pub mod call_settings; pub mod participant; pub mod room; use anyhow::{anyhow, Result}; use audio::Audio; use call_settings::CallSettings; use client::{proto, Client, TypedEnvelope, User, UserStore, ZED_ALWAYS_ACTIVE}; use collections::HashSet; use futures::{channel::oneshot, future::Shared, Future, FutureExt}; use gpui::{ AppContext, AsyncAppContext, Context, EventEmitter, Model, ModelContext, Subscription, Task, WeakModel, }; use postage::watch; use project::Project; use room::Event; use settings::Settings; use std::sync::Arc; pub use participant::ParticipantLocation; pub use room::Room; pub fn init(client: Arc, user_store: Model, cx: &mut AppContext) { CallSettings::register(cx); let active_call = cx.new_model(|cx| ActiveCall::new(client, user_store, cx)); cx.set_global(active_call); } pub struct OneAtATime { cancel: Option>, } impl OneAtATime { /// spawn a task in the given context. /// if another task is spawned before that resolves, or if the OneAtATime itself is dropped, the first task will be cancelled and return Ok(None) /// otherwise you'll see the result of the task. fn spawn(&mut self, cx: &mut AppContext, f: F) -> Task>> where F: 'static + FnOnce(AsyncAppContext) -> Fut, Fut: Future>, R: 'static, { let (tx, rx) = oneshot::channel(); self.cancel.replace(tx); cx.spawn(|cx| async move { futures::select_biased! { _ = rx.fuse() => Ok(None), result = f(cx).fuse() => result.map(Some), } }) } fn running(&self) -> bool { self.cancel .as_ref() .is_some_and(|cancel| !cancel.is_canceled()) } } #[derive(Clone)] pub struct IncomingCall { pub room_id: u64, pub calling_user: Arc, pub participants: Vec>, pub initial_project: Option, } /// Singleton global maintaining the user's participation in a room across workspaces. pub struct ActiveCall { room: Option<(Model, Vec)>, pending_room_creation: Option, Arc>>>>, location: Option>, _join_debouncer: OneAtATime, pending_invites: HashSet, incoming_call: ( watch::Sender>, watch::Receiver>, ), client: Arc, user_store: Model, _subscriptions: Vec, } impl EventEmitter for ActiveCall {} impl ActiveCall { fn new(client: Arc, user_store: Model, cx: &mut ModelContext) -> Self { Self { room: None, pending_room_creation: None, location: None, pending_invites: Default::default(), incoming_call: watch::channel(), _join_debouncer: OneAtATime { cancel: None }, _subscriptions: vec![ client.add_request_handler(cx.weak_model(), Self::handle_incoming_call), client.add_message_handler(cx.weak_model(), Self::handle_call_canceled), ], client, user_store, } } pub fn channel_id(&self, cx: &AppContext) -> Option { self.room()?.read(cx).channel_id() } async fn handle_incoming_call( this: Model, envelope: TypedEnvelope, _: Arc, mut cx: AsyncAppContext, ) -> Result { let user_store = this.update(&mut cx, |this, _| this.user_store.clone())?; let call = IncomingCall { room_id: envelope.payload.room_id, participants: user_store .update(&mut cx, |user_store, cx| { user_store.get_users(envelope.payload.participant_user_ids, cx) })? .await?, calling_user: user_store .update(&mut cx, |user_store, cx| { user_store.get_user(envelope.payload.calling_user_id, cx) })? .await?, initial_project: envelope.payload.initial_project, }; this.update(&mut cx, |this, _| { *this.incoming_call.0.borrow_mut() = Some(call); })?; Ok(proto::Ack {}) } async fn handle_call_canceled( this: Model, envelope: TypedEnvelope, _: Arc, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |this, _| { let mut incoming_call = this.incoming_call.0.borrow_mut(); if incoming_call .as_ref() .map_or(false, |call| call.room_id == envelope.payload.room_id) { incoming_call.take(); } })?; Ok(()) } pub fn global(cx: &AppContext) -> Model { cx.global::>().clone() } pub fn invite( &mut self, called_user_id: u64, initial_project: Option>, cx: &mut ModelContext, ) -> Task> { if !self.pending_invites.insert(called_user_id) { return Task::ready(Err(anyhow!("user was already invited"))); } cx.notify(); if self._join_debouncer.running() { return Task::ready(Ok(())); } let room = if let Some(room) = self.room().cloned() { Some(Task::ready(Ok(room)).shared()) } else { self.pending_room_creation.clone() }; let invite = if let Some(room) = room { cx.spawn(move |_, mut cx| async move { let room = room.await.map_err(|err| anyhow!("{:?}", err))?; let initial_project_id = if let Some(initial_project) = initial_project { Some( room.update(&mut cx, |room, cx| room.share_project(initial_project, cx))? .await?, ) } else { None }; room.update(&mut cx, move |room, cx| { room.call(called_user_id, initial_project_id, cx) })? .await?; anyhow::Ok(()) }) } else { let client = self.client.clone(); let user_store = self.user_store.clone(); let room = cx .spawn(move |this, mut cx| async move { let create_room = async { let room = cx .update(|cx| { Room::create( called_user_id, initial_project, client, user_store, cx, ) })? .await?; this.update(&mut cx, |this, cx| this.set_room(Some(room.clone()), cx))? .await?; anyhow::Ok(room) }; let room = create_room.await; this.update(&mut cx, |this, _| this.pending_room_creation = None)?; room.map_err(Arc::new) }) .shared(); self.pending_room_creation = Some(room.clone()); cx.background_executor().spawn(async move { room.await.map_err(|err| anyhow!("{:?}", err))?; anyhow::Ok(()) }) }; cx.spawn(move |this, mut cx| async move { let result = invite.await; if result.is_ok() { this.update(&mut cx, |this, cx| this.report_call_event("invite", cx))?; } else { //TODO: report collaboration error log::error!("invite failed: {:?}", result); } this.update(&mut cx, |this, cx| { this.pending_invites.remove(&called_user_id); cx.notify(); })?; result }) } pub fn cancel_invite( &mut self, called_user_id: u64, cx: &mut ModelContext, ) -> Task> { let room_id = if let Some(room) = self.room() { room.read(cx).id() } else { return Task::ready(Err(anyhow!("no active call"))); }; let client = self.client.clone(); cx.background_executor().spawn(async move { client .request(proto::CancelCall { room_id, called_user_id, }) .await?; anyhow::Ok(()) }) } pub fn incoming(&self) -> watch::Receiver> { self.incoming_call.1.clone() } pub fn accept_incoming(&mut self, cx: &mut ModelContext) -> Task> { if self.room.is_some() { return Task::ready(Err(anyhow!("cannot join while on another call"))); } let call = if let Some(call) = self.incoming_call.0.borrow_mut().take() { call } else { return Task::ready(Err(anyhow!("no incoming call"))); }; if self.pending_room_creation.is_some() { return Task::ready(Ok(())); } let room_id = call.room_id.clone(); let client = self.client.clone(); let user_store = self.user_store.clone(); let join = self ._join_debouncer .spawn(cx, move |cx| Room::join(room_id, client, user_store, cx)); cx.spawn(|this, mut cx| async move { let room = join.await?; this.update(&mut cx, |this, cx| this.set_room(room.clone(), cx))? .await?; this.update(&mut cx, |this, cx| { this.report_call_event("accept incoming", cx) })?; Ok(()) }) } pub fn decline_incoming(&mut self, _: &mut ModelContext) -> Result<()> { let call = self .incoming_call .0 .borrow_mut() .take() .ok_or_else(|| anyhow!("no incoming call"))?; report_call_event_for_room("decline incoming", call.room_id, None, &self.client); self.client.send(proto::DeclineCall { room_id: call.room_id, })?; Ok(()) } pub fn join_channel( &mut self, channel_id: u64, cx: &mut ModelContext, ) -> Task>>> { if let Some(room) = self.room().cloned() { if room.read(cx).channel_id() == Some(channel_id) { return Task::ready(Ok(Some(room))); } else { room.update(cx, |room, cx| room.clear_state(cx)); } } if self.pending_room_creation.is_some() { return Task::ready(Ok(None)); } let client = self.client.clone(); let user_store = self.user_store.clone(); let join = self._join_debouncer.spawn(cx, move |cx| async move { Room::join_channel(channel_id, client, user_store, cx).await }); cx.spawn(|this, mut cx| async move { let room = join.await?; this.update(&mut cx, |this, cx| this.set_room(room.clone(), cx))? .await?; this.update(&mut cx, |this, cx| { this.report_call_event("join channel", cx) })?; Ok(room) }) } pub fn hang_up(&mut self, cx: &mut ModelContext) -> Task> { cx.notify(); self.report_call_event("hang up", cx); Audio::end_call(cx); if let Some((room, _)) = self.room.take() { room.update(cx, |room, cx| room.leave(cx)) } else { Task::ready(Ok(())) } } pub fn share_project( &mut self, project: Model, cx: &mut ModelContext, ) -> Task> { if let Some((room, _)) = self.room.as_ref() { self.report_call_event("share project", cx); room.update(cx, |room, cx| room.share_project(project, cx)) } else { Task::ready(Err(anyhow!("no active call"))) } } pub fn unshare_project( &mut self, project: Model, cx: &mut ModelContext, ) -> Result<()> { if let Some((room, _)) = self.room.as_ref() { self.report_call_event("unshare project", cx); room.update(cx, |room, cx| room.unshare_project(project, cx)) } else { Err(anyhow!("no active call")) } } pub fn location(&self) -> Option<&WeakModel> { self.location.as_ref() } pub fn set_location( &mut self, project: Option<&Model>, cx: &mut ModelContext, ) -> Task> { if project.is_some() || !*ZED_ALWAYS_ACTIVE { self.location = project.map(|project| project.downgrade()); if let Some((room, _)) = self.room.as_ref() { return room.update(cx, |room, cx| room.set_location(project, cx)); } } Task::ready(Ok(())) } fn set_room( &mut self, room: Option>, cx: &mut ModelContext, ) -> Task> { if room.as_ref() != self.room.as_ref().map(|room| &room.0) { cx.notify(); if let Some(room) = room { if room.read(cx).status().is_offline() { self.room = None; Task::ready(Ok(())) } else { let subscriptions = vec![ cx.observe(&room, |this, room, cx| { if room.read(cx).status().is_offline() { this.set_room(None, cx).detach_and_log_err(cx); } cx.notify(); }), cx.subscribe(&room, |_, _, event, cx| cx.emit(event.clone())), ]; self.room = Some((room.clone(), subscriptions)); let location = self .location .as_ref() .and_then(|location| location.upgrade()); let channel_id = room.read(cx).channel_id(); cx.emit(Event::RoomJoined { channel_id }); room.update(cx, |room, cx| room.set_location(location.as_ref(), cx)) } } else { self.room = None; Task::ready(Ok(())) } } else { Task::ready(Ok(())) } } pub fn room(&self) -> Option<&Model> { self.room.as_ref().map(|(room, _)| room) } pub fn client(&self) -> Arc { self.client.clone() } pub fn pending_invites(&self) -> &HashSet { &self.pending_invites } pub fn report_call_event(&self, operation: &'static str, cx: &mut AppContext) { if let Some(room) = self.room() { let room = room.read(cx); report_call_event_for_room(operation, room.id(), room.channel_id(), &self.client); } } } pub fn report_call_event_for_room( operation: &'static str, room_id: u64, channel_id: Option, client: &Arc, ) { let telemetry = client.telemetry(); telemetry.report_call_event(operation, Some(room_id), channel_id) } pub fn report_call_event_for_channel( operation: &'static str, channel_id: u64, client: &Arc, cx: &AppContext, ) { let room = ActiveCall::global(cx).read(cx).room(); let telemetry = client.telemetry(); telemetry.report_call_event(operation, room.map(|r| r.read(cx).id()), Some(channel_id)) } #[cfg(test)] mod test { use gpui::TestAppContext; use crate::OneAtATime; #[gpui::test] async fn test_one_at_a_time(cx: &mut TestAppContext) { let mut one_at_a_time = OneAtATime { cancel: None }; assert_eq!( cx.update(|cx| one_at_a_time.spawn(cx, |_| async { Ok(1) })) .await .unwrap(), Some(1) ); let (a, b) = cx.update(|cx| { ( one_at_a_time.spawn(cx, |_| async { assert!(false); Ok(2) }), one_at_a_time.spawn(cx, |_| async { Ok(3) }), ) }); assert_eq!(a.await.unwrap(), None); assert_eq!(b.await.unwrap(), Some(3)); let promise = cx.update(|cx| one_at_a_time.spawn(cx, |_| async { Ok(4) })); drop(one_at_a_time); assert_eq!(promise.await.unwrap(), None); } }