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denoland-deno/cli/tools/check.rs
David Sherret 8be2bbf074
feat: Wasm module support (#26668)
Support for Wasm modules.

Note this implements the standard where the default export is the
instance (not the module). The module will come later with source phase
imports.

```ts
import { add } from "./math.wasm";

console.log(add(1, 2));
```
2024-11-19 18:59:23 -05:00

663 lines
18 KiB
Rust

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use std::collections::HashSet;
use std::collections::VecDeque;
use std::sync::Arc;
use deno_ast::MediaType;
use deno_ast::ModuleSpecifier;
use deno_core::error::AnyError;
use deno_graph::Module;
use deno_graph::ModuleGraph;
use deno_runtime::deno_node::NodeResolver;
use deno_terminal::colors;
use once_cell::sync::Lazy;
use regex::Regex;
use crate::args::check_warn_tsconfig;
use crate::args::CheckFlags;
use crate::args::CliOptions;
use crate::args::Flags;
use crate::args::TsConfig;
use crate::args::TsConfigType;
use crate::args::TsTypeLib;
use crate::args::TypeCheckMode;
use crate::cache::CacheDBHash;
use crate::cache::Caches;
use crate::cache::FastInsecureHasher;
use crate::cache::TypeCheckCache;
use crate::factory::CliFactory;
use crate::graph_util::BuildFastCheckGraphOptions;
use crate::graph_util::ModuleGraphBuilder;
use crate::npm::CliNpmResolver;
use crate::tsc;
use crate::tsc::Diagnostics;
use crate::tsc::TypeCheckingCjsTracker;
use crate::util::extract;
use crate::util::path::to_percent_decoded_str;
pub async fn check(
flags: Arc<Flags>,
check_flags: CheckFlags,
) -> Result<(), AnyError> {
let factory = CliFactory::from_flags(flags);
let main_graph_container = factory.main_module_graph_container().await?;
let specifiers =
main_graph_container.collect_specifiers(&check_flags.files)?;
if specifiers.is_empty() {
log::warn!("{} No matching files found.", colors::yellow("Warning"));
}
let specifiers_for_typecheck = if check_flags.doc || check_flags.doc_only {
let file_fetcher = factory.file_fetcher()?;
let root_permissions = factory.root_permissions_container()?;
let mut specifiers_for_typecheck = if check_flags.doc {
specifiers.clone()
} else {
vec![]
};
for s in specifiers {
let file = file_fetcher.fetch(&s, root_permissions).await?;
let snippet_files = extract::extract_snippet_files(file)?;
for snippet_file in snippet_files {
specifiers_for_typecheck.push(snippet_file.specifier.clone());
file_fetcher.insert_memory_files(snippet_file);
}
}
specifiers_for_typecheck
} else {
specifiers
};
main_graph_container
.check_specifiers(&specifiers_for_typecheck, None)
.await
}
/// Options for performing a check of a module graph. Note that the decision to
/// emit or not is determined by the `ts_config` settings.
pub struct CheckOptions {
/// Whether to build the fast check type graph if necessary.
///
/// Note: For perf reasons, the fast check type graph is only
/// built if type checking is necessary.
pub build_fast_check_graph: bool,
/// Default type library to type check with.
pub lib: TsTypeLib,
/// Whether to log about any ignored compiler options.
pub log_ignored_options: bool,
/// If true, valid `.tsbuildinfo` files will be ignored and type checking
/// will always occur.
pub reload: bool,
/// Mode to type check with.
pub type_check_mode: TypeCheckMode,
}
pub struct TypeChecker {
caches: Arc<Caches>,
cjs_tracker: Arc<TypeCheckingCjsTracker>,
cli_options: Arc<CliOptions>,
module_graph_builder: Arc<ModuleGraphBuilder>,
node_resolver: Arc<NodeResolver>,
npm_resolver: Arc<dyn CliNpmResolver>,
}
impl TypeChecker {
pub fn new(
caches: Arc<Caches>,
cjs_tracker: Arc<TypeCheckingCjsTracker>,
cli_options: Arc<CliOptions>,
module_graph_builder: Arc<ModuleGraphBuilder>,
node_resolver: Arc<NodeResolver>,
npm_resolver: Arc<dyn CliNpmResolver>,
) -> Self {
Self {
caches,
cjs_tracker,
cli_options,
module_graph_builder,
node_resolver,
npm_resolver,
}
}
/// Type check the module graph.
///
/// It is expected that it is determined if a check and/or emit is validated
/// before the function is called.
pub async fn check(
&self,
graph: ModuleGraph,
options: CheckOptions,
) -> Result<Arc<ModuleGraph>, AnyError> {
let (graph, mut diagnostics) =
self.check_diagnostics(graph, options).await?;
diagnostics.emit_warnings();
if diagnostics.is_empty() {
Ok(graph)
} else {
Err(diagnostics.into())
}
}
/// Type check the module graph returning its diagnostics.
///
/// It is expected that it is determined if a check and/or emit is validated
/// before the function is called.
pub async fn check_diagnostics(
&self,
mut graph: ModuleGraph,
options: CheckOptions,
) -> Result<(Arc<ModuleGraph>, Diagnostics), AnyError> {
if !options.type_check_mode.is_true() || graph.roots.is_empty() {
return Ok((graph.into(), Default::default()));
}
// node built-in specifiers use the @types/node package to determine
// types, so inject that now (the caller should do this after the lockfile
// has been written)
if let Some(npm_resolver) = self.npm_resolver.as_managed() {
if graph.has_node_specifier {
npm_resolver.inject_synthetic_types_node_package().await?;
}
}
log::debug!("Type checking.");
let ts_config_result = self
.cli_options
.resolve_ts_config_for_emit(TsConfigType::Check { lib: options.lib })?;
if options.log_ignored_options {
check_warn_tsconfig(&ts_config_result);
}
let type_check_mode = options.type_check_mode;
let ts_config = ts_config_result.ts_config;
let maybe_check_hash = match self.npm_resolver.check_state_hash() {
Some(npm_check_hash) => {
match get_check_hash(
&graph,
npm_check_hash,
type_check_mode,
&ts_config,
) {
CheckHashResult::NoFiles => {
return Ok((graph.into(), Default::default()))
}
CheckHashResult::Hash(hash) => Some(hash),
}
}
None => None, // we can't determine a check hash
};
// do not type check if we know this is type checked
let cache = TypeCheckCache::new(self.caches.type_checking_cache_db());
if !options.reload {
if let Some(check_hash) = maybe_check_hash {
if cache.has_check_hash(check_hash) {
log::debug!("Already type checked.");
return Ok((graph.into(), Default::default()));
}
}
}
for root in &graph.roots {
let root_str = root.as_str();
log::info!(
"{} {}",
colors::green("Check"),
to_percent_decoded_str(root_str)
);
}
let check_js = ts_config.get_check_js();
// while there might be multiple roots, we can't "merge" the build info, so we
// try to retrieve the build info for first root, which is the most common use
// case.
let maybe_tsbuildinfo = if options.reload {
None
} else {
cache.get_tsbuildinfo(&graph.roots[0])
};
// to make tsc build info work, we need to consistently hash modules, so that
// tsc can better determine if an emit is still valid or not, so we provide
// that data here.
let hash_data = FastInsecureHasher::new_deno_versioned()
.write(&ts_config.as_bytes())
.finish();
// add fast check to the graph before getting the roots
if options.build_fast_check_graph {
self.module_graph_builder.build_fast_check_graph(
&mut graph,
BuildFastCheckGraphOptions {
workspace_fast_check: deno_graph::WorkspaceFastCheckOption::Disabled,
},
)?;
}
let root_names = get_tsc_roots(&graph, check_js);
let graph = Arc::new(graph);
let response = tsc::exec(tsc::Request {
config: ts_config,
debug: self.cli_options.log_level() == Some(log::Level::Debug),
graph: graph.clone(),
hash_data,
maybe_npm: Some(tsc::RequestNpmState {
cjs_tracker: self.cjs_tracker.clone(),
node_resolver: self.node_resolver.clone(),
npm_resolver: self.npm_resolver.clone(),
}),
maybe_tsbuildinfo,
root_names,
check_mode: type_check_mode,
})?;
let mut diagnostics = response.diagnostics.filter(|d| {
if self.is_remote_diagnostic(d) {
type_check_mode == TypeCheckMode::All && d.include_when_remote()
} else {
true
}
});
diagnostics.apply_fast_check_source_maps(&graph);
if let Some(tsbuildinfo) = response.maybe_tsbuildinfo {
cache.set_tsbuildinfo(&graph.roots[0], &tsbuildinfo);
}
if diagnostics.is_empty() {
if let Some(check_hash) = maybe_check_hash {
cache.add_check_hash(check_hash);
}
}
log::debug!("{}", response.stats);
Ok((graph, diagnostics))
}
fn is_remote_diagnostic(&self, d: &tsc::Diagnostic) -> bool {
let Some(file_name) = &d.file_name else {
return false;
};
if file_name.starts_with("https://") || file_name.starts_with("http://") {
return true;
}
// check if in an npm package
let Ok(specifier) = ModuleSpecifier::parse(file_name) else {
return false;
};
self.node_resolver.in_npm_package(&specifier)
}
}
enum CheckHashResult {
Hash(CacheDBHash),
NoFiles,
}
/// Gets a hash of the inputs for type checking. This can then
/// be used to tell
fn get_check_hash(
graph: &ModuleGraph,
package_reqs_hash: u64,
type_check_mode: TypeCheckMode,
ts_config: &TsConfig,
) -> CheckHashResult {
let mut hasher = FastInsecureHasher::new_deno_versioned();
hasher.write_u8(match type_check_mode {
TypeCheckMode::All => 0,
TypeCheckMode::Local => 1,
TypeCheckMode::None => 2,
});
hasher.write(&ts_config.as_bytes());
let check_js = ts_config.get_check_js();
let mut has_file = false;
let mut has_file_to_type_check = false;
// this iterator of modules is already deterministic, so no need to sort it
for module in graph.modules() {
match module {
Module::Js(module) => {
let ts_check = has_ts_check(module.media_type, &module.source);
if ts_check {
has_file_to_type_check = true;
}
match module.media_type {
MediaType::TypeScript
| MediaType::Dts
| MediaType::Dmts
| MediaType::Dcts
| MediaType::Mts
| MediaType::Cts
| MediaType::Tsx => {
has_file = true;
has_file_to_type_check = true;
}
MediaType::JavaScript
| MediaType::Mjs
| MediaType::Cjs
| MediaType::Jsx => {
has_file = true;
if !check_js && !ts_check {
continue;
}
}
MediaType::Json
| MediaType::Css
| MediaType::SourceMap
| MediaType::Wasm
| MediaType::Unknown => continue,
}
hasher.write_str(module.specifier.as_str());
hasher.write_str(
// the fast check module will only be set when publishing
module
.fast_check_module()
.map(|s| s.source.as_ref())
.unwrap_or(&module.source),
);
}
Module::Node(_) => {
// the @types/node package will be in the resolved
// snapshot below so don't bother including it here
}
Module::Npm(_) => {
// don't bother adding this specifier to the hash
// because what matters is the resolved npm snapshot,
// which is hashed below
}
Module::Json(module) => {
has_file_to_type_check = true;
hasher.write_str(module.specifier.as_str());
hasher.write_str(&module.source);
}
Module::Wasm(module) => {
has_file_to_type_check = true;
hasher.write_str(module.specifier.as_str());
hasher.write_str(&module.source_dts);
}
Module::External(module) => {
hasher.write_str(module.specifier.as_str());
}
}
}
hasher.write_hashable(package_reqs_hash);
if !has_file || !check_js && !has_file_to_type_check {
// no files to type check
CheckHashResult::NoFiles
} else {
CheckHashResult::Hash(CacheDBHash::new(hasher.finish()))
}
}
/// Transform the graph into root specifiers that we can feed `tsc`. We have to
/// provide the media type for root modules because `tsc` does not "resolve" the
/// media type like other modules, as well as a root specifier needs any
/// redirects resolved. We need to include all the emittable files in
/// the roots, so they get type checked and optionally emitted,
/// otherwise they would be ignored if only imported into JavaScript.
fn get_tsc_roots(
graph: &ModuleGraph,
check_js: bool,
) -> Vec<(ModuleSpecifier, MediaType)> {
fn maybe_get_check_entry(
module: &deno_graph::Module,
check_js: bool,
) -> Option<(ModuleSpecifier, MediaType)> {
match module {
Module::Js(module) => match module.media_type {
MediaType::TypeScript
| MediaType::Tsx
| MediaType::Mts
| MediaType::Cts
| MediaType::Dts
| MediaType::Dmts
| MediaType::Dcts => {
Some((module.specifier.clone(), module.media_type))
}
MediaType::JavaScript
| MediaType::Mjs
| MediaType::Cjs
| MediaType::Jsx => {
if check_js || has_ts_check(module.media_type, &module.source) {
Some((module.specifier.clone(), module.media_type))
} else {
None
}
}
MediaType::Json
| MediaType::Wasm
| MediaType::Css
| MediaType::SourceMap
| MediaType::Unknown => None,
},
Module::Wasm(module) => Some((module.specifier.clone(), MediaType::Dmts)),
Module::External(_)
| Module::Node(_)
| Module::Npm(_)
| Module::Json(_) => None,
}
}
let mut result = Vec::with_capacity(graph.specifiers_count());
if graph.has_node_specifier {
// inject a specifier that will resolve node types
result.push((
ModuleSpecifier::parse("asset:///node_types.d.ts").unwrap(),
MediaType::Dts,
));
}
let mut seen =
HashSet::with_capacity(graph.imports.len() + graph.specifiers_count());
let mut pending = VecDeque::new();
// put in the global types first so that they're resolved before anything else
for import in graph.imports.values() {
for dep in import.dependencies.values() {
let specifier = dep.get_type().or_else(|| dep.get_code());
if let Some(specifier) = &specifier {
let specifier = graph.resolve(specifier);
if seen.insert(specifier.clone()) {
pending.push_back(specifier);
}
}
}
}
// then the roots
for root in &graph.roots {
let specifier = graph.resolve(root);
if seen.insert(specifier.clone()) {
pending.push_back(specifier);
}
}
// now walk the graph that only includes the fast check dependencies
while let Some(specifier) = pending.pop_front() {
let Some(module) = graph.get(specifier) else {
continue;
};
if let Some(entry) = maybe_get_check_entry(module, check_js) {
result.push(entry);
}
if let Some(module) = module.js() {
let deps = module.dependencies_prefer_fast_check();
for dep in deps.values() {
// walk both the code and type dependencies
if let Some(specifier) = dep.get_code() {
let specifier = graph.resolve(specifier);
if seen.insert(specifier.clone()) {
pending.push_back(specifier);
}
}
if let Some(specifier) = dep.get_type() {
let specifier = graph.resolve(specifier);
if seen.insert(specifier.clone()) {
pending.push_back(specifier);
}
}
}
if let Some(dep) = module
.maybe_types_dependency
.as_ref()
.and_then(|d| d.dependency.ok())
{
let specifier = graph.resolve(&dep.specifier);
if seen.insert(specifier.clone()) {
pending.push_back(specifier);
}
}
}
}
result
}
/// Matches the `@ts-check` pragma.
static TS_CHECK_RE: Lazy<Regex> =
lazy_regex::lazy_regex!(r#"(?i)^\s*@ts-check(?:\s+|$)"#);
fn has_ts_check(media_type: MediaType, file_text: &str) -> bool {
match &media_type {
MediaType::JavaScript
| MediaType::Mjs
| MediaType::Cjs
| MediaType::Jsx => get_leading_comments(file_text)
.iter()
.any(|text| TS_CHECK_RE.is_match(text)),
MediaType::TypeScript
| MediaType::Mts
| MediaType::Cts
| MediaType::Dts
| MediaType::Dcts
| MediaType::Dmts
| MediaType::Tsx
| MediaType::Json
| MediaType::Wasm
| MediaType::Css
| MediaType::SourceMap
| MediaType::Unknown => false,
}
}
fn get_leading_comments(file_text: &str) -> Vec<String> {
let mut chars = file_text.chars().peekable();
// skip over the shebang
if file_text.starts_with("#!") {
// skip until the end of the line
for c in chars.by_ref() {
if c == '\n' {
break;
}
}
}
let mut results = Vec::new();
// now handle the comments
while chars.peek().is_some() {
// skip over any whitespace
while chars
.peek()
.map(|c| char::is_whitespace(*c))
.unwrap_or(false)
{
chars.next();
}
if chars.next() != Some('/') {
break;
}
match chars.next() {
Some('/') => {
let mut text = String::new();
for c in chars.by_ref() {
if c == '\n' {
break;
} else {
text.push(c);
}
}
results.push(text);
}
Some('*') => {
let mut text = String::new();
while let Some(c) = chars.next() {
if c == '*' && chars.peek() == Some(&'/') {
chars.next();
break;
} else {
text.push(c);
}
}
results.push(text);
}
_ => break,
}
}
results
}
#[cfg(test)]
mod test {
use deno_ast::MediaType;
use super::get_leading_comments;
use super::has_ts_check;
#[test]
fn get_leading_comments_test() {
assert_eq!(
get_leading_comments(
"#!/usr/bin/env deno\r\n// test\n/* 1 *//*2*///3\n//\n /**/ /*4 */"
),
vec![
" test".to_string(),
" 1 ".to_string(),
"2".to_string(),
"3".to_string(),
"".to_string(),
"".to_string(),
"4 ".to_string(),
]
);
assert_eq!(
get_leading_comments("//1 /* */ \na;"),
vec!["1 /* */ ".to_string(),]
);
assert_eq!(get_leading_comments("//"), vec!["".to_string()]);
}
#[test]
fn has_ts_check_test() {
assert!(has_ts_check(
MediaType::JavaScript,
"// @ts-check\nconsole.log(5);"
));
assert!(has_ts_check(
MediaType::JavaScript,
"// deno-lint-ignore\n// @ts-check\n"
));
assert!(!has_ts_check(
MediaType::JavaScript,
"test;\n// @ts-check\n"
));
assert!(!has_ts_check(
MediaType::JavaScript,
"// ts-check\nconsole.log(5);"
));
}
}