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denoland-deno/cli/lsp/language_server.rs

2962 lines
93 KiB
Rust

// Copyright 2018-2022 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 deno_graph::ModuleKind;
use deno_runtime::tokio_util::run_basic;
use import_map::ImportMap;
use log::error;
use log::warn;
use serde_json::from_value;
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::refactor;
use super::registries::ModuleRegistry;
use super::registries::ModuleRegistryOptions;
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::CliOptions;
use crate::args::ConfigFile;
use crate::args::Flags;
use crate::args::FmtConfig;
use crate::args::LintConfig;
use crate::args::TsConfig;
use crate::deno_dir;
use crate::file_fetcher::get_source_from_data_url;
use crate::fs_util;
use crate::graph_util::graph_valid;
use crate::proc_state::import_map_from_text;
use crate::proc_state::ProcState;
use crate::tools::fmt::format_file;
use crate::tools::fmt::format_parsed_source;
pub const REGISTRIES_PATH: &str = "registries";
const CACHE_PATH: &str = "deps";
#[derive(Debug, Clone)]
pub struct LanguageServer(Arc<tokio::sync::Mutex<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 root_uri: Option<Url>,
}
#[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 configuration for formatter which has been taken from specified config file.
maybe_fmt_config: Option<FmtConfig>,
/// 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>,
/// An optional configuration for linter which has been taken from specified config file.
pub maybe_lint_config: Option<LintConfig>,
/// A lazily create "server" for handling test run requests.
maybe_testing_server: Option<testing::TestServer>,
/// 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::Mutex::new(Inner::new(client))))
}
pub async fn cache_request(
&self,
params: Option<Value>,
) -> LspResult<Option<Value>> {
match params.map(serde_json::from_value) {
Some(Ok(params)) => self.0.lock().await.cache(params).await,
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.lock().await.get_performance()))
}
pub async fn reload_import_registries_request(
&self,
) -> LspResult<Option<Value>> {
self.0.lock().await.reload_import_registries().await
}
pub async fn task_request(&self) -> LspResult<Option<Value>> {
self.0.lock().await.get_tasks()
}
pub async fn test_run_request(
&self,
params: Option<Value>,
) -> LspResult<Option<Value>> {
let inner = self.0.lock().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.lock().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 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.lock().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")),
}
}
}
impl Inner {
fn new(client: Client) -> Self {
let maybe_custom_root = env::var("DENO_DIR").map(String::into).ok();
let dir = deno_dir::DenoDir::new(maybe_custom_root)
.expect("could not access DENO_DIR");
let module_registries_location = dir.root.join(REGISTRIES_PATH);
let module_registries = ModuleRegistry::new(
&module_registries_location,
ModuleRegistryOptions::default(),
)
.expect("could not create module registries");
let location = dir.root.join(CACHE_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());
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,
maybe_lint_config: None,
maybe_fmt_config: None,
maybe_testing_server: None,
module_registries,
module_registries_location,
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(
&mut 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 = fs_util::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(),
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 = fs_util::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 = fs_util::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 {
let maybe_custom_root = maybe_cache_path
.clone()
.or_else(|| env::var("DENO_DIR").map(String::into).ok());
let dir = deno_dir::DenoDir::new(maybe_custom_root)?;
let module_registries_location = dir.root.join(REGISTRIES_PATH);
let workspace_settings = self.config.get_workspace_settings();
let maybe_root_path = self
.config
.root_uri
.as_ref()
.and_then(|uri| fs_util::specifier_to_file_path(uri).ok());
self.module_registries = ModuleRegistry::new(
&module_registries_location,
ModuleRegistryOptions {
maybe_root_path,
maybe_ca_stores: workspace_settings.certificate_stores.clone(),
maybe_ca_file: workspace_settings.tls_certificate.clone(),
unsafely_ignore_certificate_errors: workspace_settings
.unsafely_ignore_certificate_errors,
},
)?;
self.module_registries_location = module_registries_location;
let location = dir.root.join(CACHE_PATH);
self.documents.set_location(&location);
self.cache_metadata.set_location(&location);
self.maybe_cache_path = maybe_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 = if let Some(import_map_str) =
self.config.get_workspace_settings().import_map
{
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:") {
Some(Url::parse(&import_map_str).map_err(|_| {
anyhow!("Bad data url for import map: {}", import_map_str)
})?)
} else if let Some(root_uri) = &self.config.root_uri {
let root_path = fs_util::specifier_to_file_path(root_uri)?;
let import_map_path = root_path.join(&import_map_str);
Some(Url::from_file_path(import_map_path).map_err(|_| {
anyhow!("Bad file path for import map: {}", import_map_str)
})?)
} 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 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
};
if let Some(import_map_url) = maybe_import_map_url {
let import_map_json = if import_map_url.scheme() == "data" {
get_source_from_data_url(&import_map_url)?.0
} else {
let import_map_path = fs_util::specifier_to_file_path(&import_map_url)?;
lsp_log!(
" Resolved import map: \"{}\"",
import_map_path.to_string_lossy()
);
fs::read_to_string(import_map_path).await.map_err(|err| {
anyhow!(
"Failed to load the import map at: {}. [{}]",
import_map_url,
err
)
})?
};
let import_map = import_map_from_text(&import_map_url, &import_map_json)?;
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(())
}
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::<()>);
let workspace_settings = self.config.get_workspace_settings();
let maybe_root_path = self
.config
.root_uri
.as_ref()
.and_then(|uri| fs_util::specifier_to_file_path(uri).ok());
self.module_registries = ModuleRegistry::new(
&self.module_registries_location,
ModuleRegistryOptions {
maybe_root_path,
maybe_ca_stores: workspace_settings.certificate_stores.clone(),
maybe_ca_file: workspace_settings.tls_certificate.clone(),
unsafely_ignore_certificate_errors: workspace_settings
.unsafely_ignore_certificate_errors
.clone(),
},
)?;
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.maybe_fmt_config = None;
self.maybe_lint_config = None;
if let Some(config_file) = self.get_config_file()? {
let lint_config = config_file
.to_lint_config()
.map_err(|err| {
anyhow!("Unable to update lint configuration: {:?}", err)
})?
.unwrap_or_default();
let fmt_config = config_file
.to_fmt_config()
.map_err(|err| {
anyhow!("Unable to update formatter configuration: {:?}", err)
})?
.unwrap_or_default();
self.maybe_config_file = Some(config_file);
self.maybe_lint_config = Some(lint_config);
self.maybe_fmt_config = Some(fmt_config);
}
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(fs_util::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),
})
}
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
.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 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) {
let mut specifiers = self.documents.dependents(&specifier);
specifiers.push(specifier.clone());
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(
&mut 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 =
fs_util::specifier_to_file_path(&specifier).map_err(|err| {
error!("{}", err);
LspError::invalid_request()
})?;
let fmt_options = if let Some(fmt_config) = self.maybe_fmt_config.as_ref() {
// skip formatting any files ignored by the config file
if !fmt_config.files.matches_specifier(&specifier) {
return Ok(None);
}
fmt_config.options.clone()
} else {
Default::default()
};
let text_edits = tokio::task::spawn_blocking(move || {
let format_result = match document.maybe_parsed_source() {
Some(Ok(parsed_source)) => {
format_parsed_source(&parsed_source, fmt_options)
}
Some(Err(err)) => Err(anyhow!("{}", err)),
None => {
// it's not a js/ts file, so attempt to format its contents
format_file(&file_path, &document.content(), &fmt_options)
}
};
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
}
}
})
.await
.unwrap();
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.code),
_ => 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.clone();
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.clone();
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.clone(),
tsc::TextSpan { start, length },
action_data.refactor_name.clone(),
action_data.action_name.clone(),
));
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(
&mut 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 = if let Some(context) = &params.context {
context.trigger_character.clone()
} else {
None
};
let position =
line_index.offset_tsc(params.text_document_position.position)?;
let req = tsc::RequestMethod::GetCompletions((
specifier.clone(),
position,
tsc::GetCompletionsAtPositionOptions {
user_preferences: tsc::UserPreferences {
allow_text_changes_in_new_files: Some(specifier.scheme() == "file"),
include_automatic_optional_chain_completions: Some(true),
provide_refactor_not_applicable_reason: Some(true),
include_completions_with_insert_text: Some(true),
allow_incomplete_completions: Some(true),
..Default::default()
},
trigger_character,
},
));
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 req = tsc::RequestMethod::GetCompletionDetails(data.into());
let maybe_completion_info: Option<tsc::CompletionEntryDetails> =
self.ts_server.request(self.snapshot(), req).await.map_err(
|err| {
error!("Unable to get completion info from TypeScript: {}", err);
LspError::internal_error()
},
)?;
if let Some(completion_info) = maybe_completion_info {
completion_info.as_completion_item(&params, self)
} else {
error!(
"Received an undefined response from tsc for completion details."
);
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.clone());
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.clone(),
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| fs_util::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.clone(),
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| fs_util::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.clone(),
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| fs_util::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(
&mut 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(
&mut 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.clone(),
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(
&mut 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.clone(),
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(
&mut 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(
&mut 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.maybe_lint_config.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.lock().await;
language_server.diagnostics_server.start();
language_server.initialize(params).await
}
async fn initialized(&self, params: InitializedParams) {
self.0.lock().await.initialized(params).await
}
async fn shutdown(&self) -> LspResult<()> {
self.0.lock().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.lock().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() {
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.lock().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.lock().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.lock().await.did_close(params).await
}
async fn did_change_configuration(
&self,
params: DidChangeConfigurationParams,
) {
let (has_workspace_capability, client, specifiers, mark) = {
let inner = self.0.lock().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.lock().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.lock().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.lock().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.lock().await.did_change_watched_files(params).await
}
async fn did_change_workspace_folders(
&self,
params: DidChangeWorkspaceFoldersParams,
) {
let client = {
let mut inner = self.0.lock().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.lock().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.lock().await.document_symbol(params).await
}
async fn formatting(
&self,
params: DocumentFormattingParams,
) -> LspResult<Option<Vec<TextEdit>>> {
self.0.lock().await.formatting(params).await
}
async fn hover(&self, params: HoverParams) -> LspResult<Option<Hover>> {
self.0.lock().await.hover(params).await
}
async fn code_action(
&self,
params: CodeActionParams,
) -> LspResult<Option<CodeActionResponse>> {
self.0.lock().await.code_action(params).await
}
async fn code_action_resolve(
&self,
params: CodeAction,
) -> LspResult<CodeAction> {
self.0.lock().await.code_action_resolve(params).await
}
async fn code_lens(
&self,
params: CodeLensParams,
) -> LspResult<Option<Vec<CodeLens>>> {
self.0.lock().await.code_lens(params).await
}
async fn code_lens_resolve(&self, params: CodeLens) -> LspResult<CodeLens> {
self.0.lock().await.code_lens_resolve(params).await
}
async fn document_highlight(
&self,
params: DocumentHighlightParams,
) -> LspResult<Option<Vec<DocumentHighlight>>> {
self.0.lock().await.document_highlight(params).await
}
async fn references(
&self,
params: ReferenceParams,
) -> LspResult<Option<Vec<Location>>> {
self.0.lock().await.references(params).await
}
async fn goto_definition(
&self,
params: GotoDefinitionParams,
) -> LspResult<Option<GotoDefinitionResponse>> {
self.0.lock().await.goto_definition(params).await
}
async fn goto_type_definition(
&self,
params: GotoTypeDefinitionParams,
) -> LspResult<Option<GotoTypeDefinitionResponse>> {
self.0.lock().await.goto_type_definition(params).await
}
async fn completion(
&self,
params: CompletionParams,
) -> LspResult<Option<CompletionResponse>> {
self.0.lock().await.completion(params).await
}
async fn completion_resolve(
&self,
params: CompletionItem,
) -> LspResult<CompletionItem> {
self.0.lock().await.completion_resolve(params).await
}
async fn goto_implementation(
&self,
params: GotoImplementationParams,
) -> LspResult<Option<GotoImplementationResponse>> {
self.0.lock().await.goto_implementation(params).await
}
async fn folding_range(
&self,
params: FoldingRangeParams,
) -> LspResult<Option<Vec<FoldingRange>>> {
self.0.lock().await.folding_range(params).await
}
async fn incoming_calls(
&self,
params: CallHierarchyIncomingCallsParams,
) -> LspResult<Option<Vec<CallHierarchyIncomingCall>>> {
self.0.lock().await.incoming_calls(params).await
}
async fn outgoing_calls(
&self,
params: CallHierarchyOutgoingCallsParams,
) -> LspResult<Option<Vec<CallHierarchyOutgoingCall>>> {
self.0.lock().await.outgoing_calls(params).await
}
async fn prepare_call_hierarchy(
&self,
params: CallHierarchyPrepareParams,
) -> LspResult<Option<Vec<CallHierarchyItem>>> {
self.0.lock().await.prepare_call_hierarchy(params).await
}
async fn rename(
&self,
params: RenameParams,
) -> LspResult<Option<WorkspaceEdit>> {
self.0.lock().await.rename(params).await
}
async fn selection_range(
&self,
params: SelectionRangeParams,
) -> LspResult<Option<Vec<SelectionRange>>> {
self.0.lock().await.selection_range(params).await
}
async fn semantic_tokens_full(
&self,
params: SemanticTokensParams,
) -> LspResult<Option<SemanticTokensResult>> {
self.0.lock().await.semantic_tokens_full(params).await
}
async fn semantic_tokens_range(
&self,
params: SemanticTokensRangeParams,
) -> LspResult<Option<SemanticTokensRangeResult>> {
self.0.lock().await.semantic_tokens_range(params).await
}
async fn signature_help(
&self,
params: SignatureHelpParams,
) -> LspResult<Option<SignatureHelp>> {
self.0.lock().await.signature_help(params).await
}
async fn symbol(
&self,
params: WorkspaceSymbolParams,
) -> LspResult<Option<Vec<SymbolInformation>>> {
self.0.lock().await.symbol(params).await
}
}
// These are implementations of custom commands supported by the LSP
impl Inner {
/// Similar to `deno cache` on the command line, where modules will be cached
/// in the Deno cache, including any of their dependencies.
async fn cache(
&mut self,
params: lsp_custom::CacheParams,
) -> LspResult<Option<Value>> {
async fn create_graph_for_caching(
cli_options: CliOptions,
roots: Vec<(ModuleSpecifier, ModuleKind)>,
) -> Result<(), AnyError> {
let ps = ProcState::from_options(Arc::new(cli_options)).await?;
let graph = ps.create_graph(roots).await?;
graph_valid(&graph, true, false)?;
Ok(())
}
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),
deno_graph::ModuleKind::Esm,
)
})
.collect()
} else {
vec![(referrer.clone(), deno_graph::ModuleKind::Esm)]
};
let mut cli_options = CliOptions::new(
Flags {
cache_path: self.maybe_cache_path.clone(),
ca_stores: None,
ca_file: None,
unsafely_ignore_certificate_errors: None,
..Default::default()
},
self.maybe_config_file.clone(),
);
cli_options.set_import_map_specifier(self.maybe_import_map_uri.clone());
// todo(dsherret): why is running this on a new thread necessary? It does
// a compile error otherwise.
let handle = tokio::task::spawn_blocking(|| {
run_basic(
async move { create_graph_for_caching(cli_options, roots).await },
)
});
if let Err(err) = handle.await.unwrap() {
self.client.show_message(MessageType::WARNING, err).await;
}
// 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);
Ok(Some(json!(true)))
}
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 reload_import_registries(&mut self) -> LspResult<Option<Value>> {
fs_util::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(
&mut 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|{}|\n",
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)
}
}