// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use crate::args::TsConfig; use crate::args::TypeCheckMode; use crate::cache::FastInsecureHasher; use crate::node; use crate::util::checksum; use crate::util::path::mapped_specifier_for_tsc; use deno_ast::MediaType; use deno_core::anyhow::anyhow; use deno_core::anyhow::Context; use deno_core::ascii_str; use deno_core::error::AnyError; use deno_core::located_script_name; use deno_core::op; use deno_core::resolve_url_or_path; use deno_core::serde::Deserialize; use deno_core::serde::Deserializer; use deno_core::serde::Serialize; use deno_core::serde::Serializer; use deno_core::serde_json; use deno_core::serde_json::json; use deno_core::serde_json::Value; use deno_core::serde_v8; use deno_core::JsRuntime; use deno_core::ModuleSpecifier; use deno_core::OpState; use deno_core::RuntimeOptions; use deno_core::Snapshot; use deno_graph::Module; use deno_graph::ModuleGraph; use deno_graph::ResolutionResolved; use deno_runtime::deno_node; use deno_runtime::deno_node::NodeResolution; use deno_runtime::deno_node::NodeResolutionMode; use deno_runtime::deno_node::NodeResolver; use deno_runtime::permissions::PermissionsContainer; use deno_semver::npm::NpmPackageReqReference; use lsp_types::Url; use once_cell::sync::Lazy; use std::borrow::Cow; use std::collections::HashMap; use std::fmt; use std::path::Path; use std::path::PathBuf; use std::sync::Arc; mod diagnostics; pub use self::diagnostics::Diagnostic; pub use self::diagnostics::DiagnosticCategory; pub use self::diagnostics::DiagnosticMessageChain; pub use self::diagnostics::Diagnostics; pub use self::diagnostics::Position; pub static COMPILER_SNAPSHOT: Lazy> = Lazy::new( #[cold] #[inline(never)] || { static COMPRESSED_COMPILER_SNAPSHOT: &[u8] = include_bytes!(concat!(env!("OUT_DIR"), "/COMPILER_SNAPSHOT.bin")); // NOTE(bartlomieju): Compressing the TSC snapshot in debug build took // ~45s on M1 MacBook Pro; without compression it took ~1s. // Thus we're not not using compressed snapshot, trading off // a lot of build time for some startup time in debug build. #[cfg(debug_assertions)] return COMPRESSED_COMPILER_SNAPSHOT.to_vec().into_boxed_slice(); #[cfg(not(debug_assertions))] zstd::bulk::decompress( &COMPRESSED_COMPILER_SNAPSHOT[4..], u32::from_le_bytes(COMPRESSED_COMPILER_SNAPSHOT[0..4].try_into().unwrap()) as usize, ) .unwrap() .into_boxed_slice() }, ); pub fn get_types_declaration_file_text(unstable: bool) -> String { let mut assets = get_asset_texts_from_new_runtime() .unwrap() .into_iter() .map(|a| (a.specifier, a.text)) .collect::>(); let mut lib_names = vec![ "deno.ns", "deno.console", "deno.url", "deno.web", "deno.fetch", "deno.websocket", "deno.webstorage", "deno.crypto", "deno.broadcast_channel", "deno.net", "deno.shared_globals", "deno.cache", "deno.window", ]; if unstable { lib_names.push("deno.unstable"); } lib_names .into_iter() .map(|name| { let asset_url = format!("asset:///lib.{name}.d.ts"); assets.remove(&asset_url).unwrap() }) .collect::>() .join("\n") } fn get_asset_texts_from_new_runtime() -> Result, AnyError> { deno_core::extension!(deno_cli_tsc, ops_fn = deno_ops); // the assets are stored within the typescript isolate, so take them out of there let mut runtime = JsRuntime::new(RuntimeOptions { startup_snapshot: Some(compiler_snapshot()), extensions: vec![deno_cli_tsc::init_ops()], ..Default::default() }); let global = runtime .execute_script("get_assets.js", ascii_str!("globalThis.getAssets()"))?; let scope = &mut runtime.handle_scope(); let local = deno_core::v8::Local::new(scope, global); Ok(serde_v8::from_v8::>(scope, local)?) } pub fn compiler_snapshot() -> Snapshot { Snapshot::Static(&COMPILER_SNAPSHOT) } macro_rules! inc { ($e:expr) => { include_str!(concat!("./dts/", $e)) }; } /// Contains static assets that are not preloaded in the compiler snapshot. /// /// We lazily load these because putting them in the compiler snapshot will /// increase memory usage when not used (last time checked by about 0.5MB). pub static LAZILY_LOADED_STATIC_ASSETS: Lazy< HashMap<&'static str, &'static str>, > = Lazy::new(|| { ([ ( "lib.dom.asynciterable.d.ts", inc!("lib.dom.asynciterable.d.ts"), ), ("lib.dom.d.ts", inc!("lib.dom.d.ts")), ("lib.dom.extras.d.ts", inc!("lib.dom.extras.d.ts")), ("lib.dom.iterable.d.ts", inc!("lib.dom.iterable.d.ts")), ("lib.es6.d.ts", inc!("lib.es6.d.ts")), ("lib.es2016.full.d.ts", inc!("lib.es2016.full.d.ts")), ("lib.es2017.full.d.ts", inc!("lib.es2017.full.d.ts")), ("lib.es2018.full.d.ts", inc!("lib.es2018.full.d.ts")), ("lib.es2019.full.d.ts", inc!("lib.es2019.full.d.ts")), ("lib.es2020.full.d.ts", inc!("lib.es2020.full.d.ts")), ("lib.es2021.full.d.ts", inc!("lib.es2021.full.d.ts")), ("lib.es2022.full.d.ts", inc!("lib.es2022.full.d.ts")), ("lib.esnext.full.d.ts", inc!("lib.esnext.full.d.ts")), ("lib.scripthost.d.ts", inc!("lib.scripthost.d.ts")), ("lib.webworker.d.ts", inc!("lib.webworker.d.ts")), ( "lib.webworker.importscripts.d.ts", inc!("lib.webworker.importscripts.d.ts"), ), ( "lib.webworker.iterable.d.ts", inc!("lib.webworker.iterable.d.ts"), ), ( // Special file that can be used to inject the @types/node package. // This is used for `node:` specifiers. "node_types.d.ts", "/// \n", ), ]) .iter() .cloned() .collect() }); /// A structure representing stats from a type check operation for a graph. #[derive(Clone, Debug, Default, Eq, PartialEq)] pub struct Stats(pub Vec<(String, u32)>); impl<'de> Deserialize<'de> for Stats { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { let items: Vec<(String, u32)> = Deserialize::deserialize(deserializer)?; Ok(Stats(items)) } } impl Serialize for Stats { fn serialize(&self, serializer: S) -> Result where S: Serializer, { Serialize::serialize(&self.0, serializer) } } impl fmt::Display for Stats { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { writeln!(f, "Compilation statistics:")?; for (key, value) in self.0.clone() { writeln!(f, " {key}: {value}")?; } Ok(()) } } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] pub struct AssetText { pub specifier: String, pub text: String, } /// Retrieve a static asset that are included in the binary. fn get_lazily_loaded_asset(asset: &str) -> Option<&'static str> { LAZILY_LOADED_STATIC_ASSETS.get(asset).map(|s| s.to_owned()) } fn get_maybe_hash( maybe_source: Option<&str>, hash_data: u64, ) -> Option { maybe_source.map(|source| get_hash(source, hash_data)) } fn get_hash(source: &str, hash_data: u64) -> String { let mut hasher = FastInsecureHasher::new(); hasher.write_str(source); hasher.write_u64(hash_data); hasher.finish().to_string() } /// Hash the URL so it can be sent to `tsc` in a supportable way fn hash_url(specifier: &ModuleSpecifier, media_type: MediaType) -> String { let hash = checksum::gen(&[specifier.path().as_bytes()]); format!( "{}:///{}{}", specifier.scheme(), hash, media_type.as_ts_extension() ) } /// If the provided URLs derivable tsc media type doesn't match the media type, /// we will add an extension to the output. This is to avoid issues with /// specifiers that don't have extensions, that tsc refuses to emit because they /// think a `.js` version exists, when it doesn't. fn maybe_remap_specifier( specifier: &ModuleSpecifier, media_type: MediaType, ) -> Option { let path = if specifier.scheme() == "file" { if let Ok(path) = specifier.to_file_path() { path } else { PathBuf::from(specifier.path()) } } else { PathBuf::from(specifier.path()) }; if path.extension().is_none() { Some(format!("{}{}", specifier, media_type.as_ts_extension())) } else { None } } #[derive(Debug, Clone, Default, Eq, PartialEq)] pub struct EmittedFile { pub data: String, pub maybe_specifiers: Option>, pub media_type: MediaType, } /// A structure representing a request to be sent to the tsc runtime. #[derive(Debug)] pub struct Request { /// The TypeScript compiler options which will be serialized and sent to /// tsc. pub config: TsConfig, /// Indicates to the tsc runtime if debug logging should occur. pub debug: bool, pub graph: Arc, pub hash_data: u64, pub maybe_node_resolver: Option>, pub maybe_tsbuildinfo: Option, /// A vector of strings that represent the root/entry point modules for the /// program. pub root_names: Vec<(ModuleSpecifier, MediaType)>, pub check_mode: TypeCheckMode, } #[derive(Debug, Clone, Eq, PartialEq)] pub struct Response { /// Any diagnostics that have been returned from the checker. pub diagnostics: Diagnostics, /// If there was any build info associated with the exec request. pub maybe_tsbuildinfo: Option, /// Statistics from the check. pub stats: Stats, } #[derive(Debug, Default)] struct State { hash_data: u64, graph: Arc, maybe_tsbuildinfo: Option, maybe_response: Option, maybe_node_resolver: Option>, remapped_specifiers: HashMap, root_map: HashMap, current_dir: PathBuf, } impl State { pub fn new( graph: Arc, hash_data: u64, maybe_node_resolver: Option>, maybe_tsbuildinfo: Option, root_map: HashMap, remapped_specifiers: HashMap, current_dir: PathBuf, ) -> Self { State { hash_data, graph, maybe_node_resolver, maybe_tsbuildinfo, maybe_response: None, remapped_specifiers, root_map, current_dir, } } } fn normalize_specifier( specifier: &str, current_dir: &Path, ) -> Result { resolve_url_or_path(specifier, current_dir).map_err(|err| err.into()) } #[op] fn op_create_hash(s: &mut OpState, text: &str) -> String { let state = s.borrow_mut::(); get_hash(text, state.hash_data) } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] struct EmitArgs { /// The text data/contents of the file. data: String, /// The _internal_ filename for the file. This will be used to determine how /// the file is cached and stored. file_name: String, } #[op] fn op_emit(state: &mut OpState, args: EmitArgs) -> bool { let state = state.borrow_mut::(); match args.file_name.as_ref() { "internal:///.tsbuildinfo" => state.maybe_tsbuildinfo = Some(args.data), _ => { if cfg!(debug_assertions) { panic!("Unhandled emit write: {}", args.file_name); } } } true } #[derive(Debug, Deserialize)] struct LoadArgs { /// The fully qualified specifier that should be loaded. specifier: String, } pub fn as_ts_script_kind(media_type: MediaType) -> i32 { match media_type { MediaType::JavaScript => 1, MediaType::Jsx => 2, MediaType::Mjs => 1, MediaType::Cjs => 1, MediaType::TypeScript => 3, MediaType::Mts => 3, MediaType::Cts => 3, MediaType::Dts => 3, MediaType::Dmts => 3, MediaType::Dcts => 3, MediaType::Tsx => 4, MediaType::Json => 6, MediaType::SourceMap | MediaType::TsBuildInfo | MediaType::Wasm | MediaType::Unknown => 0, } } #[op] fn op_load(state: &mut OpState, args: Value) -> Result { let state = state.borrow_mut::(); let v: LoadArgs = serde_json::from_value(args) .context("Invalid request from JavaScript for \"op_load\".")?; let specifier = normalize_specifier(&v.specifier, &state.current_dir) .context("Error converting a string module specifier for \"op_load\".")?; let mut hash: Option = None; let mut media_type = MediaType::Unknown; let graph = &state.graph; let data = if &v.specifier == "internal:///.tsbuildinfo" { state.maybe_tsbuildinfo.as_deref().map(Cow::Borrowed) // in certain situations we return a "blank" module to tsc and we need to // handle the request for that module here. } else if &v.specifier == "internal:///missing_dependency.d.ts" { hash = Some("1".to_string()); media_type = MediaType::Dts; Some(Cow::Borrowed("declare const __: any;\nexport = __;\n")) } else if let Some(name) = v.specifier.strip_prefix("asset:///") { let maybe_source = get_lazily_loaded_asset(name); hash = get_maybe_hash(maybe_source, state.hash_data); media_type = MediaType::from_str(&v.specifier); maybe_source.map(Cow::Borrowed) } else { let specifier = if let Some(remapped_specifier) = state.remapped_specifiers.get(&v.specifier) { remapped_specifier } else if let Some(remapped_specifier) = state.root_map.get(&v.specifier) { remapped_specifier } else { &specifier }; let maybe_source = if let Some(module) = graph.get(specifier) { match module { Module::Esm(module) => { media_type = module.media_type; Some(Cow::Borrowed(&*module.source)) } Module::Json(module) => { media_type = MediaType::Json; Some(Cow::Borrowed(&*module.source)) } Module::Npm(_) | Module::Node(_) => None, Module::External(module) => { // means it's Deno code importing an npm module let specifier = node::resolve_specifier_into_node_modules(&module.specifier); media_type = MediaType::from_specifier(&specifier); let file_path = specifier.to_file_path().unwrap(); let code = std::fs::read_to_string(&file_path).with_context(|| { format!("Unable to load {}", file_path.display()) })?; Some(Cow::Owned(code)) } } } else if state .maybe_node_resolver .as_ref() .map(|resolver| resolver.in_npm_package(specifier)) .unwrap_or(false) { media_type = MediaType::from_specifier(specifier); let file_path = specifier.to_file_path().unwrap(); let code = std::fs::read_to_string(&file_path) .with_context(|| format!("Unable to load {}", file_path.display()))?; Some(Cow::Owned(code)) } else { media_type = MediaType::Unknown; None }; hash = get_maybe_hash(maybe_source.as_deref(), state.hash_data); maybe_source }; Ok(json!({ "data": data, "version": hash, "scriptKind": as_ts_script_kind(media_type), })) } #[derive(Debug, Deserialize, Serialize)] #[serde(rename_all = "camelCase")] pub struct ResolveArgs { /// The base specifier that the supplied specifier strings should be resolved /// relative to. pub base: String, /// A list of specifiers that should be resolved. pub specifiers: Vec, } #[op] fn op_resolve( state: &mut OpState, args: ResolveArgs, ) -> Result, AnyError> { let state = state.borrow_mut::(); let mut resolved: Vec<(String, String)> = Vec::with_capacity(args.specifiers.len()); let referrer = if let Some(remapped_specifier) = state.remapped_specifiers.get(&args.base) { remapped_specifier.clone() } else if let Some(remapped_base) = state.root_map.get(&args.base) { remapped_base.clone() } else { normalize_specifier(&args.base, &state.current_dir).context( "Error converting a string module specifier for \"op_resolve\".", )? }; for specifier in args.specifiers { if let Some(module_name) = specifier.strip_prefix("node:") { if deno_node::is_builtin_node_module(module_name) { // return itself for node: specifiers because during type checking // we resolve to the ambient modules in the @types/node package // rather than deno_std/node resolved.push((specifier, MediaType::Dts.to_string())); continue; } } if specifier.starts_with("asset:///") { let media_type = MediaType::from_str(&specifier) .as_ts_extension() .to_string(); resolved.push((specifier, media_type)); continue; } let graph = &state.graph; let resolved_dep = graph .get(&referrer) .and_then(|m| m.esm()) .and_then(|m| m.dependencies.get(&specifier)) .and_then(|d| d.maybe_type.ok().or_else(|| d.maybe_code.ok())); let maybe_result = match resolved_dep { Some(ResolutionResolved { specifier, .. }) => { resolve_graph_specifier_types(specifier, state)? } _ => resolve_non_graph_specifier_types(&specifier, &referrer, state)?, }; let result = match maybe_result { Some((specifier, media_type)) => { let specifier_str = match specifier.scheme() { "data" | "blob" => { let specifier_str = hash_url(&specifier, media_type); state .remapped_specifiers .insert(specifier_str.clone(), specifier); specifier_str } _ => { if let Some(specifier_str) = maybe_remap_specifier(&specifier, media_type) { state .remapped_specifiers .insert(specifier_str.clone(), specifier); specifier_str } else { specifier.to_string() } } }; (specifier_str, media_type.as_ts_extension().into()) } None => ( "internal:///missing_dependency.d.ts".to_string(), ".d.ts".to_string(), ), }; log::debug!("Resolved {} to {:?}", specifier, result); resolved.push(result); } Ok(resolved) } fn resolve_graph_specifier_types( specifier: &ModuleSpecifier, state: &State, ) -> Result, AnyError> { let graph = &state.graph; let maybe_module = graph.get(specifier); // follow the types reference directive, which may be pointing at an npm package let maybe_module = match maybe_module { Some(Module::Esm(module)) => { let maybe_types_dep = module .maybe_types_dependency .as_ref() .map(|d| &d.dependency); match maybe_types_dep.and_then(|d| d.maybe_specifier()) { Some(specifier) => graph.get(specifier), _ => maybe_module, } } maybe_module => maybe_module, }; // now get the types from the resolved module match maybe_module { Some(Module::Esm(module)) => { Ok(Some((module.specifier.clone(), module.media_type))) } Some(Module::Json(module)) => { Ok(Some((module.specifier.clone(), module.media_type))) } Some(Module::Npm(module)) => { if let Some(node_resolver) = &state.maybe_node_resolver { let maybe_resolution = node_resolver.resolve_npm_reference( &module.nv_reference, NodeResolutionMode::Types, &PermissionsContainer::allow_all(), )?; Ok(Some(NodeResolution::into_specifier_and_media_type( maybe_resolution, ))) } else { Ok(None) } } Some(Module::External(module)) => { // we currently only use "External" for when the module is in an npm package Ok(state.maybe_node_resolver.as_ref().map(|node_resolver| { let specifier = node::resolve_specifier_into_node_modules(&module.specifier); NodeResolution::into_specifier_and_media_type( node_resolver.url_to_node_resolution(specifier).ok(), ) })) } Some(Module::Node(_)) | None => Ok(None), } } fn resolve_non_graph_specifier_types( specifier: &str, referrer: &ModuleSpecifier, state: &State, ) -> Result, AnyError> { let node_resolver = match state.maybe_node_resolver.as_ref() { Some(node_resolver) => node_resolver, None => return Ok(None), // we only support non-graph types for npm packages }; if node_resolver.in_npm_package(referrer) { // we're in an npm package, so use node resolution Ok(Some(NodeResolution::into_specifier_and_media_type( node_resolver .resolve( specifier, referrer, NodeResolutionMode::Types, &PermissionsContainer::allow_all(), ) .ok() .flatten(), ))) } else if let Ok(npm_ref) = NpmPackageReqReference::from_str(specifier) { // todo(dsherret): add support for injecting this in the graph so // we don't need this special code here. // This could occur when resolving npm:@types/node when it is // injected and not part of the graph let maybe_resolution = node_resolver.resolve_npm_req_reference( &npm_ref, NodeResolutionMode::Types, &PermissionsContainer::allow_all(), )?; Ok(Some(NodeResolution::into_specifier_and_media_type( maybe_resolution, ))) } else { Ok(None) } } #[op] fn op_is_node_file(state: &mut OpState, path: &str) -> bool { let state = state.borrow::(); match ModuleSpecifier::parse(path) { Ok(specifier) => state .maybe_node_resolver .as_ref() .map(|r| r.in_npm_package(&specifier)) .unwrap_or(false), Err(_) => false, } } #[derive(Debug, Deserialize, Eq, PartialEq)] struct RespondArgs { pub diagnostics: Diagnostics, pub stats: Stats, } #[op] fn op_respond(state: &mut OpState, args: Value) -> Result { let state = state.borrow_mut::(); let v: RespondArgs = serde_json::from_value(args) .context("Error converting the result for \"op_respond\".")?; state.maybe_response = Some(v); Ok(json!(true)) } /// Execute a request on the supplied snapshot, returning a response which /// contains information, like any emitted files, diagnostics, statistics and /// optionally an updated TypeScript build info. pub fn exec(request: Request) -> Result { // tsc cannot handle root specifiers that don't have one of the "acceptable" // extensions. Therefore, we have to check the root modules against their // extensions and remap any that are unacceptable to tsc and add them to the // op state so when requested, we can remap to the original specifier. let mut root_map = HashMap::new(); let mut remapped_specifiers = HashMap::new(); let root_names: Vec = request .root_names .iter() .map(|(s, mt)| match s.scheme() { "data" | "blob" => { let specifier_str = hash_url(s, *mt); remapped_specifiers.insert(specifier_str.clone(), s.clone()); specifier_str } _ => { if let Some(new_specifier) = mapped_specifier_for_tsc(s, *mt) { root_map.insert(new_specifier.clone(), s.clone()); new_specifier } else { s.to_string() } } }) .collect(); deno_core::extension!(deno_cli_tsc, ops_fn = deno_ops, options = { request: Request, root_map: HashMap, remapped_specifiers: HashMap, }, state = |state, options| { state.put(State::new( options.request.graph, options.request.hash_data, options.request.maybe_node_resolver, options.request.maybe_tsbuildinfo, options.root_map, options.remapped_specifiers, std::env::current_dir() .context("Unable to get CWD") .unwrap(), )); }, ); let startup_source = ascii_str!("globalThis.startup({ legacyFlag: false })"); let request_value = json!({ "config": request.config, "debug": request.debug, "rootNames": root_names, "localOnly": request.check_mode == TypeCheckMode::Local, }); let exec_source = format!("globalThis.exec({request_value})").into(); let mut runtime = JsRuntime::new(RuntimeOptions { startup_snapshot: Some(compiler_snapshot()), extensions: vec![deno_cli_tsc::init_ops( request, root_map, remapped_specifiers, )], ..Default::default() }); runtime .execute_script(located_script_name!(), startup_source) .context("Could not properly start the compiler runtime.")?; runtime.execute_script(located_script_name!(), exec_source)?; let op_state = runtime.op_state(); let mut op_state = op_state.borrow_mut(); let state = op_state.take::(); if let Some(response) = state.maybe_response { let diagnostics = response.diagnostics; let maybe_tsbuildinfo = state.maybe_tsbuildinfo; let stats = response.stats; Ok(Response { diagnostics, maybe_tsbuildinfo, stats, }) } else { Err(anyhow!("The response for the exec request was not set.")) } } deno_core::ops!( deno_ops, [ op_create_hash, op_emit, op_is_node_file, op_load, op_resolve, op_respond, ] ); #[cfg(test)] mod tests { use super::Diagnostic; use super::DiagnosticCategory; use super::*; use crate::args::TsConfig; use deno_core::futures::future; use deno_core::OpState; use deno_graph::GraphKind; use deno_graph::ModuleGraph; use std::fs; #[derive(Debug, Default)] pub struct MockLoader { pub fixtures: PathBuf, } impl deno_graph::source::Loader for MockLoader { fn load( &mut self, specifier: &ModuleSpecifier, _is_dynamic: bool, ) -> deno_graph::source::LoadFuture { let specifier_text = specifier .to_string() .replace(":///", "_") .replace("://", "_") .replace('/', "-"); let source_path = self.fixtures.join(specifier_text); let response = fs::read_to_string(source_path) .map(|c| { Some(deno_graph::source::LoadResponse::Module { specifier: specifier.clone(), maybe_headers: None, content: c.into(), }) }) .map_err(|err| err.into()); Box::pin(future::ready(response)) } } async fn setup( maybe_specifier: Option, maybe_hash_data: Option, maybe_tsbuildinfo: Option, ) -> OpState { let specifier = maybe_specifier .unwrap_or_else(|| ModuleSpecifier::parse("file:///main.ts").unwrap()); let hash_data = maybe_hash_data.unwrap_or(0); let fixtures = test_util::testdata_path().join("tsc2"); let mut loader = MockLoader { fixtures }; let mut graph = ModuleGraph::new(GraphKind::TypesOnly); graph .build(vec![specifier], &mut loader, Default::default()) .await; let state = State::new( Arc::new(graph), hash_data, None, maybe_tsbuildinfo, HashMap::new(), HashMap::new(), std::env::current_dir() .context("Unable to get CWD") .unwrap(), ); let mut op_state = OpState::new(1); op_state.put(state); op_state } async fn test_exec( specifier: &ModuleSpecifier, ) -> Result { let hash_data = 123; // something random let fixtures = test_util::testdata_path().join("tsc2"); let mut loader = MockLoader { fixtures }; let mut graph = ModuleGraph::new(GraphKind::TypesOnly); graph .build(vec![specifier.clone()], &mut loader, Default::default()) .await; let config = TsConfig::new(json!({ "allowJs": true, "checkJs": false, "esModuleInterop": true, "emitDecoratorMetadata": false, "incremental": true, "jsx": "react", "jsxFactory": "React.createElement", "jsxFragmentFactory": "React.Fragment", "lib": ["deno.window"], "module": "esnext", "noEmit": true, "outDir": "internal:///", "strict": true, "target": "esnext", "tsBuildInfoFile": "internal:///.tsbuildinfo", })); let request = Request { config, debug: false, graph: Arc::new(graph), hash_data, maybe_node_resolver: None, maybe_tsbuildinfo: None, root_names: vec![(specifier.clone(), MediaType::TypeScript)], check_mode: TypeCheckMode::All, }; exec(request) } // TODO(bartlomieju): this test is segfaulting in V8, saying that there are too // few external references registered. It seems to be a bug in our snapshotting // logic. Because when we create TSC snapshot we register a few ops that // are called during snapshotting time, V8 expects at least as many references // when it starts up. The thing is that these ops are one-off - ie. they will never // be used again after the snapshot is taken. We should figure out a mechanism // to allow removing some of the ops before taking a snapshot. #[ignore] #[test] fn test_compiler_snapshot() { let mut js_runtime = JsRuntime::new(RuntimeOptions { startup_snapshot: Some(compiler_snapshot()), ..Default::default() }); js_runtime .execute_script_static( "", r#" if (!(startup)) { throw Error("bad"); } console.log(`ts version: ${ts.version}`); "#, ) .unwrap(); } #[tokio::test] async fn test_create_hash() { let mut state = setup(None, Some(123), None).await; let actual = op_create_hash::call(&mut state, "some sort of content"); assert_eq!(actual, "11905938177474799758"); } #[test] fn test_hash_url() { let specifier = deno_core::resolve_url( "data:application/javascript,console.log(\"Hello%20Deno\");", ) .unwrap(); assert_eq!(hash_url(&specifier, MediaType::JavaScript), "data:///d300ea0796bd72b08df10348e0b70514c021f2e45bfe59cec24e12e97cd79c58.js"); } #[tokio::test] async fn test_emit_tsbuildinfo() { let mut state = setup(None, None, None).await; let actual = op_emit::call( &mut state, EmitArgs { data: "some file content".to_string(), file_name: "internal:///.tsbuildinfo".to_string(), }, ); assert!(actual); let state = state.borrow::(); assert_eq!( state.maybe_tsbuildinfo, Some("some file content".to_string()) ); } #[tokio::test] async fn test_load() { let mut state = setup( Some(ModuleSpecifier::parse("https://deno.land/x/mod.ts").unwrap()), None, Some("some content".to_string()), ) .await; let actual = op_load::call( &mut state, json!({ "specifier": "https://deno.land/x/mod.ts"}), ) .unwrap(); assert_eq!( actual, json!({ "data": "console.log(\"hello deno\");\n", "version": "7821807483407828376", "scriptKind": 3, }) ); } #[derive(Debug, Deserialize)] #[serde(rename_all = "camelCase")] struct LoadResponse { data: String, version: Option, script_kind: i64, } #[tokio::test] async fn test_load_asset() { let mut state = setup( Some(ModuleSpecifier::parse("https://deno.land/x/mod.ts").unwrap()), None, Some("some content".to_string()), ) .await; let value = op_load::call( &mut state, json!({ "specifier": "asset:///lib.dom.d.ts" }), ) .expect("should have invoked op"); let actual: LoadResponse = serde_json::from_value(value).expect("failed to deserialize"); let expected = get_lazily_loaded_asset("lib.dom.d.ts").unwrap(); assert_eq!(actual.data, expected); assert!(actual.version.is_some()); assert_eq!(actual.script_kind, 3); } #[tokio::test] async fn test_load_tsbuildinfo() { let mut state = setup( Some(ModuleSpecifier::parse("https://deno.land/x/mod.ts").unwrap()), None, Some("some content".to_string()), ) .await; let actual = op_load::call( &mut state, json!({ "specifier": "internal:///.tsbuildinfo"}), ) .expect("should have invoked op"); assert_eq!( actual, json!({ "data": "some content", "version": null, "scriptKind": 0, }) ); } #[tokio::test] async fn test_load_missing_specifier() { let mut state = setup(None, None, None).await; let actual = op_load::call( &mut state, json!({ "specifier": "https://deno.land/x/mod.ts"}), ) .expect("should have invoked op"); assert_eq!( actual, json!({ "data": null, "version": null, "scriptKind": 0, }) ) } #[tokio::test] async fn test_resolve() { let mut state = setup( Some(ModuleSpecifier::parse("https://deno.land/x/a.ts").unwrap()), None, None, ) .await; let actual = op_resolve::call( &mut state, ResolveArgs { base: "https://deno.land/x/a.ts".to_string(), specifiers: vec!["./b.ts".to_string()], }, ) .expect("should have invoked op"); assert_eq!( actual, vec![("https://deno.land/x/b.ts".into(), ".ts".into())] ); } #[tokio::test] async fn test_resolve_empty() { let mut state = setup( Some(ModuleSpecifier::parse("https://deno.land/x/a.ts").unwrap()), None, None, ) .await; let actual = op_resolve::call( &mut state, ResolveArgs { base: "https://deno.land/x/a.ts".to_string(), specifiers: vec!["./bad.ts".to_string()], }, ) .expect("should have not errored"); assert_eq!( actual, vec![("internal:///missing_dependency.d.ts".into(), ".d.ts".into())] ); } #[tokio::test] async fn test_respond() { let mut state = setup(None, None, None).await; let actual = op_respond::call( &mut state, json!({ "diagnostics": [ { "messageText": "Unknown compiler option 'invalid'.", "category": 1, "code": 5023 } ], "stats": [["a", 12]] }), ) .expect("should have invoked op"); assert_eq!(actual, json!(true)); let state = state.borrow::(); assert_eq!( state.maybe_response, Some(RespondArgs { diagnostics: Diagnostics::new(vec![Diagnostic { category: DiagnosticCategory::Error, code: 5023, start: None, end: None, message_text: Some( "Unknown compiler option \'invalid\'.".to_string() ), message_chain: None, source: None, source_line: None, file_name: None, related_information: None, }]), stats: Stats(vec![("a".to_string(), 12)]) }) ); } #[tokio::test] async fn test_exec_basic() { let specifier = ModuleSpecifier::parse("https://deno.land/x/a.ts").unwrap(); let actual = test_exec(&specifier) .await .expect("exec should not have errored"); assert!(actual.diagnostics.is_empty()); assert!(actual.maybe_tsbuildinfo.is_some()); assert_eq!(actual.stats.0.len(), 12); } #[tokio::test] async fn test_exec_reexport_dts() { let specifier = ModuleSpecifier::parse("file:///reexports.ts").unwrap(); let actual = test_exec(&specifier) .await .expect("exec should not have errored"); assert!(actual.diagnostics.is_empty()); assert!(actual.maybe_tsbuildinfo.is_some()); assert_eq!(actual.stats.0.len(), 12); } #[tokio::test] async fn fix_lib_ref() { let specifier = ModuleSpecifier::parse("file:///libref.ts").unwrap(); let actual = test_exec(&specifier) .await .expect("exec should not have errored"); assert!(actual.diagnostics.is_empty()); } }