mirror of
https://github.com/denoland/deno.git
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308 lines
9.8 KiB
Rust
308 lines
9.8 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use bytes::Bytes;
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use deno_core::futures::future::poll_fn;
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use deno_core::futures::ready;
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use std::io;
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use std::mem::MaybeUninit;
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use std::pin::Pin;
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use std::task::Poll;
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use tokio::io::AsyncRead;
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use tokio::io::AsyncWrite;
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use tokio::io::ReadBuf;
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const MAX_PREFIX_SIZE: usize = 256;
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/// [`NetworkStreamPrefixCheck`] is used to differentiate a stream between two different modes, depending
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/// on whether the first bytes match a given prefix (or not).
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///
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/// IMPORTANT: This stream makes the assumption that the incoming bytes will never partially match the prefix
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/// and then "hang" waiting for a write. For this code not to hang, the incoming stream must:
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///
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/// * match the prefix fully and then request writes at a later time
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/// * not match the prefix, and then request writes after writing a byte that causes the prefix not to match
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/// * not match the prefix and then close
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pub struct NetworkStreamPrefixCheck<S: AsyncRead + Unpin> {
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buffer: [MaybeUninit<u8>; MAX_PREFIX_SIZE * 2],
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io: S,
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prefix: &'static [u8],
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}
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impl<S: AsyncRead + Unpin> NetworkStreamPrefixCheck<S> {
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pub fn new(io: S, prefix: &'static [u8]) -> Self {
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debug_assert!(prefix.len() < MAX_PREFIX_SIZE);
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Self {
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io,
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prefix,
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buffer: [MaybeUninit::<u8>::uninit(); MAX_PREFIX_SIZE * 2],
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}
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}
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// Returns a [`NetworkBufferedStream`] and a flag determining if we matched a prefix, rewound with the bytes we read to determine what
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// type of stream this is.
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pub async fn match_prefix(
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self,
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) -> io::Result<(bool, NetworkBufferedStream<S>)> {
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let mut buffer = self.buffer;
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let mut readbuf = ReadBuf::uninit(&mut buffer);
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let mut io = self.io;
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let prefix = self.prefix;
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loop {
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enum State {
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Unknown,
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Matched,
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NotMatched,
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}
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let state = poll_fn(|cx| {
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let filled_len = readbuf.filled().len();
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let res = ready!(Pin::new(&mut io).poll_read(cx, &mut readbuf));
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if let Err(e) = res {
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return Poll::Ready(Err(e));
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}
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let filled = readbuf.filled();
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let new_len = filled.len();
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if new_len == filled_len {
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// Empty read, no match
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return Poll::Ready(Ok(State::NotMatched));
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} else if new_len < prefix.len() {
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// Read less than prefix, make sure we're still matching the prefix (early exit)
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if !prefix.starts_with(filled) {
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return Poll::Ready(Ok(State::NotMatched));
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}
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} else if new_len >= prefix.len() {
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// We have enough to determine
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if filled.starts_with(prefix) {
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return Poll::Ready(Ok(State::Matched));
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} else {
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return Poll::Ready(Ok(State::NotMatched));
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}
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}
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Poll::Ready(Ok(State::Unknown))
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})
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.await?;
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match state {
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State::Unknown => continue,
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State::Matched => {
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let initialized_len = readbuf.filled().len();
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return Ok((
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true,
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NetworkBufferedStream::new(io, buffer, initialized_len),
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));
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}
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State::NotMatched => {
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let initialized_len = readbuf.filled().len();
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return Ok((
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false,
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NetworkBufferedStream::new(io, buffer, initialized_len),
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));
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}
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}
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}
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}
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}
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/// [`NetworkBufferedStream`] is a stream that allows us to efficiently search for an incoming prefix in another stream without
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/// reading too much data. If the stream detects that the prefix has definitely been matched, or definitely not been matched,
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/// it returns a flag and a rewound stream allowing later code to take another pass at that data.
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///
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/// [`NetworkBufferedStream`] is a custom wrapper around an asynchronous stream that implements AsyncRead
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/// and AsyncWrite. It is designed to provide additional buffering functionality to the wrapped stream.
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/// The primary use case for this struct is when you want to read a small amount of data from the beginning
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/// of a stream, process it, and then continue reading the rest of the stream.
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///
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/// While the bounds for the class are limited to [`AsyncRead`] for easier testing, it is far more useful to use
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/// with interactive duplex streams that have a prefix determining which mode to operate in. For example, this class
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/// can determine whether an incoming stream is HTTP/2 or non-HTTP/2 and allow downstream code to make that determination.
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pub struct NetworkBufferedStream<S: AsyncRead + Unpin> {
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prefix: [MaybeUninit<u8>; MAX_PREFIX_SIZE * 2],
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io: S,
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initialized_len: usize,
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prefix_offset: usize,
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/// Have the prefix bytes been completely read out?
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prefix_read: bool,
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}
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impl<S: AsyncRead + Unpin> NetworkBufferedStream<S> {
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/// This constructor is private, because passing partially initialized data between the [`NetworkStreamPrefixCheck`] and
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/// this [`NetworkBufferedStream`] is challenging without the introduction of extra copies.
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fn new(
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io: S,
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prefix: [MaybeUninit<u8>; MAX_PREFIX_SIZE * 2],
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initialized_len: usize,
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) -> Self {
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Self {
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io,
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initialized_len,
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prefix_offset: 0,
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prefix,
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prefix_read: false,
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}
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}
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fn current_slice(&self) -> &[u8] {
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// We trust that these bytes are initialized properly
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let slice = &self.prefix[self.prefix_offset..self.initialized_len];
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// This guarantee comes from slice_assume_init_ref (we can't use that until it's stable)
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// SAFETY: casting `slice` to a `*const [T]` is safe since the caller guarantees that
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// `slice` is initialized, and `MaybeUninit` is guaranteed to have the same layout as `T`.
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// The pointer obtained is valid since it refers to memory owned by `slice` which is a
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// reference and thus guaranteed to be valid for reads.
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unsafe { &*(slice as *const [_] as *const [u8]) as _ }
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}
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pub fn into_inner(self) -> (S, Bytes) {
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let bytes = Bytes::copy_from_slice(self.current_slice());
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(self.io, bytes)
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}
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}
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impl<S: AsyncRead + Unpin> AsyncRead for NetworkBufferedStream<S> {
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// From hyper's Rewind (https://github.com/hyperium/hyper), MIT License, Copyright (c) Sean McArthur
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fn poll_read(
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mut self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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buf: &mut ReadBuf<'_>,
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) -> Poll<std::io::Result<()>> {
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if !self.prefix_read {
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let prefix = self.current_slice();
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// If there are no remaining bytes, let the bytes get dropped.
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if !prefix.is_empty() {
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let copy_len = std::cmp::min(prefix.len(), buf.remaining());
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buf.put_slice(&prefix[..copy_len]);
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self.prefix_offset += copy_len;
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return Poll::Ready(Ok(()));
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} else {
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self.prefix_read = true;
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}
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}
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Pin::new(&mut self.io).poll_read(cx, buf)
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}
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}
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impl<S: AsyncRead + AsyncWrite + Unpin> AsyncWrite
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for NetworkBufferedStream<S>
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{
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fn poll_write(
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mut self: 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, std::io::Error>> {
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Pin::new(&mut self.io).poll_write(cx, buf)
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}
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fn poll_flush(
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mut self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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) -> std::task::Poll<Result<(), std::io::Error>> {
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Pin::new(&mut self.io).poll_flush(cx)
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}
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fn poll_shutdown(
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mut self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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) -> std::task::Poll<Result<(), std::io::Error>> {
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Pin::new(&mut self.io).poll_shutdown(cx)
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}
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fn is_write_vectored(&self) -> bool {
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self.io.is_write_vectored()
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}
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fn poll_write_vectored(
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mut self: Pin<&mut Self>,
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cx: &mut std::task::Context<'_>,
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bufs: &[std::io::IoSlice<'_>],
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) -> std::task::Poll<Result<usize, std::io::Error>> {
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Pin::new(&mut self.io).poll_write_vectored(cx, bufs)
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}
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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 tokio::io::AsyncReadExt;
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struct YieldsOneByteAtATime(&'static [u8]);
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impl AsyncRead for YieldsOneByteAtATime {
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fn poll_read(
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mut self: Pin<&mut Self>,
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_cx: &mut std::task::Context<'_>,
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buf: &mut ReadBuf<'_>,
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) -> Poll<io::Result<()>> {
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if let Some((head, tail)) = self.as_mut().0.split_first() {
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self.as_mut().0 = tail;
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let dest = buf.initialize_unfilled_to(1);
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dest[0] = *head;
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buf.advance(1);
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}
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Poll::Ready(Ok(()))
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}
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}
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async fn test(
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io: impl AsyncRead + Unpin,
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prefix: &'static [u8],
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expect_match: bool,
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expect_string: &'static str,
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) -> io::Result<()> {
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let (matches, mut io) = NetworkStreamPrefixCheck::new(io, prefix)
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.match_prefix()
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.await?;
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assert_eq!(matches, expect_match);
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let mut s = String::new();
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Pin::new(&mut io).read_to_string(&mut s).await?;
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assert_eq!(s, expect_string);
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Ok(())
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}
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#[tokio::test]
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async fn matches_prefix_simple() -> io::Result<()> {
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let buf = b"prefix match".as_slice();
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test(buf, b"prefix", true, "prefix match").await
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}
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#[tokio::test]
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async fn matches_prefix_exact() -> io::Result<()> {
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let buf = b"prefix".as_slice();
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test(buf, b"prefix", true, "prefix").await
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}
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#[tokio::test]
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async fn not_matches_prefix_simple() -> io::Result<()> {
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let buf = b"prefill match".as_slice();
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test(buf, b"prefix", false, "prefill match").await
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}
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#[tokio::test]
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async fn not_matches_prefix_short() -> io::Result<()> {
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let buf = b"nope".as_slice();
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test(buf, b"prefix", false, "nope").await
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}
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#[tokio::test]
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async fn not_matches_prefix_empty() -> io::Result<()> {
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let buf = b"".as_slice();
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test(buf, b"prefix", false, "").await
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}
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#[tokio::test]
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async fn matches_one_byte_at_a_time() -> io::Result<()> {
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let buf = YieldsOneByteAtATime(b"prefix");
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test(buf, b"prefix", true, "prefix").await
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}
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#[tokio::test]
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async fn not_matches_one_byte_at_a_time() -> io::Result<()> {
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let buf = YieldsOneByteAtATime(b"prefill");
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test(buf, b"prefix", false, "prefill").await
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}
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}
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