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denoland-deno/cli/module_loader.rs

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use std::borrow::Cow;
use std::cell::RefCell;
use std::path::Path;
use std::path::PathBuf;
use std::pin::Pin;
use std::rc::Rc;
use std::str;
use std::sync::atomic::AtomicU16;
use std::sync::atomic::Ordering;
use std::sync::Arc;
use crate::args::jsr_url;
use crate::args::CliLockfile;
use crate::args::CliOptions;
use crate::args::DenoSubcommand;
use crate::args::TsTypeLib;
use crate::cache::CodeCache;
use crate::cache::FastInsecureHasher;
use crate::cache::ParsedSourceCache;
use crate::emit::Emitter;
use crate::graph_container::MainModuleGraphContainer;
use crate::graph_container::ModuleGraphContainer;
use crate::graph_container::ModuleGraphUpdatePermit;
use crate::graph_util::CreateGraphOptions;
use crate::graph_util::ModuleGraphBuilder;
use crate::node;
use crate::node::CliNodeCodeTranslator;
use crate::npm::CliNpmResolver;
use crate::resolver::CjsTracker;
use crate::resolver::CliNpmReqResolver;
use crate::resolver::CliResolver;
use crate::resolver::ModuleCodeStringSource;
use crate::resolver::NotSupportedKindInNpmError;
use crate::resolver::NpmModuleLoader;
use crate::tools::check;
use crate::tools::check::TypeChecker;
use crate::util::progress_bar::ProgressBar;
use crate::util::text_encoding::code_without_source_map;
use crate::util::text_encoding::source_map_from_code;
use crate::worker::CreateModuleLoaderResult;
use crate::worker::ModuleLoaderFactory;
use deno_ast::MediaType;
use deno_ast::ModuleKind;
use deno_core::anyhow::anyhow;
use deno_core::anyhow::bail;
use deno_core::anyhow::Context;
use deno_core::error::custom_error;
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::futures::future::FutureExt;
use deno_core::futures::Future;
use deno_core::parking_lot::Mutex;
use deno_core::resolve_url;
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use deno_core::ModuleCodeString;
use deno_core::ModuleLoader;
use deno_core::ModuleSource;
use deno_core::ModuleSourceCode;
use deno_core::ModuleSpecifier;
use deno_core::ModuleType;
use deno_core::RequestedModuleType;
use deno_core::SourceCodeCacheInfo;
use deno_graph::GraphKind;
use deno_graph::JsModule;
use deno_graph::JsonModule;
use deno_graph::Module;
use deno_graph::ModuleGraph;
use deno_graph::Resolution;
use deno_graph::WasmModule;
use deno_runtime::code_cache;
use deno_runtime::deno_fs::FileSystem;
use deno_runtime::deno_node::create_host_defined_options;
use deno_runtime::deno_node::NodeRequireLoader;
use deno_runtime::deno_node::NodeResolver;
use deno_runtime::deno_permissions::PermissionsContainer;
use deno_semver::npm::NpmPackageReqReference;
use node_resolver::errors::ClosestPkgJsonError;
use node_resolver::InNpmPackageChecker;
use node_resolver::NodeResolutionKind;
use node_resolver::ResolutionMode;
pub struct ModuleLoadPreparer {
options: Arc<CliOptions>,
lockfile: Option<Arc<CliLockfile>>,
module_graph_builder: Arc<ModuleGraphBuilder>,
progress_bar: ProgressBar,
type_checker: Arc<TypeChecker>,
}
impl ModuleLoadPreparer {
#[allow(clippy::too_many_arguments)]
pub fn new(
options: Arc<CliOptions>,
lockfile: Option<Arc<CliLockfile>>,
module_graph_builder: Arc<ModuleGraphBuilder>,
progress_bar: ProgressBar,
type_checker: Arc<TypeChecker>,
) -> Self {
Self {
options,
lockfile,
module_graph_builder,
progress_bar,
type_checker,
}
}
/// This method must be called for a module or a static importer of that
/// module before attempting to `load()` it from a `JsRuntime`. It will
/// populate the graph data in memory with the necessary source code, write
/// emits where necessary or report any module graph / type checking errors.
#[allow(clippy::too_many_arguments)]
pub async fn prepare_module_load(
&self,
graph: &mut ModuleGraph,
roots: &[ModuleSpecifier],
is_dynamic: bool,
lib: TsTypeLib,
permissions: PermissionsContainer,
ext_overwrite: Option<&String>,
) -> Result<(), AnyError> {
log::debug!("Preparing module load.");
let _pb_clear_guard = self.progress_bar.clear_guard();
let mut cache = self.module_graph_builder.create_fetch_cacher(permissions);
if let Some(ext) = ext_overwrite {
let maybe_content_type = match ext.as_str() {
"ts" => Some("text/typescript"),
"tsx" => Some("text/tsx"),
"js" => Some("text/javascript"),
"jsx" => Some("text/jsx"),
_ => None,
};
if let Some(content_type) = maybe_content_type {
for root in roots {
cache.file_header_overrides.insert(
root.clone(),
std::collections::HashMap::from([(
"content-type".to_string(),
content_type.to_string(),
)]),
);
}
}
}
log::debug!("Building module graph.");
let has_type_checked = !graph.roots.is_empty();
self
.module_graph_builder
.build_graph_with_npm_resolution(
graph,
CreateGraphOptions {
is_dynamic,
graph_kind: graph.graph_kind(),
roots: roots.to_vec(),
loader: Some(&mut cache),
npm_caching: self.options.default_npm_caching_strategy(),
},
)
.await?;
self.graph_roots_valid(graph, roots)?;
// write the lockfile if there is one
if let Some(lockfile) = &self.lockfile {
lockfile.write_if_changed()?;
}
drop(_pb_clear_guard);
// type check if necessary
if self.options.type_check_mode().is_true() && !has_type_checked {
self
.type_checker
.check(
// todo(perf): since this is only done the first time the graph is
// created, we could avoid the clone of the graph here by providing
// the actual graph on the first run and then getting the Arc<ModuleGraph>
// back from the return value.
graph.clone(),
check::CheckOptions {
build_fast_check_graph: true,
lib,
log_ignored_options: false,
reload: self.options.reload_flag(),
type_check_mode: self.options.type_check_mode(),
},
)
.await?;
}
log::debug!("Prepared module load.");
Ok(())
}
pub fn graph_roots_valid(
&self,
graph: &ModuleGraph,
roots: &[ModuleSpecifier],
) -> Result<(), AnyError> {
self.module_graph_builder.graph_roots_valid(graph, roots)
}
}
struct SharedCliModuleLoaderState {
graph_kind: GraphKind,
lib_window: TsTypeLib,
lib_worker: TsTypeLib,
initial_cwd: PathBuf,
is_inspecting: bool,
is_repl: bool,
cjs_tracker: Arc<CjsTracker>,
code_cache: Option<Arc<CodeCache>>,
emitter: Arc<Emitter>,
fs: Arc<dyn FileSystem>,
in_npm_pkg_checker: Arc<dyn InNpmPackageChecker>,
main_module_graph_container: Arc<MainModuleGraphContainer>,
module_load_preparer: Arc<ModuleLoadPreparer>,
node_code_translator: Arc<CliNodeCodeTranslator>,
node_resolver: Arc<NodeResolver>,
npm_req_resolver: Arc<CliNpmReqResolver>,
npm_resolver: Arc<dyn CliNpmResolver>,
npm_module_loader: NpmModuleLoader,
parsed_source_cache: Arc<ParsedSourceCache>,
resolver: Arc<CliResolver>,
in_flight_loads_tracker: InFlightModuleLoadsTracker,
}
struct InFlightModuleLoadsTracker {
loads_number: Arc<AtomicU16>,
cleanup_task_timeout: u64,
cleanup_task_handle: Arc<Mutex<Option<tokio::task::JoinHandle<()>>>>,
}
impl InFlightModuleLoadsTracker {
pub fn increase(&self) {
self.loads_number.fetch_add(1, Ordering::Relaxed);
if let Some(task) = self.cleanup_task_handle.lock().take() {
task.abort();
}
}
pub fn decrease(&self, parsed_source_cache: &Arc<ParsedSourceCache>) {
let prev = self.loads_number.fetch_sub(1, Ordering::Relaxed);
if prev == 1 {
let parsed_source_cache = parsed_source_cache.clone();
let timeout = self.cleanup_task_timeout;
let task_handle = tokio::spawn(async move {
// We use a timeout here, which is defined to 10s,
// so that in situations when dynamic imports are loaded after the startup,
// we don't need to recompute and analyze multiple modules.
tokio::time::sleep(std::time::Duration::from_millis(timeout)).await;
parsed_source_cache.free_all();
});
let maybe_prev_task =
self.cleanup_task_handle.lock().replace(task_handle);
if let Some(prev_task) = maybe_prev_task {
prev_task.abort();
}
}
}
}
pub struct CliModuleLoaderFactory {
shared: Arc<SharedCliModuleLoaderState>,
}
impl CliModuleLoaderFactory {
#[allow(clippy::too_many_arguments)]
pub fn new(
options: &CliOptions,
cjs_tracker: Arc<CjsTracker>,
code_cache: Option<Arc<CodeCache>>,
emitter: Arc<Emitter>,
fs: Arc<dyn FileSystem>,
in_npm_pkg_checker: Arc<dyn InNpmPackageChecker>,
main_module_graph_container: Arc<MainModuleGraphContainer>,
module_load_preparer: Arc<ModuleLoadPreparer>,
node_code_translator: Arc<CliNodeCodeTranslator>,
node_resolver: Arc<NodeResolver>,
npm_req_resolver: Arc<CliNpmReqResolver>,
npm_resolver: Arc<dyn CliNpmResolver>,
npm_module_loader: NpmModuleLoader,
parsed_source_cache: Arc<ParsedSourceCache>,
resolver: Arc<CliResolver>,
) -> Self {
Self {
shared: Arc::new(SharedCliModuleLoaderState {
graph_kind: options.graph_kind(),
lib_window: options.ts_type_lib_window(),
lib_worker: options.ts_type_lib_worker(),
initial_cwd: options.initial_cwd().to_path_buf(),
is_inspecting: options.is_inspecting(),
is_repl: matches!(
options.sub_command(),
DenoSubcommand::Repl(_) | DenoSubcommand::Jupyter(_)
),
cjs_tracker,
code_cache,
emitter,
fs,
in_npm_pkg_checker,
main_module_graph_container,
module_load_preparer,
node_code_translator,
node_resolver,
npm_req_resolver,
npm_resolver,
npm_module_loader,
parsed_source_cache,
resolver,
in_flight_loads_tracker: InFlightModuleLoadsTracker {
loads_number: Arc::new(AtomicU16::new(0)),
cleanup_task_timeout: 10_000,
cleanup_task_handle: Arc::new(Mutex::new(None)),
},
}),
}
}
fn create_with_lib<TGraphContainer: ModuleGraphContainer>(
&self,
graph_container: TGraphContainer,
lib: TsTypeLib,
is_worker: bool,
parent_permissions: PermissionsContainer,
permissions: PermissionsContainer,
) -> CreateModuleLoaderResult {
let module_loader =
Rc::new(CliModuleLoader(Rc::new(CliModuleLoaderInner {
lib,
is_worker,
parent_permissions,
permissions,
graph_container: graph_container.clone(),
node_code_translator: self.shared.node_code_translator.clone(),
emitter: self.shared.emitter.clone(),
parsed_source_cache: self.shared.parsed_source_cache.clone(),
shared: self.shared.clone(),
})));
let node_require_loader = Rc::new(CliNodeRequireLoader {
cjs_tracker: self.shared.cjs_tracker.clone(),
emitter: self.shared.emitter.clone(),
fs: self.shared.fs.clone(),
graph_container,
in_npm_pkg_checker: self.shared.in_npm_pkg_checker.clone(),
npm_resolver: self.shared.npm_resolver.clone(),
});
CreateModuleLoaderResult {
module_loader,
node_require_loader,
}
}
}
impl ModuleLoaderFactory for CliModuleLoaderFactory {
fn create_for_main(
&self,
root_permissions: PermissionsContainer,
) -> CreateModuleLoaderResult {
self.create_with_lib(
(*self.shared.main_module_graph_container).clone(),
self.shared.lib_window,
/* is worker */ false,
root_permissions.clone(),
root_permissions,
)
}
fn create_for_worker(
&self,
parent_permissions: PermissionsContainer,
permissions: PermissionsContainer,
) -> CreateModuleLoaderResult {
self.create_with_lib(
// create a fresh module graph for the worker
WorkerModuleGraphContainer::new(Arc::new(ModuleGraph::new(
self.shared.graph_kind,
))),
self.shared.lib_worker,
/* is worker */ true,
parent_permissions,
permissions,
)
}
}
struct CliModuleLoaderInner<TGraphContainer: ModuleGraphContainer> {
lib: TsTypeLib,
is_worker: bool,
/// The initial set of permissions used to resolve the static imports in the
/// worker. These are "allow all" for main worker, and parent thread
/// permissions for Web Worker.
parent_permissions: PermissionsContainer,
permissions: PermissionsContainer,
shared: Arc<SharedCliModuleLoaderState>,
emitter: Arc<Emitter>,
node_code_translator: Arc<CliNodeCodeTranslator>,
parsed_source_cache: Arc<ParsedSourceCache>,
graph_container: TGraphContainer,
}
impl<TGraphContainer: ModuleGraphContainer>
CliModuleLoaderInner<TGraphContainer>
{
async fn load_inner(
&self,
specifier: &ModuleSpecifier,
maybe_referrer: Option<&ModuleSpecifier>,
requested_module_type: RequestedModuleType,
) -> Result<ModuleSource, AnyError> {
let code_source = self.load_code_source(specifier, maybe_referrer).await?;
let code = if self.shared.is_inspecting
|| code_source.media_type == MediaType::Wasm
{
// we need the code with the source map in order for
// it to work with --inspect or --inspect-brk
code_source.code
} else {
// v8 is slower when source maps are present, so we strip them
code_without_source_map(code_source.code)
};
let module_type = match code_source.media_type {
MediaType::Json => ModuleType::Json,
MediaType::Wasm => ModuleType::Wasm,
_ => ModuleType::JavaScript,
};
// If we loaded a JSON file, but the "requested_module_type" (that is computed from
// import attributes) is not JSON we need to fail.
if module_type == ModuleType::Json
&& requested_module_type != RequestedModuleType::Json
{
return Err(generic_error("Attempted to load JSON module without specifying \"type\": \"json\" attribute in the import statement."));
}
let code_cache = if module_type == ModuleType::JavaScript {
self.shared.code_cache.as_ref().map(|cache| {
let code_hash = FastInsecureHasher::new_deno_versioned()
.write_hashable(&code)
.finish();
let data = cache
.get_sync(specifier, code_cache::CodeCacheType::EsModule, code_hash)
.map(Cow::from)
.inspect(|_| {
// This log line is also used by tests.
log::debug!(
"V8 code cache hit for ES module: {specifier}, [{code_hash:?}]"
);
});
SourceCodeCacheInfo {
hash: code_hash,
data,
}
})
} else {
None
};
Ok(ModuleSource::new_with_redirect(
module_type,
code,
specifier,
&code_source.found_url,
code_cache,
))
}
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async fn load_code_source(
&self,
specifier: &ModuleSpecifier,
maybe_referrer: Option<&ModuleSpecifier>,
) -> Result<ModuleCodeStringSource, AnyError> {
if let Some(code_source) = self.load_prepared_module(specifier).await? {
return Ok(code_source);
}
if self.shared.in_npm_pkg_checker.in_npm_package(specifier) {
return self
.shared
.npm_module_loader
.load(specifier, maybe_referrer)
.await;
}
let mut msg = format!("Loading unprepared module: {specifier}");
if let Some(referrer) = maybe_referrer {
msg = format!("{}, imported from: {}", msg, referrer.as_str());
}
Err(anyhow!(msg))
}
fn resolve_referrer(
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&self,
referrer: &str,
) -> Result<ModuleSpecifier, AnyError> {
let referrer = if referrer.is_empty() && self.shared.is_repl {
// FIXME(bartlomieju): this is a hacky way to provide compatibility with REPL
// and `Deno.core.evalContext` API. Ideally we should always have a referrer filled
"./$deno$repl.mts"
} else {
referrer
};
if deno_core::specifier_has_uri_scheme(referrer) {
deno_core::resolve_url(referrer).map_err(|e| e.into())
} else if referrer == "." {
// main module, use the initial cwd
deno_core::resolve_path(referrer, &self.shared.initial_cwd)
.map_err(|e| e.into())
} else {
// this cwd check is slow, so try to avoid it
let cwd = std::env::current_dir().context("Unable to get CWD")?;
deno_core::resolve_path(referrer, &cwd).map_err(|e| e.into())
}
}
fn inner_resolve(
&self,
raw_specifier: &str,
referrer: &ModuleSpecifier,
) -> Result<ModuleSpecifier, AnyError> {
let graph = self.graph_container.graph();
let resolution = match graph.get(referrer) {
Some(Module::Js(module)) => module
.dependencies
.get(raw_specifier)
.map(|d| &d.maybe_code)
.unwrap_or(&Resolution::None),
_ => &Resolution::None,
};
let specifier = match resolution {
Resolution::Ok(resolved) => Cow::Borrowed(&resolved.specifier),
Resolution::Err(err) => {
return Err(custom_error(
"TypeError",
format!("{}\n", err.to_string_with_range()),
));
}
Resolution::None => Cow::Owned(self.shared.resolver.resolve(
raw_specifier,
referrer,
deno_graph::Position::zeroed(),
// if we're here, that means it's resolving a dynamic import
ResolutionMode::Import,
NodeResolutionKind::Execution,
)?),
};
if self.shared.is_repl {
if let Ok(reference) = NpmPackageReqReference::from_specifier(&specifier)
{
return self
.shared
.npm_req_resolver
.resolve_req_reference(
&reference,
referrer,
ResolutionMode::Import,
NodeResolutionKind::Execution,
)
.map_err(AnyError::from);
}
}
let specifier = match graph.get(&specifier) {
Some(Module::Npm(module)) => {
let package_folder = self
.shared
.npm_resolver
.as_managed()
.unwrap() // byonm won't create a Module::Npm
.resolve_pkg_folder_from_deno_module(module.nv_reference.nv())?;
self
.shared
.node_resolver
.resolve_package_subpath_from_deno_module(
&package_folder,
module.nv_reference.sub_path(),
Some(referrer),
ResolutionMode::Import,
NodeResolutionKind::Execution,
)
.with_context(|| {
format!("Could not resolve '{}'.", module.nv_reference)
})?
}
Some(Module::Node(module)) => module.specifier.clone(),
Some(Module::Js(module)) => module.specifier.clone(),
Some(Module::Json(module)) => module.specifier.clone(),
Some(Module::Wasm(module)) => module.specifier.clone(),
Some(Module::External(module)) => {
node::resolve_specifier_into_node_modules(
&module.specifier,
self.shared.fs.as_ref(),
)
}
None => specifier.into_owned(),
};
Ok(specifier)
}
async fn load_prepared_module(
&self,
specifier: &ModuleSpecifier,
) -> Result<Option<ModuleCodeStringSource>, AnyError> {
// Note: keep this in sync with the sync version below
let graph = self.graph_container.graph();
match self.load_prepared_module_or_defer_emit(&graph, specifier)? {
Some(CodeOrDeferredEmit::Code(code_source)) => Ok(Some(code_source)),
Some(CodeOrDeferredEmit::DeferredEmit {
specifier,
media_type,
source,
}) => {
let transpile_result = self
.emitter
.emit_parsed_source(specifier, media_type, ModuleKind::Esm, source)
.await?;
// at this point, we no longer need the parsed source in memory, so free it
self.parsed_source_cache.free(specifier);
Ok(Some(ModuleCodeStringSource {
// note: it's faster to provide a string if we know it's a string
code: ModuleSourceCode::String(transpile_result.into()),
found_url: specifier.clone(),
media_type,
}))
}
Some(CodeOrDeferredEmit::Cjs {
specifier,
media_type,
source,
}) => self
.load_maybe_cjs(specifier, media_type, source)
.await
.map(Some),
None => Ok(None),
}
}
fn load_prepared_module_for_source_map_sync(
&self,
specifier: &ModuleSpecifier,
) -> Result<Option<ModuleCodeStringSource>, AnyError> {
// Note: keep this in sync with the async version above
let graph = self.graph_container.graph();
match self.load_prepared_module_or_defer_emit(&graph, specifier)? {
Some(CodeOrDeferredEmit::Code(code_source)) => Ok(Some(code_source)),
Some(CodeOrDeferredEmit::DeferredEmit {
specifier,
media_type,
source,
}) => {
let transpile_result = self.emitter.emit_parsed_source_sync(
specifier,
media_type,
ModuleKind::Esm,
source,
)?;
// at this point, we no longer need the parsed source in memory, so free it
self.parsed_source_cache.free(specifier);
Ok(Some(ModuleCodeStringSource {
// note: it's faster to provide a string if we know it's a string
code: ModuleSourceCode::String(transpile_result.into()),
found_url: specifier.clone(),
media_type,
}))
}
Some(CodeOrDeferredEmit::Cjs { .. }) => {
self.parsed_source_cache.free(specifier);
// todo(dsherret): to make this work, we should probably just
// rely on the CJS export cache. At the moment this is hard because
// cjs export analysis is only async
Ok(None)
}
None => Ok(None),
}
}
fn load_prepared_module_or_defer_emit<'graph>(
&self,
graph: &'graph ModuleGraph,
specifier: &ModuleSpecifier,
) -> Result<Option<CodeOrDeferredEmit<'graph>>, AnyError> {
if specifier.scheme() == "node" {
// Node built-in modules should be handled internally.
unreachable!("Deno bug. {} was misconfigured internally.", specifier);
}
match graph.get(specifier) {
Some(deno_graph::Module::Json(JsonModule {
source,
media_type,
specifier,
..
})) => Ok(Some(CodeOrDeferredEmit::Code(ModuleCodeStringSource {
code: ModuleSourceCode::String(source.clone().into()),
found_url: specifier.clone(),
media_type: *media_type,
}))),
Some(deno_graph::Module::Js(JsModule {
source,
media_type,
specifier,
is_script,
..
})) => {
if self.shared.cjs_tracker.is_cjs_with_known_is_script(
specifier,
*media_type,
*is_script,
)? {
return Ok(Some(CodeOrDeferredEmit::Cjs {
specifier,
media_type: *media_type,
source,
}));
}
let code: ModuleCodeString = match media_type {
MediaType::JavaScript
| MediaType::Unknown
| MediaType::Mjs
| MediaType::Json => source.clone().into(),
MediaType::Dts | MediaType::Dcts | MediaType::Dmts => {
Default::default()
}
MediaType::Cjs | MediaType::Cts => {
return Ok(Some(CodeOrDeferredEmit::Cjs {
specifier,
media_type: *media_type,
source,
}));
}
MediaType::TypeScript
| MediaType::Mts
| MediaType::Jsx
| MediaType::Tsx => {
return Ok(Some(CodeOrDeferredEmit::DeferredEmit {
specifier,
media_type: *media_type,
source,
}));
}
MediaType::Css | MediaType::Wasm | MediaType::SourceMap => {
panic!("Unexpected media type {media_type} for {specifier}")
}
};
// at this point, we no longer need the parsed source in memory, so free it
self.parsed_source_cache.free(specifier);
Ok(Some(CodeOrDeferredEmit::Code(ModuleCodeStringSource {
code: ModuleSourceCode::String(code),
found_url: specifier.clone(),
media_type: *media_type,
})))
}
Some(deno_graph::Module::Wasm(WasmModule {
source, specifier, ..
})) => Ok(Some(CodeOrDeferredEmit::Code(ModuleCodeStringSource {
code: ModuleSourceCode::Bytes(source.clone().into()),
found_url: specifier.clone(),
media_type: MediaType::Wasm,
}))),
Some(
deno_graph::Module::External(_)
| deno_graph::Module::Node(_)
| deno_graph::Module::Npm(_),
)
| None => Ok(None),
}
}
async fn load_maybe_cjs(
&self,
specifier: &ModuleSpecifier,
media_type: MediaType,
original_source: &Arc<str>,
) -> Result<ModuleCodeStringSource, AnyError> {
let js_source = if media_type.is_emittable() {
Cow::Owned(
self
.emitter
.emit_parsed_source(
specifier,
media_type,
ModuleKind::Cjs,
original_source,
)
.await?,
)
} else {
Cow::Borrowed(original_source.as_ref())
};
let text = self
.node_code_translator
.translate_cjs_to_esm(specifier, Some(js_source))
.await?;
// at this point, we no longer need the parsed source in memory, so free it
self.parsed_source_cache.free(specifier);
Ok(ModuleCodeStringSource {
code: match text {
// perf: if the text is borrowed, that means it didn't make any changes
// to the original source, so we can just provide that instead of cloning
// the borrowed text
Cow::Borrowed(_) => {
ModuleSourceCode::String(original_source.clone().into())
}
Cow::Owned(text) => ModuleSourceCode::String(text.into()),
},
found_url: specifier.clone(),
media_type,
})
}
}
enum CodeOrDeferredEmit<'a> {
Code(ModuleCodeStringSource),
DeferredEmit {
specifier: &'a ModuleSpecifier,
media_type: MediaType,
source: &'a Arc<str>,
},
Cjs {
specifier: &'a ModuleSpecifier,
media_type: MediaType,
source: &'a Arc<str>,
},
}
// todo(dsherret): this double Rc boxing is not ideal
struct CliModuleLoader<TGraphContainer: ModuleGraphContainer>(
Rc<CliModuleLoaderInner<TGraphContainer>>,
);
impl<TGraphContainer: ModuleGraphContainer> ModuleLoader
for CliModuleLoader<TGraphContainer>
{
fn resolve(
&self,
specifier: &str,
referrer: &str,
_kind: deno_core::ResolutionKind,
) -> Result<ModuleSpecifier, AnyError> {
fn ensure_not_jsr_non_jsr_remote_import(
specifier: &ModuleSpecifier,
referrer: &ModuleSpecifier,
) -> Result<(), AnyError> {
if referrer.as_str().starts_with(jsr_url().as_str())
&& !specifier.as_str().starts_with(jsr_url().as_str())
&& matches!(specifier.scheme(), "http" | "https")
{
bail!("Importing {} blocked. JSR packages cannot import non-JSR remote modules for security reasons.", specifier);
}
Ok(())
}
let referrer = self.0.resolve_referrer(referrer)?;
let specifier = self.0.inner_resolve(specifier, &referrer)?;
ensure_not_jsr_non_jsr_remote_import(&specifier, &referrer)?;
Ok(specifier)
}
fn get_host_defined_options<'s>(
&self,
scope: &mut deno_core::v8::HandleScope<'s>,
name: &str,
) -> Option<deno_core::v8::Local<'s, deno_core::v8::Data>> {
let name = deno_core::ModuleSpecifier::parse(name).ok()?;
if self.0.shared.in_npm_pkg_checker.in_npm_package(&name) {
Some(create_host_defined_options(scope))
} else {
None
}
}
2019-06-12 19:55:59 -04:00
fn load(
&self,
specifier: &ModuleSpecifier,
maybe_referrer: Option<&ModuleSpecifier>,
_is_dynamic: bool,
requested_module_type: RequestedModuleType,
) -> deno_core::ModuleLoadResponse {
let inner = self.0.clone();
let specifier = specifier.clone();
let maybe_referrer = maybe_referrer.cloned();
deno_core::ModuleLoadResponse::Async(
async move {
inner
.load_inner(
&specifier,
maybe_referrer.as_ref(),
requested_module_type,
)
.await
}
.boxed_local(),
)
}
fn prepare_load(
&self,
specifier: &ModuleSpecifier,
_maybe_referrer: Option<String>,
is_dynamic: bool,
) -> Pin<Box<dyn Future<Output = Result<(), AnyError>>>> {
self.0.shared.in_flight_loads_tracker.increase();
if self.0.shared.in_npm_pkg_checker.in_npm_package(specifier) {
return Box::pin(deno_core::futures::future::ready(Ok(())));
}
let specifier = specifier.clone();
let inner = self.0.clone();
async move {
let graph_container = &inner.graph_container;
let module_load_preparer = &inner.shared.module_load_preparer;
if is_dynamic {
// When the specifier is already in the graph then it means it
// was previously loaded, so we can skip that and only check if
// this part of the graph is valid.
//
// This doesn't acquire a graph update permit because that will
// clone the graph which is a bit slow.
let graph = graph_container.graph();
if !graph.roots.is_empty() && graph.get(&specifier).is_some() {
log::debug!("Skipping prepare module load.");
// roots are already validated so we can skip those
if !graph.roots.contains(&specifier) {
module_load_preparer.graph_roots_valid(&graph, &[specifier])?;
}
return Ok(());
}
}
let permissions = if is_dynamic {
inner.permissions.clone()
} else {
inner.parent_permissions.clone()
};
let is_dynamic = is_dynamic || inner.is_worker; // consider workers as dynamic for permissions
let lib = inner.lib;
let mut update_permit = graph_container.acquire_update_permit().await;
let graph = update_permit.graph_mut();
module_load_preparer
.prepare_module_load(
graph,
&[specifier],
is_dynamic,
lib,
permissions,
None,
)
.await?;
update_permit.commit();
Ok(())
}
.boxed_local()
}
fn finish_load(&self) {
self
.0
.shared
.in_flight_loads_tracker
.decrease(&self.0.shared.parsed_source_cache);
}
fn code_cache_ready(
&self,
specifier: ModuleSpecifier,
source_hash: u64,
code_cache: &[u8],
) -> Pin<Box<dyn Future<Output = ()>>> {
if let Some(cache) = self.0.shared.code_cache.as_ref() {
// This log line is also used by tests.
log::debug!(
"Updating V8 code cache for ES module: {specifier}, [{source_hash:?}]"
);
cache.set_sync(
&specifier,
code_cache::CodeCacheType::EsModule,
source_hash,
code_cache,
);
}
std::future::ready(()).boxed_local()
}
fn get_source_map(&self, file_name: &str) -> Option<Vec<u8>> {
let specifier = resolve_url(file_name).ok()?;
match specifier.scheme() {
// we should only be looking for emits for schemes that denote external
// modules, which the disk_cache supports
"wasm" | "file" | "http" | "https" | "data" | "blob" => (),
_ => return None,
}
let source = self
.0
.load_prepared_module_for_source_map_sync(&specifier)
.ok()??;
source_map_from_code(source.code.as_bytes())
}
fn get_source_mapped_source_line(
&self,
file_name: &str,
line_number: usize,
) -> Option<String> {
let graph = self.0.graph_container.graph();
let code = match graph.get(&resolve_url(file_name).ok()?) {
Some(deno_graph::Module::Js(module)) => &module.source,
Some(deno_graph::Module::Json(module)) => &module.source,
_ => return None,
};
// Do NOT use .lines(): it skips the terminating empty line.
// (due to internally using_terminator() instead of .split())
let lines: Vec<&str> = code.split('\n').collect();
if line_number >= lines.len() {
Some(format!(
"{} Couldn't format source line: Line {} is out of bounds (source may have changed at runtime)",
crate::colors::yellow("Warning"), line_number + 1,
))
} else {
Some(lines[line_number].to_string())
}
}
}
/// Holds the `ModuleGraph` in workers.
#[derive(Clone)]
struct WorkerModuleGraphContainer {
// Allow only one request to update the graph data at a time,
// but allow other requests to read from it at any time even
// while another request is updating the data.
update_queue: Rc<deno_core::unsync::TaskQueue>,
inner: Rc<RefCell<Arc<ModuleGraph>>>,
}
impl WorkerModuleGraphContainer {
pub fn new(module_graph: Arc<ModuleGraph>) -> Self {
Self {
update_queue: Default::default(),
inner: Rc::new(RefCell::new(module_graph)),
}
}
}
impl ModuleGraphContainer for WorkerModuleGraphContainer {
async fn acquire_update_permit(&self) -> impl ModuleGraphUpdatePermit {
let permit = self.update_queue.acquire().await;
WorkerModuleGraphUpdatePermit {
permit,
inner: self.inner.clone(),
graph: (**self.inner.borrow()).clone(),
}
}
fn graph(&self) -> Arc<ModuleGraph> {
self.inner.borrow().clone()
}
}
struct WorkerModuleGraphUpdatePermit {
permit: deno_core::unsync::TaskQueuePermit,
inner: Rc<RefCell<Arc<ModuleGraph>>>,
graph: ModuleGraph,
}
impl ModuleGraphUpdatePermit for WorkerModuleGraphUpdatePermit {
fn graph_mut(&mut self) -> &mut ModuleGraph {
&mut self.graph
}
fn commit(self) {
*self.inner.borrow_mut() = Arc::new(self.graph);
drop(self.permit); // explicit drop for clarity
}
}
#[derive(Debug)]
struct CliNodeRequireLoader<TGraphContainer: ModuleGraphContainer> {
cjs_tracker: Arc<CjsTracker>,
emitter: Arc<Emitter>,
fs: Arc<dyn FileSystem>,
graph_container: TGraphContainer,
in_npm_pkg_checker: Arc<dyn InNpmPackageChecker>,
npm_resolver: Arc<dyn CliNpmResolver>,
}
impl<TGraphContainer: ModuleGraphContainer> NodeRequireLoader
for CliNodeRequireLoader<TGraphContainer>
{
fn ensure_read_permission<'a>(
&self,
permissions: &mut dyn deno_runtime::deno_node::NodePermissions,
path: &'a Path,
) -> Result<std::borrow::Cow<'a, Path>, AnyError> {
if let Ok(url) = deno_path_util::url_from_file_path(path) {
// allow reading if it's in the module graph
if self.graph_container.graph().get(&url).is_some() {
return Ok(std::borrow::Cow::Borrowed(path));
}
}
self.npm_resolver.ensure_read_permission(permissions, path)
}
fn load_text_file_lossy(
&self,
path: &Path,
) -> Result<Cow<'static, str>, AnyError> {
// todo(dsherret): use the preloaded module from the graph if available?
let media_type = MediaType::from_path(path);
let text = self.fs.read_text_file_lossy_sync(path, None)?;
if media_type.is_emittable() {
let specifier = deno_path_util::url_from_file_path(path)?;
if self.in_npm_pkg_checker.in_npm_package(&specifier) {
return Err(
NotSupportedKindInNpmError {
media_type,
specifier,
}
.into(),
);
}
self
.emitter
.emit_parsed_source_sync(
&specifier,
media_type,
// this is probably not super accurate due to require esm, but probably ok.
// If we find this causes a lot of churn in the emit cache then we should
// investigate how we can make this better
ModuleKind::Cjs,
&text.into(),
)
.map(Cow::Owned)
} else {
Ok(text)
}
}
fn is_maybe_cjs(
&self,
specifier: &ModuleSpecifier,
) -> Result<bool, ClosestPkgJsonError> {
let media_type = MediaType::from_specifier(specifier);
self.cjs_tracker.is_maybe_cjs(specifier, media_type)
}
}
#[cfg(test)]
mod tests {
use super::*;
use deno_graph::ParsedSourceStore;
#[tokio::test]
async fn test_inflight_module_loads_tracker() {
let tracker = InFlightModuleLoadsTracker {
loads_number: Default::default(),
cleanup_task_timeout: 10,
cleanup_task_handle: Default::default(),
};
let specifier = ModuleSpecifier::parse("file:///a.js").unwrap();
let source = "const a = 'hello';";
let parsed_source_cache = Arc::new(ParsedSourceCache::default());
let parsed_source = parsed_source_cache
.remove_or_parse_module(&specifier, source.into(), MediaType::JavaScript)
.unwrap();
parsed_source_cache.set_parsed_source(specifier, parsed_source);
assert_eq!(parsed_source_cache.len(), 1);
assert!(tracker.cleanup_task_handle.lock().is_none());
tracker.increase();
tracker.increase();
assert!(tracker.cleanup_task_handle.lock().is_none());
tracker.decrease(&parsed_source_cache);
assert!(tracker.cleanup_task_handle.lock().is_none());
tracker.decrease(&parsed_source_cache);
assert!(tracker.cleanup_task_handle.lock().is_some());
assert_eq!(parsed_source_cache.len(), 1);
tracker.increase();
assert!(tracker.cleanup_task_handle.lock().is_none());
assert_eq!(parsed_source_cache.len(), 1);
tracker.decrease(&parsed_source_cache);
// Rather long timeout, but to make sure CI is not flaking on it.
tokio::time::sleep(std::time::Duration::from_millis(500)).await;
assert_eq!(parsed_source_cache.len(), 0);
}
}