use crate::{ ProjectItem as _, ProjectPath, lsp_store::OpenLspBufferHandle, search::SearchQuery, worktree_store::{WorktreeStore, WorktreeStoreEvent}, }; use anyhow::{Context as _, Result, anyhow}; use client::Client; use collections::{HashMap, HashSet, hash_map}; use fs::Fs; use futures::{Future, FutureExt as _, StreamExt, channel::oneshot, future::Shared}; use gpui::{ App, AppContext as _, AsyncApp, Context, Entity, EventEmitter, Subscription, Task, WeakEntity, }; use language::{ Buffer, BufferEvent, Capability, DiskState, File as _, Language, Operation, proto::{ deserialize_line_ending, deserialize_version, serialize_line_ending, serialize_version, split_operations, }, }; use rpc::{ AnyProtoClient, ErrorExt as _, TypedEnvelope, proto::{self, ToProto}, }; use smol::channel::Receiver; use std::{io, path::Path, pin::pin, sync::Arc, time::Instant}; use text::BufferId; use util::{ResultExt as _, TryFutureExt, debug_panic, maybe}; use worktree::{File, PathChange, ProjectEntryId, Worktree, WorktreeId}; /// A set of open buffers. pub struct BufferStore { state: BufferStoreState, #[allow(clippy::type_complexity)] loading_buffers: HashMap, Arc>>>>, worktree_store: Entity, opened_buffers: HashMap, path_to_buffer_id: HashMap, downstream_client: Option<(AnyProtoClient, u64)>, shared_buffers: HashMap>, } #[derive(Hash, Eq, PartialEq, Clone)] struct SharedBuffer { buffer: Entity, lsp_handle: Option, } enum BufferStoreState { Local(LocalBufferStore), Remote(RemoteBufferStore), } struct RemoteBufferStore { shared_with_me: HashSet>, upstream_client: AnyProtoClient, project_id: u64, loading_remote_buffers_by_id: HashMap>, remote_buffer_listeners: HashMap>>>>, worktree_store: Entity, } struct LocalBufferStore { local_buffer_ids_by_entry_id: HashMap, worktree_store: Entity, _subscription: Subscription, } enum OpenBuffer { Complete { buffer: WeakEntity }, Operations(Vec), } pub enum BufferStoreEvent { BufferAdded(Entity), BufferOpened { buffer: Entity, project_path: ProjectPath, }, SharedBufferClosed(proto::PeerId, BufferId), BufferDropped(BufferId), BufferChangedFilePath { buffer: Entity, old_file: Option>, }, } #[derive(Default, Debug)] pub struct ProjectTransaction(pub HashMap, language::Transaction>); impl EventEmitter for BufferStore {} impl RemoteBufferStore { pub fn wait_for_remote_buffer( &mut self, id: BufferId, cx: &mut Context, ) -> Task>> { let (tx, rx) = oneshot::channel(); self.remote_buffer_listeners.entry(id).or_default().push(tx); cx.spawn(async move |this, cx| { if let Some(buffer) = this .read_with(cx, |buffer_store, _| buffer_store.get(id)) .ok() .flatten() { return Ok(buffer); } cx.background_spawn(async move { rx.await? }).await }) } fn save_remote_buffer( &self, buffer_handle: Entity, new_path: Option, cx: &Context, ) -> Task> { let buffer = buffer_handle.read(cx); let buffer_id = buffer.remote_id().into(); let version = buffer.version(); let rpc = self.upstream_client.clone(); let project_id = self.project_id; cx.spawn(async move |_, cx| { let response = rpc .request(proto::SaveBuffer { project_id, buffer_id, new_path, version: serialize_version(&version), }) .await?; let version = deserialize_version(&response.version); let mtime = response.mtime.map(|mtime| mtime.into()); buffer_handle.update(cx, |buffer, cx| { buffer.did_save(version.clone(), mtime, cx); })?; Ok(()) }) } pub fn handle_create_buffer_for_peer( &mut self, envelope: TypedEnvelope, replica_id: u16, capability: Capability, cx: &mut Context, ) -> Result>> { match envelope.payload.variant.context("missing variant")? { proto::create_buffer_for_peer::Variant::State(mut state) => { let buffer_id = BufferId::new(state.id)?; let buffer_result = maybe!({ let mut buffer_file = None; if let Some(file) = state.file.take() { let worktree_id = worktree::WorktreeId::from_proto(file.worktree_id); let worktree = self .worktree_store .read(cx) .worktree_for_id(worktree_id, cx) .with_context(|| { format!("no worktree found for id {}", file.worktree_id) })?; buffer_file = Some(Arc::new(File::from_proto(file, worktree.clone(), cx)?) as Arc); } Buffer::from_proto(replica_id, capability, state, buffer_file) }); match buffer_result { Ok(buffer) => { let buffer = cx.new(|_| buffer); self.loading_remote_buffers_by_id.insert(buffer_id, buffer); } Err(error) => { if let Some(listeners) = self.remote_buffer_listeners.remove(&buffer_id) { for listener in listeners { listener.send(Err(anyhow!(error.cloned()))).ok(); } } } } } proto::create_buffer_for_peer::Variant::Chunk(chunk) => { let buffer_id = BufferId::new(chunk.buffer_id)?; let buffer = self .loading_remote_buffers_by_id .get(&buffer_id) .cloned() .with_context(|| { format!( "received chunk for buffer {} without initial state", chunk.buffer_id ) })?; let result = maybe!({ let operations = chunk .operations .into_iter() .map(language::proto::deserialize_operation) .collect::>>()?; buffer.update(cx, |buffer, cx| buffer.apply_ops(operations, cx)); anyhow::Ok(()) }); if let Err(error) = result { self.loading_remote_buffers_by_id.remove(&buffer_id); if let Some(listeners) = self.remote_buffer_listeners.remove(&buffer_id) { for listener in listeners { listener.send(Err(error.cloned())).ok(); } } } else if chunk.is_last { self.loading_remote_buffers_by_id.remove(&buffer_id); if self.upstream_client.is_via_collab() { // retain buffers sent by peers to avoid races. self.shared_with_me.insert(buffer.clone()); } if let Some(senders) = self.remote_buffer_listeners.remove(&buffer_id) { for sender in senders { sender.send(Ok(buffer.clone())).ok(); } } return Ok(Some(buffer)); } } } return Ok(None); } pub fn incomplete_buffer_ids(&self) -> Vec { self.loading_remote_buffers_by_id .keys() .copied() .collect::>() } pub fn deserialize_project_transaction( &self, message: proto::ProjectTransaction, push_to_history: bool, cx: &mut Context, ) -> Task> { cx.spawn(async move |this, cx| { let mut project_transaction = ProjectTransaction::default(); for (buffer_id, transaction) in message.buffer_ids.into_iter().zip(message.transactions) { let buffer_id = BufferId::new(buffer_id)?; let buffer = this .update(cx, |this, cx| this.wait_for_remote_buffer(buffer_id, cx))? .await?; let transaction = language::proto::deserialize_transaction(transaction)?; project_transaction.0.insert(buffer, transaction); } for (buffer, transaction) in &project_transaction.0 { buffer .update(cx, |buffer, _| { buffer.wait_for_edits(transaction.edit_ids.iter().copied()) })? .await?; if push_to_history { buffer.update(cx, |buffer, _| { buffer.push_transaction(transaction.clone(), Instant::now()); buffer.finalize_last_transaction(); })?; } } Ok(project_transaction) }) } fn open_buffer( &self, path: Arc, worktree: Entity, cx: &mut Context, ) -> Task>> { let worktree_id = worktree.read(cx).id().to_proto(); let project_id = self.project_id; let client = self.upstream_client.clone(); cx.spawn(async move |this, cx| { let response = client .request(proto::OpenBufferByPath { project_id, worktree_id, path: path.to_proto(), }) .await?; let buffer_id = BufferId::new(response.buffer_id)?; let buffer = this .update(cx, { |this, cx| this.wait_for_remote_buffer(buffer_id, cx) })? .await?; Ok(buffer) }) } fn create_buffer(&self, cx: &mut Context) -> Task>> { let create = self.upstream_client.request(proto::OpenNewBuffer { project_id: self.project_id, }); cx.spawn(async move |this, cx| { let response = create.await?; let buffer_id = BufferId::new(response.buffer_id)?; this.update(cx, |this, cx| this.wait_for_remote_buffer(buffer_id, cx))? .await }) } fn reload_buffers( &self, buffers: HashSet>, push_to_history: bool, cx: &mut Context, ) -> Task> { let request = self.upstream_client.request(proto::ReloadBuffers { project_id: self.project_id, buffer_ids: buffers .iter() .map(|buffer| buffer.read(cx).remote_id().to_proto()) .collect(), }); cx.spawn(async move |this, cx| { let response = request.await?.transaction.context("missing transaction")?; this.update(cx, |this, cx| { this.deserialize_project_transaction(response, push_to_history, cx) })? .await }) } } impl LocalBufferStore { fn save_local_buffer( &self, buffer_handle: Entity, worktree: Entity, path: Arc, mut has_changed_file: bool, cx: &mut Context, ) -> Task> { let buffer = buffer_handle.read(cx); let text = buffer.as_rope().clone(); let line_ending = buffer.line_ending(); let version = buffer.version(); let buffer_id = buffer.remote_id(); let file = buffer.file().cloned(); if file .as_ref() .is_some_and(|file| file.disk_state() == DiskState::New) { has_changed_file = true; } let save = worktree.update(cx, |worktree, cx| { worktree.write_file(path.as_ref(), text, line_ending, cx) }); cx.spawn(async move |this, cx| { let new_file = save.await?; let mtime = new_file.disk_state().mtime(); this.update(cx, |this, cx| { if let Some((downstream_client, project_id)) = this.downstream_client.clone() { if has_changed_file { downstream_client .send(proto::UpdateBufferFile { project_id, buffer_id: buffer_id.to_proto(), file: Some(language::File::to_proto(&*new_file, cx)), }) .log_err(); } downstream_client .send(proto::BufferSaved { project_id, buffer_id: buffer_id.to_proto(), version: serialize_version(&version), mtime: mtime.map(|time| time.into()), }) .log_err(); } })?; buffer_handle.update(cx, |buffer, cx| { if has_changed_file { buffer.file_updated(new_file, cx); } buffer.did_save(version.clone(), mtime, cx); }) }) } fn subscribe_to_worktree( &mut self, worktree: &Entity, cx: &mut Context, ) { cx.subscribe(worktree, |this, worktree, event, cx| { if worktree.read(cx).is_local() { match event { worktree::Event::UpdatedEntries(changes) => { Self::local_worktree_entries_changed(this, &worktree, changes, cx); } _ => {} } } }) .detach(); } fn local_worktree_entries_changed( this: &mut BufferStore, worktree_handle: &Entity, changes: &[(Arc, ProjectEntryId, PathChange)], cx: &mut Context, ) { let snapshot = worktree_handle.read(cx).snapshot(); for (path, entry_id, _) in changes { Self::local_worktree_entry_changed( this, *entry_id, path, worktree_handle, &snapshot, cx, ); } } fn local_worktree_entry_changed( this: &mut BufferStore, entry_id: ProjectEntryId, path: &Arc, worktree: &Entity, snapshot: &worktree::Snapshot, cx: &mut Context, ) -> Option<()> { let project_path = ProjectPath { worktree_id: snapshot.id(), path: path.clone(), }; let buffer_id = this .as_local_mut() .and_then(|local| local.local_buffer_ids_by_entry_id.get(&entry_id)) .copied() .or_else(|| this.path_to_buffer_id.get(&project_path).copied())?; let buffer = if let Some(buffer) = this.get(buffer_id) { Some(buffer) } else { this.opened_buffers.remove(&buffer_id); None }; let buffer = if let Some(buffer) = buffer { buffer } else { this.path_to_buffer_id.remove(&project_path); let this = this.as_local_mut()?; this.local_buffer_ids_by_entry_id.remove(&entry_id); return None; }; let events = buffer.update(cx, |buffer, cx| { let file = buffer.file()?; let old_file = File::from_dyn(Some(file))?; if old_file.worktree != *worktree { return None; } let snapshot_entry = old_file .entry_id .and_then(|entry_id| snapshot.entry_for_id(entry_id)) .or_else(|| snapshot.entry_for_path(old_file.path.as_ref())); let new_file = if let Some(entry) = snapshot_entry { File { disk_state: match entry.mtime { Some(mtime) => DiskState::Present { mtime }, None => old_file.disk_state, }, is_local: true, entry_id: Some(entry.id), path: entry.path.clone(), worktree: worktree.clone(), is_private: entry.is_private, } } else { File { disk_state: DiskState::Deleted, is_local: true, entry_id: old_file.entry_id, path: old_file.path.clone(), worktree: worktree.clone(), is_private: old_file.is_private, } }; if new_file == *old_file { return None; } let mut events = Vec::new(); if new_file.path != old_file.path { this.path_to_buffer_id.remove(&ProjectPath { path: old_file.path.clone(), worktree_id: old_file.worktree_id(cx), }); this.path_to_buffer_id.insert( ProjectPath { worktree_id: new_file.worktree_id(cx), path: new_file.path.clone(), }, buffer_id, ); events.push(BufferStoreEvent::BufferChangedFilePath { buffer: cx.entity(), old_file: buffer.file().cloned(), }); } let local = this.as_local_mut()?; if new_file.entry_id != old_file.entry_id { if let Some(entry_id) = old_file.entry_id { local.local_buffer_ids_by_entry_id.remove(&entry_id); } if let Some(entry_id) = new_file.entry_id { local .local_buffer_ids_by_entry_id .insert(entry_id, buffer_id); } } if let Some((client, project_id)) = &this.downstream_client { client .send(proto::UpdateBufferFile { project_id: *project_id, buffer_id: buffer_id.to_proto(), file: Some(new_file.to_proto(cx)), }) .ok(); } buffer.file_updated(Arc::new(new_file), cx); Some(events) })?; for event in events { cx.emit(event); } None } fn save_buffer( &self, buffer: Entity, cx: &mut Context, ) -> Task> { let Some(file) = File::from_dyn(buffer.read(cx).file()) else { return Task::ready(Err(anyhow!("buffer doesn't have a file"))); }; let worktree = file.worktree.clone(); self.save_local_buffer(buffer, worktree, file.path.clone(), false, cx) } fn save_buffer_as( &self, buffer: Entity, path: ProjectPath, cx: &mut Context, ) -> Task> { let Some(worktree) = self .worktree_store .read(cx) .worktree_for_id(path.worktree_id, cx) else { return Task::ready(Err(anyhow!("no such worktree"))); }; self.save_local_buffer(buffer, worktree, path.path.clone(), true, cx) } fn open_buffer( &self, path: Arc, worktree: Entity, cx: &mut Context, ) -> Task>> { let load_buffer = worktree.update(cx, |worktree, cx| { let load_file = worktree.load_file(path.as_ref(), cx); let reservation = cx.reserve_entity(); let buffer_id = BufferId::from(reservation.entity_id().as_non_zero_u64()); cx.spawn(async move |_, cx| { let loaded = load_file.await?; let text_buffer = cx .background_spawn(async move { text::Buffer::new(0, buffer_id, loaded.text) }) .await; cx.insert_entity(reservation, |_| { Buffer::build(text_buffer, Some(loaded.file), Capability::ReadWrite) }) }) }); cx.spawn(async move |this, cx| { let buffer = match load_buffer.await { Ok(buffer) => Ok(buffer), Err(error) if is_not_found_error(&error) => cx.new(|cx| { let buffer_id = BufferId::from(cx.entity_id().as_non_zero_u64()); let text_buffer = text::Buffer::new(0, buffer_id, ""); Buffer::build( text_buffer, Some(Arc::new(File { worktree, path, disk_state: DiskState::New, entry_id: None, is_local: true, is_private: false, })), Capability::ReadWrite, ) }), Err(e) => Err(e), }?; this.update(cx, |this, cx| { this.add_buffer(buffer.clone(), cx)?; let buffer_id = buffer.read(cx).remote_id(); if let Some(file) = File::from_dyn(buffer.read(cx).file()) { this.path_to_buffer_id.insert( ProjectPath { worktree_id: file.worktree_id(cx), path: file.path.clone(), }, buffer_id, ); let this = this.as_local_mut().unwrap(); if let Some(entry_id) = file.entry_id { this.local_buffer_ids_by_entry_id .insert(entry_id, buffer_id); } } anyhow::Ok(()) })??; Ok(buffer) }) } fn create_buffer(&self, cx: &mut Context) -> Task>> { cx.spawn(async move |buffer_store, cx| { let buffer = cx.new(|cx| Buffer::local("", cx).with_language(language::PLAIN_TEXT.clone(), cx))?; buffer_store.update(cx, |buffer_store, cx| { buffer_store.add_buffer(buffer.clone(), cx).log_err(); })?; Ok(buffer) }) } fn reload_buffers( &self, buffers: HashSet>, push_to_history: bool, cx: &mut Context, ) -> Task> { cx.spawn(async move |_, cx| { let mut project_transaction = ProjectTransaction::default(); for buffer in buffers { let transaction = buffer.update(cx, |buffer, cx| buffer.reload(cx))?.await?; buffer.update(cx, |buffer, cx| { if let Some(transaction) = transaction { if !push_to_history { buffer.forget_transaction(transaction.id); } project_transaction.0.insert(cx.entity(), transaction); } })?; } Ok(project_transaction) }) } } impl BufferStore { pub fn init(client: &AnyProtoClient) { client.add_entity_message_handler(Self::handle_buffer_reloaded); client.add_entity_message_handler(Self::handle_buffer_saved); client.add_entity_message_handler(Self::handle_update_buffer_file); client.add_entity_request_handler(Self::handle_save_buffer); client.add_entity_request_handler(Self::handle_reload_buffers); } /// Creates a buffer store, optionally retaining its buffers. pub fn local(worktree_store: Entity, cx: &mut Context) -> Self { Self { state: BufferStoreState::Local(LocalBufferStore { local_buffer_ids_by_entry_id: Default::default(), worktree_store: worktree_store.clone(), _subscription: cx.subscribe(&worktree_store, |this, _, event, cx| { if let WorktreeStoreEvent::WorktreeAdded(worktree) = event { let this = this.as_local_mut().unwrap(); this.subscribe_to_worktree(worktree, cx); } }), }), downstream_client: None, opened_buffers: Default::default(), path_to_buffer_id: Default::default(), shared_buffers: Default::default(), loading_buffers: Default::default(), worktree_store, } } pub fn remote( worktree_store: Entity, upstream_client: AnyProtoClient, remote_id: u64, _cx: &mut Context, ) -> Self { Self { state: BufferStoreState::Remote(RemoteBufferStore { shared_with_me: Default::default(), loading_remote_buffers_by_id: Default::default(), remote_buffer_listeners: Default::default(), project_id: remote_id, upstream_client, worktree_store: worktree_store.clone(), }), downstream_client: None, opened_buffers: Default::default(), path_to_buffer_id: Default::default(), loading_buffers: Default::default(), shared_buffers: Default::default(), worktree_store, } } fn as_local_mut(&mut self) -> Option<&mut LocalBufferStore> { match &mut self.state { BufferStoreState::Local(state) => Some(state), _ => None, } } fn as_remote_mut(&mut self) -> Option<&mut RemoteBufferStore> { match &mut self.state { BufferStoreState::Remote(state) => Some(state), _ => None, } } fn as_remote(&self) -> Option<&RemoteBufferStore> { match &self.state { BufferStoreState::Remote(state) => Some(state), _ => None, } } pub fn open_buffer( &mut self, project_path: ProjectPath, cx: &mut Context, ) -> Task>> { if let Some(buffer) = self.get_by_path(&project_path, cx) { cx.emit(BufferStoreEvent::BufferOpened { buffer: buffer.clone(), project_path, }); return Task::ready(Ok(buffer)); } let task = match self.loading_buffers.entry(project_path.clone()) { hash_map::Entry::Occupied(e) => e.get().clone(), hash_map::Entry::Vacant(entry) => { let path = project_path.path.clone(); let Some(worktree) = self .worktree_store .read(cx) .worktree_for_id(project_path.worktree_id, cx) else { return Task::ready(Err(anyhow!("no such worktree"))); }; let load_buffer = match &self.state { BufferStoreState::Local(this) => this.open_buffer(path, worktree, cx), BufferStoreState::Remote(this) => this.open_buffer(path, worktree, cx), }; entry .insert( cx.spawn(async move |this, cx| { let load_result = load_buffer.await; this.update(cx, |this, cx| { // Record the fact that the buffer is no longer loading. this.loading_buffers.remove(&project_path); let buffer = load_result.map_err(Arc::new)?; cx.emit(BufferStoreEvent::BufferOpened { buffer: buffer.clone(), project_path, }); Ok(buffer) })? }) .shared(), ) .clone() } }; cx.background_spawn(async move { task.await.map_err(|e| anyhow!("{e}")) }) } pub fn create_buffer(&mut self, cx: &mut Context) -> Task>> { match &self.state { BufferStoreState::Local(this) => this.create_buffer(cx), BufferStoreState::Remote(this) => this.create_buffer(cx), } } pub fn save_buffer( &mut self, buffer: Entity, cx: &mut Context, ) -> Task> { match &mut self.state { BufferStoreState::Local(this) => this.save_buffer(buffer, cx), BufferStoreState::Remote(this) => this.save_remote_buffer(buffer.clone(), None, cx), } } pub fn save_buffer_as( &mut self, buffer: Entity, path: ProjectPath, cx: &mut Context, ) -> Task> { let old_file = buffer.read(cx).file().cloned(); let task = match &self.state { BufferStoreState::Local(this) => this.save_buffer_as(buffer.clone(), path, cx), BufferStoreState::Remote(this) => { this.save_remote_buffer(buffer.clone(), Some(path.to_proto()), cx) } }; cx.spawn(async move |this, cx| { task.await?; this.update(cx, |_, cx| { cx.emit(BufferStoreEvent::BufferChangedFilePath { buffer, old_file }); }) }) } fn add_buffer(&mut self, buffer_entity: Entity, cx: &mut Context) -> Result<()> { let buffer = buffer_entity.read(cx); let remote_id = buffer.remote_id(); let path = File::from_dyn(buffer.file()).map(|file| ProjectPath { path: file.path.clone(), worktree_id: file.worktree_id(cx), }); let is_remote = buffer.replica_id() != 0; let open_buffer = OpenBuffer::Complete { buffer: buffer_entity.downgrade(), }; let handle = cx.entity().downgrade(); buffer_entity.update(cx, move |_, cx| { cx.on_release(move |buffer, cx| { handle .update(cx, |_, cx| { cx.emit(BufferStoreEvent::BufferDropped(buffer.remote_id())) }) .ok(); }) .detach() }); let _expect_path_to_exist; match self.opened_buffers.entry(remote_id) { hash_map::Entry::Vacant(entry) => { entry.insert(open_buffer); _expect_path_to_exist = false; } hash_map::Entry::Occupied(mut entry) => { if let OpenBuffer::Operations(operations) = entry.get_mut() { buffer_entity.update(cx, |b, cx| b.apply_ops(operations.drain(..), cx)); } else if entry.get().upgrade().is_some() { if is_remote { return Ok(()); } else { debug_panic!("buffer {remote_id} was already registered"); anyhow::bail!("buffer {remote_id} was already registered"); } } entry.insert(open_buffer); _expect_path_to_exist = true; } } if let Some(path) = path { self.path_to_buffer_id.insert(path, remote_id); } cx.subscribe(&buffer_entity, Self::on_buffer_event).detach(); cx.emit(BufferStoreEvent::BufferAdded(buffer_entity)); Ok(()) } pub fn buffers(&self) -> impl '_ + Iterator> { self.opened_buffers .values() .filter_map(|buffer| buffer.upgrade()) } pub fn loading_buffers( &self, ) -> impl Iterator>>)> { self.loading_buffers.iter().map(|(path, task)| { let task = task.clone(); (path, async move { task.await.map_err(|e| anyhow!("{e}")) }) }) } pub fn buffer_id_for_project_path(&self, project_path: &ProjectPath) -> Option<&BufferId> { self.path_to_buffer_id.get(project_path) } pub fn get_by_path(&self, path: &ProjectPath, _cx: &App) -> Option> { self.path_to_buffer_id.get(path).and_then(|buffer_id| { let buffer = self.get(*buffer_id); buffer }) } pub fn get(&self, buffer_id: BufferId) -> Option> { self.opened_buffers.get(&buffer_id)?.upgrade() } pub fn get_existing(&self, buffer_id: BufferId) -> Result> { self.get(buffer_id) .with_context(|| format!("unknown buffer id {buffer_id}")) } pub fn get_possibly_incomplete(&self, buffer_id: BufferId) -> Option> { self.get(buffer_id).or_else(|| { self.as_remote() .and_then(|remote| remote.loading_remote_buffers_by_id.get(&buffer_id).cloned()) }) } pub fn buffer_version_info(&self, cx: &App) -> (Vec, Vec) { let buffers = self .buffers() .map(|buffer| { let buffer = buffer.read(cx); proto::BufferVersion { id: buffer.remote_id().into(), version: language::proto::serialize_version(&buffer.version), } }) .collect(); let incomplete_buffer_ids = self .as_remote() .map(|remote| remote.incomplete_buffer_ids()) .unwrap_or_default(); (buffers, incomplete_buffer_ids) } pub fn disconnected_from_host(&mut self, cx: &mut App) { for open_buffer in self.opened_buffers.values_mut() { if let Some(buffer) = open_buffer.upgrade() { buffer.update(cx, |buffer, _| buffer.give_up_waiting()); } } for buffer in self.buffers() { buffer.update(cx, |buffer, cx| { buffer.set_capability(Capability::ReadOnly, cx) }); } if let Some(remote) = self.as_remote_mut() { // Wake up all futures currently waiting on a buffer to get opened, // to give them a chance to fail now that we've disconnected. remote.remote_buffer_listeners.clear() } } pub fn shared(&mut self, remote_id: u64, downstream_client: AnyProtoClient, _cx: &mut App) { self.downstream_client = Some((downstream_client, remote_id)); } pub fn unshared(&mut self, _cx: &mut Context) { self.downstream_client.take(); self.forget_shared_buffers(); } pub fn discard_incomplete(&mut self) { self.opened_buffers .retain(|_, buffer| !matches!(buffer, OpenBuffer::Operations(_))); } fn buffer_changed_file(&mut self, buffer: Entity, cx: &mut App) -> Option<()> { let file = File::from_dyn(buffer.read(cx).file())?; let remote_id = buffer.read(cx).remote_id(); if let Some(entry_id) = file.entry_id { if let Some(local) = self.as_local_mut() { match local.local_buffer_ids_by_entry_id.get(&entry_id) { Some(_) => { return None; } None => { local .local_buffer_ids_by_entry_id .insert(entry_id, remote_id); } } } self.path_to_buffer_id.insert( ProjectPath { worktree_id: file.worktree_id(cx), path: file.path.clone(), }, remote_id, ); }; Some(()) } pub fn find_search_candidates( &mut self, query: &SearchQuery, mut limit: usize, fs: Arc, cx: &mut Context, ) -> Receiver> { let (tx, rx) = smol::channel::unbounded(); let mut open_buffers = HashSet::default(); let mut unnamed_buffers = Vec::new(); for handle in self.buffers() { let buffer = handle.read(cx); if let Some(entry_id) = buffer.entry_id(cx) { open_buffers.insert(entry_id); } else { limit = limit.saturating_sub(1); unnamed_buffers.push(handle) }; } const MAX_CONCURRENT_BUFFER_OPENS: usize = 64; let project_paths_rx = self .worktree_store .update(cx, |worktree_store, cx| { worktree_store.find_search_candidates(query.clone(), limit, open_buffers, fs, cx) }) .chunks(MAX_CONCURRENT_BUFFER_OPENS); cx.spawn(async move |this, cx| { for buffer in unnamed_buffers { tx.send(buffer).await.ok(); } let mut project_paths_rx = pin!(project_paths_rx); while let Some(project_paths) = project_paths_rx.next().await { let buffers = this.update(cx, |this, cx| { project_paths .into_iter() .map(|project_path| this.open_buffer(project_path, cx)) .collect::>() })?; for buffer_task in buffers { if let Some(buffer) = buffer_task.await.log_err() { if tx.send(buffer).await.is_err() { return anyhow::Ok(()); } } } } anyhow::Ok(()) }) .detach(); rx } fn on_buffer_event( &mut self, buffer: Entity, event: &BufferEvent, cx: &mut Context, ) { match event { BufferEvent::FileHandleChanged => { self.buffer_changed_file(buffer, cx); } BufferEvent::Reloaded => { let Some((downstream_client, project_id)) = self.downstream_client.as_ref() else { return; }; let buffer = buffer.read(cx); downstream_client .send(proto::BufferReloaded { project_id: *project_id, buffer_id: buffer.remote_id().to_proto(), version: serialize_version(&buffer.version()), mtime: buffer.saved_mtime().map(|t| t.into()), line_ending: serialize_line_ending(buffer.line_ending()) as i32, }) .log_err(); } BufferEvent::LanguageChanged => {} _ => {} } } pub async fn handle_update_buffer( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result { let payload = envelope.payload.clone(); let buffer_id = BufferId::new(payload.buffer_id)?; let ops = payload .operations .into_iter() .map(language::proto::deserialize_operation) .collect::, _>>()?; this.update(&mut cx, |this, cx| { match this.opened_buffers.entry(buffer_id) { hash_map::Entry::Occupied(mut e) => match e.get_mut() { OpenBuffer::Operations(operations) => operations.extend_from_slice(&ops), OpenBuffer::Complete { buffer, .. } => { if let Some(buffer) = buffer.upgrade() { buffer.update(cx, |buffer, cx| buffer.apply_ops(ops, cx)); } } }, hash_map::Entry::Vacant(e) => { e.insert(OpenBuffer::Operations(ops)); } } Ok(proto::Ack {}) })? } pub fn register_shared_lsp_handle( &mut self, peer_id: proto::PeerId, buffer_id: BufferId, handle: OpenLspBufferHandle, ) { if let Some(shared_buffers) = self.shared_buffers.get_mut(&peer_id) { if let Some(buffer) = shared_buffers.get_mut(&buffer_id) { buffer.lsp_handle = Some(handle); return; } } debug_panic!("tried to register shared lsp handle, but buffer was not shared") } pub fn handle_synchronize_buffers( &mut self, envelope: TypedEnvelope, cx: &mut Context, client: Arc, ) -> Result { let project_id = envelope.payload.project_id; let mut response = proto::SynchronizeBuffersResponse { buffers: Default::default(), }; let Some(guest_id) = envelope.original_sender_id else { anyhow::bail!("missing original_sender_id on SynchronizeBuffers request"); }; self.shared_buffers.entry(guest_id).or_default().clear(); for buffer in envelope.payload.buffers { let buffer_id = BufferId::new(buffer.id)?; let remote_version = language::proto::deserialize_version(&buffer.version); if let Some(buffer) = self.get(buffer_id) { self.shared_buffers .entry(guest_id) .or_default() .entry(buffer_id) .or_insert_with(|| SharedBuffer { buffer: buffer.clone(), lsp_handle: None, }); let buffer = buffer.read(cx); response.buffers.push(proto::BufferVersion { id: buffer_id.into(), version: language::proto::serialize_version(&buffer.version), }); let operations = buffer.serialize_ops(Some(remote_version), cx); let client = client.clone(); if let Some(file) = buffer.file() { client .send(proto::UpdateBufferFile { project_id, buffer_id: buffer_id.into(), file: Some(file.to_proto(cx)), }) .log_err(); } // TODO(max): do something // client // .send(proto::UpdateStagedText { // project_id, // buffer_id: buffer_id.into(), // diff_base: buffer.diff_base().map(ToString::to_string), // }) // .log_err(); client .send(proto::BufferReloaded { project_id, buffer_id: buffer_id.into(), version: language::proto::serialize_version(buffer.saved_version()), mtime: buffer.saved_mtime().map(|time| time.into()), line_ending: language::proto::serialize_line_ending(buffer.line_ending()) as i32, }) .log_err(); cx.background_spawn( async move { let operations = operations.await; for chunk in split_operations(operations) { client .request(proto::UpdateBuffer { project_id, buffer_id: buffer_id.into(), operations: chunk, }) .await?; } anyhow::Ok(()) } .log_err(), ) .detach(); } } Ok(response) } pub fn handle_create_buffer_for_peer( &mut self, envelope: TypedEnvelope, replica_id: u16, capability: Capability, cx: &mut Context, ) -> Result<()> { let remote = self .as_remote_mut() .context("buffer store is not a remote")?; if let Some(buffer) = remote.handle_create_buffer_for_peer(envelope, replica_id, capability, cx)? { self.add_buffer(buffer, cx)?; } Ok(()) } pub async fn handle_update_buffer_file( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result<()> { let buffer_id = envelope.payload.buffer_id; let buffer_id = BufferId::new(buffer_id)?; this.update(&mut cx, |this, cx| { let payload = envelope.payload.clone(); if let Some(buffer) = this.get_possibly_incomplete(buffer_id) { let file = payload.file.context("invalid file")?; let worktree = this .worktree_store .read(cx) .worktree_for_id(WorktreeId::from_proto(file.worktree_id), cx) .context("no such worktree")?; let file = File::from_proto(file, worktree, cx)?; let old_file = buffer.update(cx, |buffer, cx| { let old_file = buffer.file().cloned(); let new_path = file.path.clone(); buffer.file_updated(Arc::new(file), cx); if old_file .as_ref() .map_or(true, |old| *old.path() != new_path) { Some(old_file) } else { None } }); if let Some(old_file) = old_file { cx.emit(BufferStoreEvent::BufferChangedFilePath { buffer, old_file }); } } if let Some((downstream_client, project_id)) = this.downstream_client.as_ref() { downstream_client .send(proto::UpdateBufferFile { project_id: *project_id, buffer_id: buffer_id.into(), file: envelope.payload.file, }) .log_err(); } Ok(()) })? } pub async fn handle_save_buffer( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result { let buffer_id = BufferId::new(envelope.payload.buffer_id)?; let (buffer, project_id) = this.read_with(&mut cx, |this, _| { anyhow::Ok(( this.get_existing(buffer_id)?, this.downstream_client .as_ref() .map(|(_, project_id)| *project_id) .context("project is not shared")?, )) })??; buffer .update(&mut cx, |buffer, _| { buffer.wait_for_version(deserialize_version(&envelope.payload.version)) })? .await?; let buffer_id = buffer.read_with(&mut cx, |buffer, _| buffer.remote_id())?; if let Some(new_path) = envelope.payload.new_path { let new_path = ProjectPath::from_proto(new_path); this.update(&mut cx, |this, cx| { this.save_buffer_as(buffer.clone(), new_path, cx) })? .await?; } else { this.update(&mut cx, |this, cx| this.save_buffer(buffer.clone(), cx))? .await?; } buffer.read_with(&mut cx, |buffer, _| proto::BufferSaved { project_id, buffer_id: buffer_id.into(), version: serialize_version(buffer.saved_version()), mtime: buffer.saved_mtime().map(|time| time.into()), }) } pub async fn handle_close_buffer( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result<()> { let peer_id = envelope.sender_id; let buffer_id = BufferId::new(envelope.payload.buffer_id)?; this.update(&mut cx, |this, cx| { if let Some(shared) = this.shared_buffers.get_mut(&peer_id) { if shared.remove(&buffer_id).is_some() { cx.emit(BufferStoreEvent::SharedBufferClosed(peer_id, buffer_id)); if shared.is_empty() { this.shared_buffers.remove(&peer_id); } return; } } debug_panic!( "peer_id {} closed buffer_id {} which was either not open or already closed", peer_id, buffer_id ) }) } pub async fn handle_buffer_saved( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result<()> { let buffer_id = BufferId::new(envelope.payload.buffer_id)?; let version = deserialize_version(&envelope.payload.version); let mtime = envelope.payload.mtime.clone().map(|time| time.into()); this.update(&mut cx, move |this, cx| { if let Some(buffer) = this.get_possibly_incomplete(buffer_id) { buffer.update(cx, |buffer, cx| { buffer.did_save(version, mtime, cx); }); } if let Some((downstream_client, project_id)) = this.downstream_client.as_ref() { downstream_client .send(proto::BufferSaved { project_id: *project_id, buffer_id: buffer_id.into(), mtime: envelope.payload.mtime, version: envelope.payload.version, }) .log_err(); } }) } pub async fn handle_buffer_reloaded( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result<()> { let buffer_id = BufferId::new(envelope.payload.buffer_id)?; let version = deserialize_version(&envelope.payload.version); let mtime = envelope.payload.mtime.clone().map(|time| time.into()); let line_ending = deserialize_line_ending( proto::LineEnding::from_i32(envelope.payload.line_ending) .context("missing line ending")?, ); this.update(&mut cx, |this, cx| { if let Some(buffer) = this.get_possibly_incomplete(buffer_id) { buffer.update(cx, |buffer, cx| { buffer.did_reload(version, line_ending, mtime, cx); }); } if let Some((downstream_client, project_id)) = this.downstream_client.as_ref() { downstream_client .send(proto::BufferReloaded { project_id: *project_id, buffer_id: buffer_id.into(), mtime: envelope.payload.mtime, version: envelope.payload.version, line_ending: envelope.payload.line_ending, }) .log_err(); } }) } pub fn reload_buffers( &self, buffers: HashSet>, push_to_history: bool, cx: &mut Context, ) -> Task> { if buffers.is_empty() { return Task::ready(Ok(ProjectTransaction::default())); } match &self.state { BufferStoreState::Local(this) => this.reload_buffers(buffers, push_to_history, cx), BufferStoreState::Remote(this) => this.reload_buffers(buffers, push_to_history, cx), } } async fn handle_reload_buffers( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result { let sender_id = envelope.original_sender_id().unwrap_or_default(); let reload = this.update(&mut cx, |this, cx| { let mut buffers = HashSet::default(); for buffer_id in &envelope.payload.buffer_ids { let buffer_id = BufferId::new(*buffer_id)?; buffers.insert(this.get_existing(buffer_id)?); } anyhow::Ok(this.reload_buffers(buffers, false, cx)) })??; let project_transaction = reload.await?; let project_transaction = this.update(&mut cx, |this, cx| { this.serialize_project_transaction_for_peer(project_transaction, sender_id, cx) })?; Ok(proto::ReloadBuffersResponse { transaction: Some(project_transaction), }) } pub fn create_buffer_for_peer( &mut self, buffer: &Entity, peer_id: proto::PeerId, cx: &mut Context, ) -> Task> { let buffer_id = buffer.read(cx).remote_id(); let shared_buffers = self.shared_buffers.entry(peer_id).or_default(); if shared_buffers.contains_key(&buffer_id) { return Task::ready(Ok(())); } shared_buffers.insert( buffer_id, SharedBuffer { buffer: buffer.clone(), lsp_handle: None, }, ); let Some((client, project_id)) = self.downstream_client.clone() else { return Task::ready(Ok(())); }; cx.spawn(async move |this, cx| { let Some(buffer) = this.read_with(cx, |this, _| this.get(buffer_id))? else { return anyhow::Ok(()); }; let operations = buffer.update(cx, |b, cx| b.serialize_ops(None, cx))?; let operations = operations.await; let state = buffer.update(cx, |buffer, cx| buffer.to_proto(cx))?; let initial_state = proto::CreateBufferForPeer { project_id, peer_id: Some(peer_id), variant: Some(proto::create_buffer_for_peer::Variant::State(state)), }; if client.send(initial_state).log_err().is_some() { let client = client.clone(); cx.background_spawn(async move { let mut chunks = split_operations(operations).peekable(); while let Some(chunk) = chunks.next() { let is_last = chunks.peek().is_none(); client.send(proto::CreateBufferForPeer { project_id, peer_id: Some(peer_id), variant: Some(proto::create_buffer_for_peer::Variant::Chunk( proto::BufferChunk { buffer_id: buffer_id.into(), operations: chunk, is_last, }, )), })?; } anyhow::Ok(()) }) .await .log_err(); } Ok(()) }) } pub fn forget_shared_buffers(&mut self) { self.shared_buffers.clear(); } pub fn forget_shared_buffers_for(&mut self, peer_id: &proto::PeerId) { self.shared_buffers.remove(peer_id); } pub fn update_peer_id(&mut self, old_peer_id: &proto::PeerId, new_peer_id: proto::PeerId) { if let Some(buffers) = self.shared_buffers.remove(old_peer_id) { self.shared_buffers.insert(new_peer_id, buffers); } } pub fn has_shared_buffers(&self) -> bool { !self.shared_buffers.is_empty() } pub fn create_local_buffer( &mut self, text: &str, language: Option>, cx: &mut Context, ) -> Entity { let buffer = cx.new(|cx| { Buffer::local(text, cx) .with_language(language.unwrap_or_else(|| language::PLAIN_TEXT.clone()), cx) }); self.add_buffer(buffer.clone(), cx).log_err(); let buffer_id = buffer.read(cx).remote_id(); if let Some(file) = File::from_dyn(buffer.read(cx).file()) { self.path_to_buffer_id.insert( ProjectPath { worktree_id: file.worktree_id(cx), path: file.path.clone(), }, buffer_id, ); let this = self .as_local_mut() .expect("local-only method called in a non-local context"); if let Some(entry_id) = file.entry_id { this.local_buffer_ids_by_entry_id .insert(entry_id, buffer_id); } } buffer } pub fn deserialize_project_transaction( &mut self, message: proto::ProjectTransaction, push_to_history: bool, cx: &mut Context, ) -> Task> { if let Some(this) = self.as_remote_mut() { this.deserialize_project_transaction(message, push_to_history, cx) } else { debug_panic!("not a remote buffer store"); Task::ready(Err(anyhow!("not a remote buffer store"))) } } pub fn wait_for_remote_buffer( &mut self, id: BufferId, cx: &mut Context, ) -> Task>> { if let Some(this) = self.as_remote_mut() { this.wait_for_remote_buffer(id, cx) } else { debug_panic!("not a remote buffer store"); Task::ready(Err(anyhow!("not a remote buffer store"))) } } pub fn serialize_project_transaction_for_peer( &mut self, project_transaction: ProjectTransaction, peer_id: proto::PeerId, cx: &mut Context, ) -> proto::ProjectTransaction { let mut serialized_transaction = proto::ProjectTransaction { buffer_ids: Default::default(), transactions: Default::default(), }; for (buffer, transaction) in project_transaction.0 { self.create_buffer_for_peer(&buffer, peer_id, cx) .detach_and_log_err(cx); serialized_transaction .buffer_ids .push(buffer.read(cx).remote_id().into()); serialized_transaction .transactions .push(language::proto::serialize_transaction(&transaction)); } serialized_transaction } } impl OpenBuffer { fn upgrade(&self) -> Option> { match self { OpenBuffer::Complete { buffer, .. } => buffer.upgrade(), OpenBuffer::Operations(_) => None, } } } fn is_not_found_error(error: &anyhow::Error) -> bool { error .root_cause() .downcast_ref::() .is_some_and(|err| err.kind() == io::ErrorKind::NotFound) }