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//! `TcpStream` owned split support. //! //! A `TcpStream` can be split into an `OwnedReadHalf` and a `OwnedWriteHalf` //! with the `TcpStream::into_split` method. `OwnedReadHalf` implements //! `AsyncRead` while `OwnedWriteHalf` implements `AsyncWrite`. //! //! Compared to the generic split of `AsyncRead + AsyncWrite`, this specialized //! split has no associated overhead and enforces all invariants at the type //! level. use crate::future::poll_fn; use crate::io::{AsyncRead, AsyncWrite, ReadBuf}; use crate::net::TcpStream; use std::error::Error; use std::net::Shutdown; use std::pin::Pin; use std::sync::Arc; use std::task::{Context, Poll}; use std::{fmt, io}; /// Owned read half of a [`TcpStream`], created by [`into_split`]. /// /// Reading from an `OwnedReadHalf` is usually done using the convenience methods found /// on the [`AsyncReadExt`] trait. /// /// [`TcpStream`]: TcpStream /// [`into_split`]: TcpStream::into_split() /// [`AsyncReadExt`]: trait@crate::io::AsyncReadExt #[derive(Debug)] pub struct OwnedReadHalf { inner: Arc<TcpStream>, } /// Owned write half of a [`TcpStream`], created by [`into_split`]. /// /// Note that in the [`AsyncWrite`] implementation of this type, [`poll_shutdown`] will /// shut down the TCP stream in the write direction. Dropping the write half /// will also shut down the write half of the TCP stream. /// /// Writing to an `OwnedWriteHalf` is usually done using the convenience methods found /// on the [`AsyncWriteExt`] trait. /// /// [`TcpStream`]: TcpStream /// [`into_split`]: TcpStream::into_split() /// [`AsyncWrite`]: trait@crate::io::AsyncWrite /// [`poll_shutdown`]: fn@crate::io::AsyncWrite::poll_shutdown /// [`AsyncWriteExt`]: trait@crate::io::AsyncWriteExt #[derive(Debug)] pub struct OwnedWriteHalf { inner: Arc<TcpStream>, shutdown_on_drop: bool, } pub(crate) fn split_owned(stream: TcpStream) -> (OwnedReadHalf, OwnedWriteHalf) { let arc = Arc::new(stream); let read = OwnedReadHalf { inner: Arc::clone(&arc), }; let write = OwnedWriteHalf { inner: arc, shutdown_on_drop: true, }; (read, write) } pub(crate) fn reunite( read: OwnedReadHalf, write: OwnedWriteHalf, ) -> Result<TcpStream, ReuniteError> { if Arc::ptr_eq(&read.inner, &write.inner) { write.forget(); // This unwrap cannot fail as the api does not allow creating more than two Arcs, // and we just dropped the other half. Ok(Arc::try_unwrap(read.inner).expect("TcpStream: try_unwrap failed in reunite")) } else { Err(ReuniteError(read, write)) } } /// Error indicating that two halves were not from the same socket, and thus could /// not be reunited. #[derive(Debug)] pub struct ReuniteError(pub OwnedReadHalf, pub OwnedWriteHalf); impl fmt::Display for ReuniteError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!( f, "tried to reunite halves that are not from the same socket" ) } } impl Error for ReuniteError {} impl OwnedReadHalf { /// Attempts to put the two halves of a `TcpStream` back together and /// recover the original socket. Succeeds only if the two halves /// originated from the same call to [`into_split`]. /// /// [`into_split`]: TcpStream::into_split() pub fn reunite(self, other: OwnedWriteHalf) -> Result<TcpStream, ReuniteError> { reunite(self, other) } /// Attempt to receive data on the socket, without removing that data from /// the queue, registering the current task for wakeup if data is not yet /// available. /// /// Note that on multiple calls to `poll_peek` or `poll_read`, only the /// `Waker` from the `Context` passed to the most recent call is scheduled /// to receive a wakeup. /// /// See the [`TcpStream::poll_peek`] level documenation for more details. /// /// # Examples /// /// ```no_run /// use tokio::io::{self, ReadBuf}; /// use tokio::net::TcpStream; /// /// use futures::future::poll_fn; /// /// #[tokio::main] /// async fn main() -> io::Result<()> { /// let stream = TcpStream::connect("127.0.0.1:8000").await?; /// let (mut read_half, _) = stream.into_split(); /// let mut buf = [0; 10]; /// let mut buf = ReadBuf::new(&mut buf); /// /// poll_fn(|cx| { /// read_half.poll_peek(cx, &mut buf) /// }).await?; /// /// Ok(()) /// } /// ``` /// /// [`TcpStream::poll_peek`]: TcpStream::poll_peek pub fn poll_peek( &mut self, cx: &mut Context<'_>, buf: &mut ReadBuf<'_>, ) -> Poll<io::Result<usize>> { self.inner.poll_peek(cx, buf) } /// Receives data on the socket from the remote address to which it is /// connected, without removing that data from the queue. On success, /// returns the number of bytes peeked. /// /// See the [`TcpStream::peek`] level documenation for more details. /// /// [`TcpStream::peek`]: TcpStream::peek /// /// # Examples /// /// ```no_run /// use tokio::net::TcpStream; /// use tokio::io::AsyncReadExt; /// use std::error::Error; /// /// #[tokio::main] /// async fn main() -> Result<(), Box<dyn Error>> { /// // Connect to a peer /// let stream = TcpStream::connect("127.0.0.1:8080").await?; /// let (mut read_half, _) = stream.into_split(); /// /// let mut b1 = [0; 10]; /// let mut b2 = [0; 10]; /// /// // Peek at the data /// let n = read_half.peek(&mut b1).await?; /// /// // Read the data /// assert_eq!(n, read_half.read(&mut b2[..n]).await?); /// assert_eq!(&b1[..n], &b2[..n]); /// /// Ok(()) /// } /// ``` /// /// The [`read`] method is defined on the [`AsyncReadExt`] trait. /// /// [`read`]: fn@crate::io::AsyncReadExt::read /// [`AsyncReadExt`]: trait@crate::io::AsyncReadExt pub async fn peek(&mut self, buf: &mut [u8]) -> io::Result<usize> { let mut buf = ReadBuf::new(buf); poll_fn(|cx| self.poll_peek(cx, &mut buf)).await } } impl AsyncRead for OwnedReadHalf { fn poll_read( self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &mut ReadBuf<'_>, ) -> Poll<io::Result<()>> { self.inner.poll_read_priv(cx, buf) } } impl OwnedWriteHalf { /// Attempts to put the two halves of a `TcpStream` back together and /// recover the original socket. Succeeds only if the two halves /// originated from the same call to [`into_split`]. /// /// [`into_split`]: TcpStream::into_split() pub fn reunite(self, other: OwnedReadHalf) -> Result<TcpStream, ReuniteError> { reunite(other, self) } /// Destroy the write half, but don't close the write half of the stream /// until the read half is dropped. If the read half has already been /// dropped, this closes the stream. pub fn forget(mut self) { self.shutdown_on_drop = false; drop(self); } } impl Drop for OwnedWriteHalf { fn drop(&mut self) { if self.shutdown_on_drop { let _ = self.inner.shutdown_std(Shutdown::Write); } } } impl AsyncWrite for OwnedWriteHalf { fn poll_write( self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &[u8], ) -> Poll<io::Result<usize>> { self.inner.poll_write_priv(cx, buf) } fn poll_write_vectored( self: Pin<&mut Self>, cx: &mut Context<'_>, bufs: &[io::IoSlice<'_>], ) -> Poll<io::Result<usize>> { self.inner.poll_write_vectored_priv(cx, bufs) } fn is_write_vectored(&self) -> bool { self.inner.is_write_vectored() } #[inline] fn poll_flush(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<io::Result<()>> { // tcp flush is a no-op Poll::Ready(Ok(())) } // `poll_shutdown` on a write half shutdowns the stream in the "write" direction. fn poll_shutdown(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<io::Result<()>> { let res = self.inner.shutdown_std(Shutdown::Write); if res.is_ok() { Pin::into_inner(self).shutdown_on_drop = false; } res.into() } } impl AsRef<TcpStream> for OwnedReadHalf { fn as_ref(&self) -> &TcpStream { &*self.inner } } impl AsRef<TcpStream> for OwnedWriteHalf { fn as_ref(&self) -> &TcpStream { &*self.inner } }