1mod store;
2
3use crate::{
4 auth,
5 db::{self, ChannelId, MessageId, ProjectId, User, UserId},
6 AppState, Result,
7};
8use anyhow::anyhow;
9use async_tungstenite::tungstenite::{
10 protocol::CloseFrame as TungsteniteCloseFrame, Message as TungsteniteMessage,
11};
12use axum::{
13 body::Body,
14 extract::{
15 ws::{CloseFrame as AxumCloseFrame, Message as AxumMessage},
16 ConnectInfo, WebSocketUpgrade,
17 },
18 headers::{Header, HeaderName},
19 http::StatusCode,
20 middleware,
21 response::IntoResponse,
22 routing::get,
23 Extension, Router, TypedHeader,
24};
25use collections::{HashMap, HashSet};
26use futures::{
27 channel::{mpsc, oneshot},
28 future::{self, BoxFuture},
29 stream::FuturesUnordered,
30 FutureExt, SinkExt, StreamExt, TryStreamExt,
31};
32use lazy_static::lazy_static;
33use prometheus::{register_int_gauge, IntGauge};
34use rpc::{
35 proto::{self, AnyTypedEnvelope, EntityMessage, EnvelopedMessage, RequestMessage},
36 Connection, ConnectionId, Peer, Receipt, TypedEnvelope,
37};
38use serde::{Serialize, Serializer};
39use std::{
40 any::TypeId,
41 future::Future,
42 marker::PhantomData,
43 net::SocketAddr,
44 ops::{Deref, DerefMut},
45 os::unix::prelude::OsStrExt,
46 rc::Rc,
47 sync::{
48 atomic::{AtomicBool, Ordering::SeqCst},
49 Arc,
50 },
51 time::Duration,
52};
53pub use store::{Store, Worktree};
54use time::OffsetDateTime;
55use tokio::{
56 sync::{Mutex, MutexGuard},
57 time::Sleep,
58};
59use tower::ServiceBuilder;
60use tracing::{info_span, instrument, Instrument};
61
62lazy_static! {
63 static ref METRIC_CONNECTIONS: IntGauge =
64 register_int_gauge!("connections", "number of connections").unwrap();
65 static ref METRIC_REGISTERED_PROJECTS: IntGauge =
66 register_int_gauge!("registered_projects", "number of registered projects").unwrap();
67 static ref METRIC_ACTIVE_PROJECTS: IntGauge =
68 register_int_gauge!("active_projects", "number of active projects").unwrap();
69 static ref METRIC_SHARED_PROJECTS: IntGauge = register_int_gauge!(
70 "shared_projects",
71 "number of open projects with one or more guests"
72 )
73 .unwrap();
74}
75
76type MessageHandler =
77 Box<dyn Send + Sync + Fn(Arc<Server>, Box<dyn AnyTypedEnvelope>) -> BoxFuture<'static, ()>>;
78
79struct Response<R> {
80 server: Arc<Server>,
81 receipt: Receipt<R>,
82 responded: Arc<AtomicBool>,
83}
84
85impl<R: RequestMessage> Response<R> {
86 fn send(self, payload: R::Response) -> Result<()> {
87 self.responded.store(true, SeqCst);
88 self.server.peer.respond(self.receipt, payload)?;
89 Ok(())
90 }
91}
92
93pub struct Server {
94 peer: Arc<Peer>,
95 pub(crate) store: Mutex<Store>,
96 app_state: Arc<AppState>,
97 handlers: HashMap<TypeId, MessageHandler>,
98 notifications: Option<mpsc::UnboundedSender<()>>,
99}
100
101pub trait Executor: Send + Clone {
102 type Sleep: Send + Future;
103 fn spawn_detached<F: 'static + Send + Future<Output = ()>>(&self, future: F);
104 fn sleep(&self, duration: Duration) -> Self::Sleep;
105}
106
107#[derive(Clone)]
108pub struct RealExecutor;
109
110const MESSAGE_COUNT_PER_PAGE: usize = 100;
111const MAX_MESSAGE_LEN: usize = 1024;
112
113pub(crate) struct StoreGuard<'a> {
114 guard: MutexGuard<'a, Store>,
115 _not_send: PhantomData<Rc<()>>,
116}
117
118#[derive(Serialize)]
119pub struct ServerSnapshot<'a> {
120 peer: &'a Peer,
121 #[serde(serialize_with = "serialize_deref")]
122 store: StoreGuard<'a>,
123}
124
125pub fn serialize_deref<S, T, U>(value: &T, serializer: S) -> Result<S::Ok, S::Error>
126where
127 S: Serializer,
128 T: Deref<Target = U>,
129 U: Serialize,
130{
131 Serialize::serialize(value.deref(), serializer)
132}
133
134impl Server {
135 pub fn new(
136 app_state: Arc<AppState>,
137 notifications: Option<mpsc::UnboundedSender<()>>,
138 ) -> Arc<Self> {
139 let mut server = Self {
140 peer: Peer::new(),
141 app_state,
142 store: Default::default(),
143 handlers: Default::default(),
144 notifications,
145 };
146
147 server
148 .add_request_handler(Server::ping)
149 .add_request_handler(Server::create_room)
150 .add_request_handler(Server::join_room)
151 .add_message_handler(Server::leave_room)
152 .add_request_handler(Server::call)
153 .add_request_handler(Server::cancel_call)
154 .add_message_handler(Server::decline_call)
155 .add_request_handler(Server::update_participant_location)
156 .add_request_handler(Server::share_project)
157 .add_message_handler(Server::unshare_project)
158 .add_request_handler(Server::join_project)
159 .add_message_handler(Server::leave_project)
160 .add_message_handler(Server::update_project)
161 .add_message_handler(Server::register_project_activity)
162 .add_request_handler(Server::update_worktree)
163 .add_message_handler(Server::update_worktree_extensions)
164 .add_message_handler(Server::start_language_server)
165 .add_message_handler(Server::update_language_server)
166 .add_message_handler(Server::update_diagnostic_summary)
167 .add_request_handler(Server::forward_project_request::<proto::GetHover>)
168 .add_request_handler(Server::forward_project_request::<proto::GetDefinition>)
169 .add_request_handler(Server::forward_project_request::<proto::GetTypeDefinition>)
170 .add_request_handler(Server::forward_project_request::<proto::GetReferences>)
171 .add_request_handler(Server::forward_project_request::<proto::SearchProject>)
172 .add_request_handler(Server::forward_project_request::<proto::GetDocumentHighlights>)
173 .add_request_handler(Server::forward_project_request::<proto::GetProjectSymbols>)
174 .add_request_handler(Server::forward_project_request::<proto::OpenBufferForSymbol>)
175 .add_request_handler(Server::forward_project_request::<proto::OpenBufferById>)
176 .add_request_handler(Server::forward_project_request::<proto::OpenBufferByPath>)
177 .add_request_handler(Server::forward_project_request::<proto::GetCompletions>)
178 .add_request_handler(
179 Server::forward_project_request::<proto::ApplyCompletionAdditionalEdits>,
180 )
181 .add_request_handler(Server::forward_project_request::<proto::GetCodeActions>)
182 .add_request_handler(Server::forward_project_request::<proto::ApplyCodeAction>)
183 .add_request_handler(Server::forward_project_request::<proto::PrepareRename>)
184 .add_request_handler(Server::forward_project_request::<proto::PerformRename>)
185 .add_request_handler(Server::forward_project_request::<proto::ReloadBuffers>)
186 .add_request_handler(Server::forward_project_request::<proto::FormatBuffers>)
187 .add_request_handler(Server::forward_project_request::<proto::CreateProjectEntry>)
188 .add_request_handler(Server::forward_project_request::<proto::RenameProjectEntry>)
189 .add_request_handler(Server::forward_project_request::<proto::CopyProjectEntry>)
190 .add_request_handler(Server::forward_project_request::<proto::DeleteProjectEntry>)
191 .add_message_handler(Server::create_buffer_for_peer)
192 .add_request_handler(Server::update_buffer)
193 .add_message_handler(Server::update_buffer_file)
194 .add_message_handler(Server::buffer_reloaded)
195 .add_message_handler(Server::buffer_saved)
196 .add_request_handler(Server::save_buffer)
197 .add_request_handler(Server::get_channels)
198 .add_request_handler(Server::get_users)
199 .add_request_handler(Server::fuzzy_search_users)
200 .add_request_handler(Server::request_contact)
201 .add_request_handler(Server::remove_contact)
202 .add_request_handler(Server::respond_to_contact_request)
203 .add_request_handler(Server::join_channel)
204 .add_message_handler(Server::leave_channel)
205 .add_request_handler(Server::send_channel_message)
206 .add_request_handler(Server::follow)
207 .add_message_handler(Server::unfollow)
208 .add_message_handler(Server::update_followers)
209 .add_request_handler(Server::get_channel_messages)
210 .add_message_handler(Server::update_diff_base)
211 .add_request_handler(Server::get_private_user_info);
212
213 Arc::new(server)
214 }
215
216 fn add_message_handler<F, Fut, M>(&mut self, handler: F) -> &mut Self
217 where
218 F: 'static + Send + Sync + Fn(Arc<Self>, TypedEnvelope<M>) -> Fut,
219 Fut: 'static + Send + Future<Output = Result<()>>,
220 M: EnvelopedMessage,
221 {
222 let prev_handler = self.handlers.insert(
223 TypeId::of::<M>(),
224 Box::new(move |server, envelope| {
225 let envelope = envelope.into_any().downcast::<TypedEnvelope<M>>().unwrap();
226 let span = info_span!(
227 "handle message",
228 payload_type = envelope.payload_type_name()
229 );
230 span.in_scope(|| {
231 tracing::info!(
232 payload_type = envelope.payload_type_name(),
233 "message received"
234 );
235 });
236 let future = (handler)(server, *envelope);
237 async move {
238 if let Err(error) = future.await {
239 tracing::error!(%error, "error handling message");
240 }
241 }
242 .instrument(span)
243 .boxed()
244 }),
245 );
246 if prev_handler.is_some() {
247 panic!("registered a handler for the same message twice");
248 }
249 self
250 }
251
252 /// Handle a request while holding a lock to the store. This is useful when we're registering
253 /// a connection but we want to respond on the connection before anybody else can send on it.
254 fn add_request_handler<F, Fut, M>(&mut self, handler: F) -> &mut Self
255 where
256 F: 'static + Send + Sync + Fn(Arc<Self>, TypedEnvelope<M>, Response<M>) -> Fut,
257 Fut: Send + Future<Output = Result<()>>,
258 M: RequestMessage,
259 {
260 let handler = Arc::new(handler);
261 self.add_message_handler(move |server, envelope| {
262 let receipt = envelope.receipt();
263 let handler = handler.clone();
264 async move {
265 let responded = Arc::new(AtomicBool::default());
266 let response = Response {
267 server: server.clone(),
268 responded: responded.clone(),
269 receipt: envelope.receipt(),
270 };
271 match (handler)(server.clone(), envelope, response).await {
272 Ok(()) => {
273 if responded.load(std::sync::atomic::Ordering::SeqCst) {
274 Ok(())
275 } else {
276 Err(anyhow!("handler did not send a response"))?
277 }
278 }
279 Err(error) => {
280 server.peer.respond_with_error(
281 receipt,
282 proto::Error {
283 message: error.to_string(),
284 },
285 )?;
286 Err(error)
287 }
288 }
289 }
290 })
291 }
292
293 /// Start a long lived task that records which users are active in which projects.
294 pub fn start_recording_project_activity<E: 'static + Executor>(
295 self: &Arc<Self>,
296 interval: Duration,
297 executor: E,
298 ) {
299 executor.spawn_detached({
300 let this = Arc::downgrade(self);
301 let executor = executor.clone();
302 async move {
303 let mut period_start = OffsetDateTime::now_utc();
304 let mut active_projects = Vec::<(UserId, ProjectId)>::new();
305 loop {
306 let sleep = executor.sleep(interval);
307 sleep.await;
308 let this = if let Some(this) = this.upgrade() {
309 this
310 } else {
311 break;
312 };
313
314 active_projects.clear();
315 active_projects.extend(this.store().await.projects().flat_map(
316 |(project_id, project)| {
317 project.guests.values().chain([&project.host]).filter_map(
318 |collaborator| {
319 if !collaborator.admin
320 && collaborator
321 .last_activity
322 .map_or(false, |activity| activity > period_start)
323 {
324 Some((collaborator.user_id, *project_id))
325 } else {
326 None
327 }
328 },
329 )
330 },
331 ));
332
333 let period_end = OffsetDateTime::now_utc();
334 this.app_state
335 .db
336 .record_user_activity(period_start..period_end, &active_projects)
337 .await
338 .trace_err();
339 period_start = period_end;
340 }
341 }
342 });
343 }
344
345 pub fn handle_connection<E: Executor>(
346 self: &Arc<Self>,
347 connection: Connection,
348 address: String,
349 user: User,
350 mut send_connection_id: Option<oneshot::Sender<ConnectionId>>,
351 executor: E,
352 ) -> impl Future<Output = Result<()>> {
353 let mut this = self.clone();
354 let user_id = user.id;
355 let login = user.github_login;
356 let span = info_span!("handle connection", %user_id, %login, %address);
357 async move {
358 let (connection_id, handle_io, mut incoming_rx) = this
359 .peer
360 .add_connection(connection, {
361 let executor = executor.clone();
362 move |duration| {
363 let timer = executor.sleep(duration);
364 async move {
365 timer.await;
366 }
367 }
368 });
369
370 tracing::info!(%user_id, %login, %connection_id, %address, "connection opened");
371 this.peer.send(connection_id, proto::Hello { peer_id: connection_id.0 })?;
372 tracing::info!(%user_id, %login, %connection_id, %address, "sent hello message");
373
374 if let Some(send_connection_id) = send_connection_id.take() {
375 let _ = send_connection_id.send(connection_id);
376 }
377
378 if !user.connected_once {
379 this.peer.send(connection_id, proto::ShowContacts {})?;
380 this.app_state.db.set_user_connected_once(user_id, true).await?;
381 }
382
383 let (contacts, invite_code) = future::try_join(
384 this.app_state.db.get_contacts(user_id),
385 this.app_state.db.get_invite_code_for_user(user_id)
386 ).await?;
387
388 {
389 let mut store = this.store().await;
390 let incoming_call = store.add_connection(connection_id, user_id, user.admin);
391 if let Some(incoming_call) = incoming_call {
392 this.peer.send(connection_id, incoming_call)?;
393 }
394
395 this.peer.send(connection_id, store.build_initial_contacts_update(contacts))?;
396
397 if let Some((code, count)) = invite_code {
398 this.peer.send(connection_id, proto::UpdateInviteInfo {
399 url: format!("{}{}", this.app_state.config.invite_link_prefix, code),
400 count,
401 })?;
402 }
403 }
404 this.update_user_contacts(user_id).await?;
405
406 let handle_io = handle_io.fuse();
407 futures::pin_mut!(handle_io);
408
409 // Handlers for foreground messages are pushed into the following `FuturesUnordered`.
410 // This prevents deadlocks when e.g., client A performs a request to client B and
411 // client B performs a request to client A. If both clients stop processing further
412 // messages until their respective request completes, they won't have a chance to
413 // respond to the other client's request and cause a deadlock.
414 //
415 // This arrangement ensures we will attempt to process earlier messages first, but fall
416 // back to processing messages arrived later in the spirit of making progress.
417 let mut foreground_message_handlers = FuturesUnordered::new();
418 loop {
419 let next_message = incoming_rx.next().fuse();
420 futures::pin_mut!(next_message);
421 futures::select_biased! {
422 result = handle_io => {
423 if let Err(error) = result {
424 tracing::error!(?error, %user_id, %login, %connection_id, %address, "error handling I/O");
425 }
426 break;
427 }
428 _ = foreground_message_handlers.next() => {}
429 message = next_message => {
430 if let Some(message) = message {
431 let type_name = message.payload_type_name();
432 let span = tracing::info_span!("receive message", %user_id, %login, %connection_id, %address, type_name);
433 let span_enter = span.enter();
434 if let Some(handler) = this.handlers.get(&message.payload_type_id()) {
435 let notifications = this.notifications.clone();
436 let is_background = message.is_background();
437 let handle_message = (handler)(this.clone(), message);
438
439 drop(span_enter);
440 let handle_message = async move {
441 handle_message.await;
442 if let Some(mut notifications) = notifications {
443 let _ = notifications.send(()).await;
444 }
445 }.instrument(span);
446
447 if is_background {
448 executor.spawn_detached(handle_message);
449 } else {
450 foreground_message_handlers.push(handle_message);
451 }
452 } else {
453 tracing::error!(%user_id, %login, %connection_id, %address, "no message handler");
454 }
455 } else {
456 tracing::info!(%user_id, %login, %connection_id, %address, "connection closed");
457 break;
458 }
459 }
460 }
461 }
462
463 drop(foreground_message_handlers);
464 tracing::info!(%user_id, %login, %connection_id, %address, "signing out");
465 if let Err(error) = this.sign_out(connection_id).await {
466 tracing::error!(%user_id, %login, %connection_id, %address, ?error, "error signing out");
467 }
468
469 Ok(())
470 }.instrument(span)
471 }
472
473 #[instrument(skip(self), err)]
474 async fn sign_out(self: &mut Arc<Self>, connection_id: ConnectionId) -> Result<()> {
475 self.peer.disconnect(connection_id);
476
477 let mut projects_to_unshare = Vec::new();
478 let mut contacts_to_update = HashSet::default();
479 let mut room_left = None;
480 {
481 let mut store = self.store().await;
482
483 #[cfg(test)]
484 let removed_connection = store.remove_connection(connection_id).unwrap();
485 #[cfg(not(test))]
486 let removed_connection = store.remove_connection(connection_id)?;
487
488 for project in removed_connection.hosted_projects {
489 projects_to_unshare.push(project.id);
490 broadcast(connection_id, project.guests.keys().copied(), |conn_id| {
491 self.peer.send(
492 conn_id,
493 proto::UnshareProject {
494 project_id: project.id.to_proto(),
495 },
496 )
497 });
498 }
499
500 for project in removed_connection.guest_projects {
501 broadcast(connection_id, project.connection_ids, |conn_id| {
502 self.peer.send(
503 conn_id,
504 proto::RemoveProjectCollaborator {
505 project_id: project.id.to_proto(),
506 peer_id: connection_id.0,
507 },
508 )
509 });
510 }
511
512 if let Some(room) = removed_connection.room {
513 self.room_updated(&room);
514 room_left = Some(self.room_left(&room, connection_id));
515 }
516
517 contacts_to_update.insert(removed_connection.user_id);
518 for connection_id in removed_connection.canceled_call_connection_ids {
519 self.peer
520 .send(connection_id, proto::CallCanceled {})
521 .trace_err();
522 contacts_to_update.extend(store.user_id_for_connection(connection_id).ok());
523 }
524 };
525
526 if let Some(room_left) = room_left {
527 room_left.await.trace_err();
528 }
529
530 for user_id in contacts_to_update {
531 self.update_user_contacts(user_id).await.trace_err();
532 }
533
534 for project_id in projects_to_unshare {
535 self.app_state
536 .db
537 .unregister_project(project_id)
538 .await
539 .trace_err();
540 }
541
542 Ok(())
543 }
544
545 pub async fn invite_code_redeemed(
546 self: &Arc<Self>,
547 inviter_id: UserId,
548 invitee_id: UserId,
549 ) -> Result<()> {
550 if let Some(user) = self.app_state.db.get_user_by_id(inviter_id).await? {
551 if let Some(code) = &user.invite_code {
552 let store = self.store().await;
553 let invitee_contact = store.contact_for_user(invitee_id, true);
554 for connection_id in store.connection_ids_for_user(inviter_id) {
555 self.peer.send(
556 connection_id,
557 proto::UpdateContacts {
558 contacts: vec![invitee_contact.clone()],
559 ..Default::default()
560 },
561 )?;
562 self.peer.send(
563 connection_id,
564 proto::UpdateInviteInfo {
565 url: format!("{}{}", self.app_state.config.invite_link_prefix, &code),
566 count: user.invite_count as u32,
567 },
568 )?;
569 }
570 }
571 }
572 Ok(())
573 }
574
575 pub async fn invite_count_updated(self: &Arc<Self>, user_id: UserId) -> Result<()> {
576 if let Some(user) = self.app_state.db.get_user_by_id(user_id).await? {
577 if let Some(invite_code) = &user.invite_code {
578 let store = self.store().await;
579 for connection_id in store.connection_ids_for_user(user_id) {
580 self.peer.send(
581 connection_id,
582 proto::UpdateInviteInfo {
583 url: format!(
584 "{}{}",
585 self.app_state.config.invite_link_prefix, invite_code
586 ),
587 count: user.invite_count as u32,
588 },
589 )?;
590 }
591 }
592 }
593 Ok(())
594 }
595
596 async fn ping(
597 self: Arc<Server>,
598 _: TypedEnvelope<proto::Ping>,
599 response: Response<proto::Ping>,
600 ) -> Result<()> {
601 response.send(proto::Ack {})?;
602 Ok(())
603 }
604
605 async fn create_room(
606 self: Arc<Server>,
607 request: TypedEnvelope<proto::CreateRoom>,
608 response: Response<proto::CreateRoom>,
609 ) -> Result<()> {
610 let user_id;
611 let room;
612 {
613 let mut store = self.store().await;
614 user_id = store.user_id_for_connection(request.sender_id)?;
615 room = store.create_room(request.sender_id)?.clone();
616 }
617
618 let live_kit_connection_info =
619 if let Some(live_kit) = self.app_state.live_kit_client.as_ref() {
620 if let Some(_) = live_kit
621 .create_room(room.live_kit_room.clone())
622 .await
623 .trace_err()
624 {
625 if let Some(token) = live_kit
626 .room_token(&room.live_kit_room, &request.sender_id.to_string())
627 .trace_err()
628 {
629 Some(proto::LiveKitConnectionInfo {
630 server_url: live_kit.url().into(),
631 token,
632 })
633 } else {
634 None
635 }
636 } else {
637 None
638 }
639 } else {
640 None
641 };
642
643 response.send(proto::CreateRoomResponse {
644 room: Some(room),
645 live_kit_connection_info,
646 })?;
647 self.update_user_contacts(user_id).await?;
648 Ok(())
649 }
650
651 async fn join_room(
652 self: Arc<Server>,
653 request: TypedEnvelope<proto::JoinRoom>,
654 response: Response<proto::JoinRoom>,
655 ) -> Result<()> {
656 let user_id;
657 {
658 let mut store = self.store().await;
659 user_id = store.user_id_for_connection(request.sender_id)?;
660 let (room, recipient_connection_ids) =
661 store.join_room(request.payload.id, request.sender_id)?;
662 for recipient_id in recipient_connection_ids {
663 self.peer
664 .send(recipient_id, proto::CallCanceled {})
665 .trace_err();
666 }
667
668 let live_kit_connection_info =
669 if let Some(live_kit) = self.app_state.live_kit_client.as_ref() {
670 if let Some(token) = live_kit
671 .room_token(&room.live_kit_room, &request.sender_id.to_string())
672 .trace_err()
673 {
674 Some(proto::LiveKitConnectionInfo {
675 server_url: live_kit.url().into(),
676 token,
677 })
678 } else {
679 None
680 }
681 } else {
682 None
683 };
684
685 response.send(proto::JoinRoomResponse {
686 room: Some(room.clone()),
687 live_kit_connection_info,
688 })?;
689 self.room_updated(room);
690 }
691 self.update_user_contacts(user_id).await?;
692 Ok(())
693 }
694
695 async fn leave_room(self: Arc<Server>, message: TypedEnvelope<proto::LeaveRoom>) -> Result<()> {
696 let mut contacts_to_update = HashSet::default();
697 let room_left;
698 {
699 let mut store = self.store().await;
700 let user_id = store.user_id_for_connection(message.sender_id)?;
701 let left_room = store.leave_room(message.payload.id, message.sender_id)?;
702 contacts_to_update.insert(user_id);
703
704 for project in left_room.unshared_projects {
705 for connection_id in project.connection_ids() {
706 self.peer.send(
707 connection_id,
708 proto::UnshareProject {
709 project_id: project.id.to_proto(),
710 },
711 )?;
712 }
713 }
714
715 for project in left_room.left_projects {
716 if project.remove_collaborator {
717 for connection_id in project.connection_ids {
718 self.peer.send(
719 connection_id,
720 proto::RemoveProjectCollaborator {
721 project_id: project.id.to_proto(),
722 peer_id: message.sender_id.0,
723 },
724 )?;
725 }
726
727 self.peer.send(
728 message.sender_id,
729 proto::UnshareProject {
730 project_id: project.id.to_proto(),
731 },
732 )?;
733 }
734 }
735
736 self.room_updated(&left_room.room);
737 room_left = self.room_left(&left_room.room, message.sender_id);
738
739 for connection_id in left_room.canceled_call_connection_ids {
740 self.peer
741 .send(connection_id, proto::CallCanceled {})
742 .trace_err();
743 contacts_to_update.extend(store.user_id_for_connection(connection_id).ok());
744 }
745 }
746
747 room_left.await.trace_err();
748 for user_id in contacts_to_update {
749 self.update_user_contacts(user_id).await?;
750 }
751
752 Ok(())
753 }
754
755 async fn call(
756 self: Arc<Server>,
757 request: TypedEnvelope<proto::Call>,
758 response: Response<proto::Call>,
759 ) -> Result<()> {
760 let caller_user_id = self
761 .store()
762 .await
763 .user_id_for_connection(request.sender_id)?;
764 let recipient_user_id = UserId::from_proto(request.payload.recipient_user_id);
765 let initial_project_id = request
766 .payload
767 .initial_project_id
768 .map(ProjectId::from_proto);
769 if !self
770 .app_state
771 .db
772 .has_contact(caller_user_id, recipient_user_id)
773 .await?
774 {
775 return Err(anyhow!("cannot call a user who isn't a contact"))?;
776 }
777
778 let room_id = request.payload.room_id;
779 let mut calls = {
780 let mut store = self.store().await;
781 let (room, recipient_connection_ids, incoming_call) = store.call(
782 room_id,
783 recipient_user_id,
784 initial_project_id,
785 request.sender_id,
786 )?;
787 self.room_updated(room);
788 recipient_connection_ids
789 .into_iter()
790 .map(|recipient_connection_id| {
791 self.peer
792 .request(recipient_connection_id, incoming_call.clone())
793 })
794 .collect::<FuturesUnordered<_>>()
795 };
796 self.update_user_contacts(recipient_user_id).await?;
797
798 while let Some(call_response) = calls.next().await {
799 match call_response.as_ref() {
800 Ok(_) => {
801 response.send(proto::Ack {})?;
802 return Ok(());
803 }
804 Err(_) => {
805 call_response.trace_err();
806 }
807 }
808 }
809
810 {
811 let mut store = self.store().await;
812 let room = store.call_failed(room_id, recipient_user_id)?;
813 self.room_updated(&room);
814 }
815 self.update_user_contacts(recipient_user_id).await?;
816
817 Err(anyhow!("failed to ring call recipient"))?
818 }
819
820 async fn cancel_call(
821 self: Arc<Server>,
822 request: TypedEnvelope<proto::CancelCall>,
823 response: Response<proto::CancelCall>,
824 ) -> Result<()> {
825 let recipient_user_id = UserId::from_proto(request.payload.recipient_user_id);
826 {
827 let mut store = self.store().await;
828 let (room, recipient_connection_ids) = store.cancel_call(
829 request.payload.room_id,
830 recipient_user_id,
831 request.sender_id,
832 )?;
833 for recipient_id in recipient_connection_ids {
834 self.peer
835 .send(recipient_id, proto::CallCanceled {})
836 .trace_err();
837 }
838 self.room_updated(room);
839 response.send(proto::Ack {})?;
840 }
841 self.update_user_contacts(recipient_user_id).await?;
842 Ok(())
843 }
844
845 async fn decline_call(
846 self: Arc<Server>,
847 message: TypedEnvelope<proto::DeclineCall>,
848 ) -> Result<()> {
849 let recipient_user_id;
850 {
851 let mut store = self.store().await;
852 recipient_user_id = store.user_id_for_connection(message.sender_id)?;
853 let (room, recipient_connection_ids) =
854 store.decline_call(message.payload.room_id, message.sender_id)?;
855 for recipient_id in recipient_connection_ids {
856 self.peer
857 .send(recipient_id, proto::CallCanceled {})
858 .trace_err();
859 }
860 self.room_updated(room);
861 }
862 self.update_user_contacts(recipient_user_id).await?;
863 Ok(())
864 }
865
866 async fn update_participant_location(
867 self: Arc<Server>,
868 request: TypedEnvelope<proto::UpdateParticipantLocation>,
869 response: Response<proto::UpdateParticipantLocation>,
870 ) -> Result<()> {
871 let room_id = request.payload.room_id;
872 let location = request
873 .payload
874 .location
875 .ok_or_else(|| anyhow!("invalid location"))?;
876 let mut store = self.store().await;
877 let room = store.update_participant_location(room_id, location, request.sender_id)?;
878 self.room_updated(room);
879 response.send(proto::Ack {})?;
880 Ok(())
881 }
882
883 fn room_updated(&self, room: &proto::Room) {
884 for participant in &room.participants {
885 self.peer
886 .send(
887 ConnectionId(participant.peer_id),
888 proto::RoomUpdated {
889 room: Some(room.clone()),
890 },
891 )
892 .trace_err();
893 }
894 }
895
896 fn room_left(
897 &self,
898 room: &proto::Room,
899 connection_id: ConnectionId,
900 ) -> impl Future<Output = Result<()>> {
901 let client = self.app_state.live_kit_client.clone();
902 let room_name = room.live_kit_room.clone();
903 let participant_count = room.participants.len();
904 async move {
905 if let Some(client) = client {
906 client
907 .remove_participant(room_name.clone(), connection_id.to_string())
908 .await?;
909
910 if participant_count == 0 {
911 client.delete_room(room_name).await?;
912 }
913 }
914
915 Ok(())
916 }
917 }
918
919 async fn share_project(
920 self: Arc<Server>,
921 request: TypedEnvelope<proto::ShareProject>,
922 response: Response<proto::ShareProject>,
923 ) -> Result<()> {
924 let user_id = self
925 .store()
926 .await
927 .user_id_for_connection(request.sender_id)?;
928 let project_id = self.app_state.db.register_project(user_id).await?;
929 let mut store = self.store().await;
930 let room = store.share_project(
931 request.payload.room_id,
932 project_id,
933 request.payload.worktrees,
934 request.sender_id,
935 )?;
936 response.send(proto::ShareProjectResponse {
937 project_id: project_id.to_proto(),
938 })?;
939 self.room_updated(room);
940
941 Ok(())
942 }
943
944 async fn unshare_project(
945 self: Arc<Server>,
946 message: TypedEnvelope<proto::UnshareProject>,
947 ) -> Result<()> {
948 let project_id = ProjectId::from_proto(message.payload.project_id);
949 let mut store = self.store().await;
950 let (room, project) = store.unshare_project(project_id, message.sender_id)?;
951 broadcast(
952 message.sender_id,
953 project.guest_connection_ids(),
954 |conn_id| self.peer.send(conn_id, message.payload.clone()),
955 );
956 self.room_updated(room);
957
958 Ok(())
959 }
960
961 async fn update_user_contacts(self: &Arc<Server>, user_id: UserId) -> Result<()> {
962 let contacts = self.app_state.db.get_contacts(user_id).await?;
963 let store = self.store().await;
964 let updated_contact = store.contact_for_user(user_id, false);
965 for contact in contacts {
966 if let db::Contact::Accepted {
967 user_id: contact_user_id,
968 ..
969 } = contact
970 {
971 for contact_conn_id in store.connection_ids_for_user(contact_user_id) {
972 self.peer
973 .send(
974 contact_conn_id,
975 proto::UpdateContacts {
976 contacts: vec![updated_contact.clone()],
977 remove_contacts: Default::default(),
978 incoming_requests: Default::default(),
979 remove_incoming_requests: Default::default(),
980 outgoing_requests: Default::default(),
981 remove_outgoing_requests: Default::default(),
982 },
983 )
984 .trace_err();
985 }
986 }
987 }
988 Ok(())
989 }
990
991 async fn join_project(
992 self: Arc<Server>,
993 request: TypedEnvelope<proto::JoinProject>,
994 response: Response<proto::JoinProject>,
995 ) -> Result<()> {
996 let project_id = ProjectId::from_proto(request.payload.project_id);
997
998 let host_user_id;
999 let guest_user_id;
1000 let host_connection_id;
1001 {
1002 let state = self.store().await;
1003 let project = state.project(project_id)?;
1004 host_user_id = project.host.user_id;
1005 host_connection_id = project.host_connection_id;
1006 guest_user_id = state.user_id_for_connection(request.sender_id)?;
1007 };
1008
1009 tracing::info!(%project_id, %host_user_id, %host_connection_id, "join project");
1010
1011 let mut store = self.store().await;
1012 let (project, replica_id) = store.join_project(request.sender_id, project_id)?;
1013 let peer_count = project.guests.len();
1014 let mut collaborators = Vec::with_capacity(peer_count);
1015 collaborators.push(proto::Collaborator {
1016 peer_id: project.host_connection_id.0,
1017 replica_id: 0,
1018 user_id: project.host.user_id.to_proto(),
1019 });
1020 let worktrees = project
1021 .worktrees
1022 .iter()
1023 .map(|(id, worktree)| proto::WorktreeMetadata {
1024 id: *id,
1025 root_name: worktree.root_name.clone(),
1026 visible: worktree.visible,
1027 abs_path: worktree.abs_path.as_os_str().as_bytes().to_vec(),
1028 })
1029 .collect::<Vec<_>>();
1030
1031 // Add all guests other than the requesting user's own connections as collaborators
1032 for (guest_conn_id, guest) in &project.guests {
1033 if request.sender_id != *guest_conn_id {
1034 collaborators.push(proto::Collaborator {
1035 peer_id: guest_conn_id.0,
1036 replica_id: guest.replica_id as u32,
1037 user_id: guest.user_id.to_proto(),
1038 });
1039 }
1040 }
1041
1042 for conn_id in project.connection_ids() {
1043 if conn_id != request.sender_id {
1044 self.peer.send(
1045 conn_id,
1046 proto::AddProjectCollaborator {
1047 project_id: project_id.to_proto(),
1048 collaborator: Some(proto::Collaborator {
1049 peer_id: request.sender_id.0,
1050 replica_id: replica_id as u32,
1051 user_id: guest_user_id.to_proto(),
1052 }),
1053 },
1054 )?;
1055 }
1056 }
1057
1058 // First, we send the metadata associated with each worktree.
1059 response.send(proto::JoinProjectResponse {
1060 worktrees: worktrees.clone(),
1061 replica_id: replica_id as u32,
1062 collaborators: collaborators.clone(),
1063 language_servers: project.language_servers.clone(),
1064 })?;
1065
1066 for (worktree_id, worktree) in &project.worktrees {
1067 #[cfg(any(test, feature = "test-support"))]
1068 const MAX_CHUNK_SIZE: usize = 2;
1069 #[cfg(not(any(test, feature = "test-support")))]
1070 const MAX_CHUNK_SIZE: usize = 256;
1071
1072 // Stream this worktree's entries.
1073 let message = proto::UpdateWorktree {
1074 project_id: project_id.to_proto(),
1075 worktree_id: *worktree_id,
1076 abs_path: worktree.abs_path.as_os_str().as_bytes().to_vec(),
1077 root_name: worktree.root_name.clone(),
1078 updated_entries: worktree.entries.values().cloned().collect(),
1079 removed_entries: Default::default(),
1080 scan_id: worktree.scan_id,
1081 is_last_update: worktree.is_complete,
1082 };
1083 for update in proto::split_worktree_update(message, MAX_CHUNK_SIZE) {
1084 self.peer.send(request.sender_id, update.clone())?;
1085 }
1086
1087 // Stream this worktree's diagnostics.
1088 for summary in worktree.diagnostic_summaries.values() {
1089 self.peer.send(
1090 request.sender_id,
1091 proto::UpdateDiagnosticSummary {
1092 project_id: project_id.to_proto(),
1093 worktree_id: *worktree_id,
1094 summary: Some(summary.clone()),
1095 },
1096 )?;
1097 }
1098 }
1099
1100 for language_server in &project.language_servers {
1101 self.peer.send(
1102 request.sender_id,
1103 proto::UpdateLanguageServer {
1104 project_id: project_id.to_proto(),
1105 language_server_id: language_server.id,
1106 variant: Some(
1107 proto::update_language_server::Variant::DiskBasedDiagnosticsUpdated(
1108 proto::LspDiskBasedDiagnosticsUpdated {},
1109 ),
1110 ),
1111 },
1112 )?;
1113 }
1114
1115 Ok(())
1116 }
1117
1118 async fn leave_project(
1119 self: Arc<Server>,
1120 request: TypedEnvelope<proto::LeaveProject>,
1121 ) -> Result<()> {
1122 let sender_id = request.sender_id;
1123 let project_id = ProjectId::from_proto(request.payload.project_id);
1124 let project;
1125 {
1126 let mut store = self.store().await;
1127 project = store.leave_project(project_id, sender_id)?;
1128 tracing::info!(
1129 %project_id,
1130 host_user_id = %project.host_user_id,
1131 host_connection_id = %project.host_connection_id,
1132 "leave project"
1133 );
1134
1135 if project.remove_collaborator {
1136 broadcast(sender_id, project.connection_ids, |conn_id| {
1137 self.peer.send(
1138 conn_id,
1139 proto::RemoveProjectCollaborator {
1140 project_id: project_id.to_proto(),
1141 peer_id: sender_id.0,
1142 },
1143 )
1144 });
1145 }
1146 }
1147
1148 Ok(())
1149 }
1150
1151 async fn update_project(
1152 self: Arc<Server>,
1153 request: TypedEnvelope<proto::UpdateProject>,
1154 ) -> Result<()> {
1155 let project_id = ProjectId::from_proto(request.payload.project_id);
1156 {
1157 let mut state = self.store().await;
1158 let guest_connection_ids = state
1159 .read_project(project_id, request.sender_id)?
1160 .guest_connection_ids();
1161 let room =
1162 state.update_project(project_id, &request.payload.worktrees, request.sender_id)?;
1163 broadcast(request.sender_id, guest_connection_ids, |connection_id| {
1164 self.peer
1165 .forward_send(request.sender_id, connection_id, request.payload.clone())
1166 });
1167 self.room_updated(room);
1168 };
1169
1170 Ok(())
1171 }
1172
1173 async fn register_project_activity(
1174 self: Arc<Server>,
1175 request: TypedEnvelope<proto::RegisterProjectActivity>,
1176 ) -> Result<()> {
1177 self.store().await.register_project_activity(
1178 ProjectId::from_proto(request.payload.project_id),
1179 request.sender_id,
1180 )?;
1181 Ok(())
1182 }
1183
1184 async fn update_worktree(
1185 self: Arc<Server>,
1186 request: TypedEnvelope<proto::UpdateWorktree>,
1187 response: Response<proto::UpdateWorktree>,
1188 ) -> Result<()> {
1189 let project_id = ProjectId::from_proto(request.payload.project_id);
1190 let worktree_id = request.payload.worktree_id;
1191 let connection_ids = self.store().await.update_worktree(
1192 request.sender_id,
1193 project_id,
1194 worktree_id,
1195 &request.payload.root_name,
1196 &request.payload.removed_entries,
1197 &request.payload.updated_entries,
1198 request.payload.scan_id,
1199 request.payload.is_last_update,
1200 )?;
1201
1202 broadcast(request.sender_id, connection_ids, |connection_id| {
1203 self.peer
1204 .forward_send(request.sender_id, connection_id, request.payload.clone())
1205 });
1206 response.send(proto::Ack {})?;
1207 Ok(())
1208 }
1209
1210 async fn update_worktree_extensions(
1211 self: Arc<Server>,
1212 request: TypedEnvelope<proto::UpdateWorktreeExtensions>,
1213 ) -> Result<()> {
1214 let project_id = ProjectId::from_proto(request.payload.project_id);
1215 let worktree_id = request.payload.worktree_id;
1216 let extensions = request
1217 .payload
1218 .extensions
1219 .into_iter()
1220 .zip(request.payload.counts)
1221 .collect();
1222 self.app_state
1223 .db
1224 .update_worktree_extensions(project_id, worktree_id, extensions)
1225 .await?;
1226 Ok(())
1227 }
1228
1229 async fn update_diagnostic_summary(
1230 self: Arc<Server>,
1231 request: TypedEnvelope<proto::UpdateDiagnosticSummary>,
1232 ) -> Result<()> {
1233 let summary = request
1234 .payload
1235 .summary
1236 .clone()
1237 .ok_or_else(|| anyhow!("invalid summary"))?;
1238 let receiver_ids = self.store().await.update_diagnostic_summary(
1239 ProjectId::from_proto(request.payload.project_id),
1240 request.payload.worktree_id,
1241 request.sender_id,
1242 summary,
1243 )?;
1244
1245 broadcast(request.sender_id, receiver_ids, |connection_id| {
1246 self.peer
1247 .forward_send(request.sender_id, connection_id, request.payload.clone())
1248 });
1249 Ok(())
1250 }
1251
1252 async fn start_language_server(
1253 self: Arc<Server>,
1254 request: TypedEnvelope<proto::StartLanguageServer>,
1255 ) -> Result<()> {
1256 let receiver_ids = self.store().await.start_language_server(
1257 ProjectId::from_proto(request.payload.project_id),
1258 request.sender_id,
1259 request
1260 .payload
1261 .server
1262 .clone()
1263 .ok_or_else(|| anyhow!("invalid language server"))?,
1264 )?;
1265 broadcast(request.sender_id, receiver_ids, |connection_id| {
1266 self.peer
1267 .forward_send(request.sender_id, connection_id, request.payload.clone())
1268 });
1269 Ok(())
1270 }
1271
1272 async fn update_language_server(
1273 self: Arc<Server>,
1274 request: TypedEnvelope<proto::UpdateLanguageServer>,
1275 ) -> Result<()> {
1276 let receiver_ids = self.store().await.project_connection_ids(
1277 ProjectId::from_proto(request.payload.project_id),
1278 request.sender_id,
1279 )?;
1280 broadcast(request.sender_id, receiver_ids, |connection_id| {
1281 self.peer
1282 .forward_send(request.sender_id, connection_id, request.payload.clone())
1283 });
1284 Ok(())
1285 }
1286
1287 async fn forward_project_request<T>(
1288 self: Arc<Server>,
1289 request: TypedEnvelope<T>,
1290 response: Response<T>,
1291 ) -> Result<()>
1292 where
1293 T: EntityMessage + RequestMessage,
1294 {
1295 let project_id = ProjectId::from_proto(request.payload.remote_entity_id());
1296 let host_connection_id = self
1297 .store()
1298 .await
1299 .read_project(project_id, request.sender_id)?
1300 .host_connection_id;
1301 let payload = self
1302 .peer
1303 .forward_request(request.sender_id, host_connection_id, request.payload)
1304 .await?;
1305
1306 // Ensure project still exists by the time we get the response from the host.
1307 self.store()
1308 .await
1309 .read_project(project_id, request.sender_id)?;
1310
1311 response.send(payload)?;
1312 Ok(())
1313 }
1314
1315 async fn save_buffer(
1316 self: Arc<Server>,
1317 request: TypedEnvelope<proto::SaveBuffer>,
1318 response: Response<proto::SaveBuffer>,
1319 ) -> Result<()> {
1320 let project_id = ProjectId::from_proto(request.payload.project_id);
1321 let host = self
1322 .store()
1323 .await
1324 .read_project(project_id, request.sender_id)?
1325 .host_connection_id;
1326 let response_payload = self
1327 .peer
1328 .forward_request(request.sender_id, host, request.payload.clone())
1329 .await?;
1330
1331 let mut guests = self
1332 .store()
1333 .await
1334 .read_project(project_id, request.sender_id)?
1335 .connection_ids();
1336 guests.retain(|guest_connection_id| *guest_connection_id != request.sender_id);
1337 broadcast(host, guests, |conn_id| {
1338 self.peer
1339 .forward_send(host, conn_id, response_payload.clone())
1340 });
1341 response.send(response_payload)?;
1342 Ok(())
1343 }
1344
1345 async fn create_buffer_for_peer(
1346 self: Arc<Server>,
1347 request: TypedEnvelope<proto::CreateBufferForPeer>,
1348 ) -> Result<()> {
1349 self.peer.forward_send(
1350 request.sender_id,
1351 ConnectionId(request.payload.peer_id),
1352 request.payload,
1353 )?;
1354 Ok(())
1355 }
1356
1357 async fn update_buffer(
1358 self: Arc<Server>,
1359 request: TypedEnvelope<proto::UpdateBuffer>,
1360 response: Response<proto::UpdateBuffer>,
1361 ) -> Result<()> {
1362 let project_id = ProjectId::from_proto(request.payload.project_id);
1363 let receiver_ids = {
1364 let mut store = self.store().await;
1365 store.register_project_activity(project_id, request.sender_id)?;
1366 store.project_connection_ids(project_id, request.sender_id)?
1367 };
1368
1369 broadcast(request.sender_id, receiver_ids, |connection_id| {
1370 self.peer
1371 .forward_send(request.sender_id, connection_id, request.payload.clone())
1372 });
1373 response.send(proto::Ack {})?;
1374 Ok(())
1375 }
1376
1377 async fn update_buffer_file(
1378 self: Arc<Server>,
1379 request: TypedEnvelope<proto::UpdateBufferFile>,
1380 ) -> Result<()> {
1381 let receiver_ids = self.store().await.project_connection_ids(
1382 ProjectId::from_proto(request.payload.project_id),
1383 request.sender_id,
1384 )?;
1385 broadcast(request.sender_id, receiver_ids, |connection_id| {
1386 self.peer
1387 .forward_send(request.sender_id, connection_id, request.payload.clone())
1388 });
1389 Ok(())
1390 }
1391
1392 async fn buffer_reloaded(
1393 self: Arc<Server>,
1394 request: TypedEnvelope<proto::BufferReloaded>,
1395 ) -> Result<()> {
1396 let receiver_ids = self.store().await.project_connection_ids(
1397 ProjectId::from_proto(request.payload.project_id),
1398 request.sender_id,
1399 )?;
1400 broadcast(request.sender_id, receiver_ids, |connection_id| {
1401 self.peer
1402 .forward_send(request.sender_id, connection_id, request.payload.clone())
1403 });
1404 Ok(())
1405 }
1406
1407 async fn buffer_saved(
1408 self: Arc<Server>,
1409 request: TypedEnvelope<proto::BufferSaved>,
1410 ) -> Result<()> {
1411 let receiver_ids = self.store().await.project_connection_ids(
1412 ProjectId::from_proto(request.payload.project_id),
1413 request.sender_id,
1414 )?;
1415 broadcast(request.sender_id, receiver_ids, |connection_id| {
1416 self.peer
1417 .forward_send(request.sender_id, connection_id, request.payload.clone())
1418 });
1419 Ok(())
1420 }
1421
1422 async fn follow(
1423 self: Arc<Self>,
1424 request: TypedEnvelope<proto::Follow>,
1425 response: Response<proto::Follow>,
1426 ) -> Result<()> {
1427 let project_id = ProjectId::from_proto(request.payload.project_id);
1428 let leader_id = ConnectionId(request.payload.leader_id);
1429 let follower_id = request.sender_id;
1430 {
1431 let mut store = self.store().await;
1432 if !store
1433 .project_connection_ids(project_id, follower_id)?
1434 .contains(&leader_id)
1435 {
1436 Err(anyhow!("no such peer"))?;
1437 }
1438
1439 store.register_project_activity(project_id, follower_id)?;
1440 }
1441
1442 let mut response_payload = self
1443 .peer
1444 .forward_request(request.sender_id, leader_id, request.payload)
1445 .await?;
1446 response_payload
1447 .views
1448 .retain(|view| view.leader_id != Some(follower_id.0));
1449 response.send(response_payload)?;
1450 Ok(())
1451 }
1452
1453 async fn unfollow(self: Arc<Self>, request: TypedEnvelope<proto::Unfollow>) -> Result<()> {
1454 let project_id = ProjectId::from_proto(request.payload.project_id);
1455 let leader_id = ConnectionId(request.payload.leader_id);
1456 let mut store = self.store().await;
1457 if !store
1458 .project_connection_ids(project_id, request.sender_id)?
1459 .contains(&leader_id)
1460 {
1461 Err(anyhow!("no such peer"))?;
1462 }
1463 store.register_project_activity(project_id, request.sender_id)?;
1464 self.peer
1465 .forward_send(request.sender_id, leader_id, request.payload)?;
1466 Ok(())
1467 }
1468
1469 async fn update_followers(
1470 self: Arc<Self>,
1471 request: TypedEnvelope<proto::UpdateFollowers>,
1472 ) -> Result<()> {
1473 let project_id = ProjectId::from_proto(request.payload.project_id);
1474 let mut store = self.store().await;
1475 store.register_project_activity(project_id, request.sender_id)?;
1476 let connection_ids = store.project_connection_ids(project_id, request.sender_id)?;
1477 let leader_id = request
1478 .payload
1479 .variant
1480 .as_ref()
1481 .and_then(|variant| match variant {
1482 proto::update_followers::Variant::CreateView(payload) => payload.leader_id,
1483 proto::update_followers::Variant::UpdateView(payload) => payload.leader_id,
1484 proto::update_followers::Variant::UpdateActiveView(payload) => payload.leader_id,
1485 });
1486 for follower_id in &request.payload.follower_ids {
1487 let follower_id = ConnectionId(*follower_id);
1488 if connection_ids.contains(&follower_id) && Some(follower_id.0) != leader_id {
1489 self.peer
1490 .forward_send(request.sender_id, follower_id, request.payload.clone())?;
1491 }
1492 }
1493 Ok(())
1494 }
1495
1496 async fn get_channels(
1497 self: Arc<Server>,
1498 request: TypedEnvelope<proto::GetChannels>,
1499 response: Response<proto::GetChannels>,
1500 ) -> Result<()> {
1501 let user_id = self
1502 .store()
1503 .await
1504 .user_id_for_connection(request.sender_id)?;
1505 let channels = self.app_state.db.get_accessible_channels(user_id).await?;
1506 response.send(proto::GetChannelsResponse {
1507 channels: channels
1508 .into_iter()
1509 .map(|chan| proto::Channel {
1510 id: chan.id.to_proto(),
1511 name: chan.name,
1512 })
1513 .collect(),
1514 })?;
1515 Ok(())
1516 }
1517
1518 async fn get_users(
1519 self: Arc<Server>,
1520 request: TypedEnvelope<proto::GetUsers>,
1521 response: Response<proto::GetUsers>,
1522 ) -> Result<()> {
1523 let user_ids = request
1524 .payload
1525 .user_ids
1526 .into_iter()
1527 .map(UserId::from_proto)
1528 .collect();
1529 let users = self
1530 .app_state
1531 .db
1532 .get_users_by_ids(user_ids)
1533 .await?
1534 .into_iter()
1535 .map(|user| proto::User {
1536 id: user.id.to_proto(),
1537 avatar_url: format!("https://github.com/{}.png?size=128", user.github_login),
1538 github_login: user.github_login,
1539 })
1540 .collect();
1541 response.send(proto::UsersResponse { users })?;
1542 Ok(())
1543 }
1544
1545 async fn fuzzy_search_users(
1546 self: Arc<Server>,
1547 request: TypedEnvelope<proto::FuzzySearchUsers>,
1548 response: Response<proto::FuzzySearchUsers>,
1549 ) -> Result<()> {
1550 let user_id = self
1551 .store()
1552 .await
1553 .user_id_for_connection(request.sender_id)?;
1554 let query = request.payload.query;
1555 let db = &self.app_state.db;
1556 let users = match query.len() {
1557 0 => vec![],
1558 1 | 2 => db
1559 .get_user_by_github_account(&query, None)
1560 .await?
1561 .into_iter()
1562 .collect(),
1563 _ => db.fuzzy_search_users(&query, 10).await?,
1564 };
1565 let users = users
1566 .into_iter()
1567 .filter(|user| user.id != user_id)
1568 .map(|user| proto::User {
1569 id: user.id.to_proto(),
1570 avatar_url: format!("https://github.com/{}.png?size=128", user.github_login),
1571 github_login: user.github_login,
1572 })
1573 .collect();
1574 response.send(proto::UsersResponse { users })?;
1575 Ok(())
1576 }
1577
1578 async fn request_contact(
1579 self: Arc<Server>,
1580 request: TypedEnvelope<proto::RequestContact>,
1581 response: Response<proto::RequestContact>,
1582 ) -> Result<()> {
1583 let requester_id = self
1584 .store()
1585 .await
1586 .user_id_for_connection(request.sender_id)?;
1587 let responder_id = UserId::from_proto(request.payload.responder_id);
1588 if requester_id == responder_id {
1589 return Err(anyhow!("cannot add yourself as a contact"))?;
1590 }
1591
1592 self.app_state
1593 .db
1594 .send_contact_request(requester_id, responder_id)
1595 .await?;
1596
1597 // Update outgoing contact requests of requester
1598 let mut update = proto::UpdateContacts::default();
1599 update.outgoing_requests.push(responder_id.to_proto());
1600 for connection_id in self.store().await.connection_ids_for_user(requester_id) {
1601 self.peer.send(connection_id, update.clone())?;
1602 }
1603
1604 // Update incoming contact requests of responder
1605 let mut update = proto::UpdateContacts::default();
1606 update
1607 .incoming_requests
1608 .push(proto::IncomingContactRequest {
1609 requester_id: requester_id.to_proto(),
1610 should_notify: true,
1611 });
1612 for connection_id in self.store().await.connection_ids_for_user(responder_id) {
1613 self.peer.send(connection_id, update.clone())?;
1614 }
1615
1616 response.send(proto::Ack {})?;
1617 Ok(())
1618 }
1619
1620 async fn respond_to_contact_request(
1621 self: Arc<Server>,
1622 request: TypedEnvelope<proto::RespondToContactRequest>,
1623 response: Response<proto::RespondToContactRequest>,
1624 ) -> Result<()> {
1625 let responder_id = self
1626 .store()
1627 .await
1628 .user_id_for_connection(request.sender_id)?;
1629 let requester_id = UserId::from_proto(request.payload.requester_id);
1630 if request.payload.response == proto::ContactRequestResponse::Dismiss as i32 {
1631 self.app_state
1632 .db
1633 .dismiss_contact_notification(responder_id, requester_id)
1634 .await?;
1635 } else {
1636 let accept = request.payload.response == proto::ContactRequestResponse::Accept as i32;
1637 self.app_state
1638 .db
1639 .respond_to_contact_request(responder_id, requester_id, accept)
1640 .await?;
1641
1642 let store = self.store().await;
1643 // Update responder with new contact
1644 let mut update = proto::UpdateContacts::default();
1645 if accept {
1646 update
1647 .contacts
1648 .push(store.contact_for_user(requester_id, false));
1649 }
1650 update
1651 .remove_incoming_requests
1652 .push(requester_id.to_proto());
1653 for connection_id in store.connection_ids_for_user(responder_id) {
1654 self.peer.send(connection_id, update.clone())?;
1655 }
1656
1657 // Update requester with new contact
1658 let mut update = proto::UpdateContacts::default();
1659 if accept {
1660 update
1661 .contacts
1662 .push(store.contact_for_user(responder_id, true));
1663 }
1664 update
1665 .remove_outgoing_requests
1666 .push(responder_id.to_proto());
1667 for connection_id in store.connection_ids_for_user(requester_id) {
1668 self.peer.send(connection_id, update.clone())?;
1669 }
1670 }
1671
1672 response.send(proto::Ack {})?;
1673 Ok(())
1674 }
1675
1676 async fn remove_contact(
1677 self: Arc<Server>,
1678 request: TypedEnvelope<proto::RemoveContact>,
1679 response: Response<proto::RemoveContact>,
1680 ) -> Result<()> {
1681 let requester_id = self
1682 .store()
1683 .await
1684 .user_id_for_connection(request.sender_id)?;
1685 let responder_id = UserId::from_proto(request.payload.user_id);
1686 self.app_state
1687 .db
1688 .remove_contact(requester_id, responder_id)
1689 .await?;
1690
1691 // Update outgoing contact requests of requester
1692 let mut update = proto::UpdateContacts::default();
1693 update
1694 .remove_outgoing_requests
1695 .push(responder_id.to_proto());
1696 for connection_id in self.store().await.connection_ids_for_user(requester_id) {
1697 self.peer.send(connection_id, update.clone())?;
1698 }
1699
1700 // Update incoming contact requests of responder
1701 let mut update = proto::UpdateContacts::default();
1702 update
1703 .remove_incoming_requests
1704 .push(requester_id.to_proto());
1705 for connection_id in self.store().await.connection_ids_for_user(responder_id) {
1706 self.peer.send(connection_id, update.clone())?;
1707 }
1708
1709 response.send(proto::Ack {})?;
1710 Ok(())
1711 }
1712
1713 async fn join_channel(
1714 self: Arc<Self>,
1715 request: TypedEnvelope<proto::JoinChannel>,
1716 response: Response<proto::JoinChannel>,
1717 ) -> Result<()> {
1718 let user_id = self
1719 .store()
1720 .await
1721 .user_id_for_connection(request.sender_id)?;
1722 let channel_id = ChannelId::from_proto(request.payload.channel_id);
1723 if !self
1724 .app_state
1725 .db
1726 .can_user_access_channel(user_id, channel_id)
1727 .await?
1728 {
1729 Err(anyhow!("access denied"))?;
1730 }
1731
1732 self.store()
1733 .await
1734 .join_channel(request.sender_id, channel_id);
1735 let messages = self
1736 .app_state
1737 .db
1738 .get_channel_messages(channel_id, MESSAGE_COUNT_PER_PAGE, None)
1739 .await?
1740 .into_iter()
1741 .map(|msg| proto::ChannelMessage {
1742 id: msg.id.to_proto(),
1743 body: msg.body,
1744 timestamp: msg.sent_at.unix_timestamp() as u64,
1745 sender_id: msg.sender_id.to_proto(),
1746 nonce: Some(msg.nonce.as_u128().into()),
1747 })
1748 .collect::<Vec<_>>();
1749 response.send(proto::JoinChannelResponse {
1750 done: messages.len() < MESSAGE_COUNT_PER_PAGE,
1751 messages,
1752 })?;
1753 Ok(())
1754 }
1755
1756 async fn leave_channel(
1757 self: Arc<Self>,
1758 request: TypedEnvelope<proto::LeaveChannel>,
1759 ) -> Result<()> {
1760 let user_id = self
1761 .store()
1762 .await
1763 .user_id_for_connection(request.sender_id)?;
1764 let channel_id = ChannelId::from_proto(request.payload.channel_id);
1765 if !self
1766 .app_state
1767 .db
1768 .can_user_access_channel(user_id, channel_id)
1769 .await?
1770 {
1771 Err(anyhow!("access denied"))?;
1772 }
1773
1774 self.store()
1775 .await
1776 .leave_channel(request.sender_id, channel_id);
1777
1778 Ok(())
1779 }
1780
1781 async fn send_channel_message(
1782 self: Arc<Self>,
1783 request: TypedEnvelope<proto::SendChannelMessage>,
1784 response: Response<proto::SendChannelMessage>,
1785 ) -> Result<()> {
1786 let channel_id = ChannelId::from_proto(request.payload.channel_id);
1787 let user_id;
1788 let connection_ids;
1789 {
1790 let state = self.store().await;
1791 user_id = state.user_id_for_connection(request.sender_id)?;
1792 connection_ids = state.channel_connection_ids(channel_id)?;
1793 }
1794
1795 // Validate the message body.
1796 let body = request.payload.body.trim().to_string();
1797 if body.len() > MAX_MESSAGE_LEN {
1798 return Err(anyhow!("message is too long"))?;
1799 }
1800 if body.is_empty() {
1801 return Err(anyhow!("message can't be blank"))?;
1802 }
1803
1804 let timestamp = OffsetDateTime::now_utc();
1805 let nonce = request
1806 .payload
1807 .nonce
1808 .ok_or_else(|| anyhow!("nonce can't be blank"))?;
1809
1810 let message_id = self
1811 .app_state
1812 .db
1813 .create_channel_message(channel_id, user_id, &body, timestamp, nonce.clone().into())
1814 .await?
1815 .to_proto();
1816 let message = proto::ChannelMessage {
1817 sender_id: user_id.to_proto(),
1818 id: message_id,
1819 body,
1820 timestamp: timestamp.unix_timestamp() as u64,
1821 nonce: Some(nonce),
1822 };
1823 broadcast(request.sender_id, connection_ids, |conn_id| {
1824 self.peer.send(
1825 conn_id,
1826 proto::ChannelMessageSent {
1827 channel_id: channel_id.to_proto(),
1828 message: Some(message.clone()),
1829 },
1830 )
1831 });
1832 response.send(proto::SendChannelMessageResponse {
1833 message: Some(message),
1834 })?;
1835 Ok(())
1836 }
1837
1838 async fn get_channel_messages(
1839 self: Arc<Self>,
1840 request: TypedEnvelope<proto::GetChannelMessages>,
1841 response: Response<proto::GetChannelMessages>,
1842 ) -> Result<()> {
1843 let user_id = self
1844 .store()
1845 .await
1846 .user_id_for_connection(request.sender_id)?;
1847 let channel_id = ChannelId::from_proto(request.payload.channel_id);
1848 if !self
1849 .app_state
1850 .db
1851 .can_user_access_channel(user_id, channel_id)
1852 .await?
1853 {
1854 Err(anyhow!("access denied"))?;
1855 }
1856
1857 let messages = self
1858 .app_state
1859 .db
1860 .get_channel_messages(
1861 channel_id,
1862 MESSAGE_COUNT_PER_PAGE,
1863 Some(MessageId::from_proto(request.payload.before_message_id)),
1864 )
1865 .await?
1866 .into_iter()
1867 .map(|msg| proto::ChannelMessage {
1868 id: msg.id.to_proto(),
1869 body: msg.body,
1870 timestamp: msg.sent_at.unix_timestamp() as u64,
1871 sender_id: msg.sender_id.to_proto(),
1872 nonce: Some(msg.nonce.as_u128().into()),
1873 })
1874 .collect::<Vec<_>>();
1875 response.send(proto::GetChannelMessagesResponse {
1876 done: messages.len() < MESSAGE_COUNT_PER_PAGE,
1877 messages,
1878 })?;
1879 Ok(())
1880 }
1881
1882 async fn update_diff_base(
1883 self: Arc<Server>,
1884 request: TypedEnvelope<proto::UpdateDiffBase>,
1885 ) -> Result<()> {
1886 let receiver_ids = self.store().await.project_connection_ids(
1887 ProjectId::from_proto(request.payload.project_id),
1888 request.sender_id,
1889 )?;
1890 broadcast(request.sender_id, receiver_ids, |connection_id| {
1891 self.peer
1892 .forward_send(request.sender_id, connection_id, request.payload.clone())
1893 });
1894 Ok(())
1895 }
1896
1897 async fn get_private_user_info(
1898 self: Arc<Self>,
1899 request: TypedEnvelope<proto::GetPrivateUserInfo>,
1900 response: Response<proto::GetPrivateUserInfo>,
1901 ) -> Result<()> {
1902 let user_id = self
1903 .store()
1904 .await
1905 .user_id_for_connection(request.sender_id)?;
1906 let metrics_id = self.app_state.db.get_user_metrics_id(user_id).await?;
1907 let user = self
1908 .app_state
1909 .db
1910 .get_user_by_id(user_id)
1911 .await?
1912 .ok_or_else(|| anyhow!("user not found"))?;
1913 response.send(proto::GetPrivateUserInfoResponse {
1914 metrics_id,
1915 staff: user.admin,
1916 })?;
1917 Ok(())
1918 }
1919
1920 pub(crate) async fn store(&self) -> StoreGuard<'_> {
1921 #[cfg(test)]
1922 tokio::task::yield_now().await;
1923 let guard = self.store.lock().await;
1924 #[cfg(test)]
1925 tokio::task::yield_now().await;
1926 StoreGuard {
1927 guard,
1928 _not_send: PhantomData,
1929 }
1930 }
1931
1932 pub async fn snapshot<'a>(self: &'a Arc<Self>) -> ServerSnapshot<'a> {
1933 ServerSnapshot {
1934 store: self.store().await,
1935 peer: &self.peer,
1936 }
1937 }
1938}
1939
1940impl<'a> Deref for StoreGuard<'a> {
1941 type Target = Store;
1942
1943 fn deref(&self) -> &Self::Target {
1944 &*self.guard
1945 }
1946}
1947
1948impl<'a> DerefMut for StoreGuard<'a> {
1949 fn deref_mut(&mut self) -> &mut Self::Target {
1950 &mut *self.guard
1951 }
1952}
1953
1954impl<'a> Drop for StoreGuard<'a> {
1955 fn drop(&mut self) {
1956 #[cfg(test)]
1957 self.check_invariants();
1958 }
1959}
1960
1961impl Executor for RealExecutor {
1962 type Sleep = Sleep;
1963
1964 fn spawn_detached<F: 'static + Send + Future<Output = ()>>(&self, future: F) {
1965 tokio::task::spawn(future);
1966 }
1967
1968 fn sleep(&self, duration: Duration) -> Self::Sleep {
1969 tokio::time::sleep(duration)
1970 }
1971}
1972
1973fn broadcast<F>(
1974 sender_id: ConnectionId,
1975 receiver_ids: impl IntoIterator<Item = ConnectionId>,
1976 mut f: F,
1977) where
1978 F: FnMut(ConnectionId) -> anyhow::Result<()>,
1979{
1980 for receiver_id in receiver_ids {
1981 if receiver_id != sender_id {
1982 f(receiver_id).trace_err();
1983 }
1984 }
1985}
1986
1987lazy_static! {
1988 static ref ZED_PROTOCOL_VERSION: HeaderName = HeaderName::from_static("x-zed-protocol-version");
1989}
1990
1991pub struct ProtocolVersion(u32);
1992
1993impl Header for ProtocolVersion {
1994 fn name() -> &'static HeaderName {
1995 &ZED_PROTOCOL_VERSION
1996 }
1997
1998 fn decode<'i, I>(values: &mut I) -> Result<Self, axum::headers::Error>
1999 where
2000 Self: Sized,
2001 I: Iterator<Item = &'i axum::http::HeaderValue>,
2002 {
2003 let version = values
2004 .next()
2005 .ok_or_else(axum::headers::Error::invalid)?
2006 .to_str()
2007 .map_err(|_| axum::headers::Error::invalid())?
2008 .parse()
2009 .map_err(|_| axum::headers::Error::invalid())?;
2010 Ok(Self(version))
2011 }
2012
2013 fn encode<E: Extend<axum::http::HeaderValue>>(&self, values: &mut E) {
2014 values.extend([self.0.to_string().parse().unwrap()]);
2015 }
2016}
2017
2018pub fn routes(server: Arc<Server>) -> Router<Body> {
2019 Router::new()
2020 .route("/rpc", get(handle_websocket_request))
2021 .layer(
2022 ServiceBuilder::new()
2023 .layer(Extension(server.app_state.clone()))
2024 .layer(middleware::from_fn(auth::validate_header)),
2025 )
2026 .route("/metrics", get(handle_metrics))
2027 .layer(Extension(server))
2028}
2029
2030pub async fn handle_websocket_request(
2031 TypedHeader(ProtocolVersion(protocol_version)): TypedHeader<ProtocolVersion>,
2032 ConnectInfo(socket_address): ConnectInfo<SocketAddr>,
2033 Extension(server): Extension<Arc<Server>>,
2034 Extension(user): Extension<User>,
2035 ws: WebSocketUpgrade,
2036) -> axum::response::Response {
2037 if protocol_version != rpc::PROTOCOL_VERSION {
2038 return (
2039 StatusCode::UPGRADE_REQUIRED,
2040 "client must be upgraded".to_string(),
2041 )
2042 .into_response();
2043 }
2044 let socket_address = socket_address.to_string();
2045 ws.on_upgrade(move |socket| {
2046 use util::ResultExt;
2047 let socket = socket
2048 .map_ok(to_tungstenite_message)
2049 .err_into()
2050 .with(|message| async move { Ok(to_axum_message(message)) });
2051 let connection = Connection::new(Box::pin(socket));
2052 async move {
2053 server
2054 .handle_connection(connection, socket_address, user, None, RealExecutor)
2055 .await
2056 .log_err();
2057 }
2058 })
2059}
2060
2061pub async fn handle_metrics(Extension(server): Extension<Arc<Server>>) -> axum::response::Response {
2062 // We call `store_mut` here for its side effects of updating metrics.
2063 let metrics = server.store().await.metrics();
2064 METRIC_CONNECTIONS.set(metrics.connections as _);
2065 METRIC_REGISTERED_PROJECTS.set(metrics.registered_projects as _);
2066 METRIC_ACTIVE_PROJECTS.set(metrics.active_projects as _);
2067 METRIC_SHARED_PROJECTS.set(metrics.shared_projects as _);
2068
2069 let encoder = prometheus::TextEncoder::new();
2070 let metric_families = prometheus::gather();
2071 match encoder.encode_to_string(&metric_families) {
2072 Ok(string) => (StatusCode::OK, string).into_response(),
2073 Err(error) => (
2074 StatusCode::INTERNAL_SERVER_ERROR,
2075 format!("failed to encode metrics {:?}", error),
2076 )
2077 .into_response(),
2078 }
2079}
2080
2081fn to_axum_message(message: TungsteniteMessage) -> AxumMessage {
2082 match message {
2083 TungsteniteMessage::Text(payload) => AxumMessage::Text(payload),
2084 TungsteniteMessage::Binary(payload) => AxumMessage::Binary(payload),
2085 TungsteniteMessage::Ping(payload) => AxumMessage::Ping(payload),
2086 TungsteniteMessage::Pong(payload) => AxumMessage::Pong(payload),
2087 TungsteniteMessage::Close(frame) => AxumMessage::Close(frame.map(|frame| AxumCloseFrame {
2088 code: frame.code.into(),
2089 reason: frame.reason,
2090 })),
2091 }
2092}
2093
2094fn to_tungstenite_message(message: AxumMessage) -> TungsteniteMessage {
2095 match message {
2096 AxumMessage::Text(payload) => TungsteniteMessage::Text(payload),
2097 AxumMessage::Binary(payload) => TungsteniteMessage::Binary(payload),
2098 AxumMessage::Ping(payload) => TungsteniteMessage::Ping(payload),
2099 AxumMessage::Pong(payload) => TungsteniteMessage::Pong(payload),
2100 AxumMessage::Close(frame) => {
2101 TungsteniteMessage::Close(frame.map(|frame| TungsteniteCloseFrame {
2102 code: frame.code.into(),
2103 reason: frame.reason,
2104 }))
2105 }
2106 }
2107}
2108
2109pub trait ResultExt {
2110 type Ok;
2111
2112 fn trace_err(self) -> Option<Self::Ok>;
2113}
2114
2115impl<T, E> ResultExt for Result<T, E>
2116where
2117 E: std::fmt::Debug,
2118{
2119 type Ok = T;
2120
2121 fn trace_err(self) -> Option<T> {
2122 match self {
2123 Ok(value) => Some(value),
2124 Err(error) => {
2125 tracing::error!("{:?}", error);
2126 None
2127 }
2128 }
2129 }
2130}