// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use crate::args::npm_pkg_req_ref_to_binary_command; use crate::args::CliOptions; use crate::args::DenoSubcommand; use crate::args::Flags; use crate::args::Lockfile; use crate::args::PackageJsonDepsProvider; use crate::args::StorageKeyResolver; use crate::args::TsConfigType; use crate::cache::Caches; use crate::cache::DenoDir; use crate::cache::DenoDirProvider; use crate::cache::EmitCache; use crate::cache::HttpCache; use crate::cache::NodeAnalysisCache; use crate::cache::ParsedSourceCache; use crate::emit::Emitter; use crate::file_fetcher::FileFetcher; use crate::graph_util::ModuleGraphBuilder; use crate::graph_util::ModuleGraphContainer; use crate::http_util::HttpClient; use crate::module_loader::CjsResolutionStore; use crate::module_loader::CliModuleLoaderFactory; use crate::module_loader::ModuleLoadPreparer; use crate::module_loader::NpmModuleLoader; use crate::node::CliCjsEsmCodeAnalyzer; use crate::node::CliNodeCodeTranslator; use crate::npm::create_npm_fs_resolver; use crate::npm::CliNpmRegistryApi; use crate::npm::CliNpmResolver; use crate::npm::NpmCache; use crate::npm::NpmPackageFsResolver; use crate::npm::NpmResolution; use crate::npm::PackageJsonDepsInstaller; use crate::resolver::CliGraphResolver; use crate::standalone::DenoCompileBinaryWriter; use crate::tools::check::TypeChecker; use crate::util::progress_bar::ProgressBar; use crate::util::progress_bar::ProgressBarStyle; use crate::watcher::FileWatcher; use crate::watcher::FileWatcherReporter; use crate::worker::CliMainWorkerFactory; use crate::worker::CliMainWorkerOptions; use crate::worker::HasNodeSpecifierChecker; use deno_core::error::AnyError; use deno_core::parking_lot::Mutex; use deno_runtime::deno_fs; use deno_runtime::deno_node::analyze::NodeCodeTranslator; use deno_runtime::deno_node::NodeResolver; use deno_runtime::deno_tls::RootCertStoreProvider; use deno_runtime::deno_web::BlobStore; use deno_runtime::inspector_server::InspectorServer; use deno_semver::npm::NpmPackageReqReference; use import_map::ImportMap; use log::warn; use std::cell::RefCell; use std::future::Future; use std::path::PathBuf; use std::sync::Arc; pub struct CliFactoryBuilder { maybe_sender: Option>>, } impl CliFactoryBuilder { pub fn new() -> Self { Self { maybe_sender: None } } pub fn with_watcher( mut self, sender: tokio::sync::mpsc::UnboundedSender>, ) -> Self { self.maybe_sender = Some(sender); self } pub async fn build_from_flags( self, flags: Flags, ) -> Result { Ok(self.build_from_cli_options(Arc::new(CliOptions::from_flags(flags)?))) } pub fn build_from_cli_options(self, options: Arc) -> CliFactory { CliFactory { maybe_sender: RefCell::new(self.maybe_sender), options, services: Default::default(), } } } struct Deferred(once_cell::unsync::OnceCell); impl Default for Deferred { fn default() -> Self { Self(once_cell::unsync::OnceCell::default()) } } impl Deferred { pub fn get_or_try_init( &self, create: impl FnOnce() -> Result, ) -> Result<&T, AnyError> { self.0.get_or_try_init(create) } pub fn get_or_init(&self, create: impl FnOnce() -> T) -> &T { self.0.get_or_init(create) } pub async fn get_or_try_init_async( &self, create: impl Future>, ) -> Result<&T, AnyError> { if self.0.get().is_none() { // todo(dsherret): it would be more ideal if this enforced a // single executor and then we could make some initialization // concurrent let val = create.await?; _ = self.0.set(val); } Ok(self.0.get().unwrap()) } } #[derive(Default)] struct CliFactoryServices { deno_dir_provider: Deferred>, caches: Deferred>, file_fetcher: Deferred>, http_client: Deferred>, emit_cache: Deferred, emitter: Deferred>, fs: Deferred>, graph_container: Deferred>, lockfile: Deferred>>>, maybe_import_map: Deferred>>, maybe_inspector_server: Deferred>>, root_cert_store_provider: Deferred>, blob_store: Deferred, parsed_source_cache: Deferred>, resolver: Deferred>, file_watcher: Deferred>, maybe_file_watcher_reporter: Deferred>, module_graph_builder: Deferred>, module_load_preparer: Deferred>, node_code_translator: Deferred>, node_resolver: Deferred>, npm_api: Deferred>, npm_cache: Deferred>, npm_resolver: Deferred>, npm_resolution: Deferred>, package_json_deps_provider: Deferred>, package_json_deps_installer: Deferred>, text_only_progress_bar: Deferred, type_checker: Deferred>, cjs_resolutions: Deferred>, } pub struct CliFactory { maybe_sender: RefCell>>>, options: Arc, services: CliFactoryServices, } impl CliFactory { pub async fn from_flags(flags: Flags) -> Result { CliFactoryBuilder::new().build_from_flags(flags).await } pub fn from_cli_options(options: Arc) -> Self { CliFactoryBuilder::new().build_from_cli_options(options) } pub fn cli_options(&self) -> &Arc { &self.options } pub fn deno_dir_provider(&self) -> &Arc { self.services.deno_dir_provider.get_or_init(|| { Arc::new(DenoDirProvider::new( self.options.maybe_custom_root().clone(), )) }) } pub fn deno_dir(&self) -> Result<&DenoDir, AnyError> { Ok(self.deno_dir_provider().get_or_create()?) } pub fn caches(&self) -> Result<&Arc, AnyError> { self.services.caches.get_or_try_init(|| { let caches = Arc::new(Caches::new(self.deno_dir_provider().clone())); // Warm up the caches we know we'll likely need based on the CLI mode match self.options.sub_command() { DenoSubcommand::Run(_) => { _ = caches.dep_analysis_db(); _ = caches.node_analysis_db(); } DenoSubcommand::Check(_) => { _ = caches.dep_analysis_db(); _ = caches.node_analysis_db(); _ = caches.type_checking_cache_db(); } _ => {} } Ok(caches) }) } pub fn blob_store(&self) -> &BlobStore { self.services.blob_store.get_or_init(BlobStore::default) } pub fn root_cert_store_provider(&self) -> &Arc { self .services .root_cert_store_provider .get_or_init(|| self.options.resolve_root_cert_store_provider()) } pub fn text_only_progress_bar(&self) -> &ProgressBar { self .services .text_only_progress_bar .get_or_init(|| ProgressBar::new(ProgressBarStyle::TextOnly)) } pub fn http_client(&self) -> &Arc { self.services.http_client.get_or_init(|| { Arc::new(HttpClient::new( Some(self.root_cert_store_provider().clone()), self.options.unsafely_ignore_certificate_errors().clone(), )) }) } pub fn file_fetcher(&self) -> Result<&Arc, AnyError> { self.services.file_fetcher.get_or_try_init(|| { Ok(Arc::new(FileFetcher::new( HttpCache::new(&self.deno_dir()?.deps_folder_path()), self.options.cache_setting(), !self.options.no_remote(), self.http_client().clone(), self.blob_store().clone(), Some(self.text_only_progress_bar().clone()), ))) }) } pub fn fs(&self) -> &Arc { self.services.fs.get_or_init(|| Arc::new(deno_fs::RealFs)) } pub fn maybe_lockfile(&self) -> &Option>> { self .services .lockfile .get_or_init(|| self.options.maybe_lockfile()) } pub fn npm_cache(&self) -> Result<&Arc, AnyError> { self.services.npm_cache.get_or_try_init(|| { Ok(Arc::new(NpmCache::new( self.deno_dir()?.npm_folder_path(), self.options.cache_setting(), self.http_client().clone(), self.text_only_progress_bar().clone(), ))) }) } pub fn npm_api(&self) -> Result<&Arc, AnyError> { self.services.npm_api.get_or_try_init(|| { Ok(Arc::new(CliNpmRegistryApi::new( CliNpmRegistryApi::default_url().to_owned(), self.npm_cache()?.clone(), self.http_client().clone(), self.text_only_progress_bar().clone(), ))) }) } pub async fn npm_resolution(&self) -> Result<&Arc, AnyError> { self .services .npm_resolution .get_or_try_init_async(async { let npm_api = self.npm_api()?; Ok(Arc::new(NpmResolution::from_serialized( npm_api.clone(), self .options .resolve_npm_resolution_snapshot(npm_api) .await?, self.maybe_lockfile().as_ref().cloned(), ))) }) .await } pub async fn npm_resolver(&self) -> Result<&Arc, AnyError> { self .services .npm_resolver .get_or_try_init_async(async { let npm_resolution = self.npm_resolution().await?; let fs = self.fs().clone(); let npm_fs_resolver = create_npm_fs_resolver( fs.clone(), self.npm_cache()?.clone(), self.text_only_progress_bar(), CliNpmRegistryApi::default_url().to_owned(), npm_resolution.clone(), self.options.node_modules_dir_path(), self.options.npm_system_info(), ); Ok(Arc::new(CliNpmResolver::new( fs.clone(), npm_resolution.clone(), npm_fs_resolver, self.maybe_lockfile().as_ref().cloned(), ))) }) .await } pub async fn create_node_modules_npm_fs_resolver( &self, node_modules_dir_path: PathBuf, ) -> Result, AnyError> { Ok(create_npm_fs_resolver( self.fs().clone(), self.npm_cache()?.clone(), self.text_only_progress_bar(), CliNpmRegistryApi::default_url().to_owned(), self.npm_resolution().await?.clone(), // when an explicit path is provided here, it will create the // local node_modules variant of an npm fs resolver Some(node_modules_dir_path), self.options.npm_system_info(), )) } pub fn package_json_deps_provider(&self) -> &Arc { self.services.package_json_deps_provider.get_or_init(|| { Arc::new(PackageJsonDepsProvider::new( self.options.maybe_package_json_deps(), )) }) } pub async fn package_json_deps_installer( &self, ) -> Result<&Arc, AnyError> { self .services .package_json_deps_installer .get_or_try_init_async(async { Ok(Arc::new(PackageJsonDepsInstaller::new( self.package_json_deps_provider().clone(), self.npm_api()?.clone(), self.npm_resolution().await?.clone(), ))) }) .await } pub async fn maybe_import_map( &self, ) -> Result<&Option>, AnyError> { self .services .maybe_import_map .get_or_try_init_async(async { Ok( self .options .resolve_import_map(self.file_fetcher()?) .await? .map(Arc::new), ) }) .await } pub async fn resolver(&self) -> Result<&Arc, AnyError> { self .services .resolver .get_or_try_init_async(async { Ok(Arc::new(CliGraphResolver::new( self.options.to_maybe_jsx_import_source_config(), self.maybe_import_map().await?.clone(), self.options.no_npm(), self.npm_api()?.clone(), self.npm_resolution().await?.clone(), self.package_json_deps_provider().clone(), self.package_json_deps_installer().await?.clone(), ))) }) .await } pub fn file_watcher(&self) -> Result<&Arc, AnyError> { self.services.file_watcher.get_or_try_init(|| { let watcher = FileWatcher::new( self.options.clone(), self.cjs_resolutions().clone(), self.graph_container().clone(), self.maybe_file_watcher_reporter().clone(), self.parsed_source_cache()?.clone(), ); watcher.init_watcher(); Ok(Arc::new(watcher)) }) } pub fn maybe_file_watcher_reporter(&self) -> &Option { let maybe_sender = self.maybe_sender.borrow_mut().take(); self .services .maybe_file_watcher_reporter .get_or_init(|| maybe_sender.map(FileWatcherReporter::new)) } pub fn emit_cache(&self) -> Result<&EmitCache, AnyError> { self.services.emit_cache.get_or_try_init(|| { Ok(EmitCache::new(self.deno_dir()?.gen_cache.clone())) }) } pub fn parsed_source_cache( &self, ) -> Result<&Arc, AnyError> { self.services.parsed_source_cache.get_or_try_init(|| { Ok(Arc::new(ParsedSourceCache::new( self.caches()?.dep_analysis_db(), ))) }) } pub fn emitter(&self) -> Result<&Arc, AnyError> { self.services.emitter.get_or_try_init(|| { let ts_config_result = self .options .resolve_ts_config_for_emit(TsConfigType::Emit)?; if let Some(ignored_options) = ts_config_result.maybe_ignored_options { warn!("{}", ignored_options); } let emit_options: deno_ast::EmitOptions = ts_config_result.ts_config.into(); Ok(Arc::new(Emitter::new( self.emit_cache()?.clone(), self.parsed_source_cache()?.clone(), emit_options, ))) }) } pub async fn node_resolver(&self) -> Result<&Arc, AnyError> { self .services .node_resolver .get_or_try_init_async(async { Ok(Arc::new(NodeResolver::new( self.fs().clone(), self.npm_resolver().await?.clone(), ))) }) .await } pub async fn node_code_translator( &self, ) -> Result<&Arc, AnyError> { self .services .node_code_translator .get_or_try_init_async(async { let caches = self.caches()?; let node_analysis_cache = NodeAnalysisCache::new(caches.node_analysis_db()); let cjs_esm_analyzer = CliCjsEsmCodeAnalyzer::new(node_analysis_cache); Ok(Arc::new(NodeCodeTranslator::new( cjs_esm_analyzer, self.fs().clone(), self.node_resolver().await?.clone(), self.npm_resolver().await?.clone(), ))) }) .await } pub async fn type_checker(&self) -> Result<&Arc, AnyError> { self .services .type_checker .get_or_try_init_async(async { Ok(Arc::new(TypeChecker::new( self.caches()?.clone(), self.options.clone(), self.node_resolver().await?.clone(), self.npm_resolver().await?.clone(), ))) }) .await } pub async fn module_graph_builder( &self, ) -> Result<&Arc, AnyError> { self .services .module_graph_builder .get_or_try_init_async(async { Ok(Arc::new(ModuleGraphBuilder::new( self.options.clone(), self.resolver().await?.clone(), self.npm_resolver().await?.clone(), self.parsed_source_cache()?.clone(), self.maybe_lockfile().clone(), self.emit_cache()?.clone(), self.file_fetcher()?.clone(), self.type_checker().await?.clone(), ))) }) .await } pub fn graph_container(&self) -> &Arc { self.services.graph_container.get_or_init(Default::default) } pub fn maybe_inspector_server(&self) -> &Option> { self .services .maybe_inspector_server .get_or_init(|| self.options.resolve_inspector_server().map(Arc::new)) } pub async fn module_load_preparer( &self, ) -> Result<&Arc, AnyError> { self .services .module_load_preparer .get_or_try_init_async(async { Ok(Arc::new(ModuleLoadPreparer::new( self.options.clone(), self.graph_container().clone(), self.maybe_lockfile().clone(), self.maybe_file_watcher_reporter().clone(), self.module_graph_builder().await?.clone(), self.parsed_source_cache()?.clone(), self.text_only_progress_bar().clone(), self.resolver().await?.clone(), self.type_checker().await?.clone(), ))) }) .await } pub fn cjs_resolutions(&self) -> &Arc { self.services.cjs_resolutions.get_or_init(Default::default) } pub async fn create_compile_binary_writer( &self, ) -> Result { Ok(DenoCompileBinaryWriter::new( self.file_fetcher()?, self.http_client(), self.deno_dir()?, self.npm_api()?, self.npm_cache()?, self.npm_resolution().await?, self.npm_resolver().await?, self.options.npm_system_info(), self.package_json_deps_provider(), )) } /// Gets a function that can be used to create a CliMainWorkerFactory /// for a file watcher. pub async fn create_cli_main_worker_factory_func( &self, ) -> Result CliMainWorkerFactory>, AnyError> { let emitter = self.emitter()?.clone(); let graph_container = self.graph_container().clone(); let module_load_preparer = self.module_load_preparer().await?.clone(); let parsed_source_cache = self.parsed_source_cache()?.clone(); let resolver = self.resolver().await?.clone(); let blob_store = self.blob_store().clone(); let cjs_resolutions = self.cjs_resolutions().clone(); let node_code_translator = self.node_code_translator().await?.clone(); let options = self.cli_options().clone(); let main_worker_options = self.create_cli_main_worker_options()?; let fs = self.fs().clone(); let root_cert_store_provider = self.root_cert_store_provider().clone(); let node_resolver = self.node_resolver().await?.clone(); let npm_resolver = self.npm_resolver().await?.clone(); let maybe_inspector_server = self.maybe_inspector_server().clone(); let maybe_lockfile = self.maybe_lockfile().clone(); Ok(Arc::new(move || { CliMainWorkerFactory::new( StorageKeyResolver::from_options(&options), npm_resolver.clone(), node_resolver.clone(), Box::new(CliHasNodeSpecifierChecker(graph_container.clone())), blob_store.clone(), Box::new(CliModuleLoaderFactory::new( &options, emitter.clone(), graph_container.clone(), module_load_preparer.clone(), parsed_source_cache.clone(), resolver.clone(), NpmModuleLoader::new( cjs_resolutions.clone(), node_code_translator.clone(), fs.clone(), node_resolver.clone(), ), )), root_cert_store_provider.clone(), fs.clone(), maybe_inspector_server.clone(), maybe_lockfile.clone(), main_worker_options.clone(), ) })) } pub async fn create_cli_main_worker_factory( &self, ) -> Result { let node_resolver = self.node_resolver().await?; let fs = self.fs(); Ok(CliMainWorkerFactory::new( StorageKeyResolver::from_options(&self.options), self.npm_resolver().await?.clone(), node_resolver.clone(), Box::new(CliHasNodeSpecifierChecker(self.graph_container().clone())), self.blob_store().clone(), Box::new(CliModuleLoaderFactory::new( &self.options, self.emitter()?.clone(), self.graph_container().clone(), self.module_load_preparer().await?.clone(), self.parsed_source_cache()?.clone(), self.resolver().await?.clone(), NpmModuleLoader::new( self.cjs_resolutions().clone(), self.node_code_translator().await?.clone(), fs.clone(), node_resolver.clone(), ), )), self.root_cert_store_provider().clone(), self.fs().clone(), self.maybe_inspector_server().clone(), self.maybe_lockfile().clone(), self.create_cli_main_worker_options()?, )) } fn create_cli_main_worker_options( &self, ) -> Result { Ok(CliMainWorkerOptions { argv: self.options.argv().clone(), debug: self .options .log_level() .map(|l| l == log::Level::Debug) .unwrap_or(false), coverage_dir: self.options.coverage_dir(), enable_testing_features: self.options.enable_testing_features(), has_node_modules_dir: self.options.has_node_modules_dir(), inspect_brk: self.options.inspect_brk().is_some(), inspect_wait: self.options.inspect_wait().is_some(), is_inspecting: self.options.is_inspecting(), is_npm_main: self.options.is_npm_main(), location: self.options.location_flag().clone(), maybe_binary_npm_command_name: { let mut maybe_binary_command_name = None; if let DenoSubcommand::Run(flags) = self.options.sub_command() { if let Ok(pkg_ref) = NpmPackageReqReference::from_str(&flags.script) { // if the user ran a binary command, we'll need to set process.argv[0] // to be the name of the binary command instead of deno maybe_binary_command_name = Some(npm_pkg_req_ref_to_binary_command(&pkg_ref)); } } maybe_binary_command_name }, origin_data_folder_path: Some(self.deno_dir()?.origin_data_folder_path()), seed: self.options.seed(), unsafely_ignore_certificate_errors: self .options .unsafely_ignore_certificate_errors() .clone(), unstable: self.options.unstable(), }) } } struct CliHasNodeSpecifierChecker(Arc); impl HasNodeSpecifierChecker for CliHasNodeSpecifierChecker { fn has_node_specifier(&self) -> bool { self.0.graph().has_node_specifier } }