mod build_extension; mod extension_lsp_adapter; mod extension_manifest; mod wasm_host; #[cfg(test)] mod extension_store_test; use crate::{extension_lsp_adapter::ExtensionLspAdapter, wasm_host::wit}; use anyhow::{anyhow, bail, Context as _, Result}; use async_compression::futures::bufread::GzipDecoder; use async_tar::Archive; use build_extension::{CompileExtensionOptions, ExtensionBuilder}; use collections::{hash_map, BTreeMap, HashMap, HashSet}; use extension_manifest::ExtensionLibraryKind; use fs::{Fs, RemoveOptions}; use futures::{ channel::{ mpsc::{unbounded, UnboundedSender}, oneshot, }, io::BufReader, select_biased, AsyncReadExt as _, Future, FutureExt as _, StreamExt as _, }; use gpui::{actions, AppContext, Context, EventEmitter, Global, Model, ModelContext, Task}; use language::{ LanguageConfig, LanguageMatcher, LanguageQueries, LanguageRegistry, QUERY_FILENAME_PREFIXES, }; use node_runtime::NodeRuntime; use serde::{Deserialize, Serialize}; use std::{ cmp::Ordering, ffi::OsStr, path::{self, Path, PathBuf}, sync::Arc, time::{Duration, Instant}, }; use theme::{ThemeRegistry, ThemeSettings}; use util::{ http::{AsyncBody, HttpClient, HttpClientWithUrl}, paths::EXTENSIONS_DIR, ResultExt, }; use wasm_host::{WasmExtension, WasmHost}; pub use extension_manifest::{ExtensionManifest, GrammarManifestEntry, OldExtensionManifest}; const RELOAD_DEBOUNCE_DURATION: Duration = Duration::from_millis(200); const FS_WATCH_LATENCY: Duration = Duration::from_millis(100); #[derive(Deserialize)] pub struct ExtensionsApiResponse { pub data: Vec, } #[derive(Clone, Deserialize)] pub struct ExtensionApiResponse { pub id: Arc, pub name: String, pub version: Arc, pub description: Option, pub authors: Vec, pub repository: String, pub download_count: usize, } pub struct ExtensionStore { builder: Arc, extension_index: ExtensionIndex, fs: Arc, http_client: Arc, reload_tx: UnboundedSender>>, reload_complete_senders: Vec>, installed_dir: PathBuf, outstanding_operations: HashMap, ExtensionOperation>, index_path: PathBuf, language_registry: Arc, theme_registry: Arc, modified_extensions: HashSet>, wasm_host: Arc, wasm_extensions: Vec<(Arc, WasmExtension)>, tasks: Vec>, } #[derive(Clone)] pub enum ExtensionStatus { NotInstalled, Installing, Upgrading, Installed(Arc), Removing, } enum ExtensionOperation { Upgrade, Install, Remove, } #[derive(Copy, Clone)] pub enum Event { ExtensionsUpdated, StartedReloading, } impl EventEmitter for ExtensionStore {} struct GlobalExtensionStore(Model); impl Global for GlobalExtensionStore {} #[derive(Debug, Deserialize, Serialize, Default, PartialEq, Eq)] pub struct ExtensionIndex { pub extensions: BTreeMap, ExtensionIndexEntry>, pub themes: BTreeMap, ExtensionIndexThemeEntry>, pub languages: BTreeMap, ExtensionIndexLanguageEntry>, } #[derive(Clone, PartialEq, Eq, Debug, Deserialize, Serialize)] pub struct ExtensionIndexEntry { manifest: Arc, dev: bool, } #[derive(Clone, PartialEq, Eq, PartialOrd, Ord, Debug, Deserialize, Serialize)] pub struct ExtensionIndexThemeEntry { extension: Arc, path: PathBuf, } #[derive(Clone, PartialEq, Eq, PartialOrd, Ord, Debug, Deserialize, Serialize)] pub struct ExtensionIndexLanguageEntry { extension: Arc, path: PathBuf, matcher: LanguageMatcher, grammar: Option>, } actions!(zed, [ReloadExtensions]); pub fn init( fs: Arc, http_client: Arc, node_runtime: Arc, language_registry: Arc, theme_registry: Arc, cx: &mut AppContext, ) { let store = cx.new_model(move |cx| { ExtensionStore::new( EXTENSIONS_DIR.clone(), None, fs, http_client, node_runtime, language_registry, theme_registry, cx, ) }); cx.on_action(|_: &ReloadExtensions, cx| { let store = cx.global::().0.clone(); store.update(cx, |store, cx| drop(store.reload(None, cx))); }); cx.set_global(GlobalExtensionStore(store)); } impl ExtensionStore { pub fn global(cx: &AppContext) -> Model { cx.global::().0.clone() } #[allow(clippy::too_many_arguments)] pub fn new( extensions_dir: PathBuf, build_dir: Option, fs: Arc, http_client: Arc, node_runtime: Arc, language_registry: Arc, theme_registry: Arc, cx: &mut ModelContext, ) -> Self { let work_dir = extensions_dir.join("work"); let build_dir = build_dir.unwrap_or_else(|| extensions_dir.join("build")); let installed_dir = extensions_dir.join("installed"); let index_path = extensions_dir.join("index.json"); let (reload_tx, mut reload_rx) = unbounded(); let mut this = Self { extension_index: Default::default(), installed_dir, index_path, builder: Arc::new(ExtensionBuilder::new(build_dir, http_client.clone())), outstanding_operations: Default::default(), modified_extensions: Default::default(), reload_complete_senders: Vec::new(), wasm_host: WasmHost::new( fs.clone(), http_client.clone(), node_runtime, language_registry.clone(), work_dir, ), wasm_extensions: Vec::new(), fs, http_client, language_registry, theme_registry, reload_tx, tasks: Vec::new(), }; // The extensions store maintains an index file, which contains a complete // list of the installed extensions and the resources that they provide. // This index is loaded synchronously on startup. let (index_content, index_metadata, extensions_metadata) = cx.background_executor().block(async { futures::join!( this.fs.load(&this.index_path), this.fs.metadata(&this.index_path), this.fs.metadata(&this.installed_dir), ) }); // Normally, there is no need to rebuild the index. But if the index file // is invalid or is out-of-date according to the filesystem mtimes, then // it must be asynchronously rebuilt. let mut extension_index = ExtensionIndex::default(); let mut extension_index_needs_rebuild = true; if let Some(index_content) = index_content.ok() { if let Some(index) = serde_json::from_str(&index_content).log_err() { extension_index = index; if let (Ok(Some(index_metadata)), Ok(Some(extensions_metadata))) = (index_metadata, extensions_metadata) { if index_metadata.mtime > extensions_metadata.mtime { extension_index_needs_rebuild = false; } } } } // Immediately load all of the extensions in the initial manifest. If the // index needs to be rebuild, then enqueue let load_initial_extensions = this.extensions_updated(extension_index, cx); if extension_index_needs_rebuild { let _ = this.reload(None, cx); } // Perform all extension loading in a single task to ensure that we // never attempt to simultaneously load/unload extensions from multiple // parallel tasks. this.tasks.push(cx.spawn(|this, mut cx| { async move { load_initial_extensions.await; let mut debounce_timer = cx .background_executor() .spawn(futures::future::pending()) .fuse(); loop { select_biased! { _ = debounce_timer => { let index = this .update(&mut cx, |this, cx| this.rebuild_extension_index(cx))? .await; this.update(&mut cx, |this, cx| this.extensions_updated(index, cx))? .await; } extension_id = reload_rx.next() => { let Some(extension_id) = extension_id else { break; }; this.update(&mut cx, |this, _| { this.modified_extensions.extend(extension_id); })?; debounce_timer = cx .background_executor() .timer(RELOAD_DEBOUNCE_DURATION) .fuse(); } } } anyhow::Ok(()) } .map(drop) })); // Watch the installed extensions directory for changes. Whenever changes are // detected, rebuild the extension index, and load/unload any extensions that // have been added, removed, or modified. this.tasks.push(cx.background_executor().spawn({ let fs = this.fs.clone(); let reload_tx = this.reload_tx.clone(); let installed_dir = this.installed_dir.clone(); async move { let mut events = fs.watch(&installed_dir, FS_WATCH_LATENCY).await; while let Some(events) = events.next().await { for event in events { let Ok(event_path) = event.path.strip_prefix(&installed_dir) else { continue; }; if let Some(path::Component::Normal(extension_dir_name)) = event_path.components().next() { if let Some(extension_id) = extension_dir_name.to_str() { reload_tx.unbounded_send(Some(extension_id.into())).ok(); } } } } } })); this } fn reload( &mut self, modified_extension: Option>, cx: &mut ModelContext, ) -> impl Future { let (tx, rx) = oneshot::channel(); self.reload_complete_senders.push(tx); self.reload_tx .unbounded_send(modified_extension) .expect("reload task exited"); cx.emit(Event::StartedReloading); async move { rx.await.ok(); } } fn extensions_dir(&self) -> PathBuf { self.installed_dir.clone() } pub fn extension_status(&self, extension_id: &str) -> ExtensionStatus { match self.outstanding_operations.get(extension_id) { Some(ExtensionOperation::Install) => ExtensionStatus::Installing, Some(ExtensionOperation::Remove) => ExtensionStatus::Removing, Some(ExtensionOperation::Upgrade) => ExtensionStatus::Upgrading, None => match self.extension_index.extensions.get(extension_id) { Some(extension) => ExtensionStatus::Installed(extension.manifest.version.clone()), None => ExtensionStatus::NotInstalled, }, } } pub fn dev_extensions(&self) -> impl Iterator> { self.extension_index .extensions .values() .filter_map(|extension| extension.dev.then_some(&extension.manifest)) } pub fn fetch_extensions( &self, search: Option<&str>, cx: &mut ModelContext, ) -> Task>> { let url = self.http_client.build_zed_api_url(&format!( "/extensions{query}", query = search .map(|search| format!("?filter={search}")) .unwrap_or_default() )); let http_client = self.http_client.clone(); cx.spawn(move |_, _| async move { let mut response = http_client.get(&url, AsyncBody::empty(), true).await?; let mut body = Vec::new(); response .body_mut() .read_to_end(&mut body) .await .context("error reading extensions")?; if response.status().is_client_error() { let text = String::from_utf8_lossy(body.as_slice()); bail!( "status error {}, response: {text:?}", response.status().as_u16() ); } let response: ExtensionsApiResponse = serde_json::from_slice(&body)?; Ok(response.data) }) } pub fn install_extension( &mut self, extension_id: Arc, version: Arc, cx: &mut ModelContext, ) { self.install_or_upgrade_extension(extension_id, version, ExtensionOperation::Install, cx) } pub fn upgrade_extension( &mut self, extension_id: Arc, version: Arc, cx: &mut ModelContext, ) { self.install_or_upgrade_extension(extension_id, version, ExtensionOperation::Upgrade, cx) } fn install_or_upgrade_extension( &mut self, extension_id: Arc, version: Arc, operation: ExtensionOperation, cx: &mut ModelContext, ) { log::info!("installing extension {extension_id} {version}"); let url = self .http_client .build_zed_api_url(&format!("/extensions/{extension_id}/{version}/download")); let extensions_dir = self.extensions_dir(); let http_client = self.http_client.clone(); match self.outstanding_operations.entry(extension_id.clone()) { hash_map::Entry::Occupied(_) => return, hash_map::Entry::Vacant(e) => e.insert(operation), }; cx.spawn(move |this, mut cx| async move { let _finish = util::defer({ let this = this.clone(); let mut cx = cx.clone(); let extension_id = extension_id.clone(); move || { this.update(&mut cx, |this, cx| { this.outstanding_operations.remove(extension_id.as_ref()); cx.notify(); }) .ok(); } }); let mut response = http_client .get(&url, Default::default(), true) .await .map_err(|err| anyhow!("error downloading extension: {}", err))?; let decompressed_bytes = GzipDecoder::new(BufReader::new(response.body_mut())); let archive = Archive::new(decompressed_bytes); archive .unpack(extensions_dir.join(extension_id.as_ref())) .await?; this.update(&mut cx, |this, cx| this.reload(Some(extension_id), cx))? .await; anyhow::Ok(()) }) .detach_and_log_err(cx); } pub fn uninstall_extension(&mut self, extension_id: Arc, cx: &mut ModelContext) { let extensions_dir = self.extensions_dir(); let fs = self.fs.clone(); match self.outstanding_operations.entry(extension_id.clone()) { hash_map::Entry::Occupied(_) => return, hash_map::Entry::Vacant(e) => e.insert(ExtensionOperation::Remove), }; cx.spawn(move |this, mut cx| async move { let _finish = util::defer({ let this = this.clone(); let mut cx = cx.clone(); let extension_id = extension_id.clone(); move || { this.update(&mut cx, |this, cx| { this.outstanding_operations.remove(extension_id.as_ref()); cx.notify(); }) .ok(); } }); fs.remove_dir( &extensions_dir.join(extension_id.as_ref()), RemoveOptions { recursive: true, ignore_if_not_exists: true, }, ) .await?; this.update(&mut cx, |this, cx| this.reload(None, cx))? .await; anyhow::Ok(()) }) .detach_and_log_err(cx) } pub fn install_dev_extension( &mut self, extension_source_path: PathBuf, cx: &mut ModelContext, ) -> Task> { let extensions_dir = self.extensions_dir(); let fs = self.fs.clone(); let builder = self.builder.clone(); cx.spawn(move |this, mut cx| async move { let extension_manifest = Self::load_extension_manifest(fs.clone(), &extension_source_path).await?; let extension_id = extension_manifest.id.clone(); if !this.update(&mut cx, |this, cx| { match this.outstanding_operations.entry(extension_id.clone()) { hash_map::Entry::Occupied(_) => return false, hash_map::Entry::Vacant(e) => e.insert(ExtensionOperation::Remove), }; cx.notify(); true })? { return Ok(()); } let _finish = util::defer({ let this = this.clone(); let mut cx = cx.clone(); let extension_id = extension_id.clone(); move || { this.update(&mut cx, |this, cx| { this.outstanding_operations.remove(extension_id.as_ref()); cx.notify(); }) .ok(); } }); cx.background_executor() .spawn({ let extension_source_path = extension_source_path.clone(); async move { builder .compile_extension( &extension_source_path, CompileExtensionOptions { release: true }, ) .await } }) .await?; let output_path = &extensions_dir.join(extension_id.as_ref()); if let Some(metadata) = fs.metadata(&output_path).await? { if metadata.is_symlink { fs.remove_file( &output_path, RemoveOptions { recursive: false, ignore_if_not_exists: true, }, ) .await?; } else { bail!("extension {extension_id} is already installed"); } } fs.create_symlink(output_path, extension_source_path) .await?; this.update(&mut cx, |this, cx| this.reload(None, cx))? .await; Ok(()) }) } pub fn rebuild_dev_extension(&mut self, extension_id: Arc, cx: &mut ModelContext) { let path = self.installed_dir.join(extension_id.as_ref()); let builder = self.builder.clone(); match self.outstanding_operations.entry(extension_id.clone()) { hash_map::Entry::Occupied(_) => return, hash_map::Entry::Vacant(e) => e.insert(ExtensionOperation::Upgrade), }; cx.notify(); let compile = cx.background_executor().spawn(async move { builder .compile_extension(&path, CompileExtensionOptions { release: true }) .await }); cx.spawn(|this, mut cx| async move { let result = compile.await; this.update(&mut cx, |this, cx| { this.outstanding_operations.remove(&extension_id); cx.notify(); })?; if result.is_ok() { this.update(&mut cx, |this, cx| this.reload(Some(extension_id), cx))? .await; } result }) .detach_and_log_err(cx) } /// Updates the set of installed extensions. /// /// First, this unloads any themes, languages, or grammars that are /// no longer in the manifest, or whose files have changed on disk. /// Then it loads any themes, languages, or grammars that are newly /// added to the manifest, or whose files have changed on disk. fn extensions_updated( &mut self, new_index: ExtensionIndex, cx: &mut ModelContext, ) -> Task<()> { let old_index = &self.extension_index; // Determine which extensions need to be loaded and unloaded, based // on the changes to the manifest and the extensions that we know have been // modified. let mut extensions_to_unload = Vec::default(); let mut extensions_to_load = Vec::default(); { let mut old_keys = old_index.extensions.iter().peekable(); let mut new_keys = new_index.extensions.iter().peekable(); loop { match (old_keys.peek(), new_keys.peek()) { (None, None) => break, (None, Some(_)) => { extensions_to_load.push(new_keys.next().unwrap().0.clone()); } (Some(_), None) => { extensions_to_unload.push(old_keys.next().unwrap().0.clone()); } (Some((old_key, _)), Some((new_key, _))) => match old_key.cmp(&new_key) { Ordering::Equal => { let (old_key, old_value) = old_keys.next().unwrap(); let (new_key, new_value) = new_keys.next().unwrap(); if old_value != new_value || self.modified_extensions.contains(old_key) { extensions_to_unload.push(old_key.clone()); extensions_to_load.push(new_key.clone()); } } Ordering::Less => { extensions_to_unload.push(old_keys.next().unwrap().0.clone()); } Ordering::Greater => { extensions_to_load.push(new_keys.next().unwrap().0.clone()); } }, } } self.modified_extensions.clear(); } if extensions_to_load.is_empty() && extensions_to_unload.is_empty() { return Task::ready(()); } let reload_count = extensions_to_unload .iter() .filter(|id| extensions_to_load.contains(id)) .count(); log::info!( "extensions updated. loading {}, reloading {}, unloading {}", extensions_to_load.len() - reload_count, reload_count, extensions_to_unload.len() - reload_count ); let themes_to_remove = old_index .themes .iter() .filter_map(|(name, entry)| { if extensions_to_unload.contains(&entry.extension) { Some(name.clone().into()) } else { None } }) .collect::>(); let languages_to_remove = old_index .languages .iter() .filter_map(|(name, entry)| { if extensions_to_unload.contains(&entry.extension) { Some(name.clone()) } else { None } }) .collect::>(); let mut grammars_to_remove = Vec::new(); for extension_id in &extensions_to_unload { let Some(extension) = old_index.extensions.get(extension_id) else { continue; }; grammars_to_remove.extend(extension.manifest.grammars.keys().cloned()); for (language_server_name, config) in extension.manifest.language_servers.iter() { self.language_registry .remove_lsp_adapter(config.language.as_ref(), language_server_name); } } self.wasm_extensions .retain(|(extension, _)| !extensions_to_unload.contains(&extension.id)); self.theme_registry.remove_user_themes(&themes_to_remove); self.language_registry .remove_languages(&languages_to_remove, &grammars_to_remove); let languages_to_add = new_index .languages .iter() .filter(|(_, entry)| extensions_to_load.contains(&entry.extension)) .collect::>(); let mut grammars_to_add = Vec::new(); let mut themes_to_add = Vec::new(); for extension_id in &extensions_to_load { let Some(extension) = new_index.extensions.get(extension_id) else { continue; }; grammars_to_add.extend(extension.manifest.grammars.keys().map(|grammar_name| { let mut grammar_path = self.installed_dir.clone(); grammar_path.extend([extension_id.as_ref(), "grammars"]); grammar_path.push(grammar_name.as_ref()); grammar_path.set_extension("wasm"); (grammar_name.clone(), grammar_path) })); themes_to_add.extend(extension.manifest.themes.iter().map(|theme_path| { let mut path = self.installed_dir.clone(); path.extend([Path::new(extension_id.as_ref()), theme_path.as_path()]); path })); } self.language_registry .register_wasm_grammars(grammars_to_add); for (language_name, language) in languages_to_add { let mut language_path = self.installed_dir.clone(); language_path.extend([ Path::new(language.extension.as_ref()), language.path.as_path(), ]); self.language_registry.register_language( language_name.clone(), language.grammar.clone(), language.matcher.clone(), None, move || { let config = std::fs::read_to_string(language_path.join("config.toml"))?; let config: LanguageConfig = ::toml::from_str(&config)?; let queries = load_plugin_queries(&language_path); Ok((config, queries)) }, ); } let fs = self.fs.clone(); let wasm_host = self.wasm_host.clone(); let root_dir = self.installed_dir.clone(); let theme_registry = self.theme_registry.clone(); let extension_entries = extensions_to_load .iter() .filter_map(|name| new_index.extensions.get(name).cloned()) .collect::>(); self.extension_index = new_index; cx.notify(); cx.emit(Event::ExtensionsUpdated); cx.spawn(|this, mut cx| async move { cx.background_executor() .spawn({ let fs = fs.clone(); async move { for theme_path in &themes_to_add { theme_registry .load_user_theme(&theme_path, fs.clone()) .await .log_err(); } } }) .await; let mut wasm_extensions = Vec::new(); for extension in extension_entries { if extension.manifest.lib.kind.is_none() { continue; }; let mut path = root_dir.clone(); path.extend([extension.manifest.id.as_ref(), "extension.wasm"]); let Some(mut wasm_file) = fs .open_sync(&path) .await .context("failed to open wasm file") .log_err() else { continue; }; let mut wasm_bytes = Vec::new(); if wasm_file .read_to_end(&mut wasm_bytes) .context("failed to read wasm") .log_err() .is_none() { continue; } let Some(wasm_extension) = wasm_host .load_extension( wasm_bytes, extension.manifest.clone(), cx.background_executor().clone(), ) .await .context("failed to load wasm extension") .log_err() else { continue; }; wasm_extensions.push((extension.manifest.clone(), wasm_extension)); } this.update(&mut cx, |this, cx| { this.reload_complete_senders.clear(); for (manifest, wasm_extension) in &wasm_extensions { for (language_server_name, language_server_config) in &manifest.language_servers { this.language_registry.register_lsp_adapter( language_server_config.language.clone(), Arc::new(ExtensionLspAdapter { extension: wasm_extension.clone(), host: this.wasm_host.clone(), config: wit::LanguageServerConfig { name: language_server_name.0.to_string(), language_name: language_server_config.language.to_string(), }, }), ); } } this.wasm_extensions.extend(wasm_extensions); ThemeSettings::reload_current_theme(cx) }) .ok(); }) } fn rebuild_extension_index(&self, cx: &mut ModelContext) -> Task { let fs = self.fs.clone(); let work_dir = self.wasm_host.work_dir.clone(); let extensions_dir = self.installed_dir.clone(); let index_path = self.index_path.clone(); cx.background_executor().spawn(async move { let start_time = Instant::now(); let mut index = ExtensionIndex::default(); fs.create_dir(&work_dir).await.log_err(); fs.create_dir(&extensions_dir).await.log_err(); let extension_paths = fs.read_dir(&extensions_dir).await; if let Ok(mut extension_paths) = extension_paths { while let Some(extension_dir) = extension_paths.next().await { let Ok(extension_dir) = extension_dir else { continue; }; Self::add_extension_to_index(fs.clone(), extension_dir, &mut index) .await .log_err(); } } if let Ok(index_json) = serde_json::to_string_pretty(&index) { fs.save(&index_path, &index_json.as_str().into(), Default::default()) .await .context("failed to save extension index") .log_err(); } log::info!("rebuilt extension index in {:?}", start_time.elapsed()); index }) } async fn add_extension_to_index( fs: Arc, extension_dir: PathBuf, index: &mut ExtensionIndex, ) -> Result<()> { let mut extension_manifest = Self::load_extension_manifest(fs.clone(), &extension_dir).await?; let extension_id = extension_manifest.id.clone(); // TODO: distinguish dev extensions more explicitly, by the absence // of a checksum file that we'll create when downloading normal extensions. let is_dev = fs .metadata(&extension_dir) .await? .ok_or_else(|| anyhow!("directory does not exist"))? .is_symlink; if let Ok(mut language_paths) = fs.read_dir(&extension_dir.join("languages")).await { while let Some(language_path) = language_paths.next().await { let language_path = language_path?; let Ok(relative_path) = language_path.strip_prefix(&extension_dir) else { continue; }; let Ok(Some(fs_metadata)) = fs.metadata(&language_path).await else { continue; }; if !fs_metadata.is_dir { continue; } let config = fs.load(&language_path.join("config.toml")).await?; let config = ::toml::from_str::(&config)?; let relative_path = relative_path.to_path_buf(); if !extension_manifest.languages.contains(&relative_path) { extension_manifest.languages.push(relative_path.clone()); } index.languages.insert( config.name.clone(), ExtensionIndexLanguageEntry { extension: extension_id.clone(), path: relative_path, matcher: config.matcher, grammar: config.grammar, }, ); } } if let Ok(mut theme_paths) = fs.read_dir(&extension_dir.join("themes")).await { while let Some(theme_path) = theme_paths.next().await { let theme_path = theme_path?; let Ok(relative_path) = theme_path.strip_prefix(&extension_dir) else { continue; }; let Some(theme_family) = ThemeRegistry::read_user_theme(&theme_path, fs.clone()) .await .log_err() else { continue; }; let relative_path = relative_path.to_path_buf(); if !extension_manifest.themes.contains(&relative_path) { extension_manifest.themes.push(relative_path.clone()); } for theme in theme_family.themes { index.themes.insert( theme.name.into(), ExtensionIndexThemeEntry { extension: extension_id.clone(), path: relative_path.clone(), }, ); } } } let extension_wasm_path = extension_dir.join("extension.wasm"); if fs.is_file(&extension_wasm_path).await { extension_manifest .lib .kind .get_or_insert(ExtensionLibraryKind::Rust); } index.extensions.insert( extension_id.clone(), ExtensionIndexEntry { dev: is_dev, manifest: Arc::new(extension_manifest), }, ); Ok(()) } async fn load_extension_manifest( fs: Arc, extension_dir: &Path, ) -> Result { let extension_name = extension_dir .file_name() .and_then(OsStr::to_str) .ok_or_else(|| anyhow!("invalid extension name"))?; let mut extension_manifest_path = extension_dir.join("extension.json"); if fs.is_file(&extension_manifest_path).await { let manifest_content = fs .load(&extension_manifest_path) .await .with_context(|| format!("failed to load {extension_name} extension.json"))?; let manifest_json = serde_json::from_str::(&manifest_content) .with_context(|| { format!("invalid extension.json for extension {extension_name}") })?; Ok(manifest_from_old_manifest(manifest_json, extension_name)) } else { extension_manifest_path.set_extension("toml"); let manifest_content = fs .load(&extension_manifest_path) .await .with_context(|| format!("failed to load {extension_name} extension.toml"))?; toml::from_str(&manifest_content) .with_context(|| format!("invalid extension.json for extension {extension_name}")) } } } fn manifest_from_old_manifest( manifest_json: OldExtensionManifest, extension_id: &str, ) -> ExtensionManifest { ExtensionManifest { id: extension_id.into(), name: manifest_json.name, version: manifest_json.version, description: manifest_json.description, repository: manifest_json.repository, authors: manifest_json.authors, lib: Default::default(), themes: { let mut themes = manifest_json.themes.into_values().collect::>(); themes.sort(); themes.dedup(); themes }, languages: { let mut languages = manifest_json.languages.into_values().collect::>(); languages.sort(); languages.dedup(); languages }, grammars: manifest_json .grammars .into_keys() .map(|grammar_name| (grammar_name, Default::default())) .collect(), language_servers: Default::default(), } } fn load_plugin_queries(root_path: &Path) -> LanguageQueries { let mut result = LanguageQueries::default(); if let Some(entries) = std::fs::read_dir(root_path).log_err() { for entry in entries { let Some(entry) = entry.log_err() else { continue; }; let path = entry.path(); if let Some(remainder) = path.strip_prefix(root_path).ok().and_then(|p| p.to_str()) { if !remainder.ends_with(".scm") { continue; } for (name, query) in QUERY_FILENAME_PREFIXES { if remainder.starts_with(name) { if let Some(contents) = std::fs::read_to_string(&path).log_err() { match query(&mut result) { None => *query(&mut result) = Some(contents.into()), Some(r) => r.to_mut().push_str(contents.as_ref()), } } break; } } } } } result }