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http1.rs
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http1.rs
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//! HTTP/1 client connections
use std::error::Error as StdError;
use std::fmt;
use std::future::Future;
use std::pin::Pin;
use std::task::{Context, Poll};
use crate::rt::{Read, Write};
use bytes::Bytes;
use futures_util::ready;
use http::{Request, Response};
use httparse::ParserConfig;
use super::super::dispatch;
use crate::body::{Body, Incoming as IncomingBody};
use crate::proto;
type Dispatcher<T, B> =
proto::dispatch::Dispatcher<proto::dispatch::Client<B>, B, T, proto::h1::ClientTransaction>;
/// The sender side of an established connection.
pub struct SendRequest<B> {
dispatch: dispatch::Sender<Request<B>, Response<IncomingBody>>,
}
/// Deconstructed parts of a `Connection`.
///
/// This allows taking apart a `Connection` at a later time, in order to
/// reclaim the IO object, and additional related pieces.
#[derive(Debug)]
#[non_exhaustive]
pub struct Parts<T> {
/// The original IO object used in the handshake.
pub io: T,
/// A buffer of bytes that have been read but not processed as HTTP.
///
/// For instance, if the `Connection` is used for an HTTP upgrade request,
/// it is possible the server sent back the first bytes of the new protocol
/// along with the response upgrade.
///
/// You will want to check for any existing bytes if you plan to continue
/// communicating on the IO object.
pub read_buf: Bytes,
}
/// A future that processes all HTTP state for the IO object.
///
/// In most cases, this should just be spawned into an executor, so that it
/// can process incoming and outgoing messages, notice hangups, and the like.
#[must_use = "futures do nothing unless polled"]
pub struct Connection<T, B>
where
T: Read + Write,
B: Body + 'static,
{
inner: Dispatcher<T, B>,
}
impl<T, B> Connection<T, B>
where
T: Read + Write + Unpin + 'static,
B: Body + 'static,
B::Error: Into<Box<dyn StdError + Send + Sync>>,
{
/// Return the inner IO object, and additional information.
///
/// Only works for HTTP/1 connections. HTTP/2 connections will panic.
pub fn into_parts(self) -> Parts<T> {
let (io, read_buf, _) = self.inner.into_inner();
Parts { io, read_buf }
}
/// Poll the connection for completion, but without calling `shutdown`
/// on the underlying IO.
///
/// This is useful to allow running a connection while doing an HTTP
/// upgrade. Once the upgrade is completed, the connection would be "done",
/// but it is not desired to actually shutdown the IO object. Instead you
/// would take it back using `into_parts`.
///
/// Use [`poll_fn`](https://docs.rs/futures/0.1.25/futures/future/fn.poll_fn.html)
/// and [`try_ready!`](https://docs.rs/futures/0.1.25/futures/macro.try_ready.html)
/// to work with this function; or use the `without_shutdown` wrapper.
pub fn poll_without_shutdown(&mut self, cx: &mut Context<'_>) -> Poll<crate::Result<()>> {
self.inner.poll_without_shutdown(cx)
}
/// Prevent shutdown of the underlying IO object at the end of service the request,
/// instead run `into_parts`. This is a convenience wrapper over `poll_without_shutdown`.
pub async fn without_shutdown(self) -> crate::Result<Parts<T>> {
let mut conn = Some(self);
futures_util::future::poll_fn(move |cx| -> Poll<crate::Result<Parts<T>>> {
ready!(conn.as_mut().unwrap().poll_without_shutdown(cx))?;
Poll::Ready(Ok(conn.take().unwrap().into_parts()))
})
.await
}
}
/// A builder to configure an HTTP connection.
///
/// After setting options, the builder is used to create a handshake future.
///
/// **Note**: The default values of options are *not considered stable*. They
/// are subject to change at any time.
#[derive(Clone, Debug)]
pub struct Builder {
h09_responses: bool,
h1_parser_config: ParserConfig,
h1_writev: Option<bool>,
h1_title_case_headers: bool,
h1_preserve_header_case: bool,
h1_max_headers: Option<usize>,
#[cfg(feature = "ffi")]
h1_preserve_header_order: bool,
h1_read_buf_exact_size: Option<usize>,
h1_max_buf_size: Option<usize>,
}
/// Returns a handshake future over some IO.
///
/// This is a shortcut for `Builder::new().handshake(io)`.
/// See [`client::conn`](crate::client::conn) for more.
pub async fn handshake<T, B>(io: T) -> crate::Result<(SendRequest<B>, Connection<T, B>)>
where
T: Read + Write + Unpin,
B: Body + 'static,
B::Data: Send,
B::Error: Into<Box<dyn StdError + Send + Sync>>,
{
Builder::new().handshake(io).await
}
// ===== impl SendRequest
impl<B> SendRequest<B> {
/// Polls to determine whether this sender can be used yet for a request.
///
/// If the associated connection is closed, this returns an Error.
pub fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<crate::Result<()>> {
self.dispatch.poll_ready(cx)
}
/// Waits until the dispatcher is ready
///
/// If the associated connection is closed, this returns an Error.
pub async fn ready(&mut self) -> crate::Result<()> {
futures_util::future::poll_fn(|cx| self.poll_ready(cx)).await
}
/// Checks if the connection is currently ready to send a request.
///
/// # Note
///
/// This is mostly a hint. Due to inherent latency of networks, it is
/// possible that even after checking this is ready, sending a request
/// may still fail because the connection was closed in the meantime.
pub fn is_ready(&self) -> bool {
self.dispatch.is_ready()
}
/// Checks if the connection side has been closed.
pub fn is_closed(&self) -> bool {
self.dispatch.is_closed()
}
}
impl<B> SendRequest<B>
where
B: Body + 'static,
{
/// Sends a `Request` on the associated connection.
///
/// Returns a future that if successful, yields the `Response`.
///
/// `req` must have a `Host` header.
///
/// Absolute-form `Uri`s are not required. If received, they will be serialized
/// as-is.
pub fn send_request(
&mut self,
req: Request<B>,
) -> impl Future<Output = crate::Result<Response<IncomingBody>>> {
let sent = self.dispatch.send(req);
async move {
match sent {
Ok(rx) => match rx.await {
Ok(Ok(resp)) => Ok(resp),
Ok(Err(err)) => Err(err),
// this is definite bug if it happens, but it shouldn't happen!
Err(_canceled) => panic!("dispatch dropped without returning error"),
},
Err(_req) => {
debug!("connection was not ready");
Err(crate::Error::new_canceled().with("connection was not ready"))
}
}
}
}
/*
pub(super) fn send_request_retryable(
&mut self,
req: Request<B>,
) -> impl Future<Output = Result<Response<Body>, (crate::Error, Option<Request<B>>)>> + Unpin
where
B: Send,
{
match self.dispatch.try_send(req) {
Ok(rx) => {
Either::Left(rx.then(move |res| {
match res {
Ok(Ok(res)) => future::ok(res),
Ok(Err(err)) => future::err(err),
// this is definite bug if it happens, but it shouldn't happen!
Err(_) => panic!("dispatch dropped without returning error"),
}
}))
}
Err(req) => {
debug!("connection was not ready");
let err = crate::Error::new_canceled().with("connection was not ready");
Either::Right(future::err((err, Some(req))))
}
}
}
*/
}
impl<B> fmt::Debug for SendRequest<B> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("SendRequest").finish()
}
}
// ===== impl Connection
impl<T, B> Connection<T, B>
where
T: Read + Write + Unpin + Send,
B: Body + 'static,
B::Error: Into<Box<dyn StdError + Send + Sync>>,
{
/// Enable this connection to support higher-level HTTP upgrades.
///
/// See [the `upgrade` module](crate::upgrade) for more.
pub fn with_upgrades(self) -> upgrades::UpgradeableConnection<T, B> {
upgrades::UpgradeableConnection { inner: Some(self) }
}
}
impl<T, B> fmt::Debug for Connection<T, B>
where
T: Read + Write + fmt::Debug,
B: Body + 'static,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("Connection").finish()
}
}
impl<T, B> Future for Connection<T, B>
where
T: Read + Write + Unpin,
B: Body + 'static,
B::Data: Send,
B::Error: Into<Box<dyn StdError + Send + Sync>>,
{
type Output = crate::Result<()>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
match ready!(Pin::new(&mut self.inner).poll(cx))? {
proto::Dispatched::Shutdown => Poll::Ready(Ok(())),
proto::Dispatched::Upgrade(pending) => {
// With no `Send` bound on `I`, we can't try to do
// upgrades here. In case a user was trying to use
// `upgrade` with this API, send a special
// error letting them know about that.
pending.manual();
Poll::Ready(Ok(()))
}
}
}
}
// ===== impl Builder
impl Builder {
/// Creates a new connection builder.
#[inline]
pub fn new() -> Builder {
Builder {
h09_responses: false,
h1_writev: None,
h1_read_buf_exact_size: None,
h1_parser_config: Default::default(),
h1_title_case_headers: false,
h1_preserve_header_case: false,
h1_max_headers: None,
#[cfg(feature = "ffi")]
h1_preserve_header_order: false,
h1_max_buf_size: None,
}
}
/// Set whether HTTP/0.9 responses should be tolerated.
///
/// Default is false.
pub fn http09_responses(&mut self, enabled: bool) -> &mut Builder {
self.h09_responses = enabled;
self
}
/// Set whether HTTP/1 connections will accept spaces between header names
/// and the colon that follow them in responses.
///
/// You probably don't need this, here is what [RFC 7230 Section 3.2.4.] has
/// to say about it:
///
/// > No whitespace is allowed between the header field-name and colon. In
/// > the past, differences in the handling of such whitespace have led to
/// > security vulnerabilities in request routing and response handling. A
/// > server MUST reject any received request message that contains
/// > whitespace between a header field-name and colon with a response code
/// > of 400 (Bad Request). A proxy MUST remove any such whitespace from a
/// > response message before forwarding the message downstream.
///
/// Default is false.
///
/// [RFC 7230 Section 3.2.4.]: https://tools.ietf.org/html/rfc7230#section-3.2.4
pub fn allow_spaces_after_header_name_in_responses(&mut self, enabled: bool) -> &mut Builder {
self.h1_parser_config
.allow_spaces_after_header_name_in_responses(enabled);
self
}
/// Set whether HTTP/1 connections will accept obsolete line folding for
/// header values.
///
/// Newline codepoints (`\r` and `\n`) will be transformed to spaces when
/// parsing.
///
/// You probably don't need this, here is what [RFC 7230 Section 3.2.4.] has
/// to say about it:
///
/// > A server that receives an obs-fold in a request message that is not
/// > within a message/http container MUST either reject the message by
/// > sending a 400 (Bad Request), preferably with a representation
/// > explaining that obsolete line folding is unacceptable, or replace
/// > each received obs-fold with one or more SP octets prior to
/// > interpreting the field value or forwarding the message downstream.
///
/// > A proxy or gateway that receives an obs-fold in a response message
/// > that is not within a message/http container MUST either discard the
/// > message and replace it with a 502 (Bad Gateway) response, preferably
/// > with a representation explaining that unacceptable line folding was
/// > received, or replace each received obs-fold with one or more SP
/// > octets prior to interpreting the field value or forwarding the
/// > message downstream.
///
/// > A user agent that receives an obs-fold in a response message that is
/// > not within a message/http container MUST replace each received
/// > obs-fold with one or more SP octets prior to interpreting the field
/// > value.
///
/// Default is false.
///
/// [RFC 7230 Section 3.2.4.]: https://tools.ietf.org/html/rfc7230#section-3.2.4
pub fn allow_obsolete_multiline_headers_in_responses(&mut self, enabled: bool) -> &mut Builder {
self.h1_parser_config
.allow_obsolete_multiline_headers_in_responses(enabled);
self
}
/// Set whether HTTP/1 connections will silently ignored malformed header lines.
///
/// If this is enabled and and a header line does not start with a valid header
/// name, or does not include a colon at all, the line will be silently ignored
/// and no error will be reported.
///
/// Default is false.
pub fn ignore_invalid_headers_in_responses(&mut self, enabled: bool) -> &mut Builder {
self.h1_parser_config
.ignore_invalid_headers_in_responses(enabled);
self
}
/// Set whether HTTP/1 connections should try to use vectored writes,
/// or always flatten into a single buffer.
///
/// Note that setting this to false may mean more copies of body data,
/// but may also improve performance when an IO transport doesn't
/// support vectored writes well, such as most TLS implementations.
///
/// Setting this to true will force hyper to use queued strategy
/// which may eliminate unnecessary cloning on some TLS backends
///
/// Default is `auto`. In this mode hyper will try to guess which
/// mode to use
pub fn writev(&mut self, enabled: bool) -> &mut Builder {
self.h1_writev = Some(enabled);
self
}
/// Set whether HTTP/1 connections will write header names as title case at
/// the socket level.
///
/// Default is false.
pub fn title_case_headers(&mut self, enabled: bool) -> &mut Builder {
self.h1_title_case_headers = enabled;
self
}
/// Set whether to support preserving original header cases.
///
/// Currently, this will record the original cases received, and store them
/// in a private extension on the `Response`. It will also look for and use
/// such an extension in any provided `Request`.
///
/// Since the relevant extension is still private, there is no way to
/// interact with the original cases. The only effect this can have now is
/// to forward the cases in a proxy-like fashion.
///
/// Default is false.
pub fn preserve_header_case(&mut self, enabled: bool) -> &mut Builder {
self.h1_preserve_header_case = enabled;
self
}
/// Set the maximum number of headers.
///
/// When a response is received, the parser will reserve a buffer to store headers for optimal
/// performance.
///
/// If client receives more headers than the buffer size, the error "message header too large"
/// is returned.
///
/// Note that headers is allocated on the stack by default, which has higher performance. After
/// setting this value, headers will be allocated in heap memory, that is, heap memory
/// allocation will occur for each response, and there will be a performance drop of about 5%.
///
/// Default is 100.
pub fn max_headers(&mut self, val: usize) -> &mut Self {
self.h1_max_headers = Some(val);
self
}
/// Set whether to support preserving original header order.
///
/// Currently, this will record the order in which headers are received, and store this
/// ordering in a private extension on the `Response`. It will also look for and use
/// such an extension in any provided `Request`.
///
/// Default is false.
#[cfg(feature = "ffi")]
pub fn preserve_header_order(&mut self, enabled: bool) -> &mut Builder {
self.h1_preserve_header_order = enabled;
self
}
/// Sets the exact size of the read buffer to *always* use.
///
/// Note that setting this option unsets the `max_buf_size` option.
///
/// Default is an adaptive read buffer.
pub fn read_buf_exact_size(&mut self, sz: Option<usize>) -> &mut Builder {
self.h1_read_buf_exact_size = sz;
self.h1_max_buf_size = None;
self
}
/// Set the maximum buffer size for the connection.
///
/// Default is ~400kb.
///
/// Note that setting this option unsets the `read_exact_buf_size` option.
///
/// # Panics
///
/// The minimum value allowed is 8192. This method panics if the passed `max` is less than the minimum.
pub fn max_buf_size(&mut self, max: usize) -> &mut Self {
assert!(
max >= proto::h1::MINIMUM_MAX_BUFFER_SIZE,
"the max_buf_size cannot be smaller than the minimum that h1 specifies."
);
self.h1_max_buf_size = Some(max);
self.h1_read_buf_exact_size = None;
self
}
/// Constructs a connection with the configured options and IO.
/// See [`client::conn`](crate::client::conn) for more.
///
/// Note, if [`Connection`] is not `await`-ed, [`SendRequest`] will
/// do nothing.
pub fn handshake<T, B>(
&self,
io: T,
) -> impl Future<Output = crate::Result<(SendRequest<B>, Connection<T, B>)>>
where
T: Read + Write + Unpin,
B: Body + 'static,
B::Data: Send,
B::Error: Into<Box<dyn StdError + Send + Sync>>,
{
let opts = self.clone();
async move {
trace!("client handshake HTTP/1");
let (tx, rx) = dispatch::channel();
let mut conn = proto::Conn::new(io);
conn.set_h1_parser_config(opts.h1_parser_config);
if let Some(writev) = opts.h1_writev {
if writev {
conn.set_write_strategy_queue();
} else {
conn.set_write_strategy_flatten();
}
}
if opts.h1_title_case_headers {
conn.set_title_case_headers();
}
if opts.h1_preserve_header_case {
conn.set_preserve_header_case();
}
if let Some(max_headers) = opts.h1_max_headers {
conn.set_http1_max_headers(max_headers);
}
#[cfg(feature = "ffi")]
if opts.h1_preserve_header_order {
conn.set_preserve_header_order();
}
if opts.h09_responses {
conn.set_h09_responses();
}
if let Some(sz) = opts.h1_read_buf_exact_size {
conn.set_read_buf_exact_size(sz);
}
if let Some(max) = opts.h1_max_buf_size {
conn.set_max_buf_size(max);
}
let cd = proto::h1::dispatch::Client::new(rx);
let proto = proto::h1::Dispatcher::new(cd, conn);
Ok((SendRequest { dispatch: tx }, Connection { inner: proto }))
}
}
}
mod upgrades {
use crate::upgrade::Upgraded;
use super::*;
// A future binding a connection with a Service with Upgrade support.
//
// This type is unnameable outside the crate.
#[must_use = "futures do nothing unless polled"]
#[allow(missing_debug_implementations)]
pub struct UpgradeableConnection<T, B>
where
T: Read + Write + Unpin + Send + 'static,
B: Body + 'static,
B::Error: Into<Box<dyn StdError + Send + Sync>>,
{
pub(super) inner: Option<Connection<T, B>>,
}
impl<I, B> Future for UpgradeableConnection<I, B>
where
I: Read + Write + Unpin + Send + 'static,
B: Body + 'static,
B::Data: Send,
B::Error: Into<Box<dyn StdError + Send + Sync>>,
{
type Output = crate::Result<()>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
match ready!(Pin::new(&mut self.inner.as_mut().unwrap().inner).poll(cx)) {
Ok(proto::Dispatched::Shutdown) => Poll::Ready(Ok(())),
Ok(proto::Dispatched::Upgrade(pending)) => {
let Parts { io, read_buf } = self.inner.take().unwrap().into_parts();
pending.fulfill(Upgraded::new(io, read_buf));
Poll::Ready(Ok(()))
}
Err(e) => Poll::Ready(Err(e)),
}
}
}
}