hyper_util/client/legacy/connect/capture.rs
1use std::{ops::Deref, sync::Arc};
2
3use http::Request;
4use tokio::sync::watch;
5
6use super::Connected;
7
8/// [`CaptureConnection`] allows callers to capture [`Connected`] information
9///
10/// To capture a connection for a request, use [`capture_connection`].
11#[derive(Debug, Clone)]
12pub struct CaptureConnection {
13 rx: watch::Receiver<Option<Connected>>,
14}
15
16/// Capture the connection for a given request
17///
18/// When making a request with Hyper, the underlying connection must implement the [`Connection`] trait.
19/// [`capture_connection`] allows a caller to capture the returned [`Connected`] structure as soon
20/// as the connection is established.
21///
22/// [`Connection`]: crate::client::legacy::connect::Connection
23///
24/// *Note*: If establishing a connection fails, [`CaptureConnection::connection_metadata`] will always return none.
25///
26/// # Examples
27///
28/// **Synchronous access**:
29/// The [`CaptureConnection::connection_metadata`] method allows callers to check if a connection has been
30/// established. This is ideal for situations where you are certain the connection has already
31/// been established (e.g. after the response future has already completed).
32/// ```rust
33/// use hyper_util::client::legacy::connect::capture_connection;
34/// let mut request = http::Request::builder()
35/// .uri("http://foo.com")
36/// .body(())
37/// .unwrap();
38///
39/// let captured_connection = capture_connection(&mut request);
40/// // some time later after the request has been sent...
41/// let connection_info = captured_connection.connection_metadata();
42/// println!("we are connected! {:?}", connection_info.as_ref());
43/// ```
44///
45/// **Asynchronous access**:
46/// The [`CaptureConnection::wait_for_connection_metadata`] method returns a future resolves as soon as the
47/// connection is available.
48///
49/// ```rust
50/// # #[cfg(feature = "tokio")]
51/// # async fn example() {
52/// use hyper_util::client::legacy::connect::capture_connection;
53/// use hyper_util::client::legacy::Client;
54/// use hyper_util::rt::TokioExecutor;
55/// use bytes::Bytes;
56/// use http_body_util::Empty;
57/// let mut request = http::Request::builder()
58/// .uri("http://foo.com")
59/// .body(Empty::<Bytes>::new())
60/// .unwrap();
61///
62/// let mut captured = capture_connection(&mut request);
63/// tokio::task::spawn(async move {
64/// let connection_info = captured.wait_for_connection_metadata().await;
65/// println!("we are connected! {:?}", connection_info.as_ref());
66/// });
67///
68/// let client = Client::builder(TokioExecutor::new()).build_http();
69/// client.request(request).await.expect("request failed");
70/// # }
71/// ```
72pub fn capture_connection<B>(request: &mut Request<B>) -> CaptureConnection {
73 let (tx, rx) = CaptureConnection::new();
74 request.extensions_mut().insert(tx);
75 rx
76}
77
78/// TxSide for [`CaptureConnection`]
79///
80/// This is inserted into `Extensions` to allow Hyper to back channel connection info
81#[derive(Clone)]
82pub(crate) struct CaptureConnectionExtension {
83 tx: Arc<watch::Sender<Option<Connected>>>,
84}
85
86impl CaptureConnectionExtension {
87 pub(crate) fn set(&self, connected: &Connected) {
88 self.tx.send_replace(Some(connected.clone()));
89 }
90}
91
92impl CaptureConnection {
93 /// Internal API to create the tx and rx half of [`CaptureConnection`]
94 pub(crate) fn new() -> (CaptureConnectionExtension, Self) {
95 let (tx, rx) = watch::channel(None);
96 (
97 CaptureConnectionExtension { tx: Arc::new(tx) },
98 CaptureConnection { rx },
99 )
100 }
101
102 /// Retrieve the connection metadata, if available
103 pub fn connection_metadata(&self) -> impl Deref<Target = Option<Connected>> + '_ {
104 self.rx.borrow()
105 }
106
107 /// Wait for the connection to be established
108 ///
109 /// If a connection was established, this will always return `Some(...)`. If the request never
110 /// successfully connected (e.g. DNS resolution failure), this method will never return.
111 pub async fn wait_for_connection_metadata(
112 &mut self,
113 ) -> impl Deref<Target = Option<Connected>> + '_ {
114 if self.rx.borrow().is_some() {
115 return self.rx.borrow();
116 }
117 let _ = self.rx.changed().await;
118 self.rx.borrow()
119 }
120}
121
122#[cfg(all(test, not(miri)))]
123mod test {
124 use super::*;
125
126 #[test]
127 fn test_sync_capture_connection() {
128 let (tx, rx) = CaptureConnection::new();
129 assert!(
130 rx.connection_metadata().is_none(),
131 "connection has not been set"
132 );
133 tx.set(&Connected::new().proxy(true));
134 assert_eq!(
135 rx.connection_metadata()
136 .as_ref()
137 .expect("connected should be set")
138 .is_proxied(),
139 true
140 );
141
142 // ensure it can be called multiple times
143 assert_eq!(
144 rx.connection_metadata()
145 .as_ref()
146 .expect("connected should be set")
147 .is_proxied(),
148 true
149 );
150 }
151
152 #[tokio::test]
153 async fn async_capture_connection() {
154 let (tx, mut rx) = CaptureConnection::new();
155 assert!(
156 rx.connection_metadata().is_none(),
157 "connection has not been set"
158 );
159 let test_task = tokio::spawn(async move {
160 assert_eq!(
161 rx.wait_for_connection_metadata()
162 .await
163 .as_ref()
164 .expect("connection should be set")
165 .is_proxied(),
166 true
167 );
168 // can be awaited multiple times
169 assert!(
170 rx.wait_for_connection_metadata().await.is_some(),
171 "should be awaitable multiple times"
172 );
173
174 assert_eq!(rx.connection_metadata().is_some(), true);
175 });
176 // can't be finished, we haven't set the connection yet
177 assert_eq!(test_task.is_finished(), false);
178 tx.set(&Connected::new().proxy(true));
179
180 assert!(test_task.await.is_ok());
181 }
182
183 #[tokio::test]
184 async fn capture_connection_sender_side_dropped() {
185 let (tx, mut rx) = CaptureConnection::new();
186 assert!(
187 rx.connection_metadata().is_none(),
188 "connection has not been set"
189 );
190 drop(tx);
191 assert!(rx.wait_for_connection_metadata().await.is_none());
192 }
193}