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moq_lite/
client.rs

1use crate::{
2	ALPN_14, ALPN_15, ALPN_16, ALPN_17, ALPN_LITE, ALPN_LITE_03, Error, NEGOTIATED, OriginConsumer, OriginProducer,
3	Session, Version, Versions,
4	coding::{self, Decode, Encode, Stream},
5	ietf, lite, setup,
6};
7
8/// A MoQ client session builder.
9#[derive(Default, Clone)]
10pub struct Client {
11	publish: Option<OriginConsumer>,
12	consume: Option<OriginProducer>,
13	versions: Versions,
14}
15
16impl Client {
17	pub fn new() -> Self {
18		Default::default()
19	}
20
21	pub fn with_publish(mut self, publish: impl Into<Option<OriginConsumer>>) -> Self {
22		self.publish = publish.into();
23		self
24	}
25
26	pub fn with_consume(mut self, consume: impl Into<Option<OriginProducer>>) -> Self {
27		self.consume = consume.into();
28		self
29	}
30
31	/// Set both publish and consume from an `OriginProducer`.
32	///
33	/// This is equivalent to calling `with_publish(origin.consume())` and `with_consume(origin)`.
34	pub fn with_origin(self, origin: OriginProducer) -> Self {
35		let consumer = origin.consume();
36		self.with_publish(consumer).with_consume(origin)
37	}
38
39	pub fn with_versions(mut self, versions: Versions) -> Self {
40		self.versions = versions;
41		self
42	}
43
44	/// Perform the MoQ handshake as a client negotiating the version.
45	pub async fn connect<S: web_transport_trait::Session>(&self, session: S) -> Result<Session, Error> {
46		if self.publish.is_none() && self.consume.is_none() {
47			tracing::warn!("not publishing or consuming anything");
48		}
49
50		// If ALPN was used to negotiate the version, use the appropriate encoding.
51		// Default to IETF 14 if no ALPN was used and we'll negotiate the version later.
52		let (encoding, supported) = match session.protocol() {
53			Some(ALPN_17) => {
54				let v = self
55					.versions
56					.select(Version::Ietf(ietf::Version::Draft17))
57					.ok_or(Error::Version)?;
58
59				// Draft-17: SETUP is exchanged in the background by the session.
60				ietf::start(
61					session.clone(),
62					None,
63					None,
64					true,
65					self.publish.clone(),
66					self.consume.clone(),
67					ietf::Version::Draft17,
68				)?;
69
70				tracing::debug!(version = ?v, "connected");
71				return Ok(Session::new(session, v));
72			}
73			Some(ALPN_16) => {
74				let v = self
75					.versions
76					.select(Version::Ietf(ietf::Version::Draft16))
77					.ok_or(Error::Version)?;
78				(v, v.into())
79			}
80			Some(ALPN_15) => {
81				let v = self
82					.versions
83					.select(Version::Ietf(ietf::Version::Draft15))
84					.ok_or(Error::Version)?;
85				(v, v.into())
86			}
87			Some(ALPN_14) => {
88				let v = self
89					.versions
90					.select(Version::Ietf(ietf::Version::Draft14))
91					.ok_or(Error::Version)?;
92				(v, v.into())
93			}
94			Some(ALPN_LITE_03) => {
95				self.versions
96					.select(Version::Lite(lite::Version::Lite03))
97					.ok_or(Error::Version)?;
98
99				// Starting with draft-03, there's no more SETUP control stream.
100				lite::start(
101					session.clone(),
102					None,
103					self.publish.clone(),
104					self.consume.clone(),
105					lite::Version::Lite03,
106				)?;
107
108				return Ok(Session::new(session, lite::Version::Lite03.into()));
109			}
110			Some(ALPN_LITE) | None => {
111				let supported = self.versions.filter(&NEGOTIATED.into()).ok_or(Error::Version)?;
112				(Version::Ietf(ietf::Version::Draft14), supported)
113			}
114			Some(p) => return Err(Error::UnknownAlpn(p.to_string())),
115		};
116
117		let mut stream = Stream::open(&session, encoding).await?;
118
119		// The encoding is always an IETF version for SETUP negotiation.
120		let ietf_encoding = ietf::Version::try_from(encoding).map_err(|_| Error::Version)?;
121
122		let mut parameters = ietf::Parameters::default();
123		parameters.set_varint(ietf::ParameterVarInt::MaxRequestId, u32::MAX as u64);
124		parameters.set_bytes(ietf::ParameterBytes::Implementation, b"moq-lite-rs".to_vec());
125		let parameters = parameters.encode_bytes(ietf_encoding)?;
126
127		let client = setup::Client {
128			versions: supported.clone().into(),
129			parameters,
130		};
131
132		stream.writer.encode(&client).await?;
133
134		let mut server: setup::Server = stream.reader.decode().await?;
135
136		let version = supported
137			.iter()
138			.find(|v| coding::Version::from(**v) == server.version)
139			.copied()
140			.ok_or(Error::Version)?;
141
142		match version {
143			Version::Lite(v) => {
144				let stream = stream.with_version(v);
145				lite::start(
146					session.clone(),
147					Some(stream),
148					self.publish.clone(),
149					self.consume.clone(),
150					v,
151				)?;
152			}
153			Version::Ietf(v) => {
154				// Decode the parameters to get the initial request ID.
155				let parameters = ietf::Parameters::decode(&mut server.parameters, v)?;
156				let request_id_max = parameters
157					.get_varint(ietf::ParameterVarInt::MaxRequestId)
158					.map(ietf::RequestId);
159
160				let stream = stream.with_version(v);
161				ietf::start(
162					session.clone(),
163					Some(stream),
164					request_id_max,
165					true,
166					self.publish.clone(),
167					self.consume.clone(),
168					v,
169				)?;
170			}
171		}
172
173		Ok(Session::new(session, version))
174	}
175}
176
177#[cfg(test)]
178mod tests {
179	use super::*;
180	use std::{
181		collections::VecDeque,
182		sync::{Arc, Mutex},
183	};
184
185	use crate::coding::{Decode, Encode};
186	use bytes::{BufMut, Bytes};
187
188	#[derive(Debug, Clone, Default)]
189	struct FakeError;
190
191	impl std::fmt::Display for FakeError {
192		fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
193			write!(f, "fake transport error")
194		}
195	}
196
197	impl std::error::Error for FakeError {}
198
199	impl web_transport_trait::Error for FakeError {
200		fn session_error(&self) -> Option<(u32, String)> {
201			Some((0, "closed".to_string()))
202		}
203	}
204
205	#[derive(Clone, Default)]
206	struct FakeSession {
207		state: Arc<FakeSessionState>,
208	}
209
210	#[derive(Default)]
211	struct FakeSessionState {
212		protocol: Option<&'static str>,
213		control_stream: Mutex<Option<(FakeSendStream, FakeRecvStream)>>,
214		close_events: Mutex<Vec<(u32, String)>>,
215		close_notify: tokio::sync::Notify,
216		control_writes: Arc<Mutex<Vec<u8>>>,
217	}
218
219	impl FakeSession {
220		fn new(protocol: Option<&'static str>, server_control_bytes: Vec<u8>) -> Self {
221			let writes = Arc::new(Mutex::new(Vec::new()));
222			let send = FakeSendStream { writes: writes.clone() };
223			let recv = FakeRecvStream {
224				data: VecDeque::from(server_control_bytes),
225			};
226			let state = FakeSessionState {
227				protocol,
228				control_stream: Mutex::new(Some((send, recv))),
229				close_events: Mutex::new(Vec::new()),
230				close_notify: tokio::sync::Notify::new(),
231				control_writes: writes,
232			};
233			Self { state: Arc::new(state) }
234		}
235
236		fn control_writes(&self) -> Vec<u8> {
237			self.state.control_writes.lock().unwrap().clone()
238		}
239
240		async fn wait_for_first_close(&self) -> (u32, String) {
241			loop {
242				let notified = self.state.close_notify.notified();
243				if let Some(close) = self.state.close_events.lock().unwrap().first().cloned() {
244					return close;
245				}
246				notified.await;
247			}
248		}
249	}
250
251	impl web_transport_trait::Session for FakeSession {
252		type SendStream = FakeSendStream;
253		type RecvStream = FakeRecvStream;
254		type Error = FakeError;
255
256		async fn accept_uni(&self) -> Result<Self::RecvStream, Self::Error> {
257			std::future::pending().await
258		}
259
260		async fn accept_bi(&self) -> Result<(Self::SendStream, Self::RecvStream), Self::Error> {
261			std::future::pending().await
262		}
263
264		async fn open_bi(&self) -> Result<(Self::SendStream, Self::RecvStream), Self::Error> {
265			self.state.control_stream.lock().unwrap().take().ok_or(FakeError)
266		}
267
268		async fn open_uni(&self) -> Result<Self::SendStream, Self::Error> {
269			std::future::pending().await
270		}
271
272		fn send_datagram(&self, _payload: Bytes) -> Result<(), Self::Error> {
273			Ok(())
274		}
275
276		async fn recv_datagram(&self) -> Result<Bytes, Self::Error> {
277			std::future::pending().await
278		}
279
280		fn max_datagram_size(&self) -> usize {
281			1200
282		}
283
284		fn protocol(&self) -> Option<&str> {
285			self.state.protocol
286		}
287
288		fn close(&self, code: u32, reason: &str) {
289			self.state.close_events.lock().unwrap().push((code, reason.to_string()));
290			self.state.close_notify.notify_waiters();
291		}
292
293		async fn closed(&self) -> Self::Error {
294			self.state.close_notify.notified().await;
295			FakeError
296		}
297	}
298
299	#[derive(Clone, Default)]
300	struct FakeSendStream {
301		writes: Arc<Mutex<Vec<u8>>>,
302	}
303
304	impl web_transport_trait::SendStream for FakeSendStream {
305		type Error = FakeError;
306
307		async fn write(&mut self, buf: &[u8]) -> Result<usize, Self::Error> {
308			self.writes.lock().unwrap().put_slice(buf);
309			Ok(buf.len())
310		}
311
312		fn set_priority(&mut self, _order: u8) {}
313
314		fn finish(&mut self) -> Result<(), Self::Error> {
315			Ok(())
316		}
317
318		fn reset(&mut self, _code: u32) {}
319
320		async fn closed(&mut self) -> Result<(), Self::Error> {
321			Ok(())
322		}
323	}
324
325	struct FakeRecvStream {
326		data: VecDeque<u8>,
327	}
328
329	impl web_transport_trait::RecvStream for FakeRecvStream {
330		type Error = FakeError;
331
332		async fn read(&mut self, dst: &mut [u8]) -> Result<Option<usize>, Self::Error> {
333			if self.data.is_empty() {
334				return Ok(None);
335			}
336
337			let size = dst.len().min(self.data.len());
338			for slot in dst.iter_mut().take(size) {
339				*slot = self.data.pop_front().unwrap();
340			}
341			Ok(Some(size))
342		}
343
344		fn stop(&mut self, _code: u32) {}
345
346		async fn closed(&mut self) -> Result<(), Self::Error> {
347			Ok(())
348		}
349	}
350
351	fn mock_server_setup(negotiated: Version) -> Vec<u8> {
352		let mut encoded = Vec::new();
353		let server = setup::Server {
354			version: negotiated.into(),
355			parameters: Bytes::new(),
356		};
357		server
358			.encode(&mut encoded, Version::Ietf(ietf::Version::Draft14))
359			.unwrap();
360
361		// Add a setup-stream SessionInfo frame using the negotiated Lite version.
362		let info = lite::SessionInfo { bitrate: Some(1) };
363		let lite_v = lite::Version::try_from(negotiated).unwrap();
364		info.encode(&mut encoded, lite_v).unwrap();
365
366		encoded
367	}
368
369	async fn run_alpn_lite_fallback_case(protocol: Option<&'static str>) {
370		let fake = FakeSession::new(protocol, mock_server_setup(Version::Lite(lite::Version::Lite01)));
371		let client = Client::new().with_versions(
372			[
373				Version::Lite(lite::Version::Lite03),
374				Version::Lite(lite::Version::Lite02),
375				Version::Lite(lite::Version::Lite01),
376				Version::Ietf(ietf::Version::Draft14),
377			]
378			.into(),
379		);
380
381		let _session = client.connect(fake.clone()).await.unwrap();
382
383		// Verify the client setup was encoded using Draft14 framing (ALPN_LITE fallback path).
384		let mut setup_bytes = Bytes::from(fake.control_writes());
385		let setup = setup::Client::decode(&mut setup_bytes, Version::Ietf(ietf::Version::Draft14)).unwrap();
386		let advertised: Vec<Version> = setup.versions.iter().map(|v| Version::try_from(*v).unwrap()).collect();
387		assert_eq!(
388			advertised,
389			vec![
390				Version::Lite(lite::Version::Lite02),
391				Version::Lite(lite::Version::Lite01),
392				Version::Ietf(ietf::Version::Draft14),
393			]
394		);
395
396		// The first close comes from the background lite session task.
397		// Code 0 ("cancelled") means SessionInfo decoded successfully after set_version().
398		let (code, _) = fake.wait_for_first_close().await;
399		assert_eq!(code, Error::Cancel.to_code());
400	}
401
402	#[tokio::test(start_paused = true)]
403	async fn alpn_lite_falls_back_to_draft14_and_switches_version_post_setup() {
404		run_alpn_lite_fallback_case(Some(ALPN_LITE)).await;
405	}
406
407	#[tokio::test(start_paused = true)]
408	async fn no_alpn_falls_back_to_draft14_and_switches_version_post_setup() {
409		run_alpn_lite_fallback_case(None).await;
410	}
411}