use crate::{ CachedLspAdapter, Language, LanguageConfig, LanguageId, LanguageMatcher, LanguageServerName, LspAdapter, LspAdapterDelegate, PARSER, PLAIN_TEXT, }; use anyhow::{anyhow, Context as _, Result}; use collections::{hash_map, HashMap}; use futures::{ channel::{mpsc, oneshot}, future::Shared, Future, FutureExt as _, TryFutureExt as _, }; use gpui::{AppContext, AsyncAppContext, BackgroundExecutor, Task}; use lsp::{LanguageServerBinary, LanguageServerId}; use parking_lot::{Mutex, RwLock}; use postage::watch; use std::{ borrow::Cow, ffi::OsStr, ops::Not, path::{Path, PathBuf}, sync::Arc, }; use sum_tree::Bias; use text::{Point, Rope}; use theme::Theme; use unicase::UniCase; use util::{paths::PathExt, post_inc, ResultExt}; pub struct LanguageRegistry { state: RwLock, language_server_download_dir: Option>, login_shell_env_loaded: Shared>, #[allow(clippy::type_complexity)] lsp_binary_paths: Mutex< HashMap>>>>, >, executor: Option, lsp_binary_status_tx: LspBinaryStatusSender, } struct LanguageRegistryState { next_language_server_id: usize, languages: Vec>, available_languages: Vec, grammars: HashMap, AvailableGrammar>, loading_languages: HashMap>>>>, subscription: (watch::Sender<()>, watch::Receiver<()>), theme: Option>, version: usize, reload_count: usize, } #[derive(Clone)] pub enum LanguageServerBinaryStatus { CheckingForUpdate, Downloading, Downloaded, Cached, Failed { error: String }, } pub struct PendingLanguageServer { pub server_id: LanguageServerId, pub task: Task>, pub container_dir: Option>, } #[derive(Clone)] struct AvailableLanguage { id: LanguageId, name: Arc, grammar: Option>, matcher: LanguageMatcher, load: Arc Result<(LanguageConfig, LanguageQueries)> + 'static + Send + Sync>, lsp_adapters: Vec>, loaded: bool, } enum AvailableGrammar { Native(tree_sitter::Language), Loaded(PathBuf, tree_sitter::Language), Loading(PathBuf, Vec>>), Unloaded(PathBuf), } pub const QUERY_FILENAME_PREFIXES: &[( &str, fn(&mut LanguageQueries) -> &mut Option>, )] = &[ ("highlights", |q| &mut q.highlights), ("brackets", |q| &mut q.brackets), ("outline", |q| &mut q.outline), ("indents", |q| &mut q.indents), ("embedding", |q| &mut q.embedding), ("injections", |q| &mut q.injections), ("overrides", |q| &mut q.overrides), ("redactions", |q| &mut q.redactions), ]; /// Tree-sitter language queries for a given language. #[derive(Debug, Default)] pub struct LanguageQueries { pub highlights: Option>, pub brackets: Option>, pub indents: Option>, pub outline: Option>, pub embedding: Option>, pub injections: Option>, pub overrides: Option>, pub redactions: Option>, } #[derive(Clone, Default)] struct LspBinaryStatusSender { txs: Arc, LanguageServerBinaryStatus)>>>>, } impl LanguageRegistry { pub fn new(login_shell_env_loaded: Task<()>) -> Self { Self { state: RwLock::new(LanguageRegistryState { next_language_server_id: 0, languages: vec![PLAIN_TEXT.clone()], available_languages: Default::default(), grammars: Default::default(), loading_languages: Default::default(), subscription: watch::channel(), theme: Default::default(), version: 0, reload_count: 0, }), language_server_download_dir: None, login_shell_env_loaded: login_shell_env_loaded.shared(), lsp_binary_paths: Default::default(), executor: None, lsp_binary_status_tx: Default::default(), } } #[cfg(any(test, feature = "test-support"))] pub fn test() -> Self { Self::new(Task::ready(())) } pub fn set_executor(&mut self, executor: BackgroundExecutor) { self.executor = Some(executor); } /// Clears out all of the loaded languages and reload them from scratch. pub fn reload(&self) { self.state.write().reload(); } /// Removes the specified languages and grammars from the registry. pub fn remove_languages( &self, languages_to_remove: &[Arc], grammars_to_remove: &[Arc], ) { self.state .write() .remove_languages(languages_to_remove, grammars_to_remove) } #[cfg(any(feature = "test-support", test))] pub fn register_test_language(&self, config: LanguageConfig) { self.register_language( config.name.clone(), config.grammar.clone(), config.matcher.clone(), vec![], move || Ok((config.clone(), Default::default())), ) } /// Adds a language to the registry, which can be loaded if needed. pub fn register_language( &self, name: Arc, grammar_name: Option>, matcher: LanguageMatcher, lsp_adapters: Vec>, load: impl Fn() -> Result<(LanguageConfig, LanguageQueries)> + 'static + Send + Sync, ) { let load = Arc::new(load); let state = &mut *self.state.write(); for existing_language in &mut state.available_languages { if existing_language.name == name { existing_language.grammar = grammar_name; existing_language.matcher = matcher; existing_language.lsp_adapters = lsp_adapters; existing_language.load = load; return; } } state.available_languages.push(AvailableLanguage { id: LanguageId::new(), name, grammar: grammar_name, matcher, load, lsp_adapters, loaded: false, }); state.version += 1; state.reload_count += 1; *state.subscription.0.borrow_mut() = (); } /// Adds grammars to the registry. Language configurations reference a grammar by name. The /// grammar controls how the source code is parsed. pub fn register_native_grammars( &self, grammars: impl IntoIterator>, tree_sitter::Language)>, ) { self.state.write().grammars.extend( grammars .into_iter() .map(|(name, grammar)| (name.into(), AvailableGrammar::Native(grammar))), ); } /// Adds paths to WASM grammar files, which can be loaded if needed. pub fn register_wasm_grammars( &self, grammars: impl IntoIterator>, PathBuf)>, ) { let mut state = self.state.write(); state.grammars.extend( grammars .into_iter() .map(|(name, path)| (name.into(), AvailableGrammar::Unloaded(path))), ); state.version += 1; state.reload_count += 1; *state.subscription.0.borrow_mut() = (); } pub fn language_names(&self) -> Vec { let state = self.state.read(); let mut result = state .available_languages .iter() .filter_map(|l| l.loaded.not().then_some(l.name.to_string())) .chain(state.languages.iter().map(|l| l.config.name.to_string())) .collect::>(); result.sort_unstable_by_key(|language_name| language_name.to_lowercase()); result } pub fn grammar_names(&self) -> Vec> { let state = self.state.read(); let mut result = state.grammars.keys().cloned().collect::>(); result.sort_unstable_by_key(|grammar_name| grammar_name.to_lowercase()); result } pub fn add(&self, language: Arc) { self.state.write().add(language); } pub fn subscribe(&self) -> watch::Receiver<()> { self.state.read().subscription.1.clone() } /// Returns the number of times that the registry has been changed, /// by adding languages or reloading. pub fn version(&self) -> usize { self.state.read().version } /// Returns the number of times that the registry has been reloaded. pub fn reload_count(&self) -> usize { self.state.read().reload_count } pub fn set_theme(&self, theme: Arc) { let mut state = self.state.write(); state.theme = Some(theme.clone()); for language in &state.languages { language.set_theme(theme.syntax()); } } pub fn set_language_server_download_dir(&mut self, path: impl Into>) { self.language_server_download_dir = Some(path.into()); } pub fn language_for_name( self: &Arc, name: &str, ) -> impl Future>> { let name = UniCase::new(name); let rx = self.get_or_load_language(|language_name, _| UniCase::new(language_name) == name); async move { rx.await? } } pub fn language_for_name_or_extension( self: &Arc, string: &str, ) -> impl Future>> { let string = UniCase::new(string); let rx = self.get_or_load_language(|name, config| { UniCase::new(name) == string || config .path_suffixes .iter() .any(|suffix| UniCase::new(suffix) == string) }); async move { rx.await? } } pub fn language_for_file( self: &Arc, path: &Path, content: Option<&Rope>, ) -> impl Future>> { let filename = path.file_name().and_then(|name| name.to_str()); let extension = path.extension_or_hidden_file_name(); let path_suffixes = [extension, filename]; let rx = self.get_or_load_language(move |_, config| { let path_matches = config .path_suffixes .iter() .any(|suffix| path_suffixes.contains(&Some(suffix.as_str()))); let content_matches = content.zip(config.first_line_pattern.as_ref()).map_or( false, |(content, pattern)| { let end = content.clip_point(Point::new(0, 256), Bias::Left); let end = content.point_to_offset(end); let text = content.chunks_in_range(0..end).collect::(); pattern.is_match(&text) }, ); path_matches || content_matches }); async move { rx.await? } } fn get_or_load_language( self: &Arc, callback: impl Fn(&str, &LanguageMatcher) -> bool, ) -> oneshot::Receiver>> { let (tx, rx) = oneshot::channel(); let mut state = self.state.write(); if let Some(language) = state .languages .iter() .find(|language| callback(language.config.name.as_ref(), &language.config.matcher)) { let _ = tx.send(Ok(language.clone())); } else if let Some(executor) = self.executor.clone() { if let Some(language) = state .available_languages .iter() .rfind(|l| !l.loaded && callback(&l.name, &l.matcher)) .cloned() { match state.loading_languages.entry(language.id) { hash_map::Entry::Occupied(mut entry) => entry.get_mut().push(tx), hash_map::Entry::Vacant(entry) => { let this = self.clone(); executor .spawn(async move { let id = language.id; let name = language.name.clone(); let language = async { let (config, queries) = (language.load)()?; let grammar = if let Some(grammar) = config.grammar.clone() { Some(this.get_or_load_grammar(grammar).await?) } else { None }; Language::new_with_id(id, config, grammar) .with_lsp_adapters(language.lsp_adapters) .await .with_queries(queries) } .await; match language { Ok(language) => { let language = Arc::new(language); let mut state = this.state.write(); state.add(language.clone()); state.mark_language_loaded(id); if let Some(mut txs) = state.loading_languages.remove(&id) { for tx in txs.drain(..) { let _ = tx.send(Ok(language.clone())); } } } Err(e) => { log::error!("failed to load language {name}:\n{:?}", e); let mut state = this.state.write(); state.mark_language_loaded(id); if let Some(mut txs) = state.loading_languages.remove(&id) { for tx in txs.drain(..) { let _ = tx.send(Err(anyhow!( "failed to load language {}: {}", name, e ))); } } } }; }) .detach(); entry.insert(vec![tx]); } } } else { let _ = tx.send(Err(anyhow!("language not found"))); } } else { let _ = tx.send(Err(anyhow!("executor does not exist"))); } rx } fn get_or_load_grammar( self: &Arc, name: Arc, ) -> impl Future> { let (tx, rx) = oneshot::channel(); let mut state = self.state.write(); if let Some(grammar) = state.grammars.get_mut(name.as_ref()) { match grammar { AvailableGrammar::Native(grammar) | AvailableGrammar::Loaded(_, grammar) => { tx.send(Ok(grammar.clone())).ok(); } AvailableGrammar::Loading(_, txs) => { txs.push(tx); } AvailableGrammar::Unloaded(wasm_path) => { if let Some(executor) = &self.executor { let this = self.clone(); executor .spawn({ let wasm_path = wasm_path.clone(); async move { let wasm_bytes = std::fs::read(&wasm_path)?; let grammar_name = wasm_path .file_stem() .and_then(OsStr::to_str) .ok_or_else(|| anyhow!("invalid grammar filename"))?; let grammar = PARSER.with(|parser| { let mut parser = parser.borrow_mut(); let mut store = parser.take_wasm_store().unwrap(); let grammar = store.load_language(&grammar_name, &wasm_bytes); parser.set_wasm_store(store).unwrap(); grammar })?; if let Some(AvailableGrammar::Loading(_, txs)) = this.state.write().grammars.insert( name, AvailableGrammar::Loaded(wasm_path, grammar.clone()), ) { for tx in txs { tx.send(Ok(grammar.clone())).ok(); } } anyhow::Ok(()) } }) .detach(); *grammar = AvailableGrammar::Loading(wasm_path.clone(), vec![tx]); } } } } else { tx.send(Err(anyhow!("no such grammar {}", name))).ok(); } async move { rx.await? } } pub fn to_vec(&self) -> Vec> { self.state.read().languages.iter().cloned().collect() } pub fn create_pending_language_server( self: &Arc, stderr_capture: Arc>>, language: Arc, adapter: Arc, root_path: Arc, delegate: Arc, cx: &mut AppContext, ) -> Option { let server_id = self.state.write().next_language_server_id(); log::info!( "starting language server {:?}, path: {root_path:?}, id: {server_id}", adapter.name.0 ); #[cfg(any(test, feature = "test-support"))] if language.fake_adapter.is_some() { let task = cx.spawn(|cx| async move { let (servers_tx, fake_adapter) = language.fake_adapter.as_ref().unwrap(); let (server, mut fake_server) = lsp::FakeLanguageServer::new( fake_adapter.name.to_string(), fake_adapter.capabilities.clone(), cx.clone(), ); if let Some(initializer) = &fake_adapter.initializer { initializer(&mut fake_server); } let servers_tx = servers_tx.clone(); cx.background_executor() .spawn(async move { if fake_server .try_receive_notification::() .await .is_some() { servers_tx.unbounded_send(fake_server).ok(); } }) .detach(); Ok(server) }); return Some(PendingLanguageServer { server_id, task, container_dir: None, }); } let download_dir = self .language_server_download_dir .clone() .ok_or_else(|| anyhow!("language server download directory has not been assigned before starting server")) .log_err()?; let this = self.clone(); let language = language.clone(); let container_dir: Arc = Arc::from(download_dir.join(adapter.name.0.as_ref())); let root_path = root_path.clone(); let adapter = adapter.clone(); let login_shell_env_loaded = self.login_shell_env_loaded.clone(); let lsp_binary_statuses = self.lsp_binary_status_tx.clone(); let task = { let container_dir = container_dir.clone(); cx.spawn(move |mut cx| async move { // First we check whether the adapter can give us a user-installed binary. // If so, we do *not* want to cache that, because each worktree might give us a different // binary: // // worktree 1: user-installed at `.bin/gopls` // worktree 2: user-installed at `~/bin/gopls` // worktree 3: no gopls found in PATH -> fallback to Zed installation // // We only want to cache when we fall back to the global one, // because we don't want to download and overwrite our global one // for each worktree we might have open. let user_binary_task = check_user_installed_binary( adapter.clone(), language.clone(), delegate.clone(), &mut cx, ); let binary = if let Some(user_binary) = user_binary_task.await { user_binary } else { // If we want to install a binary globally, we need to wait for // the login shell to be set on our process. login_shell_env_loaded.await; get_or_install_binary( this, &adapter, language, &delegate, &cx, container_dir, lsp_binary_statuses, ) .await? }; if let Some(task) = adapter.will_start_server(&delegate, &mut cx) { task.await?; } lsp::LanguageServer::new( stderr_capture, server_id, binary, &root_path, adapter.code_action_kinds(), cx, ) }) }; Some(PendingLanguageServer { server_id, task, container_dir: Some(container_dir), }) } pub fn language_server_binary_statuses( &self, ) -> mpsc::UnboundedReceiver<(Arc, LanguageServerBinaryStatus)> { self.lsp_binary_status_tx.subscribe() } pub fn delete_server_container( &self, adapter: Arc, cx: &mut AppContext, ) -> Task<()> { log::info!("deleting server container"); let mut lock = self.lsp_binary_paths.lock(); lock.remove(&adapter.name); let download_dir = self .language_server_download_dir .clone() .expect("language server download directory has not been assigned before deleting server container"); cx.spawn(|_| async move { let container_dir = download_dir.join(adapter.name.0.as_ref()); smol::fs::remove_dir_all(container_dir) .await .context("server container removal") .log_err(); }) } pub fn next_language_server_id(&self) -> LanguageServerId { self.state.write().next_language_server_id() } } #[cfg(any(test, feature = "test-support"))] impl Default for LanguageRegistry { fn default() -> Self { Self::test() } } impl LanguageRegistryState { fn next_language_server_id(&mut self) -> LanguageServerId { LanguageServerId(post_inc(&mut self.next_language_server_id)) } fn add(&mut self, language: Arc) { if let Some(theme) = self.theme.as_ref() { language.set_theme(theme.syntax()); } self.languages.push(language); self.version += 1; *self.subscription.0.borrow_mut() = (); } fn reload(&mut self) { self.languages.clear(); self.version += 1; self.reload_count += 1; for language in &mut self.available_languages { language.loaded = false; } *self.subscription.0.borrow_mut() = (); } fn remove_languages( &mut self, languages_to_remove: &[Arc], grammars_to_remove: &[Arc], ) { if languages_to_remove.is_empty() && grammars_to_remove.is_empty() { return; } self.languages .retain(|language| !languages_to_remove.contains(&language.name())); self.available_languages .retain(|language| !languages_to_remove.contains(&language.name)); self.grammars .retain(|name, _| !grammars_to_remove.contains(&name)); self.version += 1; self.reload_count += 1; *self.subscription.0.borrow_mut() = (); } /// Mark the given language as having been loaded, so that the /// language registry won't try to load it again. fn mark_language_loaded(&mut self, id: LanguageId) { for language in &mut self.available_languages { if language.id == id { language.loaded = true; break; } } } } impl LspBinaryStatusSender { fn subscribe(&self) -> mpsc::UnboundedReceiver<(Arc, LanguageServerBinaryStatus)> { let (tx, rx) = mpsc::unbounded(); self.txs.lock().push(tx); rx } fn send(&self, language: Arc, status: LanguageServerBinaryStatus) { let mut txs = self.txs.lock(); txs.retain(|tx| { tx.unbounded_send((language.clone(), status.clone())) .is_ok() }); } } async fn check_user_installed_binary( adapter: Arc, language: Arc, delegate: Arc, cx: &mut AsyncAppContext, ) -> Option { let Some(task) = adapter.check_if_user_installed(&delegate, cx) else { return None; }; task.await.and_then(|binary| { log::info!( "found user-installed language server for {}. path: {:?}, arguments: {:?}", language.name(), binary.path, binary.arguments ); Some(binary) }) } async fn get_or_install_binary( registry: Arc, adapter: &Arc, language: Arc, delegate: &Arc, cx: &AsyncAppContext, container_dir: Arc, lsp_binary_statuses: LspBinaryStatusSender, ) -> Result { let entry = registry .lsp_binary_paths .lock() .entry(adapter.name.clone()) .or_insert_with(|| { let adapter = adapter.clone(); let language = language.clone(); let delegate = delegate.clone(); cx.spawn(|cx| { get_binary( adapter, language, delegate, container_dir, lsp_binary_statuses, cx, ) .map_err(Arc::new) }) .shared() }) .clone(); entry.await.map_err(|err| anyhow!("{:?}", err)) } async fn get_binary( adapter: Arc, language: Arc, delegate: Arc, container_dir: Arc, statuses: LspBinaryStatusSender, mut cx: AsyncAppContext, ) -> Result { if !container_dir.exists() { smol::fs::create_dir_all(&container_dir) .await .context("failed to create container directory")?; } if let Some(task) = adapter.will_fetch_server(&delegate, &mut cx) { task.await?; } let binary = fetch_latest_binary( adapter.clone(), language.clone(), delegate.as_ref(), &container_dir, statuses.clone(), ) .await; if let Err(error) = binary.as_ref() { if let Some(binary) = adapter .cached_server_binary(container_dir.to_path_buf(), delegate.as_ref()) .await { statuses.send(language.clone(), LanguageServerBinaryStatus::Cached); log::info!( "failed to fetch newest version of language server {:?}. falling back to using {:?}", adapter.name, binary.path.display() ); return Ok(binary); } statuses.send( language.clone(), LanguageServerBinaryStatus::Failed { error: format!("{:?}", error), }, ); } binary } async fn fetch_latest_binary( adapter: Arc, language: Arc, delegate: &dyn LspAdapterDelegate, container_dir: &Path, lsp_binary_statuses_tx: LspBinaryStatusSender, ) -> Result { let container_dir: Arc = container_dir.into(); lsp_binary_statuses_tx.send( language.clone(), LanguageServerBinaryStatus::CheckingForUpdate, ); log::info!( "querying GitHub for latest version of language server {:?}", adapter.name.0 ); let version_info = adapter.fetch_latest_server_version(delegate).await?; lsp_binary_statuses_tx.send(language.clone(), LanguageServerBinaryStatus::Downloading); log::info!( "checking if Zed already installed or fetching version for language server {:?}", adapter.name.0 ); let binary = adapter .fetch_server_binary(version_info, container_dir.to_path_buf(), delegate) .await?; lsp_binary_statuses_tx.send(language.clone(), LanguageServerBinaryStatus::Downloaded); Ok(binary) }