pub struct WebSocket { /* private fields */ }
Expand description
A request guard identifying WebSocket requests. Converts into a Channel
or MessageStream
.
For example usage, see the crate docs.
§Details
This is the entrypoint to the library. Every WebSocket response must
initiate via the WebSocket
request guard. The guard identifies valid
WebSocket connection requests and, if the request is valid, succeeds to be
converted into a streaming WebSocket response via
Stream!
, WebSocket::channel()
, or
WebSocket::stream()
. The connection can be configured via
WebSocket::config()
; see Config
for details on configuring a
connection.
§Forwarding
If the incoming request is not a valid WebSocket request, the guard
forwards with a status of BadRequest
. The guard never fails.
Implementations§
source§impl WebSocket
impl WebSocket
sourcepub fn config(self, config: Config) -> Self
pub fn config(self, config: Config) -> Self
Change the default connection configuration to config
.
§Example
#[get("/echo")]
fn echo_stream(ws: ws::WebSocket) -> ws::Stream!['static] {
let ws = ws.config(ws::Config {
max_send_queue: Some(5),
..Default::default()
});
ws::Stream! { ws =>
for await message in ws {
yield message?;
}
}
}
sourcepub fn channel<'r, F>(self, handler: F) -> Channel<'r>
pub fn channel<'r, F>(self, handler: F) -> Channel<'r>
Create a read/write channel to the client and call handler
with it.
This method takes a FnOnce
, handler
, that consumes a read/write
WebSocket channel, DuplexStream
to the client. See DuplexStream
for details on how to make use of the channel.
The handler
must return a Box
ed and Pin
ned future: calling
Box::pin()
with a future does just this as is the preferred
mechanism to create a Box<Pin<Future>>
. The future must return a
Result<()>
. The WebSocket connection is
closed successfully if the future returns Ok
and with an error if
the future returns Err
.
§Lifetimes
The Channel
may borrow from the request. If it does, the lifetime
should be specified as something other than 'static
. Otherwise, the
'static
lifetime should be used.
§Example
use rocket::futures::{SinkExt, StreamExt};
#[get("/hello/<name>")]
fn hello(ws: ws::WebSocket, name: &str) -> ws::Channel<'_> {
ws.channel(move |mut stream| Box::pin(async move {
let message = format!("Hello, {}!", name);
let _ = stream.send(message.into()).await;
Ok(())
}))
}
#[get("/echo")]
fn echo(ws: ws::WebSocket) -> ws::Channel<'static> {
ws.channel(move |mut stream| Box::pin(async move {
while let Some(message) = stream.next().await {
let _ = stream.send(message?).await;
}
Ok(())
}))
}
sourcepub fn stream<'r, F, S>(self, stream: F) -> MessageStream<'r, S>where
F: FnOnce(SplitStream<DuplexStream>) -> S + Send + 'r,
S: Stream<Item = Result<Message>> + Send + 'r,
pub fn stream<'r, F, S>(self, stream: F) -> MessageStream<'r, S>where
F: FnOnce(SplitStream<DuplexStream>) -> S + Send + 'r,
S: Stream<Item = Result<Message>> + Send + 'r,
Create a stream that consumes client Message
s and emits its own.
This method takes a FnOnce
stream
that consumes a read-only stream
and returns a stream of Message
s. While the returned stream can be
constructed in any manner, the Stream!
macro is the
preferred method. In any case, the stream must be Send
.
The returned stream must emit items of type Result<Message>
. Items
that are Ok(Message)
are sent to the client while items of type
Err(Error)
result in the connection being closed and the remainder of
the stream discarded.
§Example
// Use `Stream!`, which internally calls `WebSocket::stream()`.
#[get("/echo?stream")]
fn echo_stream(ws: ws::WebSocket) -> ws::Stream!['static] {
ws::Stream! { ws =>
for await message in ws {
yield message?;
}
}
}
// Use a raw stream.
#[get("/echo?compose")]
fn echo_compose(ws: ws::WebSocket) -> ws::Stream!['static] {
ws.stream(|io| io)
}
sourcepub fn accept_key(&self) -> &str
pub fn accept_key(&self) -> &str
Returns the server’s fully computed and encoded WebSocket handshake accept key.
The server takes the value of the
Sec-WebSocket-Key
sent in the handshake request, appends258EAFA5-E914-47DA-95CA-C5AB0DC85B11
, SHA-1 of the new value, and is then base64 encoded.
This is the value returned via the Sec-WebSocket-Accept
header
during the acceptance response.
§Example
#[get("/echo")]
fn echo_stream(ws: ws::WebSocket) -> ws::Stream!['static] {
let accept_key = ws.accept_key();
ws.stream(|io| io)
}
Trait Implementations§
source§impl<'r> FromRequest<'r> for WebSocket
impl<'r> FromRequest<'r> for WebSocket
source§type Error = Infallible
type Error = Infallible
Auto Trait Implementations§
impl Freeze for WebSocket
impl RefUnwindSafe for WebSocket
impl Send for WebSocket
impl Sync for WebSocket
impl Unpin for WebSocket
impl UnwindSafe for WebSocket
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