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denoland-deno/cli/lsp/language_server.rs
Bartek Iwańczuk c6c8c91a6e
feat: embed import map in the config file (#17478)
This commit changes handling of config file to enable
specifying "imports" and "scopes" objects effectively making
the configuration file an import map.

"imports" and "scopes" take precedence over "importMap" configuration,
but have lower priority than "--importmap" CLI flag.

Co-authored-by: David Sherret <dsherret@users.noreply.github.com>
Co-authored-by: David Sherret <dsherret@gmail.com>
2023-01-25 21:13:40 +01:00

3184 lines
100 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use deno_ast::MediaType;
use deno_core::anyhow::anyhow;
use deno_core::error::AnyError;
use deno_core::resolve_url;
use deno_core::serde_json;
use deno_core::serde_json::json;
use deno_core::serde_json::Value;
use deno_core::ModuleSpecifier;
use import_map::ImportMap;
use log::error;
use log::warn;
use serde_json::from_value;
use std::collections::HashMap;
use std::env;
use std::fmt::Write as _;
use std::path::PathBuf;
use std::sync::Arc;
use tokio::fs;
use tower_lsp::jsonrpc::Error as LspError;
use tower_lsp::jsonrpc::Result as LspResult;
use tower_lsp::lsp_types::request::*;
use tower_lsp::lsp_types::*;
use super::analysis::fix_ts_import_changes;
use super::analysis::ts_changes_to_edit;
use super::analysis::CodeActionCollection;
use super::analysis::CodeActionData;
use super::cache;
use super::capabilities;
use super::client::Client;
use super::code_lens;
use super::completions;
use super::config::Config;
use super::config::SETTINGS_SECTION;
use super::diagnostics;
use super::diagnostics::DiagnosticsServer;
use super::documents::to_hover_text;
use super::documents::to_lsp_range;
use super::documents::AssetOrDocument;
use super::documents::Document;
use super::documents::Documents;
use super::documents::LanguageId;
use super::logging::lsp_log;
use super::lsp_custom;
use super::parent_process_checker;
use super::performance::Performance;
use super::performance::PerformanceMark;
use super::refactor;
use super::registries::ModuleRegistry;
use super::testing;
use super::text;
use super::tsc;
use super::tsc::Assets;
use super::tsc::AssetsSnapshot;
use super::tsc::TsServer;
use super::urls;
use crate::args::get_root_cert_store;
use crate::args::import_map_from_value;
use crate::args::CaData;
use crate::args::CacheSetting;
use crate::args::CliOptions;
use crate::args::ConfigFile;
use crate::args::Flags;
use crate::args::FmtOptions;
use crate::args::LintOptions;
use crate::args::TsConfig;
use crate::cache::DenoDir;
use crate::file_fetcher::get_source_from_data_url;
use crate::graph_util::graph_valid;
use crate::http_util::HttpClient;
use crate::npm::NpmCache;
use crate::npm::NpmPackageResolver;
use crate::npm::RealNpmRegistryApi;
use crate::proc_state::ProcState;
use crate::tools::fmt::format_file;
use crate::tools::fmt::format_parsed_source;
use crate::util::fs::remove_dir_all_if_exists;
use crate::util::path::ensure_directory_specifier;
use crate::util::path::specifier_to_file_path;
use crate::util::progress_bar::ProgressBar;
use crate::util::progress_bar::ProgressBarStyle;
#[derive(Debug, Clone)]
pub struct LanguageServer(Arc<tokio::sync::RwLock<Inner>>);
/// Snapshot of the state used by TSC.
#[derive(Debug, Default)]
pub struct StateSnapshot {
pub assets: AssetsSnapshot,
pub cache_metadata: cache::CacheMetadata,
pub documents: Documents,
pub maybe_import_map: Option<Arc<ImportMap>>,
pub root_uri: Option<Url>,
pub maybe_npm_resolver: Option<NpmPackageResolver>,
}
#[derive(Debug)]
pub struct Inner {
/// Cached versions of "fixed" assets that can either be inlined in Rust or
/// are part of the TypeScript snapshot and have to be fetched out.
assets: Assets,
/// A representation of metadata associated with specifiers in the DENO_DIR
/// which is used by the language server
cache_metadata: cache::CacheMetadata,
/// The LSP client that this LSP server is connected to.
pub client: Client,
/// Configuration information.
pub config: Config,
diagnostics_server: diagnostics::DiagnosticsServer,
/// The collection of documents that the server is currently handling, either
/// on disk or "open" within the client.
pub documents: Documents,
/// Handles module registries, which allow discovery of modules
module_registries: ModuleRegistry,
/// The path to the module registries cache
module_registries_location: PathBuf,
/// An optional path to the DENO_DIR which has been specified in the client
/// options.
maybe_cache_path: Option<PathBuf>,
/// An optional configuration file which has been specified in the client
/// options.
maybe_config_file: Option<ConfigFile>,
/// An optional import map which is used to resolve modules.
pub maybe_import_map: Option<Arc<ImportMap>>,
/// The URL for the import map which is used to determine relative imports.
maybe_import_map_uri: Option<Url>,
/// Configuration for formatter which has been taken from specified config file.
fmt_options: FmtOptions,
/// An optional configuration for linter which has been taken from specified config file.
lint_options: LintOptions,
/// A lazily create "server" for handling test run requests.
maybe_testing_server: Option<testing::TestServer>,
/// Resolver for npm packages.
npm_resolver: NpmPackageResolver,
/// A collection of measurements which instrument that performance of the LSP.
performance: Arc<Performance>,
/// A memoized version of fixable diagnostic codes retrieved from TypeScript.
ts_fixable_diagnostics: Vec<String>,
/// An abstraction that handles interactions with TypeScript.
pub ts_server: Arc<TsServer>,
/// A map of specifiers and URLs used to translate over the LSP.
pub url_map: urls::LspUrlMap,
}
impl LanguageServer {
pub fn new(client: Client) -> Self {
Self(Arc::new(tokio::sync::RwLock::new(Inner::new(client))))
}
/// Similar to `deno cache` on the command line, where modules will be cached
/// in the Deno cache, including any of their dependencies.
pub async fn cache_request(
&self,
params: Option<Value>,
) -> LspResult<Option<Value>> {
async fn create_graph_for_caching(
cli_options: CliOptions,
roots: Vec<ModuleSpecifier>,
open_docs: Vec<Document>,
) -> Result<(), AnyError> {
let open_docs = open_docs
.into_iter()
.map(|d| (d.specifier().clone(), d))
.collect::<HashMap<_, _>>();
let ps = ProcState::from_options(Arc::new(cli_options)).await?;
let mut inner_loader = ps.create_graph_loader();
let mut loader = crate::lsp::documents::OpenDocumentsGraphLoader {
inner_loader: &mut inner_loader,
open_docs: &open_docs,
};
let graph = ps.create_graph_with_loader(roots, &mut loader).await?;
graph_valid(&graph, true, false)?;
Ok(())
}
match params.map(serde_json::from_value) {
Some(Ok(params)) => {
// do as much as possible in a read, then do a write outside
let result = {
let inner = self.0.read().await; // ensure dropped
inner.prepare_cache(params)?
};
if let Some(result) = result {
let cli_options = result.cli_options;
let roots = result.roots;
let open_docs = result.open_docs;
let handle = tokio::task::spawn_local(async move {
create_graph_for_caching(cli_options, roots, open_docs).await
});
if let Err(err) = handle.await.unwrap() {
self
.0
.read()
.await
.client
.show_message(MessageType::WARNING, err)
.await;
}
// do npm resolution in a write—we should have everything
// cached by this point anyway
self.0.write().await.refresh_npm_specifiers().await;
// now refresh the data in a read
self.0.read().await.post_cache(result.mark).await;
}
Ok(Some(json!(true)))
}
Some(Err(err)) => Err(LspError::invalid_params(err.to_string())),
None => Err(LspError::invalid_params("Missing parameters")),
}
}
pub async fn performance_request(&self) -> LspResult<Option<Value>> {
Ok(Some(self.0.read().await.get_performance()))
}
pub async fn reload_import_registries_request(
&self,
) -> LspResult<Option<Value>> {
self.0.write().await.reload_import_registries().await
}
pub async fn task_request(&self) -> LspResult<Option<Value>> {
self.0.read().await.get_tasks()
}
pub async fn test_run_request(
&self,
params: Option<Value>,
) -> LspResult<Option<Value>> {
let inner = self.0.read().await;
if let Some(testing_server) = &inner.maybe_testing_server {
match params.map(serde_json::from_value) {
Some(Ok(params)) => testing_server
.run_request(params, inner.config.get_workspace_settings()),
Some(Err(err)) => Err(LspError::invalid_params(err.to_string())),
None => Err(LspError::invalid_params("Missing parameters")),
}
} else {
Err(LspError::invalid_request())
}
}
pub async fn test_run_cancel_request(
&self,
params: Option<Value>,
) -> LspResult<Option<Value>> {
if let Some(testing_server) = &self.0.read().await.maybe_testing_server {
match params.map(serde_json::from_value) {
Some(Ok(params)) => testing_server.run_cancel_request(params),
Some(Err(err)) => Err(LspError::invalid_params(err.to_string())),
None => Err(LspError::invalid_params("Missing parameters")),
}
} else {
Err(LspError::invalid_request())
}
}
pub async fn inlay_hint(
&self,
params: InlayHintParams,
) -> LspResult<Option<Vec<InlayHint>>> {
self.0.read().await.inlay_hint(params).await
}
pub async fn virtual_text_document(
&self,
params: Option<Value>,
) -> LspResult<Option<Value>> {
match params.map(serde_json::from_value) {
Some(Ok(params)) => Ok(Some(
serde_json::to_value(
self.0.read().await.virtual_text_document(params)?,
)
.map_err(|err| {
error!(
"Failed to serialize virtual_text_document response: {}",
err
);
LspError::internal_error()
})?,
)),
Some(Err(err)) => Err(LspError::invalid_params(err.to_string())),
None => Err(LspError::invalid_params("Missing parameters")),
}
}
}
fn create_lsp_npm_resolver(
dir: &DenoDir,
http_client: HttpClient,
) -> NpmPackageResolver {
let registry_url = RealNpmRegistryApi::default_url();
let progress_bar = ProgressBar::new(ProgressBarStyle::TextOnly);
let npm_cache = NpmCache::from_deno_dir(
dir,
// Use an "only" cache setting in order to make the
// user do an explicit "cache" command and prevent
// the cache from being filled with lots of packages while
// the user is typing.
CacheSetting::Only,
http_client.clone(),
progress_bar.clone(),
);
let api = RealNpmRegistryApi::new(
registry_url,
npm_cache.clone(),
http_client,
progress_bar,
);
NpmPackageResolver::new(npm_cache, api, false, None)
}
impl Inner {
fn new(client: Client) -> Self {
let maybe_custom_root = env::var("DENO_DIR").map(String::into).ok();
let dir =
DenoDir::new(maybe_custom_root).expect("could not access DENO_DIR");
let module_registries_location = dir.registries_folder_path();
let http_client = HttpClient::new(None, None).unwrap();
let module_registries =
ModuleRegistry::new(&module_registries_location, http_client.clone())
.unwrap();
let location = dir.deps_folder_path();
let documents = Documents::new(&location);
let cache_metadata = cache::CacheMetadata::new(&location);
let performance = Arc::new(Performance::default());
let ts_server = Arc::new(TsServer::new(performance.clone()));
let config = Config::new();
let diagnostics_server = DiagnosticsServer::new(
client.clone(),
performance.clone(),
ts_server.clone(),
);
let assets = Assets::new(ts_server.clone());
let npm_resolver = create_lsp_npm_resolver(&dir, http_client);
Self {
assets,
cache_metadata,
client,
config,
diagnostics_server,
documents,
maybe_cache_path: None,
maybe_config_file: None,
maybe_import_map: None,
maybe_import_map_uri: None,
fmt_options: Default::default(),
lint_options: Default::default(),
maybe_testing_server: None,
module_registries,
module_registries_location,
npm_resolver,
performance,
ts_fixable_diagnostics: Default::default(),
ts_server,
url_map: Default::default(),
}
}
/// Searches assets and documents for the provided
/// specifier erroring if it doesn't exist.
pub fn get_asset_or_document(
&self,
specifier: &ModuleSpecifier,
) -> LspResult<AssetOrDocument> {
self.get_maybe_asset_or_document(specifier).map_or_else(
|| {
Err(LspError::invalid_params(format!(
"Unable to find asset or document for: {}",
specifier
)))
},
Ok,
)
}
/// Searches assets and documents for the provided specifier.
pub fn get_maybe_asset_or_document(
&self,
specifier: &ModuleSpecifier,
) -> Option<AssetOrDocument> {
if specifier.scheme() == "asset" {
self.assets.get(specifier).map(AssetOrDocument::Asset)
} else {
self.documents.get(specifier).map(AssetOrDocument::Document)
}
}
pub async fn get_navigation_tree(
&self,
specifier: &ModuleSpecifier,
) -> Result<Arc<tsc::NavigationTree>, AnyError> {
let mark = self.performance.mark(
"get_navigation_tree",
Some(json!({ "specifier": specifier })),
);
let asset_or_doc = self.get_asset_or_document(specifier)?;
let navigation_tree =
if let Some(navigation_tree) = asset_or_doc.maybe_navigation_tree() {
navigation_tree
} else {
let navigation_tree: tsc::NavigationTree = self
.ts_server
.request(
self.snapshot(),
tsc::RequestMethod::GetNavigationTree(specifier.clone()),
)
.await?;
let navigation_tree = Arc::new(navigation_tree);
match asset_or_doc {
AssetOrDocument::Asset(_) => self
.assets
.cache_navigation_tree(specifier, navigation_tree.clone())?,
AssetOrDocument::Document(doc) => {
self.documents.try_cache_navigation_tree(
specifier,
&doc.script_version(),
navigation_tree.clone(),
)?
}
}
navigation_tree
};
self.performance.measure(mark);
Ok(navigation_tree)
}
/// Returns a tuple with parsed `ConfigFile` and `Url` pointing to that file.
/// If there's no config file specified in settings returns `None`.
fn get_config_file(&self) -> Result<Option<ConfigFile>, AnyError> {
let workspace_settings = self.config.get_workspace_settings();
let maybe_config = workspace_settings.config;
if let Some(config_str) = &maybe_config {
if !config_str.is_empty() {
lsp_log!("Setting Deno configuration from: \"{}\"", config_str);
let config_url = if let Ok(url) = Url::from_file_path(config_str) {
Ok(url)
} else if let Some(root_uri) = &self.config.root_uri {
root_uri.join(config_str).map_err(|_| {
anyhow!("Bad file path for configuration file: \"{}\"", config_str)
})
} else {
Err(anyhow!(
"The path to the configuration file (\"{}\") is not resolvable.",
config_str
))
}?;
lsp_log!(" Resolved configuration file: \"{}\"", config_url);
let config_file = ConfigFile::from_specifier(&config_url)?;
return Ok(Some(config_file));
}
}
// Auto-discover config
// It is possible that root_uri is not set, for example when having a single
// file open and not a workspace. In those situations we can't
// automatically discover the configuration
if let Some(root_uri) = &self.config.root_uri {
let root_path = specifier_to_file_path(root_uri)?;
let mut checked = std::collections::HashSet::new();
let maybe_config = ConfigFile::discover_from(&root_path, &mut checked)?;
Ok(maybe_config.map(|c| {
lsp_log!(" Auto-resolved configuration file: \"{}\"", c.specifier);
c
}))
} else {
Ok(None)
}
}
fn is_diagnosable(&self, specifier: &ModuleSpecifier) -> bool {
if specifier.scheme() == "asset" {
matches!(
MediaType::from(specifier),
MediaType::JavaScript
| MediaType::Jsx
| MediaType::Mjs
| MediaType::Cjs
| MediaType::TypeScript
| MediaType::Tsx
| MediaType::Mts
| MediaType::Cts
| MediaType::Dts
| MediaType::Dmts
| MediaType::Dcts
)
} else {
self
.documents
.get(specifier)
.map(|d| d.is_diagnosable())
.unwrap_or(false)
}
}
fn merge_user_tsconfig(
&self,
tsconfig: &mut TsConfig,
) -> Result<(), AnyError> {
if let Some(config_file) = self.maybe_config_file.as_ref() {
let (value, maybe_ignored_options) = config_file.to_compiler_options()?;
tsconfig.merge(&value);
if let Some(ignored_options) = maybe_ignored_options {
// TODO(@kitsonk) turn these into diagnostics that can be sent to the
// client
warn!("{}", ignored_options);
}
}
Ok(())
}
pub fn snapshot(&self) -> Arc<StateSnapshot> {
Arc::new(StateSnapshot {
assets: self.assets.snapshot(),
cache_metadata: self.cache_metadata.clone(),
documents: self.documents.clone(),
maybe_import_map: self.maybe_import_map.clone(),
maybe_npm_resolver: Some(self.npm_resolver.snapshotted()),
root_uri: self.config.root_uri.clone(),
})
}
pub fn update_cache(&mut self) -> Result<(), AnyError> {
let mark = self.performance.mark("update_cache", None::<()>);
self.performance.measure(mark);
let maybe_cache = self.config.get_workspace_settings().cache;
let maybe_cache_path = if let Some(cache_str) = &maybe_cache {
lsp_log!("Setting cache path from: \"{}\"", cache_str);
let cache_url = if let Ok(url) = Url::from_file_path(cache_str) {
Ok(url)
} else if let Some(root_uri) = &self.config.root_uri {
let root_path = specifier_to_file_path(root_uri)?;
let cache_path = root_path.join(cache_str);
Url::from_file_path(cache_path).map_err(|_| {
anyhow!("Bad file path for import path: {:?}", cache_str)
})
} else {
Err(anyhow!(
"The path to the cache path (\"{}\") is not resolvable.",
cache_str
))
}?;
let cache_path = specifier_to_file_path(&cache_url)?;
lsp_log!(
" Resolved cache path: \"{}\"",
cache_path.to_string_lossy()
);
Some(cache_path)
} else {
None
};
if self.maybe_cache_path != maybe_cache_path {
self.recreate_http_client_and_dependents(maybe_cache_path)?;
}
Ok(())
}
/// Recreates the http client and all dependent structs.
fn recreate_http_client_and_dependents(
&mut self,
new_cache_path: Option<PathBuf>,
) -> Result<(), AnyError> {
let maybe_custom_root = new_cache_path
.clone()
.or_else(|| env::var("DENO_DIR").map(String::into).ok());
let dir = DenoDir::new(maybe_custom_root)?;
let workspace_settings = self.config.get_workspace_settings();
let maybe_root_path = self
.config
.root_uri
.as_ref()
.and_then(|uri| specifier_to_file_path(uri).ok());
let root_cert_store = Some(get_root_cert_store(
maybe_root_path,
workspace_settings.certificate_stores,
workspace_settings.tls_certificate.map(CaData::File),
)?);
let client = HttpClient::new(
root_cert_store,
workspace_settings.unsafely_ignore_certificate_errors,
)?;
let module_registries_location = dir.registries_folder_path();
self.module_registries =
ModuleRegistry::new(&module_registries_location, client.clone())?;
self.module_registries_location = module_registries_location;
self.npm_resolver = create_lsp_npm_resolver(&dir, client);
// update the cache path
let location = dir.deps_folder_path();
self.documents.set_location(&location);
self.cache_metadata.set_location(&location);
self.maybe_cache_path = new_cache_path;
Ok(())
}
pub async fn update_import_map(&mut self) -> Result<(), AnyError> {
let mark = self.performance.mark("update_import_map", None::<()>);
let maybe_import_map_url = self.resolve_import_map_specifier()?;
if let Some(import_map_url) = maybe_import_map_url {
let import_map = self
.resolve_import_map_from_specifier(&import_map_url)
.await
.map_err(|err| {
anyhow!(
"Failed to load the import map at: {}. {:#}",
import_map_url,
err
)
})?;
self.maybe_import_map_uri = Some(import_map_url);
self.maybe_import_map = Some(Arc::new(import_map));
} else {
self.maybe_import_map_uri = None;
self.maybe_import_map = None;
}
self.performance.measure(mark);
Ok(())
}
fn resolve_import_map_specifier(
&self,
) -> Result<Option<ModuleSpecifier>, AnyError> {
Ok(
if let Some(import_map_str) = self
.config
.get_workspace_settings()
.import_map
.and_then(|s| if s.is_empty() { None } else { Some(s) })
{
lsp_log!(
"Setting import map from workspace settings: \"{}\"",
import_map_str
);
if let Some(config_file) = &self.maybe_config_file {
if let Some(import_map_path) = config_file.to_import_map_path() {
lsp_log!("Warning: Import map \"{}\" configured in \"{}\" being ignored due to an import map being explicitly configured in workspace settings.", import_map_path, config_file.specifier);
}
}
if let Ok(url) = Url::from_file_path(&import_map_str) {
Some(url)
} else if import_map_str.starts_with("data:") {
let import_map_url = Url::parse(&import_map_str).map_err(|_| {
anyhow!("Bad data url for import map: {}", import_map_str)
})?;
Some(import_map_url)
} else if let Some(root_uri) = &self.config.root_uri {
let root_path = specifier_to_file_path(root_uri)?;
let import_map_path = root_path.join(&import_map_str);
let import_map_url =
Url::from_file_path(import_map_path).map_err(|_| {
anyhow!("Bad file path for import map: {}", import_map_str)
})?;
Some(import_map_url)
} else {
return Err(anyhow!(
"The path to the import map (\"{}\") is not resolvable.",
import_map_str
));
}
} else if let Some(config_file) = &self.maybe_config_file {
if config_file.is_an_import_map() {
lsp_log!(
"Setting import map defined in configuration file: \"{}\"",
config_file.specifier
);
let import_map_url = config_file.specifier.clone();
Some(import_map_url)
} else if let Some(import_map_path) = config_file.to_import_map_path() {
lsp_log!(
"Setting import map from configuration file: \"{}\"",
import_map_path
);
let specifier = if let Ok(config_file_path) =
config_file.specifier.to_file_path()
{
let import_map_file_path = config_file_path
.parent()
.ok_or_else(|| {
anyhow!("Bad config file specifier: {}", config_file.specifier)
})?
.join(&import_map_path);
ModuleSpecifier::from_file_path(import_map_file_path).unwrap()
} else {
deno_core::resolve_import(
&import_map_path,
config_file.specifier.as_str(),
)?
};
Some(specifier)
} else {
None
}
} else {
None
},
)
}
async fn resolve_import_map_from_specifier(
&self,
import_map_url: &ModuleSpecifier,
) -> Result<ImportMap, AnyError> {
let import_map_json: Value = if import_map_url.scheme() == "data" {
serde_json::from_str(&get_source_from_data_url(import_map_url)?.0)?
} else {
let import_map_path = specifier_to_file_path(import_map_url)?;
lsp_log!(
" Resolved import map: \"{}\"",
import_map_path.to_string_lossy()
);
let import_map_config_file = self
.maybe_config_file
.as_ref()
.filter(|c| c.specifier == *import_map_url);
match import_map_config_file {
Some(c) => c.to_import_map_value(),
None => {
serde_json::from_str(&fs::read_to_string(import_map_path).await?)?
}
}
};
import_map_from_value(import_map_url, import_map_json)
}
pub fn update_debug_flag(&self) {
let internal_debug = self.config.get_workspace_settings().internal_debug;
super::logging::set_lsp_debug_flag(internal_debug)
}
async fn update_registries(&mut self) -> Result<(), AnyError> {
let mark = self.performance.mark("update_registries", None::<()>);
self.recreate_http_client_and_dependents(self.maybe_cache_path.clone())?;
let workspace_settings = self.config.get_workspace_settings();
for (registry, enabled) in workspace_settings.suggest.imports.hosts.iter() {
if *enabled {
lsp_log!("Enabling import suggestions for: {}", registry);
self.module_registries.enable(registry).await?;
} else {
self.module_registries.disable(registry).await?;
}
}
self.performance.measure(mark);
Ok(())
}
fn update_config_file(&mut self) -> Result<(), AnyError> {
self.maybe_config_file = None;
self.fmt_options = Default::default();
self.lint_options = Default::default();
if let Some(config_file) = self.get_config_file()? {
let lint_options = config_file
.to_lint_config()
.and_then(|maybe_lint_config| {
LintOptions::resolve(maybe_lint_config, None)
})
.map_err(|err| {
anyhow!("Unable to update lint configuration: {:?}", err)
})?;
let fmt_options = config_file
.to_fmt_config()
.and_then(|maybe_fmt_config| {
FmtOptions::resolve(maybe_fmt_config, None)
})
.map_err(|err| {
anyhow!("Unable to update formatter configuration: {:?}", err)
})?;
self.maybe_config_file = Some(config_file);
self.lint_options = lint_options;
self.fmt_options = fmt_options;
}
Ok(())
}
async fn update_tsconfig(&mut self) -> Result<(), AnyError> {
let mark = self.performance.mark("update_tsconfig", None::<()>);
let mut tsconfig = TsConfig::new(json!({
"allowJs": true,
"esModuleInterop": true,
"experimentalDecorators": true,
"isolatedModules": true,
"jsx": "react",
"lib": ["deno.ns", "deno.window"],
"module": "esnext",
"moduleDetection": "force",
"noEmit": true,
"resolveJsonModule": true,
"strict": true,
"target": "esnext",
"useDefineForClassFields": true,
// TODO(@kitsonk) remove for Deno 1.15
"useUnknownInCatchVariables": false,
}));
let config = &self.config;
let workspace_settings = config.get_workspace_settings();
if workspace_settings.unstable {
let unstable_libs = json!({
"lib": ["deno.ns", "deno.window", "deno.unstable"]
});
tsconfig.merge(&unstable_libs);
}
if let Err(err) = self.merge_user_tsconfig(&mut tsconfig) {
self.client.show_message(MessageType::WARNING, err).await;
}
let _ok: bool = self
.ts_server
.request(self.snapshot(), tsc::RequestMethod::Configure(tsconfig))
.await?;
self.performance.measure(mark);
Ok(())
}
}
// lspower::LanguageServer methods. This file's LanguageServer delegates to us.
impl Inner {
async fn initialize(
&mut self,
params: InitializeParams,
) -> LspResult<InitializeResult> {
lsp_log!("Starting Deno language server...");
let mark = self.performance.mark("initialize", Some(&params));
// exit this process when the parent is lost
if let Some(parent_pid) = params.process_id {
parent_process_checker::start(parent_pid)
}
let capabilities = capabilities::server_capabilities(&params.capabilities);
let version = format!(
"{} ({}, {})",
crate::version::deno(),
env!("PROFILE"),
env!("TARGET")
);
lsp_log!(" version: {}", version);
if let Ok(path) = std::env::current_exe() {
lsp_log!(" executable: {}", path.to_string_lossy());
}
let server_info = ServerInfo {
name: "deno-language-server".to_string(),
version: Some(version),
};
if let Some(client_info) = params.client_info {
lsp_log!(
"Connected to \"{}\" {}",
client_info.name,
client_info.version.unwrap_or_default(),
);
}
{
// sometimes this root uri may not have a trailing slash, so force it to
self.config.root_uri = params
.root_uri
.map(|s| self.url_map.normalize_url(&s))
.map(ensure_directory_specifier);
if let Some(value) = params.initialization_options {
self.config.set_workspace_settings(value).map_err(|err| {
error!("Cannot set workspace settings: {}", err);
LspError::internal_error()
})?;
}
self.config.workspace_folders = params.workspace_folders.map(|folders| {
folders
.into_iter()
.map(|folder| (self.url_map.normalize_url(&folder.uri), folder))
.collect()
});
self.config.update_capabilities(&params.capabilities);
}
self.update_debug_flag();
// Check to see if we need to change the cache path
if let Err(err) = self.update_cache() {
self.client.show_message(MessageType::WARNING, err).await;
}
if let Err(err) = self.update_config_file() {
self.client.show_message(MessageType::WARNING, err).await;
}
if let Err(err) = self.update_tsconfig().await {
self.client.show_message(MessageType::WARNING, err).await;
}
if capabilities.code_action_provider.is_some() {
let fixable_diagnostics: Vec<String> = self
.ts_server
.request(self.snapshot(), tsc::RequestMethod::GetSupportedCodeFixes)
.await
.map_err(|err| {
error!("Unable to get fixable diagnostics: {}", err);
LspError::internal_error()
})?;
self.ts_fixable_diagnostics = fixable_diagnostics;
}
// Check to see if we need to setup the import map
if let Err(err) = self.update_import_map().await {
self.client.show_message(MessageType::WARNING, err).await;
}
// Check to see if we need to setup any module registries
if let Err(err) = self.update_registries().await {
self.client.show_message(MessageType::WARNING, err).await;
}
self.documents.update_config(
self.maybe_import_map.clone(),
self.maybe_config_file.as_ref(),
);
self.assets.intitialize(self.snapshot()).await;
self.performance.measure(mark);
Ok(InitializeResult {
capabilities,
server_info: Some(server_info),
offset_encoding: None,
})
}
async fn initialized(&mut self, _: InitializedParams) {
if self
.config
.client_capabilities
.workspace_did_change_watched_files
{
// we are going to watch all the JSON files in the workspace, and the
// notification handler will pick up any of the changes of those files we
// are interested in.
let watch_registration_options =
DidChangeWatchedFilesRegistrationOptions {
watchers: vec![FileSystemWatcher {
glob_pattern: "**/*.{json,jsonc}".to_string(),
kind: Some(WatchKind::Change),
}],
};
let registration = Registration {
id: "workspace/didChangeWatchedFiles".to_string(),
method: "workspace/didChangeWatchedFiles".to_string(),
register_options: Some(
serde_json::to_value(watch_registration_options).unwrap(),
),
};
if let Err(err) =
self.client.register_capability(vec![registration]).await
{
warn!("Client errored on capabilities.\n{:#}", err);
}
}
self.config.update_enabled_paths(self.client.clone()).await;
if self.config.client_capabilities.testing_api {
let test_server = testing::TestServer::new(
self.client.clone(),
self.performance.clone(),
self.config.root_uri.clone(),
);
self.maybe_testing_server = Some(test_server);
}
lsp_log!("Server ready.");
}
async fn shutdown(&self) -> LspResult<()> {
Ok(())
}
async fn did_open(
&mut self,
specifier: &ModuleSpecifier,
params: DidOpenTextDocumentParams,
) -> Document {
let mark = self.performance.mark("did_open", Some(&params));
let language_id =
params
.text_document
.language_id
.parse()
.unwrap_or_else(|err| {
error!("{}", err);
LanguageId::Unknown
});
if language_id == LanguageId::Unknown {
warn!(
"Unsupported language id \"{}\" received for document \"{}\".",
params.text_document.language_id, params.text_document.uri
);
}
let document = self.documents.open(
specifier.clone(),
params.text_document.version,
params.text_document.language_id.parse().unwrap(),
params.text_document.text.into(),
);
self.performance.measure(mark);
document
}
async fn did_change(&mut self, params: DidChangeTextDocumentParams) {
let mark = self.performance.mark("did_change", Some(&params));
let specifier = self.url_map.normalize_url(&params.text_document.uri);
match self.documents.change(
&specifier,
params.text_document.version,
params.content_changes,
) {
Ok(document) => {
if document.is_diagnosable() {
self.refresh_npm_specifiers().await;
self
.diagnostics_server
.invalidate(&self.documents.dependents(&specifier));
self.send_diagnostics_update();
self.send_testing_update();
}
}
Err(err) => error!("{}", err),
}
self.performance.measure(mark);
}
async fn refresh_npm_specifiers(&mut self) {
let package_reqs = self.documents.npm_package_reqs();
if let Err(err) = self.npm_resolver.set_package_reqs(package_reqs).await {
warn!("Could not set npm package requirements. {:#}", err);
}
}
async fn did_close(&mut self, params: DidCloseTextDocumentParams) {
let mark = self.performance.mark("did_close", Some(&params));
if params.text_document.uri.scheme() == "deno" {
// we can ignore virtual text documents closing, as they don't need to
// be tracked in memory, as they are static assets that won't change
// already managed by the language service
return;
}
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if let Err(err) = self.documents.close(&specifier) {
error!("{}", err);
}
if self.is_diagnosable(&specifier) {
self.refresh_npm_specifiers().await;
let mut specifiers = self.documents.dependents(&specifier);
specifiers.push(specifier);
self.diagnostics_server.invalidate(&specifiers);
self.send_diagnostics_update();
self.send_testing_update();
}
self.performance.measure(mark);
}
async fn did_change_configuration(
&mut self,
client_workspace_config: Option<Value>,
params: DidChangeConfigurationParams,
) {
let maybe_config =
if self.config.client_capabilities.workspace_configuration {
client_workspace_config
} else {
params
.settings
.as_object()
.and_then(|settings| settings.get(SETTINGS_SECTION))
.cloned()
};
if let Some(value) = maybe_config {
if let Err(err) = self.config.set_workspace_settings(value) {
error!("failed to update settings: {}", err);
}
}
self.update_debug_flag();
if let Err(err) = self.update_cache() {
self.client.show_message(MessageType::WARNING, err).await;
}
if let Err(err) = self.update_registries().await {
self.client.show_message(MessageType::WARNING, err).await;
}
if let Err(err) = self.update_config_file() {
self.client.show_message(MessageType::WARNING, err).await;
}
if let Err(err) = self.update_import_map().await {
self.client.show_message(MessageType::WARNING, err).await;
}
if let Err(err) = self.update_tsconfig().await {
self.client.show_message(MessageType::WARNING, err).await;
}
self.documents.update_config(
self.maybe_import_map.clone(),
self.maybe_config_file.as_ref(),
);
self.send_diagnostics_update();
self.send_testing_update();
}
async fn did_change_watched_files(
&mut self,
params: DidChangeWatchedFilesParams,
) {
let mark = self
.performance
.mark("did_change_watched_files", Some(&params));
let mut touched = false;
let changes: Vec<Url> = params
.changes
.iter()
.map(|f| self.url_map.normalize_url(&f.uri))
.collect();
// if the current tsconfig has changed, we need to reload it
if let Some(config_file) = &self.maybe_config_file {
if changes.iter().any(|uri| config_file.specifier == *uri) {
if let Err(err) = self.update_config_file() {
self.client.show_message(MessageType::WARNING, err).await;
}
if let Err(err) = self.update_tsconfig().await {
self.client.show_message(MessageType::WARNING, err).await;
}
touched = true;
}
}
// if the current import map, or config file has changed, we need to reload
// reload the import map
if let Some(import_map_uri) = &self.maybe_import_map_uri {
if changes.iter().any(|uri| import_map_uri == uri) || touched {
if let Err(err) = self.update_import_map().await {
self.client.show_message(MessageType::WARNING, err).await;
}
touched = true;
}
}
if touched {
self.documents.update_config(
self.maybe_import_map.clone(),
self.maybe_config_file.as_ref(),
);
self.diagnostics_server.invalidate_all();
self.send_diagnostics_update();
self.send_testing_update();
}
self.performance.measure(mark);
}
async fn did_change_workspace_folders(
&mut self,
params: DidChangeWorkspaceFoldersParams,
) {
let mark = self
.performance
.mark("did_change_workspace_folders", Some(&params));
let mut workspace_folders = params
.event
.added
.into_iter()
.map(|folder| (self.url_map.normalize_url(&folder.uri), folder))
.collect::<Vec<(ModuleSpecifier, WorkspaceFolder)>>();
if let Some(current_folders) = &self.config.workspace_folders {
for (specifier, folder) in current_folders {
if !params.event.removed.is_empty()
&& params.event.removed.iter().any(|f| f.uri == folder.uri)
{
continue;
}
workspace_folders.push((specifier.clone(), folder.clone()));
}
}
self.config.workspace_folders = Some(workspace_folders);
self.performance.measure(mark);
}
async fn document_symbol(
&self,
params: DocumentSymbolParams,
) -> LspResult<Option<DocumentSymbolResponse>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("document_symbol", Some(&params));
let asset_or_document = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_document.line_index();
let navigation_tree =
self.get_navigation_tree(&specifier).await.map_err(|err| {
error!(
"Error getting document symbols for \"{}\": {}",
specifier, err
);
LspError::internal_error()
})?;
let response = if let Some(child_items) = &navigation_tree.child_items {
let mut document_symbols = Vec::<DocumentSymbol>::new();
for item in child_items {
item
.collect_document_symbols(line_index.clone(), &mut document_symbols);
}
Some(DocumentSymbolResponse::Nested(document_symbols))
} else {
None
};
self.performance.measure(mark);
Ok(response)
}
async fn formatting(
&self,
params: DocumentFormattingParams,
) -> LspResult<Option<Vec<TextEdit>>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
let document = match self.documents.get(&specifier) {
Some(doc) if doc.is_open() => doc,
_ => return Ok(None),
};
let mark = self.performance.mark("formatting", Some(&params));
let file_path = specifier_to_file_path(&specifier).map_err(|err| {
error!("{}", err);
LspError::invalid_request()
})?;
// skip formatting any files ignored by the config file
if !self.fmt_options.files.matches_specifier(&specifier) {
return Ok(None);
}
let format_result = match document.maybe_parsed_source() {
Some(Ok(parsed_source)) => {
format_parsed_source(&parsed_source, &self.fmt_options.options)
}
Some(Err(err)) => Err(anyhow!("{}", err)),
None => {
// the file path is only used to determine what formatter should
// be used to format the file, so give the filepath an extension
// that matches what the user selected as the language
let file_path = document
.maybe_language_id()
.and_then(|id| id.as_extension())
.map(|ext| file_path.with_extension(ext))
.unwrap_or(file_path);
// it's not a js/ts file, so attempt to format its contents
format_file(&file_path, &document.content(), &self.fmt_options.options)
}
};
let text_edits = match format_result {
Ok(Some(new_text)) => Some(text::get_edits(
&document.content(),
&new_text,
document.line_index().as_ref(),
)),
Ok(None) => Some(Vec::new()),
Err(err) => {
// TODO(lucacasonato): handle error properly
warn!("Format error: {:#}", err);
None
}
};
self.performance.measure(mark);
if let Some(text_edits) = text_edits {
if text_edits.is_empty() {
Ok(None)
} else {
Ok(Some(text_edits))
}
} else {
self.client.show_message(MessageType::WARNING, format!("Unable to format \"{}\". Likely due to unrecoverable syntax errors in the file.", specifier)).await;
Ok(None)
}
}
async fn hover(&self, params: HoverParams) -> LspResult<Option<Hover>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position_params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("hover", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let hover = if let Some((_, dep, range)) = asset_or_doc
.get_maybe_dependency(&params.text_document_position_params.position)
{
let dep_maybe_types_dependency = dep
.get_code()
.and_then(|s| self.documents.get(s))
.map(|d| d.maybe_types_dependency());
let value = match (dep.maybe_code.is_none(), dep.maybe_type.is_none(), &dep_maybe_types_dependency) {
(false, false, None) => format!(
"**Resolved Dependency**\n\n**Code**: {}\n\n**Types**: {}\n",
to_hover_text(&dep.maybe_code),
to_hover_text(&dep.maybe_type)
),
(false, false, Some(types_dep)) if !types_dep.is_none() => format!(
"**Resolved Dependency**\n\n**Code**: {}\n**Types**: {}\n**Import Types**: {}\n",
to_hover_text(&dep.maybe_code),
to_hover_text(&dep.maybe_type),
to_hover_text(types_dep)
),
(false, false, Some(_)) => format!(
"**Resolved Dependency**\n\n**Code**: {}\n\n**Types**: {}\n",
to_hover_text(&dep.maybe_code),
to_hover_text(&dep.maybe_type)
),
(false, true, Some(types_dep)) if !types_dep.is_none() => format!(
"**Resolved Dependency**\n\n**Code**: {}\n\n**Types**: {}\n",
to_hover_text(&dep.maybe_code),
to_hover_text(types_dep)
),
(false, true, _) => format!(
"**Resolved Dependency**\n\n**Code**: {}\n",
to_hover_text(&dep.maybe_code)
),
(true, false, _) => format!(
"**Resolved Dependency**\n\n**Types**: {}\n",
to_hover_text(&dep.maybe_type)
),
(true, true, _) => unreachable!("{}", json!(params)),
};
let value =
if let Some(docs) = self.module_registries.get_hover(&dep).await {
format!("{}\n\n---\n\n{}", value, docs)
} else {
value
};
Some(Hover {
contents: HoverContents::Markup(MarkupContent {
kind: MarkupKind::Markdown,
value,
}),
range: Some(to_lsp_range(&range)),
})
} else {
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::GetQuickInfo((
specifier,
line_index.offset_tsc(params.text_document_position_params.position)?,
));
let maybe_quick_info: Option<tsc::QuickInfo> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Unable to get quick info: {}", err);
LspError::internal_error()
})?;
maybe_quick_info.map(|qi| qi.to_hover(line_index, self))
};
self.performance.measure(mark);
Ok(hover)
}
async fn code_action(
&self,
params: CodeActionParams,
) -> LspResult<Option<CodeActionResponse>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("code_action", Some(&params));
let mut all_actions = CodeActionResponse::new();
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
// QuickFix
let fixable_diagnostics: Vec<&Diagnostic> = params
.context
.diagnostics
.iter()
.filter(|d| match &d.source {
Some(source) => match source.as_str() {
"deno-ts" => match &d.code {
Some(NumberOrString::String(code)) => {
self.ts_fixable_diagnostics.contains(code)
}
Some(NumberOrString::Number(code)) => {
self.ts_fixable_diagnostics.contains(&code.to_string())
}
_ => false,
},
"deno-lint" => matches!(&d.code, Some(_)),
"deno" => diagnostics::DenoDiagnostic::is_fixable(d),
_ => false,
},
None => false,
})
.collect();
if !fixable_diagnostics.is_empty() {
let mut code_actions = CodeActionCollection::default();
let file_diagnostics = self
.diagnostics_server
.get_ts_diagnostics(&specifier, asset_or_doc.document_lsp_version());
for diagnostic in &fixable_diagnostics {
match diagnostic.source.as_deref() {
Some("deno-ts") => {
let code = match diagnostic.code.as_ref().unwrap() {
NumberOrString::String(code) => code.to_string(),
NumberOrString::Number(code) => code.to_string(),
};
let codes = vec![code];
let req = tsc::RequestMethod::GetCodeFixes((
specifier.clone(),
line_index.offset_tsc(diagnostic.range.start)?,
line_index.offset_tsc(diagnostic.range.end)?,
codes,
));
let actions: Vec<tsc::CodeFixAction> =
match self.ts_server.request(self.snapshot(), req).await {
Ok(items) => items,
Err(err) => {
// sometimes tsc reports errors when retrieving code actions
// because they don't reflect the current state of the document
// so we will log them to the output, but we won't send an error
// message back to the client.
error!("Error getting actions from TypeScript: {}", err);
Vec::new()
}
};
for action in actions {
code_actions
.add_ts_fix_action(&specifier, &action, diagnostic, self)
.map_err(|err| {
error!("Unable to convert fix: {}", err);
LspError::internal_error()
})?;
if code_actions.is_fix_all_action(
&action,
diagnostic,
&file_diagnostics,
) {
code_actions
.add_ts_fix_all_action(&action, &specifier, diagnostic);
}
}
}
Some("deno") => code_actions
.add_deno_fix_action(&specifier, diagnostic)
.map_err(|err| {
error!("{}", err);
LspError::internal_error()
})?,
Some("deno-lint") => code_actions
.add_deno_lint_ignore_action(
&specifier,
diagnostic,
asset_or_doc.document().map(|d| d.text_info()),
asset_or_doc.maybe_parsed_source().and_then(|r| r.ok()),
)
.map_err(|err| {
error!("Unable to fix lint error: {}", err);
LspError::internal_error()
})?,
_ => (),
}
}
code_actions.set_preferred_fixes();
all_actions.extend(code_actions.get_response());
}
// Refactor
let start = line_index.offset_tsc(params.range.start)?;
let length = line_index.offset_tsc(params.range.end)? - start;
let only =
params
.context
.only
.as_ref()
.map_or(String::default(), |values| {
values
.first()
.map_or(String::default(), |v| v.as_str().to_owned())
});
let req = tsc::RequestMethod::GetApplicableRefactors((
specifier.clone(),
tsc::TextSpan { start, length },
only,
));
let refactor_infos: Vec<tsc::ApplicableRefactorInfo> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let mut refactor_actions = Vec::<CodeAction>::new();
for refactor_info in refactor_infos.iter() {
refactor_actions
.extend(refactor_info.to_code_actions(&specifier, &params.range));
}
all_actions.extend(
refactor::prune_invalid_actions(&refactor_actions, 5)
.into_iter()
.map(CodeActionOrCommand::CodeAction),
);
let code_action_disabled_support =
self.config.client_capabilities.code_action_disabled_support;
let actions: Vec<CodeActionOrCommand> = all_actions.into_iter().filter(|ca| {
code_action_disabled_support
|| matches!(ca, CodeActionOrCommand::CodeAction(ca) if ca.disabled.is_none())
}).collect();
let response = if actions.is_empty() {
None
} else {
Some(actions)
};
self.performance.measure(mark);
Ok(response)
}
async fn code_action_resolve(
&self,
params: CodeAction,
) -> LspResult<CodeAction> {
if params.kind.is_none() || params.data.is_none() {
return Ok(params);
}
let mark = self.performance.mark("code_action_resolve", Some(&params));
let kind = params.kind.clone().unwrap();
let data = params.data.clone().unwrap();
let result = if kind.as_str().starts_with(CodeActionKind::QUICKFIX.as_str())
{
let snapshot = self.snapshot();
let code_action_data: CodeActionData =
from_value(data).map_err(|err| {
error!("Unable to decode code action data: {}", err);
LspError::invalid_params("The CodeAction's data is invalid.")
})?;
let req = tsc::RequestMethod::GetCombinedCodeFix((
code_action_data.specifier.clone(),
json!(code_action_data.fix_id.clone()),
));
let combined_code_actions: tsc::CombinedCodeActions = self
.ts_server
.request(snapshot.clone(), req)
.await
.map_err(|err| {
error!("Unable to get combined fix from TypeScript: {}", err);
LspError::internal_error()
})?;
if combined_code_actions.commands.is_some() {
error!("Deno does not support code actions with commands.");
return Err(LspError::invalid_request());
}
let changes = if code_action_data.fix_id == "fixMissingImport" {
fix_ts_import_changes(
&code_action_data.specifier,
&combined_code_actions.changes,
&self.documents,
)
.map_err(|err| {
error!("Unable to remap changes: {}", err);
LspError::internal_error()
})?
} else {
combined_code_actions.changes
};
let mut code_action = params;
code_action.edit = ts_changes_to_edit(&changes, self).map_err(|err| {
error!("Unable to convert changes to edits: {}", err);
LspError::internal_error()
})?;
code_action
} else if kind.as_str().starts_with(CodeActionKind::REFACTOR.as_str()) {
let snapshot = self.snapshot();
let mut code_action = params;
let action_data: refactor::RefactorCodeActionData = from_value(data)
.map_err(|err| {
error!("Unable to decode code action data: {}", err);
LspError::invalid_params("The CodeAction's data is invalid.")
})?;
let asset_or_doc = self.get_asset_or_document(&action_data.specifier)?;
let line_index = asset_or_doc.line_index();
let start = line_index.offset_tsc(action_data.range.start)?;
let length = line_index.offset_tsc(action_data.range.end)? - start;
let req = tsc::RequestMethod::GetEditsForRefactor((
action_data.specifier,
tsc::TextSpan { start, length },
action_data.refactor_name,
action_data.action_name,
));
let refactor_edit_info: tsc::RefactorEditInfo =
self.ts_server.request(snapshot, req).await.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
code_action.edit = refactor_edit_info
.to_workspace_edit(self)
.await
.map_err(|err| {
error!("Unable to convert changes to edits: {}", err);
LspError::internal_error()
})?;
code_action
} else {
// The code action doesn't need to be resolved
params
};
self.performance.measure(mark);
Ok(result)
}
async fn code_lens(
&self,
params: CodeLensParams,
) -> LspResult<Option<Vec<CodeLens>>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
|| !(self.config.get_workspace_settings().enabled_code_lens()
|| self.config.specifier_code_lens_test(&specifier))
{
return Ok(None);
}
let mark = self.performance.mark("code_lens", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let navigation_tree =
self.get_navigation_tree(&specifier).await.map_err(|err| {
error!("Error getting code lenses for \"{}\": {}", specifier, err);
LspError::internal_error()
})?;
let parsed_source = asset_or_doc.maybe_parsed_source().and_then(|r| r.ok());
let line_index = asset_or_doc.line_index();
let code_lenses = code_lens::collect(
&specifier,
parsed_source,
&self.config,
line_index,
&navigation_tree,
)
.await
.map_err(|err| {
error!("Error getting code lenses for \"{}\": {}", specifier, err);
LspError::internal_error()
})?;
self.performance.measure(mark);
Ok(Some(code_lenses))
}
async fn code_lens_resolve(
&self,
code_lens: CodeLens,
) -> LspResult<CodeLens> {
let mark = self.performance.mark("code_lens_resolve", Some(&code_lens));
let result = if code_lens.data.is_some() {
code_lens::resolve_code_lens(code_lens, self)
.await
.map_err(|err| {
error!("Error resolving code lens: {}", err);
LspError::internal_error()
})
} else {
Err(LspError::invalid_params(
"Code lens is missing the \"data\" property.",
))
};
self.performance.measure(mark);
result
}
async fn document_highlight(
&self,
params: DocumentHighlightParams,
) -> LspResult<Option<Vec<DocumentHighlight>>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position_params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("document_highlight", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let files_to_search = vec![specifier.clone()];
let req = tsc::RequestMethod::GetDocumentHighlights((
specifier,
line_index.offset_tsc(params.text_document_position_params.position)?,
files_to_search,
));
let maybe_document_highlights: Option<Vec<tsc::DocumentHighlights>> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Unable to get document highlights from TypeScript: {}", err);
LspError::internal_error()
})?;
if let Some(document_highlights) = maybe_document_highlights {
let result = document_highlights
.into_iter()
.flat_map(|dh| dh.to_highlight(line_index.clone()))
.collect();
self.performance.measure(mark);
Ok(Some(result))
} else {
self.performance.measure(mark);
Ok(None)
}
}
async fn references(
&self,
params: ReferenceParams,
) -> LspResult<Option<Vec<Location>>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("references", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::GetReferences((
specifier.clone(),
line_index.offset_tsc(params.text_document_position.position)?,
));
let maybe_references: Option<Vec<tsc::ReferenceEntry>> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Unable to get references from TypeScript: {}", err);
LspError::internal_error()
})?;
if let Some(references) = maybe_references {
let mut results = Vec::new();
for reference in references {
if !params.context.include_declaration && reference.is_definition {
continue;
}
let reference_specifier =
resolve_url(&reference.document_span.file_name).unwrap();
let reference_line_index = if reference_specifier == specifier {
line_index.clone()
} else {
let asset_or_doc =
self.get_asset_or_document(&reference_specifier)?;
asset_or_doc.line_index()
};
results
.push(reference.to_location(reference_line_index, &self.url_map));
}
self.performance.measure(mark);
Ok(Some(results))
} else {
self.performance.measure(mark);
Ok(None)
}
}
async fn goto_definition(
&self,
params: GotoDefinitionParams,
) -> LspResult<Option<GotoDefinitionResponse>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position_params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("goto_definition", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::GetDefinition((
specifier,
line_index.offset_tsc(params.text_document_position_params.position)?,
));
let maybe_definition: Option<tsc::DefinitionInfoAndBoundSpan> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Unable to get definition from TypeScript: {}", err);
LspError::internal_error()
})?;
if let Some(definition) = maybe_definition {
let results = definition.to_definition(line_index, self).await;
self.performance.measure(mark);
Ok(results)
} else {
self.performance.measure(mark);
Ok(None)
}
}
async fn goto_type_definition(
&self,
params: GotoTypeDefinitionParams,
) -> LspResult<Option<GotoTypeDefinitionResponse>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position_params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("goto_definition", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::GetTypeDefinition {
specifier,
position: line_index
.offset_tsc(params.text_document_position_params.position)?,
};
let maybe_definition_info: Option<Vec<tsc::DefinitionInfo>> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Unable to get type definition from TypeScript: {}", err);
LspError::internal_error()
})?;
let response = if let Some(definition_info) = maybe_definition_info {
let mut location_links = Vec::new();
for info in definition_info {
if let Some(link) = info.document_span.to_link(line_index.clone(), self)
{
location_links.push(link);
}
}
Some(GotoTypeDefinitionResponse::Link(location_links))
} else {
None
};
self.performance.measure(mark);
Ok(response)
}
async fn completion(
&self,
params: CompletionParams,
) -> LspResult<Option<CompletionResponse>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("completion", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
// Import specifiers are something wholly internal to Deno, so for
// completions, we will use internal logic and if there are completions
// for imports, we will return those and not send a message into tsc, where
// other completions come from.
let response = if let Some(response) = completions::get_import_completions(
&specifier,
&params.text_document_position.position,
&self.config.snapshot(),
self.client.clone(),
&self.module_registries,
&self.documents,
self.maybe_import_map.clone(),
)
.await
{
Some(response)
} else {
let line_index = asset_or_doc.line_index();
let (trigger_character, trigger_kind) =
if let Some(context) = &params.context {
(
context.trigger_character.clone(),
Some(context.trigger_kind.into()),
)
} else {
(None, None)
};
let position =
line_index.offset_tsc(params.text_document_position.position)?;
let use_snippets = self.config.client_capabilities.snippet_support;
let req = tsc::RequestMethod::GetCompletions((
specifier.clone(),
position,
tsc::GetCompletionsAtPositionOptions {
user_preferences: tsc::UserPreferences {
allow_incomplete_completions: Some(true),
allow_text_changes_in_new_files: Some(specifier.scheme() == "file"),
import_module_specifier_ending: Some(
tsc::ImportModuleSpecifierEnding::Index,
),
include_automatic_optional_chain_completions: Some(true),
include_completions_for_import_statements: Some(
self.config.get_workspace_settings().suggest.auto_imports,
),
include_completions_for_module_exports: Some(true),
include_completions_with_object_literal_method_snippets: Some(
use_snippets,
),
include_completions_with_class_member_snippets: Some(use_snippets),
include_completions_with_insert_text: Some(true),
include_completions_with_snippet_text: Some(use_snippets),
jsx_attribute_completion_style: Some(
tsc::JsxAttributeCompletionStyle::Auto,
),
provide_prefix_and_suffix_text_for_rename: Some(true),
provide_refactor_not_applicable_reason: Some(true),
use_label_details_in_completion_entries: Some(true),
..Default::default()
},
trigger_character,
trigger_kind,
},
));
let snapshot = self.snapshot();
let maybe_completion_info: Option<tsc::CompletionInfo> =
self.ts_server.request(snapshot, req).await.map_err(|err| {
error!("Unable to get completion info from TypeScript: {}", err);
LspError::internal_error()
})?;
if let Some(completions) = maybe_completion_info {
let results = completions.as_completion_response(
line_index,
&self.config.get_workspace_settings().suggest,
&specifier,
position,
);
Some(results)
} else {
None
}
};
self.performance.measure(mark);
Ok(response)
}
async fn completion_resolve(
&self,
params: CompletionItem,
) -> LspResult<CompletionItem> {
let mark = self.performance.mark("completion_resolve", Some(&params));
let completion_item = if let Some(data) = &params.data {
let data: completions::CompletionItemData =
serde_json::from_value(data.clone()).map_err(|err| {
error!("{}", err);
LspError::invalid_params(
"Could not decode data field of completion item.",
)
})?;
if let Some(data) = &data.tsc {
let specifier = &data.specifier;
let req = tsc::RequestMethod::GetCompletionDetails(data.into());
let result: Result<Option<tsc::CompletionEntryDetails>, _> =
self.ts_server.request(self.snapshot(), req).await;
match result {
Ok(maybe_completion_info) => {
if let Some(completion_info) = maybe_completion_info {
completion_info
.as_completion_item(&params, data, specifier, self)
.map_err(|err| {
error!(
"Failed to serialize virtual_text_document response: {}",
err
);
LspError::internal_error()
})?
} else {
error!(
"Received an undefined response from tsc for completion details."
);
params
}
}
Err(err) => {
error!("Unable to get completion info from TypeScript: {}", err);
return Ok(params);
}
}
} else if let Some(url) = data.documentation {
CompletionItem {
documentation: self.module_registries.get_documentation(&url).await,
data: None,
..params
}
} else {
params
}
} else {
params
};
self.performance.measure(mark);
Ok(completion_item)
}
async fn goto_implementation(
&self,
params: GotoImplementationParams,
) -> LspResult<Option<GotoImplementationResponse>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position_params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("goto_implementation", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::GetImplementation((
specifier,
line_index.offset_tsc(params.text_document_position_params.position)?,
));
let maybe_implementations: Option<Vec<tsc::ImplementationLocation>> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let result = if let Some(implementations) = maybe_implementations {
let mut links = Vec::new();
for implementation in implementations {
if let Some(link) = implementation.to_link(line_index.clone(), self) {
links.push(link)
}
}
Some(GotoDefinitionResponse::Link(links))
} else {
None
};
self.performance.measure(mark);
Ok(result)
}
async fn folding_range(
&self,
params: FoldingRangeParams,
) -> LspResult<Option<Vec<FoldingRange>>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("folding_range", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let req = tsc::RequestMethod::GetOutliningSpans(specifier);
let outlining_spans: Vec<tsc::OutliningSpan> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let response = if !outlining_spans.is_empty() {
Some(
outlining_spans
.iter()
.map(|span| {
span.to_folding_range(
asset_or_doc.line_index(),
asset_or_doc.text().as_bytes(),
self.config.client_capabilities.line_folding_only,
)
})
.collect::<Vec<FoldingRange>>(),
)
} else {
None
};
self.performance.measure(mark);
Ok(response)
}
async fn incoming_calls(
&self,
params: CallHierarchyIncomingCallsParams,
) -> LspResult<Option<Vec<CallHierarchyIncomingCall>>> {
let specifier = self.url_map.normalize_url(&params.item.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("incoming_calls", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::ProvideCallHierarchyIncomingCalls((
specifier,
line_index.offset_tsc(params.item.selection_range.start)?,
));
let incoming_calls: Vec<tsc::CallHierarchyIncomingCall> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let maybe_root_path_owned = self
.config
.root_uri
.as_ref()
.and_then(|uri| specifier_to_file_path(uri).ok());
let mut resolved_items = Vec::<CallHierarchyIncomingCall>::new();
for item in incoming_calls.iter() {
if let Some(resolved) = item.try_resolve_call_hierarchy_incoming_call(
self,
maybe_root_path_owned.as_deref(),
) {
resolved_items.push(resolved);
}
}
self.performance.measure(mark);
Ok(Some(resolved_items))
}
async fn outgoing_calls(
&self,
params: CallHierarchyOutgoingCallsParams,
) -> LspResult<Option<Vec<CallHierarchyOutgoingCall>>> {
let specifier = self.url_map.normalize_url(&params.item.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("outgoing_calls", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::ProvideCallHierarchyOutgoingCalls((
specifier,
line_index.offset_tsc(params.item.selection_range.start)?,
));
let outgoing_calls: Vec<tsc::CallHierarchyOutgoingCall> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let maybe_root_path_owned = self
.config
.root_uri
.as_ref()
.and_then(|uri| specifier_to_file_path(uri).ok());
let mut resolved_items = Vec::<CallHierarchyOutgoingCall>::new();
for item in outgoing_calls.iter() {
if let Some(resolved) = item.try_resolve_call_hierarchy_outgoing_call(
line_index.clone(),
self,
maybe_root_path_owned.as_deref(),
) {
resolved_items.push(resolved);
}
}
self.performance.measure(mark);
Ok(Some(resolved_items))
}
async fn prepare_call_hierarchy(
&self,
params: CallHierarchyPrepareParams,
) -> LspResult<Option<Vec<CallHierarchyItem>>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position_params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self
.performance
.mark("prepare_call_hierarchy", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::PrepareCallHierarchy((
specifier,
line_index.offset_tsc(params.text_document_position_params.position)?,
));
let maybe_one_or_many: Option<tsc::OneOrMany<tsc::CallHierarchyItem>> =
self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let response = if let Some(one_or_many) = maybe_one_or_many {
let maybe_root_path_owned = self
.config
.root_uri
.as_ref()
.and_then(|uri| specifier_to_file_path(uri).ok());
let mut resolved_items = Vec::<CallHierarchyItem>::new();
match one_or_many {
tsc::OneOrMany::One(item) => {
if let Some(resolved) = item.try_resolve_call_hierarchy_item(
self,
maybe_root_path_owned.as_deref(),
) {
resolved_items.push(resolved)
}
}
tsc::OneOrMany::Many(items) => {
for item in items.iter() {
if let Some(resolved) = item.try_resolve_call_hierarchy_item(
self,
maybe_root_path_owned.as_deref(),
) {
resolved_items.push(resolved);
}
}
}
}
Some(resolved_items)
} else {
None
};
self.performance.measure(mark);
Ok(response)
}
async fn rename(
&self,
params: RenameParams,
) -> LspResult<Option<WorkspaceEdit>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("rename", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::FindRenameLocations {
specifier,
position: line_index
.offset_tsc(params.text_document_position.position)?,
find_in_strings: false,
find_in_comments: false,
provide_prefix_and_suffix_text_for_rename: false,
};
let maybe_locations: Option<Vec<tsc::RenameLocation>> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
if let Some(locations) = maybe_locations {
let rename_locations = tsc::RenameLocations { locations };
let workspace_edits = rename_locations
.into_workspace_edit(&params.new_name, self)
.await
.map_err(|err| {
error!("Failed to get workspace edits: {}", err);
LspError::internal_error()
})?;
self.performance.measure(mark);
Ok(Some(workspace_edits))
} else {
self.performance.measure(mark);
Ok(None)
}
}
async fn selection_range(
&self,
params: SelectionRangeParams,
) -> LspResult<Option<Vec<SelectionRange>>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("selection_range", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let mut selection_ranges = Vec::<SelectionRange>::new();
for position in params.positions {
let req = tsc::RequestMethod::GetSmartSelectionRange((
specifier.clone(),
line_index.offset_tsc(position)?,
));
let selection_range: tsc::SelectionRange = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
selection_ranges
.push(selection_range.to_selection_range(line_index.clone()));
}
self.performance.measure(mark);
Ok(Some(selection_ranges))
}
async fn semantic_tokens_full(
&self,
params: SemanticTokensParams,
) -> LspResult<Option<SemanticTokensResult>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("semantic_tokens_full", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let req = tsc::RequestMethod::GetEncodedSemanticClassifications((
specifier,
tsc::TextSpan {
start: 0,
length: line_index.text_content_length_utf16().into(),
},
));
let semantic_classification: tsc::Classifications = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let semantic_tokens =
semantic_classification.to_semantic_tokens(&asset_or_doc, line_index)?;
let response = if !semantic_tokens.data.is_empty() {
Some(SemanticTokensResult::Tokens(semantic_tokens))
} else {
None
};
self.performance.measure(mark);
Ok(response)
}
async fn semantic_tokens_range(
&self,
params: SemanticTokensRangeParams,
) -> LspResult<Option<SemanticTokensRangeResult>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self
.performance
.mark("semantic_tokens_range", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let start = line_index.offset_tsc(params.range.start)?;
let length = line_index.offset_tsc(params.range.end)? - start;
let req = tsc::RequestMethod::GetEncodedSemanticClassifications((
specifier,
tsc::TextSpan { start, length },
));
let semantic_classification: tsc::Classifications = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver {}", err);
LspError::invalid_request()
})?;
let semantic_tokens =
semantic_classification.to_semantic_tokens(&asset_or_doc, line_index)?;
let response = if !semantic_tokens.data.is_empty() {
Some(SemanticTokensRangeResult::Tokens(semantic_tokens))
} else {
None
};
self.performance.measure(mark);
Ok(response)
}
async fn signature_help(
&self,
params: SignatureHelpParams,
) -> LspResult<Option<SignatureHelp>> {
let specifier = self
.url_map
.normalize_url(&params.text_document_position_params.text_document.uri);
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
{
return Ok(None);
}
let mark = self.performance.mark("signature_help", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let options = if let Some(context) = params.context {
tsc::SignatureHelpItemsOptions {
trigger_reason: Some(tsc::SignatureHelpTriggerReason {
kind: context.trigger_kind.into(),
trigger_character: context.trigger_character,
}),
}
} else {
tsc::SignatureHelpItemsOptions {
trigger_reason: None,
}
};
let req = tsc::RequestMethod::GetSignatureHelpItems((
specifier,
line_index.offset_tsc(params.text_document_position_params.position)?,
options,
));
let maybe_signature_help_items: Option<tsc::SignatureHelpItems> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed to request to tsserver: {}", err);
LspError::invalid_request()
})?;
if let Some(signature_help_items) = maybe_signature_help_items {
let signature_help = signature_help_items.into_signature_help(self);
self.performance.measure(mark);
Ok(Some(signature_help))
} else {
self.performance.measure(mark);
Ok(None)
}
}
async fn symbol(
&self,
params: WorkspaceSymbolParams,
) -> LspResult<Option<Vec<SymbolInformation>>> {
let mark = self.performance.mark("symbol", Some(&params));
let req = tsc::RequestMethod::GetNavigateToItems {
search: params.query,
// this matches vscode's hard coded result count
max_result_count: Some(256),
file: None,
};
let navigate_to_items: Vec<tsc::NavigateToItem> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Failed request to tsserver: {}", err);
LspError::invalid_request()
})?;
let maybe_symbol_information = if navigate_to_items.is_empty() {
None
} else {
let mut symbol_information = Vec::new();
for item in navigate_to_items {
if let Some(info) = item.to_symbol_information(self) {
symbol_information.push(info);
}
}
Some(symbol_information)
};
self.performance.measure(mark);
Ok(maybe_symbol_information)
}
fn send_diagnostics_update(&self) {
let snapshot = (
self.snapshot(),
self.config.snapshot(),
self.lint_options.clone(),
);
if let Err(err) = self.diagnostics_server.update(snapshot) {
error!("Cannot update diagnostics: {}", err);
}
}
/// Send a message to the testing server to look for any changes in tests and
/// update the client.
fn send_testing_update(&self) {
if let Some(testing_server) = &self.maybe_testing_server {
if let Err(err) = testing_server.update(self.snapshot()) {
error!("Cannot update testing server: {}", err);
}
}
}
}
#[tower_lsp::async_trait]
impl tower_lsp::LanguageServer for LanguageServer {
async fn initialize(
&self,
params: InitializeParams,
) -> LspResult<InitializeResult> {
let mut language_server = self.0.write().await;
language_server.diagnostics_server.start();
language_server.initialize(params).await
}
async fn initialized(&self, params: InitializedParams) {
self.0.write().await.initialized(params).await
}
async fn shutdown(&self) -> LspResult<()> {
self.0.write().await.shutdown().await
}
async fn did_open(&self, params: DidOpenTextDocumentParams) {
if params.text_document.uri.scheme() == "deno" {
// we can ignore virtual text documents opening, as they don't need to
// be tracked in memory, as they are static assets that won't change
// already managed by the language service
return;
}
let (client, uri, specifier, had_specifier_settings) = {
let mut inner = self.0.write().await;
let client = inner.client.clone();
let uri = params.text_document.uri.clone();
let specifier = inner.url_map.normalize_url(&uri);
let document = inner.did_open(&specifier, params).await;
let has_specifier_settings =
inner.config.has_specifier_settings(&specifier);
if document.is_diagnosable() {
inner.refresh_npm_specifiers().await;
let specifiers = inner.documents.dependents(&specifier);
inner.diagnostics_server.invalidate(&specifiers);
// don't send diagnostics yet if we don't have the specifier settings
if has_specifier_settings {
inner.send_diagnostics_update();
inner.send_testing_update();
}
}
(client, uri, specifier, has_specifier_settings)
};
// retrieve the specifier settings outside the lock if
// they haven't been asked for yet on its own time
if !had_specifier_settings {
let language_server = self.clone();
tokio::spawn(async move {
let response = client.specifier_configuration(&uri).await;
let mut inner = language_server.0.write().await;
match response {
Ok(specifier_settings) => {
// now update the config and send a diagnostics update
inner.config.set_specifier_settings(
specifier.clone(),
uri,
specifier_settings,
);
}
Err(err) => {
error!("{}", err);
}
}
if inner
.documents
.get(&specifier)
.map(|d| d.is_diagnosable())
.unwrap_or(false)
{
inner.send_diagnostics_update();
inner.send_testing_update();
}
});
}
}
async fn did_change(&self, params: DidChangeTextDocumentParams) {
self.0.write().await.did_change(params).await
}
async fn did_save(&self, _params: DidSaveTextDocumentParams) {
// We don't need to do anything on save at the moment, but if this isn't
// implemented, lspower complains about it not being implemented.
}
async fn did_close(&self, params: DidCloseTextDocumentParams) {
self.0.write().await.did_close(params).await
}
async fn did_change_configuration(
&self,
params: DidChangeConfigurationParams,
) {
let (has_workspace_capability, client, specifiers, mark) = {
let inner = self.0.write().await;
let mark = inner
.performance
.mark("did_change_configuration", Some(&params));
let specifiers =
if inner.config.client_capabilities.workspace_configuration {
Some(inner.config.get_specifiers_with_client_uris())
} else {
None
};
(
inner.config.client_capabilities.workspace_configuration,
inner.client.clone(),
specifiers,
mark,
)
};
// start retrieving all the specifiers' settings outside the lock on its own
// time
if let Some(specifiers) = specifiers {
let language_server = self.clone();
let client = client.clone();
tokio::spawn(async move {
if let Ok(configs) = client
.specifier_configurations(
specifiers.iter().map(|s| s.client_uri.clone()).collect(),
)
.await
{
let mut inner = language_server.0.write().await;
for (i, value) in configs.into_iter().enumerate() {
match value {
Ok(specifier_settings) => {
let entry = specifiers[i].clone();
inner.config.set_specifier_settings(
entry.specifier,
entry.client_uri,
specifier_settings,
);
}
Err(err) => {
error!("{}", err);
}
}
}
}
let mut ls = language_server.0.write().await;
if ls.config.update_enabled_paths(client).await {
ls.diagnostics_server.invalidate_all();
// this will be called in the inner did_change_configuration, but the
// problem then becomes, if there was a change, the snapshot used
// will be an out of date one, so we will call it again here if the
// workspace folders have been touched
ls.send_diagnostics_update();
}
});
}
// Get the configuration from the client outside of the lock
// in order to prevent potential deadlocking scenarios where
// the server holds a lock and calls into the client, which
// calls into the server which deadlocks acquiring the lock.
// There is a gap here between when the configuration is
// received and acquiring the lock, but most likely there
// won't be any racing here.
let client_workspace_config = if has_workspace_capability {
let config_response = client.workspace_configuration().await;
match config_response {
Ok(value) => Some(value),
Err(err) => {
error!("{}", err);
None
}
}
} else {
None
};
// now update the inner state
let mut inner = self.0.write().await;
inner
.did_change_configuration(client_workspace_config, params)
.await;
inner.performance.measure(mark);
}
async fn did_change_watched_files(
&self,
params: DidChangeWatchedFilesParams,
) {
self.0.write().await.did_change_watched_files(params).await
}
async fn did_change_workspace_folders(
&self,
params: DidChangeWorkspaceFoldersParams,
) {
let client = {
let mut inner = self.0.write().await;
inner.did_change_workspace_folders(params).await;
inner.client.clone()
};
let language_server = self.clone();
tokio::spawn(async move {
let mut ls = language_server.0.write().await;
if ls.config.update_enabled_paths(client).await {
ls.diagnostics_server.invalidate_all();
ls.send_diagnostics_update();
}
});
}
async fn document_symbol(
&self,
params: DocumentSymbolParams,
) -> LspResult<Option<DocumentSymbolResponse>> {
self.0.read().await.document_symbol(params).await
}
async fn formatting(
&self,
params: DocumentFormattingParams,
) -> LspResult<Option<Vec<TextEdit>>> {
self.0.read().await.formatting(params).await
}
async fn hover(&self, params: HoverParams) -> LspResult<Option<Hover>> {
self.0.read().await.hover(params).await
}
async fn code_action(
&self,
params: CodeActionParams,
) -> LspResult<Option<CodeActionResponse>> {
self.0.read().await.code_action(params).await
}
async fn code_action_resolve(
&self,
params: CodeAction,
) -> LspResult<CodeAction> {
self.0.read().await.code_action_resolve(params).await
}
async fn code_lens(
&self,
params: CodeLensParams,
) -> LspResult<Option<Vec<CodeLens>>> {
self.0.read().await.code_lens(params).await
}
async fn code_lens_resolve(&self, params: CodeLens) -> LspResult<CodeLens> {
self.0.read().await.code_lens_resolve(params).await
}
async fn document_highlight(
&self,
params: DocumentHighlightParams,
) -> LspResult<Option<Vec<DocumentHighlight>>> {
self.0.read().await.document_highlight(params).await
}
async fn references(
&self,
params: ReferenceParams,
) -> LspResult<Option<Vec<Location>>> {
self.0.read().await.references(params).await
}
async fn goto_definition(
&self,
params: GotoDefinitionParams,
) -> LspResult<Option<GotoDefinitionResponse>> {
self.0.read().await.goto_definition(params).await
}
async fn goto_type_definition(
&self,
params: GotoTypeDefinitionParams,
) -> LspResult<Option<GotoTypeDefinitionResponse>> {
self.0.read().await.goto_type_definition(params).await
}
async fn completion(
&self,
params: CompletionParams,
) -> LspResult<Option<CompletionResponse>> {
self.0.read().await.completion(params).await
}
async fn completion_resolve(
&self,
params: CompletionItem,
) -> LspResult<CompletionItem> {
self.0.read().await.completion_resolve(params).await
}
async fn goto_implementation(
&self,
params: GotoImplementationParams,
) -> LspResult<Option<GotoImplementationResponse>> {
self.0.read().await.goto_implementation(params).await
}
async fn folding_range(
&self,
params: FoldingRangeParams,
) -> LspResult<Option<Vec<FoldingRange>>> {
self.0.read().await.folding_range(params).await
}
async fn incoming_calls(
&self,
params: CallHierarchyIncomingCallsParams,
) -> LspResult<Option<Vec<CallHierarchyIncomingCall>>> {
self.0.read().await.incoming_calls(params).await
}
async fn outgoing_calls(
&self,
params: CallHierarchyOutgoingCallsParams,
) -> LspResult<Option<Vec<CallHierarchyOutgoingCall>>> {
self.0.read().await.outgoing_calls(params).await
}
async fn prepare_call_hierarchy(
&self,
params: CallHierarchyPrepareParams,
) -> LspResult<Option<Vec<CallHierarchyItem>>> {
self.0.read().await.prepare_call_hierarchy(params).await
}
async fn rename(
&self,
params: RenameParams,
) -> LspResult<Option<WorkspaceEdit>> {
self.0.read().await.rename(params).await
}
async fn selection_range(
&self,
params: SelectionRangeParams,
) -> LspResult<Option<Vec<SelectionRange>>> {
self.0.read().await.selection_range(params).await
}
async fn semantic_tokens_full(
&self,
params: SemanticTokensParams,
) -> LspResult<Option<SemanticTokensResult>> {
self.0.read().await.semantic_tokens_full(params).await
}
async fn semantic_tokens_range(
&self,
params: SemanticTokensRangeParams,
) -> LspResult<Option<SemanticTokensRangeResult>> {
self.0.read().await.semantic_tokens_range(params).await
}
async fn signature_help(
&self,
params: SignatureHelpParams,
) -> LspResult<Option<SignatureHelp>> {
self.0.read().await.signature_help(params).await
}
async fn symbol(
&self,
params: WorkspaceSymbolParams,
) -> LspResult<Option<Vec<SymbolInformation>>> {
self.0.read().await.symbol(params).await
}
}
struct PrepareCacheResult {
cli_options: CliOptions,
roots: Vec<ModuleSpecifier>,
open_docs: Vec<Document>,
mark: PerformanceMark,
}
// These are implementations of custom commands supported by the LSP
impl Inner {
fn prepare_cache(
&self,
params: lsp_custom::CacheParams,
) -> LspResult<Option<PrepareCacheResult>> {
let referrer = self.url_map.normalize_url(&params.referrer.uri);
if !self.is_diagnosable(&referrer) {
return Ok(None);
}
let mark = self.performance.mark("cache", Some(&params));
let roots = if !params.uris.is_empty() {
params
.uris
.iter()
.map(|t| self.url_map.normalize_url(&t.uri))
.collect()
} else {
vec![referrer]
};
let mut cli_options = CliOptions::new(
Flags {
cache_path: self.maybe_cache_path.clone(),
ca_stores: None,
ca_data: None,
unsafely_ignore_certificate_errors: None,
// this is to allow loading npm specifiers, so we can remove this
// once stabilizing them
unstable: true,
..Default::default()
},
self.maybe_config_file.clone(),
// TODO(#16510): add support for lockfile
None,
);
cli_options.set_import_map_specifier(self.maybe_import_map_uri.clone());
let open_docs = self.documents.documents(true, true);
Ok(Some(PrepareCacheResult {
cli_options,
open_docs,
roots,
mark,
}))
}
async fn post_cache(&self, mark: PerformanceMark) {
// Now that we have dependencies loaded, we need to re-analyze all the files.
// For that we're invalidating all the existing diagnostics and restarting
// the language server for TypeScript (as it might hold to some stale
// documents).
self.diagnostics_server.invalidate_all();
let _: bool = self
.ts_server
.request(self.snapshot(), tsc::RequestMethod::Restart)
.await
.unwrap();
self.send_diagnostics_update();
self.send_testing_update();
self.performance.measure(mark);
}
fn get_performance(&self) -> Value {
let averages = self.performance.averages();
json!({ "averages": averages })
}
fn get_tasks(&self) -> LspResult<Option<Value>> {
Ok(
self
.maybe_config_file
.as_ref()
.and_then(|cf| cf.to_lsp_tasks()),
)
}
async fn inlay_hint(
&self,
params: InlayHintParams,
) -> LspResult<Option<Vec<InlayHint>>> {
let specifier = self.url_map.normalize_url(&params.text_document.uri);
let workspace_settings = self.config.get_workspace_settings();
if !self.is_diagnosable(&specifier)
|| !self.config.specifier_enabled(&specifier)
|| !workspace_settings.enabled_inlay_hints()
{
return Ok(None);
}
let mark = self.performance.mark("inlay_hint", Some(&params));
let asset_or_doc = self.get_asset_or_document(&specifier)?;
let line_index = asset_or_doc.line_index();
let range = tsc::TextSpan::from_range(&params.range, line_index.clone())
.map_err(|err| {
error!("Failed to convert range to text_span: {}", err);
LspError::internal_error()
})?;
let req = tsc::RequestMethod::ProvideInlayHints((
specifier,
range,
(&workspace_settings).into(),
));
let maybe_inlay_hints: Option<Vec<tsc::InlayHint>> = self
.ts_server
.request(self.snapshot(), req)
.await
.map_err(|err| {
error!("Unable to get inlay hints: {}", err);
LspError::internal_error()
})?;
let maybe_inlay_hints = maybe_inlay_hints.map(|hints| {
hints
.iter()
.map(|hint| hint.to_lsp(line_index.clone()))
.collect()
});
self.performance.measure(mark);
Ok(maybe_inlay_hints)
}
async fn reload_import_registries(&mut self) -> LspResult<Option<Value>> {
remove_dir_all_if_exists(&self.module_registries_location)
.await
.map_err(|err| {
error!("Unable to remove registries cache: {}", err);
LspError::internal_error()
})?;
self.update_registries().await.map_err(|err| {
error!("Unable to update registries: {}", err);
LspError::internal_error()
})?;
Ok(Some(json!(true)))
}
fn virtual_text_document(
&self,
params: lsp_custom::VirtualTextDocumentParams,
) -> LspResult<Option<String>> {
let mark = self
.performance
.mark("virtual_text_document", Some(&params));
let specifier = self.url_map.normalize_url(&params.text_document.uri);
let contents = if specifier.as_str() == "deno:/status.md" {
let mut contents = String::new();
let mut documents_specifiers = self
.documents
.documents(false, false)
.into_iter()
.map(|d| d.specifier().clone())
.collect::<Vec<_>>();
documents_specifiers.sort();
let measures = self.performance.to_vec();
let workspace_settings = self.config.get_workspace_settings();
write!(
contents,
r#"# Deno Language Server Status
## Workspace Settings
```json
{}
```
## Workspace Details
- <details><summary>Documents in memory: {}</summary>
- {}
</details>
- <details><summary>Performance measures: {}</summary>
- {}
</details>
"#,
serde_json::to_string_pretty(&workspace_settings).unwrap(),
documents_specifiers.len(),
documents_specifiers
.into_iter()
.map(|s| s.to_string())
.collect::<Vec<String>>()
.join("\n - "),
measures.len(),
measures
.iter()
.map(|m| m.to_string())
.collect::<Vec<String>>()
.join("\n - ")
)
.unwrap();
contents
.push_str("\n## Performance\n\n|Name|Duration|Count|\n|---|---|---|\n");
let mut averages = self.performance.averages();
averages.sort();
for average in averages {
writeln!(
contents,
"|{}|{}ms|{}|",
average.name, average.average_duration, average.count
)
.unwrap();
}
Some(contents)
} else {
let asset_or_doc = self.get_maybe_asset_or_document(&specifier);
if let Some(asset_or_doc) = asset_or_doc {
Some(asset_or_doc.text().to_string())
} else {
error!("The source was not found: {}", specifier);
None
}
};
self.performance.measure(mark);
Ok(contents)
}
}