`]: Self::split()
/// [`shutdown()`]: fn@crate::io::AsyncWriteExt::shutdown
pub fn into_split(self) -> (OwnedReadHalf, OwnedWriteHalf) {
split_owned(self)
}
}
impl TryFrom<net::UnixStream> for UnixStream {
type Error = io::Error;
/// Consumes stream, returning the tokio I/O object.
///
/// This is equivalent to
/// [`UnixStream::from_std(stream)`](UnixStream::from_std).
fn try_from(stream: net::UnixStream) -> io::Result<Self> {
Self::from_std(stream)
}
}
impl AsyncRead for UnixStream {
fn poll_read(
self: Pin<&mut Self>,
cx: &mut Context<'_>,
buf: &mut ReadBuf<'_>,
) -> Poll<io::Result<()>> {
self.poll_read_priv(cx, buf)
}
}
impl AsyncWrite for UnixStream {
fn poll_write(
self: Pin<&mut Self>,
cx: &mut Context<'_>,
buf: &[u8],
) -> Poll<io::Result<usize>> {
self.poll_write_priv(cx, buf)
}
fn poll_write_vectored(
self: Pin<&mut Self>,
cx: &mut Context<'_>,
bufs: &[io::IoSlice<'_>],
) -> Poll<io::Result<usize>> {
self.poll_write_vectored_priv(cx, bufs)
}
fn is_write_vectored(&self) -> bool {
true
}
fn poll_flush(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<io::Result<()>> {
Poll::Ready(Ok(()))
}
fn poll_shutdown(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<io::Result<()>> {
self.shutdown_std(std::net::Shutdown::Write)?;
Poll::Ready(Ok(()))
}
}
impl UnixStream {
// == Poll IO functions that takes `&self` ==
//
// To read or write without mutable access to the `UnixStream`, combine the
// `poll_read_ready` or `poll_write_ready` methods with the `try_read` or
// `try_write` methods.
pub(crate) fn poll_read_priv(
&self,
cx: &mut Context<'_>,
buf: &mut ReadBuf<'_>,
) -> Poll<io::Result<()>> {
// Safety: `UnixStream::read` correctly handles reads into uninitialized memory
unsafe { self.io.poll_read(cx, buf) }
}
pub(crate) fn poll_write_priv(
&self,
cx: &mut Context<'_>,
buf: &[u8],
) -> Poll<io::Result<usize>> {
self.io.poll_write(cx, buf)
}
pub(super) fn poll_write_vectored_priv(
&self,
cx: &mut Context<'_>,
bufs: &[io::IoSlice<'_>],
) -> Poll<io::Result<usize>> {
self.io.poll_write_vectored(cx, bufs)
}
}
impl fmt::Debug for UnixStream {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.io.fmt(f)
}
}
impl AsRawFd for UnixStream {
fn as_raw_fd(&self) -> RawFd {
self.io.as_raw_fd()
}
}
#[cfg(not(tokio_no_as_fd))]
impl AsFd for UnixStream {
fn as_fd(&self) -> BorrowedFd<'_> {
unsafe { BorrowedFd::borrow_raw(self.as_raw_fd()) }
}
}