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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use std::io;
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use std::pin::Pin;
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use std::process::Stdio;
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2024-02-21 20:00:57 -05:00
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2024-09-27 15:35:37 -04:00
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pub type RawPipeHandle = super::RawIoHandle;
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2024-02-21 20:00:57 -05:00
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// The synchronous read end of a unidirectional pipe.
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pub struct PipeRead {
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file: std::fs::File,
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}
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// The asynchronous read end of a unidirectional pipe.
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pub struct AsyncPipeRead {
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#[cfg(windows)]
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/// We use a `ChildStdout` here as it's a much better fit for a Windows named pipe on Windows. We
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/// might also be able to use `tokio::net::windows::named_pipe::NamedPipeClient` in the future
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/// if those can be created from raw handles down the road.
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read: tokio::process::ChildStdout,
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#[cfg(not(windows))]
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read: tokio::net::unix::pipe::Receiver,
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}
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// The synchronous write end of a unidirectional pipe.
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pub struct PipeWrite {
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file: std::fs::File,
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}
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// The asynchronous write end of a unidirectional pipe.
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pub struct AsyncPipeWrite {
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#[cfg(windows)]
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/// We use a `ChildStdin` here as it's a much better fit for a Windows named pipe on Windows. We
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/// might also be able to use `tokio::net::windows::named_pipe::NamedPipeClient` in the future
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/// if those can be created from raw handles down the road.
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write: tokio::process::ChildStdin,
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#[cfg(not(windows))]
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write: tokio::net::unix::pipe::Sender,
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}
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impl PipeRead {
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/// Converts this sync reader into an async reader. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(windows)]
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pub fn into_async(self) -> io::Result<AsyncPipeRead> {
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let owned: std::os::windows::io::OwnedHandle = self.file.into();
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let stdout = std::process::ChildStdout::from(owned);
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Ok(AsyncPipeRead {
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read: tokio::process::ChildStdout::from_std(stdout)?,
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})
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}
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/// Converts this sync reader into an async reader. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(not(windows))]
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pub fn into_async(self) -> io::Result<AsyncPipeRead> {
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Ok(AsyncPipeRead {
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read: tokio::net::unix::pipe::Receiver::from_file(self.file)?,
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})
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}
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/// Creates a new [`PipeRead`] instance that shares the same underlying file handle
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/// as the existing [`PipeRead`] instance.
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pub fn try_clone(&self) -> io::Result<Self> {
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Ok(Self {
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file: self.file.try_clone()?,
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})
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}
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}
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impl AsyncPipeRead {
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/// Converts this async reader into an sync reader. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(windows)]
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pub fn into_sync(self) -> io::Result<PipeRead> {
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let owned = self.read.into_owned_handle()?;
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Ok(PipeRead { file: owned.into() })
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}
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/// Converts this async reader into an sync reader. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(not(windows))]
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pub fn into_sync(self) -> io::Result<PipeRead> {
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let file = self.read.into_nonblocking_fd()?.into();
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Ok(PipeRead { file })
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}
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}
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impl std::io::Read for PipeRead {
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fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
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self.file.read(buf)
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}
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fn read_vectored(
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&mut self,
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bufs: &mut [io::IoSliceMut<'_>],
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) -> io::Result<usize> {
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self.file.read_vectored(bufs)
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}
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}
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impl tokio::io::AsyncRead for AsyncPipeRead {
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fn poll_read(
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self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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buf: &mut tokio::io::ReadBuf<'_>,
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) -> std::task::Poll<io::Result<()>> {
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Pin::new(&mut self.get_mut().read).poll_read(cx, buf)
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}
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}
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impl PipeWrite {
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/// Converts this sync writer into an async writer. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(windows)]
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pub fn into_async(self) -> io::Result<AsyncPipeWrite> {
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let owned: std::os::windows::io::OwnedHandle = self.file.into();
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let stdin = std::process::ChildStdin::from(owned);
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Ok(AsyncPipeWrite {
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write: tokio::process::ChildStdin::from_std(stdin)?,
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})
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}
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/// Converts this sync writer into an async writer. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(not(windows))]
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pub fn into_async(self) -> io::Result<AsyncPipeWrite> {
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Ok(AsyncPipeWrite {
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write: tokio::net::unix::pipe::Sender::from_file(self.file)?,
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})
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}
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/// Creates a new [`PipeWrite`] instance that shares the same underlying file handle
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/// as the existing [`PipeWrite`] instance.
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pub fn try_clone(&self) -> io::Result<Self> {
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Ok(Self {
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file: self.file.try_clone()?,
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})
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}
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}
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impl AsyncPipeWrite {
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/// Converts this async writer into an sync writer. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(windows)]
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pub fn into_sync(self) -> io::Result<PipeWrite> {
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let owned = self.write.into_owned_handle()?;
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Ok(PipeWrite { file: owned.into() })
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}
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/// Converts this async writer into an sync writer. May fail if the Tokio runtime is
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/// unavailable.
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#[cfg(not(windows))]
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pub fn into_sync(self) -> io::Result<PipeWrite> {
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let file = self.write.into_nonblocking_fd()?.into();
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Ok(PipeWrite { file })
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}
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}
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impl std::io::Write for PipeWrite {
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fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
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self.file.write(buf)
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}
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fn flush(&mut self) -> io::Result<()> {
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self.file.flush()
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}
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fn write_vectored(&mut self, bufs: &[io::IoSlice<'_>]) -> io::Result<usize> {
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self.file.write_vectored(bufs)
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}
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}
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impl tokio::io::AsyncWrite for AsyncPipeWrite {
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#[inline(always)]
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fn poll_write(
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self: std::pin::Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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buf: &[u8],
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) -> std::task::Poll<Result<usize, io::Error>> {
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Pin::new(&mut self.get_mut().write).poll_write(cx, buf)
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}
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#[inline(always)]
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fn poll_flush(
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self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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) -> std::task::Poll<Result<(), io::Error>> {
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Pin::new(&mut self.get_mut().write).poll_flush(cx)
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}
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#[inline(always)]
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fn poll_shutdown(
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self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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) -> std::task::Poll<Result<(), io::Error>> {
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Pin::new(&mut self.get_mut().write).poll_shutdown(cx)
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}
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#[inline(always)]
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fn is_write_vectored(&self) -> bool {
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self.write.is_write_vectored()
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}
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#[inline(always)]
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fn poll_write_vectored(
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self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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bufs: &[io::IoSlice<'_>],
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) -> std::task::Poll<Result<usize, io::Error>> {
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Pin::new(&mut self.get_mut().write).poll_write_vectored(cx, bufs)
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}
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}
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impl From<PipeRead> for Stdio {
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fn from(val: PipeRead) -> Self {
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Stdio::from(val.file)
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}
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}
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impl From<PipeWrite> for Stdio {
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fn from(val: PipeWrite) -> Self {
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Stdio::from(val.file)
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}
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}
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impl From<PipeRead> for std::fs::File {
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fn from(val: PipeRead) -> Self {
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val.file
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}
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}
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impl From<PipeWrite> for std::fs::File {
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fn from(val: PipeWrite) -> Self {
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val.file
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}
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}
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#[cfg(not(windows))]
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impl From<PipeRead> for std::os::unix::io::OwnedFd {
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fn from(val: PipeRead) -> Self {
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val.file.into()
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}
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}
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#[cfg(not(windows))]
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impl From<PipeWrite> for std::os::unix::io::OwnedFd {
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fn from(val: PipeWrite) -> Self {
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val.file.into()
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}
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}
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#[cfg(windows)]
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impl From<PipeRead> for std::os::windows::io::OwnedHandle {
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fn from(val: PipeRead) -> Self {
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val.file.into()
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}
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}
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#[cfg(windows)]
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impl From<PipeWrite> for std::os::windows::io::OwnedHandle {
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fn from(val: PipeWrite) -> Self {
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val.file.into()
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}
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}
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/// Create a unidirectional pipe pair that starts off as a pair of synchronous file handles,
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/// but either side may be promoted to an async-capable reader/writer.
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///
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/// On Windows, we use a named pipe because that's the only way to get reliable async I/O
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/// support. On Unix platforms, we use the `os_pipe` library, which uses `pipe2` under the hood
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/// (or `pipe` on OSX).
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pub fn pipe() -> io::Result<(PipeRead, PipeWrite)> {
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pipe_impl()
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}
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/// Creates a unidirectional pipe on top of a named pipe (which is technically bidirectional).
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#[cfg(windows)]
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pub fn pipe_impl() -> io::Result<(PipeRead, PipeWrite)> {
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// SAFETY: We're careful with handles here
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unsafe {
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use std::os::windows::io::FromRawHandle;
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use std::os::windows::io::OwnedHandle;
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let (server, client) = crate::winpipe::create_named_pipe()?;
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let read = std::fs::File::from(OwnedHandle::from_raw_handle(client));
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let write = std::fs::File::from(OwnedHandle::from_raw_handle(server));
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Ok((PipeRead { file: read }, PipeWrite { file: write }))
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}
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}
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/// Creates a unidirectional pipe for unix platforms.
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#[cfg(not(windows))]
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pub fn pipe_impl() -> io::Result<(PipeRead, PipeWrite)> {
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use std::os::unix::io::OwnedFd;
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let (read, write) = os_pipe::pipe()?;
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let read = std::fs::File::from(Into::<OwnedFd>::into(read));
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let write = std::fs::File::from(Into::<OwnedFd>::into(write));
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Ok((PipeRead { file: read }, PipeWrite { file: write }))
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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use std::io::Read;
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use std::io::Write;
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use tokio::io::AsyncReadExt;
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use tokio::io::AsyncWriteExt;
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#[test]
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fn test_pipe() {
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let (mut read, mut write) = pipe().unwrap();
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// Write to the server and read from the client
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write.write_all(b"hello").unwrap();
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let mut buf: [u8; 5] = Default::default();
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read.read_exact(&mut buf).unwrap();
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assert_eq!(&buf, b"hello");
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}
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#[tokio::test]
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async fn test_async_pipe() {
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let (read, write) = pipe().unwrap();
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let mut read = read.into_async().unwrap();
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let mut write = write.into_async().unwrap();
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write.write_all(b"hello").await.unwrap();
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let mut buf: [u8; 5] = Default::default();
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read.read_exact(&mut buf).await.unwrap();
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assert_eq!(&buf, b"hello");
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}
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/// Test a round-trip through async mode and back.
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#[tokio::test]
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async fn test_pipe_transmute() {
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let (mut read, mut write) = pipe().unwrap();
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// Sync
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write.write_all(b"hello").unwrap();
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let mut buf: [u8; 5] = Default::default();
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read.read_exact(&mut buf).unwrap();
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assert_eq!(&buf, b"hello");
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2024-02-23 13:11:15 -05:00
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let mut read = read.into_async().unwrap();
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let mut write = write.into_async().unwrap();
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2024-02-21 20:00:57 -05:00
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// Async
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write.write_all(b"hello").await.unwrap();
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let mut buf: [u8; 5] = Default::default();
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read.read_exact(&mut buf).await.unwrap();
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assert_eq!(&buf, b"hello");
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2024-02-23 13:11:15 -05:00
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let mut read = read.into_sync().unwrap();
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let mut write = write.into_sync().unwrap();
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2024-02-21 20:00:57 -05:00
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// Sync
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write.write_all(b"hello").unwrap();
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let mut buf: [u8; 5] = Default::default();
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read.read_exact(&mut buf).unwrap();
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assert_eq!(&buf, b"hello");
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}
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#[tokio::test]
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async fn test_async_pipe_is_nonblocking() {
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let (read, write) = pipe().unwrap();
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2024-02-23 13:11:15 -05:00
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let mut read = read.into_async().unwrap();
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let mut write = write.into_async().unwrap();
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2024-02-21 20:00:57 -05:00
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let a = tokio::spawn(async move {
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let mut buf: [u8; 5] = Default::default();
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read.read_exact(&mut buf).await.unwrap();
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assert_eq!(&buf, b"hello");
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});
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let b = tokio::spawn(async move {
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write.write_all(b"hello").await.unwrap();
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});
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a.await.unwrap();
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b.await.unwrap();
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}
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}
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