1use crate::{
2 rpc::{CLEANUP_TIMEOUT, RECONNECT_TIMEOUT},
3 tests::{channel_id, room_participants, rust_lang, RoomParticipants, TestClient, TestServer},
4};
5use call::{room, ActiveCall, ParticipantLocation, Room};
6use client::{User, RECEIVE_TIMEOUT};
7use collections::{HashMap, HashSet};
8use fs::{repository::GitFileStatus, FakeFs, Fs as _, RemoveOptions};
9use futures::StreamExt as _;
10use gpui::{
11 px, size, AppContext, BackgroundExecutor, Model, Modifiers, MouseButton, MouseDownEvent,
12 TestAppContext,
13};
14use language::{
15 language_settings::{AllLanguageSettings, Formatter},
16 tree_sitter_rust, Diagnostic, DiagnosticEntry, FakeLspAdapter, Language, LanguageConfig,
17 LanguageMatcher, LineEnding, OffsetRangeExt, Point, Rope,
18};
19use live_kit_client::MacOSDisplay;
20use lsp::LanguageServerId;
21use project::{
22 search::SearchQuery, DiagnosticSummary, FormatTrigger, HoverBlockKind, Project, ProjectPath,
23};
24use rand::prelude::*;
25use rpc::proto::ChannelRole;
26use serde_json::json;
27use settings::SettingsStore;
28use std::{
29 cell::{Cell, RefCell},
30 env, future, mem,
31 path::{Path, PathBuf},
32 rc::Rc,
33 sync::{
34 atomic::{AtomicBool, Ordering::SeqCst},
35 Arc,
36 },
37 time::Duration,
38};
39use unindent::Unindent as _;
40
41#[ctor::ctor]
42fn init_logger() {
43 if std::env::var("RUST_LOG").is_ok() {
44 env_logger::init();
45 }
46}
47
48#[gpui::test(iterations = 10)]
49async fn test_basic_calls(
50 executor: BackgroundExecutor,
51 cx_a: &mut TestAppContext,
52 cx_b: &mut TestAppContext,
53 cx_b2: &mut TestAppContext,
54 cx_c: &mut TestAppContext,
55) {
56 let mut server = TestServer::start(executor.clone()).await;
57
58 let client_a = server.create_client(cx_a, "user_a").await;
59 let client_b = server.create_client(cx_b, "user_b").await;
60 let client_c = server.create_client(cx_c, "user_c").await;
61 server
62 .make_contacts(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
63 .await;
64
65 let active_call_a = cx_a.read(ActiveCall::global);
66 let active_call_b = cx_b.read(ActiveCall::global);
67 let active_call_c = cx_c.read(ActiveCall::global);
68
69 // Call user B from client A.
70 active_call_a
71 .update(cx_a, |call, cx| {
72 call.invite(client_b.user_id().unwrap(), None, cx)
73 })
74 .await
75 .unwrap();
76 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
77 executor.run_until_parked();
78 assert_eq!(
79 room_participants(&room_a, cx_a),
80 RoomParticipants {
81 remote: Default::default(),
82 pending: vec!["user_b".to_string()]
83 }
84 );
85
86 // User B receives the call.
87
88 let mut incoming_call_b = active_call_b.read_with(cx_b, |call, _| call.incoming());
89 let call_b = incoming_call_b.next().await.unwrap().unwrap();
90 assert_eq!(call_b.calling_user.github_login, "user_a");
91
92 // User B connects via another client and also receives a ring on the newly-connected client.
93 let _client_b2 = server.create_client(cx_b2, "user_b").await;
94 let active_call_b2 = cx_b2.read(ActiveCall::global);
95
96 let mut incoming_call_b2 = active_call_b2.read_with(cx_b2, |call, _| call.incoming());
97 executor.run_until_parked();
98 let call_b2 = incoming_call_b2.next().await.unwrap().unwrap();
99 assert_eq!(call_b2.calling_user.github_login, "user_a");
100
101 // User B joins the room using the first client.
102 active_call_b
103 .update(cx_b, |call, cx| call.accept_incoming(cx))
104 .await
105 .unwrap();
106
107 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
108 assert!(incoming_call_b.next().await.unwrap().is_none());
109
110 executor.run_until_parked();
111 assert_eq!(
112 room_participants(&room_a, cx_a),
113 RoomParticipants {
114 remote: vec!["user_b".to_string()],
115 pending: Default::default()
116 }
117 );
118 assert_eq!(
119 room_participants(&room_b, cx_b),
120 RoomParticipants {
121 remote: vec!["user_a".to_string()],
122 pending: Default::default()
123 }
124 );
125
126 // Call user C from client B.
127
128 let mut incoming_call_c = active_call_c.read_with(cx_c, |call, _| call.incoming());
129 active_call_b
130 .update(cx_b, |call, cx| {
131 call.invite(client_c.user_id().unwrap(), None, cx)
132 })
133 .await
134 .unwrap();
135
136 executor.run_until_parked();
137 assert_eq!(
138 room_participants(&room_a, cx_a),
139 RoomParticipants {
140 remote: vec!["user_b".to_string()],
141 pending: vec!["user_c".to_string()]
142 }
143 );
144 assert_eq!(
145 room_participants(&room_b, cx_b),
146 RoomParticipants {
147 remote: vec!["user_a".to_string()],
148 pending: vec!["user_c".to_string()]
149 }
150 );
151
152 // User C receives the call, but declines it.
153 let call_c = incoming_call_c.next().await.unwrap().unwrap();
154 assert_eq!(call_c.calling_user.github_login, "user_b");
155 active_call_c.update(cx_c, |call, cx| call.decline_incoming(cx).unwrap());
156 assert!(incoming_call_c.next().await.unwrap().is_none());
157
158 executor.run_until_parked();
159 assert_eq!(
160 room_participants(&room_a, cx_a),
161 RoomParticipants {
162 remote: vec!["user_b".to_string()],
163 pending: Default::default()
164 }
165 );
166 assert_eq!(
167 room_participants(&room_b, cx_b),
168 RoomParticipants {
169 remote: vec!["user_a".to_string()],
170 pending: Default::default()
171 }
172 );
173
174 // Call user C again from user A.
175 active_call_a
176 .update(cx_a, |call, cx| {
177 call.invite(client_c.user_id().unwrap(), None, cx)
178 })
179 .await
180 .unwrap();
181
182 executor.run_until_parked();
183 assert_eq!(
184 room_participants(&room_a, cx_a),
185 RoomParticipants {
186 remote: vec!["user_b".to_string()],
187 pending: vec!["user_c".to_string()]
188 }
189 );
190 assert_eq!(
191 room_participants(&room_b, cx_b),
192 RoomParticipants {
193 remote: vec!["user_a".to_string()],
194 pending: vec!["user_c".to_string()]
195 }
196 );
197
198 // User C accepts the call.
199 let call_c = incoming_call_c.next().await.unwrap().unwrap();
200 assert_eq!(call_c.calling_user.github_login, "user_a");
201 active_call_c
202 .update(cx_c, |call, cx| call.accept_incoming(cx))
203 .await
204 .unwrap();
205 assert!(incoming_call_c.next().await.unwrap().is_none());
206
207 let room_c = active_call_c.read_with(cx_c, |call, _| call.room().unwrap().clone());
208
209 executor.run_until_parked();
210 assert_eq!(
211 room_participants(&room_a, cx_a),
212 RoomParticipants {
213 remote: vec!["user_b".to_string(), "user_c".to_string()],
214 pending: Default::default()
215 }
216 );
217 assert_eq!(
218 room_participants(&room_b, cx_b),
219 RoomParticipants {
220 remote: vec!["user_a".to_string(), "user_c".to_string()],
221 pending: Default::default()
222 }
223 );
224 assert_eq!(
225 room_participants(&room_c, cx_c),
226 RoomParticipants {
227 remote: vec!["user_a".to_string(), "user_b".to_string()],
228 pending: Default::default()
229 }
230 );
231
232 // User A shares their screen
233 let display = MacOSDisplay::new();
234 let events_b = active_call_events(cx_b);
235 let events_c = active_call_events(cx_c);
236 active_call_a
237 .update(cx_a, |call, cx| {
238 call.room().unwrap().update(cx, |room, cx| {
239 room.set_display_sources(vec![display.clone()]);
240 room.share_screen(cx)
241 })
242 })
243 .await
244 .unwrap();
245
246 executor.run_until_parked();
247
248 // User B observes the remote screen sharing track.
249 assert_eq!(events_b.borrow().len(), 1);
250 let event_b = events_b.borrow().first().unwrap().clone();
251 if let call::room::Event::RemoteVideoTracksChanged { participant_id } = event_b {
252 assert_eq!(participant_id, client_a.peer_id().unwrap());
253
254 room_b.read_with(cx_b, |room, _| {
255 assert_eq!(
256 room.remote_participants()[&client_a.user_id().unwrap()]
257 .video_tracks
258 .len(),
259 1
260 );
261 });
262 } else {
263 panic!("unexpected event")
264 }
265
266 // User C observes the remote screen sharing track.
267 assert_eq!(events_c.borrow().len(), 1);
268 let event_c = events_c.borrow().first().unwrap().clone();
269 if let call::room::Event::RemoteVideoTracksChanged { participant_id } = event_c {
270 assert_eq!(participant_id, client_a.peer_id().unwrap());
271
272 room_c.read_with(cx_c, |room, _| {
273 assert_eq!(
274 room.remote_participants()[&client_a.user_id().unwrap()]
275 .video_tracks
276 .len(),
277 1
278 );
279 });
280 } else {
281 panic!("unexpected event")
282 }
283
284 // User A leaves the room.
285 active_call_a
286 .update(cx_a, |call, cx| {
287 let hang_up = call.hang_up(cx);
288 assert!(call.room().is_none());
289 hang_up
290 })
291 .await
292 .unwrap();
293 executor.run_until_parked();
294 assert_eq!(
295 room_participants(&room_a, cx_a),
296 RoomParticipants {
297 remote: Default::default(),
298 pending: Default::default()
299 }
300 );
301 assert_eq!(
302 room_participants(&room_b, cx_b),
303 RoomParticipants {
304 remote: vec!["user_c".to_string()],
305 pending: Default::default()
306 }
307 );
308 assert_eq!(
309 room_participants(&room_c, cx_c),
310 RoomParticipants {
311 remote: vec!["user_b".to_string()],
312 pending: Default::default()
313 }
314 );
315
316 // User B gets disconnected from the LiveKit server, which causes them
317 // to automatically leave the room. User C leaves the room as well because
318 // nobody else is in there.
319 server
320 .test_live_kit_server
321 .disconnect_client(client_b.user_id().unwrap().to_string())
322 .await;
323 executor.run_until_parked();
324
325 active_call_b.read_with(cx_b, |call, _| assert!(call.room().is_none()));
326
327 active_call_c.read_with(cx_c, |call, _| assert!(call.room().is_none()));
328 assert_eq!(
329 room_participants(&room_a, cx_a),
330 RoomParticipants {
331 remote: Default::default(),
332 pending: Default::default()
333 }
334 );
335 assert_eq!(
336 room_participants(&room_b, cx_b),
337 RoomParticipants {
338 remote: Default::default(),
339 pending: Default::default()
340 }
341 );
342 assert_eq!(
343 room_participants(&room_c, cx_c),
344 RoomParticipants {
345 remote: Default::default(),
346 pending: Default::default()
347 }
348 );
349}
350
351#[gpui::test(iterations = 10)]
352async fn test_calling_multiple_users_simultaneously(
353 executor: BackgroundExecutor,
354 cx_a: &mut TestAppContext,
355 cx_b: &mut TestAppContext,
356 cx_c: &mut TestAppContext,
357 cx_d: &mut TestAppContext,
358) {
359 let mut server = TestServer::start(executor.clone()).await;
360
361 let client_a = server.create_client(cx_a, "user_a").await;
362 let client_b = server.create_client(cx_b, "user_b").await;
363 let client_c = server.create_client(cx_c, "user_c").await;
364 let client_d = server.create_client(cx_d, "user_d").await;
365 server
366 .make_contacts(&mut [
367 (&client_a, cx_a),
368 (&client_b, cx_b),
369 (&client_c, cx_c),
370 (&client_d, cx_d),
371 ])
372 .await;
373
374 let active_call_a = cx_a.read(ActiveCall::global);
375 let active_call_b = cx_b.read(ActiveCall::global);
376 let active_call_c = cx_c.read(ActiveCall::global);
377 let active_call_d = cx_d.read(ActiveCall::global);
378
379 // Simultaneously call user B and user C from client A.
380 let b_invite = active_call_a.update(cx_a, |call, cx| {
381 call.invite(client_b.user_id().unwrap(), None, cx)
382 });
383 let c_invite = active_call_a.update(cx_a, |call, cx| {
384 call.invite(client_c.user_id().unwrap(), None, cx)
385 });
386 b_invite.await.unwrap();
387 c_invite.await.unwrap();
388
389 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
390 executor.run_until_parked();
391 assert_eq!(
392 room_participants(&room_a, cx_a),
393 RoomParticipants {
394 remote: Default::default(),
395 pending: vec!["user_b".to_string(), "user_c".to_string()]
396 }
397 );
398
399 // Call client D from client A.
400 active_call_a
401 .update(cx_a, |call, cx| {
402 call.invite(client_d.user_id().unwrap(), None, cx)
403 })
404 .await
405 .unwrap();
406 executor.run_until_parked();
407 assert_eq!(
408 room_participants(&room_a, cx_a),
409 RoomParticipants {
410 remote: Default::default(),
411 pending: vec![
412 "user_b".to_string(),
413 "user_c".to_string(),
414 "user_d".to_string()
415 ]
416 }
417 );
418
419 // Accept the call on all clients simultaneously.
420 let accept_b = active_call_b.update(cx_b, |call, cx| call.accept_incoming(cx));
421 let accept_c = active_call_c.update(cx_c, |call, cx| call.accept_incoming(cx));
422 let accept_d = active_call_d.update(cx_d, |call, cx| call.accept_incoming(cx));
423 accept_b.await.unwrap();
424 accept_c.await.unwrap();
425 accept_d.await.unwrap();
426
427 executor.run_until_parked();
428
429 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
430
431 let room_c = active_call_c.read_with(cx_c, |call, _| call.room().unwrap().clone());
432
433 let room_d = active_call_d.read_with(cx_d, |call, _| call.room().unwrap().clone());
434 assert_eq!(
435 room_participants(&room_a, cx_a),
436 RoomParticipants {
437 remote: vec![
438 "user_b".to_string(),
439 "user_c".to_string(),
440 "user_d".to_string(),
441 ],
442 pending: Default::default()
443 }
444 );
445 assert_eq!(
446 room_participants(&room_b, cx_b),
447 RoomParticipants {
448 remote: vec![
449 "user_a".to_string(),
450 "user_c".to_string(),
451 "user_d".to_string(),
452 ],
453 pending: Default::default()
454 }
455 );
456 assert_eq!(
457 room_participants(&room_c, cx_c),
458 RoomParticipants {
459 remote: vec![
460 "user_a".to_string(),
461 "user_b".to_string(),
462 "user_d".to_string(),
463 ],
464 pending: Default::default()
465 }
466 );
467 assert_eq!(
468 room_participants(&room_d, cx_d),
469 RoomParticipants {
470 remote: vec![
471 "user_a".to_string(),
472 "user_b".to_string(),
473 "user_c".to_string(),
474 ],
475 pending: Default::default()
476 }
477 );
478}
479
480#[gpui::test(iterations = 10)]
481async fn test_joining_channels_and_calling_multiple_users_simultaneously(
482 executor: BackgroundExecutor,
483 cx_a: &mut TestAppContext,
484 cx_b: &mut TestAppContext,
485 cx_c: &mut TestAppContext,
486) {
487 let mut server = TestServer::start(executor.clone()).await;
488
489 let client_a = server.create_client(cx_a, "user_a").await;
490 let client_b = server.create_client(cx_b, "user_b").await;
491 let client_c = server.create_client(cx_c, "user_c").await;
492 server
493 .make_contacts(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
494 .await;
495
496 let channel_1 = server
497 .make_channel(
498 "channel1",
499 None,
500 (&client_a, cx_a),
501 &mut [(&client_b, cx_b), (&client_c, cx_c)],
502 )
503 .await;
504
505 let channel_2 = server
506 .make_channel(
507 "channel2",
508 None,
509 (&client_a, cx_a),
510 &mut [(&client_b, cx_b), (&client_c, cx_c)],
511 )
512 .await;
513
514 let active_call_a = cx_a.read(ActiveCall::global);
515
516 // Simultaneously join channel 1 and then channel 2
517 active_call_a
518 .update(cx_a, |call, cx| call.join_channel(channel_1, cx))
519 .detach();
520 let join_channel_2 = active_call_a.update(cx_a, |call, cx| call.join_channel(channel_2, cx));
521
522 join_channel_2.await.unwrap();
523
524 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
525 executor.run_until_parked();
526
527 assert_eq!(channel_id(&room_a, cx_a), Some(channel_2));
528
529 // Leave the room
530 active_call_a
531 .update(cx_a, |call, cx| {
532 let hang_up = call.hang_up(cx);
533 hang_up
534 })
535 .await
536 .unwrap();
537
538 // Initiating invites and then joining a channel should fail gracefully
539 let b_invite = active_call_a.update(cx_a, |call, cx| {
540 call.invite(client_b.user_id().unwrap(), None, cx)
541 });
542 let c_invite = active_call_a.update(cx_a, |call, cx| {
543 call.invite(client_c.user_id().unwrap(), None, cx)
544 });
545
546 let join_channel = active_call_a.update(cx_a, |call, cx| call.join_channel(channel_1, cx));
547
548 b_invite.await.unwrap();
549 c_invite.await.unwrap();
550 join_channel.await.unwrap();
551
552 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
553 executor.run_until_parked();
554
555 assert_eq!(
556 room_participants(&room_a, cx_a),
557 RoomParticipants {
558 remote: Default::default(),
559 pending: vec!["user_b".to_string(), "user_c".to_string()]
560 }
561 );
562
563 assert_eq!(channel_id(&room_a, cx_a), None);
564
565 // Leave the room
566 active_call_a
567 .update(cx_a, |call, cx| {
568 let hang_up = call.hang_up(cx);
569 hang_up
570 })
571 .await
572 .unwrap();
573
574 // Simultaneously join channel 1 and call user B and user C from client A.
575 let join_channel = active_call_a.update(cx_a, |call, cx| call.join_channel(channel_1, cx));
576
577 let b_invite = active_call_a.update(cx_a, |call, cx| {
578 call.invite(client_b.user_id().unwrap(), None, cx)
579 });
580 let c_invite = active_call_a.update(cx_a, |call, cx| {
581 call.invite(client_c.user_id().unwrap(), None, cx)
582 });
583
584 join_channel.await.unwrap();
585 b_invite.await.unwrap();
586 c_invite.await.unwrap();
587
588 active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
589 executor.run_until_parked();
590}
591
592#[gpui::test(iterations = 10)]
593async fn test_room_uniqueness(
594 executor: BackgroundExecutor,
595 cx_a: &mut TestAppContext,
596 cx_a2: &mut TestAppContext,
597 cx_b: &mut TestAppContext,
598 cx_b2: &mut TestAppContext,
599 cx_c: &mut TestAppContext,
600) {
601 let mut server = TestServer::start(executor.clone()).await;
602 let client_a = server.create_client(cx_a, "user_a").await;
603 let _client_a2 = server.create_client(cx_a2, "user_a").await;
604 let client_b = server.create_client(cx_b, "user_b").await;
605 let _client_b2 = server.create_client(cx_b2, "user_b").await;
606 let client_c = server.create_client(cx_c, "user_c").await;
607 server
608 .make_contacts(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
609 .await;
610
611 let active_call_a = cx_a.read(ActiveCall::global);
612 let active_call_a2 = cx_a2.read(ActiveCall::global);
613 let active_call_b = cx_b.read(ActiveCall::global);
614 let active_call_b2 = cx_b2.read(ActiveCall::global);
615 let active_call_c = cx_c.read(ActiveCall::global);
616
617 // Call user B from client A.
618 active_call_a
619 .update(cx_a, |call, cx| {
620 call.invite(client_b.user_id().unwrap(), None, cx)
621 })
622 .await
623 .unwrap();
624
625 // Ensure a new room can't be created given user A just created one.
626 active_call_a2
627 .update(cx_a2, |call, cx| {
628 call.invite(client_c.user_id().unwrap(), None, cx)
629 })
630 .await
631 .unwrap_err();
632
633 active_call_a2.read_with(cx_a2, |call, _| assert!(call.room().is_none()));
634
635 // User B receives the call from user A.
636
637 let mut incoming_call_b = active_call_b.read_with(cx_b, |call, _| call.incoming());
638 let call_b1 = incoming_call_b.next().await.unwrap().unwrap();
639 assert_eq!(call_b1.calling_user.github_login, "user_a");
640
641 // Ensure calling users A and B from client C fails.
642 active_call_c
643 .update(cx_c, |call, cx| {
644 call.invite(client_a.user_id().unwrap(), None, cx)
645 })
646 .await
647 .unwrap_err();
648 active_call_c
649 .update(cx_c, |call, cx| {
650 call.invite(client_b.user_id().unwrap(), None, cx)
651 })
652 .await
653 .unwrap_err();
654
655 // Ensure User B can't create a room while they still have an incoming call.
656 active_call_b2
657 .update(cx_b2, |call, cx| {
658 call.invite(client_c.user_id().unwrap(), None, cx)
659 })
660 .await
661 .unwrap_err();
662
663 active_call_b2.read_with(cx_b2, |call, _| assert!(call.room().is_none()));
664
665 // User B joins the room and calling them after they've joined still fails.
666 active_call_b
667 .update(cx_b, |call, cx| call.accept_incoming(cx))
668 .await
669 .unwrap();
670 active_call_c
671 .update(cx_c, |call, cx| {
672 call.invite(client_b.user_id().unwrap(), None, cx)
673 })
674 .await
675 .unwrap_err();
676
677 // Ensure User B can't create a room while they belong to another room.
678 active_call_b2
679 .update(cx_b2, |call, cx| {
680 call.invite(client_c.user_id().unwrap(), None, cx)
681 })
682 .await
683 .unwrap_err();
684
685 active_call_b2.read_with(cx_b2, |call, _| assert!(call.room().is_none()));
686
687 // Client C can successfully call client B after client B leaves the room.
688 active_call_b
689 .update(cx_b, |call, cx| call.hang_up(cx))
690 .await
691 .unwrap();
692 executor.run_until_parked();
693 active_call_c
694 .update(cx_c, |call, cx| {
695 call.invite(client_b.user_id().unwrap(), None, cx)
696 })
697 .await
698 .unwrap();
699 executor.run_until_parked();
700 let call_b2 = incoming_call_b.next().await.unwrap().unwrap();
701 assert_eq!(call_b2.calling_user.github_login, "user_c");
702}
703
704#[gpui::test(iterations = 10)]
705async fn test_client_disconnecting_from_room(
706 executor: BackgroundExecutor,
707 cx_a: &mut TestAppContext,
708 cx_b: &mut TestAppContext,
709) {
710 let mut server = TestServer::start(executor.clone()).await;
711 let client_a = server.create_client(cx_a, "user_a").await;
712 let client_b = server.create_client(cx_b, "user_b").await;
713 server
714 .make_contacts(&mut [(&client_a, cx_a), (&client_b, cx_b)])
715 .await;
716
717 let active_call_a = cx_a.read(ActiveCall::global);
718 let active_call_b = cx_b.read(ActiveCall::global);
719
720 // Call user B from client A.
721 active_call_a
722 .update(cx_a, |call, cx| {
723 call.invite(client_b.user_id().unwrap(), None, cx)
724 })
725 .await
726 .unwrap();
727
728 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
729
730 // User B receives the call and joins the room.
731
732 let mut incoming_call_b = active_call_b.read_with(cx_b, |call, _| call.incoming());
733 incoming_call_b.next().await.unwrap().unwrap();
734 active_call_b
735 .update(cx_b, |call, cx| call.accept_incoming(cx))
736 .await
737 .unwrap();
738
739 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
740 executor.run_until_parked();
741 assert_eq!(
742 room_participants(&room_a, cx_a),
743 RoomParticipants {
744 remote: vec!["user_b".to_string()],
745 pending: Default::default()
746 }
747 );
748 assert_eq!(
749 room_participants(&room_b, cx_b),
750 RoomParticipants {
751 remote: vec!["user_a".to_string()],
752 pending: Default::default()
753 }
754 );
755
756 // User A automatically reconnects to the room upon disconnection.
757 server.disconnect_client(client_a.peer_id().unwrap());
758 executor.advance_clock(RECEIVE_TIMEOUT);
759 executor.run_until_parked();
760 assert_eq!(
761 room_participants(&room_a, cx_a),
762 RoomParticipants {
763 remote: vec!["user_b".to_string()],
764 pending: Default::default()
765 }
766 );
767 assert_eq!(
768 room_participants(&room_b, cx_b),
769 RoomParticipants {
770 remote: vec!["user_a".to_string()],
771 pending: Default::default()
772 }
773 );
774
775 // When user A disconnects, both client A and B clear their room on the active call.
776 server.forbid_connections();
777 server.disconnect_client(client_a.peer_id().unwrap());
778 executor.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
779
780 active_call_a.read_with(cx_a, |call, _| assert!(call.room().is_none()));
781
782 active_call_b.read_with(cx_b, |call, _| assert!(call.room().is_none()));
783 assert_eq!(
784 room_participants(&room_a, cx_a),
785 RoomParticipants {
786 remote: Default::default(),
787 pending: Default::default()
788 }
789 );
790 assert_eq!(
791 room_participants(&room_b, cx_b),
792 RoomParticipants {
793 remote: Default::default(),
794 pending: Default::default()
795 }
796 );
797
798 // Allow user A to reconnect to the server.
799 server.allow_connections();
800 executor.advance_clock(RECEIVE_TIMEOUT);
801
802 // Call user B again from client A.
803 active_call_a
804 .update(cx_a, |call, cx| {
805 call.invite(client_b.user_id().unwrap(), None, cx)
806 })
807 .await
808 .unwrap();
809
810 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
811
812 // User B receives the call and joins the room.
813
814 let mut incoming_call_b = active_call_b.read_with(cx_b, |call, _| call.incoming());
815 incoming_call_b.next().await.unwrap().unwrap();
816 active_call_b
817 .update(cx_b, |call, cx| call.accept_incoming(cx))
818 .await
819 .unwrap();
820
821 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
822 executor.run_until_parked();
823 assert_eq!(
824 room_participants(&room_a, cx_a),
825 RoomParticipants {
826 remote: vec!["user_b".to_string()],
827 pending: Default::default()
828 }
829 );
830 assert_eq!(
831 room_participants(&room_b, cx_b),
832 RoomParticipants {
833 remote: vec!["user_a".to_string()],
834 pending: Default::default()
835 }
836 );
837
838 // User B gets disconnected from the LiveKit server, which causes it
839 // to automatically leave the room.
840 server
841 .test_live_kit_server
842 .disconnect_client(client_b.user_id().unwrap().to_string())
843 .await;
844 executor.run_until_parked();
845 active_call_a.update(cx_a, |call, _| assert!(call.room().is_none()));
846 active_call_b.update(cx_b, |call, _| assert!(call.room().is_none()));
847 assert_eq!(
848 room_participants(&room_a, cx_a),
849 RoomParticipants {
850 remote: Default::default(),
851 pending: Default::default()
852 }
853 );
854 assert_eq!(
855 room_participants(&room_b, cx_b),
856 RoomParticipants {
857 remote: Default::default(),
858 pending: Default::default()
859 }
860 );
861}
862
863#[gpui::test(iterations = 10)]
864async fn test_server_restarts(
865 executor: BackgroundExecutor,
866 cx_a: &mut TestAppContext,
867 cx_b: &mut TestAppContext,
868 cx_c: &mut TestAppContext,
869 cx_d: &mut TestAppContext,
870) {
871 let mut server = TestServer::start(executor.clone()).await;
872 let client_a = server.create_client(cx_a, "user_a").await;
873 client_a
874 .fs()
875 .insert_tree("/a", json!({ "a.txt": "a-contents" }))
876 .await;
877
878 // Invite client B to collaborate on a project
879 let (project_a, _) = client_a.build_local_project("/a", cx_a).await;
880
881 let client_b = server.create_client(cx_b, "user_b").await;
882 let client_c = server.create_client(cx_c, "user_c").await;
883 let client_d = server.create_client(cx_d, "user_d").await;
884 server
885 .make_contacts(&mut [
886 (&client_a, cx_a),
887 (&client_b, cx_b),
888 (&client_c, cx_c),
889 (&client_d, cx_d),
890 ])
891 .await;
892
893 let active_call_a = cx_a.read(ActiveCall::global);
894 let active_call_b = cx_b.read(ActiveCall::global);
895 let active_call_c = cx_c.read(ActiveCall::global);
896 let active_call_d = cx_d.read(ActiveCall::global);
897
898 // User A calls users B, C, and D.
899 active_call_a
900 .update(cx_a, |call, cx| {
901 call.invite(client_b.user_id().unwrap(), Some(project_a.clone()), cx)
902 })
903 .await
904 .unwrap();
905 active_call_a
906 .update(cx_a, |call, cx| {
907 call.invite(client_c.user_id().unwrap(), Some(project_a.clone()), cx)
908 })
909 .await
910 .unwrap();
911 active_call_a
912 .update(cx_a, |call, cx| {
913 call.invite(client_d.user_id().unwrap(), Some(project_a.clone()), cx)
914 })
915 .await
916 .unwrap();
917
918 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
919
920 // User B receives the call and joins the room.
921
922 let mut incoming_call_b = active_call_b.read_with(cx_b, |call, _| call.incoming());
923 assert!(incoming_call_b.next().await.unwrap().is_some());
924 active_call_b
925 .update(cx_b, |call, cx| call.accept_incoming(cx))
926 .await
927 .unwrap();
928
929 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
930
931 // User C receives the call and joins the room.
932
933 let mut incoming_call_c = active_call_c.read_with(cx_c, |call, _| call.incoming());
934 assert!(incoming_call_c.next().await.unwrap().is_some());
935 active_call_c
936 .update(cx_c, |call, cx| call.accept_incoming(cx))
937 .await
938 .unwrap();
939
940 let room_c = active_call_c.read_with(cx_c, |call, _| call.room().unwrap().clone());
941
942 // User D receives the call but doesn't join the room yet.
943
944 let mut incoming_call_d = active_call_d.read_with(cx_d, |call, _| call.incoming());
945 assert!(incoming_call_d.next().await.unwrap().is_some());
946
947 executor.run_until_parked();
948 assert_eq!(
949 room_participants(&room_a, cx_a),
950 RoomParticipants {
951 remote: vec!["user_b".to_string(), "user_c".to_string()],
952 pending: vec!["user_d".to_string()]
953 }
954 );
955 assert_eq!(
956 room_participants(&room_b, cx_b),
957 RoomParticipants {
958 remote: vec!["user_a".to_string(), "user_c".to_string()],
959 pending: vec!["user_d".to_string()]
960 }
961 );
962 assert_eq!(
963 room_participants(&room_c, cx_c),
964 RoomParticipants {
965 remote: vec!["user_a".to_string(), "user_b".to_string()],
966 pending: vec!["user_d".to_string()]
967 }
968 );
969
970 // The server is torn down.
971 server.reset().await;
972
973 // Users A and B reconnect to the call. User C has troubles reconnecting, so it leaves the room.
974 client_c.override_establish_connection(|_, cx| cx.spawn(|_| future::pending()));
975 executor.advance_clock(RECONNECT_TIMEOUT);
976 assert_eq!(
977 room_participants(&room_a, cx_a),
978 RoomParticipants {
979 remote: vec!["user_b".to_string(), "user_c".to_string()],
980 pending: vec!["user_d".to_string()]
981 }
982 );
983 assert_eq!(
984 room_participants(&room_b, cx_b),
985 RoomParticipants {
986 remote: vec!["user_a".to_string(), "user_c".to_string()],
987 pending: vec!["user_d".to_string()]
988 }
989 );
990 assert_eq!(
991 room_participants(&room_c, cx_c),
992 RoomParticipants {
993 remote: vec![],
994 pending: vec![]
995 }
996 );
997
998 // User D is notified again of the incoming call and accepts it.
999 assert!(incoming_call_d.next().await.unwrap().is_some());
1000 active_call_d
1001 .update(cx_d, |call, cx| call.accept_incoming(cx))
1002 .await
1003 .unwrap();
1004 executor.run_until_parked();
1005
1006 let room_d = active_call_d.read_with(cx_d, |call, _| call.room().unwrap().clone());
1007 assert_eq!(
1008 room_participants(&room_a, cx_a),
1009 RoomParticipants {
1010 remote: vec![
1011 "user_b".to_string(),
1012 "user_c".to_string(),
1013 "user_d".to_string(),
1014 ],
1015 pending: vec![]
1016 }
1017 );
1018 assert_eq!(
1019 room_participants(&room_b, cx_b),
1020 RoomParticipants {
1021 remote: vec![
1022 "user_a".to_string(),
1023 "user_c".to_string(),
1024 "user_d".to_string(),
1025 ],
1026 pending: vec![]
1027 }
1028 );
1029 assert_eq!(
1030 room_participants(&room_c, cx_c),
1031 RoomParticipants {
1032 remote: vec![],
1033 pending: vec![]
1034 }
1035 );
1036 assert_eq!(
1037 room_participants(&room_d, cx_d),
1038 RoomParticipants {
1039 remote: vec![
1040 "user_a".to_string(),
1041 "user_b".to_string(),
1042 "user_c".to_string(),
1043 ],
1044 pending: vec![]
1045 }
1046 );
1047
1048 // The server finishes restarting, cleaning up stale connections.
1049 server.start().await.unwrap();
1050 executor.advance_clock(CLEANUP_TIMEOUT);
1051 assert_eq!(
1052 room_participants(&room_a, cx_a),
1053 RoomParticipants {
1054 remote: vec!["user_b".to_string(), "user_d".to_string()],
1055 pending: vec![]
1056 }
1057 );
1058 assert_eq!(
1059 room_participants(&room_b, cx_b),
1060 RoomParticipants {
1061 remote: vec!["user_a".to_string(), "user_d".to_string()],
1062 pending: vec![]
1063 }
1064 );
1065 assert_eq!(
1066 room_participants(&room_c, cx_c),
1067 RoomParticipants {
1068 remote: vec![],
1069 pending: vec![]
1070 }
1071 );
1072 assert_eq!(
1073 room_participants(&room_d, cx_d),
1074 RoomParticipants {
1075 remote: vec!["user_a".to_string(), "user_b".to_string()],
1076 pending: vec![]
1077 }
1078 );
1079
1080 // User D hangs up.
1081 active_call_d
1082 .update(cx_d, |call, cx| call.hang_up(cx))
1083 .await
1084 .unwrap();
1085 executor.run_until_parked();
1086 assert_eq!(
1087 room_participants(&room_a, cx_a),
1088 RoomParticipants {
1089 remote: vec!["user_b".to_string()],
1090 pending: vec![]
1091 }
1092 );
1093 assert_eq!(
1094 room_participants(&room_b, cx_b),
1095 RoomParticipants {
1096 remote: vec!["user_a".to_string()],
1097 pending: vec![]
1098 }
1099 );
1100 assert_eq!(
1101 room_participants(&room_c, cx_c),
1102 RoomParticipants {
1103 remote: vec![],
1104 pending: vec![]
1105 }
1106 );
1107 assert_eq!(
1108 room_participants(&room_d, cx_d),
1109 RoomParticipants {
1110 remote: vec![],
1111 pending: vec![]
1112 }
1113 );
1114
1115 // User B calls user D again.
1116 active_call_b
1117 .update(cx_b, |call, cx| {
1118 call.invite(client_d.user_id().unwrap(), None, cx)
1119 })
1120 .await
1121 .unwrap();
1122
1123 // User D receives the call but doesn't join the room yet.
1124
1125 let mut incoming_call_d = active_call_d.read_with(cx_d, |call, _| call.incoming());
1126 assert!(incoming_call_d.next().await.unwrap().is_some());
1127 executor.run_until_parked();
1128 assert_eq!(
1129 room_participants(&room_a, cx_a),
1130 RoomParticipants {
1131 remote: vec!["user_b".to_string()],
1132 pending: vec!["user_d".to_string()]
1133 }
1134 );
1135 assert_eq!(
1136 room_participants(&room_b, cx_b),
1137 RoomParticipants {
1138 remote: vec!["user_a".to_string()],
1139 pending: vec!["user_d".to_string()]
1140 }
1141 );
1142
1143 // The server is torn down.
1144 server.reset().await;
1145
1146 // Users A and B have troubles reconnecting, so they leave the room.
1147 client_a.override_establish_connection(|_, cx| cx.spawn(|_| future::pending()));
1148 client_b.override_establish_connection(|_, cx| cx.spawn(|_| future::pending()));
1149 client_c.override_establish_connection(|_, cx| cx.spawn(|_| future::pending()));
1150 executor.advance_clock(RECONNECT_TIMEOUT);
1151 assert_eq!(
1152 room_participants(&room_a, cx_a),
1153 RoomParticipants {
1154 remote: vec![],
1155 pending: vec![]
1156 }
1157 );
1158 assert_eq!(
1159 room_participants(&room_b, cx_b),
1160 RoomParticipants {
1161 remote: vec![],
1162 pending: vec![]
1163 }
1164 );
1165
1166 // User D is notified again of the incoming call but doesn't accept it.
1167 assert!(incoming_call_d.next().await.unwrap().is_some());
1168
1169 // The server finishes restarting, cleaning up stale connections and canceling the
1170 // call to user D because the room has become empty.
1171 server.start().await.unwrap();
1172 executor.advance_clock(CLEANUP_TIMEOUT);
1173 assert!(incoming_call_d.next().await.unwrap().is_none());
1174}
1175
1176#[gpui::test(iterations = 10)]
1177async fn test_calls_on_multiple_connections(
1178 executor: BackgroundExecutor,
1179 cx_a: &mut TestAppContext,
1180 cx_b1: &mut TestAppContext,
1181 cx_b2: &mut TestAppContext,
1182) {
1183 let mut server = TestServer::start(executor.clone()).await;
1184 let client_a = server.create_client(cx_a, "user_a").await;
1185 let client_b1 = server.create_client(cx_b1, "user_b").await;
1186 let client_b2 = server.create_client(cx_b2, "user_b").await;
1187 server
1188 .make_contacts(&mut [(&client_a, cx_a), (&client_b1, cx_b1)])
1189 .await;
1190
1191 let active_call_a = cx_a.read(ActiveCall::global);
1192 let active_call_b1 = cx_b1.read(ActiveCall::global);
1193 let active_call_b2 = cx_b2.read(ActiveCall::global);
1194
1195 let mut incoming_call_b1 = active_call_b1.read_with(cx_b1, |call, _| call.incoming());
1196
1197 let mut incoming_call_b2 = active_call_b2.read_with(cx_b2, |call, _| call.incoming());
1198 assert!(incoming_call_b1.next().await.unwrap().is_none());
1199 assert!(incoming_call_b2.next().await.unwrap().is_none());
1200
1201 // Call user B from client A, ensuring both clients for user B ring.
1202 active_call_a
1203 .update(cx_a, |call, cx| {
1204 call.invite(client_b1.user_id().unwrap(), None, cx)
1205 })
1206 .await
1207 .unwrap();
1208 executor.run_until_parked();
1209 assert!(incoming_call_b1.next().await.unwrap().is_some());
1210 assert!(incoming_call_b2.next().await.unwrap().is_some());
1211
1212 // User B declines the call on one of the two connections, causing both connections
1213 // to stop ringing.
1214 active_call_b2.update(cx_b2, |call, cx| call.decline_incoming(cx).unwrap());
1215 executor.run_until_parked();
1216 assert!(incoming_call_b1.next().await.unwrap().is_none());
1217 assert!(incoming_call_b2.next().await.unwrap().is_none());
1218
1219 // Call user B again from client A.
1220 active_call_a
1221 .update(cx_a, |call, cx| {
1222 call.invite(client_b1.user_id().unwrap(), None, cx)
1223 })
1224 .await
1225 .unwrap();
1226 executor.run_until_parked();
1227 assert!(incoming_call_b1.next().await.unwrap().is_some());
1228 assert!(incoming_call_b2.next().await.unwrap().is_some());
1229
1230 // User B accepts the call on one of the two connections, causing both connections
1231 // to stop ringing.
1232 active_call_b2
1233 .update(cx_b2, |call, cx| call.accept_incoming(cx))
1234 .await
1235 .unwrap();
1236 executor.run_until_parked();
1237 assert!(incoming_call_b1.next().await.unwrap().is_none());
1238 assert!(incoming_call_b2.next().await.unwrap().is_none());
1239
1240 // User B disconnects the client that is not on the call. Everything should be fine.
1241 client_b1.disconnect(&cx_b1.to_async());
1242 executor.advance_clock(RECEIVE_TIMEOUT);
1243 client_b1
1244 .authenticate_and_connect(false, &cx_b1.to_async())
1245 .await
1246 .unwrap();
1247
1248 // User B hangs up, and user A calls them again.
1249 active_call_b2
1250 .update(cx_b2, |call, cx| call.hang_up(cx))
1251 .await
1252 .unwrap();
1253 executor.run_until_parked();
1254 active_call_a
1255 .update(cx_a, |call, cx| {
1256 call.invite(client_b1.user_id().unwrap(), None, cx)
1257 })
1258 .await
1259 .unwrap();
1260 executor.run_until_parked();
1261 assert!(incoming_call_b1.next().await.unwrap().is_some());
1262 assert!(incoming_call_b2.next().await.unwrap().is_some());
1263
1264 // User A cancels the call, causing both connections to stop ringing.
1265 active_call_a
1266 .update(cx_a, |call, cx| {
1267 call.cancel_invite(client_b1.user_id().unwrap(), cx)
1268 })
1269 .await
1270 .unwrap();
1271 executor.run_until_parked();
1272 assert!(incoming_call_b1.next().await.unwrap().is_none());
1273 assert!(incoming_call_b2.next().await.unwrap().is_none());
1274
1275 // User A calls user B again.
1276 active_call_a
1277 .update(cx_a, |call, cx| {
1278 call.invite(client_b1.user_id().unwrap(), None, cx)
1279 })
1280 .await
1281 .unwrap();
1282 executor.run_until_parked();
1283 assert!(incoming_call_b1.next().await.unwrap().is_some());
1284 assert!(incoming_call_b2.next().await.unwrap().is_some());
1285
1286 // User A hangs up, causing both connections to stop ringing.
1287 active_call_a
1288 .update(cx_a, |call, cx| call.hang_up(cx))
1289 .await
1290 .unwrap();
1291 executor.run_until_parked();
1292 assert!(incoming_call_b1.next().await.unwrap().is_none());
1293 assert!(incoming_call_b2.next().await.unwrap().is_none());
1294
1295 // User A calls user B again.
1296 active_call_a
1297 .update(cx_a, |call, cx| {
1298 call.invite(client_b1.user_id().unwrap(), None, cx)
1299 })
1300 .await
1301 .unwrap();
1302 executor.run_until_parked();
1303 assert!(incoming_call_b1.next().await.unwrap().is_some());
1304 assert!(incoming_call_b2.next().await.unwrap().is_some());
1305
1306 // User A disconnects, causing both connections to stop ringing.
1307 server.forbid_connections();
1308 server.disconnect_client(client_a.peer_id().unwrap());
1309 executor.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
1310 assert!(incoming_call_b1.next().await.unwrap().is_none());
1311 assert!(incoming_call_b2.next().await.unwrap().is_none());
1312
1313 // User A reconnects automatically, then calls user B again.
1314 server.allow_connections();
1315 executor.advance_clock(RECEIVE_TIMEOUT);
1316 active_call_a
1317 .update(cx_a, |call, cx| {
1318 call.invite(client_b1.user_id().unwrap(), None, cx)
1319 })
1320 .await
1321 .unwrap();
1322 executor.run_until_parked();
1323 assert!(incoming_call_b1.next().await.unwrap().is_some());
1324 assert!(incoming_call_b2.next().await.unwrap().is_some());
1325
1326 // User B disconnects all clients, causing user A to no longer see a pending call for them.
1327 server.forbid_connections();
1328 server.disconnect_client(client_b1.peer_id().unwrap());
1329 server.disconnect_client(client_b2.peer_id().unwrap());
1330 executor.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
1331
1332 active_call_a.read_with(cx_a, |call, _| assert!(call.room().is_none()));
1333}
1334
1335#[gpui::test(iterations = 10)]
1336async fn test_unshare_project(
1337 executor: BackgroundExecutor,
1338 cx_a: &mut TestAppContext,
1339 cx_b: &mut TestAppContext,
1340 cx_c: &mut TestAppContext,
1341) {
1342 let mut server = TestServer::start(executor.clone()).await;
1343 let client_a = server.create_client(cx_a, "user_a").await;
1344 let client_b = server.create_client(cx_b, "user_b").await;
1345 let client_c = server.create_client(cx_c, "user_c").await;
1346 server
1347 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
1348 .await;
1349
1350 let active_call_a = cx_a.read(ActiveCall::global);
1351 let active_call_b = cx_b.read(ActiveCall::global);
1352
1353 client_a
1354 .fs()
1355 .insert_tree(
1356 "/a",
1357 json!({
1358 "a.txt": "a-contents",
1359 "b.txt": "b-contents",
1360 }),
1361 )
1362 .await;
1363
1364 let (project_a, worktree_id) = client_a.build_local_project("/a", cx_a).await;
1365 let project_id = active_call_a
1366 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
1367 .await
1368 .unwrap();
1369
1370 let worktree_a = project_a.read_with(cx_a, |project, _| project.worktrees().next().unwrap());
1371 let project_b = client_b.build_remote_project(project_id, cx_b).await;
1372 executor.run_until_parked();
1373
1374 assert!(worktree_a.read_with(cx_a, |tree, _| tree.as_local().unwrap().is_shared()));
1375
1376 project_b
1377 .update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
1378 .await
1379 .unwrap();
1380
1381 // When client B leaves the room, the project becomes read-only.
1382 active_call_b
1383 .update(cx_b, |call, cx| call.hang_up(cx))
1384 .await
1385 .unwrap();
1386 executor.run_until_parked();
1387
1388 assert!(project_b.read_with(cx_b, |project, _| project.is_disconnected()));
1389
1390 // Client C opens the project.
1391 let project_c = client_c.build_remote_project(project_id, cx_c).await;
1392
1393 // When client A unshares the project, client C's project becomes read-only.
1394 project_a
1395 .update(cx_a, |project, cx| project.unshare(cx))
1396 .unwrap();
1397 executor.run_until_parked();
1398
1399 assert!(worktree_a.read_with(cx_a, |tree, _| !tree.as_local().unwrap().is_shared()));
1400
1401 assert!(project_c.read_with(cx_c, |project, _| project.is_disconnected()));
1402
1403 // Client C can open the project again after client A re-shares.
1404 let project_id = active_call_a
1405 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
1406 .await
1407 .unwrap();
1408 let project_c2 = client_c.build_remote_project(project_id, cx_c).await;
1409 executor.run_until_parked();
1410
1411 assert!(worktree_a.read_with(cx_a, |tree, _| tree.as_local().unwrap().is_shared()));
1412 project_c2
1413 .update(cx_c, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
1414 .await
1415 .unwrap();
1416
1417 // When client A (the host) leaves the room, the project gets unshared and guests are notified.
1418 active_call_a
1419 .update(cx_a, |call, cx| call.hang_up(cx))
1420 .await
1421 .unwrap();
1422 executor.run_until_parked();
1423
1424 project_a.read_with(cx_a, |project, _| assert!(!project.is_shared()));
1425
1426 project_c2.read_with(cx_c, |project, _| {
1427 assert!(project.is_disconnected());
1428 assert!(project.collaborators().is_empty());
1429 });
1430}
1431
1432#[gpui::test(iterations = 10)]
1433async fn test_project_reconnect(
1434 executor: BackgroundExecutor,
1435 cx_a: &mut TestAppContext,
1436 cx_b: &mut TestAppContext,
1437) {
1438 let mut server = TestServer::start(executor.clone()).await;
1439 let client_a = server.create_client(cx_a, "user_a").await;
1440 let client_b = server.create_client(cx_b, "user_b").await;
1441 server
1442 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
1443 .await;
1444
1445 cx_b.update(editor::init);
1446
1447 client_a
1448 .fs()
1449 .insert_tree(
1450 "/root-1",
1451 json!({
1452 "dir1": {
1453 "a.txt": "a",
1454 "b.txt": "b",
1455 "subdir1": {
1456 "c.txt": "c",
1457 "d.txt": "d",
1458 "e.txt": "e",
1459 }
1460 },
1461 "dir2": {
1462 "v.txt": "v",
1463 },
1464 "dir3": {
1465 "w.txt": "w",
1466 "x.txt": "x",
1467 "y.txt": "y",
1468 },
1469 "dir4": {
1470 "z.txt": "z",
1471 },
1472 }),
1473 )
1474 .await;
1475 client_a
1476 .fs()
1477 .insert_tree(
1478 "/root-2",
1479 json!({
1480 "2.txt": "2",
1481 }),
1482 )
1483 .await;
1484 client_a
1485 .fs()
1486 .insert_tree(
1487 "/root-3",
1488 json!({
1489 "3.txt": "3",
1490 }),
1491 )
1492 .await;
1493
1494 let active_call_a = cx_a.read(ActiveCall::global);
1495 let (project_a1, _) = client_a.build_local_project("/root-1/dir1", cx_a).await;
1496 let (project_a2, _) = client_a.build_local_project("/root-2", cx_a).await;
1497 let (project_a3, _) = client_a.build_local_project("/root-3", cx_a).await;
1498 let worktree_a1 = project_a1.read_with(cx_a, |project, _| project.worktrees().next().unwrap());
1499 let project1_id = active_call_a
1500 .update(cx_a, |call, cx| call.share_project(project_a1.clone(), cx))
1501 .await
1502 .unwrap();
1503 let project2_id = active_call_a
1504 .update(cx_a, |call, cx| call.share_project(project_a2.clone(), cx))
1505 .await
1506 .unwrap();
1507 let project3_id = active_call_a
1508 .update(cx_a, |call, cx| call.share_project(project_a3.clone(), cx))
1509 .await
1510 .unwrap();
1511
1512 let project_b1 = client_b.build_remote_project(project1_id, cx_b).await;
1513 let project_b2 = client_b.build_remote_project(project2_id, cx_b).await;
1514 let project_b3 = client_b.build_remote_project(project3_id, cx_b).await;
1515 executor.run_until_parked();
1516
1517 let worktree1_id = worktree_a1.read_with(cx_a, |worktree, _| {
1518 assert!(worktree.as_local().unwrap().is_shared());
1519 worktree.id()
1520 });
1521 let (worktree_a2, _) = project_a1
1522 .update(cx_a, |p, cx| {
1523 p.find_or_create_local_worktree("/root-1/dir2", true, cx)
1524 })
1525 .await
1526 .unwrap();
1527 executor.run_until_parked();
1528
1529 let worktree2_id = worktree_a2.read_with(cx_a, |tree, _| {
1530 assert!(tree.as_local().unwrap().is_shared());
1531 tree.id()
1532 });
1533 executor.run_until_parked();
1534
1535 project_b1.read_with(cx_b, |project, cx| {
1536 assert!(project.worktree_for_id(worktree2_id, cx).is_some())
1537 });
1538
1539 let buffer_a1 = project_a1
1540 .update(cx_a, |p, cx| p.open_buffer((worktree1_id, "a.txt"), cx))
1541 .await
1542 .unwrap();
1543 let buffer_b1 = project_b1
1544 .update(cx_b, |p, cx| p.open_buffer((worktree1_id, "a.txt"), cx))
1545 .await
1546 .unwrap();
1547
1548 // Drop client A's connection.
1549 server.forbid_connections();
1550 server.disconnect_client(client_a.peer_id().unwrap());
1551 executor.advance_clock(RECEIVE_TIMEOUT);
1552
1553 project_a1.read_with(cx_a, |project, _| {
1554 assert!(project.is_shared());
1555 assert_eq!(project.collaborators().len(), 1);
1556 });
1557
1558 project_b1.read_with(cx_b, |project, _| {
1559 assert!(!project.is_disconnected());
1560 assert_eq!(project.collaborators().len(), 1);
1561 });
1562
1563 worktree_a1.read_with(cx_a, |tree, _| {
1564 assert!(tree.as_local().unwrap().is_shared())
1565 });
1566
1567 // While client A is disconnected, add and remove files from client A's project.
1568 client_a
1569 .fs()
1570 .insert_tree(
1571 "/root-1/dir1/subdir2",
1572 json!({
1573 "f.txt": "f-contents",
1574 "g.txt": "g-contents",
1575 "h.txt": "h-contents",
1576 "i.txt": "i-contents",
1577 }),
1578 )
1579 .await;
1580 client_a
1581 .fs()
1582 .remove_dir(
1583 "/root-1/dir1/subdir1".as_ref(),
1584 RemoveOptions {
1585 recursive: true,
1586 ..Default::default()
1587 },
1588 )
1589 .await
1590 .unwrap();
1591
1592 // While client A is disconnected, add and remove worktrees from client A's project.
1593 project_a1.update(cx_a, |project, cx| {
1594 project.remove_worktree(worktree2_id, cx)
1595 });
1596 let (worktree_a3, _) = project_a1
1597 .update(cx_a, |p, cx| {
1598 p.find_or_create_local_worktree("/root-1/dir3", true, cx)
1599 })
1600 .await
1601 .unwrap();
1602 worktree_a3
1603 .read_with(cx_a, |tree, _| tree.as_local().unwrap().scan_complete())
1604 .await;
1605
1606 let worktree3_id = worktree_a3.read_with(cx_a, |tree, _| {
1607 assert!(!tree.as_local().unwrap().is_shared());
1608 tree.id()
1609 });
1610 executor.run_until_parked();
1611
1612 // While client A is disconnected, close project 2
1613 cx_a.update(|_| drop(project_a2));
1614
1615 // While client A is disconnected, mutate a buffer on both the host and the guest.
1616 buffer_a1.update(cx_a, |buf, cx| buf.edit([(0..0, "W")], None, cx));
1617 buffer_b1.update(cx_b, |buf, cx| buf.edit([(1..1, "Z")], None, cx));
1618 executor.run_until_parked();
1619
1620 // Client A reconnects. Their project is re-shared, and client B re-joins it.
1621 server.allow_connections();
1622 client_a
1623 .authenticate_and_connect(false, &cx_a.to_async())
1624 .await
1625 .unwrap();
1626 executor.run_until_parked();
1627
1628 project_a1.read_with(cx_a, |project, cx| {
1629 assert!(project.is_shared());
1630 assert!(worktree_a1.read(cx).as_local().unwrap().is_shared());
1631 assert_eq!(
1632 worktree_a1
1633 .read(cx)
1634 .snapshot()
1635 .paths()
1636 .map(|p| p.to_str().unwrap())
1637 .collect::<Vec<_>>(),
1638 vec![
1639 "a.txt",
1640 "b.txt",
1641 "subdir2",
1642 "subdir2/f.txt",
1643 "subdir2/g.txt",
1644 "subdir2/h.txt",
1645 "subdir2/i.txt"
1646 ]
1647 );
1648 assert!(worktree_a3.read(cx).as_local().unwrap().is_shared());
1649 assert_eq!(
1650 worktree_a3
1651 .read(cx)
1652 .snapshot()
1653 .paths()
1654 .map(|p| p.to_str().unwrap())
1655 .collect::<Vec<_>>(),
1656 vec!["w.txt", "x.txt", "y.txt"]
1657 );
1658 });
1659
1660 project_b1.read_with(cx_b, |project, cx| {
1661 assert!(!project.is_disconnected());
1662 assert_eq!(
1663 project
1664 .worktree_for_id(worktree1_id, cx)
1665 .unwrap()
1666 .read(cx)
1667 .snapshot()
1668 .paths()
1669 .map(|p| p.to_str().unwrap())
1670 .collect::<Vec<_>>(),
1671 vec![
1672 "a.txt",
1673 "b.txt",
1674 "subdir2",
1675 "subdir2/f.txt",
1676 "subdir2/g.txt",
1677 "subdir2/h.txt",
1678 "subdir2/i.txt"
1679 ]
1680 );
1681 assert!(project.worktree_for_id(worktree2_id, cx).is_none());
1682 assert_eq!(
1683 project
1684 .worktree_for_id(worktree3_id, cx)
1685 .unwrap()
1686 .read(cx)
1687 .snapshot()
1688 .paths()
1689 .map(|p| p.to_str().unwrap())
1690 .collect::<Vec<_>>(),
1691 vec!["w.txt", "x.txt", "y.txt"]
1692 );
1693 });
1694
1695 project_b2.read_with(cx_b, |project, _| assert!(project.is_disconnected()));
1696
1697 project_b3.read_with(cx_b, |project, _| assert!(!project.is_disconnected()));
1698
1699 buffer_a1.read_with(cx_a, |buffer, _| assert_eq!(buffer.text(), "WaZ"));
1700
1701 buffer_b1.read_with(cx_b, |buffer, _| assert_eq!(buffer.text(), "WaZ"));
1702
1703 // Drop client B's connection.
1704 server.forbid_connections();
1705 server.disconnect_client(client_b.peer_id().unwrap());
1706 executor.advance_clock(RECEIVE_TIMEOUT);
1707
1708 // While client B is disconnected, add and remove files from client A's project
1709 client_a
1710 .fs()
1711 .insert_file("/root-1/dir1/subdir2/j.txt", "j-contents".into())
1712 .await;
1713 client_a
1714 .fs()
1715 .remove_file("/root-1/dir1/subdir2/i.txt".as_ref(), Default::default())
1716 .await
1717 .unwrap();
1718
1719 // While client B is disconnected, add and remove worktrees from client A's project.
1720 let (worktree_a4, _) = project_a1
1721 .update(cx_a, |p, cx| {
1722 p.find_or_create_local_worktree("/root-1/dir4", true, cx)
1723 })
1724 .await
1725 .unwrap();
1726 executor.run_until_parked();
1727
1728 let worktree4_id = worktree_a4.read_with(cx_a, |tree, _| {
1729 assert!(tree.as_local().unwrap().is_shared());
1730 tree.id()
1731 });
1732 project_a1.update(cx_a, |project, cx| {
1733 project.remove_worktree(worktree3_id, cx)
1734 });
1735 executor.run_until_parked();
1736
1737 // While client B is disconnected, mutate a buffer on both the host and the guest.
1738 buffer_a1.update(cx_a, |buf, cx| buf.edit([(1..1, "X")], None, cx));
1739 buffer_b1.update(cx_b, |buf, cx| buf.edit([(2..2, "Y")], None, cx));
1740 executor.run_until_parked();
1741
1742 // While disconnected, close project 3
1743 cx_a.update(|_| drop(project_a3));
1744
1745 // Client B reconnects. They re-join the room and the remaining shared project.
1746 server.allow_connections();
1747 client_b
1748 .authenticate_and_connect(false, &cx_b.to_async())
1749 .await
1750 .unwrap();
1751 executor.run_until_parked();
1752
1753 project_b1.read_with(cx_b, |project, cx| {
1754 assert!(!project.is_disconnected());
1755 assert_eq!(
1756 project
1757 .worktree_for_id(worktree1_id, cx)
1758 .unwrap()
1759 .read(cx)
1760 .snapshot()
1761 .paths()
1762 .map(|p| p.to_str().unwrap())
1763 .collect::<Vec<_>>(),
1764 vec![
1765 "a.txt",
1766 "b.txt",
1767 "subdir2",
1768 "subdir2/f.txt",
1769 "subdir2/g.txt",
1770 "subdir2/h.txt",
1771 "subdir2/j.txt"
1772 ]
1773 );
1774 assert!(project.worktree_for_id(worktree2_id, cx).is_none());
1775 assert_eq!(
1776 project
1777 .worktree_for_id(worktree4_id, cx)
1778 .unwrap()
1779 .read(cx)
1780 .snapshot()
1781 .paths()
1782 .map(|p| p.to_str().unwrap())
1783 .collect::<Vec<_>>(),
1784 vec!["z.txt"]
1785 );
1786 });
1787
1788 project_b3.read_with(cx_b, |project, _| assert!(project.is_disconnected()));
1789
1790 buffer_a1.read_with(cx_a, |buffer, _| assert_eq!(buffer.text(), "WXaYZ"));
1791
1792 buffer_b1.read_with(cx_b, |buffer, _| assert_eq!(buffer.text(), "WXaYZ"));
1793}
1794
1795#[gpui::test(iterations = 10)]
1796async fn test_active_call_events(
1797 executor: BackgroundExecutor,
1798 cx_a: &mut TestAppContext,
1799 cx_b: &mut TestAppContext,
1800) {
1801 let mut server = TestServer::start(executor.clone()).await;
1802 let client_a = server.create_client(cx_a, "user_a").await;
1803 let client_b = server.create_client(cx_b, "user_b").await;
1804 client_a.fs().insert_tree("/a", json!({})).await;
1805 client_b.fs().insert_tree("/b", json!({})).await;
1806
1807 let (project_a, _) = client_a.build_local_project("/a", cx_a).await;
1808 let (project_b, _) = client_b.build_local_project("/b", cx_b).await;
1809
1810 server
1811 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
1812 .await;
1813 let active_call_a = cx_a.read(ActiveCall::global);
1814 let active_call_b = cx_b.read(ActiveCall::global);
1815
1816 let events_a = active_call_events(cx_a);
1817 let events_b = active_call_events(cx_b);
1818
1819 let project_a_id = active_call_a
1820 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
1821 .await
1822 .unwrap();
1823 executor.run_until_parked();
1824 assert_eq!(mem::take(&mut *events_a.borrow_mut()), vec![]);
1825 assert_eq!(
1826 mem::take(&mut *events_b.borrow_mut()),
1827 vec![room::Event::RemoteProjectShared {
1828 owner: Arc::new(User {
1829 id: client_a.user_id().unwrap(),
1830 github_login: "user_a".to_string(),
1831 avatar_uri: "avatar_a".into(),
1832 }),
1833 project_id: project_a_id,
1834 worktree_root_names: vec!["a".to_string()],
1835 }]
1836 );
1837
1838 let project_b_id = active_call_b
1839 .update(cx_b, |call, cx| call.share_project(project_b.clone(), cx))
1840 .await
1841 .unwrap();
1842 executor.run_until_parked();
1843 assert_eq!(
1844 mem::take(&mut *events_a.borrow_mut()),
1845 vec![room::Event::RemoteProjectShared {
1846 owner: Arc::new(User {
1847 id: client_b.user_id().unwrap(),
1848 github_login: "user_b".to_string(),
1849 avatar_uri: "avatar_b".into(),
1850 }),
1851 project_id: project_b_id,
1852 worktree_root_names: vec!["b".to_string()]
1853 }]
1854 );
1855 assert_eq!(mem::take(&mut *events_b.borrow_mut()), vec![]);
1856
1857 // Sharing a project twice is idempotent.
1858 let project_b_id_2 = active_call_b
1859 .update(cx_b, |call, cx| call.share_project(project_b.clone(), cx))
1860 .await
1861 .unwrap();
1862 assert_eq!(project_b_id_2, project_b_id);
1863 executor.run_until_parked();
1864 assert_eq!(mem::take(&mut *events_a.borrow_mut()), vec![]);
1865 assert_eq!(mem::take(&mut *events_b.borrow_mut()), vec![]);
1866}
1867
1868fn active_call_events(cx: &mut TestAppContext) -> Rc<RefCell<Vec<room::Event>>> {
1869 let events = Rc::new(RefCell::new(Vec::new()));
1870 let active_call = cx.read(ActiveCall::global);
1871 cx.update({
1872 let events = events.clone();
1873 |cx| {
1874 cx.subscribe(&active_call, move |_, event, _| {
1875 events.borrow_mut().push(event.clone())
1876 })
1877 .detach()
1878 }
1879 });
1880 events
1881}
1882
1883#[gpui::test]
1884async fn test_mute_deafen(
1885 executor: BackgroundExecutor,
1886 cx_a: &mut TestAppContext,
1887 cx_b: &mut TestAppContext,
1888 cx_c: &mut TestAppContext,
1889) {
1890 let mut server = TestServer::start(executor.clone()).await;
1891 let client_a = server.create_client(cx_a, "user_a").await;
1892 let client_b = server.create_client(cx_b, "user_b").await;
1893 let client_c = server.create_client(cx_c, "user_c").await;
1894
1895 server
1896 .make_contacts(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
1897 .await;
1898
1899 let active_call_a = cx_a.read(ActiveCall::global);
1900 let active_call_b = cx_b.read(ActiveCall::global);
1901 let active_call_c = cx_c.read(ActiveCall::global);
1902
1903 // User A calls user B, B answers.
1904 active_call_a
1905 .update(cx_a, |call, cx| {
1906 call.invite(client_b.user_id().unwrap(), None, cx)
1907 })
1908 .await
1909 .unwrap();
1910 executor.run_until_parked();
1911 active_call_b
1912 .update(cx_b, |call, cx| call.accept_incoming(cx))
1913 .await
1914 .unwrap();
1915 executor.run_until_parked();
1916
1917 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
1918 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
1919
1920 room_a.read_with(cx_a, |room, _| assert!(!room.is_muted()));
1921 room_b.read_with(cx_b, |room, _| assert!(!room.is_muted()));
1922
1923 // Users A and B are both muted.
1924 assert_eq!(
1925 participant_audio_state(&room_a, cx_a),
1926 &[ParticipantAudioState {
1927 user_id: client_b.user_id().unwrap(),
1928 is_muted: false,
1929 audio_tracks_playing: vec![true],
1930 }]
1931 );
1932 assert_eq!(
1933 participant_audio_state(&room_b, cx_b),
1934 &[ParticipantAudioState {
1935 user_id: client_a.user_id().unwrap(),
1936 is_muted: false,
1937 audio_tracks_playing: vec![true],
1938 }]
1939 );
1940
1941 // User A mutes
1942 room_a.update(cx_a, |room, cx| room.toggle_mute(cx));
1943 executor.run_until_parked();
1944
1945 // User A hears user B, but B doesn't hear A.
1946 room_a.read_with(cx_a, |room, _| assert!(room.is_muted()));
1947 room_b.read_with(cx_b, |room, _| assert!(!room.is_muted()));
1948 assert_eq!(
1949 participant_audio_state(&room_a, cx_a),
1950 &[ParticipantAudioState {
1951 user_id: client_b.user_id().unwrap(),
1952 is_muted: false,
1953 audio_tracks_playing: vec![true],
1954 }]
1955 );
1956 assert_eq!(
1957 participant_audio_state(&room_b, cx_b),
1958 &[ParticipantAudioState {
1959 user_id: client_a.user_id().unwrap(),
1960 is_muted: true,
1961 audio_tracks_playing: vec![true],
1962 }]
1963 );
1964
1965 // User A deafens
1966 room_a.update(cx_a, |room, cx| room.toggle_deafen(cx));
1967 executor.run_until_parked();
1968
1969 // User A does not hear user B.
1970 room_a.read_with(cx_a, |room, _| assert!(room.is_muted()));
1971 room_b.read_with(cx_b, |room, _| assert!(!room.is_muted()));
1972 assert_eq!(
1973 participant_audio_state(&room_a, cx_a),
1974 &[ParticipantAudioState {
1975 user_id: client_b.user_id().unwrap(),
1976 is_muted: false,
1977 audio_tracks_playing: vec![false],
1978 }]
1979 );
1980 assert_eq!(
1981 participant_audio_state(&room_b, cx_b),
1982 &[ParticipantAudioState {
1983 user_id: client_a.user_id().unwrap(),
1984 is_muted: true,
1985 audio_tracks_playing: vec![true],
1986 }]
1987 );
1988
1989 // User B calls user C, C joins.
1990 active_call_b
1991 .update(cx_b, |call, cx| {
1992 call.invite(client_c.user_id().unwrap(), None, cx)
1993 })
1994 .await
1995 .unwrap();
1996 executor.run_until_parked();
1997 active_call_c
1998 .update(cx_c, |call, cx| call.accept_incoming(cx))
1999 .await
2000 .unwrap();
2001 executor.run_until_parked();
2002
2003 // User A does not hear users B or C.
2004 assert_eq!(
2005 participant_audio_state(&room_a, cx_a),
2006 &[
2007 ParticipantAudioState {
2008 user_id: client_b.user_id().unwrap(),
2009 is_muted: false,
2010 audio_tracks_playing: vec![false],
2011 },
2012 ParticipantAudioState {
2013 user_id: client_c.user_id().unwrap(),
2014 is_muted: false,
2015 audio_tracks_playing: vec![false],
2016 }
2017 ]
2018 );
2019 assert_eq!(
2020 participant_audio_state(&room_b, cx_b),
2021 &[
2022 ParticipantAudioState {
2023 user_id: client_a.user_id().unwrap(),
2024 is_muted: true,
2025 audio_tracks_playing: vec![true],
2026 },
2027 ParticipantAudioState {
2028 user_id: client_c.user_id().unwrap(),
2029 is_muted: false,
2030 audio_tracks_playing: vec![true],
2031 }
2032 ]
2033 );
2034
2035 #[derive(PartialEq, Eq, Debug)]
2036 struct ParticipantAudioState {
2037 user_id: u64,
2038 is_muted: bool,
2039 audio_tracks_playing: Vec<bool>,
2040 }
2041
2042 fn participant_audio_state(
2043 room: &Model<Room>,
2044 cx: &TestAppContext,
2045 ) -> Vec<ParticipantAudioState> {
2046 room.read_with(cx, |room, _| {
2047 room.remote_participants()
2048 .iter()
2049 .map(|(user_id, participant)| ParticipantAudioState {
2050 user_id: *user_id,
2051 is_muted: participant.muted,
2052 audio_tracks_playing: participant
2053 .audio_tracks
2054 .values()
2055 .map(|track| track.is_playing())
2056 .collect(),
2057 })
2058 .collect::<Vec<_>>()
2059 })
2060 }
2061}
2062
2063#[gpui::test(iterations = 10)]
2064async fn test_room_location(
2065 executor: BackgroundExecutor,
2066 cx_a: &mut TestAppContext,
2067 cx_b: &mut TestAppContext,
2068) {
2069 let mut server = TestServer::start(executor.clone()).await;
2070 let client_a = server.create_client(cx_a, "user_a").await;
2071 let client_b = server.create_client(cx_b, "user_b").await;
2072 client_a.fs().insert_tree("/a", json!({})).await;
2073 client_b.fs().insert_tree("/b", json!({})).await;
2074
2075 let active_call_a = cx_a.read(ActiveCall::global);
2076 let active_call_b = cx_b.read(ActiveCall::global);
2077
2078 let a_notified = Rc::new(Cell::new(false));
2079 cx_a.update({
2080 let notified = a_notified.clone();
2081 |cx| {
2082 cx.observe(&active_call_a, move |_, _| notified.set(true))
2083 .detach()
2084 }
2085 });
2086
2087 let b_notified = Rc::new(Cell::new(false));
2088 cx_b.update({
2089 let b_notified = b_notified.clone();
2090 |cx| {
2091 cx.observe(&active_call_b, move |_, _| b_notified.set(true))
2092 .detach()
2093 }
2094 });
2095
2096 let (project_a, _) = client_a.build_local_project("/a", cx_a).await;
2097 active_call_a
2098 .update(cx_a, |call, cx| call.set_location(Some(&project_a), cx))
2099 .await
2100 .unwrap();
2101 let (project_b, _) = client_b.build_local_project("/b", cx_b).await;
2102
2103 server
2104 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
2105 .await;
2106
2107 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
2108
2109 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
2110 executor.run_until_parked();
2111 assert!(a_notified.take());
2112 assert_eq!(
2113 participant_locations(&room_a, cx_a),
2114 vec![("user_b".to_string(), ParticipantLocation::External)]
2115 );
2116 assert!(b_notified.take());
2117 assert_eq!(
2118 participant_locations(&room_b, cx_b),
2119 vec![("user_a".to_string(), ParticipantLocation::UnsharedProject)]
2120 );
2121
2122 let project_a_id = active_call_a
2123 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
2124 .await
2125 .unwrap();
2126 executor.run_until_parked();
2127 assert!(a_notified.take());
2128 assert_eq!(
2129 participant_locations(&room_a, cx_a),
2130 vec![("user_b".to_string(), ParticipantLocation::External)]
2131 );
2132 assert!(b_notified.take());
2133 assert_eq!(
2134 participant_locations(&room_b, cx_b),
2135 vec![(
2136 "user_a".to_string(),
2137 ParticipantLocation::SharedProject {
2138 project_id: project_a_id
2139 }
2140 )]
2141 );
2142
2143 let project_b_id = active_call_b
2144 .update(cx_b, |call, cx| call.share_project(project_b.clone(), cx))
2145 .await
2146 .unwrap();
2147 executor.run_until_parked();
2148 assert!(a_notified.take());
2149 assert_eq!(
2150 participant_locations(&room_a, cx_a),
2151 vec![("user_b".to_string(), ParticipantLocation::External)]
2152 );
2153 assert!(b_notified.take());
2154 assert_eq!(
2155 participant_locations(&room_b, cx_b),
2156 vec![(
2157 "user_a".to_string(),
2158 ParticipantLocation::SharedProject {
2159 project_id: project_a_id
2160 }
2161 )]
2162 );
2163
2164 active_call_b
2165 .update(cx_b, |call, cx| call.set_location(Some(&project_b), cx))
2166 .await
2167 .unwrap();
2168 executor.run_until_parked();
2169 assert!(a_notified.take());
2170 assert_eq!(
2171 participant_locations(&room_a, cx_a),
2172 vec![(
2173 "user_b".to_string(),
2174 ParticipantLocation::SharedProject {
2175 project_id: project_b_id
2176 }
2177 )]
2178 );
2179 assert!(b_notified.take());
2180 assert_eq!(
2181 participant_locations(&room_b, cx_b),
2182 vec![(
2183 "user_a".to_string(),
2184 ParticipantLocation::SharedProject {
2185 project_id: project_a_id
2186 }
2187 )]
2188 );
2189
2190 active_call_b
2191 .update(cx_b, |call, cx| call.set_location(None, cx))
2192 .await
2193 .unwrap();
2194 executor.run_until_parked();
2195 assert!(a_notified.take());
2196 assert_eq!(
2197 participant_locations(&room_a, cx_a),
2198 vec![("user_b".to_string(), ParticipantLocation::External)]
2199 );
2200 assert!(b_notified.take());
2201 assert_eq!(
2202 participant_locations(&room_b, cx_b),
2203 vec![(
2204 "user_a".to_string(),
2205 ParticipantLocation::SharedProject {
2206 project_id: project_a_id
2207 }
2208 )]
2209 );
2210
2211 fn participant_locations(
2212 room: &Model<Room>,
2213 cx: &TestAppContext,
2214 ) -> Vec<(String, ParticipantLocation)> {
2215 room.read_with(cx, |room, _| {
2216 room.remote_participants()
2217 .values()
2218 .map(|participant| {
2219 (
2220 participant.user.github_login.to_string(),
2221 participant.location,
2222 )
2223 })
2224 .collect()
2225 })
2226 }
2227}
2228
2229#[gpui::test(iterations = 10)]
2230async fn test_propagate_saves_and_fs_changes(
2231 executor: BackgroundExecutor,
2232 cx_a: &mut TestAppContext,
2233 cx_b: &mut TestAppContext,
2234 cx_c: &mut TestAppContext,
2235) {
2236 let mut server = TestServer::start(executor.clone()).await;
2237 let client_a = server.create_client(cx_a, "user_a").await;
2238 let client_b = server.create_client(cx_b, "user_b").await;
2239 let client_c = server.create_client(cx_c, "user_c").await;
2240
2241 server
2242 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
2243 .await;
2244 let active_call_a = cx_a.read(ActiveCall::global);
2245
2246 let rust = Arc::new(Language::new(
2247 LanguageConfig {
2248 name: "Rust".into(),
2249 matcher: LanguageMatcher {
2250 path_suffixes: vec!["rs".to_string()],
2251 ..Default::default()
2252 },
2253 ..Default::default()
2254 },
2255 Some(tree_sitter_rust::language()),
2256 ));
2257 let javascript = Arc::new(Language::new(
2258 LanguageConfig {
2259 name: "JavaScript".into(),
2260 matcher: LanguageMatcher {
2261 path_suffixes: vec!["js".to_string()],
2262 ..Default::default()
2263 },
2264 ..Default::default()
2265 },
2266 Some(tree_sitter_rust::language()),
2267 ));
2268 for client in [&client_a, &client_b, &client_c] {
2269 client.language_registry().add(rust.clone());
2270 client.language_registry().add(javascript.clone());
2271 }
2272
2273 client_a
2274 .fs()
2275 .insert_tree(
2276 "/a",
2277 json!({
2278 "file1.rs": "",
2279 "file2": ""
2280 }),
2281 )
2282 .await;
2283 let (project_a, worktree_id) = client_a.build_local_project("/a", cx_a).await;
2284
2285 let worktree_a = project_a.read_with(cx_a, |p, _| p.worktrees().next().unwrap());
2286 let project_id = active_call_a
2287 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
2288 .await
2289 .unwrap();
2290
2291 // Join that worktree as clients B and C.
2292 let project_b = client_b.build_remote_project(project_id, cx_b).await;
2293 let project_c = client_c.build_remote_project(project_id, cx_c).await;
2294
2295 let worktree_b = project_b.read_with(cx_b, |p, _| p.worktrees().next().unwrap());
2296
2297 let worktree_c = project_c.read_with(cx_c, |p, _| p.worktrees().next().unwrap());
2298
2299 // Open and edit a buffer as both guests B and C.
2300 let buffer_b = project_b
2301 .update(cx_b, |p, cx| p.open_buffer((worktree_id, "file1.rs"), cx))
2302 .await
2303 .unwrap();
2304 let buffer_c = project_c
2305 .update(cx_c, |p, cx| p.open_buffer((worktree_id, "file1.rs"), cx))
2306 .await
2307 .unwrap();
2308
2309 buffer_b.read_with(cx_b, |buffer, _| {
2310 assert_eq!(&*buffer.language().unwrap().name(), "Rust");
2311 });
2312
2313 buffer_c.read_with(cx_c, |buffer, _| {
2314 assert_eq!(&*buffer.language().unwrap().name(), "Rust");
2315 });
2316 buffer_b.update(cx_b, |buf, cx| buf.edit([(0..0, "i-am-b, ")], None, cx));
2317 buffer_c.update(cx_c, |buf, cx| buf.edit([(0..0, "i-am-c, ")], None, cx));
2318
2319 // Open and edit that buffer as the host.
2320 let buffer_a = project_a
2321 .update(cx_a, |p, cx| p.open_buffer((worktree_id, "file1.rs"), cx))
2322 .await
2323 .unwrap();
2324
2325 executor.run_until_parked();
2326
2327 buffer_a.read_with(cx_a, |buf, _| assert_eq!(buf.text(), "i-am-c, i-am-b, "));
2328 buffer_a.update(cx_a, |buf, cx| {
2329 buf.edit([(buf.len()..buf.len(), "i-am-a")], None, cx)
2330 });
2331
2332 executor.run_until_parked();
2333
2334 buffer_a.read_with(cx_a, |buf, _| {
2335 assert_eq!(buf.text(), "i-am-c, i-am-b, i-am-a");
2336 });
2337
2338 buffer_b.read_with(cx_b, |buf, _| {
2339 assert_eq!(buf.text(), "i-am-c, i-am-b, i-am-a");
2340 });
2341
2342 buffer_c.read_with(cx_c, |buf, _| {
2343 assert_eq!(buf.text(), "i-am-c, i-am-b, i-am-a");
2344 });
2345
2346 // Edit the buffer as the host and concurrently save as guest B.
2347 let save_b = project_b.update(cx_b, |project, cx| {
2348 project.save_buffer(buffer_b.clone(), cx)
2349 });
2350 buffer_a.update(cx_a, |buf, cx| buf.edit([(0..0, "hi-a, ")], None, cx));
2351 save_b.await.unwrap();
2352 assert_eq!(
2353 client_a.fs().load("/a/file1.rs".as_ref()).await.unwrap(),
2354 "hi-a, i-am-c, i-am-b, i-am-a"
2355 );
2356
2357 executor.run_until_parked();
2358
2359 buffer_a.read_with(cx_a, |buf, _| assert!(!buf.is_dirty()));
2360
2361 buffer_b.read_with(cx_b, |buf, _| assert!(!buf.is_dirty()));
2362
2363 buffer_c.read_with(cx_c, |buf, _| assert!(!buf.is_dirty()));
2364
2365 // Make changes on host's file system, see those changes on guest worktrees.
2366 client_a
2367 .fs()
2368 .rename(
2369 "/a/file1.rs".as_ref(),
2370 "/a/file1.js".as_ref(),
2371 Default::default(),
2372 )
2373 .await
2374 .unwrap();
2375 client_a
2376 .fs()
2377 .rename("/a/file2".as_ref(), "/a/file3".as_ref(), Default::default())
2378 .await
2379 .unwrap();
2380 client_a.fs().insert_file("/a/file4", "4".into()).await;
2381 executor.run_until_parked();
2382
2383 worktree_a.read_with(cx_a, |tree, _| {
2384 assert_eq!(
2385 tree.paths()
2386 .map(|p| p.to_string_lossy())
2387 .collect::<Vec<_>>(),
2388 ["file1.js", "file3", "file4"]
2389 )
2390 });
2391
2392 worktree_b.read_with(cx_b, |tree, _| {
2393 assert_eq!(
2394 tree.paths()
2395 .map(|p| p.to_string_lossy())
2396 .collect::<Vec<_>>(),
2397 ["file1.js", "file3", "file4"]
2398 )
2399 });
2400
2401 worktree_c.read_with(cx_c, |tree, _| {
2402 assert_eq!(
2403 tree.paths()
2404 .map(|p| p.to_string_lossy())
2405 .collect::<Vec<_>>(),
2406 ["file1.js", "file3", "file4"]
2407 )
2408 });
2409
2410 // Ensure buffer files are updated as well.
2411
2412 buffer_a.read_with(cx_a, |buffer, _| {
2413 assert_eq!(buffer.file().unwrap().path().to_str(), Some("file1.js"));
2414 assert_eq!(&*buffer.language().unwrap().name(), "JavaScript");
2415 });
2416
2417 buffer_b.read_with(cx_b, |buffer, _| {
2418 assert_eq!(buffer.file().unwrap().path().to_str(), Some("file1.js"));
2419 assert_eq!(&*buffer.language().unwrap().name(), "JavaScript");
2420 });
2421
2422 buffer_c.read_with(cx_c, |buffer, _| {
2423 assert_eq!(buffer.file().unwrap().path().to_str(), Some("file1.js"));
2424 assert_eq!(&*buffer.language().unwrap().name(), "JavaScript");
2425 });
2426
2427 let new_buffer_a = project_a
2428 .update(cx_a, |p, cx| p.create_buffer("", None, cx))
2429 .unwrap();
2430
2431 let new_buffer_id = new_buffer_a.read_with(cx_a, |buffer, _| buffer.remote_id());
2432 let new_buffer_b = project_b
2433 .update(cx_b, |p, cx| p.open_buffer_by_id(new_buffer_id, cx))
2434 .await
2435 .unwrap();
2436
2437 new_buffer_b.read_with(cx_b, |buffer, _| {
2438 assert!(buffer.file().is_none());
2439 });
2440
2441 new_buffer_a.update(cx_a, |buffer, cx| {
2442 buffer.edit([(0..0, "ok")], None, cx);
2443 });
2444 project_a
2445 .update(cx_a, |project, cx| {
2446 project.save_buffer_as(new_buffer_a.clone(), "/a/file3.rs".into(), cx)
2447 })
2448 .await
2449 .unwrap();
2450
2451 executor.run_until_parked();
2452
2453 new_buffer_b.read_with(cx_b, |buffer_b, _| {
2454 assert_eq!(
2455 buffer_b.file().unwrap().path().as_ref(),
2456 Path::new("file3.rs")
2457 );
2458
2459 new_buffer_a.read_with(cx_a, |buffer_a, _| {
2460 assert_eq!(buffer_b.saved_mtime(), buffer_a.saved_mtime());
2461 assert_eq!(buffer_b.saved_version(), buffer_a.saved_version());
2462 });
2463 });
2464}
2465
2466#[gpui::test(iterations = 10)]
2467async fn test_git_diff_base_change(
2468 executor: BackgroundExecutor,
2469 cx_a: &mut TestAppContext,
2470 cx_b: &mut TestAppContext,
2471) {
2472 let mut server = TestServer::start(executor.clone()).await;
2473 let client_a = server.create_client(cx_a, "user_a").await;
2474 let client_b = server.create_client(cx_b, "user_b").await;
2475 server
2476 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
2477 .await;
2478 let active_call_a = cx_a.read(ActiveCall::global);
2479
2480 client_a
2481 .fs()
2482 .insert_tree(
2483 "/dir",
2484 json!({
2485 ".git": {},
2486 "sub": {
2487 ".git": {},
2488 "b.txt": "
2489 one
2490 two
2491 three
2492 ".unindent(),
2493 },
2494 "a.txt": "
2495 one
2496 two
2497 three
2498 ".unindent(),
2499 }),
2500 )
2501 .await;
2502
2503 let (project_local, worktree_id) = client_a.build_local_project("/dir", cx_a).await;
2504 let project_id = active_call_a
2505 .update(cx_a, |call, cx| {
2506 call.share_project(project_local.clone(), cx)
2507 })
2508 .await
2509 .unwrap();
2510
2511 let project_remote = client_b.build_remote_project(project_id, cx_b).await;
2512
2513 let diff_base = "
2514 one
2515 three
2516 "
2517 .unindent();
2518
2519 let new_diff_base = "
2520 one
2521 two
2522 "
2523 .unindent();
2524
2525 client_a.fs().set_index_for_repo(
2526 Path::new("/dir/.git"),
2527 &[(Path::new("a.txt"), diff_base.clone())],
2528 );
2529
2530 // Create the buffer
2531 let buffer_local_a = project_local
2532 .update(cx_a, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
2533 .await
2534 .unwrap();
2535
2536 // Wait for it to catch up to the new diff
2537 executor.run_until_parked();
2538
2539 // Smoke test diffing
2540
2541 buffer_local_a.read_with(cx_a, |buffer, _| {
2542 assert_eq!(buffer.diff_base(), Some(diff_base.as_ref()));
2543 git::diff::assert_hunks(
2544 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2545 &buffer,
2546 &diff_base,
2547 &[(1..2, "", "two\n")],
2548 );
2549 });
2550
2551 // Create remote buffer
2552 let buffer_remote_a = project_remote
2553 .update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
2554 .await
2555 .unwrap();
2556
2557 // Wait remote buffer to catch up to the new diff
2558 executor.run_until_parked();
2559
2560 // Smoke test diffing
2561
2562 buffer_remote_a.read_with(cx_b, |buffer, _| {
2563 assert_eq!(buffer.diff_base(), Some(diff_base.as_ref()));
2564 git::diff::assert_hunks(
2565 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2566 &buffer,
2567 &diff_base,
2568 &[(1..2, "", "two\n")],
2569 );
2570 });
2571
2572 client_a.fs().set_index_for_repo(
2573 Path::new("/dir/.git"),
2574 &[(Path::new("a.txt"), new_diff_base.clone())],
2575 );
2576
2577 // Wait for buffer_local_a to receive it
2578 executor.run_until_parked();
2579
2580 // Smoke test new diffing
2581
2582 buffer_local_a.read_with(cx_a, |buffer, _| {
2583 assert_eq!(buffer.diff_base(), Some(new_diff_base.as_ref()));
2584
2585 git::diff::assert_hunks(
2586 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2587 &buffer,
2588 &diff_base,
2589 &[(2..3, "", "three\n")],
2590 );
2591 });
2592
2593 // Smoke test B
2594
2595 buffer_remote_a.read_with(cx_b, |buffer, _| {
2596 assert_eq!(buffer.diff_base(), Some(new_diff_base.as_ref()));
2597 git::diff::assert_hunks(
2598 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2599 &buffer,
2600 &diff_base,
2601 &[(2..3, "", "three\n")],
2602 );
2603 });
2604
2605 //Nested git dir
2606
2607 let diff_base = "
2608 one
2609 three
2610 "
2611 .unindent();
2612
2613 let new_diff_base = "
2614 one
2615 two
2616 "
2617 .unindent();
2618
2619 client_a.fs().set_index_for_repo(
2620 Path::new("/dir/sub/.git"),
2621 &[(Path::new("b.txt"), diff_base.clone())],
2622 );
2623
2624 // Create the buffer
2625 let buffer_local_b = project_local
2626 .update(cx_a, |p, cx| p.open_buffer((worktree_id, "sub/b.txt"), cx))
2627 .await
2628 .unwrap();
2629
2630 // Wait for it to catch up to the new diff
2631 executor.run_until_parked();
2632
2633 // Smoke test diffing
2634
2635 buffer_local_b.read_with(cx_a, |buffer, _| {
2636 assert_eq!(buffer.diff_base(), Some(diff_base.as_ref()));
2637 git::diff::assert_hunks(
2638 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2639 &buffer,
2640 &diff_base,
2641 &[(1..2, "", "two\n")],
2642 );
2643 });
2644
2645 // Create remote buffer
2646 let buffer_remote_b = project_remote
2647 .update(cx_b, |p, cx| p.open_buffer((worktree_id, "sub/b.txt"), cx))
2648 .await
2649 .unwrap();
2650
2651 // Wait remote buffer to catch up to the new diff
2652 executor.run_until_parked();
2653
2654 // Smoke test diffing
2655
2656 buffer_remote_b.read_with(cx_b, |buffer, _| {
2657 assert_eq!(buffer.diff_base(), Some(diff_base.as_ref()));
2658 git::diff::assert_hunks(
2659 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2660 &buffer,
2661 &diff_base,
2662 &[(1..2, "", "two\n")],
2663 );
2664 });
2665
2666 client_a.fs().set_index_for_repo(
2667 Path::new("/dir/sub/.git"),
2668 &[(Path::new("b.txt"), new_diff_base.clone())],
2669 );
2670
2671 // Wait for buffer_local_b to receive it
2672 executor.run_until_parked();
2673
2674 // Smoke test new diffing
2675
2676 buffer_local_b.read_with(cx_a, |buffer, _| {
2677 assert_eq!(buffer.diff_base(), Some(new_diff_base.as_ref()));
2678 println!("{:?}", buffer.as_rope().to_string());
2679 println!("{:?}", buffer.diff_base());
2680 println!(
2681 "{:?}",
2682 buffer
2683 .snapshot()
2684 .git_diff_hunks_in_row_range(0..4)
2685 .collect::<Vec<_>>()
2686 );
2687
2688 git::diff::assert_hunks(
2689 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2690 &buffer,
2691 &diff_base,
2692 &[(2..3, "", "three\n")],
2693 );
2694 });
2695
2696 // Smoke test B
2697
2698 buffer_remote_b.read_with(cx_b, |buffer, _| {
2699 assert_eq!(buffer.diff_base(), Some(new_diff_base.as_ref()));
2700 git::diff::assert_hunks(
2701 buffer.snapshot().git_diff_hunks_in_row_range(0..4),
2702 &buffer,
2703 &diff_base,
2704 &[(2..3, "", "three\n")],
2705 );
2706 });
2707}
2708
2709#[gpui::test]
2710async fn test_git_branch_name(
2711 executor: BackgroundExecutor,
2712 cx_a: &mut TestAppContext,
2713 cx_b: &mut TestAppContext,
2714 cx_c: &mut TestAppContext,
2715) {
2716 let mut server = TestServer::start(executor.clone()).await;
2717 let client_a = server.create_client(cx_a, "user_a").await;
2718 let client_b = server.create_client(cx_b, "user_b").await;
2719 let client_c = server.create_client(cx_c, "user_c").await;
2720 server
2721 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
2722 .await;
2723 let active_call_a = cx_a.read(ActiveCall::global);
2724
2725 client_a
2726 .fs()
2727 .insert_tree(
2728 "/dir",
2729 json!({
2730 ".git": {},
2731 }),
2732 )
2733 .await;
2734
2735 let (project_local, _worktree_id) = client_a.build_local_project("/dir", cx_a).await;
2736 let project_id = active_call_a
2737 .update(cx_a, |call, cx| {
2738 call.share_project(project_local.clone(), cx)
2739 })
2740 .await
2741 .unwrap();
2742
2743 let project_remote = client_b.build_remote_project(project_id, cx_b).await;
2744 client_a
2745 .fs()
2746 .set_branch_name(Path::new("/dir/.git"), Some("branch-1"));
2747
2748 // Wait for it to catch up to the new branch
2749 executor.run_until_parked();
2750
2751 #[track_caller]
2752 fn assert_branch(branch_name: Option<impl Into<String>>, project: &Project, cx: &AppContext) {
2753 let branch_name = branch_name.map(Into::into);
2754 let worktrees = project.visible_worktrees(cx).collect::<Vec<_>>();
2755 assert_eq!(worktrees.len(), 1);
2756 let worktree = worktrees[0].clone();
2757 let root_entry = worktree.read(cx).snapshot().root_git_entry().unwrap();
2758 assert_eq!(root_entry.branch(), branch_name.map(Into::into));
2759 }
2760
2761 // Smoke test branch reading
2762
2763 project_local.read_with(cx_a, |project, cx| {
2764 assert_branch(Some("branch-1"), project, cx)
2765 });
2766
2767 project_remote.read_with(cx_b, |project, cx| {
2768 assert_branch(Some("branch-1"), project, cx)
2769 });
2770
2771 client_a
2772 .fs()
2773 .set_branch_name(Path::new("/dir/.git"), Some("branch-2"));
2774
2775 // Wait for buffer_local_a to receive it
2776 executor.run_until_parked();
2777
2778 // Smoke test branch reading
2779
2780 project_local.read_with(cx_a, |project, cx| {
2781 assert_branch(Some("branch-2"), project, cx)
2782 });
2783
2784 project_remote.read_with(cx_b, |project, cx| {
2785 assert_branch(Some("branch-2"), project, cx)
2786 });
2787
2788 let project_remote_c = client_c.build_remote_project(project_id, cx_c).await;
2789 executor.run_until_parked();
2790
2791 project_remote_c.read_with(cx_c, |project, cx| {
2792 assert_branch(Some("branch-2"), project, cx)
2793 });
2794}
2795
2796#[gpui::test]
2797async fn test_git_status_sync(
2798 executor: BackgroundExecutor,
2799 cx_a: &mut TestAppContext,
2800 cx_b: &mut TestAppContext,
2801 cx_c: &mut TestAppContext,
2802) {
2803 let mut server = TestServer::start(executor.clone()).await;
2804 let client_a = server.create_client(cx_a, "user_a").await;
2805 let client_b = server.create_client(cx_b, "user_b").await;
2806 let client_c = server.create_client(cx_c, "user_c").await;
2807 server
2808 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
2809 .await;
2810 let active_call_a = cx_a.read(ActiveCall::global);
2811
2812 client_a
2813 .fs()
2814 .insert_tree(
2815 "/dir",
2816 json!({
2817 ".git": {},
2818 "a.txt": "a",
2819 "b.txt": "b",
2820 }),
2821 )
2822 .await;
2823
2824 const A_TXT: &str = "a.txt";
2825 const B_TXT: &str = "b.txt";
2826
2827 client_a.fs().set_status_for_repo_via_git_operation(
2828 Path::new("/dir/.git"),
2829 &[
2830 (&Path::new(A_TXT), GitFileStatus::Added),
2831 (&Path::new(B_TXT), GitFileStatus::Added),
2832 ],
2833 );
2834
2835 let (project_local, _worktree_id) = client_a.build_local_project("/dir", cx_a).await;
2836 let project_id = active_call_a
2837 .update(cx_a, |call, cx| {
2838 call.share_project(project_local.clone(), cx)
2839 })
2840 .await
2841 .unwrap();
2842
2843 let project_remote = client_b.build_remote_project(project_id, cx_b).await;
2844
2845 // Wait for it to catch up to the new status
2846 executor.run_until_parked();
2847
2848 #[track_caller]
2849 fn assert_status(
2850 file: &impl AsRef<Path>,
2851 status: Option<GitFileStatus>,
2852 project: &Project,
2853 cx: &AppContext,
2854 ) {
2855 let file = file.as_ref();
2856 let worktrees = project.visible_worktrees(cx).collect::<Vec<_>>();
2857 assert_eq!(worktrees.len(), 1);
2858 let worktree = worktrees[0].clone();
2859 let snapshot = worktree.read(cx).snapshot();
2860 assert_eq!(snapshot.status_for_file(file), status);
2861 }
2862
2863 // Smoke test status reading
2864
2865 project_local.read_with(cx_a, |project, cx| {
2866 assert_status(&Path::new(A_TXT), Some(GitFileStatus::Added), project, cx);
2867 assert_status(&Path::new(B_TXT), Some(GitFileStatus::Added), project, cx);
2868 });
2869
2870 project_remote.read_with(cx_b, |project, cx| {
2871 assert_status(&Path::new(A_TXT), Some(GitFileStatus::Added), project, cx);
2872 assert_status(&Path::new(B_TXT), Some(GitFileStatus::Added), project, cx);
2873 });
2874
2875 client_a.fs().set_status_for_repo_via_working_copy_change(
2876 Path::new("/dir/.git"),
2877 &[
2878 (&Path::new(A_TXT), GitFileStatus::Modified),
2879 (&Path::new(B_TXT), GitFileStatus::Modified),
2880 ],
2881 );
2882
2883 // Wait for buffer_local_a to receive it
2884 executor.run_until_parked();
2885
2886 // Smoke test status reading
2887
2888 project_local.read_with(cx_a, |project, cx| {
2889 assert_status(
2890 &Path::new(A_TXT),
2891 Some(GitFileStatus::Modified),
2892 project,
2893 cx,
2894 );
2895 assert_status(
2896 &Path::new(B_TXT),
2897 Some(GitFileStatus::Modified),
2898 project,
2899 cx,
2900 );
2901 });
2902
2903 project_remote.read_with(cx_b, |project, cx| {
2904 assert_status(
2905 &Path::new(A_TXT),
2906 Some(GitFileStatus::Modified),
2907 project,
2908 cx,
2909 );
2910 assert_status(
2911 &Path::new(B_TXT),
2912 Some(GitFileStatus::Modified),
2913 project,
2914 cx,
2915 );
2916 });
2917
2918 // And synchronization while joining
2919 let project_remote_c = client_c.build_remote_project(project_id, cx_c).await;
2920 executor.run_until_parked();
2921
2922 project_remote_c.read_with(cx_c, |project, cx| {
2923 assert_status(
2924 &Path::new(A_TXT),
2925 Some(GitFileStatus::Modified),
2926 project,
2927 cx,
2928 );
2929 assert_status(
2930 &Path::new(B_TXT),
2931 Some(GitFileStatus::Modified),
2932 project,
2933 cx,
2934 );
2935 });
2936}
2937
2938#[gpui::test(iterations = 10)]
2939async fn test_fs_operations(
2940 executor: BackgroundExecutor,
2941 cx_a: &mut TestAppContext,
2942 cx_b: &mut TestAppContext,
2943) {
2944 let mut server = TestServer::start(executor.clone()).await;
2945 let client_a = server.create_client(cx_a, "user_a").await;
2946 let client_b = server.create_client(cx_b, "user_b").await;
2947 server
2948 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
2949 .await;
2950 let active_call_a = cx_a.read(ActiveCall::global);
2951
2952 client_a
2953 .fs()
2954 .insert_tree(
2955 "/dir",
2956 json!({
2957 "a.txt": "a-contents",
2958 "b.txt": "b-contents",
2959 }),
2960 )
2961 .await;
2962 let (project_a, worktree_id) = client_a.build_local_project("/dir", cx_a).await;
2963 let project_id = active_call_a
2964 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
2965 .await
2966 .unwrap();
2967 let project_b = client_b.build_remote_project(project_id, cx_b).await;
2968
2969 let worktree_a = project_a.read_with(cx_a, |project, _| project.worktrees().next().unwrap());
2970
2971 let worktree_b = project_b.read_with(cx_b, |project, _| project.worktrees().next().unwrap());
2972
2973 let entry = project_b
2974 .update(cx_b, |project, cx| {
2975 project.create_entry((worktree_id, "c.txt"), false, cx)
2976 })
2977 .await
2978 .unwrap()
2979 .unwrap();
2980
2981 worktree_a.read_with(cx_a, |worktree, _| {
2982 assert_eq!(
2983 worktree
2984 .paths()
2985 .map(|p| p.to_string_lossy())
2986 .collect::<Vec<_>>(),
2987 ["a.txt", "b.txt", "c.txt"]
2988 );
2989 });
2990
2991 worktree_b.read_with(cx_b, |worktree, _| {
2992 assert_eq!(
2993 worktree
2994 .paths()
2995 .map(|p| p.to_string_lossy())
2996 .collect::<Vec<_>>(),
2997 ["a.txt", "b.txt", "c.txt"]
2998 );
2999 });
3000
3001 project_b
3002 .update(cx_b, |project, cx| {
3003 project.rename_entry(entry.id, Path::new("d.txt"), cx)
3004 })
3005 .await
3006 .unwrap()
3007 .unwrap();
3008
3009 worktree_a.read_with(cx_a, |worktree, _| {
3010 assert_eq!(
3011 worktree
3012 .paths()
3013 .map(|p| p.to_string_lossy())
3014 .collect::<Vec<_>>(),
3015 ["a.txt", "b.txt", "d.txt"]
3016 );
3017 });
3018
3019 worktree_b.read_with(cx_b, |worktree, _| {
3020 assert_eq!(
3021 worktree
3022 .paths()
3023 .map(|p| p.to_string_lossy())
3024 .collect::<Vec<_>>(),
3025 ["a.txt", "b.txt", "d.txt"]
3026 );
3027 });
3028
3029 let dir_entry = project_b
3030 .update(cx_b, |project, cx| {
3031 project.create_entry((worktree_id, "DIR"), true, cx)
3032 })
3033 .await
3034 .unwrap()
3035 .unwrap();
3036
3037 worktree_a.read_with(cx_a, |worktree, _| {
3038 assert_eq!(
3039 worktree
3040 .paths()
3041 .map(|p| p.to_string_lossy())
3042 .collect::<Vec<_>>(),
3043 ["DIR", "a.txt", "b.txt", "d.txt"]
3044 );
3045 });
3046
3047 worktree_b.read_with(cx_b, |worktree, _| {
3048 assert_eq!(
3049 worktree
3050 .paths()
3051 .map(|p| p.to_string_lossy())
3052 .collect::<Vec<_>>(),
3053 ["DIR", "a.txt", "b.txt", "d.txt"]
3054 );
3055 });
3056
3057 project_b
3058 .update(cx_b, |project, cx| {
3059 project.create_entry((worktree_id, "DIR/e.txt"), false, cx)
3060 })
3061 .await
3062 .unwrap()
3063 .unwrap();
3064 project_b
3065 .update(cx_b, |project, cx| {
3066 project.create_entry((worktree_id, "DIR/SUBDIR"), true, cx)
3067 })
3068 .await
3069 .unwrap()
3070 .unwrap();
3071 project_b
3072 .update(cx_b, |project, cx| {
3073 project.create_entry((worktree_id, "DIR/SUBDIR/f.txt"), false, cx)
3074 })
3075 .await
3076 .unwrap()
3077 .unwrap();
3078
3079 worktree_a.read_with(cx_a, |worktree, _| {
3080 assert_eq!(
3081 worktree
3082 .paths()
3083 .map(|p| p.to_string_lossy())
3084 .collect::<Vec<_>>(),
3085 [
3086 "DIR",
3087 "DIR/SUBDIR",
3088 "DIR/SUBDIR/f.txt",
3089 "DIR/e.txt",
3090 "a.txt",
3091 "b.txt",
3092 "d.txt"
3093 ]
3094 );
3095 });
3096
3097 worktree_b.read_with(cx_b, |worktree, _| {
3098 assert_eq!(
3099 worktree
3100 .paths()
3101 .map(|p| p.to_string_lossy())
3102 .collect::<Vec<_>>(),
3103 [
3104 "DIR",
3105 "DIR/SUBDIR",
3106 "DIR/SUBDIR/f.txt",
3107 "DIR/e.txt",
3108 "a.txt",
3109 "b.txt",
3110 "d.txt"
3111 ]
3112 );
3113 });
3114
3115 project_b
3116 .update(cx_b, |project, cx| {
3117 project.copy_entry(entry.id, Path::new("f.txt"), cx)
3118 })
3119 .await
3120 .unwrap()
3121 .unwrap();
3122
3123 worktree_a.read_with(cx_a, |worktree, _| {
3124 assert_eq!(
3125 worktree
3126 .paths()
3127 .map(|p| p.to_string_lossy())
3128 .collect::<Vec<_>>(),
3129 [
3130 "DIR",
3131 "DIR/SUBDIR",
3132 "DIR/SUBDIR/f.txt",
3133 "DIR/e.txt",
3134 "a.txt",
3135 "b.txt",
3136 "d.txt",
3137 "f.txt"
3138 ]
3139 );
3140 });
3141
3142 worktree_b.read_with(cx_b, |worktree, _| {
3143 assert_eq!(
3144 worktree
3145 .paths()
3146 .map(|p| p.to_string_lossy())
3147 .collect::<Vec<_>>(),
3148 [
3149 "DIR",
3150 "DIR/SUBDIR",
3151 "DIR/SUBDIR/f.txt",
3152 "DIR/e.txt",
3153 "a.txt",
3154 "b.txt",
3155 "d.txt",
3156 "f.txt"
3157 ]
3158 );
3159 });
3160
3161 project_b
3162 .update(cx_b, |project, cx| {
3163 project.delete_entry(dir_entry.id, cx).unwrap()
3164 })
3165 .await
3166 .unwrap();
3167 executor.run_until_parked();
3168
3169 worktree_a.read_with(cx_a, |worktree, _| {
3170 assert_eq!(
3171 worktree
3172 .paths()
3173 .map(|p| p.to_string_lossy())
3174 .collect::<Vec<_>>(),
3175 ["a.txt", "b.txt", "d.txt", "f.txt"]
3176 );
3177 });
3178
3179 worktree_b.read_with(cx_b, |worktree, _| {
3180 assert_eq!(
3181 worktree
3182 .paths()
3183 .map(|p| p.to_string_lossy())
3184 .collect::<Vec<_>>(),
3185 ["a.txt", "b.txt", "d.txt", "f.txt"]
3186 );
3187 });
3188
3189 project_b
3190 .update(cx_b, |project, cx| {
3191 project.delete_entry(entry.id, cx).unwrap()
3192 })
3193 .await
3194 .unwrap();
3195
3196 worktree_a.read_with(cx_a, |worktree, _| {
3197 assert_eq!(
3198 worktree
3199 .paths()
3200 .map(|p| p.to_string_lossy())
3201 .collect::<Vec<_>>(),
3202 ["a.txt", "b.txt", "f.txt"]
3203 );
3204 });
3205
3206 worktree_b.read_with(cx_b, |worktree, _| {
3207 assert_eq!(
3208 worktree
3209 .paths()
3210 .map(|p| p.to_string_lossy())
3211 .collect::<Vec<_>>(),
3212 ["a.txt", "b.txt", "f.txt"]
3213 );
3214 });
3215}
3216
3217#[gpui::test(iterations = 10)]
3218async fn test_local_settings(
3219 executor: BackgroundExecutor,
3220 cx_a: &mut TestAppContext,
3221 cx_b: &mut TestAppContext,
3222) {
3223 let mut server = TestServer::start(executor.clone()).await;
3224 let client_a = server.create_client(cx_a, "user_a").await;
3225 let client_b = server.create_client(cx_b, "user_b").await;
3226 server
3227 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
3228 .await;
3229 let active_call_a = cx_a.read(ActiveCall::global);
3230
3231 // As client A, open a project that contains some local settings files
3232 client_a
3233 .fs()
3234 .insert_tree(
3235 "/dir",
3236 json!({
3237 ".zed": {
3238 "settings.json": r#"{ "tab_size": 2 }"#
3239 },
3240 "a": {
3241 ".zed": {
3242 "settings.json": r#"{ "tab_size": 8 }"#
3243 },
3244 "a.txt": "a-contents",
3245 },
3246 "b": {
3247 "b.txt": "b-contents",
3248 }
3249 }),
3250 )
3251 .await;
3252 let (project_a, _) = client_a.build_local_project("/dir", cx_a).await;
3253 executor.run_until_parked();
3254 let project_id = active_call_a
3255 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3256 .await
3257 .unwrap();
3258 executor.run_until_parked();
3259
3260 // As client B, join that project and observe the local settings.
3261 let project_b = client_b.build_remote_project(project_id, cx_b).await;
3262
3263 let worktree_b = project_b.read_with(cx_b, |project, _| project.worktrees().next().unwrap());
3264 executor.run_until_parked();
3265 cx_b.read(|cx| {
3266 let store = cx.global::<SettingsStore>();
3267 assert_eq!(
3268 store
3269 .local_settings(worktree_b.read(cx).id().to_usize())
3270 .collect::<Vec<_>>(),
3271 &[
3272 (Path::new("").into(), r#"{"tab_size":2}"#.to_string()),
3273 (Path::new("a").into(), r#"{"tab_size":8}"#.to_string()),
3274 ]
3275 )
3276 });
3277
3278 // As client A, update a settings file. As Client B, see the changed settings.
3279 client_a
3280 .fs()
3281 .insert_file("/dir/.zed/settings.json", r#"{}"#.into())
3282 .await;
3283 executor.run_until_parked();
3284 cx_b.read(|cx| {
3285 let store = cx.global::<SettingsStore>();
3286 assert_eq!(
3287 store
3288 .local_settings(worktree_b.read(cx).id().to_usize())
3289 .collect::<Vec<_>>(),
3290 &[
3291 (Path::new("").into(), r#"{}"#.to_string()),
3292 (Path::new("a").into(), r#"{"tab_size":8}"#.to_string()),
3293 ]
3294 )
3295 });
3296
3297 // As client A, create and remove some settings files. As client B, see the changed settings.
3298 client_a
3299 .fs()
3300 .remove_file("/dir/.zed/settings.json".as_ref(), Default::default())
3301 .await
3302 .unwrap();
3303 client_a
3304 .fs()
3305 .create_dir("/dir/b/.zed".as_ref())
3306 .await
3307 .unwrap();
3308 client_a
3309 .fs()
3310 .insert_file("/dir/b/.zed/settings.json", r#"{"tab_size": 4}"#.into())
3311 .await;
3312 executor.run_until_parked();
3313 cx_b.read(|cx| {
3314 let store = cx.global::<SettingsStore>();
3315 assert_eq!(
3316 store
3317 .local_settings(worktree_b.read(cx).id().to_usize())
3318 .collect::<Vec<_>>(),
3319 &[
3320 (Path::new("a").into(), r#"{"tab_size":8}"#.to_string()),
3321 (Path::new("b").into(), r#"{"tab_size":4}"#.to_string()),
3322 ]
3323 )
3324 });
3325
3326 // As client B, disconnect.
3327 server.forbid_connections();
3328 server.disconnect_client(client_b.peer_id().unwrap());
3329
3330 // As client A, change and remove settings files while client B is disconnected.
3331 client_a
3332 .fs()
3333 .insert_file("/dir/a/.zed/settings.json", r#"{"hard_tabs":true}"#.into())
3334 .await;
3335 client_a
3336 .fs()
3337 .remove_file("/dir/b/.zed/settings.json".as_ref(), Default::default())
3338 .await
3339 .unwrap();
3340 executor.run_until_parked();
3341
3342 // As client B, reconnect and see the changed settings.
3343 server.allow_connections();
3344 executor.advance_clock(RECEIVE_TIMEOUT);
3345 cx_b.read(|cx| {
3346 let store = cx.global::<SettingsStore>();
3347 assert_eq!(
3348 store
3349 .local_settings(worktree_b.read(cx).id().to_usize())
3350 .collect::<Vec<_>>(),
3351 &[(Path::new("a").into(), r#"{"hard_tabs":true}"#.to_string()),]
3352 )
3353 });
3354}
3355
3356#[gpui::test(iterations = 10)]
3357async fn test_buffer_conflict_after_save(
3358 executor: BackgroundExecutor,
3359 cx_a: &mut TestAppContext,
3360 cx_b: &mut TestAppContext,
3361) {
3362 let mut server = TestServer::start(executor.clone()).await;
3363 let client_a = server.create_client(cx_a, "user_a").await;
3364 let client_b = server.create_client(cx_b, "user_b").await;
3365 server
3366 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
3367 .await;
3368 let active_call_a = cx_a.read(ActiveCall::global);
3369
3370 client_a
3371 .fs()
3372 .insert_tree(
3373 "/dir",
3374 json!({
3375 "a.txt": "a-contents",
3376 }),
3377 )
3378 .await;
3379 let (project_a, worktree_id) = client_a.build_local_project("/dir", cx_a).await;
3380 let project_id = active_call_a
3381 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3382 .await
3383 .unwrap();
3384 let project_b = client_b.build_remote_project(project_id, cx_b).await;
3385
3386 // Open a buffer as client B
3387 let buffer_b = project_b
3388 .update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
3389 .await
3390 .unwrap();
3391
3392 buffer_b.update(cx_b, |buf, cx| buf.edit([(0..0, "world ")], None, cx));
3393
3394 buffer_b.read_with(cx_b, |buf, _| {
3395 assert!(buf.is_dirty());
3396 assert!(!buf.has_conflict());
3397 });
3398
3399 project_b
3400 .update(cx_b, |project, cx| {
3401 project.save_buffer(buffer_b.clone(), cx)
3402 })
3403 .await
3404 .unwrap();
3405
3406 buffer_b.read_with(cx_b, |buffer_b, _| assert!(!buffer_b.is_dirty()));
3407
3408 buffer_b.read_with(cx_b, |buf, _| {
3409 assert!(!buf.has_conflict());
3410 });
3411
3412 buffer_b.update(cx_b, |buf, cx| buf.edit([(0..0, "hello ")], None, cx));
3413
3414 buffer_b.read_with(cx_b, |buf, _| {
3415 assert!(buf.is_dirty());
3416 assert!(!buf.has_conflict());
3417 });
3418}
3419
3420#[gpui::test(iterations = 10)]
3421async fn test_buffer_reloading(
3422 executor: BackgroundExecutor,
3423 cx_a: &mut TestAppContext,
3424 cx_b: &mut TestAppContext,
3425) {
3426 let mut server = TestServer::start(executor.clone()).await;
3427 let client_a = server.create_client(cx_a, "user_a").await;
3428 let client_b = server.create_client(cx_b, "user_b").await;
3429 server
3430 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
3431 .await;
3432 let active_call_a = cx_a.read(ActiveCall::global);
3433
3434 client_a
3435 .fs()
3436 .insert_tree(
3437 "/dir",
3438 json!({
3439 "a.txt": "a\nb\nc",
3440 }),
3441 )
3442 .await;
3443 let (project_a, worktree_id) = client_a.build_local_project("/dir", cx_a).await;
3444 let project_id = active_call_a
3445 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3446 .await
3447 .unwrap();
3448 let project_b = client_b.build_remote_project(project_id, cx_b).await;
3449
3450 // Open a buffer as client B
3451 let buffer_b = project_b
3452 .update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
3453 .await
3454 .unwrap();
3455
3456 buffer_b.read_with(cx_b, |buf, _| {
3457 assert!(!buf.is_dirty());
3458 assert!(!buf.has_conflict());
3459 assert_eq!(buf.line_ending(), LineEnding::Unix);
3460 });
3461
3462 let new_contents = Rope::from("d\ne\nf");
3463 client_a
3464 .fs()
3465 .save("/dir/a.txt".as_ref(), &new_contents, LineEnding::Windows)
3466 .await
3467 .unwrap();
3468
3469 executor.run_until_parked();
3470
3471 buffer_b.read_with(cx_b, |buf, _| {
3472 assert_eq!(buf.text(), new_contents.to_string());
3473 assert!(!buf.is_dirty());
3474 assert!(!buf.has_conflict());
3475 assert_eq!(buf.line_ending(), LineEnding::Windows);
3476 });
3477}
3478
3479#[gpui::test(iterations = 10)]
3480async fn test_editing_while_guest_opens_buffer(
3481 executor: BackgroundExecutor,
3482 cx_a: &mut TestAppContext,
3483 cx_b: &mut TestAppContext,
3484) {
3485 let mut server = TestServer::start(executor.clone()).await;
3486 let client_a = server.create_client(cx_a, "user_a").await;
3487 let client_b = server.create_client(cx_b, "user_b").await;
3488 server
3489 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
3490 .await;
3491 let active_call_a = cx_a.read(ActiveCall::global);
3492
3493 client_a
3494 .fs()
3495 .insert_tree("/dir", json!({ "a.txt": "a-contents" }))
3496 .await;
3497 let (project_a, worktree_id) = client_a.build_local_project("/dir", cx_a).await;
3498 let project_id = active_call_a
3499 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3500 .await
3501 .unwrap();
3502 let project_b = client_b.build_remote_project(project_id, cx_b).await;
3503
3504 // Open a buffer as client A
3505 let buffer_a = project_a
3506 .update(cx_a, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
3507 .await
3508 .unwrap();
3509
3510 // Start opening the same buffer as client B
3511 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx));
3512 let buffer_b = cx_b.executor().spawn(open_buffer);
3513
3514 // Edit the buffer as client A while client B is still opening it.
3515 cx_b.executor().simulate_random_delay().await;
3516 buffer_a.update(cx_a, |buf, cx| buf.edit([(0..0, "X")], None, cx));
3517 cx_b.executor().simulate_random_delay().await;
3518 buffer_a.update(cx_a, |buf, cx| buf.edit([(1..1, "Y")], None, cx));
3519
3520 let text = buffer_a.read_with(cx_a, |buf, _| buf.text());
3521 let buffer_b = buffer_b.await.unwrap();
3522 executor.run_until_parked();
3523
3524 buffer_b.read_with(cx_b, |buf, _| assert_eq!(buf.text(), text));
3525}
3526
3527#[gpui::test(iterations = 10)]
3528async fn test_leaving_worktree_while_opening_buffer(
3529 executor: BackgroundExecutor,
3530 cx_a: &mut TestAppContext,
3531 cx_b: &mut TestAppContext,
3532) {
3533 let mut server = TestServer::start(executor.clone()).await;
3534 let client_a = server.create_client(cx_a, "user_a").await;
3535 let client_b = server.create_client(cx_b, "user_b").await;
3536 server
3537 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
3538 .await;
3539 let active_call_a = cx_a.read(ActiveCall::global);
3540
3541 client_a
3542 .fs()
3543 .insert_tree("/dir", json!({ "a.txt": "a-contents" }))
3544 .await;
3545 let (project_a, worktree_id) = client_a.build_local_project("/dir", cx_a).await;
3546 let project_id = active_call_a
3547 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3548 .await
3549 .unwrap();
3550 let project_b = client_b.build_remote_project(project_id, cx_b).await;
3551
3552 // See that a guest has joined as client A.
3553 executor.run_until_parked();
3554
3555 project_a.read_with(cx_a, |p, _| assert_eq!(p.collaborators().len(), 1));
3556
3557 // Begin opening a buffer as client B, but leave the project before the open completes.
3558 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx));
3559 let buffer_b = cx_b.executor().spawn(open_buffer);
3560 cx_b.update(|_| drop(project_b));
3561 drop(buffer_b);
3562
3563 // See that the guest has left.
3564 executor.run_until_parked();
3565
3566 project_a.read_with(cx_a, |p, _| assert!(p.collaborators().is_empty()));
3567}
3568
3569#[gpui::test(iterations = 10)]
3570async fn test_canceling_buffer_opening(
3571 executor: BackgroundExecutor,
3572 cx_a: &mut TestAppContext,
3573 cx_b: &mut TestAppContext,
3574) {
3575 let mut server = TestServer::start(executor.clone()).await;
3576 let client_a = server.create_client(cx_a, "user_a").await;
3577 let client_b = server.create_client(cx_b, "user_b").await;
3578 server
3579 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
3580 .await;
3581 let active_call_a = cx_a.read(ActiveCall::global);
3582
3583 client_a
3584 .fs()
3585 .insert_tree(
3586 "/dir",
3587 json!({
3588 "a.txt": "abc",
3589 }),
3590 )
3591 .await;
3592 let (project_a, worktree_id) = client_a.build_local_project("/dir", cx_a).await;
3593 let project_id = active_call_a
3594 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3595 .await
3596 .unwrap();
3597 let project_b = client_b.build_remote_project(project_id, cx_b).await;
3598
3599 let buffer_a = project_a
3600 .update(cx_a, |p, cx| p.open_buffer((worktree_id, "a.txt"), cx))
3601 .await
3602 .unwrap();
3603
3604 // Open a buffer as client B but cancel after a random amount of time.
3605 let buffer_b = project_b.update(cx_b, |p, cx| {
3606 p.open_buffer_by_id(buffer_a.read_with(cx_a, |a, _| a.remote_id()), cx)
3607 });
3608 executor.simulate_random_delay().await;
3609 drop(buffer_b);
3610
3611 // Try opening the same buffer again as client B, and ensure we can
3612 // still do it despite the cancellation above.
3613 let buffer_b = project_b
3614 .update(cx_b, |p, cx| {
3615 p.open_buffer_by_id(buffer_a.read_with(cx_a, |a, _| a.remote_id()), cx)
3616 })
3617 .await
3618 .unwrap();
3619
3620 buffer_b.read_with(cx_b, |buf, _| assert_eq!(buf.text(), "abc"));
3621}
3622
3623#[gpui::test(iterations = 10)]
3624async fn test_leaving_project(
3625 executor: BackgroundExecutor,
3626 cx_a: &mut TestAppContext,
3627 cx_b: &mut TestAppContext,
3628 cx_c: &mut TestAppContext,
3629) {
3630 let mut server = TestServer::start(executor.clone()).await;
3631 let client_a = server.create_client(cx_a, "user_a").await;
3632 let client_b = server.create_client(cx_b, "user_b").await;
3633 let client_c = server.create_client(cx_c, "user_c").await;
3634 server
3635 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
3636 .await;
3637 let active_call_a = cx_a.read(ActiveCall::global);
3638
3639 client_a
3640 .fs()
3641 .insert_tree(
3642 "/a",
3643 json!({
3644 "a.txt": "a-contents",
3645 "b.txt": "b-contents",
3646 }),
3647 )
3648 .await;
3649 let (project_a, _) = client_a.build_local_project("/a", cx_a).await;
3650 let project_id = active_call_a
3651 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3652 .await
3653 .unwrap();
3654 let project_b1 = client_b.build_remote_project(project_id, cx_b).await;
3655 let project_c = client_c.build_remote_project(project_id, cx_c).await;
3656
3657 // Client A sees that a guest has joined.
3658 executor.run_until_parked();
3659
3660 project_a.read_with(cx_a, |project, _| {
3661 assert_eq!(project.collaborators().len(), 2);
3662 });
3663
3664 project_b1.read_with(cx_b, |project, _| {
3665 assert_eq!(project.collaborators().len(), 2);
3666 });
3667
3668 project_c.read_with(cx_c, |project, _| {
3669 assert_eq!(project.collaborators().len(), 2);
3670 });
3671
3672 // Client B opens a buffer.
3673 let buffer_b1 = project_b1
3674 .update(cx_b, |project, cx| {
3675 let worktree_id = project.worktrees().next().unwrap().read(cx).id();
3676 project.open_buffer((worktree_id, "a.txt"), cx)
3677 })
3678 .await
3679 .unwrap();
3680
3681 buffer_b1.read_with(cx_b, |buffer, _| assert_eq!(buffer.text(), "a-contents"));
3682
3683 // Drop client B's project and ensure client A and client C observe client B leaving.
3684 cx_b.update(|_| drop(project_b1));
3685 executor.run_until_parked();
3686
3687 project_a.read_with(cx_a, |project, _| {
3688 assert_eq!(project.collaborators().len(), 1);
3689 });
3690
3691 project_c.read_with(cx_c, |project, _| {
3692 assert_eq!(project.collaborators().len(), 1);
3693 });
3694
3695 // Client B re-joins the project and can open buffers as before.
3696 let project_b2 = client_b.build_remote_project(project_id, cx_b).await;
3697 executor.run_until_parked();
3698
3699 project_a.read_with(cx_a, |project, _| {
3700 assert_eq!(project.collaborators().len(), 2);
3701 });
3702
3703 project_b2.read_with(cx_b, |project, _| {
3704 assert_eq!(project.collaborators().len(), 2);
3705 });
3706
3707 project_c.read_with(cx_c, |project, _| {
3708 assert_eq!(project.collaborators().len(), 2);
3709 });
3710
3711 let buffer_b2 = project_b2
3712 .update(cx_b, |project, cx| {
3713 let worktree_id = project.worktrees().next().unwrap().read(cx).id();
3714 project.open_buffer((worktree_id, "a.txt"), cx)
3715 })
3716 .await
3717 .unwrap();
3718
3719 buffer_b2.read_with(cx_b, |buffer, _| assert_eq!(buffer.text(), "a-contents"));
3720
3721 // Drop client B's connection and ensure client A and client C observe client B leaving.
3722 client_b.disconnect(&cx_b.to_async());
3723 executor.advance_clock(RECONNECT_TIMEOUT);
3724
3725 project_a.read_with(cx_a, |project, _| {
3726 assert_eq!(project.collaborators().len(), 1);
3727 });
3728
3729 project_b2.read_with(cx_b, |project, _| {
3730 assert!(project.is_disconnected());
3731 });
3732
3733 project_c.read_with(cx_c, |project, _| {
3734 assert_eq!(project.collaborators().len(), 1);
3735 });
3736
3737 // Client B can't join the project, unless they re-join the room.
3738 cx_b.spawn(|cx| {
3739 Project::remote(
3740 project_id,
3741 client_b.app_state.client.clone(),
3742 client_b.user_store().clone(),
3743 client_b.language_registry().clone(),
3744 FakeFs::new(cx.background_executor().clone()),
3745 ChannelRole::Member,
3746 cx,
3747 )
3748 })
3749 .await
3750 .unwrap_err();
3751
3752 // Simulate connection loss for client C and ensure client A observes client C leaving the project.
3753 client_c.wait_for_current_user(cx_c).await;
3754 server.forbid_connections();
3755 server.disconnect_client(client_c.peer_id().unwrap());
3756 executor.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
3757 executor.run_until_parked();
3758
3759 project_a.read_with(cx_a, |project, _| {
3760 assert_eq!(project.collaborators().len(), 0);
3761 });
3762
3763 project_b2.read_with(cx_b, |project, _| {
3764 assert!(project.is_disconnected());
3765 });
3766
3767 project_c.read_with(cx_c, |project, _| {
3768 assert!(project.is_disconnected());
3769 });
3770}
3771
3772#[gpui::test(iterations = 10)]
3773async fn test_collaborating_with_diagnostics(
3774 executor: BackgroundExecutor,
3775 cx_a: &mut TestAppContext,
3776 cx_b: &mut TestAppContext,
3777 cx_c: &mut TestAppContext,
3778) {
3779 let mut server = TestServer::start(executor.clone()).await;
3780 let client_a = server.create_client(cx_a, "user_a").await;
3781 let client_b = server.create_client(cx_b, "user_b").await;
3782 let client_c = server.create_client(cx_c, "user_c").await;
3783 server
3784 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
3785 .await;
3786 let active_call_a = cx_a.read(ActiveCall::global);
3787
3788 client_a.language_registry().add(Arc::new(Language::new(
3789 LanguageConfig {
3790 name: "Rust".into(),
3791 matcher: LanguageMatcher {
3792 path_suffixes: vec!["rs".to_string()],
3793 ..Default::default()
3794 },
3795 ..Default::default()
3796 },
3797 Some(tree_sitter_rust::language()),
3798 )));
3799 let mut fake_language_servers = client_a
3800 .language_registry()
3801 .register_fake_lsp_adapter("Rust", Default::default());
3802
3803 // Share a project as client A
3804 client_a
3805 .fs()
3806 .insert_tree(
3807 "/a",
3808 json!({
3809 "a.rs": "let one = two",
3810 "other.rs": "",
3811 }),
3812 )
3813 .await;
3814 let (project_a, worktree_id) = client_a.build_local_project("/a", cx_a).await;
3815
3816 // Cause the language server to start.
3817 let _buffer = project_a
3818 .update(cx_a, |project, cx| {
3819 project.open_buffer(
3820 ProjectPath {
3821 worktree_id,
3822 path: Path::new("other.rs").into(),
3823 },
3824 cx,
3825 )
3826 })
3827 .await
3828 .unwrap();
3829
3830 // Simulate a language server reporting errors for a file.
3831 let mut fake_language_server = fake_language_servers.next().await.unwrap();
3832 fake_language_server
3833 .receive_notification::<lsp::notification::DidOpenTextDocument>()
3834 .await;
3835 fake_language_server.notify::<lsp::notification::PublishDiagnostics>(
3836 lsp::PublishDiagnosticsParams {
3837 uri: lsp::Url::from_file_path("/a/a.rs").unwrap(),
3838 version: None,
3839 diagnostics: vec![lsp::Diagnostic {
3840 severity: Some(lsp::DiagnosticSeverity::WARNING),
3841 range: lsp::Range::new(lsp::Position::new(0, 4), lsp::Position::new(0, 7)),
3842 message: "message 0".to_string(),
3843 ..Default::default()
3844 }],
3845 },
3846 );
3847
3848 // Client A shares the project and, simultaneously, the language server
3849 // publishes a diagnostic. This is done to ensure that the server always
3850 // observes the latest diagnostics for a worktree.
3851 let project_id = active_call_a
3852 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
3853 .await
3854 .unwrap();
3855 fake_language_server.notify::<lsp::notification::PublishDiagnostics>(
3856 lsp::PublishDiagnosticsParams {
3857 uri: lsp::Url::from_file_path("/a/a.rs").unwrap(),
3858 version: None,
3859 diagnostics: vec![lsp::Diagnostic {
3860 severity: Some(lsp::DiagnosticSeverity::ERROR),
3861 range: lsp::Range::new(lsp::Position::new(0, 4), lsp::Position::new(0, 7)),
3862 message: "message 1".to_string(),
3863 ..Default::default()
3864 }],
3865 },
3866 );
3867
3868 // Join the worktree as client B.
3869 let project_b = client_b.build_remote_project(project_id, cx_b).await;
3870
3871 // Wait for server to see the diagnostics update.
3872 executor.run_until_parked();
3873
3874 // Ensure client B observes the new diagnostics.
3875
3876 project_b.read_with(cx_b, |project, cx| {
3877 assert_eq!(
3878 project.diagnostic_summaries(false, cx).collect::<Vec<_>>(),
3879 &[(
3880 ProjectPath {
3881 worktree_id,
3882 path: Arc::from(Path::new("a.rs")),
3883 },
3884 LanguageServerId(0),
3885 DiagnosticSummary {
3886 error_count: 1,
3887 warning_count: 0,
3888 },
3889 )]
3890 )
3891 });
3892
3893 // Join project as client C and observe the diagnostics.
3894 let project_c = client_c.build_remote_project(project_id, cx_c).await;
3895 executor.run_until_parked();
3896 let project_c_diagnostic_summaries =
3897 Rc::new(RefCell::new(project_c.read_with(cx_c, |project, cx| {
3898 project.diagnostic_summaries(false, cx).collect::<Vec<_>>()
3899 })));
3900 project_c.update(cx_c, |_, cx| {
3901 let summaries = project_c_diagnostic_summaries.clone();
3902 cx.subscribe(&project_c, {
3903 move |p, _, event, cx| {
3904 if let project::Event::DiskBasedDiagnosticsFinished { .. } = event {
3905 *summaries.borrow_mut() = p.diagnostic_summaries(false, cx).collect();
3906 }
3907 }
3908 })
3909 .detach();
3910 });
3911
3912 executor.run_until_parked();
3913 assert_eq!(
3914 project_c_diagnostic_summaries.borrow().as_slice(),
3915 &[(
3916 ProjectPath {
3917 worktree_id,
3918 path: Arc::from(Path::new("a.rs")),
3919 },
3920 LanguageServerId(0),
3921 DiagnosticSummary {
3922 error_count: 1,
3923 warning_count: 0,
3924 },
3925 )]
3926 );
3927
3928 // Simulate a language server reporting more errors for a file.
3929 fake_language_server.notify::<lsp::notification::PublishDiagnostics>(
3930 lsp::PublishDiagnosticsParams {
3931 uri: lsp::Url::from_file_path("/a/a.rs").unwrap(),
3932 version: None,
3933 diagnostics: vec![
3934 lsp::Diagnostic {
3935 severity: Some(lsp::DiagnosticSeverity::ERROR),
3936 range: lsp::Range::new(lsp::Position::new(0, 4), lsp::Position::new(0, 7)),
3937 message: "message 1".to_string(),
3938 ..Default::default()
3939 },
3940 lsp::Diagnostic {
3941 severity: Some(lsp::DiagnosticSeverity::WARNING),
3942 range: lsp::Range::new(lsp::Position::new(0, 10), lsp::Position::new(0, 13)),
3943 message: "message 2".to_string(),
3944 ..Default::default()
3945 },
3946 ],
3947 },
3948 );
3949
3950 // Clients B and C get the updated summaries
3951 executor.run_until_parked();
3952
3953 project_b.read_with(cx_b, |project, cx| {
3954 assert_eq!(
3955 project.diagnostic_summaries(false, cx).collect::<Vec<_>>(),
3956 [(
3957 ProjectPath {
3958 worktree_id,
3959 path: Arc::from(Path::new("a.rs")),
3960 },
3961 LanguageServerId(0),
3962 DiagnosticSummary {
3963 error_count: 1,
3964 warning_count: 1,
3965 },
3966 )]
3967 );
3968 });
3969
3970 project_c.read_with(cx_c, |project, cx| {
3971 assert_eq!(
3972 project.diagnostic_summaries(false, cx).collect::<Vec<_>>(),
3973 [(
3974 ProjectPath {
3975 worktree_id,
3976 path: Arc::from(Path::new("a.rs")),
3977 },
3978 LanguageServerId(0),
3979 DiagnosticSummary {
3980 error_count: 1,
3981 warning_count: 1,
3982 },
3983 )]
3984 );
3985 });
3986
3987 // Open the file with the errors on client B. They should be present.
3988 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx));
3989 let buffer_b = cx_b.executor().spawn(open_buffer).await.unwrap();
3990
3991 buffer_b.read_with(cx_b, |buffer, _| {
3992 assert_eq!(
3993 buffer
3994 .snapshot()
3995 .diagnostics_in_range::<_, Point>(0..buffer.len(), false)
3996 .collect::<Vec<_>>(),
3997 &[
3998 DiagnosticEntry {
3999 range: Point::new(0, 4)..Point::new(0, 7),
4000 diagnostic: Diagnostic {
4001 group_id: 2,
4002 message: "message 1".to_string(),
4003 severity: lsp::DiagnosticSeverity::ERROR,
4004 is_primary: true,
4005 ..Default::default()
4006 }
4007 },
4008 DiagnosticEntry {
4009 range: Point::new(0, 10)..Point::new(0, 13),
4010 diagnostic: Diagnostic {
4011 group_id: 3,
4012 severity: lsp::DiagnosticSeverity::WARNING,
4013 message: "message 2".to_string(),
4014 is_primary: true,
4015 ..Default::default()
4016 }
4017 }
4018 ]
4019 );
4020 });
4021
4022 // Simulate a language server reporting no errors for a file.
4023 fake_language_server.notify::<lsp::notification::PublishDiagnostics>(
4024 lsp::PublishDiagnosticsParams {
4025 uri: lsp::Url::from_file_path("/a/a.rs").unwrap(),
4026 version: None,
4027 diagnostics: vec![],
4028 },
4029 );
4030 executor.run_until_parked();
4031
4032 project_a.read_with(cx_a, |project, cx| {
4033 assert_eq!(
4034 project.diagnostic_summaries(false, cx).collect::<Vec<_>>(),
4035 []
4036 )
4037 });
4038
4039 project_b.read_with(cx_b, |project, cx| {
4040 assert_eq!(
4041 project.diagnostic_summaries(false, cx).collect::<Vec<_>>(),
4042 []
4043 )
4044 });
4045
4046 project_c.read_with(cx_c, |project, cx| {
4047 assert_eq!(
4048 project.diagnostic_summaries(false, cx).collect::<Vec<_>>(),
4049 []
4050 )
4051 });
4052}
4053
4054#[gpui::test(iterations = 10)]
4055async fn test_collaborating_with_lsp_progress_updates_and_diagnostics_ordering(
4056 executor: BackgroundExecutor,
4057 cx_a: &mut TestAppContext,
4058 cx_b: &mut TestAppContext,
4059) {
4060 let mut server = TestServer::start(executor.clone()).await;
4061 let client_a = server.create_client(cx_a, "user_a").await;
4062 let client_b = server.create_client(cx_b, "user_b").await;
4063 server
4064 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4065 .await;
4066
4067 client_a.language_registry().add(rust_lang());
4068 let mut fake_language_servers = client_a.language_registry().register_fake_lsp_adapter(
4069 "Rust",
4070 FakeLspAdapter {
4071 disk_based_diagnostics_progress_token: Some("the-disk-based-token".into()),
4072 disk_based_diagnostics_sources: vec!["the-disk-based-diagnostics-source".into()],
4073 ..Default::default()
4074 },
4075 );
4076
4077 let file_names = &["one.rs", "two.rs", "three.rs", "four.rs", "five.rs"];
4078 client_a
4079 .fs()
4080 .insert_tree(
4081 "/test",
4082 json!({
4083 "one.rs": "const ONE: usize = 1;",
4084 "two.rs": "const TWO: usize = 2;",
4085 "three.rs": "const THREE: usize = 3;",
4086 "four.rs": "const FOUR: usize = 3;",
4087 "five.rs": "const FIVE: usize = 3;",
4088 }),
4089 )
4090 .await;
4091
4092 let (project_a, worktree_id) = client_a.build_local_project("/test", cx_a).await;
4093
4094 // Share a project as client A
4095 let active_call_a = cx_a.read(ActiveCall::global);
4096 let project_id = active_call_a
4097 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4098 .await
4099 .unwrap();
4100
4101 // Join the project as client B and open all three files.
4102 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4103 let guest_buffers = futures::future::try_join_all(file_names.iter().map(|file_name| {
4104 project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, file_name), cx))
4105 }))
4106 .await
4107 .unwrap();
4108
4109 // Simulate a language server reporting errors for a file.
4110 let fake_language_server = fake_language_servers.next().await.unwrap();
4111 fake_language_server
4112 .request::<lsp::request::WorkDoneProgressCreate>(lsp::WorkDoneProgressCreateParams {
4113 token: lsp::NumberOrString::String("the-disk-based-token".to_string()),
4114 })
4115 .await
4116 .unwrap();
4117 fake_language_server.notify::<lsp::notification::Progress>(lsp::ProgressParams {
4118 token: lsp::NumberOrString::String("the-disk-based-token".to_string()),
4119 value: lsp::ProgressParamsValue::WorkDone(lsp::WorkDoneProgress::Begin(
4120 lsp::WorkDoneProgressBegin {
4121 title: "Progress Began".into(),
4122 ..Default::default()
4123 },
4124 )),
4125 });
4126 for file_name in file_names {
4127 fake_language_server.notify::<lsp::notification::PublishDiagnostics>(
4128 lsp::PublishDiagnosticsParams {
4129 uri: lsp::Url::from_file_path(Path::new("/test").join(file_name)).unwrap(),
4130 version: None,
4131 diagnostics: vec![lsp::Diagnostic {
4132 severity: Some(lsp::DiagnosticSeverity::WARNING),
4133 source: Some("the-disk-based-diagnostics-source".into()),
4134 range: lsp::Range::new(lsp::Position::new(0, 0), lsp::Position::new(0, 0)),
4135 message: "message one".to_string(),
4136 ..Default::default()
4137 }],
4138 },
4139 );
4140 }
4141 fake_language_server.notify::<lsp::notification::Progress>(lsp::ProgressParams {
4142 token: lsp::NumberOrString::String("the-disk-based-token".to_string()),
4143 value: lsp::ProgressParamsValue::WorkDone(lsp::WorkDoneProgress::End(
4144 lsp::WorkDoneProgressEnd { message: None },
4145 )),
4146 });
4147
4148 // When the "disk base diagnostics finished" message is received, the buffers'
4149 // diagnostics are expected to be present.
4150 let disk_based_diagnostics_finished = Arc::new(AtomicBool::new(false));
4151 project_b.update(cx_b, {
4152 let project_b = project_b.clone();
4153 let disk_based_diagnostics_finished = disk_based_diagnostics_finished.clone();
4154 move |_, cx| {
4155 cx.subscribe(&project_b, move |_, _, event, cx| {
4156 if let project::Event::DiskBasedDiagnosticsFinished { .. } = event {
4157 disk_based_diagnostics_finished.store(true, SeqCst);
4158 for buffer in &guest_buffers {
4159 assert_eq!(
4160 buffer
4161 .read(cx)
4162 .snapshot()
4163 .diagnostics_in_range::<_, usize>(0..5, false)
4164 .count(),
4165 1,
4166 "expected a diagnostic for buffer {:?}",
4167 buffer.read(cx).file().unwrap().path(),
4168 );
4169 }
4170 }
4171 })
4172 .detach();
4173 }
4174 });
4175
4176 executor.run_until_parked();
4177 assert!(disk_based_diagnostics_finished.load(SeqCst));
4178}
4179
4180#[gpui::test(iterations = 10)]
4181async fn test_reloading_buffer_manually(
4182 executor: BackgroundExecutor,
4183 cx_a: &mut TestAppContext,
4184 cx_b: &mut TestAppContext,
4185) {
4186 let mut server = TestServer::start(executor.clone()).await;
4187 let client_a = server.create_client(cx_a, "user_a").await;
4188 let client_b = server.create_client(cx_b, "user_b").await;
4189 server
4190 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4191 .await;
4192 let active_call_a = cx_a.read(ActiveCall::global);
4193
4194 client_a
4195 .fs()
4196 .insert_tree("/a", json!({ "a.rs": "let one = 1;" }))
4197 .await;
4198 let (project_a, worktree_id) = client_a.build_local_project("/a", cx_a).await;
4199 let buffer_a = project_a
4200 .update(cx_a, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx))
4201 .await
4202 .unwrap();
4203 let project_id = active_call_a
4204 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4205 .await
4206 .unwrap();
4207
4208 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4209
4210 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx));
4211 let buffer_b = cx_b.executor().spawn(open_buffer).await.unwrap();
4212 buffer_b.update(cx_b, |buffer, cx| {
4213 buffer.edit([(4..7, "six")], None, cx);
4214 buffer.edit([(10..11, "6")], None, cx);
4215 assert_eq!(buffer.text(), "let six = 6;");
4216 assert!(buffer.is_dirty());
4217 assert!(!buffer.has_conflict());
4218 });
4219 executor.run_until_parked();
4220
4221 buffer_a.read_with(cx_a, |buffer, _| assert_eq!(buffer.text(), "let six = 6;"));
4222
4223 client_a
4224 .fs()
4225 .save(
4226 "/a/a.rs".as_ref(),
4227 &Rope::from("let seven = 7;"),
4228 LineEnding::Unix,
4229 )
4230 .await
4231 .unwrap();
4232 executor.run_until_parked();
4233
4234 buffer_a.read_with(cx_a, |buffer, _| assert!(buffer.has_conflict()));
4235
4236 buffer_b.read_with(cx_b, |buffer, _| assert!(buffer.has_conflict()));
4237
4238 project_b
4239 .update(cx_b, |project, cx| {
4240 project.reload_buffers(HashSet::from_iter([buffer_b.clone()]), true, cx)
4241 })
4242 .await
4243 .unwrap();
4244
4245 buffer_a.read_with(cx_a, |buffer, _| {
4246 assert_eq!(buffer.text(), "let seven = 7;");
4247 assert!(!buffer.is_dirty());
4248 assert!(!buffer.has_conflict());
4249 });
4250
4251 buffer_b.read_with(cx_b, |buffer, _| {
4252 assert_eq!(buffer.text(), "let seven = 7;");
4253 assert!(!buffer.is_dirty());
4254 assert!(!buffer.has_conflict());
4255 });
4256
4257 buffer_a.update(cx_a, |buffer, cx| {
4258 // Undoing on the host is a no-op when the reload was initiated by the guest.
4259 buffer.undo(cx);
4260 assert_eq!(buffer.text(), "let seven = 7;");
4261 assert!(!buffer.is_dirty());
4262 assert!(!buffer.has_conflict());
4263 });
4264 buffer_b.update(cx_b, |buffer, cx| {
4265 // Undoing on the guest rolls back the buffer to before it was reloaded but the conflict gets cleared.
4266 buffer.undo(cx);
4267 assert_eq!(buffer.text(), "let six = 6;");
4268 assert!(buffer.is_dirty());
4269 assert!(!buffer.has_conflict());
4270 });
4271}
4272
4273#[gpui::test(iterations = 10)]
4274async fn test_formatting_buffer(
4275 executor: BackgroundExecutor,
4276 cx_a: &mut TestAppContext,
4277 cx_b: &mut TestAppContext,
4278) {
4279 executor.allow_parking();
4280 let mut server = TestServer::start(executor.clone()).await;
4281 let client_a = server.create_client(cx_a, "user_a").await;
4282 let client_b = server.create_client(cx_b, "user_b").await;
4283 server
4284 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4285 .await;
4286 let active_call_a = cx_a.read(ActiveCall::global);
4287
4288 client_a.language_registry().add(rust_lang());
4289 let mut fake_language_servers = client_a
4290 .language_registry()
4291 .register_fake_lsp_adapter("Rust", FakeLspAdapter::default());
4292
4293 // Here we insert a fake tree with a directory that exists on disk. This is needed
4294 // because later we'll invoke a command, which requires passing a working directory
4295 // that points to a valid location on disk.
4296 let directory = env::current_dir().unwrap();
4297 client_a
4298 .fs()
4299 .insert_tree(&directory, json!({ "a.rs": "let one = \"two\"" }))
4300 .await;
4301 let (project_a, worktree_id) = client_a.build_local_project(&directory, cx_a).await;
4302 let project_id = active_call_a
4303 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4304 .await
4305 .unwrap();
4306 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4307
4308 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx));
4309 let buffer_b = cx_b.executor().spawn(open_buffer).await.unwrap();
4310
4311 let fake_language_server = fake_language_servers.next().await.unwrap();
4312 fake_language_server.handle_request::<lsp::request::Formatting, _, _>(|_, _| async move {
4313 Ok(Some(vec![
4314 lsp::TextEdit {
4315 range: lsp::Range::new(lsp::Position::new(0, 4), lsp::Position::new(0, 4)),
4316 new_text: "h".to_string(),
4317 },
4318 lsp::TextEdit {
4319 range: lsp::Range::new(lsp::Position::new(0, 7), lsp::Position::new(0, 7)),
4320 new_text: "y".to_string(),
4321 },
4322 ]))
4323 });
4324
4325 project_b
4326 .update(cx_b, |project, cx| {
4327 project.format(
4328 HashSet::from_iter([buffer_b.clone()]),
4329 true,
4330 FormatTrigger::Save,
4331 cx,
4332 )
4333 })
4334 .await
4335 .unwrap();
4336
4337 // The edits from the LSP are applied, and a final newline is added.
4338 assert_eq!(
4339 buffer_b.read_with(cx_b, |buffer, _| buffer.text()),
4340 "let honey = \"two\"\n"
4341 );
4342
4343 // Ensure buffer can be formatted using an external command. Notice how the
4344 // host's configuration is honored as opposed to using the guest's settings.
4345 cx_a.update(|cx| {
4346 cx.update_global(|store: &mut SettingsStore, cx| {
4347 store.update_user_settings::<AllLanguageSettings>(cx, |file| {
4348 file.defaults.formatter = Some(Formatter::External {
4349 command: "awk".into(),
4350 arguments: vec!["{sub(/two/,\"{buffer_path}\")}1".to_string()].into(),
4351 });
4352 });
4353 });
4354 });
4355 project_b
4356 .update(cx_b, |project, cx| {
4357 project.format(
4358 HashSet::from_iter([buffer_b.clone()]),
4359 true,
4360 FormatTrigger::Save,
4361 cx,
4362 )
4363 })
4364 .await
4365 .unwrap();
4366 assert_eq!(
4367 buffer_b.read_with(cx_b, |buffer, _| buffer.text()),
4368 format!("let honey = \"{}/a.rs\"\n", directory.to_str().unwrap())
4369 );
4370}
4371
4372#[gpui::test(iterations = 10)]
4373async fn test_prettier_formatting_buffer(
4374 executor: BackgroundExecutor,
4375 cx_a: &mut TestAppContext,
4376 cx_b: &mut TestAppContext,
4377) {
4378 let mut server = TestServer::start(executor.clone()).await;
4379 let client_a = server.create_client(cx_a, "user_a").await;
4380 let client_b = server.create_client(cx_b, "user_b").await;
4381 server
4382 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4383 .await;
4384 let active_call_a = cx_a.read(ActiveCall::global);
4385
4386 let test_plugin = "test_plugin";
4387
4388 client_a.language_registry().add(Arc::new(Language::new(
4389 LanguageConfig {
4390 name: "Rust".into(),
4391 matcher: LanguageMatcher {
4392 path_suffixes: vec!["rs".to_string()],
4393 ..Default::default()
4394 },
4395 prettier_parser_name: Some("test_parser".to_string()),
4396 ..Default::default()
4397 },
4398 Some(tree_sitter_rust::language()),
4399 )));
4400 let mut fake_language_servers = client_a.language_registry().register_fake_lsp_adapter(
4401 "Rust",
4402 FakeLspAdapter {
4403 prettier_plugins: vec![test_plugin],
4404 ..Default::default()
4405 },
4406 );
4407
4408 // Here we insert a fake tree with a directory that exists on disk. This is needed
4409 // because later we'll invoke a command, which requires passing a working directory
4410 // that points to a valid location on disk.
4411 let directory = env::current_dir().unwrap();
4412 let buffer_text = "let one = \"two\"";
4413 client_a
4414 .fs()
4415 .insert_tree(&directory, json!({ "a.rs": buffer_text }))
4416 .await;
4417 let (project_a, worktree_id) = client_a.build_local_project(&directory, cx_a).await;
4418 let prettier_format_suffix = project::TEST_PRETTIER_FORMAT_SUFFIX;
4419 let open_buffer = project_a.update(cx_a, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx));
4420 let buffer_a = cx_a.executor().spawn(open_buffer).await.unwrap();
4421
4422 let project_id = active_call_a
4423 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4424 .await
4425 .unwrap();
4426 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4427 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx));
4428 let buffer_b = cx_b.executor().spawn(open_buffer).await.unwrap();
4429
4430 cx_a.update(|cx| {
4431 cx.update_global(|store: &mut SettingsStore, cx| {
4432 store.update_user_settings::<AllLanguageSettings>(cx, |file| {
4433 file.defaults.formatter = Some(Formatter::Auto);
4434 });
4435 });
4436 });
4437 cx_b.update(|cx| {
4438 cx.update_global(|store: &mut SettingsStore, cx| {
4439 store.update_user_settings::<AllLanguageSettings>(cx, |file| {
4440 file.defaults.formatter = Some(Formatter::LanguageServer);
4441 });
4442 });
4443 });
4444 let fake_language_server = fake_language_servers.next().await.unwrap();
4445 fake_language_server.handle_request::<lsp::request::Formatting, _, _>(|_, _| async move {
4446 panic!(
4447 "Unexpected: prettier should be preferred since it's enabled and language supports it"
4448 )
4449 });
4450
4451 project_b
4452 .update(cx_b, |project, cx| {
4453 project.format(
4454 HashSet::from_iter([buffer_b.clone()]),
4455 true,
4456 FormatTrigger::Save,
4457 cx,
4458 )
4459 })
4460 .await
4461 .unwrap();
4462
4463 executor.run_until_parked();
4464 assert_eq!(
4465 buffer_b.read_with(cx_b, |buffer, _| buffer.text()),
4466 buffer_text.to_string() + "\n" + prettier_format_suffix,
4467 "Prettier formatting was not applied to client buffer after client's request"
4468 );
4469
4470 project_a
4471 .update(cx_a, |project, cx| {
4472 project.format(
4473 HashSet::from_iter([buffer_a.clone()]),
4474 true,
4475 FormatTrigger::Manual,
4476 cx,
4477 )
4478 })
4479 .await
4480 .unwrap();
4481
4482 executor.run_until_parked();
4483 assert_eq!(
4484 buffer_b.read_with(cx_b, |buffer, _| buffer.text()),
4485 buffer_text.to_string() + "\n" + prettier_format_suffix + "\n" + prettier_format_suffix,
4486 "Prettier formatting was not applied to client buffer after host's request"
4487 );
4488}
4489
4490#[gpui::test(iterations = 10)]
4491async fn test_definition(
4492 executor: BackgroundExecutor,
4493 cx_a: &mut TestAppContext,
4494 cx_b: &mut TestAppContext,
4495) {
4496 let mut server = TestServer::start(executor.clone()).await;
4497 let client_a = server.create_client(cx_a, "user_a").await;
4498 let client_b = server.create_client(cx_b, "user_b").await;
4499 server
4500 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4501 .await;
4502 let active_call_a = cx_a.read(ActiveCall::global);
4503
4504 let mut fake_language_servers = client_a
4505 .language_registry()
4506 .register_fake_lsp_adapter("Rust", Default::default());
4507 client_a.language_registry().add(rust_lang());
4508
4509 client_a
4510 .fs()
4511 .insert_tree(
4512 "/root",
4513 json!({
4514 "dir-1": {
4515 "a.rs": "const ONE: usize = b::TWO + b::THREE;",
4516 },
4517 "dir-2": {
4518 "b.rs": "const TWO: c::T2 = 2;\nconst THREE: usize = 3;",
4519 "c.rs": "type T2 = usize;",
4520 }
4521 }),
4522 )
4523 .await;
4524 let (project_a, worktree_id) = client_a.build_local_project("/root/dir-1", cx_a).await;
4525 let project_id = active_call_a
4526 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4527 .await
4528 .unwrap();
4529 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4530
4531 // Open the file on client B.
4532 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx));
4533 let buffer_b = cx_b.executor().spawn(open_buffer).await.unwrap();
4534
4535 // Request the definition of a symbol as the guest.
4536 let fake_language_server = fake_language_servers.next().await.unwrap();
4537 fake_language_server.handle_request::<lsp::request::GotoDefinition, _, _>(|_, _| async move {
4538 Ok(Some(lsp::GotoDefinitionResponse::Scalar(
4539 lsp::Location::new(
4540 lsp::Url::from_file_path("/root/dir-2/b.rs").unwrap(),
4541 lsp::Range::new(lsp::Position::new(0, 6), lsp::Position::new(0, 9)),
4542 ),
4543 )))
4544 });
4545
4546 let definitions_1 = project_b
4547 .update(cx_b, |p, cx| p.definition(&buffer_b, 23, cx))
4548 .await
4549 .unwrap();
4550 cx_b.read(|cx| {
4551 assert_eq!(definitions_1.len(), 1);
4552 assert_eq!(project_b.read(cx).worktrees().count(), 2);
4553 let target_buffer = definitions_1[0].target.buffer.read(cx);
4554 assert_eq!(
4555 target_buffer.text(),
4556 "const TWO: c::T2 = 2;\nconst THREE: usize = 3;"
4557 );
4558 assert_eq!(
4559 definitions_1[0].target.range.to_point(target_buffer),
4560 Point::new(0, 6)..Point::new(0, 9)
4561 );
4562 });
4563
4564 // Try getting more definitions for the same buffer, ensuring the buffer gets reused from
4565 // the previous call to `definition`.
4566 fake_language_server.handle_request::<lsp::request::GotoDefinition, _, _>(|_, _| async move {
4567 Ok(Some(lsp::GotoDefinitionResponse::Scalar(
4568 lsp::Location::new(
4569 lsp::Url::from_file_path("/root/dir-2/b.rs").unwrap(),
4570 lsp::Range::new(lsp::Position::new(1, 6), lsp::Position::new(1, 11)),
4571 ),
4572 )))
4573 });
4574
4575 let definitions_2 = project_b
4576 .update(cx_b, |p, cx| p.definition(&buffer_b, 33, cx))
4577 .await
4578 .unwrap();
4579 cx_b.read(|cx| {
4580 assert_eq!(definitions_2.len(), 1);
4581 assert_eq!(project_b.read(cx).worktrees().count(), 2);
4582 let target_buffer = definitions_2[0].target.buffer.read(cx);
4583 assert_eq!(
4584 target_buffer.text(),
4585 "const TWO: c::T2 = 2;\nconst THREE: usize = 3;"
4586 );
4587 assert_eq!(
4588 definitions_2[0].target.range.to_point(target_buffer),
4589 Point::new(1, 6)..Point::new(1, 11)
4590 );
4591 });
4592 assert_eq!(
4593 definitions_1[0].target.buffer,
4594 definitions_2[0].target.buffer
4595 );
4596
4597 fake_language_server.handle_request::<lsp::request::GotoTypeDefinition, _, _>(
4598 |req, _| async move {
4599 assert_eq!(
4600 req.text_document_position_params.position,
4601 lsp::Position::new(0, 7)
4602 );
4603 Ok(Some(lsp::GotoDefinitionResponse::Scalar(
4604 lsp::Location::new(
4605 lsp::Url::from_file_path("/root/dir-2/c.rs").unwrap(),
4606 lsp::Range::new(lsp::Position::new(0, 5), lsp::Position::new(0, 7)),
4607 ),
4608 )))
4609 },
4610 );
4611
4612 let type_definitions = project_b
4613 .update(cx_b, |p, cx| p.type_definition(&buffer_b, 7, cx))
4614 .await
4615 .unwrap();
4616 cx_b.read(|cx| {
4617 assert_eq!(type_definitions.len(), 1);
4618 let target_buffer = type_definitions[0].target.buffer.read(cx);
4619 assert_eq!(target_buffer.text(), "type T2 = usize;");
4620 assert_eq!(
4621 type_definitions[0].target.range.to_point(target_buffer),
4622 Point::new(0, 5)..Point::new(0, 7)
4623 );
4624 });
4625}
4626
4627#[gpui::test(iterations = 10)]
4628async fn test_references(
4629 executor: BackgroundExecutor,
4630 cx_a: &mut TestAppContext,
4631 cx_b: &mut TestAppContext,
4632) {
4633 let mut server = TestServer::start(executor.clone()).await;
4634 let client_a = server.create_client(cx_a, "user_a").await;
4635 let client_b = server.create_client(cx_b, "user_b").await;
4636 server
4637 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4638 .await;
4639 let active_call_a = cx_a.read(ActiveCall::global);
4640
4641 client_a.language_registry().add(rust_lang());
4642 let mut fake_language_servers = client_a
4643 .language_registry()
4644 .register_fake_lsp_adapter("Rust", Default::default());
4645
4646 client_a
4647 .fs()
4648 .insert_tree(
4649 "/root",
4650 json!({
4651 "dir-1": {
4652 "one.rs": "const ONE: usize = 1;",
4653 "two.rs": "const TWO: usize = one::ONE + one::ONE;",
4654 },
4655 "dir-2": {
4656 "three.rs": "const THREE: usize = two::TWO + one::ONE;",
4657 }
4658 }),
4659 )
4660 .await;
4661 let (project_a, worktree_id) = client_a.build_local_project("/root/dir-1", cx_a).await;
4662 let project_id = active_call_a
4663 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4664 .await
4665 .unwrap();
4666 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4667
4668 // Open the file on client B.
4669 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "one.rs"), cx));
4670 let buffer_b = cx_b.executor().spawn(open_buffer).await.unwrap();
4671
4672 // Request references to a symbol as the guest.
4673 let fake_language_server = fake_language_servers.next().await.unwrap();
4674 fake_language_server.handle_request::<lsp::request::References, _, _>(|params, _| async move {
4675 assert_eq!(
4676 params.text_document_position.text_document.uri.as_str(),
4677 "file:///root/dir-1/one.rs"
4678 );
4679 Ok(Some(vec![
4680 lsp::Location {
4681 uri: lsp::Url::from_file_path("/root/dir-1/two.rs").unwrap(),
4682 range: lsp::Range::new(lsp::Position::new(0, 24), lsp::Position::new(0, 27)),
4683 },
4684 lsp::Location {
4685 uri: lsp::Url::from_file_path("/root/dir-1/two.rs").unwrap(),
4686 range: lsp::Range::new(lsp::Position::new(0, 35), lsp::Position::new(0, 38)),
4687 },
4688 lsp::Location {
4689 uri: lsp::Url::from_file_path("/root/dir-2/three.rs").unwrap(),
4690 range: lsp::Range::new(lsp::Position::new(0, 37), lsp::Position::new(0, 40)),
4691 },
4692 ]))
4693 });
4694
4695 let references = project_b
4696 .update(cx_b, |p, cx| p.references(&buffer_b, 7, cx))
4697 .await
4698 .unwrap();
4699 cx_b.read(|cx| {
4700 assert_eq!(references.len(), 3);
4701 assert_eq!(project_b.read(cx).worktrees().count(), 2);
4702
4703 let two_buffer = references[0].buffer.read(cx);
4704 let three_buffer = references[2].buffer.read(cx);
4705 assert_eq!(
4706 two_buffer.file().unwrap().path().as_ref(),
4707 Path::new("two.rs")
4708 );
4709 assert_eq!(references[1].buffer, references[0].buffer);
4710 assert_eq!(
4711 three_buffer.file().unwrap().full_path(cx),
4712 Path::new("/root/dir-2/three.rs")
4713 );
4714
4715 assert_eq!(references[0].range.to_offset(two_buffer), 24..27);
4716 assert_eq!(references[1].range.to_offset(two_buffer), 35..38);
4717 assert_eq!(references[2].range.to_offset(three_buffer), 37..40);
4718 });
4719}
4720
4721#[gpui::test(iterations = 10)]
4722async fn test_project_search(
4723 executor: BackgroundExecutor,
4724 cx_a: &mut TestAppContext,
4725 cx_b: &mut TestAppContext,
4726) {
4727 let mut server = TestServer::start(executor.clone()).await;
4728 let client_a = server.create_client(cx_a, "user_a").await;
4729 let client_b = server.create_client(cx_b, "user_b").await;
4730 server
4731 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4732 .await;
4733 let active_call_a = cx_a.read(ActiveCall::global);
4734
4735 client_a
4736 .fs()
4737 .insert_tree(
4738 "/root",
4739 json!({
4740 "dir-1": {
4741 "a": "hello world",
4742 "b": "goodnight moon",
4743 "c": "a world of goo",
4744 "d": "world champion of clown world",
4745 },
4746 "dir-2": {
4747 "e": "disney world is fun",
4748 }
4749 }),
4750 )
4751 .await;
4752 let (project_a, _) = client_a.build_local_project("/root/dir-1", cx_a).await;
4753 let (worktree_2, _) = project_a
4754 .update(cx_a, |p, cx| {
4755 p.find_or_create_local_worktree("/root/dir-2", true, cx)
4756 })
4757 .await
4758 .unwrap();
4759 worktree_2
4760 .read_with(cx_a, |tree, _| tree.as_local().unwrap().scan_complete())
4761 .await;
4762 let project_id = active_call_a
4763 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4764 .await
4765 .unwrap();
4766
4767 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4768
4769 // Perform a search as the guest.
4770 let mut results = HashMap::default();
4771 let mut search_rx = project_b.update(cx_b, |project, cx| {
4772 project.search(
4773 SearchQuery::text("world", false, false, false, Vec::new(), Vec::new()).unwrap(),
4774 cx,
4775 )
4776 });
4777 while let Some((buffer, ranges)) = search_rx.next().await {
4778 results.entry(buffer).or_insert(ranges);
4779 }
4780
4781 let mut ranges_by_path = results
4782 .into_iter()
4783 .map(|(buffer, ranges)| {
4784 buffer.read_with(cx_b, |buffer, cx| {
4785 let path = buffer.file().unwrap().full_path(cx);
4786 let offset_ranges = ranges
4787 .into_iter()
4788 .map(|range| range.to_offset(buffer))
4789 .collect::<Vec<_>>();
4790 (path, offset_ranges)
4791 })
4792 })
4793 .collect::<Vec<_>>();
4794 ranges_by_path.sort_by_key(|(path, _)| path.clone());
4795
4796 assert_eq!(
4797 ranges_by_path,
4798 &[
4799 (PathBuf::from("dir-1/a"), vec![6..11]),
4800 (PathBuf::from("dir-1/c"), vec![2..7]),
4801 (PathBuf::from("dir-1/d"), vec![0..5, 24..29]),
4802 (PathBuf::from("dir-2/e"), vec![7..12]),
4803 ]
4804 );
4805}
4806
4807#[gpui::test(iterations = 10)]
4808async fn test_document_highlights(
4809 executor: BackgroundExecutor,
4810 cx_a: &mut TestAppContext,
4811 cx_b: &mut TestAppContext,
4812) {
4813 let mut server = TestServer::start(executor.clone()).await;
4814 let client_a = server.create_client(cx_a, "user_a").await;
4815 let client_b = server.create_client(cx_b, "user_b").await;
4816 server
4817 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4818 .await;
4819 let active_call_a = cx_a.read(ActiveCall::global);
4820
4821 client_a
4822 .fs()
4823 .insert_tree(
4824 "/root-1",
4825 json!({
4826 "main.rs": "fn double(number: i32) -> i32 { number + number }",
4827 }),
4828 )
4829 .await;
4830
4831 let mut fake_language_servers = client_a
4832 .language_registry()
4833 .register_fake_lsp_adapter("Rust", Default::default());
4834 client_a.language_registry().add(rust_lang());
4835
4836 let (project_a, worktree_id) = client_a.build_local_project("/root-1", cx_a).await;
4837 let project_id = active_call_a
4838 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4839 .await
4840 .unwrap();
4841 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4842
4843 // Open the file on client B.
4844 let open_b = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "main.rs"), cx));
4845 let buffer_b = cx_b.executor().spawn(open_b).await.unwrap();
4846
4847 // Request document highlights as the guest.
4848 let fake_language_server = fake_language_servers.next().await.unwrap();
4849 fake_language_server.handle_request::<lsp::request::DocumentHighlightRequest, _, _>(
4850 |params, _| async move {
4851 assert_eq!(
4852 params
4853 .text_document_position_params
4854 .text_document
4855 .uri
4856 .as_str(),
4857 "file:///root-1/main.rs"
4858 );
4859 assert_eq!(
4860 params.text_document_position_params.position,
4861 lsp::Position::new(0, 34)
4862 );
4863 Ok(Some(vec![
4864 lsp::DocumentHighlight {
4865 kind: Some(lsp::DocumentHighlightKind::WRITE),
4866 range: lsp::Range::new(lsp::Position::new(0, 10), lsp::Position::new(0, 16)),
4867 },
4868 lsp::DocumentHighlight {
4869 kind: Some(lsp::DocumentHighlightKind::READ),
4870 range: lsp::Range::new(lsp::Position::new(0, 32), lsp::Position::new(0, 38)),
4871 },
4872 lsp::DocumentHighlight {
4873 kind: Some(lsp::DocumentHighlightKind::READ),
4874 range: lsp::Range::new(lsp::Position::new(0, 41), lsp::Position::new(0, 47)),
4875 },
4876 ]))
4877 },
4878 );
4879
4880 let highlights = project_b
4881 .update(cx_b, |p, cx| p.document_highlights(&buffer_b, 34, cx))
4882 .await
4883 .unwrap();
4884
4885 buffer_b.read_with(cx_b, |buffer, _| {
4886 let snapshot = buffer.snapshot();
4887
4888 let highlights = highlights
4889 .into_iter()
4890 .map(|highlight| (highlight.kind, highlight.range.to_offset(&snapshot)))
4891 .collect::<Vec<_>>();
4892 assert_eq!(
4893 highlights,
4894 &[
4895 (lsp::DocumentHighlightKind::WRITE, 10..16),
4896 (lsp::DocumentHighlightKind::READ, 32..38),
4897 (lsp::DocumentHighlightKind::READ, 41..47)
4898 ]
4899 )
4900 });
4901}
4902
4903#[gpui::test(iterations = 10)]
4904async fn test_lsp_hover(
4905 executor: BackgroundExecutor,
4906 cx_a: &mut TestAppContext,
4907 cx_b: &mut TestAppContext,
4908) {
4909 let mut server = TestServer::start(executor.clone()).await;
4910 let client_a = server.create_client(cx_a, "user_a").await;
4911 let client_b = server.create_client(cx_b, "user_b").await;
4912 server
4913 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
4914 .await;
4915 let active_call_a = cx_a.read(ActiveCall::global);
4916
4917 client_a
4918 .fs()
4919 .insert_tree(
4920 "/root-1",
4921 json!({
4922 "main.rs": "use std::collections::HashMap;",
4923 }),
4924 )
4925 .await;
4926
4927 client_a.language_registry().add(rust_lang());
4928 let mut fake_language_servers = client_a
4929 .language_registry()
4930 .register_fake_lsp_adapter("Rust", Default::default());
4931
4932 let (project_a, worktree_id) = client_a.build_local_project("/root-1", cx_a).await;
4933 let project_id = active_call_a
4934 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
4935 .await
4936 .unwrap();
4937 let project_b = client_b.build_remote_project(project_id, cx_b).await;
4938
4939 // Open the file as the guest
4940 let open_buffer = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "main.rs"), cx));
4941 let buffer_b = cx_b.executor().spawn(open_buffer).await.unwrap();
4942
4943 // Request hover information as the guest.
4944 let fake_language_server = fake_language_servers.next().await.unwrap();
4945 fake_language_server.handle_request::<lsp::request::HoverRequest, _, _>(
4946 |params, _| async move {
4947 assert_eq!(
4948 params
4949 .text_document_position_params
4950 .text_document
4951 .uri
4952 .as_str(),
4953 "file:///root-1/main.rs"
4954 );
4955 assert_eq!(
4956 params.text_document_position_params.position,
4957 lsp::Position::new(0, 22)
4958 );
4959 Ok(Some(lsp::Hover {
4960 contents: lsp::HoverContents::Array(vec![
4961 lsp::MarkedString::String("Test hover content.".to_string()),
4962 lsp::MarkedString::LanguageString(lsp::LanguageString {
4963 language: "Rust".to_string(),
4964 value: "let foo = 42;".to_string(),
4965 }),
4966 ]),
4967 range: Some(lsp::Range::new(
4968 lsp::Position::new(0, 22),
4969 lsp::Position::new(0, 29),
4970 )),
4971 }))
4972 },
4973 );
4974
4975 let hover_info = project_b
4976 .update(cx_b, |p, cx| p.hover(&buffer_b, 22, cx))
4977 .await
4978 .unwrap()
4979 .unwrap();
4980
4981 buffer_b.read_with(cx_b, |buffer, _| {
4982 let snapshot = buffer.snapshot();
4983 assert_eq!(hover_info.range.unwrap().to_offset(&snapshot), 22..29);
4984 assert_eq!(
4985 hover_info.contents,
4986 vec![
4987 project::HoverBlock {
4988 text: "Test hover content.".to_string(),
4989 kind: HoverBlockKind::Markdown,
4990 },
4991 project::HoverBlock {
4992 text: "let foo = 42;".to_string(),
4993 kind: HoverBlockKind::Code {
4994 language: "Rust".to_string()
4995 },
4996 }
4997 ]
4998 );
4999 });
5000}
5001
5002#[gpui::test(iterations = 10)]
5003async fn test_project_symbols(
5004 executor: BackgroundExecutor,
5005 cx_a: &mut TestAppContext,
5006 cx_b: &mut TestAppContext,
5007) {
5008 let mut server = TestServer::start(executor.clone()).await;
5009 let client_a = server.create_client(cx_a, "user_a").await;
5010 let client_b = server.create_client(cx_b, "user_b").await;
5011 server
5012 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
5013 .await;
5014 let active_call_a = cx_a.read(ActiveCall::global);
5015
5016 client_a.language_registry().add(rust_lang());
5017 let mut fake_language_servers = client_a
5018 .language_registry()
5019 .register_fake_lsp_adapter("Rust", Default::default());
5020
5021 client_a
5022 .fs()
5023 .insert_tree(
5024 "/code",
5025 json!({
5026 "crate-1": {
5027 "one.rs": "const ONE: usize = 1;",
5028 },
5029 "crate-2": {
5030 "two.rs": "const TWO: usize = 2; const THREE: usize = 3;",
5031 },
5032 "private": {
5033 "passwords.txt": "the-password",
5034 }
5035 }),
5036 )
5037 .await;
5038 let (project_a, worktree_id) = client_a.build_local_project("/code/crate-1", cx_a).await;
5039 let project_id = active_call_a
5040 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
5041 .await
5042 .unwrap();
5043 let project_b = client_b.build_remote_project(project_id, cx_b).await;
5044
5045 // Cause the language server to start.
5046 let open_buffer_task =
5047 project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "one.rs"), cx));
5048 let _buffer = cx_b.executor().spawn(open_buffer_task).await.unwrap();
5049
5050 let fake_language_server = fake_language_servers.next().await.unwrap();
5051 fake_language_server.handle_request::<lsp::WorkspaceSymbolRequest, _, _>(|_, _| async move {
5052 Ok(Some(lsp::WorkspaceSymbolResponse::Flat(vec![
5053 #[allow(deprecated)]
5054 lsp::SymbolInformation {
5055 name: "TWO".into(),
5056 location: lsp::Location {
5057 uri: lsp::Url::from_file_path("/code/crate-2/two.rs").unwrap(),
5058 range: lsp::Range::new(lsp::Position::new(0, 6), lsp::Position::new(0, 9)),
5059 },
5060 kind: lsp::SymbolKind::CONSTANT,
5061 tags: None,
5062 container_name: None,
5063 deprecated: None,
5064 },
5065 ])))
5066 });
5067
5068 // Request the definition of a symbol as the guest.
5069 let symbols = project_b
5070 .update(cx_b, |p, cx| p.symbols("two", cx))
5071 .await
5072 .unwrap();
5073 assert_eq!(symbols.len(), 1);
5074 assert_eq!(symbols[0].name, "TWO");
5075
5076 // Open one of the returned symbols.
5077 let buffer_b_2 = project_b
5078 .update(cx_b, |project, cx| {
5079 project.open_buffer_for_symbol(&symbols[0], cx)
5080 })
5081 .await
5082 .unwrap();
5083
5084 buffer_b_2.read_with(cx_b, |buffer, cx| {
5085 assert_eq!(
5086 buffer.file().unwrap().full_path(cx),
5087 Path::new("/code/crate-2/two.rs")
5088 );
5089 });
5090
5091 // Attempt to craft a symbol and violate host's privacy by opening an arbitrary file.
5092 let mut fake_symbol = symbols[0].clone();
5093 fake_symbol.path.path = Path::new("/code/secrets").into();
5094 let error = project_b
5095 .update(cx_b, |project, cx| {
5096 project.open_buffer_for_symbol(&fake_symbol, cx)
5097 })
5098 .await
5099 .unwrap_err();
5100 assert!(error.to_string().contains("invalid symbol signature"));
5101}
5102
5103#[gpui::test(iterations = 10)]
5104async fn test_open_buffer_while_getting_definition_pointing_to_it(
5105 executor: BackgroundExecutor,
5106 cx_a: &mut TestAppContext,
5107 cx_b: &mut TestAppContext,
5108 mut rng: StdRng,
5109) {
5110 let mut server = TestServer::start(executor.clone()).await;
5111 let client_a = server.create_client(cx_a, "user_a").await;
5112 let client_b = server.create_client(cx_b, "user_b").await;
5113 server
5114 .create_room(&mut [(&client_a, cx_a), (&client_b, cx_b)])
5115 .await;
5116 let active_call_a = cx_a.read(ActiveCall::global);
5117
5118 client_a.language_registry().add(rust_lang());
5119 let mut fake_language_servers = client_a
5120 .language_registry()
5121 .register_fake_lsp_adapter("Rust", Default::default());
5122
5123 client_a
5124 .fs()
5125 .insert_tree(
5126 "/root",
5127 json!({
5128 "a.rs": "const ONE: usize = b::TWO;",
5129 "b.rs": "const TWO: usize = 2",
5130 }),
5131 )
5132 .await;
5133 let (project_a, worktree_id) = client_a.build_local_project("/root", cx_a).await;
5134 let project_id = active_call_a
5135 .update(cx_a, |call, cx| call.share_project(project_a.clone(), cx))
5136 .await
5137 .unwrap();
5138 let project_b = client_b.build_remote_project(project_id, cx_b).await;
5139
5140 let open_buffer_task = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "a.rs"), cx));
5141 let buffer_b1 = cx_b.executor().spawn(open_buffer_task).await.unwrap();
5142
5143 let fake_language_server = fake_language_servers.next().await.unwrap();
5144 fake_language_server.handle_request::<lsp::request::GotoDefinition, _, _>(|_, _| async move {
5145 Ok(Some(lsp::GotoDefinitionResponse::Scalar(
5146 lsp::Location::new(
5147 lsp::Url::from_file_path("/root/b.rs").unwrap(),
5148 lsp::Range::new(lsp::Position::new(0, 6), lsp::Position::new(0, 9)),
5149 ),
5150 )))
5151 });
5152
5153 let definitions;
5154 let buffer_b2;
5155 if rng.gen() {
5156 definitions = project_b.update(cx_b, |p, cx| p.definition(&buffer_b1, 23, cx));
5157 buffer_b2 = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "b.rs"), cx));
5158 } else {
5159 buffer_b2 = project_b.update(cx_b, |p, cx| p.open_buffer((worktree_id, "b.rs"), cx));
5160 definitions = project_b.update(cx_b, |p, cx| p.definition(&buffer_b1, 23, cx));
5161 }
5162
5163 let buffer_b2 = buffer_b2.await.unwrap();
5164 let definitions = definitions.await.unwrap();
5165 assert_eq!(definitions.len(), 1);
5166 assert_eq!(definitions[0].target.buffer, buffer_b2);
5167}
5168
5169#[gpui::test(iterations = 10)]
5170async fn test_contacts(
5171 executor: BackgroundExecutor,
5172 cx_a: &mut TestAppContext,
5173 cx_b: &mut TestAppContext,
5174 cx_c: &mut TestAppContext,
5175 cx_d: &mut TestAppContext,
5176) {
5177 let mut server = TestServer::start(executor.clone()).await;
5178 let client_a = server.create_client(cx_a, "user_a").await;
5179 let client_b = server.create_client(cx_b, "user_b").await;
5180 let client_c = server.create_client(cx_c, "user_c").await;
5181 let client_d = server.create_client(cx_d, "user_d").await;
5182 server
5183 .make_contacts(&mut [(&client_a, cx_a), (&client_b, cx_b), (&client_c, cx_c)])
5184 .await;
5185 let active_call_a = cx_a.read(ActiveCall::global);
5186 let active_call_b = cx_b.read(ActiveCall::global);
5187 let active_call_c = cx_c.read(ActiveCall::global);
5188 let _active_call_d = cx_d.read(ActiveCall::global);
5189
5190 executor.run_until_parked();
5191 assert_eq!(
5192 contacts(&client_a, cx_a),
5193 [
5194 ("user_b".to_string(), "online", "free"),
5195 ("user_c".to_string(), "online", "free")
5196 ]
5197 );
5198 assert_eq!(
5199 contacts(&client_b, cx_b),
5200 [
5201 ("user_a".to_string(), "online", "free"),
5202 ("user_c".to_string(), "online", "free")
5203 ]
5204 );
5205 assert_eq!(
5206 contacts(&client_c, cx_c),
5207 [
5208 ("user_a".to_string(), "online", "free"),
5209 ("user_b".to_string(), "online", "free")
5210 ]
5211 );
5212 assert_eq!(contacts(&client_d, cx_d), []);
5213
5214 server.disconnect_client(client_c.peer_id().unwrap());
5215 server.forbid_connections();
5216 executor.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
5217 assert_eq!(
5218 contacts(&client_a, cx_a),
5219 [
5220 ("user_b".to_string(), "online", "free"),
5221 ("user_c".to_string(), "offline", "free")
5222 ]
5223 );
5224 assert_eq!(
5225 contacts(&client_b, cx_b),
5226 [
5227 ("user_a".to_string(), "online", "free"),
5228 ("user_c".to_string(), "offline", "free")
5229 ]
5230 );
5231 assert_eq!(contacts(&client_c, cx_c), []);
5232 assert_eq!(contacts(&client_d, cx_d), []);
5233
5234 server.allow_connections();
5235 client_c
5236 .authenticate_and_connect(false, &cx_c.to_async())
5237 .await
5238 .unwrap();
5239
5240 executor.run_until_parked();
5241 assert_eq!(
5242 contacts(&client_a, cx_a),
5243 [
5244 ("user_b".to_string(), "online", "free"),
5245 ("user_c".to_string(), "online", "free")
5246 ]
5247 );
5248 assert_eq!(
5249 contacts(&client_b, cx_b),
5250 [
5251 ("user_a".to_string(), "online", "free"),
5252 ("user_c".to_string(), "online", "free")
5253 ]
5254 );
5255 assert_eq!(
5256 contacts(&client_c, cx_c),
5257 [
5258 ("user_a".to_string(), "online", "free"),
5259 ("user_b".to_string(), "online", "free")
5260 ]
5261 );
5262 assert_eq!(contacts(&client_d, cx_d), []);
5263
5264 active_call_a
5265 .update(cx_a, |call, cx| {
5266 call.invite(client_b.user_id().unwrap(), None, cx)
5267 })
5268 .await
5269 .unwrap();
5270 executor.run_until_parked();
5271 assert_eq!(
5272 contacts(&client_a, cx_a),
5273 [
5274 ("user_b".to_string(), "online", "busy"),
5275 ("user_c".to_string(), "online", "free")
5276 ]
5277 );
5278 assert_eq!(
5279 contacts(&client_b, cx_b),
5280 [
5281 ("user_a".to_string(), "online", "busy"),
5282 ("user_c".to_string(), "online", "free")
5283 ]
5284 );
5285 assert_eq!(
5286 contacts(&client_c, cx_c),
5287 [
5288 ("user_a".to_string(), "online", "busy"),
5289 ("user_b".to_string(), "online", "busy")
5290 ]
5291 );
5292 assert_eq!(contacts(&client_d, cx_d), []);
5293
5294 // Client B and client D become contacts while client B is being called.
5295 server
5296 .make_contacts(&mut [(&client_b, cx_b), (&client_d, cx_d)])
5297 .await;
5298 executor.run_until_parked();
5299 assert_eq!(
5300 contacts(&client_a, cx_a),
5301 [
5302 ("user_b".to_string(), "online", "busy"),
5303 ("user_c".to_string(), "online", "free")
5304 ]
5305 );
5306 assert_eq!(
5307 contacts(&client_b, cx_b),
5308 [
5309 ("user_a".to_string(), "online", "busy"),
5310 ("user_c".to_string(), "online", "free"),
5311 ("user_d".to_string(), "online", "free"),
5312 ]
5313 );
5314 assert_eq!(
5315 contacts(&client_c, cx_c),
5316 [
5317 ("user_a".to_string(), "online", "busy"),
5318 ("user_b".to_string(), "online", "busy")
5319 ]
5320 );
5321 assert_eq!(
5322 contacts(&client_d, cx_d),
5323 [("user_b".to_string(), "online", "busy")]
5324 );
5325
5326 active_call_b.update(cx_b, |call, cx| call.decline_incoming(cx).unwrap());
5327 executor.run_until_parked();
5328 assert_eq!(
5329 contacts(&client_a, cx_a),
5330 [
5331 ("user_b".to_string(), "online", "free"),
5332 ("user_c".to_string(), "online", "free")
5333 ]
5334 );
5335 assert_eq!(
5336 contacts(&client_b, cx_b),
5337 [
5338 ("user_a".to_string(), "online", "free"),
5339 ("user_c".to_string(), "online", "free"),
5340 ("user_d".to_string(), "online", "free")
5341 ]
5342 );
5343 assert_eq!(
5344 contacts(&client_c, cx_c),
5345 [
5346 ("user_a".to_string(), "online", "free"),
5347 ("user_b".to_string(), "online", "free")
5348 ]
5349 );
5350 assert_eq!(
5351 contacts(&client_d, cx_d),
5352 [("user_b".to_string(), "online", "free")]
5353 );
5354
5355 active_call_c
5356 .update(cx_c, |call, cx| {
5357 call.invite(client_a.user_id().unwrap(), None, cx)
5358 })
5359 .await
5360 .unwrap();
5361 executor.run_until_parked();
5362 assert_eq!(
5363 contacts(&client_a, cx_a),
5364 [
5365 ("user_b".to_string(), "online", "free"),
5366 ("user_c".to_string(), "online", "busy")
5367 ]
5368 );
5369 assert_eq!(
5370 contacts(&client_b, cx_b),
5371 [
5372 ("user_a".to_string(), "online", "busy"),
5373 ("user_c".to_string(), "online", "busy"),
5374 ("user_d".to_string(), "online", "free")
5375 ]
5376 );
5377 assert_eq!(
5378 contacts(&client_c, cx_c),
5379 [
5380 ("user_a".to_string(), "online", "busy"),
5381 ("user_b".to_string(), "online", "free")
5382 ]
5383 );
5384 assert_eq!(
5385 contacts(&client_d, cx_d),
5386 [("user_b".to_string(), "online", "free")]
5387 );
5388
5389 active_call_a
5390 .update(cx_a, |call, cx| call.accept_incoming(cx))
5391 .await
5392 .unwrap();
5393 executor.run_until_parked();
5394 assert_eq!(
5395 contacts(&client_a, cx_a),
5396 [
5397 ("user_b".to_string(), "online", "free"),
5398 ("user_c".to_string(), "online", "busy")
5399 ]
5400 );
5401 assert_eq!(
5402 contacts(&client_b, cx_b),
5403 [
5404 ("user_a".to_string(), "online", "busy"),
5405 ("user_c".to_string(), "online", "busy"),
5406 ("user_d".to_string(), "online", "free")
5407 ]
5408 );
5409 assert_eq!(
5410 contacts(&client_c, cx_c),
5411 [
5412 ("user_a".to_string(), "online", "busy"),
5413 ("user_b".to_string(), "online", "free")
5414 ]
5415 );
5416 assert_eq!(
5417 contacts(&client_d, cx_d),
5418 [("user_b".to_string(), "online", "free")]
5419 );
5420
5421 active_call_a
5422 .update(cx_a, |call, cx| {
5423 call.invite(client_b.user_id().unwrap(), None, cx)
5424 })
5425 .await
5426 .unwrap();
5427 executor.run_until_parked();
5428 assert_eq!(
5429 contacts(&client_a, cx_a),
5430 [
5431 ("user_b".to_string(), "online", "busy"),
5432 ("user_c".to_string(), "online", "busy")
5433 ]
5434 );
5435 assert_eq!(
5436 contacts(&client_b, cx_b),
5437 [
5438 ("user_a".to_string(), "online", "busy"),
5439 ("user_c".to_string(), "online", "busy"),
5440 ("user_d".to_string(), "online", "free")
5441 ]
5442 );
5443 assert_eq!(
5444 contacts(&client_c, cx_c),
5445 [
5446 ("user_a".to_string(), "online", "busy"),
5447 ("user_b".to_string(), "online", "busy")
5448 ]
5449 );
5450 assert_eq!(
5451 contacts(&client_d, cx_d),
5452 [("user_b".to_string(), "online", "busy")]
5453 );
5454
5455 active_call_a
5456 .update(cx_a, |call, cx| call.hang_up(cx))
5457 .await
5458 .unwrap();
5459 executor.run_until_parked();
5460 assert_eq!(
5461 contacts(&client_a, cx_a),
5462 [
5463 ("user_b".to_string(), "online", "free"),
5464 ("user_c".to_string(), "online", "free")
5465 ]
5466 );
5467 assert_eq!(
5468 contacts(&client_b, cx_b),
5469 [
5470 ("user_a".to_string(), "online", "free"),
5471 ("user_c".to_string(), "online", "free"),
5472 ("user_d".to_string(), "online", "free")
5473 ]
5474 );
5475 assert_eq!(
5476 contacts(&client_c, cx_c),
5477 [
5478 ("user_a".to_string(), "online", "free"),
5479 ("user_b".to_string(), "online", "free")
5480 ]
5481 );
5482 assert_eq!(
5483 contacts(&client_d, cx_d),
5484 [("user_b".to_string(), "online", "free")]
5485 );
5486
5487 active_call_a
5488 .update(cx_a, |call, cx| {
5489 call.invite(client_b.user_id().unwrap(), None, cx)
5490 })
5491 .await
5492 .unwrap();
5493 executor.run_until_parked();
5494 assert_eq!(
5495 contacts(&client_a, cx_a),
5496 [
5497 ("user_b".to_string(), "online", "busy"),
5498 ("user_c".to_string(), "online", "free")
5499 ]
5500 );
5501 assert_eq!(
5502 contacts(&client_b, cx_b),
5503 [
5504 ("user_a".to_string(), "online", "busy"),
5505 ("user_c".to_string(), "online", "free"),
5506 ("user_d".to_string(), "online", "free")
5507 ]
5508 );
5509 assert_eq!(
5510 contacts(&client_c, cx_c),
5511 [
5512 ("user_a".to_string(), "online", "busy"),
5513 ("user_b".to_string(), "online", "busy")
5514 ]
5515 );
5516 assert_eq!(
5517 contacts(&client_d, cx_d),
5518 [("user_b".to_string(), "online", "busy")]
5519 );
5520
5521 server.forbid_connections();
5522 server.disconnect_client(client_a.peer_id().unwrap());
5523 executor.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
5524 assert_eq!(contacts(&client_a, cx_a), []);
5525 assert_eq!(
5526 contacts(&client_b, cx_b),
5527 [
5528 ("user_a".to_string(), "offline", "free"),
5529 ("user_c".to_string(), "online", "free"),
5530 ("user_d".to_string(), "online", "free")
5531 ]
5532 );
5533 assert_eq!(
5534 contacts(&client_c, cx_c),
5535 [
5536 ("user_a".to_string(), "offline", "free"),
5537 ("user_b".to_string(), "online", "free")
5538 ]
5539 );
5540 assert_eq!(
5541 contacts(&client_d, cx_d),
5542 [("user_b".to_string(), "online", "free")]
5543 );
5544
5545 // Test removing a contact
5546 client_b
5547 .user_store()
5548 .update(cx_b, |store, cx| {
5549 store.remove_contact(client_c.user_id().unwrap(), cx)
5550 })
5551 .await
5552 .unwrap();
5553 executor.run_until_parked();
5554 assert_eq!(
5555 contacts(&client_b, cx_b),
5556 [
5557 ("user_a".to_string(), "offline", "free"),
5558 ("user_d".to_string(), "online", "free")
5559 ]
5560 );
5561 assert_eq!(
5562 contacts(&client_c, cx_c),
5563 [("user_a".to_string(), "offline", "free"),]
5564 );
5565
5566 fn contacts(
5567 client: &TestClient,
5568 cx: &TestAppContext,
5569 ) -> Vec<(String, &'static str, &'static str)> {
5570 client.user_store().read_with(cx, |store, _| {
5571 store
5572 .contacts()
5573 .iter()
5574 .map(|contact| {
5575 (
5576 contact.user.github_login.clone(),
5577 if contact.online { "online" } else { "offline" },
5578 if contact.busy { "busy" } else { "free" },
5579 )
5580 })
5581 .collect()
5582 })
5583 }
5584}
5585
5586#[gpui::test(iterations = 10)]
5587async fn test_contact_requests(
5588 executor: BackgroundExecutor,
5589 cx_a: &mut TestAppContext,
5590 cx_a2: &mut TestAppContext,
5591 cx_b: &mut TestAppContext,
5592 cx_b2: &mut TestAppContext,
5593 cx_c: &mut TestAppContext,
5594 cx_c2: &mut TestAppContext,
5595) {
5596 // Connect to a server as 3 clients.
5597 let mut server = TestServer::start(executor.clone()).await;
5598 let client_a = server.create_client(cx_a, "user_a").await;
5599 let client_a2 = server.create_client(cx_a2, "user_a").await;
5600 let client_b = server.create_client(cx_b, "user_b").await;
5601 let client_b2 = server.create_client(cx_b2, "user_b").await;
5602 let client_c = server.create_client(cx_c, "user_c").await;
5603 let client_c2 = server.create_client(cx_c2, "user_c").await;
5604
5605 assert_eq!(client_a.user_id().unwrap(), client_a2.user_id().unwrap());
5606 assert_eq!(client_b.user_id().unwrap(), client_b2.user_id().unwrap());
5607 assert_eq!(client_c.user_id().unwrap(), client_c2.user_id().unwrap());
5608
5609 // User A and User C request that user B become their contact.
5610 client_a
5611 .user_store()
5612 .update(cx_a, |store, cx| {
5613 store.request_contact(client_b.user_id().unwrap(), cx)
5614 })
5615 .await
5616 .unwrap();
5617 client_c
5618 .user_store()
5619 .update(cx_c, |store, cx| {
5620 store.request_contact(client_b.user_id().unwrap(), cx)
5621 })
5622 .await
5623 .unwrap();
5624 executor.run_until_parked();
5625
5626 // All users see the pending request appear in all their clients.
5627 assert_eq!(
5628 client_a.summarize_contacts(cx_a).outgoing_requests,
5629 &["user_b"]
5630 );
5631 assert_eq!(
5632 client_a2.summarize_contacts(cx_a2).outgoing_requests,
5633 &["user_b"]
5634 );
5635 assert_eq!(
5636 client_b.summarize_contacts(cx_b).incoming_requests,
5637 &["user_a", "user_c"]
5638 );
5639 assert_eq!(
5640 client_b2.summarize_contacts(cx_b2).incoming_requests,
5641 &["user_a", "user_c"]
5642 );
5643 assert_eq!(
5644 client_c.summarize_contacts(cx_c).outgoing_requests,
5645 &["user_b"]
5646 );
5647 assert_eq!(
5648 client_c2.summarize_contacts(cx_c2).outgoing_requests,
5649 &["user_b"]
5650 );
5651
5652 // Contact requests are present upon connecting (tested here via disconnect/reconnect)
5653 disconnect_and_reconnect(&client_a, cx_a).await;
5654 disconnect_and_reconnect(&client_b, cx_b).await;
5655 disconnect_and_reconnect(&client_c, cx_c).await;
5656 executor.run_until_parked();
5657 assert_eq!(
5658 client_a.summarize_contacts(cx_a).outgoing_requests,
5659 &["user_b"]
5660 );
5661 assert_eq!(
5662 client_b.summarize_contacts(cx_b).incoming_requests,
5663 &["user_a", "user_c"]
5664 );
5665 assert_eq!(
5666 client_c.summarize_contacts(cx_c).outgoing_requests,
5667 &["user_b"]
5668 );
5669
5670 // User B accepts the request from user A.
5671 client_b
5672 .user_store()
5673 .update(cx_b, |store, cx| {
5674 store.respond_to_contact_request(client_a.user_id().unwrap(), true, cx)
5675 })
5676 .await
5677 .unwrap();
5678
5679 executor.run_until_parked();
5680
5681 // User B sees user A as their contact now in all client, and the incoming request from them is removed.
5682 let contacts_b = client_b.summarize_contacts(cx_b);
5683 assert_eq!(contacts_b.current, &["user_a"]);
5684 assert_eq!(contacts_b.incoming_requests, &["user_c"]);
5685 let contacts_b2 = client_b2.summarize_contacts(cx_b2);
5686 assert_eq!(contacts_b2.current, &["user_a"]);
5687 assert_eq!(contacts_b2.incoming_requests, &["user_c"]);
5688
5689 // User A sees user B as their contact now in all clients, and the outgoing request to them is removed.
5690 let contacts_a = client_a.summarize_contacts(cx_a);
5691 assert_eq!(contacts_a.current, &["user_b"]);
5692 assert!(contacts_a.outgoing_requests.is_empty());
5693 let contacts_a2 = client_a2.summarize_contacts(cx_a2);
5694 assert_eq!(contacts_a2.current, &["user_b"]);
5695 assert!(contacts_a2.outgoing_requests.is_empty());
5696
5697 // Contacts are present upon connecting (tested here via disconnect/reconnect)
5698 disconnect_and_reconnect(&client_a, cx_a).await;
5699 disconnect_and_reconnect(&client_b, cx_b).await;
5700 disconnect_and_reconnect(&client_c, cx_c).await;
5701 executor.run_until_parked();
5702 assert_eq!(client_a.summarize_contacts(cx_a).current, &["user_b"]);
5703 assert_eq!(client_b.summarize_contacts(cx_b).current, &["user_a"]);
5704 assert_eq!(
5705 client_b.summarize_contacts(cx_b).incoming_requests,
5706 &["user_c"]
5707 );
5708 assert!(client_c.summarize_contacts(cx_c).current.is_empty());
5709 assert_eq!(
5710 client_c.summarize_contacts(cx_c).outgoing_requests,
5711 &["user_b"]
5712 );
5713
5714 // User B rejects the request from user C.
5715 client_b
5716 .user_store()
5717 .update(cx_b, |store, cx| {
5718 store.respond_to_contact_request(client_c.user_id().unwrap(), false, cx)
5719 })
5720 .await
5721 .unwrap();
5722
5723 executor.run_until_parked();
5724
5725 // User B doesn't see user C as their contact, and the incoming request from them is removed.
5726 let contacts_b = client_b.summarize_contacts(cx_b);
5727 assert_eq!(contacts_b.current, &["user_a"]);
5728 assert!(contacts_b.incoming_requests.is_empty());
5729 let contacts_b2 = client_b2.summarize_contacts(cx_b2);
5730 assert_eq!(contacts_b2.current, &["user_a"]);
5731 assert!(contacts_b2.incoming_requests.is_empty());
5732
5733 // User C doesn't see user B as their contact, and the outgoing request to them is removed.
5734 let contacts_c = client_c.summarize_contacts(cx_c);
5735 assert!(contacts_c.current.is_empty());
5736 assert!(contacts_c.outgoing_requests.is_empty());
5737 let contacts_c2 = client_c2.summarize_contacts(cx_c2);
5738 assert!(contacts_c2.current.is_empty());
5739 assert!(contacts_c2.outgoing_requests.is_empty());
5740
5741 // Incoming/outgoing requests are not present upon connecting (tested here via disconnect/reconnect)
5742 disconnect_and_reconnect(&client_a, cx_a).await;
5743 disconnect_and_reconnect(&client_b, cx_b).await;
5744 disconnect_and_reconnect(&client_c, cx_c).await;
5745 executor.run_until_parked();
5746 assert_eq!(client_a.summarize_contacts(cx_a).current, &["user_b"]);
5747 assert_eq!(client_b.summarize_contacts(cx_b).current, &["user_a"]);
5748 assert!(client_b
5749 .summarize_contacts(cx_b)
5750 .incoming_requests
5751 .is_empty());
5752 assert!(client_c.summarize_contacts(cx_c).current.is_empty());
5753 assert!(client_c
5754 .summarize_contacts(cx_c)
5755 .outgoing_requests
5756 .is_empty());
5757
5758 async fn disconnect_and_reconnect(client: &TestClient, cx: &mut TestAppContext) {
5759 client.disconnect(&cx.to_async());
5760 client.clear_contacts(cx).await;
5761 client
5762 .authenticate_and_connect(false, &cx.to_async())
5763 .await
5764 .unwrap();
5765 }
5766}
5767
5768#[gpui::test(iterations = 10)]
5769async fn test_join_call_after_screen_was_shared(
5770 executor: BackgroundExecutor,
5771 cx_a: &mut TestAppContext,
5772 cx_b: &mut TestAppContext,
5773) {
5774 let mut server = TestServer::start(executor.clone()).await;
5775
5776 let client_a = server.create_client(cx_a, "user_a").await;
5777 let client_b = server.create_client(cx_b, "user_b").await;
5778 server
5779 .make_contacts(&mut [(&client_a, cx_a), (&client_b, cx_b)])
5780 .await;
5781
5782 let active_call_a = cx_a.read(ActiveCall::global);
5783 let active_call_b = cx_b.read(ActiveCall::global);
5784
5785 // Call users B and C from client A.
5786 active_call_a
5787 .update(cx_a, |call, cx| {
5788 call.invite(client_b.user_id().unwrap(), None, cx)
5789 })
5790 .await
5791 .unwrap();
5792
5793 let room_a = active_call_a.read_with(cx_a, |call, _| call.room().unwrap().clone());
5794 executor.run_until_parked();
5795 assert_eq!(
5796 room_participants(&room_a, cx_a),
5797 RoomParticipants {
5798 remote: Default::default(),
5799 pending: vec!["user_b".to_string()]
5800 }
5801 );
5802
5803 // User B receives the call.
5804
5805 let mut incoming_call_b = active_call_b.read_with(cx_b, |call, _| call.incoming());
5806 let call_b = incoming_call_b.next().await.unwrap().unwrap();
5807 assert_eq!(call_b.calling_user.github_login, "user_a");
5808
5809 // User A shares their screen
5810 let display = MacOSDisplay::new();
5811 active_call_a
5812 .update(cx_a, |call, cx| {
5813 call.room().unwrap().update(cx, |room, cx| {
5814 room.set_display_sources(vec![display.clone()]);
5815 room.share_screen(cx)
5816 })
5817 })
5818 .await
5819 .unwrap();
5820
5821 client_b.user_store().update(cx_b, |user_store, _| {
5822 user_store.clear_cache();
5823 });
5824
5825 // User B joins the room
5826 active_call_b
5827 .update(cx_b, |call, cx| call.accept_incoming(cx))
5828 .await
5829 .unwrap();
5830
5831 let room_b = active_call_b.read_with(cx_b, |call, _| call.room().unwrap().clone());
5832 assert!(incoming_call_b.next().await.unwrap().is_none());
5833
5834 executor.run_until_parked();
5835 assert_eq!(
5836 room_participants(&room_a, cx_a),
5837 RoomParticipants {
5838 remote: vec!["user_b".to_string()],
5839 pending: vec![],
5840 }
5841 );
5842 assert_eq!(
5843 room_participants(&room_b, cx_b),
5844 RoomParticipants {
5845 remote: vec!["user_a".to_string()],
5846 pending: vec![],
5847 }
5848 );
5849
5850 // Ensure User B sees User A's screenshare.
5851
5852 room_b.read_with(cx_b, |room, _| {
5853 assert_eq!(
5854 room.remote_participants()
5855 .get(&client_a.user_id().unwrap())
5856 .unwrap()
5857 .video_tracks
5858 .len(),
5859 1
5860 );
5861 });
5862}
5863
5864#[gpui::test]
5865async fn test_right_click_menu_behind_collab_panel(cx: &mut TestAppContext) {
5866 let mut server = TestServer::start(cx.executor().clone()).await;
5867 let client_a = server.create_client(cx, "user_a").await;
5868 let (_workspace_a, cx) = client_a.build_test_workspace(cx).await;
5869
5870 cx.simulate_resize(size(px(300.), px(300.)));
5871
5872 cx.simulate_keystrokes("cmd-n cmd-n cmd-n");
5873 cx.update(|cx| cx.refresh());
5874
5875 let tab_bounds = cx.debug_bounds("TAB-2").unwrap();
5876 let new_tab_button_bounds = cx.debug_bounds("ICON-Plus").unwrap();
5877
5878 assert!(
5879 tab_bounds.intersects(&new_tab_button_bounds),
5880 "Tab should overlap with the new tab button, if this is failing check if there's been a redesign!"
5881 );
5882
5883 cx.simulate_event(MouseDownEvent {
5884 button: MouseButton::Right,
5885 position: new_tab_button_bounds.center(),
5886 modifiers: Modifiers::default(),
5887 click_count: 1,
5888 });
5889
5890 // regression test that the right click menu for tabs does not open.
5891 assert!(cx.debug_bounds("MENU_ITEM-Close").is_none());
5892
5893 let tab_bounds = cx.debug_bounds("TAB-1").unwrap();
5894 cx.simulate_event(MouseDownEvent {
5895 button: MouseButton::Right,
5896 position: tab_bounds.center(),
5897 modifiers: Modifiers::default(),
5898 click_count: 1,
5899 });
5900 assert!(cx.debug_bounds("MENU_ITEM-Close").is_some());
5901}
5902
5903#[gpui::test]
5904async fn test_cmd_k_left(cx: &mut TestAppContext) {
5905 let client = TestServer::start1(cx).await;
5906 let (workspace, cx) = client.build_test_workspace(cx).await;
5907
5908 cx.simulate_keystrokes("cmd-n");
5909 workspace.update(cx, |workspace, cx| {
5910 assert!(workspace.items(cx).collect::<Vec<_>>().len() == 1);
5911 });
5912 cx.simulate_keystrokes("cmd-k left");
5913 workspace.update(cx, |workspace, cx| {
5914 assert!(workspace.items(cx).collect::<Vec<_>>().len() == 2);
5915 });
5916 cx.simulate_keystrokes("cmd-k");
5917 // sleep for longer than the timeout in keyboard shortcut handling
5918 // to verify that it doesn't fire in this case.
5919 cx.executor().advance_clock(Duration::from_secs(2));
5920 cx.simulate_keystrokes("left");
5921 workspace.update(cx, |workspace, cx| {
5922 assert!(workspace.items(cx).collect::<Vec<_>>().len() == 2);
5923 });
5924}