1#[cfg(any(test, feature = "test-support"))]
2pub mod test;
3
4mod socks;
5pub mod telemetry;
6pub mod user;
7pub mod zed_urls;
8
9use anyhow::{anyhow, bail, Context as _, Result};
10use async_recursion::async_recursion;
11use async_tungstenite::tungstenite::{
12 client::IntoClientRequest,
13 error::Error as WebsocketError,
14 http::{HeaderValue, Request, StatusCode},
15};
16use chrono::{DateTime, Utc};
17use clock::SystemClock;
18use futures::{
19 channel::oneshot, future::BoxFuture, AsyncReadExt, FutureExt, SinkExt, Stream, StreamExt,
20 TryFutureExt as _, TryStreamExt,
21};
22use gpui::{actions, App, AsyncApp, Entity, Global, Task, WeakEntity};
23use http_client::{AsyncBody, HttpClient, HttpClientWithUrl};
24use parking_lot::RwLock;
25use postage::watch;
26use rand::prelude::*;
27use release_channel::{AppVersion, ReleaseChannel};
28use rpc::proto::{AnyTypedEnvelope, EnvelopedMessage, PeerId, RequestMessage};
29use schemars::JsonSchema;
30use serde::{Deserialize, Serialize};
31use settings::{Settings, SettingsSources};
32use socks::connect_socks_proxy_stream;
33use std::pin::Pin;
34use std::{
35 any::TypeId,
36 convert::TryFrom,
37 fmt::Write as _,
38 future::Future,
39 marker::PhantomData,
40 path::PathBuf,
41 sync::{
42 atomic::{AtomicU64, Ordering},
43 Arc, LazyLock, Weak,
44 },
45 time::{Duration, Instant},
46};
47use telemetry::Telemetry;
48use thiserror::Error;
49use url::Url;
50use util::{ResultExt, TryFutureExt};
51
52pub use rpc::*;
53pub use telemetry_events::Event;
54pub use user::*;
55
56static ZED_SERVER_URL: LazyLock<Option<String>> =
57 LazyLock::new(|| std::env::var("ZED_SERVER_URL").ok());
58static ZED_RPC_URL: LazyLock<Option<String>> = LazyLock::new(|| std::env::var("ZED_RPC_URL").ok());
59
60/// An environment variable whose presence indicates that the development auth
61/// provider should be used.
62///
63/// Only works in development. Setting this environment variable in other release
64/// channels is a no-op.
65pub static ZED_DEVELOPMENT_AUTH: LazyLock<bool> = LazyLock::new(|| {
66 std::env::var("ZED_DEVELOPMENT_AUTH").map_or(false, |value| !value.is_empty())
67});
68pub static IMPERSONATE_LOGIN: LazyLock<Option<String>> = LazyLock::new(|| {
69 std::env::var("ZED_IMPERSONATE")
70 .ok()
71 .and_then(|s| if s.is_empty() { None } else { Some(s) })
72});
73
74pub static ADMIN_API_TOKEN: LazyLock<Option<String>> = LazyLock::new(|| {
75 std::env::var("ZED_ADMIN_API_TOKEN")
76 .ok()
77 .and_then(|s| if s.is_empty() { None } else { Some(s) })
78});
79
80pub static ZED_APP_PATH: LazyLock<Option<PathBuf>> =
81 LazyLock::new(|| std::env::var("ZED_APP_PATH").ok().map(PathBuf::from));
82
83pub static ZED_ALWAYS_ACTIVE: LazyLock<bool> =
84 LazyLock::new(|| std::env::var("ZED_ALWAYS_ACTIVE").map_or(false, |e| !e.is_empty()));
85
86pub const INITIAL_RECONNECTION_DELAY: Duration = Duration::from_millis(500);
87pub const MAX_RECONNECTION_DELAY: Duration = Duration::from_secs(10);
88pub const CONNECTION_TIMEOUT: Duration = Duration::from_secs(20);
89
90actions!(client, [SignIn, SignOut, Reconnect]);
91
92#[derive(Clone, Default, Serialize, Deserialize, JsonSchema)]
93pub struct ClientSettingsContent {
94 server_url: Option<String>,
95}
96
97#[derive(Deserialize)]
98pub struct ClientSettings {
99 pub server_url: String,
100}
101
102impl Settings for ClientSettings {
103 const KEY: Option<&'static str> = None;
104
105 type FileContent = ClientSettingsContent;
106
107 fn load(sources: SettingsSources<Self::FileContent>, _: &mut App) -> Result<Self> {
108 let mut result = sources.json_merge::<Self>()?;
109 if let Some(server_url) = &*ZED_SERVER_URL {
110 result.server_url.clone_from(server_url)
111 }
112 Ok(result)
113 }
114}
115
116#[derive(Default, Clone, Serialize, Deserialize, JsonSchema)]
117pub struct ProxySettingsContent {
118 proxy: Option<String>,
119}
120
121#[derive(Deserialize, Default)]
122pub struct ProxySettings {
123 pub proxy: Option<String>,
124}
125
126impl Settings for ProxySettings {
127 const KEY: Option<&'static str> = None;
128
129 type FileContent = ProxySettingsContent;
130
131 fn load(sources: SettingsSources<Self::FileContent>, _: &mut App) -> Result<Self> {
132 Ok(Self {
133 proxy: sources
134 .user
135 .or(sources.server)
136 .and_then(|value| value.proxy.clone())
137 .or(sources.default.proxy.clone()),
138 })
139 }
140}
141
142pub fn init_settings(cx: &mut App) {
143 TelemetrySettings::register(cx);
144 ClientSettings::register(cx);
145 ProxySettings::register(cx);
146}
147
148pub fn init(client: &Arc<Client>, cx: &mut App) {
149 let _ = rustls::crypto::aws_lc_rs::default_provider().install_default();
150
151 let client = Arc::downgrade(client);
152 cx.on_action({
153 let client = client.clone();
154 move |_: &SignIn, cx| {
155 if let Some(client) = client.upgrade() {
156 cx.spawn(
157 |cx| async move { client.authenticate_and_connect(true, &cx).log_err().await },
158 )
159 .detach();
160 }
161 }
162 });
163
164 cx.on_action({
165 let client = client.clone();
166 move |_: &SignOut, cx| {
167 if let Some(client) = client.upgrade() {
168 cx.spawn(|cx| async move {
169 client.sign_out(&cx).await;
170 })
171 .detach();
172 }
173 }
174 });
175
176 cx.on_action({
177 let client = client.clone();
178 move |_: &Reconnect, cx| {
179 if let Some(client) = client.upgrade() {
180 cx.spawn(|cx| async move {
181 client.reconnect(&cx);
182 })
183 .detach();
184 }
185 }
186 });
187}
188
189struct GlobalClient(Arc<Client>);
190
191impl Global for GlobalClient {}
192
193pub struct Client {
194 id: AtomicU64,
195 peer: Arc<Peer>,
196 http: Arc<HttpClientWithUrl>,
197 telemetry: Arc<Telemetry>,
198 credentials_provider: Arc<dyn CredentialsProvider + Send + Sync + 'static>,
199 state: RwLock<ClientState>,
200 handler_set: parking_lot::Mutex<ProtoMessageHandlerSet>,
201
202 #[allow(clippy::type_complexity)]
203 #[cfg(any(test, feature = "test-support"))]
204 authenticate:
205 RwLock<Option<Box<dyn 'static + Send + Sync + Fn(&AsyncApp) -> Task<Result<Credentials>>>>>,
206
207 #[allow(clippy::type_complexity)]
208 #[cfg(any(test, feature = "test-support"))]
209 establish_connection: RwLock<
210 Option<
211 Box<
212 dyn 'static
213 + Send
214 + Sync
215 + Fn(
216 &Credentials,
217 &AsyncApp,
218 ) -> Task<Result<Connection, EstablishConnectionError>>,
219 >,
220 >,
221 >,
222
223 #[cfg(any(test, feature = "test-support"))]
224 rpc_url: RwLock<Option<Url>>,
225}
226
227#[derive(Error, Debug)]
228pub enum EstablishConnectionError {
229 #[error("upgrade required")]
230 UpgradeRequired,
231 #[error("unauthorized")]
232 Unauthorized,
233 #[error("{0}")]
234 Other(#[from] anyhow::Error),
235 #[error("{0}")]
236 InvalidHeaderValue(#[from] async_tungstenite::tungstenite::http::header::InvalidHeaderValue),
237 #[error("{0}")]
238 Io(#[from] std::io::Error),
239 #[error("{0}")]
240 Websocket(#[from] async_tungstenite::tungstenite::http::Error),
241}
242
243impl From<WebsocketError> for EstablishConnectionError {
244 fn from(error: WebsocketError) -> Self {
245 if let WebsocketError::Http(response) = &error {
246 match response.status() {
247 StatusCode::UNAUTHORIZED => return EstablishConnectionError::Unauthorized,
248 StatusCode::UPGRADE_REQUIRED => return EstablishConnectionError::UpgradeRequired,
249 _ => {}
250 }
251 }
252 EstablishConnectionError::Other(error.into())
253 }
254}
255
256impl EstablishConnectionError {
257 pub fn other(error: impl Into<anyhow::Error> + Send + Sync) -> Self {
258 Self::Other(error.into())
259 }
260}
261
262#[derive(Copy, Clone, Debug, PartialEq)]
263pub enum Status {
264 SignedOut,
265 UpgradeRequired,
266 Authenticating,
267 Connecting,
268 ConnectionError,
269 Connected {
270 peer_id: PeerId,
271 connection_id: ConnectionId,
272 },
273 ConnectionLost,
274 Reauthenticating,
275 Reconnecting,
276 ReconnectionError {
277 next_reconnection: Instant,
278 },
279}
280
281impl Status {
282 pub fn is_connected(&self) -> bool {
283 matches!(self, Self::Connected { .. })
284 }
285
286 pub fn is_signed_out(&self) -> bool {
287 matches!(self, Self::SignedOut | Self::UpgradeRequired)
288 }
289}
290
291struct ClientState {
292 credentials: Option<Credentials>,
293 status: (watch::Sender<Status>, watch::Receiver<Status>),
294 _reconnect_task: Option<Task<()>>,
295}
296
297#[derive(Clone, Debug, Eq, PartialEq)]
298pub struct Credentials {
299 pub user_id: u64,
300 pub access_token: String,
301}
302
303impl Credentials {
304 pub fn authorization_header(&self) -> String {
305 format!("{} {}", self.user_id, self.access_token)
306 }
307}
308
309/// A provider for [`Credentials`].
310///
311/// Used to abstract over reading and writing credentials to some form of
312/// persistence (like the system keychain).
313trait CredentialsProvider {
314 /// Reads the credentials from the provider.
315 fn read_credentials<'a>(
316 &'a self,
317 cx: &'a AsyncApp,
318 ) -> Pin<Box<dyn Future<Output = Option<Credentials>> + 'a>>;
319
320 /// Writes the credentials to the provider.
321 fn write_credentials<'a>(
322 &'a self,
323 user_id: u64,
324 access_token: String,
325 cx: &'a AsyncApp,
326 ) -> Pin<Box<dyn Future<Output = Result<()>> + 'a>>;
327
328 /// Deletes the credentials from the provider.
329 fn delete_credentials<'a>(
330 &'a self,
331 cx: &'a AsyncApp,
332 ) -> Pin<Box<dyn Future<Output = Result<()>> + 'a>>;
333}
334
335impl Default for ClientState {
336 fn default() -> Self {
337 Self {
338 credentials: None,
339 status: watch::channel_with(Status::SignedOut),
340 _reconnect_task: None,
341 }
342 }
343}
344
345pub enum Subscription {
346 Entity {
347 client: Weak<Client>,
348 id: (TypeId, u64),
349 },
350 Message {
351 client: Weak<Client>,
352 id: TypeId,
353 },
354}
355
356impl Drop for Subscription {
357 fn drop(&mut self) {
358 match self {
359 Subscription::Entity { client, id } => {
360 if let Some(client) = client.upgrade() {
361 let mut state = client.handler_set.lock();
362 let _ = state.entities_by_type_and_remote_id.remove(id);
363 }
364 }
365 Subscription::Message { client, id } => {
366 if let Some(client) = client.upgrade() {
367 let mut state = client.handler_set.lock();
368 let _ = state.entity_types_by_message_type.remove(id);
369 let _ = state.message_handlers.remove(id);
370 }
371 }
372 }
373 }
374}
375
376pub struct PendingEntitySubscription<T: 'static> {
377 client: Arc<Client>,
378 remote_id: u64,
379 _entity_type: PhantomData<T>,
380 consumed: bool,
381}
382
383impl<T: 'static> PendingEntitySubscription<T> {
384 pub fn set_entity(mut self, entity: &Entity<T>, cx: &AsyncApp) -> Subscription {
385 self.consumed = true;
386 let mut handlers = self.client.handler_set.lock();
387 let id = (TypeId::of::<T>(), self.remote_id);
388 let Some(EntityMessageSubscriber::Pending(messages)) =
389 handlers.entities_by_type_and_remote_id.remove(&id)
390 else {
391 unreachable!()
392 };
393
394 handlers.entities_by_type_and_remote_id.insert(
395 id,
396 EntityMessageSubscriber::Entity {
397 handle: entity.downgrade().into(),
398 },
399 );
400 drop(handlers);
401 for message in messages {
402 let client_id = self.client.id();
403 let type_name = message.payload_type_name();
404 let sender_id = message.original_sender_id();
405 log::debug!(
406 "handling queued rpc message. client_id:{}, sender_id:{:?}, type:{}",
407 client_id,
408 sender_id,
409 type_name
410 );
411 self.client.handle_message(message, cx);
412 }
413 Subscription::Entity {
414 client: Arc::downgrade(&self.client),
415 id,
416 }
417 }
418}
419
420impl<T: 'static> Drop for PendingEntitySubscription<T> {
421 fn drop(&mut self) {
422 if !self.consumed {
423 let mut state = self.client.handler_set.lock();
424 if let Some(EntityMessageSubscriber::Pending(messages)) = state
425 .entities_by_type_and_remote_id
426 .remove(&(TypeId::of::<T>(), self.remote_id))
427 {
428 for message in messages {
429 log::info!("unhandled message {}", message.payload_type_name());
430 }
431 }
432 }
433 }
434}
435
436#[derive(Copy, Clone)]
437pub struct TelemetrySettings {
438 pub diagnostics: bool,
439 pub metrics: bool,
440}
441
442/// Control what info is collected by Zed.
443#[derive(Default, Clone, Serialize, Deserialize, JsonSchema)]
444pub struct TelemetrySettingsContent {
445 /// Send debug info like crash reports.
446 ///
447 /// Default: true
448 pub diagnostics: Option<bool>,
449 /// Send anonymized usage data like what languages you're using Zed with.
450 ///
451 /// Default: true
452 pub metrics: Option<bool>,
453}
454
455impl settings::Settings for TelemetrySettings {
456 const KEY: Option<&'static str> = Some("telemetry");
457
458 type FileContent = TelemetrySettingsContent;
459
460 fn load(sources: SettingsSources<Self::FileContent>, _: &mut App) -> Result<Self> {
461 Ok(Self {
462 diagnostics: sources
463 .user
464 .as_ref()
465 .or(sources.server.as_ref())
466 .and_then(|v| v.diagnostics)
467 .unwrap_or(
468 sources
469 .default
470 .diagnostics
471 .ok_or_else(Self::missing_default)?,
472 ),
473 metrics: sources
474 .user
475 .as_ref()
476 .or(sources.server.as_ref())
477 .and_then(|v| v.metrics)
478 .unwrap_or(sources.default.metrics.ok_or_else(Self::missing_default)?),
479 })
480 }
481}
482
483impl Client {
484 pub fn new(
485 clock: Arc<dyn SystemClock>,
486 http: Arc<HttpClientWithUrl>,
487 cx: &mut App,
488 ) -> Arc<Self> {
489 let use_zed_development_auth = match ReleaseChannel::try_global(cx) {
490 Some(ReleaseChannel::Dev) => *ZED_DEVELOPMENT_AUTH,
491 Some(ReleaseChannel::Nightly | ReleaseChannel::Preview | ReleaseChannel::Stable)
492 | None => false,
493 };
494
495 let credentials_provider: Arc<dyn CredentialsProvider + Send + Sync + 'static> =
496 if use_zed_development_auth {
497 Arc::new(DevelopmentCredentialsProvider {
498 path: paths::config_dir().join("development_auth"),
499 })
500 } else {
501 Arc::new(KeychainCredentialsProvider)
502 };
503
504 Arc::new(Self {
505 id: AtomicU64::new(0),
506 peer: Peer::new(0),
507 telemetry: Telemetry::new(clock, http.clone(), cx),
508 http,
509 credentials_provider,
510 state: Default::default(),
511 handler_set: Default::default(),
512
513 #[cfg(any(test, feature = "test-support"))]
514 authenticate: Default::default(),
515 #[cfg(any(test, feature = "test-support"))]
516 establish_connection: Default::default(),
517 #[cfg(any(test, feature = "test-support"))]
518 rpc_url: RwLock::default(),
519 })
520 }
521
522 pub fn production(cx: &mut App) -> Arc<Self> {
523 let clock = Arc::new(clock::RealSystemClock);
524 let http = Arc::new(HttpClientWithUrl::new_uri(
525 cx.http_client(),
526 &ClientSettings::get_global(cx).server_url,
527 cx.http_client().proxy().cloned(),
528 ));
529 Self::new(clock, http, cx)
530 }
531
532 pub fn id(&self) -> u64 {
533 self.id.load(Ordering::SeqCst)
534 }
535
536 pub fn http_client(&self) -> Arc<HttpClientWithUrl> {
537 self.http.clone()
538 }
539
540 pub fn set_id(&self, id: u64) -> &Self {
541 self.id.store(id, Ordering::SeqCst);
542 self
543 }
544
545 #[cfg(any(test, feature = "test-support"))]
546 pub fn teardown(&self) {
547 let mut state = self.state.write();
548 state._reconnect_task.take();
549 self.handler_set.lock().clear();
550 self.peer.teardown();
551 }
552
553 #[cfg(any(test, feature = "test-support"))]
554 pub fn override_authenticate<F>(&self, authenticate: F) -> &Self
555 where
556 F: 'static + Send + Sync + Fn(&AsyncApp) -> Task<Result<Credentials>>,
557 {
558 *self.authenticate.write() = Some(Box::new(authenticate));
559 self
560 }
561
562 #[cfg(any(test, feature = "test-support"))]
563 pub fn override_establish_connection<F>(&self, connect: F) -> &Self
564 where
565 F: 'static
566 + Send
567 + Sync
568 + Fn(&Credentials, &AsyncApp) -> Task<Result<Connection, EstablishConnectionError>>,
569 {
570 *self.establish_connection.write() = Some(Box::new(connect));
571 self
572 }
573
574 #[cfg(any(test, feature = "test-support"))]
575 pub fn override_rpc_url(&self, url: Url) -> &Self {
576 *self.rpc_url.write() = Some(url);
577 self
578 }
579
580 pub fn global(cx: &App) -> Arc<Self> {
581 cx.global::<GlobalClient>().0.clone()
582 }
583 pub fn set_global(client: Arc<Client>, cx: &mut App) {
584 cx.set_global(GlobalClient(client))
585 }
586
587 pub fn user_id(&self) -> Option<u64> {
588 self.state
589 .read()
590 .credentials
591 .as_ref()
592 .map(|credentials| credentials.user_id)
593 }
594
595 pub fn peer_id(&self) -> Option<PeerId> {
596 if let Status::Connected { peer_id, .. } = &*self.status().borrow() {
597 Some(*peer_id)
598 } else {
599 None
600 }
601 }
602
603 pub fn status(&self) -> watch::Receiver<Status> {
604 self.state.read().status.1.clone()
605 }
606
607 fn set_status(self: &Arc<Self>, status: Status, cx: &AsyncApp) {
608 log::info!("set status on client {}: {:?}", self.id(), status);
609 let mut state = self.state.write();
610 *state.status.0.borrow_mut() = status;
611
612 match status {
613 Status::Connected { .. } => {
614 state._reconnect_task = None;
615 }
616 Status::ConnectionLost => {
617 let this = self.clone();
618 state._reconnect_task = Some(cx.spawn(move |cx| async move {
619 #[cfg(any(test, feature = "test-support"))]
620 let mut rng = StdRng::seed_from_u64(0);
621 #[cfg(not(any(test, feature = "test-support")))]
622 let mut rng = StdRng::from_entropy();
623
624 let mut delay = INITIAL_RECONNECTION_DELAY;
625 while let Err(error) = this.authenticate_and_connect(true, &cx).await {
626 log::error!("failed to connect {}", error);
627 if matches!(*this.status().borrow(), Status::ConnectionError) {
628 this.set_status(
629 Status::ReconnectionError {
630 next_reconnection: Instant::now() + delay,
631 },
632 &cx,
633 );
634 cx.background_executor().timer(delay).await;
635 delay = delay
636 .mul_f32(rng.gen_range(0.5..=2.5))
637 .max(INITIAL_RECONNECTION_DELAY)
638 .min(MAX_RECONNECTION_DELAY);
639 } else {
640 break;
641 }
642 }
643 }));
644 }
645 Status::SignedOut | Status::UpgradeRequired => {
646 self.telemetry.set_authenticated_user_info(None, false);
647 state._reconnect_task.take();
648 }
649 _ => {}
650 }
651 }
652
653 pub fn subscribe_to_entity<T>(
654 self: &Arc<Self>,
655 remote_id: u64,
656 ) -> Result<PendingEntitySubscription<T>>
657 where
658 T: 'static,
659 {
660 let id = (TypeId::of::<T>(), remote_id);
661
662 let mut state = self.handler_set.lock();
663 if state.entities_by_type_and_remote_id.contains_key(&id) {
664 return Err(anyhow!("already subscribed to entity"));
665 }
666
667 state
668 .entities_by_type_and_remote_id
669 .insert(id, EntityMessageSubscriber::Pending(Default::default()));
670
671 Ok(PendingEntitySubscription {
672 client: self.clone(),
673 remote_id,
674 consumed: false,
675 _entity_type: PhantomData,
676 })
677 }
678
679 #[track_caller]
680 pub fn add_message_handler<M, E, H, F>(
681 self: &Arc<Self>,
682 entity: WeakEntity<E>,
683 handler: H,
684 ) -> Subscription
685 where
686 M: EnvelopedMessage,
687 E: 'static,
688 H: 'static + Sync + Fn(Entity<E>, TypedEnvelope<M>, AsyncApp) -> F + Send + Sync,
689 F: 'static + Future<Output = Result<()>>,
690 {
691 self.add_message_handler_impl(entity, move |entity, message, _, cx| {
692 handler(entity, message, cx)
693 })
694 }
695
696 fn add_message_handler_impl<M, E, H, F>(
697 self: &Arc<Self>,
698 entity: WeakEntity<E>,
699 handler: H,
700 ) -> Subscription
701 where
702 M: EnvelopedMessage,
703 E: 'static,
704 H: 'static
705 + Sync
706 + Fn(Entity<E>, TypedEnvelope<M>, AnyProtoClient, AsyncApp) -> F
707 + Send
708 + Sync,
709 F: 'static + Future<Output = Result<()>>,
710 {
711 let message_type_id = TypeId::of::<M>();
712 let mut state = self.handler_set.lock();
713 state
714 .entities_by_message_type
715 .insert(message_type_id, entity.into());
716
717 let prev_handler = state.message_handlers.insert(
718 message_type_id,
719 Arc::new(move |subscriber, envelope, client, cx| {
720 let subscriber = subscriber.downcast::<E>().unwrap();
721 let envelope = envelope.into_any().downcast::<TypedEnvelope<M>>().unwrap();
722 handler(subscriber, *envelope, client.clone(), cx).boxed_local()
723 }),
724 );
725 if prev_handler.is_some() {
726 let location = std::panic::Location::caller();
727 panic!(
728 "{}:{} registered handler for the same message {} twice",
729 location.file(),
730 location.line(),
731 std::any::type_name::<M>()
732 );
733 }
734
735 Subscription::Message {
736 client: Arc::downgrade(self),
737 id: message_type_id,
738 }
739 }
740
741 pub fn add_request_handler<M, E, H, F>(
742 self: &Arc<Self>,
743 entity: WeakEntity<E>,
744 handler: H,
745 ) -> Subscription
746 where
747 M: RequestMessage,
748 E: 'static,
749 H: 'static + Sync + Fn(Entity<E>, TypedEnvelope<M>, AsyncApp) -> F + Send + Sync,
750 F: 'static + Future<Output = Result<M::Response>>,
751 {
752 self.add_message_handler_impl(entity, move |handle, envelope, this, cx| {
753 Self::respond_to_request(envelope.receipt(), handler(handle, envelope, cx), this)
754 })
755 }
756
757 async fn respond_to_request<T: RequestMessage, F: Future<Output = Result<T::Response>>>(
758 receipt: Receipt<T>,
759 response: F,
760 client: AnyProtoClient,
761 ) -> Result<()> {
762 match response.await {
763 Ok(response) => {
764 client.send_response(receipt.message_id, response)?;
765 Ok(())
766 }
767 Err(error) => {
768 client.send_response(receipt.message_id, error.to_proto())?;
769 Err(error)
770 }
771 }
772 }
773
774 pub async fn has_credentials(&self, cx: &AsyncApp) -> bool {
775 self.credentials_provider
776 .read_credentials(cx)
777 .await
778 .is_some()
779 }
780
781 #[async_recursion(?Send)]
782 pub async fn authenticate_and_connect(
783 self: &Arc<Self>,
784 try_provider: bool,
785 cx: &AsyncApp,
786 ) -> anyhow::Result<()> {
787 let was_disconnected = match *self.status().borrow() {
788 Status::SignedOut => true,
789 Status::ConnectionError
790 | Status::ConnectionLost
791 | Status::Authenticating { .. }
792 | Status::Reauthenticating { .. }
793 | Status::ReconnectionError { .. } => false,
794 Status::Connected { .. } | Status::Connecting { .. } | Status::Reconnecting { .. } => {
795 return Ok(())
796 }
797 Status::UpgradeRequired => return Err(EstablishConnectionError::UpgradeRequired)?,
798 };
799 if was_disconnected {
800 self.set_status(Status::Authenticating, cx);
801 } else {
802 self.set_status(Status::Reauthenticating, cx)
803 }
804
805 let mut read_from_provider = false;
806 let mut credentials = self.state.read().credentials.clone();
807 if credentials.is_none() && try_provider {
808 credentials = self.credentials_provider.read_credentials(cx).await;
809 read_from_provider = credentials.is_some();
810 }
811
812 if credentials.is_none() {
813 let mut status_rx = self.status();
814 let _ = status_rx.next().await;
815 futures::select_biased! {
816 authenticate = self.authenticate(cx).fuse() => {
817 match authenticate {
818 Ok(creds) => credentials = Some(creds),
819 Err(err) => {
820 self.set_status(Status::ConnectionError, cx);
821 return Err(err);
822 }
823 }
824 }
825 _ = status_rx.next().fuse() => {
826 return Err(anyhow!("authentication canceled"));
827 }
828 }
829 }
830 let credentials = credentials.unwrap();
831 self.set_id(credentials.user_id);
832
833 if was_disconnected {
834 self.set_status(Status::Connecting, cx);
835 } else {
836 self.set_status(Status::Reconnecting, cx);
837 }
838
839 let mut timeout =
840 futures::FutureExt::fuse(cx.background_executor().timer(CONNECTION_TIMEOUT));
841 futures::select_biased! {
842 connection = self.establish_connection(&credentials, cx).fuse() => {
843 match connection {
844 Ok(conn) => {
845 self.state.write().credentials = Some(credentials.clone());
846 if !read_from_provider && IMPERSONATE_LOGIN.is_none() {
847 self.credentials_provider.write_credentials(credentials.user_id, credentials.access_token, cx).await.log_err();
848
849 }
850
851 futures::select_biased! {
852 result = self.set_connection(conn, cx).fuse() => result,
853 _ = timeout => {
854 self.set_status(Status::ConnectionError, cx);
855 Err(anyhow!("timed out waiting on hello message from server"))
856 }
857 }
858 }
859 Err(EstablishConnectionError::Unauthorized) => {
860 self.state.write().credentials.take();
861 if read_from_provider {
862 self.credentials_provider.delete_credentials(cx).await.log_err();
863 self.set_status(Status::SignedOut, cx);
864 self.authenticate_and_connect(false, cx).await
865 } else {
866 self.set_status(Status::ConnectionError, cx);
867 Err(EstablishConnectionError::Unauthorized)?
868 }
869 }
870 Err(EstablishConnectionError::UpgradeRequired) => {
871 self.set_status(Status::UpgradeRequired, cx);
872 Err(EstablishConnectionError::UpgradeRequired)?
873 }
874 Err(error) => {
875 self.set_status(Status::ConnectionError, cx);
876 Err(error)?
877 }
878 }
879 }
880 _ = &mut timeout => {
881 self.set_status(Status::ConnectionError, cx);
882 Err(anyhow!("timed out trying to establish connection"))
883 }
884 }
885 }
886
887 async fn set_connection(self: &Arc<Self>, conn: Connection, cx: &AsyncApp) -> Result<()> {
888 let executor = cx.background_executor();
889 log::debug!("add connection to peer");
890 let (connection_id, handle_io, mut incoming) = self.peer.add_connection(conn, {
891 let executor = executor.clone();
892 move |duration| executor.timer(duration)
893 });
894 let handle_io = executor.spawn(handle_io);
895
896 let peer_id = async {
897 log::debug!("waiting for server hello");
898 let message = incoming
899 .next()
900 .await
901 .ok_or_else(|| anyhow!("no hello message received"))?;
902 log::debug!("got server hello");
903 let hello_message_type_name = message.payload_type_name().to_string();
904 let hello = message
905 .into_any()
906 .downcast::<TypedEnvelope<proto::Hello>>()
907 .map_err(|_| {
908 anyhow!(
909 "invalid hello message received: {:?}",
910 hello_message_type_name
911 )
912 })?;
913 let peer_id = hello
914 .payload
915 .peer_id
916 .ok_or_else(|| anyhow!("invalid peer id"))?;
917 Ok(peer_id)
918 };
919
920 let peer_id = match peer_id.await {
921 Ok(peer_id) => peer_id,
922 Err(error) => {
923 self.peer.disconnect(connection_id);
924 return Err(error);
925 }
926 };
927
928 log::debug!(
929 "set status to connected (connection id: {:?}, peer id: {:?})",
930 connection_id,
931 peer_id
932 );
933 self.set_status(
934 Status::Connected {
935 peer_id,
936 connection_id,
937 },
938 cx,
939 );
940
941 cx.spawn({
942 let this = self.clone();
943 |cx| {
944 async move {
945 while let Some(message) = incoming.next().await {
946 this.handle_message(message, &cx);
947 // Don't starve the main thread when receiving lots of messages at once.
948 smol::future::yield_now().await;
949 }
950 }
951 }
952 })
953 .detach();
954
955 cx.spawn({
956 let this = self.clone();
957 move |cx| async move {
958 match handle_io.await {
959 Ok(()) => {
960 if *this.status().borrow()
961 == (Status::Connected {
962 connection_id,
963 peer_id,
964 })
965 {
966 this.set_status(Status::SignedOut, &cx);
967 }
968 }
969 Err(err) => {
970 log::error!("connection error: {:?}", err);
971 this.set_status(Status::ConnectionLost, &cx);
972 }
973 }
974 }
975 })
976 .detach();
977
978 Ok(())
979 }
980
981 fn authenticate(self: &Arc<Self>, cx: &AsyncApp) -> Task<Result<Credentials>> {
982 #[cfg(any(test, feature = "test-support"))]
983 if let Some(callback) = self.authenticate.read().as_ref() {
984 return callback(cx);
985 }
986
987 self.authenticate_with_browser(cx)
988 }
989
990 fn establish_connection(
991 self: &Arc<Self>,
992 credentials: &Credentials,
993 cx: &AsyncApp,
994 ) -> Task<Result<Connection, EstablishConnectionError>> {
995 #[cfg(any(test, feature = "test-support"))]
996 if let Some(callback) = self.establish_connection.read().as_ref() {
997 return callback(credentials, cx);
998 }
999
1000 self.establish_websocket_connection(credentials, cx)
1001 }
1002
1003 fn rpc_url(
1004 &self,
1005 http: Arc<HttpClientWithUrl>,
1006 release_channel: Option<ReleaseChannel>,
1007 ) -> impl Future<Output = Result<url::Url>> {
1008 #[cfg(any(test, feature = "test-support"))]
1009 let url_override = self.rpc_url.read().clone();
1010
1011 async move {
1012 #[cfg(any(test, feature = "test-support"))]
1013 if let Some(url) = url_override {
1014 return Ok(url);
1015 }
1016
1017 if let Some(url) = &*ZED_RPC_URL {
1018 return Url::parse(url).context("invalid rpc url");
1019 }
1020
1021 let mut url = http.build_url("/rpc");
1022 if let Some(preview_param) =
1023 release_channel.and_then(|channel| channel.release_query_param())
1024 {
1025 url += "?";
1026 url += preview_param;
1027 }
1028
1029 let response = http.get(&url, Default::default(), false).await?;
1030 let collab_url = if response.status().is_redirection() {
1031 response
1032 .headers()
1033 .get("Location")
1034 .ok_or_else(|| anyhow!("missing location header in /rpc response"))?
1035 .to_str()
1036 .map_err(EstablishConnectionError::other)?
1037 .to_string()
1038 } else {
1039 Err(anyhow!(
1040 "unexpected /rpc response status {}",
1041 response.status()
1042 ))?
1043 };
1044
1045 Url::parse(&collab_url).context("invalid rpc url")
1046 }
1047 }
1048
1049 fn establish_websocket_connection(
1050 self: &Arc<Self>,
1051 credentials: &Credentials,
1052 cx: &AsyncApp,
1053 ) -> Task<Result<Connection, EstablishConnectionError>> {
1054 let release_channel = cx
1055 .update(|cx| ReleaseChannel::try_global(cx))
1056 .ok()
1057 .flatten();
1058 let app_version = cx
1059 .update(|cx| AppVersion::global(cx).to_string())
1060 .ok()
1061 .unwrap_or_default();
1062
1063 let http = self.http.clone();
1064 let proxy = http.proxy().cloned();
1065 let credentials = credentials.clone();
1066 let rpc_url = self.rpc_url(http, release_channel);
1067 let system_id = self.telemetry.system_id();
1068 let metrics_id = self.telemetry.metrics_id();
1069 cx.background_executor().spawn(async move {
1070 use HttpOrHttps::*;
1071
1072 #[derive(Debug)]
1073 enum HttpOrHttps {
1074 Http,
1075 Https,
1076 }
1077
1078 let mut rpc_url = rpc_url.await?;
1079 let url_scheme = match rpc_url.scheme() {
1080 "https" => Https,
1081 "http" => Http,
1082 _ => Err(anyhow!("invalid rpc url: {}", rpc_url))?,
1083 };
1084 let rpc_host = rpc_url
1085 .host_str()
1086 .zip(rpc_url.port_or_known_default())
1087 .ok_or_else(|| anyhow!("missing host in rpc url"))?;
1088 let stream = connect_socks_proxy_stream(proxy.as_ref(), rpc_host).await?;
1089
1090 log::info!("connected to rpc endpoint {}", rpc_url);
1091
1092 rpc_url
1093 .set_scheme(match url_scheme {
1094 Https => "wss",
1095 Http => "ws",
1096 })
1097 .unwrap();
1098
1099 // We call `into_client_request` to let `tungstenite` construct the WebSocket request
1100 // for us from the RPC URL.
1101 //
1102 // Among other things, it will generate and set a `Sec-WebSocket-Key` header for us.
1103 let mut request = IntoClientRequest::into_client_request(rpc_url.as_str())?;
1104
1105 // We then modify the request to add our desired headers.
1106 let request_headers = request.headers_mut();
1107 request_headers.insert(
1108 "Authorization",
1109 HeaderValue::from_str(&credentials.authorization_header())?,
1110 );
1111 request_headers.insert(
1112 "x-zed-protocol-version",
1113 HeaderValue::from_str(&rpc::PROTOCOL_VERSION.to_string())?,
1114 );
1115 request_headers.insert("x-zed-app-version", HeaderValue::from_str(&app_version)?);
1116 request_headers.insert(
1117 "x-zed-release-channel",
1118 HeaderValue::from_str(release_channel.map(|r| r.dev_name()).unwrap_or("unknown"))?,
1119 );
1120 if let Some(system_id) = system_id {
1121 request_headers.insert("x-zed-system-id", HeaderValue::from_str(&system_id)?);
1122 }
1123 if let Some(metrics_id) = metrics_id {
1124 request_headers.insert("x-zed-metrics-id", HeaderValue::from_str(&metrics_id)?);
1125 }
1126
1127 match url_scheme {
1128 Https => {
1129 let client_config = {
1130 let mut root_store = rustls::RootCertStore::empty();
1131
1132 let root_certs = rustls_native_certs::load_native_certs();
1133 for error in root_certs.errors {
1134 log::warn!("error loading native certs: {:?}", error);
1135 }
1136 root_store.add_parsable_certificates(root_certs.certs);
1137 rustls::ClientConfig::builder()
1138 .with_root_certificates(root_store)
1139 .with_no_client_auth()
1140 };
1141
1142 let (stream, _) =
1143 async_tungstenite::async_tls::client_async_tls_with_connector(
1144 request,
1145 stream,
1146 Some(client_config.into()),
1147 )
1148 .await?;
1149 Ok(Connection::new(
1150 stream
1151 .map_err(|error| anyhow!(error))
1152 .sink_map_err(|error| anyhow!(error)),
1153 ))
1154 }
1155 Http => {
1156 let (stream, _) = async_tungstenite::client_async(request, stream).await?;
1157 Ok(Connection::new(
1158 stream
1159 .map_err(|error| anyhow!(error))
1160 .sink_map_err(|error| anyhow!(error)),
1161 ))
1162 }
1163 }
1164 })
1165 }
1166
1167 pub fn authenticate_with_browser(self: &Arc<Self>, cx: &AsyncApp) -> Task<Result<Credentials>> {
1168 let http = self.http.clone();
1169 let this = self.clone();
1170 cx.spawn(|cx| async move {
1171 let background = cx.background_executor().clone();
1172
1173 let (open_url_tx, open_url_rx) = oneshot::channel::<String>();
1174 cx.update(|cx| {
1175 cx.spawn(move |cx| async move {
1176 let url = open_url_rx.await?;
1177 cx.update(|cx| cx.open_url(&url))
1178 })
1179 .detach_and_log_err(cx);
1180 })
1181 .log_err();
1182
1183 let credentials = background
1184 .clone()
1185 .spawn(async move {
1186 // Generate a pair of asymmetric encryption keys. The public key will be used by the
1187 // zed server to encrypt the user's access token, so that it can'be intercepted by
1188 // any other app running on the user's device.
1189 let (public_key, private_key) =
1190 rpc::auth::keypair().expect("failed to generate keypair for auth");
1191 let public_key_string = String::try_from(public_key)
1192 .expect("failed to serialize public key for auth");
1193
1194 if let Some((login, token)) =
1195 IMPERSONATE_LOGIN.as_ref().zip(ADMIN_API_TOKEN.as_ref())
1196 {
1197 eprintln!("authenticate as admin {login}, {token}");
1198
1199 return this
1200 .authenticate_as_admin(http, login.clone(), token.clone())
1201 .await;
1202 }
1203
1204 // Start an HTTP server to receive the redirect from Zed's sign-in page.
1205 let server =
1206 tiny_http::Server::http("127.0.0.1:0").expect("failed to find open port");
1207 let port = server.server_addr().port();
1208
1209 // Open the Zed sign-in page in the user's browser, with query parameters that indicate
1210 // that the user is signing in from a Zed app running on the same device.
1211 let mut url = http.build_url(&format!(
1212 "/native_app_signin?native_app_port={}&native_app_public_key={}",
1213 port, public_key_string
1214 ));
1215
1216 if let Some(impersonate_login) = IMPERSONATE_LOGIN.as_ref() {
1217 log::info!("impersonating user @{}", impersonate_login);
1218 write!(&mut url, "&impersonate={}", impersonate_login).unwrap();
1219 }
1220
1221 open_url_tx.send(url).log_err();
1222
1223 // Receive the HTTP request from the user's browser. Retrieve the user id and encrypted
1224 // access token from the query params.
1225 //
1226 // TODO - Avoid ever starting more than one HTTP server. Maybe switch to using a
1227 // custom URL scheme instead of this local HTTP server.
1228 let (user_id, access_token) = background
1229 .spawn(async move {
1230 for _ in 0..100 {
1231 if let Some(req) = server.recv_timeout(Duration::from_secs(1))? {
1232 let path = req.url();
1233 let mut user_id = None;
1234 let mut access_token = None;
1235 let url = Url::parse(&format!("http://example.com{}", path))
1236 .context("failed to parse login notification url")?;
1237 for (key, value) in url.query_pairs() {
1238 if key == "access_token" {
1239 access_token = Some(value.to_string());
1240 } else if key == "user_id" {
1241 user_id = Some(value.to_string());
1242 }
1243 }
1244
1245 let post_auth_url =
1246 http.build_url("/native_app_signin_succeeded");
1247 req.respond(
1248 tiny_http::Response::empty(302).with_header(
1249 tiny_http::Header::from_bytes(
1250 &b"Location"[..],
1251 post_auth_url.as_bytes(),
1252 )
1253 .unwrap(),
1254 ),
1255 )
1256 .context("failed to respond to login http request")?;
1257 return Ok((
1258 user_id
1259 .ok_or_else(|| anyhow!("missing user_id parameter"))?,
1260 access_token.ok_or_else(|| {
1261 anyhow!("missing access_token parameter")
1262 })?,
1263 ));
1264 }
1265 }
1266
1267 Err(anyhow!("didn't receive login redirect"))
1268 })
1269 .await?;
1270
1271 let access_token = private_key
1272 .decrypt_string(&access_token)
1273 .context("failed to decrypt access token")?;
1274
1275 Ok(Credentials {
1276 user_id: user_id.parse()?,
1277 access_token,
1278 })
1279 })
1280 .await?;
1281
1282 cx.update(|cx| cx.activate(true))?;
1283 Ok(credentials)
1284 })
1285 }
1286
1287 async fn authenticate_as_admin(
1288 self: &Arc<Self>,
1289 http: Arc<HttpClientWithUrl>,
1290 login: String,
1291 mut api_token: String,
1292 ) -> Result<Credentials> {
1293 #[derive(Deserialize)]
1294 struct AuthenticatedUserResponse {
1295 user: User,
1296 }
1297
1298 #[derive(Deserialize)]
1299 struct User {
1300 id: u64,
1301 }
1302
1303 let github_user = {
1304 #[derive(Deserialize)]
1305 struct GithubUser {
1306 id: i32,
1307 login: String,
1308 created_at: DateTime<Utc>,
1309 }
1310
1311 let request = {
1312 let mut request_builder =
1313 Request::get(&format!("https://api.github.com/users/{login}"));
1314 if let Ok(github_token) = std::env::var("GITHUB_TOKEN") {
1315 request_builder =
1316 request_builder.header("Authorization", format!("Bearer {}", github_token));
1317 }
1318
1319 request_builder.body(AsyncBody::empty())?
1320 };
1321
1322 let mut response = http
1323 .send(request)
1324 .await
1325 .context("error fetching GitHub user")?;
1326
1327 let mut body = Vec::new();
1328 response
1329 .body_mut()
1330 .read_to_end(&mut body)
1331 .await
1332 .context("error reading GitHub user")?;
1333
1334 if !response.status().is_success() {
1335 let text = String::from_utf8_lossy(body.as_slice());
1336 bail!(
1337 "status error {}, response: {text:?}",
1338 response.status().as_u16()
1339 );
1340 }
1341
1342 serde_json::from_slice::<GithubUser>(body.as_slice()).map_err(|err| {
1343 log::error!("Error deserializing: {:?}", err);
1344 log::error!(
1345 "GitHub API response text: {:?}",
1346 String::from_utf8_lossy(body.as_slice())
1347 );
1348 anyhow!("error deserializing GitHub user")
1349 })?
1350 };
1351
1352 let query_params = [
1353 ("github_login", &github_user.login),
1354 ("github_user_id", &github_user.id.to_string()),
1355 (
1356 "github_user_created_at",
1357 &github_user.created_at.to_rfc3339(),
1358 ),
1359 ];
1360
1361 // Use the collab server's admin API to retrieve the ID
1362 // of the impersonated user.
1363 let mut url = self.rpc_url(http.clone(), None).await?;
1364 url.set_path("/user");
1365 url.set_query(Some(
1366 &query_params
1367 .iter()
1368 .map(|(key, value)| {
1369 format!(
1370 "{}={}",
1371 key,
1372 url::form_urlencoded::byte_serialize(value.as_bytes()).collect::<String>()
1373 )
1374 })
1375 .collect::<Vec<String>>()
1376 .join("&"),
1377 ));
1378 let request: http_client::Request<AsyncBody> = Request::get(url.as_str())
1379 .header("Authorization", format!("token {api_token}"))
1380 .body("".into())?;
1381
1382 let mut response = http.send(request).await?;
1383 let mut body = String::new();
1384 response.body_mut().read_to_string(&mut body).await?;
1385 if !response.status().is_success() {
1386 Err(anyhow!(
1387 "admin user request failed {} - {}",
1388 response.status().as_u16(),
1389 body,
1390 ))?;
1391 }
1392 let response: AuthenticatedUserResponse = serde_json::from_str(&body)?;
1393
1394 // Use the admin API token to authenticate as the impersonated user.
1395 api_token.insert_str(0, "ADMIN_TOKEN:");
1396 Ok(Credentials {
1397 user_id: response.user.id,
1398 access_token: api_token,
1399 })
1400 }
1401
1402 pub async fn sign_out(self: &Arc<Self>, cx: &AsyncApp) {
1403 self.state.write().credentials = None;
1404 self.disconnect(cx);
1405
1406 if self.has_credentials(cx).await {
1407 self.credentials_provider
1408 .delete_credentials(cx)
1409 .await
1410 .log_err();
1411 }
1412 }
1413
1414 pub fn disconnect(self: &Arc<Self>, cx: &AsyncApp) {
1415 self.peer.teardown();
1416 self.set_status(Status::SignedOut, cx);
1417 }
1418
1419 pub fn reconnect(self: &Arc<Self>, cx: &AsyncApp) {
1420 self.peer.teardown();
1421 self.set_status(Status::ConnectionLost, cx);
1422 }
1423
1424 fn connection_id(&self) -> Result<ConnectionId> {
1425 if let Status::Connected { connection_id, .. } = *self.status().borrow() {
1426 Ok(connection_id)
1427 } else {
1428 Err(anyhow!("not connected"))
1429 }
1430 }
1431
1432 pub fn send<T: EnvelopedMessage>(&self, message: T) -> Result<()> {
1433 log::debug!("rpc send. client_id:{}, name:{}", self.id(), T::NAME);
1434 self.peer.send(self.connection_id()?, message)
1435 }
1436
1437 pub fn request<T: RequestMessage>(
1438 &self,
1439 request: T,
1440 ) -> impl Future<Output = Result<T::Response>> {
1441 self.request_envelope(request)
1442 .map_ok(|envelope| envelope.payload)
1443 }
1444
1445 pub fn request_stream<T: RequestMessage>(
1446 &self,
1447 request: T,
1448 ) -> impl Future<Output = Result<impl Stream<Item = Result<T::Response>>>> {
1449 let client_id = self.id.load(Ordering::SeqCst);
1450 log::debug!(
1451 "rpc request start. client_id:{}. name:{}",
1452 client_id,
1453 T::NAME
1454 );
1455 let response = self
1456 .connection_id()
1457 .map(|conn_id| self.peer.request_stream(conn_id, request));
1458 async move {
1459 let response = response?.await;
1460 log::debug!(
1461 "rpc request finish. client_id:{}. name:{}",
1462 client_id,
1463 T::NAME
1464 );
1465 response
1466 }
1467 }
1468
1469 pub fn request_envelope<T: RequestMessage>(
1470 &self,
1471 request: T,
1472 ) -> impl Future<Output = Result<TypedEnvelope<T::Response>>> {
1473 let client_id = self.id();
1474 log::debug!(
1475 "rpc request start. client_id:{}. name:{}",
1476 client_id,
1477 T::NAME
1478 );
1479 let response = self
1480 .connection_id()
1481 .map(|conn_id| self.peer.request_envelope(conn_id, request));
1482 async move {
1483 let response = response?.await;
1484 log::debug!(
1485 "rpc request finish. client_id:{}. name:{}",
1486 client_id,
1487 T::NAME
1488 );
1489 response
1490 }
1491 }
1492
1493 pub fn request_dynamic(
1494 &self,
1495 envelope: proto::Envelope,
1496 request_type: &'static str,
1497 ) -> impl Future<Output = Result<proto::Envelope>> {
1498 let client_id = self.id();
1499 log::debug!(
1500 "rpc request start. client_id:{}. name:{}",
1501 client_id,
1502 request_type
1503 );
1504 let response = self
1505 .connection_id()
1506 .map(|conn_id| self.peer.request_dynamic(conn_id, envelope, request_type));
1507 async move {
1508 let response = response?.await;
1509 log::debug!(
1510 "rpc request finish. client_id:{}. name:{}",
1511 client_id,
1512 request_type
1513 );
1514 Ok(response?.0)
1515 }
1516 }
1517
1518 fn handle_message(self: &Arc<Client>, message: Box<dyn AnyTypedEnvelope>, cx: &AsyncApp) {
1519 let sender_id = message.sender_id();
1520 let request_id = message.message_id();
1521 let type_name = message.payload_type_name();
1522 let original_sender_id = message.original_sender_id();
1523
1524 if let Some(future) = ProtoMessageHandlerSet::handle_message(
1525 &self.handler_set,
1526 message,
1527 self.clone().into(),
1528 cx.clone(),
1529 ) {
1530 let client_id = self.id();
1531 log::debug!(
1532 "rpc message received. client_id:{}, sender_id:{:?}, type:{}",
1533 client_id,
1534 original_sender_id,
1535 type_name
1536 );
1537 cx.spawn(move |_| async move {
1538 match future.await {
1539 Ok(()) => {
1540 log::debug!(
1541 "rpc message handled. client_id:{}, sender_id:{:?}, type:{}",
1542 client_id,
1543 original_sender_id,
1544 type_name
1545 );
1546 }
1547 Err(error) => {
1548 log::error!(
1549 "error handling message. client_id:{}, sender_id:{:?}, type:{}, error:{:?}",
1550 client_id,
1551 original_sender_id,
1552 type_name,
1553 error
1554 );
1555 }
1556 }
1557 })
1558 .detach();
1559 } else {
1560 log::info!("unhandled message {}", type_name);
1561 self.peer
1562 .respond_with_unhandled_message(sender_id.into(), request_id, type_name)
1563 .log_err();
1564 }
1565 }
1566
1567 pub fn telemetry(&self) -> &Arc<Telemetry> {
1568 &self.telemetry
1569 }
1570}
1571
1572impl ProtoClient for Client {
1573 fn request(
1574 &self,
1575 envelope: proto::Envelope,
1576 request_type: &'static str,
1577 ) -> BoxFuture<'static, Result<proto::Envelope>> {
1578 self.request_dynamic(envelope, request_type).boxed()
1579 }
1580
1581 fn send(&self, envelope: proto::Envelope, message_type: &'static str) -> Result<()> {
1582 log::debug!("rpc send. client_id:{}, name:{}", self.id(), message_type);
1583 let connection_id = self.connection_id()?;
1584 self.peer.send_dynamic(connection_id, envelope)
1585 }
1586
1587 fn send_response(&self, envelope: proto::Envelope, message_type: &'static str) -> Result<()> {
1588 log::debug!(
1589 "rpc respond. client_id:{}, name:{}",
1590 self.id(),
1591 message_type
1592 );
1593 let connection_id = self.connection_id()?;
1594 self.peer.send_dynamic(connection_id, envelope)
1595 }
1596
1597 fn message_handler_set(&self) -> &parking_lot::Mutex<ProtoMessageHandlerSet> {
1598 &self.handler_set
1599 }
1600
1601 fn is_via_collab(&self) -> bool {
1602 true
1603 }
1604}
1605
1606#[derive(Serialize, Deserialize)]
1607struct DevelopmentCredentials {
1608 user_id: u64,
1609 access_token: String,
1610}
1611
1612/// A credentials provider that stores credentials in a local file.
1613///
1614/// This MUST only be used in development, as this is not a secure way of storing
1615/// credentials on user machines.
1616///
1617/// Its existence is purely to work around the annoyance of having to constantly
1618/// re-allow access to the system keychain when developing Zed.
1619struct DevelopmentCredentialsProvider {
1620 path: PathBuf,
1621}
1622
1623impl CredentialsProvider for DevelopmentCredentialsProvider {
1624 fn read_credentials<'a>(
1625 &'a self,
1626 _cx: &'a AsyncApp,
1627 ) -> Pin<Box<dyn Future<Output = Option<Credentials>> + 'a>> {
1628 async move {
1629 if IMPERSONATE_LOGIN.is_some() {
1630 return None;
1631 }
1632
1633 let json = std::fs::read(&self.path).log_err()?;
1634
1635 let credentials: DevelopmentCredentials = serde_json::from_slice(&json).log_err()?;
1636
1637 Some(Credentials {
1638 user_id: credentials.user_id,
1639 access_token: credentials.access_token,
1640 })
1641 }
1642 .boxed_local()
1643 }
1644
1645 fn write_credentials<'a>(
1646 &'a self,
1647 user_id: u64,
1648 access_token: String,
1649 _cx: &'a AsyncApp,
1650 ) -> Pin<Box<dyn Future<Output = Result<()>> + 'a>> {
1651 async move {
1652 let json = serde_json::to_string(&DevelopmentCredentials {
1653 user_id,
1654 access_token,
1655 })?;
1656
1657 std::fs::write(&self.path, json)?;
1658
1659 Ok(())
1660 }
1661 .boxed_local()
1662 }
1663
1664 fn delete_credentials<'a>(
1665 &'a self,
1666 _cx: &'a AsyncApp,
1667 ) -> Pin<Box<dyn Future<Output = Result<()>> + 'a>> {
1668 async move { Ok(std::fs::remove_file(&self.path)?) }.boxed_local()
1669 }
1670}
1671
1672/// A credentials provider that stores credentials in the system keychain.
1673struct KeychainCredentialsProvider;
1674
1675impl CredentialsProvider for KeychainCredentialsProvider {
1676 fn read_credentials<'a>(
1677 &'a self,
1678 cx: &'a AsyncApp,
1679 ) -> Pin<Box<dyn Future<Output = Option<Credentials>> + 'a>> {
1680 async move {
1681 if IMPERSONATE_LOGIN.is_some() {
1682 return None;
1683 }
1684
1685 let (user_id, access_token) = cx
1686 .update(|cx| cx.read_credentials(&ClientSettings::get_global(cx).server_url))
1687 .log_err()?
1688 .await
1689 .log_err()??;
1690
1691 Some(Credentials {
1692 user_id: user_id.parse().ok()?,
1693 access_token: String::from_utf8(access_token).ok()?,
1694 })
1695 }
1696 .boxed_local()
1697 }
1698
1699 fn write_credentials<'a>(
1700 &'a self,
1701 user_id: u64,
1702 access_token: String,
1703 cx: &'a AsyncApp,
1704 ) -> Pin<Box<dyn Future<Output = Result<()>> + 'a>> {
1705 async move {
1706 cx.update(move |cx| {
1707 cx.write_credentials(
1708 &ClientSettings::get_global(cx).server_url,
1709 &user_id.to_string(),
1710 access_token.as_bytes(),
1711 )
1712 })?
1713 .await
1714 }
1715 .boxed_local()
1716 }
1717
1718 fn delete_credentials<'a>(
1719 &'a self,
1720 cx: &'a AsyncApp,
1721 ) -> Pin<Box<dyn Future<Output = Result<()>> + 'a>> {
1722 async move {
1723 cx.update(move |cx| cx.delete_credentials(&ClientSettings::get_global(cx).server_url))?
1724 .await
1725 }
1726 .boxed_local()
1727 }
1728}
1729
1730/// prefix for the zed:// url scheme
1731pub const ZED_URL_SCHEME: &str = "zed";
1732
1733/// Parses the given link into a Zed link.
1734///
1735/// Returns a [`Some`] containing the unprefixed link if the link is a Zed link.
1736/// Returns [`None`] otherwise.
1737pub fn parse_zed_link<'a>(link: &'a str, cx: &App) -> Option<&'a str> {
1738 let server_url = &ClientSettings::get_global(cx).server_url;
1739 if let Some(stripped) = link
1740 .strip_prefix(server_url)
1741 .and_then(|result| result.strip_prefix('/'))
1742 {
1743 return Some(stripped);
1744 }
1745 if let Some(stripped) = link
1746 .strip_prefix(ZED_URL_SCHEME)
1747 .and_then(|result| result.strip_prefix("://"))
1748 {
1749 return Some(stripped);
1750 }
1751
1752 None
1753}
1754
1755#[cfg(test)]
1756mod tests {
1757 use super::*;
1758 use crate::test::FakeServer;
1759
1760 use clock::FakeSystemClock;
1761 use gpui::{AppContext as _, BackgroundExecutor, TestAppContext};
1762 use http_client::FakeHttpClient;
1763 use parking_lot::Mutex;
1764 use proto::TypedEnvelope;
1765 use settings::SettingsStore;
1766 use std::future;
1767
1768 #[gpui::test(iterations = 10)]
1769 async fn test_reconnection(cx: &mut TestAppContext) {
1770 init_test(cx);
1771 let user_id = 5;
1772 let client = cx.update(|cx| {
1773 Client::new(
1774 Arc::new(FakeSystemClock::new()),
1775 FakeHttpClient::with_404_response(),
1776 cx,
1777 )
1778 });
1779 let server = FakeServer::for_client(user_id, &client, cx).await;
1780 let mut status = client.status();
1781 assert!(matches!(
1782 status.next().await,
1783 Some(Status::Connected { .. })
1784 ));
1785 assert_eq!(server.auth_count(), 1);
1786
1787 server.forbid_connections();
1788 server.disconnect();
1789 while !matches!(status.next().await, Some(Status::ReconnectionError { .. })) {}
1790
1791 server.allow_connections();
1792 cx.executor().advance_clock(Duration::from_secs(10));
1793 while !matches!(status.next().await, Some(Status::Connected { .. })) {}
1794 assert_eq!(server.auth_count(), 1); // Client reused the cached credentials when reconnecting
1795
1796 server.forbid_connections();
1797 server.disconnect();
1798 while !matches!(status.next().await, Some(Status::ReconnectionError { .. })) {}
1799
1800 // Clear cached credentials after authentication fails
1801 server.roll_access_token();
1802 server.allow_connections();
1803 cx.executor().run_until_parked();
1804 cx.executor().advance_clock(Duration::from_secs(10));
1805 while !matches!(status.next().await, Some(Status::Connected { .. })) {}
1806 assert_eq!(server.auth_count(), 2); // Client re-authenticated due to an invalid token
1807 }
1808
1809 #[gpui::test(iterations = 10)]
1810 async fn test_connection_timeout(executor: BackgroundExecutor, cx: &mut TestAppContext) {
1811 init_test(cx);
1812 let user_id = 5;
1813 let client = cx.update(|cx| {
1814 Client::new(
1815 Arc::new(FakeSystemClock::new()),
1816 FakeHttpClient::with_404_response(),
1817 cx,
1818 )
1819 });
1820 let mut status = client.status();
1821
1822 // Time out when client tries to connect.
1823 client.override_authenticate(move |cx| {
1824 cx.background_executor().spawn(async move {
1825 Ok(Credentials {
1826 user_id,
1827 access_token: "token".into(),
1828 })
1829 })
1830 });
1831 client.override_establish_connection(|_, cx| {
1832 cx.background_executor().spawn(async move {
1833 future::pending::<()>().await;
1834 unreachable!()
1835 })
1836 });
1837 let auth_and_connect = cx.spawn({
1838 let client = client.clone();
1839 |cx| async move { client.authenticate_and_connect(false, &cx).await }
1840 });
1841 executor.run_until_parked();
1842 assert!(matches!(status.next().await, Some(Status::Connecting)));
1843
1844 executor.advance_clock(CONNECTION_TIMEOUT);
1845 assert!(matches!(
1846 status.next().await,
1847 Some(Status::ConnectionError { .. })
1848 ));
1849 auth_and_connect.await.unwrap_err();
1850
1851 // Allow the connection to be established.
1852 let server = FakeServer::for_client(user_id, &client, cx).await;
1853 assert!(matches!(
1854 status.next().await,
1855 Some(Status::Connected { .. })
1856 ));
1857
1858 // Disconnect client.
1859 server.forbid_connections();
1860 server.disconnect();
1861 while !matches!(status.next().await, Some(Status::ReconnectionError { .. })) {}
1862
1863 // Time out when re-establishing the connection.
1864 server.allow_connections();
1865 client.override_establish_connection(|_, cx| {
1866 cx.background_executor().spawn(async move {
1867 future::pending::<()>().await;
1868 unreachable!()
1869 })
1870 });
1871 executor.advance_clock(2 * INITIAL_RECONNECTION_DELAY);
1872 assert!(matches!(
1873 status.next().await,
1874 Some(Status::Reconnecting { .. })
1875 ));
1876
1877 executor.advance_clock(CONNECTION_TIMEOUT);
1878 assert!(matches!(
1879 status.next().await,
1880 Some(Status::ReconnectionError { .. })
1881 ));
1882 }
1883
1884 #[gpui::test(iterations = 10)]
1885 async fn test_authenticating_more_than_once(
1886 cx: &mut TestAppContext,
1887 executor: BackgroundExecutor,
1888 ) {
1889 init_test(cx);
1890 let auth_count = Arc::new(Mutex::new(0));
1891 let dropped_auth_count = Arc::new(Mutex::new(0));
1892 let client = cx.update(|cx| {
1893 Client::new(
1894 Arc::new(FakeSystemClock::new()),
1895 FakeHttpClient::with_404_response(),
1896 cx,
1897 )
1898 });
1899 client.override_authenticate({
1900 let auth_count = auth_count.clone();
1901 let dropped_auth_count = dropped_auth_count.clone();
1902 move |cx| {
1903 let auth_count = auth_count.clone();
1904 let dropped_auth_count = dropped_auth_count.clone();
1905 cx.background_executor().spawn(async move {
1906 *auth_count.lock() += 1;
1907 let _drop = util::defer(move || *dropped_auth_count.lock() += 1);
1908 future::pending::<()>().await;
1909 unreachable!()
1910 })
1911 }
1912 });
1913
1914 let _authenticate = cx.spawn({
1915 let client = client.clone();
1916 move |cx| async move { client.authenticate_and_connect(false, &cx).await }
1917 });
1918 executor.run_until_parked();
1919 assert_eq!(*auth_count.lock(), 1);
1920 assert_eq!(*dropped_auth_count.lock(), 0);
1921
1922 let _authenticate = cx.spawn({
1923 let client = client.clone();
1924 |cx| async move { client.authenticate_and_connect(false, &cx).await }
1925 });
1926 executor.run_until_parked();
1927 assert_eq!(*auth_count.lock(), 2);
1928 assert_eq!(*dropped_auth_count.lock(), 1);
1929 }
1930
1931 #[gpui::test]
1932 async fn test_subscribing_to_entity(cx: &mut TestAppContext) {
1933 init_test(cx);
1934 let user_id = 5;
1935 let client = cx.update(|cx| {
1936 Client::new(
1937 Arc::new(FakeSystemClock::new()),
1938 FakeHttpClient::with_404_response(),
1939 cx,
1940 )
1941 });
1942 let server = FakeServer::for_client(user_id, &client, cx).await;
1943
1944 let (done_tx1, done_rx1) = smol::channel::unbounded();
1945 let (done_tx2, done_rx2) = smol::channel::unbounded();
1946 AnyProtoClient::from(client.clone()).add_entity_message_handler(
1947 move |entity: Entity<TestEntity>, _: TypedEnvelope<proto::JoinProject>, mut cx| {
1948 match entity.update(&mut cx, |entity, _| entity.id).unwrap() {
1949 1 => done_tx1.try_send(()).unwrap(),
1950 2 => done_tx2.try_send(()).unwrap(),
1951 _ => unreachable!(),
1952 }
1953 async { Ok(()) }
1954 },
1955 );
1956 let entity1 = cx.new(|_| TestEntity {
1957 id: 1,
1958 subscription: None,
1959 });
1960 let entity2 = cx.new(|_| TestEntity {
1961 id: 2,
1962 subscription: None,
1963 });
1964 let entity3 = cx.new(|_| TestEntity {
1965 id: 3,
1966 subscription: None,
1967 });
1968
1969 let _subscription1 = client
1970 .subscribe_to_entity(1)
1971 .unwrap()
1972 .set_entity(&entity1, &mut cx.to_async());
1973 let _subscription2 = client
1974 .subscribe_to_entity(2)
1975 .unwrap()
1976 .set_entity(&entity2, &mut cx.to_async());
1977 // Ensure dropping a subscription for the same entity type still allows receiving of
1978 // messages for other entity IDs of the same type.
1979 let subscription3 = client
1980 .subscribe_to_entity(3)
1981 .unwrap()
1982 .set_entity(&entity3, &mut cx.to_async());
1983 drop(subscription3);
1984
1985 server.send(proto::JoinProject { project_id: 1 });
1986 server.send(proto::JoinProject { project_id: 2 });
1987 done_rx1.recv().await.unwrap();
1988 done_rx2.recv().await.unwrap();
1989 }
1990
1991 #[gpui::test]
1992 async fn test_subscribing_after_dropping_subscription(cx: &mut TestAppContext) {
1993 init_test(cx);
1994 let user_id = 5;
1995 let client = cx.update(|cx| {
1996 Client::new(
1997 Arc::new(FakeSystemClock::new()),
1998 FakeHttpClient::with_404_response(),
1999 cx,
2000 )
2001 });
2002 let server = FakeServer::for_client(user_id, &client, cx).await;
2003
2004 let entity = cx.new(|_| TestEntity::default());
2005 let (done_tx1, _done_rx1) = smol::channel::unbounded();
2006 let (done_tx2, done_rx2) = smol::channel::unbounded();
2007 let subscription1 = client.add_message_handler(
2008 entity.downgrade(),
2009 move |_, _: TypedEnvelope<proto::Ping>, _| {
2010 done_tx1.try_send(()).unwrap();
2011 async { Ok(()) }
2012 },
2013 );
2014 drop(subscription1);
2015 let _subscription2 = client.add_message_handler(
2016 entity.downgrade(),
2017 move |_, _: TypedEnvelope<proto::Ping>, _| {
2018 done_tx2.try_send(()).unwrap();
2019 async { Ok(()) }
2020 },
2021 );
2022 server.send(proto::Ping {});
2023 done_rx2.recv().await.unwrap();
2024 }
2025
2026 #[gpui::test]
2027 async fn test_dropping_subscription_in_handler(cx: &mut TestAppContext) {
2028 init_test(cx);
2029 let user_id = 5;
2030 let client = cx.update(|cx| {
2031 Client::new(
2032 Arc::new(FakeSystemClock::new()),
2033 FakeHttpClient::with_404_response(),
2034 cx,
2035 )
2036 });
2037 let server = FakeServer::for_client(user_id, &client, cx).await;
2038
2039 let entity = cx.new(|_| TestEntity::default());
2040 let (done_tx, done_rx) = smol::channel::unbounded();
2041 let subscription = client.add_message_handler(
2042 entity.clone().downgrade(),
2043 move |entity: Entity<TestEntity>, _: TypedEnvelope<proto::Ping>, mut cx| {
2044 entity
2045 .update(&mut cx, |entity, _| entity.subscription.take())
2046 .unwrap();
2047 done_tx.try_send(()).unwrap();
2048 async { Ok(()) }
2049 },
2050 );
2051 entity.update(cx, |entity, _| {
2052 entity.subscription = Some(subscription);
2053 });
2054 server.send(proto::Ping {});
2055 done_rx.recv().await.unwrap();
2056 }
2057
2058 #[derive(Default)]
2059 struct TestEntity {
2060 id: usize,
2061 subscription: Option<Subscription>,
2062 }
2063
2064 fn init_test(cx: &mut TestAppContext) {
2065 cx.update(|cx| {
2066 let settings_store = SettingsStore::test(cx);
2067 cx.set_global(settings_store);
2068 init_settings(cx);
2069 });
2070 }
2071}