1use crate::stripe_client::FakeStripeClient;
2use crate::{
3 AppState, Config,
4 db::{NewUserParams, UserId, tests::TestDb},
5 executor::Executor,
6 rpc::{CLEANUP_TIMEOUT, Principal, RECONNECT_TIMEOUT, Server, ZedVersion},
7};
8use anyhow::anyhow;
9use call::ActiveCall;
10use channel::{ChannelBuffer, ChannelStore};
11use client::{
12 self, ChannelId, Client, Connection, Credentials, EstablishConnectionError, UserStore,
13 proto::PeerId,
14};
15use clock::FakeSystemClock;
16use collab_ui::channel_view::ChannelView;
17use collections::{HashMap, HashSet};
18
19use fs::FakeFs;
20use futures::{StreamExt as _, channel::oneshot};
21use git::GitHostingProviderRegistry;
22use gpui::{AppContext as _, BackgroundExecutor, Entity, Task, TestAppContext, VisualTestContext};
23use http_client::FakeHttpClient;
24use language::LanguageRegistry;
25use node_runtime::NodeRuntime;
26use notifications::NotificationStore;
27use parking_lot::Mutex;
28use project::{Project, WorktreeId};
29use remote::SshRemoteClient;
30use rpc::{
31 RECEIVE_TIMEOUT,
32 proto::{self, ChannelRole},
33};
34use semantic_version::SemanticVersion;
35use serde_json::json;
36use session::{AppSession, Session};
37use settings::SettingsStore;
38use std::{
39 cell::{Ref, RefCell, RefMut},
40 env,
41 ops::{Deref, DerefMut},
42 path::Path,
43 sync::{
44 Arc,
45 atomic::{AtomicBool, AtomicUsize, Ordering::SeqCst},
46 },
47};
48use util::path;
49use workspace::{Workspace, WorkspaceStore};
50
51use livekit_client::test::TestServer as LivekitTestServer;
52
53pub struct TestServer {
54 pub app_state: Arc<AppState>,
55 pub test_livekit_server: Arc<LivekitTestServer>,
56 pub test_db: TestDb,
57 server: Arc<Server>,
58 next_github_user_id: i32,
59 connection_killers: Arc<Mutex<HashMap<PeerId, Arc<AtomicBool>>>>,
60 forbid_connections: Arc<AtomicBool>,
61}
62
63pub struct TestClient {
64 pub username: String,
65 pub app_state: Arc<workspace::AppState>,
66 channel_store: Entity<ChannelStore>,
67 notification_store: Entity<NotificationStore>,
68 state: RefCell<TestClientState>,
69}
70
71#[derive(Default)]
72struct TestClientState {
73 local_projects: Vec<Entity<Project>>,
74 dev_server_projects: Vec<Entity<Project>>,
75 buffers: HashMap<Entity<Project>, HashSet<Entity<language::Buffer>>>,
76 channel_buffers: HashSet<Entity<ChannelBuffer>>,
77}
78
79pub struct ContactsSummary {
80 pub current: Vec<String>,
81 pub outgoing_requests: Vec<String>,
82 pub incoming_requests: Vec<String>,
83}
84
85impl TestServer {
86 pub async fn start(deterministic: BackgroundExecutor) -> Self {
87 static NEXT_LIVEKIT_SERVER_ID: AtomicUsize = AtomicUsize::new(0);
88
89 let use_postgres = env::var("USE_POSTGRES").ok();
90 let use_postgres = use_postgres.as_deref();
91 let test_db = if use_postgres == Some("true") || use_postgres == Some("1") {
92 TestDb::postgres(deterministic.clone())
93 } else {
94 TestDb::sqlite(deterministic.clone())
95 };
96 let livekit_server_id = NEXT_LIVEKIT_SERVER_ID.fetch_add(1, SeqCst);
97 let livekit_server = LivekitTestServer::create(
98 format!("http://livekit.{}.test", livekit_server_id),
99 format!("devkey-{}", livekit_server_id),
100 format!("secret-{}", livekit_server_id),
101 deterministic.clone(),
102 )
103 .unwrap();
104 let executor = Executor::Deterministic(deterministic.clone());
105 let app_state = Self::build_app_state(&test_db, &livekit_server, executor.clone()).await;
106 let epoch = app_state
107 .db
108 .create_server(&app_state.config.zed_environment)
109 .await
110 .unwrap();
111 let server = Server::new(epoch, app_state.clone());
112 server.start().await.unwrap();
113 // Advance clock to ensure the server's cleanup task is finished.
114 deterministic.advance_clock(CLEANUP_TIMEOUT);
115 Self {
116 app_state,
117 server,
118 connection_killers: Default::default(),
119 forbid_connections: Default::default(),
120 next_github_user_id: 0,
121 test_db,
122 test_livekit_server: livekit_server,
123 }
124 }
125
126 pub async fn start2(
127 cx_a: &mut TestAppContext,
128 cx_b: &mut TestAppContext,
129 ) -> (TestServer, TestClient, TestClient, ChannelId) {
130 let mut server = Self::start(cx_a.executor()).await;
131 let client_a = server.create_client(cx_a, "user_a").await;
132 let client_b = server.create_client(cx_b, "user_b").await;
133 let channel_id = server
134 .make_channel(
135 "test-channel",
136 None,
137 (&client_a, cx_a),
138 &mut [(&client_b, cx_b)],
139 )
140 .await;
141 cx_a.run_until_parked();
142
143 (server, client_a, client_b, channel_id)
144 }
145
146 pub async fn start1(cx: &mut TestAppContext) -> (TestServer, TestClient) {
147 let mut server = Self::start(cx.executor().clone()).await;
148 let client = server.create_client(cx, "user_a").await;
149 (server, client)
150 }
151
152 pub async fn reset(&self) {
153 self.app_state.db.reset();
154 let epoch = self
155 .app_state
156 .db
157 .create_server(&self.app_state.config.zed_environment)
158 .await
159 .unwrap();
160 self.server.reset(epoch);
161 }
162
163 pub async fn create_client(&mut self, cx: &mut TestAppContext, name: &str) -> TestClient {
164 let fs = FakeFs::new(cx.executor());
165
166 cx.update(|cx| {
167 gpui_tokio::init(cx);
168 if cx.has_global::<SettingsStore>() {
169 panic!("Same cx used to create two test clients")
170 }
171 let settings = SettingsStore::test(cx);
172 cx.set_global(settings);
173 release_channel::init(SemanticVersion::default(), cx);
174 client::init_settings(cx);
175 });
176
177 let clock = Arc::new(FakeSystemClock::new());
178 let http = FakeHttpClient::with_404_response();
179 let user_id = if let Ok(Some(user)) = self.app_state.db.get_user_by_github_login(name).await
180 {
181 user.id
182 } else {
183 let github_user_id = self.next_github_user_id;
184 self.next_github_user_id += 1;
185 self.app_state
186 .db
187 .create_user(
188 &format!("{name}@example.com"),
189 None,
190 false,
191 NewUserParams {
192 github_login: name.into(),
193 github_user_id,
194 },
195 )
196 .await
197 .expect("creating user failed")
198 .user_id
199 };
200 let client_name = name.to_string();
201 let mut client = cx.update(|cx| Client::new(clock, http.clone(), cx));
202 let server = self.server.clone();
203 let db = self.app_state.db.clone();
204 let connection_killers = self.connection_killers.clone();
205 let forbid_connections = self.forbid_connections.clone();
206
207 Arc::get_mut(&mut client)
208 .unwrap()
209 .set_id(user_id.to_proto())
210 .override_authenticate(move |cx| {
211 let access_token = "the-token".to_string();
212 cx.spawn(async move |_| {
213 Ok(Credentials {
214 user_id: user_id.to_proto(),
215 access_token,
216 })
217 })
218 })
219 .override_establish_connection(move |credentials, cx| {
220 assert_eq!(
221 credentials,
222 &Credentials {
223 user_id: user_id.0 as u64,
224 access_token: "the-token".into()
225 }
226 );
227
228 let server = server.clone();
229 let db = db.clone();
230 let connection_killers = connection_killers.clone();
231 let forbid_connections = forbid_connections.clone();
232 let client_name = client_name.clone();
233 cx.spawn(async move |cx| {
234 if forbid_connections.load(SeqCst) {
235 Err(EstablishConnectionError::other(anyhow!(
236 "server is forbidding connections"
237 )))
238 } else {
239 let (client_conn, server_conn, killed) =
240 Connection::in_memory(cx.background_executor().clone());
241 let (connection_id_tx, connection_id_rx) = oneshot::channel();
242 let user = db
243 .get_user_by_id(user_id)
244 .await
245 .map_err(|e| {
246 EstablishConnectionError::Other(anyhow!(
247 "retrieving user failed: {}",
248 e
249 ))
250 })?
251 .unwrap();
252 cx.background_spawn(server.handle_connection(
253 server_conn,
254 client_name,
255 Principal::User(user),
256 ZedVersion(SemanticVersion::new(1, 0, 0)),
257 None,
258 None,
259 None,
260 Some(connection_id_tx),
261 Executor::Deterministic(cx.background_executor().clone()),
262 None,
263 ))
264 .detach();
265 let connection_id = connection_id_rx.await.map_err(|e| {
266 EstablishConnectionError::Other(anyhow!(
267 "{} (is server shutting down?)",
268 e
269 ))
270 })?;
271 connection_killers
272 .lock()
273 .insert(connection_id.into(), killed);
274 Ok(client_conn)
275 }
276 })
277 });
278
279 let git_hosting_provider_registry = cx.update(GitHostingProviderRegistry::default_global);
280 git_hosting_provider_registry
281 .register_hosting_provider(Arc::new(git_hosting_providers::Github::public_instance()));
282
283 let user_store = cx.new(|cx| UserStore::new(client.clone(), cx));
284 let workspace_store = cx.new(|cx| WorkspaceStore::new(client.clone(), cx));
285 let language_registry = Arc::new(LanguageRegistry::test(cx.executor()));
286 let session = cx.new(|cx| AppSession::new(Session::test(), cx));
287 let app_state = Arc::new(workspace::AppState {
288 client: client.clone(),
289 user_store: user_store.clone(),
290 workspace_store,
291 languages: language_registry,
292 fs: fs.clone(),
293 build_window_options: |_, _| Default::default(),
294 node_runtime: NodeRuntime::unavailable(),
295 session,
296 });
297
298 let os_keymap = "keymaps/default-macos.json";
299
300 cx.update(|cx| {
301 theme::init(theme::LoadThemes::JustBase, cx);
302 Project::init(&client, cx);
303 client::init(&client, cx);
304 language::init(cx);
305 editor::init(cx);
306 workspace::init(app_state.clone(), cx);
307 call::init(client.clone(), user_store.clone(), cx);
308 channel::init(&client, user_store.clone(), cx);
309 notifications::init(client.clone(), user_store, cx);
310 collab_ui::init(&app_state, cx);
311 file_finder::init(cx);
312 menu::init();
313 cx.bind_keys(
314 settings::KeymapFile::load_asset_allow_partial_failure(os_keymap, cx).unwrap(),
315 );
316 language_model::LanguageModelRegistry::test(cx);
317 assistant_context::init(client.clone(), cx);
318 agent_settings::init(cx);
319 });
320
321 client
322 .authenticate_and_connect(false, &cx.to_async())
323 .await
324 .into_response()
325 .unwrap();
326
327 let client = TestClient {
328 app_state,
329 username: name.to_string(),
330 channel_store: cx.read(ChannelStore::global).clone(),
331 notification_store: cx.read(NotificationStore::global).clone(),
332 state: Default::default(),
333 };
334 client.wait_for_current_user(cx).await;
335 client
336 }
337
338 pub fn disconnect_client(&self, peer_id: PeerId) {
339 self.connection_killers
340 .lock()
341 .remove(&peer_id)
342 .unwrap()
343 .store(true, SeqCst);
344 }
345
346 pub fn simulate_long_connection_interruption(
347 &self,
348 peer_id: PeerId,
349 deterministic: BackgroundExecutor,
350 ) {
351 self.forbid_connections();
352 self.disconnect_client(peer_id);
353 deterministic.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
354 self.allow_connections();
355 deterministic.advance_clock(RECEIVE_TIMEOUT + RECONNECT_TIMEOUT);
356 deterministic.run_until_parked();
357 }
358
359 pub fn forbid_connections(&self) {
360 self.forbid_connections.store(true, SeqCst);
361 }
362
363 pub fn allow_connections(&self) {
364 self.forbid_connections.store(false, SeqCst);
365 }
366
367 pub async fn make_contacts(&self, clients: &mut [(&TestClient, &mut TestAppContext)]) {
368 for ix in 1..clients.len() {
369 let (left, right) = clients.split_at_mut(ix);
370 let (client_a, cx_a) = left.last_mut().unwrap();
371 for (client_b, cx_b) in right {
372 client_a
373 .app_state
374 .user_store
375 .update(*cx_a, |store, cx| {
376 store.request_contact(client_b.user_id().unwrap(), cx)
377 })
378 .await
379 .unwrap();
380 cx_a.executor().run_until_parked();
381 client_b
382 .app_state
383 .user_store
384 .update(*cx_b, |store, cx| {
385 store.respond_to_contact_request(client_a.user_id().unwrap(), true, cx)
386 })
387 .await
388 .unwrap();
389 }
390 }
391 }
392
393 pub async fn make_channel(
394 &self,
395 channel: &str,
396 parent: Option<ChannelId>,
397 admin: (&TestClient, &mut TestAppContext),
398 members: &mut [(&TestClient, &mut TestAppContext)],
399 ) -> ChannelId {
400 let (_, admin_cx) = admin;
401 let channel_id = admin_cx
402 .read(ChannelStore::global)
403 .update(admin_cx, |channel_store, cx| {
404 channel_store.create_channel(channel, parent, cx)
405 })
406 .await
407 .unwrap();
408
409 for (member_client, member_cx) in members {
410 admin_cx
411 .read(ChannelStore::global)
412 .update(admin_cx, |channel_store, cx| {
413 channel_store.invite_member(
414 channel_id,
415 member_client.user_id().unwrap(),
416 ChannelRole::Member,
417 cx,
418 )
419 })
420 .await
421 .unwrap();
422
423 admin_cx.executor().run_until_parked();
424
425 member_cx
426 .read(ChannelStore::global)
427 .update(*member_cx, |channels, cx| {
428 channels.respond_to_channel_invite(channel_id, true, cx)
429 })
430 .await
431 .unwrap();
432 }
433
434 channel_id
435 }
436
437 pub async fn make_public_channel(
438 &self,
439 channel: &str,
440 client: &TestClient,
441 cx: &mut TestAppContext,
442 ) -> ChannelId {
443 let channel_id = self
444 .make_channel(channel, None, (client, cx), &mut [])
445 .await;
446
447 client
448 .channel_store()
449 .update(cx, |channel_store, cx| {
450 channel_store.set_channel_visibility(
451 channel_id,
452 proto::ChannelVisibility::Public,
453 cx,
454 )
455 })
456 .await
457 .unwrap();
458
459 channel_id
460 }
461
462 pub async fn make_channel_tree(
463 &self,
464 channels: &[(&str, Option<&str>)],
465 creator: (&TestClient, &mut TestAppContext),
466 ) -> Vec<ChannelId> {
467 let mut observed_channels = HashMap::default();
468 let mut result = Vec::new();
469 for (channel, parent) in channels {
470 let id;
471 if let Some(parent) = parent {
472 if let Some(parent_id) = observed_channels.get(parent) {
473 id = self
474 .make_channel(channel, Some(*parent_id), (creator.0, creator.1), &mut [])
475 .await;
476 } else {
477 panic!(
478 "Edge {}->{} referenced before {} was created",
479 parent, channel, parent
480 )
481 }
482 } else {
483 id = self
484 .make_channel(channel, None, (creator.0, creator.1), &mut [])
485 .await;
486 }
487
488 observed_channels.insert(channel, id);
489 result.push(id);
490 }
491
492 result
493 }
494
495 pub async fn create_room(&self, clients: &mut [(&TestClient, &mut TestAppContext)]) {
496 self.make_contacts(clients).await;
497
498 let (left, right) = clients.split_at_mut(1);
499 let (_client_a, cx_a) = &mut left[0];
500 let active_call_a = cx_a.read(ActiveCall::global);
501
502 for (client_b, cx_b) in right {
503 let user_id_b = client_b.current_user_id(cx_b).to_proto();
504 active_call_a
505 .update(*cx_a, |call, cx| call.invite(user_id_b, None, cx))
506 .await
507 .unwrap();
508
509 cx_b.executor().run_until_parked();
510 let active_call_b = cx_b.read(ActiveCall::global);
511 active_call_b
512 .update(*cx_b, |call, cx| call.accept_incoming(cx))
513 .await
514 .unwrap();
515 }
516 }
517
518 pub async fn build_app_state(
519 test_db: &TestDb,
520 livekit_test_server: &LivekitTestServer,
521 executor: Executor,
522 ) -> Arc<AppState> {
523 Arc::new(AppState {
524 db: test_db.db().clone(),
525 llm_db: None,
526 livekit_client: Some(Arc::new(livekit_test_server.create_api_client())),
527 blob_store_client: None,
528 real_stripe_client: None,
529 stripe_client: Some(Arc::new(FakeStripeClient::new())),
530 stripe_billing: None,
531 executor,
532 kinesis_client: None,
533 config: Config {
534 http_port: 0,
535 database_url: "".into(),
536 database_max_connections: 0,
537 api_token: "".into(),
538 invite_link_prefix: "".into(),
539 livekit_server: None,
540 livekit_key: None,
541 livekit_secret: None,
542 llm_database_url: None,
543 llm_database_max_connections: None,
544 llm_database_migrations_path: None,
545 llm_api_secret: None,
546 rust_log: None,
547 log_json: None,
548 zed_environment: "test".into(),
549 blob_store_url: None,
550 blob_store_region: None,
551 blob_store_access_key: None,
552 blob_store_secret_key: None,
553 blob_store_bucket: None,
554 openai_api_key: None,
555 google_ai_api_key: None,
556 anthropic_api_key: None,
557 anthropic_staff_api_key: None,
558 llm_closed_beta_model_name: None,
559 prediction_api_url: None,
560 prediction_api_key: None,
561 prediction_model: None,
562 zed_client_checksum_seed: None,
563 slack_panics_webhook: None,
564 auto_join_channel_id: None,
565 migrations_path: None,
566 seed_path: None,
567 stripe_api_key: None,
568 supermaven_admin_api_key: None,
569 user_backfiller_github_access_token: None,
570 kinesis_region: None,
571 kinesis_stream: None,
572 kinesis_access_key: None,
573 kinesis_secret_key: None,
574 },
575 })
576 }
577}
578
579impl Deref for TestServer {
580 type Target = Server;
581
582 fn deref(&self) -> &Self::Target {
583 &self.server
584 }
585}
586
587impl Drop for TestServer {
588 fn drop(&mut self) {
589 self.server.teardown();
590 self.test_livekit_server.teardown().unwrap();
591 }
592}
593
594impl Deref for TestClient {
595 type Target = Arc<Client>;
596
597 fn deref(&self) -> &Self::Target {
598 &self.app_state.client
599 }
600}
601
602impl TestClient {
603 pub fn fs(&self) -> Arc<FakeFs> {
604 self.app_state.fs.as_fake()
605 }
606
607 pub fn channel_store(&self) -> &Entity<ChannelStore> {
608 &self.channel_store
609 }
610
611 pub fn notification_store(&self) -> &Entity<NotificationStore> {
612 &self.notification_store
613 }
614
615 pub fn user_store(&self) -> &Entity<UserStore> {
616 &self.app_state.user_store
617 }
618
619 pub fn language_registry(&self) -> &Arc<LanguageRegistry> {
620 &self.app_state.languages
621 }
622
623 pub fn client(&self) -> &Arc<Client> {
624 &self.app_state.client
625 }
626
627 pub fn current_user_id(&self, cx: &TestAppContext) -> UserId {
628 UserId::from_proto(
629 self.app_state
630 .user_store
631 .read_with(cx, |user_store, _| user_store.current_user().unwrap().id),
632 )
633 }
634
635 pub async fn wait_for_current_user(&self, cx: &TestAppContext) {
636 let mut authed_user = self
637 .app_state
638 .user_store
639 .read_with(cx, |user_store, _| user_store.watch_current_user());
640 while authed_user.next().await.unwrap().is_none() {}
641 }
642
643 pub async fn clear_contacts(&self, cx: &mut TestAppContext) {
644 self.app_state
645 .user_store
646 .update(cx, |store, _| store.clear_contacts())
647 .await;
648 }
649
650 pub fn local_projects(&self) -> impl Deref<Target = Vec<Entity<Project>>> + '_ {
651 Ref::map(self.state.borrow(), |state| &state.local_projects)
652 }
653
654 pub fn dev_server_projects(&self) -> impl Deref<Target = Vec<Entity<Project>>> + '_ {
655 Ref::map(self.state.borrow(), |state| &state.dev_server_projects)
656 }
657
658 pub fn local_projects_mut(&self) -> impl DerefMut<Target = Vec<Entity<Project>>> + '_ {
659 RefMut::map(self.state.borrow_mut(), |state| &mut state.local_projects)
660 }
661
662 pub fn dev_server_projects_mut(&self) -> impl DerefMut<Target = Vec<Entity<Project>>> + '_ {
663 RefMut::map(self.state.borrow_mut(), |state| {
664 &mut state.dev_server_projects
665 })
666 }
667
668 pub fn buffers_for_project<'a>(
669 &'a self,
670 project: &Entity<Project>,
671 ) -> impl DerefMut<Target = HashSet<Entity<language::Buffer>>> + 'a {
672 RefMut::map(self.state.borrow_mut(), |state| {
673 state.buffers.entry(project.clone()).or_default()
674 })
675 }
676
677 pub fn buffers(
678 &self,
679 ) -> impl DerefMut<Target = HashMap<Entity<Project>, HashSet<Entity<language::Buffer>>>> + '_
680 {
681 RefMut::map(self.state.borrow_mut(), |state| &mut state.buffers)
682 }
683
684 pub fn channel_buffers(&self) -> impl DerefMut<Target = HashSet<Entity<ChannelBuffer>>> + '_ {
685 RefMut::map(self.state.borrow_mut(), |state| &mut state.channel_buffers)
686 }
687
688 pub fn summarize_contacts(&self, cx: &TestAppContext) -> ContactsSummary {
689 self.app_state
690 .user_store
691 .read_with(cx, |store, _| ContactsSummary {
692 current: store
693 .contacts()
694 .iter()
695 .map(|contact| contact.user.github_login.clone())
696 .collect(),
697 outgoing_requests: store
698 .outgoing_contact_requests()
699 .iter()
700 .map(|user| user.github_login.clone())
701 .collect(),
702 incoming_requests: store
703 .incoming_contact_requests()
704 .iter()
705 .map(|user| user.github_login.clone())
706 .collect(),
707 })
708 }
709
710 pub async fn build_local_project(
711 &self,
712 root_path: impl AsRef<Path>,
713 cx: &mut TestAppContext,
714 ) -> (Entity<Project>, WorktreeId) {
715 let project = self.build_empty_local_project(cx);
716 let (worktree, _) = project
717 .update(cx, |p, cx| p.find_or_create_worktree(root_path, true, cx))
718 .await
719 .unwrap();
720 worktree
721 .read_with(cx, |tree, _| tree.as_local().unwrap().scan_complete())
722 .await;
723 cx.run_until_parked();
724 (project, worktree.read_with(cx, |tree, _| tree.id()))
725 }
726
727 pub async fn build_ssh_project(
728 &self,
729 root_path: impl AsRef<Path>,
730 ssh: Entity<SshRemoteClient>,
731 cx: &mut TestAppContext,
732 ) -> (Entity<Project>, WorktreeId) {
733 let project = cx.update(|cx| {
734 Project::ssh(
735 ssh,
736 self.client().clone(),
737 self.app_state.node_runtime.clone(),
738 self.app_state.user_store.clone(),
739 self.app_state.languages.clone(),
740 self.app_state.fs.clone(),
741 cx,
742 )
743 });
744 let (worktree, _) = project
745 .update(cx, |p, cx| p.find_or_create_worktree(root_path, true, cx))
746 .await
747 .unwrap();
748 (project, worktree.read_with(cx, |tree, _| tree.id()))
749 }
750
751 pub async fn build_test_project(&self, cx: &mut TestAppContext) -> Entity<Project> {
752 self.fs()
753 .insert_tree(
754 path!("/a"),
755 json!({
756 "1.txt": "one\none\none",
757 "2.js": "function two() { return 2; }",
758 "3.rs": "mod test",
759 }),
760 )
761 .await;
762 self.build_local_project(path!("/a"), cx).await.0
763 }
764
765 pub async fn host_workspace(
766 &self,
767 workspace: &Entity<Workspace>,
768 channel_id: ChannelId,
769 cx: &mut VisualTestContext,
770 ) {
771 cx.update(|_, cx| {
772 let active_call = ActiveCall::global(cx);
773 active_call.update(cx, |call, cx| call.join_channel(channel_id, cx))
774 })
775 .await
776 .unwrap();
777 cx.update(|_, cx| {
778 let active_call = ActiveCall::global(cx);
779 let project = workspace.read(cx).project().clone();
780 active_call.update(cx, |call, cx| call.share_project(project, cx))
781 })
782 .await
783 .unwrap();
784 cx.executor().run_until_parked();
785 }
786
787 pub async fn join_workspace<'a>(
788 &'a self,
789 channel_id: ChannelId,
790 cx: &'a mut TestAppContext,
791 ) -> (Entity<Workspace>, &'a mut VisualTestContext) {
792 cx.update(|cx| workspace::join_channel(channel_id, self.app_state.clone(), None, cx))
793 .await
794 .unwrap();
795 cx.run_until_parked();
796
797 self.active_workspace(cx)
798 }
799
800 pub fn build_empty_local_project(&self, cx: &mut TestAppContext) -> Entity<Project> {
801 cx.update(|cx| {
802 Project::local(
803 self.client().clone(),
804 self.app_state.node_runtime.clone(),
805 self.app_state.user_store.clone(),
806 self.app_state.languages.clone(),
807 self.app_state.fs.clone(),
808 None,
809 cx,
810 )
811 })
812 }
813
814 pub async fn join_remote_project(
815 &self,
816 host_project_id: u64,
817 guest_cx: &mut TestAppContext,
818 ) -> Entity<Project> {
819 let active_call = guest_cx.read(ActiveCall::global);
820 let room = active_call.read_with(guest_cx, |call, _| call.room().unwrap().clone());
821 room.update(guest_cx, |room, cx| {
822 room.join_project(
823 host_project_id,
824 self.app_state.languages.clone(),
825 self.app_state.fs.clone(),
826 cx,
827 )
828 })
829 .await
830 .unwrap()
831 }
832
833 pub fn build_workspace<'a>(
834 &'a self,
835 project: &Entity<Project>,
836 cx: &'a mut TestAppContext,
837 ) -> (Entity<Workspace>, &'a mut VisualTestContext) {
838 cx.add_window_view(|window, cx| {
839 window.activate_window();
840 Workspace::new(None, project.clone(), self.app_state.clone(), window, cx)
841 })
842 }
843
844 pub async fn build_test_workspace<'a>(
845 &'a self,
846 cx: &'a mut TestAppContext,
847 ) -> (Entity<Workspace>, &'a mut VisualTestContext) {
848 let project = self.build_test_project(cx).await;
849 cx.add_window_view(|window, cx| {
850 window.activate_window();
851 Workspace::new(None, project.clone(), self.app_state.clone(), window, cx)
852 })
853 }
854
855 pub fn active_workspace<'a>(
856 &'a self,
857 cx: &'a mut TestAppContext,
858 ) -> (Entity<Workspace>, &'a mut VisualTestContext) {
859 let window = cx.update(|cx| cx.active_window().unwrap().downcast::<Workspace>().unwrap());
860
861 let entity = window.root(cx).unwrap();
862 let cx = VisualTestContext::from_window(*window.deref(), cx).as_mut();
863 // it might be nice to try and cleanup these at the end of each test.
864 (entity, cx)
865 }
866}
867
868pub fn open_channel_notes(
869 channel_id: ChannelId,
870 cx: &mut VisualTestContext,
871) -> Task<anyhow::Result<Entity<ChannelView>>> {
872 let window = cx.update(|_, cx| cx.active_window().unwrap().downcast::<Workspace>().unwrap());
873 let entity = window.root(cx).unwrap();
874
875 cx.update(|window, cx| ChannelView::open(channel_id, None, entity.clone(), window, cx))
876}
877
878impl Drop for TestClient {
879 fn drop(&mut self) {
880 self.app_state.client.teardown();
881 }
882}