//! Async WebSockets. //! //! This crate is based on [tungstenite](https://crates.io/crates/tungstenite) //! Rust WebSocket library and provides async bindings and wrappers for it, so you //! can use it with non-blocking/asynchronous `TcpStream`s from and couple it //! together with other crates from the async stack. In addition, optional //! integration with various other crates can be enabled via feature flags //! //! * `async-tls`: Enables the `async_tls` module, which provides integration //! with the [async-tls](https://crates.io/crates/async-tls) TLS stack and can //! be used independent of any async runtime. //! * `async-std-runtime`: Enables the `async_std` module, which provides //! integration with the [async-std](https://async.rs) runtime. //! * `async-native-tls`: Enables the additional functions in the `async_std` //! module to implement TLS via //! [async-native-tls](https://crates.io/crates/async-native-tls). //! * `tokio-runtime`: Enables the `tokio` module, which provides integration //! with the [tokio](https://tokio.rs) runtime. //! * `tokio-native-tls`: Enables the additional functions in the `tokio` module to //! implement TLS via [tokio-native-tls](https://crates.io/crates/tokio-native-tls). //! * `tokio-rustls-native-certs`: Enables the additional functions in the `tokio` //! module to implement TLS via [tokio-rustls](https://crates.io/crates/tokio-rustls) //! and uses native system certificates found with //! [rustls-native-certs](https://github.com/rustls/rustls-native-certs). //! * `tokio-rustls-webpki-roots`: Enables the additional functions in the `tokio` //! module to implement TLS via [tokio-rustls](https://crates.io/crates/tokio-rustls) //! and uses the certificates [webpki-roots](https://github.com/rustls/webpki-roots) //! provides. //! * `tokio-openssl`: Enables the additional functions in the `tokio` module to //! implement TLS via [tokio-openssl](https://crates.io/crates/tokio-openssl). //! * `gio-runtime`: Enables the `gio` module, which provides integration with //! the [gio](https://www.gtk-rs.org) runtime. //! //! Each WebSocket stream implements the required `Stream` and `Sink` traits, //! making the socket a stream of WebSocket messages coming in and going out. #![deny( missing_docs, unused_must_use, unused_mut, unused_imports, unused_import_braces )] pub use tungstenite; mod compat; mod handshake; #[cfg(any( feature = "async-tls", feature = "async-native-tls", feature = "tokio-native-tls", feature = "tokio-rustls-manual-roots", feature = "tokio-rustls-native-certs", feature = "tokio-rustls-webpki-roots", feature = "tokio-openssl", ))] pub mod stream; use std::io::{Read, Write}; use compat::{cvt, AllowStd, ContextWaker}; use futures_io::{AsyncRead, AsyncWrite}; use futures_util::{ sink::{Sink, SinkExt}, stream::{FusedStream, Stream}, }; use log::*; use std::pin::Pin; use std::task::{Context, Poll}; #[cfg(feature = "handshake")] use tungstenite::{ client::IntoClientRequest, handshake::{ client::{ClientHandshake, Response}, server::{Callback, NoCallback}, HandshakeError, }, }; use tungstenite::{ error::Error as WsError, protocol::{Message, Role, WebSocket, WebSocketConfig}, }; #[cfg(feature = "async-std-runtime")] pub mod async_std; #[cfg(feature = "async-tls")] pub mod async_tls; #[cfg(feature = "gio-runtime")] pub mod gio; #[cfg(feature = "tokio-runtime")] pub mod tokio; use tungstenite::protocol::CloseFrame; /// Creates a WebSocket handshake from a request and a stream. /// For convenience, the user may call this with a url string, a URL, /// or a `Request`. Calling with `Request` allows the user to add /// a WebSocket protocol or other custom headers. /// /// Internally, this custom creates a handshake representation and returns /// a future representing the resolution of the WebSocket handshake. The /// returned future will resolve to either `WebSocketStream` or `Error` /// depending on whether the handshake is successful. /// /// This is typically used for clients who have already established, for /// example, a TCP connection to the remote server. #[cfg(feature = "handshake")] pub async fn client_async<'a, R, S>( request: R, stream: S, ) -> Result<(WebSocketStream, Response), WsError> where R: IntoClientRequest + Unpin, S: AsyncRead + AsyncWrite + Unpin, { client_async_with_config(request, stream, None).await } /// The same as `client_async()` but the one can specify a websocket configuration. /// Please refer to `client_async()` for more details. #[cfg(feature = "handshake")] pub async fn client_async_with_config<'a, R, S>( request: R, stream: S, config: Option, ) -> Result<(WebSocketStream, Response), WsError> where R: IntoClientRequest + Unpin, S: AsyncRead + AsyncWrite + Unpin, { let f = handshake::client_handshake(stream, move |allow_std| { let request = request.into_client_request()?; let cli_handshake = ClientHandshake::start(allow_std, request, config)?; cli_handshake.handshake() }); f.await.map_err(|e| match e { HandshakeError::Failure(e) => e, e => WsError::Io(std::io::Error::new( std::io::ErrorKind::Other, e.to_string(), )), }) } /// Accepts a new WebSocket connection with the provided stream. /// /// This function will internally call `server::accept` to create a /// handshake representation and returns a future representing the /// resolution of the WebSocket handshake. The returned future will resolve /// to either `WebSocketStream` or `Error` depending if it's successful /// or not. /// /// This is typically used after a socket has been accepted from a /// `TcpListener`. That socket is then passed to this function to perform /// the server half of the accepting a client's websocket connection. #[cfg(feature = "handshake")] pub async fn accept_async(stream: S) -> Result, WsError> where S: AsyncRead + AsyncWrite + Unpin, { accept_hdr_async(stream, NoCallback).await } /// The same as `accept_async()` but the one can specify a websocket configuration. /// Please refer to `accept_async()` for more details. #[cfg(feature = "handshake")] pub async fn accept_async_with_config( stream: S, config: Option, ) -> Result, WsError> where S: AsyncRead + AsyncWrite + Unpin, { accept_hdr_async_with_config(stream, NoCallback, config).await } /// Accepts a new WebSocket connection with the provided stream. /// /// This function does the same as `accept_async()` but accepts an extra callback /// for header processing. The callback receives headers of the incoming /// requests and is able to add extra headers to the reply. #[cfg(feature = "handshake")] pub async fn accept_hdr_async(stream: S, callback: C) -> Result, WsError> where S: AsyncRead + AsyncWrite + Unpin, C: Callback + Unpin, { accept_hdr_async_with_config(stream, callback, None).await } /// The same as `accept_hdr_async()` but the one can specify a websocket configuration. /// Please refer to `accept_hdr_async()` for more details. #[cfg(feature = "handshake")] pub async fn accept_hdr_async_with_config( stream: S, callback: C, config: Option, ) -> Result, WsError> where S: AsyncRead + AsyncWrite + Unpin, C: Callback + Unpin, { let f = handshake::server_handshake(stream, move |allow_std| { tungstenite::accept_hdr_with_config(allow_std, callback, config) }); f.await.map_err(|e| match e { HandshakeError::Failure(e) => e, e => WsError::Io(std::io::Error::new( std::io::ErrorKind::Other, e.to_string(), )), }) } /// A wrapper around an underlying raw stream which implements the WebSocket /// protocol. /// /// A `WebSocketStream` represents a handshake that has been completed /// successfully and both the server and the client are ready for receiving /// and sending data. Message from a `WebSocketStream` are accessible /// through the respective `Stream` and `Sink`. Check more information about /// them in `futures-rs` crate documentation or have a look on the examples /// and unit tests for this crate. #[derive(Debug)] pub struct WebSocketStream { inner: WebSocket>, closing: bool, ended: bool, } impl WebSocketStream { /// Convert a raw socket into a WebSocketStream without performing a /// handshake. pub async fn from_raw_socket(stream: S, role: Role, config: Option) -> Self where S: AsyncRead + AsyncWrite + Unpin, { handshake::without_handshake(stream, move |allow_std| { WebSocket::from_raw_socket(allow_std, role, config) }) .await } /// Convert a raw socket into a WebSocketStream without performing a /// handshake. pub async fn from_partially_read( stream: S, part: Vec, role: Role, config: Option, ) -> Self where S: AsyncRead + AsyncWrite + Unpin, { handshake::without_handshake(stream, move |allow_std| { WebSocket::from_partially_read(allow_std, part, role, config) }) .await } pub(crate) fn new(ws: WebSocket>) -> Self { WebSocketStream { inner: ws, closing: false, ended: false, } } fn with_context(&mut self, ctx: Option<(ContextWaker, &mut Context<'_>)>, f: F) -> R where S: Unpin, F: FnOnce(&mut WebSocket>) -> R, AllowStd: Read + Write, { #[cfg(feature = "verbose-logging")] trace!("{}:{} WebSocketStream.with_context", file!(), line!()); if let Some((kind, ctx)) = ctx { self.inner.get_mut().set_waker(kind, ctx.waker()); } f(&mut self.inner) } /// Returns a shared reference to the inner stream. pub fn get_ref(&self) -> &S where S: AsyncRead + AsyncWrite + Unpin, { self.inner.get_ref().get_ref() } /// Returns a mutable reference to the inner stream. pub fn get_mut(&mut self) -> &mut S where S: AsyncRead + AsyncWrite + Unpin, { self.inner.get_mut().get_mut() } /// Returns a reference to the configuration of the tungstenite stream. pub fn get_config(&self) -> &WebSocketConfig { self.inner.get_config() } /// Close the underlying web socket pub async fn close(&mut self, msg: Option>) -> Result<(), WsError> where S: AsyncRead + AsyncWrite + Unpin, { let msg = msg.map(|msg| msg.into_owned()); self.send(Message::Close(msg)).await } } impl Stream for WebSocketStream where T: AsyncRead + AsyncWrite + Unpin, { type Item = Result; fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { #[cfg(feature = "verbose-logging")] trace!("{}:{} Stream.poll_next", file!(), line!()); // The connection has been closed or a critical error has occurred. // We have already returned the error to the user, the `Stream` is unusable, // so we assume that the stream has been "fused". if self.ended { return Poll::Ready(None); } match futures_util::ready!(self.with_context(Some((ContextWaker::Read, cx)), |s| { #[cfg(feature = "verbose-logging")] trace!( "{}:{} Stream.with_context poll_next -> read_message()", file!(), line!() ); cvt(s.read_message()) })) { Ok(v) => Poll::Ready(Some(Ok(v))), Err(e) => { self.ended = true; if matches!(e, WsError::AlreadyClosed | WsError::ConnectionClosed) { Poll::Ready(None) } else { Poll::Ready(Some(Err(e))) } } } } } impl FusedStream for WebSocketStream where T: AsyncRead + AsyncWrite + Unpin, { fn is_terminated(&self) -> bool { self.ended } } impl Sink for WebSocketStream where T: AsyncRead + AsyncWrite + Unpin, { type Error = WsError; fn poll_ready(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { (*self).with_context(Some((ContextWaker::Write, cx)), |s| cvt(s.write_pending())) } fn start_send(mut self: Pin<&mut Self>, item: Message) -> Result<(), Self::Error> { match (*self).with_context(None, |s| s.write_message(item)) { Ok(()) => Ok(()), Err(WsError::Io(err)) if err.kind() == std::io::ErrorKind::WouldBlock => { // the message was accepted and queued // isn't an error. Ok(()) } Err(e) => { debug!("websocket start_send error: {}", e); Err(e) } } } fn poll_flush(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { match (*self).with_context(Some((ContextWaker::Write, cx)), |s| s.write_pending()) { Ok(()) => Poll::Ready(Ok(())), Err(WsError::ConnectionClosed) => { // WebSocket is closing and there is nothing to send anymore. // Not an failure, the flush operation is a success. Poll::Ready(Ok(())) } Err(WsError::Io(ref e)) if e.kind() == std::io::ErrorKind::WouldBlock => { trace!("WouldBlock"); Poll::Pending } Err(e) => Poll::Ready(Err(e)), } } fn poll_close(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { let res = if self.closing { // After queueing it, we call `write_pending` to drive the close handshake to completion. (*self).with_context(Some((ContextWaker::Write, cx)), |s| s.write_pending()) } else { (*self).with_context(Some((ContextWaker::Write, cx)), |s| s.close(None)) }; match res { Ok(()) => Poll::Ready(Ok(())), Err(WsError::ConnectionClosed) => Poll::Ready(Ok(())), Err(WsError::Io(err)) if err.kind() == std::io::ErrorKind::WouldBlock => { trace!("WouldBlock"); self.closing = true; Poll::Pending } Err(err) => { debug!("websocket close error: {}", err); Poll::Ready(Err(err)) } } } } #[cfg(any( feature = "async-tls", feature = "async-std-runtime", feature = "tokio-runtime", feature = "gio-runtime" ))] /// Get a domain from an URL. #[inline] pub(crate) fn domain( request: &tungstenite::handshake::client::Request, ) -> Result { request .uri() .host() .map(|host| { // If host is an IPv6 address, it might be surrounded by brackets. These brackets are // *not* part of a valid IP, so they must be stripped out. // // The URI from the request is guaranteed to be valid, so we don't need a separate // check for the closing bracket. let host = if host.starts_with('[') { &host[1..host.len() - 1] } else { host }; host.to_owned() }) .ok_or(tungstenite::Error::Url( tungstenite::error::UrlError::NoHostName, )) } #[cfg(any( feature = "async-std-runtime", feature = "tokio-runtime", feature = "gio-runtime" ))] /// Get the port from an URL. #[inline] pub(crate) fn port( request: &tungstenite::handshake::client::Request, ) -> Result { request .uri() .port_u16() .or_else(|| match request.uri().scheme_str() { Some("wss") => Some(443), Some("ws") => Some(80), _ => None, }) .ok_or(tungstenite::Error::Url( tungstenite::error::UrlError::UnsupportedUrlScheme, )) } #[cfg(test)] mod tests { #[cfg(any( feature = "async-tls", feature = "async-std-runtime", feature = "tokio-runtime", feature = "gio-runtime" ))] #[test] fn domain_strips_ipv6_brackets() { use tungstenite::client::IntoClientRequest; let request = "ws://[::1]:80".into_client_request().unwrap(); assert_eq!(crate::domain(&request).unwrap(), "::1"); } #[cfg(feature = "handshake")] #[test] fn requests_cannot_contain_invalid_uris() { use tungstenite::client::IntoClientRequest; assert!("ws://[".into_client_request().is_err()); assert!("ws://[blabla/bla".into_client_request().is_err()); assert!("ws://[::1/bla".into_client_request().is_err()); } }