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denoland-deno/cli/tsc/mod.rs
2023-01-05 13:03:11 +01:00

1249 lines
36 KiB
Rust

// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use crate::args::TsConfig;
use crate::graph_util::GraphData;
use crate::graph_util::ModuleEntry;
use crate::node;
use crate::node::node_resolve_npm_reference;
use crate::node::NodeResolution;
use crate::npm::NpmPackageReference;
use crate::npm::NpmPackageResolver;
use crate::util::checksum;
use deno_ast::MediaType;
use deno_core::anyhow::anyhow;
use deno_core::anyhow::Context;
use deno_core::error::AnyError;
use deno_core::located_script_name;
use deno_core::op;
use deno_core::parking_lot::RwLock;
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::Extension;
use deno_core::JsRuntime;
use deno_core::ModuleSpecifier;
use deno_core::OpState;
use deno_core::RuntimeOptions;
use deno_core::Snapshot;
use deno_graph::Resolved;
use deno_runtime::deno_node::NodeResolutionMode;
use once_cell::sync::Lazy;
use std::borrow::Cow;
use std::collections::HashMap;
use std::fmt;
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;
// Declaration files
pub static DENO_NS_LIB: &str = include_str!("dts/lib.deno.ns.d.ts");
pub static DENO_CONSOLE_LIB: &str = include_str!(env!("DENO_CONSOLE_LIB_PATH"));
pub static DENO_URL_LIB: &str = include_str!(env!("DENO_URL_LIB_PATH"));
pub static DENO_WEB_LIB: &str = include_str!(env!("DENO_WEB_LIB_PATH"));
pub static DENO_FETCH_LIB: &str = include_str!(env!("DENO_FETCH_LIB_PATH"));
pub static DENO_WEBGPU_LIB: &str = include_str!(env!("DENO_WEBGPU_LIB_PATH"));
pub static DENO_WEBSOCKET_LIB: &str =
include_str!(env!("DENO_WEBSOCKET_LIB_PATH"));
pub static DENO_WEBSTORAGE_LIB: &str =
include_str!(env!("DENO_WEBSTORAGE_LIB_PATH"));
pub static DENO_CACHE_LIB: &str = include_str!(env!("DENO_CACHE_LIB_PATH"));
pub static DENO_CRYPTO_LIB: &str = include_str!(env!("DENO_CRYPTO_LIB_PATH"));
pub static DENO_BROADCAST_CHANNEL_LIB: &str =
include_str!(env!("DENO_BROADCAST_CHANNEL_LIB_PATH"));
pub static DENO_NET_LIB: &str = include_str!(env!("DENO_NET_LIB_PATH"));
pub static SHARED_GLOBALS_LIB: &str =
include_str!("dts/lib.deno.shared_globals.d.ts");
pub static WINDOW_LIB: &str = include_str!("dts/lib.deno.window.d.ts");
pub static UNSTABLE_NS_LIB: &str = include_str!("dts/lib.deno.unstable.d.ts");
pub static COMPILER_SNAPSHOT: Lazy<Box<[u8]>> = Lazy::new(
#[cold]
#[inline(never)]
|| {
static COMPRESSED_COMPILER_SNAPSHOT: &[u8] =
include_bytes!(concat!(env!("OUT_DIR"), "/COMPILER_SNAPSHOT.bin"));
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 types = vec![
DENO_NS_LIB,
DENO_CONSOLE_LIB,
DENO_URL_LIB,
DENO_WEB_LIB,
DENO_FETCH_LIB,
DENO_WEBGPU_LIB,
DENO_WEBSOCKET_LIB,
DENO_WEBSTORAGE_LIB,
DENO_CRYPTO_LIB,
DENO_BROADCAST_CHANNEL_LIB,
DENO_NET_LIB,
SHARED_GLOBALS_LIB,
DENO_CACHE_LIB,
WINDOW_LIB,
];
if unstable {
types.push(UNSTABLE_NS_LIB);
}
types.join("\n")
}
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.
pub static 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"),
),
])
.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<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let items: Vec<(String, u32)> = Deserialize::deserialize(deserializer)?;
Ok(Stats(items))
}
}
impl Serialize for Stats {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
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(())
}
}
/// Retrieve a static asset that are included in the binary.
pub fn get_asset(asset: &str) -> Option<&'static str> {
STATIC_ASSETS.get(asset).map(|s| s.to_owned())
}
fn get_maybe_hash(
maybe_source: Option<&str>,
hash_data: &[Vec<u8>],
) -> Option<String> {
if let Some(source) = maybe_source {
let mut data = vec![source.as_bytes().to_owned()];
data.extend_from_slice(hash_data);
Some(checksum::gen(&data))
} else {
None
}
}
/// 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<String> {
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
}
}
/// tsc only supports `.ts`, `.tsx`, `.d.ts`, `.js`, or `.jsx` as root modules
/// and so we have to detect the apparent media type based on extensions it
/// supports.
fn get_tsc_media_type(specifier: &ModuleSpecifier) -> MediaType {
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())
};
match path.extension() {
None => MediaType::Unknown,
Some(os_str) => match os_str.to_str() {
Some("ts") => {
if let Some(os_str) = path.file_stem() {
if let Some(file_name) = os_str.to_str() {
if file_name.ends_with(".d") {
return MediaType::Dts;
}
}
}
MediaType::TypeScript
}
Some("mts") => {
if let Some(os_str) = path.file_stem() {
if let Some(file_name) = os_str.to_str() {
if file_name.ends_with(".d") {
return MediaType::Dmts;
}
}
}
MediaType::Mts
}
Some("cts") => {
if let Some(os_str) = path.file_stem() {
if let Some(file_name) = os_str.to_str() {
if file_name.ends_with(".d") {
return MediaType::Dcts;
}
}
}
MediaType::Cts
}
Some("tsx") => MediaType::Tsx,
Some("js") => MediaType::JavaScript,
Some("mjs") => MediaType::Mjs,
Some("cjs") => MediaType::Cjs,
Some("jsx") => MediaType::Jsx,
_ => MediaType::Unknown,
},
}
}
#[derive(Debug, Clone, Default, Eq, PartialEq)]
pub struct EmittedFile {
pub data: String,
pub maybe_specifiers: Option<Vec<ModuleSpecifier>>,
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_data: Arc<RwLock<GraphData>>,
pub hash_data: Vec<Vec<u8>>,
pub maybe_config_specifier: Option<ModuleSpecifier>,
pub maybe_npm_resolver: Option<NpmPackageResolver>,
pub maybe_tsbuildinfo: Option<String>,
/// A vector of strings that represent the root/entry point modules for the
/// program.
pub root_names: Vec<(ModuleSpecifier, MediaType)>,
}
#[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<String>,
/// Statistics from the check.
pub stats: Stats,
}
#[derive(Debug, Default)]
struct State {
hash_data: Vec<Vec<u8>>,
graph_data: Arc<RwLock<GraphData>>,
maybe_config_specifier: Option<ModuleSpecifier>,
maybe_tsbuildinfo: Option<String>,
maybe_response: Option<RespondArgs>,
maybe_npm_resolver: Option<NpmPackageResolver>,
remapped_specifiers: HashMap<String, ModuleSpecifier>,
root_map: HashMap<String, ModuleSpecifier>,
}
impl State {
pub fn new(
graph_data: Arc<RwLock<GraphData>>,
hash_data: Vec<Vec<u8>>,
maybe_config_specifier: Option<ModuleSpecifier>,
maybe_npm_resolver: Option<NpmPackageResolver>,
maybe_tsbuildinfo: Option<String>,
root_map: HashMap<String, ModuleSpecifier>,
remapped_specifiers: HashMap<String, ModuleSpecifier>,
) -> Self {
State {
hash_data,
graph_data,
maybe_config_specifier,
maybe_npm_resolver,
maybe_tsbuildinfo,
maybe_response: None,
remapped_specifiers,
root_map,
}
}
}
fn normalize_specifier(specifier: &str) -> Result<ModuleSpecifier, AnyError> {
resolve_url_or_path(&specifier.replace(".d.ts.d.ts", ".d.ts"))
.map_err(|err| err.into())
}
#[derive(Debug, Deserialize)]
#[serde(rename_all = "camelCase")]
struct CreateHashArgs {
/// The string data to be used to generate the hash. This will be mixed with
/// other state data in Deno to derive the final hash.
data: String,
}
#[op]
fn op_create_hash(s: &mut OpState, args: Value) -> Result<Value, AnyError> {
let state = s.borrow_mut::<State>();
let v: CreateHashArgs = serde_json::from_value(args)
.context("Invalid request from JavaScript for \"op_create_hash\".")?;
let mut data = vec![v.data.as_bytes().to_owned()];
data.extend_from_slice(&state.hash_data);
let hash = checksum::gen(&data);
Ok(json!({ "hash": hash }))
}
#[op]
fn op_cwd(s: &mut OpState) -> Result<String, AnyError> {
let state = s.borrow_mut::<State>();
if let Some(config_specifier) = &state.maybe_config_specifier {
let cwd = config_specifier.join("./")?;
Ok(cwd.to_string())
} else {
Ok("cache:///".to_string())
}
}
#[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::<State>();
match args.file_name.as_ref() {
"deno:///.tsbuildinfo" => state.maybe_tsbuildinfo = Some(args.data),
_ => {
if cfg!(debug_assertions) {
panic!("Unhandled emit write: {}", args.file_name);
}
}
}
true
}
#[derive(Debug, Deserialize)]
struct ExistsArgs {
/// The fully qualified specifier that should be loaded.
specifier: String,
}
#[op]
fn op_exists(state: &mut OpState, args: ExistsArgs) -> bool {
let state = state.borrow_mut::<State>();
let graph_data = state.graph_data.read();
if let Ok(specifier) = normalize_specifier(&args.specifier) {
if specifier.scheme() == "asset" || specifier.scheme() == "data" {
true
} else {
matches!(
graph_data.get(&graph_data.follow_redirect(&specifier)),
Some(ModuleEntry::Module { .. })
)
}
} else {
false
}
}
#[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<Value, AnyError> {
let state = state.borrow_mut::<State>();
let v: LoadArgs = serde_json::from_value(args)
.context("Invalid request from JavaScript for \"op_load\".")?;
let specifier = normalize_specifier(&v.specifier)
.context("Error converting a string module specifier for \"op_load\".")?;
let mut hash: Option<String> = None;
let mut media_type = MediaType::Unknown;
let graph_data = state.graph_data.read();
let data = if &v.specifier == "deno:///.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 == "deno:///missing_dependency.d.ts" {
hash = Some("1".to_string());
media_type = MediaType::Dts;
Some(Cow::Borrowed("declare const __: any;\nexport = __;\n"))
} else if v.specifier.starts_with("asset:///") {
let name = v.specifier.replace("asset:///", "");
let maybe_source = get_asset(&name);
hash = get_maybe_hash(maybe_source, &state.hash_data);
media_type = MediaType::from(&v.specifier);
maybe_source.map(Cow::Borrowed)
} else {
let specifier = if let Some(remapped_specifier) =
state.remapped_specifiers.get(&v.specifier)
{
remapped_specifier.clone()
} else if let Some(remapped_specifier) = state.root_map.get(&v.specifier) {
remapped_specifier.clone()
} else {
specifier
};
let maybe_source = if let Some(ModuleEntry::Module {
code,
media_type: mt,
..
}) =
graph_data.get(&graph_data.follow_redirect(&specifier))
{
media_type = *mt;
Some(Cow::Borrowed(code as &str))
} else if state
.maybe_npm_resolver
.as_ref()
.map(|resolver| resolver.in_npm_package(&specifier))
.unwrap_or(false)
{
media_type = MediaType::from(&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<String>,
}
#[op]
fn op_resolve(
state: &mut OpState,
args: ResolveArgs,
) -> Result<Vec<(String, String)>, AnyError> {
let state = state.borrow_mut::<State>();
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).context(
"Error converting a string module specifier for \"op_resolve\".",
)?
};
for specifier in &args.specifiers {
if specifier.starts_with("asset:///") {
resolved.push((
specifier.clone(),
MediaType::from(specifier).as_ts_extension().to_string(),
));
} else {
let graph_data = state.graph_data.read();
let resolved_dep = match graph_data.get_dependencies(&referrer) {
Some(dependencies) => dependencies.get(specifier).map(|d| {
if matches!(d.maybe_type, Resolved::Ok { .. }) {
&d.maybe_type
} else {
&d.maybe_code
}
}),
None => None,
};
let maybe_result = match resolved_dep {
Some(Resolved::Ok { specifier, .. }) => {
let specifier = graph_data.follow_redirect(specifier);
match graph_data.get(&specifier) {
Some(ModuleEntry::Module {
media_type,
maybe_types,
..
}) => match maybe_types {
Some(Resolved::Ok { specifier, .. }) => {
let types = graph_data.follow_redirect(specifier);
match graph_data.get(&types) {
Some(ModuleEntry::Module { media_type, .. }) => {
Some((types, *media_type))
}
_ => None,
}
}
_ => Some((specifier, *media_type)),
},
_ => {
// handle npm:<package> urls
if let Ok(npm_ref) =
NpmPackageReference::from_specifier(&specifier)
{
if let Some(npm_resolver) = &state.maybe_npm_resolver {
Some(resolve_npm_package_reference_types(
&npm_ref,
npm_resolver,
)?)
} else {
None
}
} else {
None
}
}
}
}
_ => {
state.maybe_npm_resolver.as_ref().and_then(|npm_resolver| {
if npm_resolver.in_npm_package(&referrer) {
// we're in an npm package, so use node resolution
Some(NodeResolution::into_specifier_and_media_type(
node::node_resolve(
specifier,
&referrer,
NodeResolutionMode::Types,
npm_resolver,
)
.ok()
.flatten(),
))
} else {
None
}
})
}
};
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 => (
"deno:///missing_dependency.d.ts".to_string(),
".d.ts".to_string(),
),
};
log::debug!("Resolved {} to {:?}", specifier, result);
resolved.push(result);
}
}
Ok(resolved)
}
pub fn resolve_npm_package_reference_types(
npm_ref: &NpmPackageReference,
npm_resolver: &NpmPackageResolver,
) -> Result<(ModuleSpecifier, MediaType), AnyError> {
let maybe_resolution = node_resolve_npm_reference(
npm_ref,
NodeResolutionMode::Types,
npm_resolver,
)?;
Ok(NodeResolution::into_specifier_and_media_type(
maybe_resolution,
))
}
#[op]
fn op_is_node_file(state: &mut OpState, path: String) -> bool {
let state = state.borrow::<State>();
match ModuleSpecifier::parse(&path) {
Ok(specifier) => state
.maybe_npm_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<Value, AnyError> {
let state = state.borrow_mut::<State>();
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<Response, AnyError> {
// 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<String> = 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
}
_ => {
let ext_media_type = get_tsc_media_type(s);
if *mt != ext_media_type {
let new_specifier = format!("{}{}", s, mt.as_ts_extension());
root_map.insert(new_specifier.clone(), s.clone());
new_specifier
} else {
s.as_str().to_owned()
}
}
})
.collect();
let mut runtime = JsRuntime::new(RuntimeOptions {
startup_snapshot: Some(compiler_snapshot()),
extensions: vec![Extension::builder()
.ops(vec![
op_cwd::decl(),
op_create_hash::decl(),
op_emit::decl(),
op_exists::decl(),
op_is_node_file::decl(),
op_load::decl(),
op_resolve::decl(),
op_respond::decl(),
])
.state(move |state| {
state.put(State::new(
request.graph_data.clone(),
request.hash_data.clone(),
request.maybe_config_specifier.clone(),
request.maybe_npm_resolver.clone(),
request.maybe_tsbuildinfo.clone(),
root_map.clone(),
remapped_specifiers.clone(),
));
Ok(())
})
.build()],
..Default::default()
});
let startup_source = "globalThis.startup({ legacyFlag: false })";
let request_value = json!({
"config": request.config,
"debug": request.debug,
"rootNames": root_names,
});
let request_str = request_value.to_string();
let exec_source = format!("globalThis.exec({})", request_str);
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::<State>();
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."))
}
}
#[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::ModuleKind;
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<ModuleSpecifier>,
maybe_hash_data: Option<Vec<Vec<u8>>>,
maybe_tsbuildinfo: Option<String>,
) -> OpState {
let specifier = maybe_specifier
.unwrap_or_else(|| resolve_url_or_path("file:///main.ts").unwrap());
let hash_data = maybe_hash_data.unwrap_or_else(|| vec![b"".to_vec()]);
let fixtures = test_util::testdata_path().join("tsc2");
let mut loader = MockLoader { fixtures };
let graph = deno_graph::create_graph(
vec![(specifier, ModuleKind::Esm)],
&mut loader,
deno_graph::GraphOptions {
is_dynamic: false,
imports: None,
resolver: None,
module_analyzer: None,
reporter: None,
},
)
.await;
let state = State::new(
Arc::new(RwLock::new((&graph).into())),
hash_data,
None,
None,
maybe_tsbuildinfo,
HashMap::new(),
HashMap::new(),
);
let mut op_state = OpState::new(1);
op_state.put(state);
op_state
}
async fn test_exec(
specifier: &ModuleSpecifier,
) -> Result<Response, AnyError> {
let hash_data = vec![b"something".to_vec()];
let fixtures = test_util::testdata_path().join("tsc2");
let mut loader = MockLoader { fixtures };
let graph = deno_graph::create_graph(
vec![(specifier.clone(), ModuleKind::Esm)],
&mut loader,
deno_graph::GraphOptions {
is_dynamic: false,
imports: None,
resolver: None,
module_analyzer: None,
reporter: None,
},
)
.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": "deno:///",
"strict": true,
"target": "esnext",
"tsBuildInfoFile": "deno:///.tsbuildinfo",
}));
let request = Request {
config,
debug: false,
graph_data: Arc::new(RwLock::new((&graph).into())),
hash_data,
maybe_config_specifier: None,
maybe_npm_resolver: None,
maybe_tsbuildinfo: None,
root_names: vec![(specifier.clone(), MediaType::TypeScript)],
};
exec(request)
}
#[test]
fn test_compiler_snapshot() {
let mut js_runtime = JsRuntime::new(RuntimeOptions {
startup_snapshot: Some(compiler_snapshot()),
..Default::default()
});
js_runtime
.execute_script(
"<anon>",
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(vec![b"something".to_vec()]), None).await;
let actual = op_create_hash::call(
&mut state,
json!({ "data": "some sort of content" }),
)
.expect("could not invoke op");
assert_eq!(
actual,
json!({"hash": "ae92df8f104748768838916857a1623b6a3c593110131b0a00f81ad9dac16511"})
);
}
#[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");
}
#[test]
fn test_get_tsc_media_type() {
let fixtures = vec![
("file:///a.ts", MediaType::TypeScript),
("file:///a.cts", MediaType::Cts),
("file:///a.mts", MediaType::Mts),
("file:///a.tsx", MediaType::Tsx),
("file:///a.d.ts", MediaType::Dts),
("file:///a.d.cts", MediaType::Dcts),
("file:///a.d.mts", MediaType::Dmts),
("file:///a.js", MediaType::JavaScript),
("file:///a.jsx", MediaType::Jsx),
("file:///a.cjs", MediaType::Cjs),
("file:///a.mjs", MediaType::Mjs),
("file:///a.json", MediaType::Unknown),
("file:///a.wasm", MediaType::Unknown),
("file:///a.js.map", MediaType::Unknown),
("file:///.tsbuildinfo", MediaType::Unknown),
];
for (specifier, media_type) in fixtures {
let specifier = resolve_url_or_path(specifier).unwrap();
assert_eq!(get_tsc_media_type(&specifier), media_type);
}
}
#[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: "deno:///.tsbuildinfo".to_string(),
},
);
assert!(actual);
let state = state.borrow::<State>();
assert_eq!(
state.maybe_tsbuildinfo,
Some("some file content".to_string())
);
}
#[tokio::test]
async fn test_load() {
let mut state = setup(
Some(resolve_url_or_path("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"}),
)
.expect("should have invoked op");
assert_eq!(
actual,
json!({
"data": "console.log(\"hello deno\");\n",
"version": "149c777056afcc973d5fcbe11421b6d5ddc57b81786765302030d7fc893bf729",
"scriptKind": 3,
})
);
}
#[derive(Debug, Deserialize)]
#[serde(rename_all = "camelCase")]
struct LoadResponse {
data: String,
version: Option<String>,
script_kind: i64,
}
#[tokio::test]
async fn test_load_asset() {
let mut state = setup(
Some(resolve_url_or_path("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_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(resolve_url_or_path("https://deno.land/x/mod.ts").unwrap()),
None,
Some("some content".to_string()),
)
.await;
let actual =
op_load::call(&mut state, json!({ "specifier": "deno:///.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(resolve_url_or_path("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(resolve_url_or_path("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![("deno:///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::<State>();
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 = resolve_url_or_path("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 = resolve_url_or_path("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 = resolve_url_or_path("file:///libref.ts").unwrap();
let actual = test_exec(&specifier)
.await
.expect("exec should not have errored");
assert!(actual.diagnostics.is_empty());
}
}