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denoland-deno/core/modules.rs

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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use crate::bindings;
use crate::error::generic_error;
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use crate::module_specifier::ModuleSpecifier;
use crate::resolve_import;
use crate::resolve_url;
use crate::OpState;
use anyhow::Error;
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use futures::future::FutureExt;
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use futures::stream::FuturesUnordered;
use futures::stream::Stream;
use futures::stream::StreamFuture;
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use futures::stream::TryStreamExt;
use log::debug;
use std::cell::RefCell;
use std::collections::HashMap;
use std::collections::HashSet;
use std::collections::VecDeque;
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use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
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use std::task::Context;
use std::task::Poll;
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pub type ModuleId = i32;
pub(crate) type ModuleLoadId = i32;
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pub const BOM_CHAR: &[u8] = &[0xef, 0xbb, 0xbf];
/// Strips the byte order mark from the provided text if it exists.
fn strip_bom(source_code: &[u8]) -> &[u8] {
if source_code.starts_with(BOM_CHAR) {
&source_code[BOM_CHAR.len()..]
} else {
source_code
}
}
const SUPPORTED_TYPE_ASSERTIONS: &[&str] = &["json"];
/// Throws V8 exception if assertions are invalid
pub(crate) fn validate_import_assertions(
scope: &mut v8::HandleScope,
assertions: &HashMap<String, String>,
) {
for (key, value) in assertions {
if key == "type" && !SUPPORTED_TYPE_ASSERTIONS.contains(&value.as_str()) {
let message = v8::String::new(
scope,
&format!("\"{}\" is not a valid module type.", value),
)
.unwrap();
let exception = v8::Exception::type_error(scope, message);
scope.throw_exception(exception);
return;
}
}
}
#[derive(Debug)]
pub(crate) enum ImportAssertionsKind {
StaticImport,
DynamicImport,
}
pub(crate) fn parse_import_assertions(
scope: &mut v8::HandleScope,
import_assertions: v8::Local<v8::FixedArray>,
kind: ImportAssertionsKind,
) -> HashMap<String, String> {
let mut assertions: HashMap<String, String> = HashMap::default();
let assertions_per_line = match kind {
// For static imports, assertions are triples of (keyword, value and source offset)
// Also used in `module_resolve_callback`.
ImportAssertionsKind::StaticImport => 3,
// For dynamic imports, assertions are tuples of (keyword, value)
ImportAssertionsKind::DynamicImport => 2,
};
assert_eq!(import_assertions.length() % assertions_per_line, 0);
let no_of_assertions = import_assertions.length() / assertions_per_line;
for i in 0..no_of_assertions {
let assert_key = import_assertions
.get(scope, assertions_per_line * i)
.unwrap();
let assert_key_val = v8::Local::<v8::Value>::try_from(assert_key).unwrap();
let assert_value = import_assertions
.get(scope, (assertions_per_line * i) + 1)
.unwrap();
let assert_value_val =
v8::Local::<v8::Value>::try_from(assert_value).unwrap();
assertions.insert(
assert_key_val.to_rust_string_lossy(scope),
assert_value_val.to_rust_string_lossy(scope),
);
}
assertions
}
pub(crate) fn get_asserted_module_type_from_assertions(
assertions: &HashMap<String, String>,
) -> AssertedModuleType {
assertions
.get("type")
.map(|ty| {
if ty == "json" {
AssertedModuleType::Json
} else {
AssertedModuleType::JavaScriptOrWasm
}
})
.unwrap_or(AssertedModuleType::JavaScriptOrWasm)
}
// Clippy thinks the return value doesn't need to be an Option, it's unaware
// of the mapping that MapFnFrom<F> does for ResolveModuleCallback.
#[allow(clippy::unnecessary_wraps)]
fn json_module_evaluation_steps<'a>(
context: v8::Local<'a, v8::Context>,
module: v8::Local<v8::Module>,
) -> Option<v8::Local<'a, v8::Value>> {
let scope = &mut unsafe { v8::CallbackScope::new(context) };
let tc_scope = &mut v8::TryCatch::new(scope);
let module_map = tc_scope
.get_slot::<Rc<RefCell<ModuleMap>>>()
.unwrap()
.clone();
let handle = v8::Global::<v8::Module>::new(tc_scope, module);
let value_handle = module_map
.borrow_mut()
.json_value_store
.remove(&handle)
.unwrap();
let value_local = v8::Local::new(tc_scope, value_handle);
let name = v8::String::new(tc_scope, "default").unwrap();
// This should never fail
assert!(
module.set_synthetic_module_export(tc_scope, name, value_local)
== Some(true)
);
assert!(!tc_scope.has_caught());
// Since TLA is active we need to return a promise.
let resolver = v8::PromiseResolver::new(tc_scope).unwrap();
let undefined = v8::undefined(tc_scope);
resolver.resolve(tc_scope, undefined.into());
Some(resolver.get_promise(tc_scope).into())
}
/// A type of module to be executed.
///
/// For non-`JavaScript` modules, this value doesn't tell
/// how to interpret the module; it is only used to validate
/// the module against an import assertion (if one is present
/// in the import statement).
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub enum ModuleType {
JavaScript,
Json,
}
impl std::fmt::Display for ModuleType {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
match self {
Self::JavaScript => write!(f, "JavaScript"),
Self::Json => write!(f, "JSON"),
}
}
}
/// EsModule source code that will be loaded into V8.
///
/// Users can implement `Into<ModuleInfo>` for different file types that
/// can be transpiled to valid EsModule.
///
/// Found module URL might be different from specified URL
/// used for loading due to redirections (like HTTP 303).
/// Eg. Both "`https://example.com/a.ts`" and
/// "`https://example.com/b.ts`" may point to "`https://example.com/c.ts`"
/// By keeping track of specified and found URL we can alias modules and avoid
/// recompiling the same code 3 times.
// TODO(bartlomieju): I have a strong opinion we should store all redirects
// that happened; not only first and final target. It would simplify a lot
// of things throughout the codebase otherwise we may end up requesting
// intermediate redirects from file loader.
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct ModuleSource {
pub code: Box<[u8]>,
pub module_type: ModuleType,
pub module_url_specified: String,
pub module_url_found: String,
}
pub(crate) type PrepareLoadFuture =
dyn Future<Output = (ModuleLoadId, Result<RecursiveModuleLoad, Error>)>;
pub type ModuleSourceFuture = dyn Future<Output = Result<ModuleSource, Error>>;
type ModuleLoadFuture =
dyn Future<Output = Result<(ModuleRequest, ModuleSource), Error>>;
pub trait ModuleLoader {
/// Returns an absolute URL.
/// When implementing an spec-complaint VM, this should be exactly the
/// algorithm described here:
/// <https://html.spec.whatwg.org/multipage/webappapis.html#resolve-a-module-specifier>
///
/// `is_main` can be used to resolve from current working directory or
/// apply import map for child imports.
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fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error>;
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/// Given ModuleSpecifier, load its source code.
///
/// `is_dyn_import` can be used to check permissions or deny
/// dynamic imports altogether.
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fn load(
&self,
module_specifier: &ModuleSpecifier,
maybe_referrer: Option<ModuleSpecifier>,
is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>>;
/// This hook can be used by implementors to do some preparation
/// work before starting loading of modules.
///
/// For example implementor might download multiple modules in
/// parallel and transpile them to final JS sources before
/// yielding control back to the runtime.
///
/// It's not required to implement this method.
fn prepare_load(
&self,
_op_state: Rc<RefCell<OpState>>,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<String>,
_is_dyn_import: bool,
) -> Pin<Box<dyn Future<Output = Result<(), Error>>>> {
async { Ok(()) }.boxed_local()
}
}
/// Placeholder structure used when creating
/// a runtime that doesn't support module loading.
pub struct NoopModuleLoader;
impl ModuleLoader for NoopModuleLoader {
fn resolve(
&self,
_specifier: &str,
_referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
Err(generic_error("Module loading is not supported"))
}
fn load(
&self,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
async { Err(generic_error("Module loading is not supported")) }
.boxed_local()
}
}
/// Basic file system module loader.
///
/// Note that this loader will **block** event loop
/// when loading file as it uses synchronous FS API
/// from standard library.
pub struct FsModuleLoader;
impl ModuleLoader for FsModuleLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
Ok(resolve_import(specifier, referrer)?)
}
fn load(
&self,
module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dynamic: bool,
) -> Pin<Box<ModuleSourceFuture>> {
let module_specifier = module_specifier.clone();
async move {
let path = module_specifier.to_file_path().map_err(|_| {
generic_error(format!(
"Provided module specifier \"{}\" is not a file URL.",
module_specifier
))
})?;
let module_type = if let Some(extension) = path.extension() {
let ext = extension.to_string_lossy().to_lowercase();
if ext == "json" {
ModuleType::Json
} else {
ModuleType::JavaScript
}
} else {
ModuleType::JavaScript
};
let code = std::fs::read(path)?;
let module = ModuleSource {
code: code.into_boxed_slice(),
module_type,
module_url_specified: module_specifier.to_string(),
module_url_found: module_specifier.to_string(),
};
Ok(module)
}
.boxed_local()
}
}
/// Describes the entrypoint of a recursive module load.
#[derive(Debug)]
enum LoadInit {
/// Main module specifier.
Main(String),
/// Module specifier for side module.
Side(String),
/// Dynamic import specifier with referrer and expected
/// module type (which is determined by import assertion).
DynamicImport(String, String, AssertedModuleType),
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}
#[derive(Debug, Eq, PartialEq)]
pub enum LoadState {
Init,
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LoadingRoot,
LoadingImports,
Done,
}
/// This future is used to implement parallel async module loading.
pub(crate) struct RecursiveModuleLoad {
pub id: ModuleLoadId,
pub root_module_id: Option<ModuleId>,
init: LoadInit,
root_asserted_module_type: Option<AssertedModuleType>,
root_module_type: Option<ModuleType>,
state: LoadState,
module_map_rc: Rc<RefCell<ModuleMap>>,
pending: FuturesUnordered<Pin<Box<ModuleLoadFuture>>>,
visited: HashSet<ModuleRequest>,
// These two fields are copied from `module_map_rc`, but they are cloned ahead
// of time to avoid already-borrowed errors.
op_state: Rc<RefCell<OpState>>,
loader: Rc<dyn ModuleLoader>,
}
impl RecursiveModuleLoad {
/// Starts a new asynchronous load of the module graph for given specifier.
///
/// The module corresponding for the given `specifier` will be marked as
// "the main module" (`import.meta.main` will return `true` for this module).
fn main(specifier: &str, module_map_rc: Rc<RefCell<ModuleMap>>) -> Self {
Self::new(LoadInit::Main(specifier.to_string()), module_map_rc)
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}
/// Starts a new asynchronous load of the module graph for given specifier.
fn side(specifier: &str, module_map_rc: Rc<RefCell<ModuleMap>>) -> Self {
Self::new(LoadInit::Side(specifier.to_string()), module_map_rc)
}
/// Starts a new asynchronous load of the module graph for given specifier
/// that was imported using `import()`.
fn dynamic_import(
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specifier: &str,
referrer: &str,
asserted_module_type: AssertedModuleType,
module_map_rc: Rc<RefCell<ModuleMap>>,
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) -> Self {
Self::new(
LoadInit::DynamicImport(
specifier.to_string(),
referrer.to_string(),
asserted_module_type,
),
module_map_rc,
)
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}
fn new(init: LoadInit, module_map_rc: Rc<RefCell<ModuleMap>>) -> Self {
let id = {
let mut module_map = module_map_rc.borrow_mut();
let id = module_map.next_load_id;
module_map.next_load_id += 1;
id
};
let op_state = module_map_rc.borrow().op_state.clone();
let loader = module_map_rc.borrow().loader.clone();
let asserted_module_type = match init {
LoadInit::DynamicImport(_, _, module_type) => module_type,
_ => AssertedModuleType::JavaScriptOrWasm,
};
let mut load = Self {
id,
root_module_id: None,
root_asserted_module_type: None,
root_module_type: None,
init,
state: LoadState::Init,
module_map_rc: module_map_rc.clone(),
op_state,
loader,
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pending: FuturesUnordered::new(),
visited: HashSet::new(),
};
// FIXME(bartlomieju): this seems fishy
// Ignore the error here, let it be hit in `Stream::poll_next()`.
if let Ok(root_specifier) = load.resolve_root() {
if let Some(module_id) = module_map_rc
.borrow()
.get_id(root_specifier.as_str(), asserted_module_type)
{
load.root_module_id = Some(module_id);
load.root_asserted_module_type = Some(asserted_module_type);
load.root_module_type = Some(
module_map_rc
.borrow()
.get_info_by_id(&module_id)
.unwrap()
.module_type,
);
}
}
load
}
fn resolve_root(&self) -> Result<ModuleSpecifier, Error> {
match self.init {
LoadInit::Main(ref specifier) => {
self.loader.resolve(specifier, ".", true)
}
LoadInit::Side(ref specifier) => {
self.loader.resolve(specifier, ".", false)
}
LoadInit::DynamicImport(ref specifier, ref referrer, _) => {
self.loader.resolve(specifier, referrer, false)
}
}
}
async fn prepare(&self) -> Result<(), Error> {
let op_state = self.op_state.clone();
let (module_specifier, maybe_referrer) = match self.init {
LoadInit::Main(ref specifier) => {
let spec = self.loader.resolve(specifier, ".", true)?;
(spec, None)
}
LoadInit::Side(ref specifier) => {
let spec = self.loader.resolve(specifier, ".", false)?;
(spec, None)
}
LoadInit::DynamicImport(ref specifier, ref referrer, _) => {
let spec = self.loader.resolve(specifier, referrer, false)?;
(spec, Some(referrer.to_string()))
}
};
self
.loader
.prepare_load(
op_state,
&module_specifier,
maybe_referrer,
self.is_dynamic_import(),
)
.await
}
fn is_currently_loading_main_module(&self) -> bool {
!self.is_dynamic_import()
&& matches!(self.init, LoadInit::Main(..))
&& self.state == LoadState::LoadingRoot
}
fn is_dynamic_import(&self) -> bool {
matches!(self.init, LoadInit::DynamicImport(..))
}
pub(crate) fn register_and_recurse(
&mut self,
scope: &mut v8::HandleScope,
module_request: &ModuleRequest,
module_source: &ModuleSource,
) -> Result<(), ModuleError> {
let expected_asserted_module_type = module_source.module_type.into();
if module_request.asserted_module_type != expected_asserted_module_type {
return Err(ModuleError::Other(generic_error(format!(
"Expected a \"{}\" module but loaded a \"{}\" module.",
module_request.asserted_module_type, module_source.module_type,
))));
}
// Register the module in the module map unless it's already there. If the
// specified URL and the "true" URL are different, register the alias.
if module_source.module_url_specified != module_source.module_url_found {
self.module_map_rc.borrow_mut().alias(
&module_source.module_url_specified,
expected_asserted_module_type,
&module_source.module_url_found,
);
}
let maybe_module_id = self.module_map_rc.borrow().get_id(
&module_source.module_url_found,
expected_asserted_module_type,
);
let module_id = match maybe_module_id {
Some(id) => {
debug!(
"Already-registered module fetched again: {}",
module_source.module_url_found
);
id
}
None => match module_source.module_type {
ModuleType::JavaScript => {
self.module_map_rc.borrow_mut().new_es_module(
scope,
self.is_currently_loading_main_module(),
&module_source.module_url_found,
&module_source.code,
)?
}
ModuleType::Json => self.module_map_rc.borrow_mut().new_json_module(
scope,
&module_source.module_url_found,
&module_source.code,
)?,
},
};
// Recurse the module's imports. There are two cases for each import:
// 1. If the module is not in the module map, start a new load for it in
// `self.pending`. The result of that load should eventually be passed to
// this function for recursion.
// 2. If the module is already in the module map, queue it up to be
// recursed synchronously here.
// This robustly ensures that the whole graph is in the module map before
// `LoadState::Done` is set.
let mut already_registered = VecDeque::new();
already_registered.push_back((module_id, module_request.clone()));
self.visited.insert(module_request.clone());
while let Some((module_id, module_request)) = already_registered.pop_front()
{
let referrer = module_request.specifier.clone();
let imports = self
.module_map_rc
.borrow()
.get_requested_modules(module_id)
.unwrap()
.clone();
for module_request in imports {
if !self.visited.contains(&module_request) {
if let Some(module_id) = self.module_map_rc.borrow().get_id(
module_request.specifier.as_str(),
module_request.asserted_module_type,
) {
already_registered.push_back((module_id, module_request.clone()));
} else {
let referrer = referrer.clone();
let request = module_request.clone();
let loader = self.loader.clone();
let is_dynamic_import = self.is_dynamic_import();
let fut = async move {
let load_result = loader
.load(
&request.specifier,
Some(referrer.clone()),
is_dynamic_import,
)
.await;
load_result.map(|s| (request, s))
};
self.pending.push(fut.boxed_local());
}
self.visited.insert(module_request);
}
}
}
// Update `self.state` however applicable.
if self.state == LoadState::LoadingRoot {
self.root_module_id = Some(module_id);
self.root_asserted_module_type = Some(module_source.module_type.into());
self.state = LoadState::LoadingImports;
}
if self.pending.is_empty() {
self.state = LoadState::Done;
}
Ok(())
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}
}
impl Stream for RecursiveModuleLoad {
type Item = Result<(ModuleRequest, ModuleSource), Error>;
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fn poll_next(
self: Pin<&mut Self>,
cx: &mut Context,
) -> Poll<Option<Self::Item>> {
let inner = self.get_mut();
// IMPORTANT: Do not borrow `inner.module_map_rc` here. It may not be
// available.
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match inner.state {
LoadState::Init => {
let module_specifier = match inner.resolve_root() {
Ok(url) => url,
Err(error) => return Poll::Ready(Some(Err(error))),
};
let load_fut = if let Some(_module_id) = inner.root_module_id {
// FIXME(bartlomieju): this is very bad
// The root module is already in the module map.
// TODO(nayeemrmn): In this case we would ideally skip to
// `LoadState::LoadingImports` and synchronously recurse the imports
// like the bottom of `RecursiveModuleLoad::register_and_recurse()`.
// But the module map cannot be borrowed here. Instead fake a load
// event so it gets passed to that function and recursed eventually.
let asserted_module_type = inner.root_asserted_module_type.unwrap();
let module_type = inner.root_module_type.unwrap();
let module_request = ModuleRequest {
specifier: module_specifier.clone(),
asserted_module_type,
};
let module_source = ModuleSource {
module_url_specified: module_specifier.to_string(),
module_url_found: module_specifier.to_string(),
// The code will be discarded, since this module is already in the
// module map.
code: Default::default(),
module_type,
};
futures::future::ok((module_request, module_source)).boxed()
} else {
let maybe_referrer = match inner.init {
LoadInit::DynamicImport(_, ref referrer, _) => {
resolve_url(referrer).ok()
}
_ => None,
};
let asserted_module_type = match inner.init {
LoadInit::DynamicImport(_, _, module_type) => module_type,
_ => AssertedModuleType::JavaScriptOrWasm,
};
let module_request = ModuleRequest {
specifier: module_specifier.clone(),
asserted_module_type,
};
let loader = inner.loader.clone();
let is_dynamic_import = inner.is_dynamic_import();
async move {
let result = loader
.load(&module_specifier, maybe_referrer, is_dynamic_import)
.await;
result.map(|s| (module_request, s))
}
.boxed_local()
};
inner.pending.push(load_fut);
inner.state = LoadState::LoadingRoot;
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inner.try_poll_next_unpin(cx)
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}
LoadState::LoadingRoot | LoadState::LoadingImports => {
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match inner.pending.try_poll_next_unpin(cx)? {
Poll::Ready(None) => unreachable!(),
Poll::Ready(Some(info)) => Poll::Ready(Some(Ok(info))),
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Poll::Pending => Poll::Pending,
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}
}
LoadState::Done => Poll::Ready(None),
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}
}
}
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub(crate) enum AssertedModuleType {
JavaScriptOrWasm,
Json,
}
impl From<ModuleType> for AssertedModuleType {
fn from(module_type: ModuleType) -> AssertedModuleType {
match module_type {
ModuleType::JavaScript => AssertedModuleType::JavaScriptOrWasm,
ModuleType::Json => AssertedModuleType::Json,
}
}
}
impl std::fmt::Display for AssertedModuleType {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
match self {
Self::JavaScriptOrWasm => write!(f, "JavaScriptOrWasm"),
Self::Json => write!(f, "JSON"),
}
}
}
/// Describes a request for a module as parsed from the source code.
/// Usually executable (`JavaScriptOrWasm`) is used, except when an
/// import assertions explicitly constrains an import to JSON, in
/// which case this will have a `AssertedModuleType::Json`.
#[derive(Clone, Debug, Eq, Hash, PartialEq)]
pub(crate) struct ModuleRequest {
pub specifier: ModuleSpecifier,
pub asserted_module_type: AssertedModuleType,
}
pub(crate) struct ModuleInfo {
#[allow(unused)]
pub id: ModuleId,
// Used in "bindings.rs" for "import.meta.main" property value.
pub main: bool,
pub name: String,
pub requests: Vec<ModuleRequest>,
pub module_type: ModuleType,
}
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/// A symbolic module entity.
enum SymbolicModule {
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/// This module is an alias to another module.
/// This is useful such that multiple names could point to
/// the same underlying module (particularly due to redirects).
Alias(String),
/// This module associates with a V8 module by id.
Mod(ModuleId),
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}
#[derive(Debug)]
pub(crate) enum ModuleError {
Exception(v8::Global<v8::Value>),
Other(Error),
}
/// A collection of JS modules.
pub(crate) struct ModuleMap {
// Handling of specifiers and v8 objects
ids_by_handle: HashMap<v8::Global<v8::Module>, ModuleId>,
handles_by_id: HashMap<ModuleId, v8::Global<v8::Module>>,
info: HashMap<ModuleId, ModuleInfo>,
by_name: HashMap<(String, AssertedModuleType), SymbolicModule>,
next_module_id: ModuleId,
next_load_id: ModuleLoadId,
// Handling of futures for loading module sources
pub loader: Rc<dyn ModuleLoader>,
op_state: Rc<RefCell<OpState>>,
pub(crate) dynamic_import_map:
HashMap<ModuleLoadId, v8::Global<v8::PromiseResolver>>,
pub(crate) preparing_dynamic_imports:
FuturesUnordered<Pin<Box<PrepareLoadFuture>>>,
pub(crate) pending_dynamic_imports:
FuturesUnordered<StreamFuture<RecursiveModuleLoad>>,
// This store is used temporarly, to forward parsed JSON
// value from `new_json_module` to `json_module_evaluation_steps`
json_value_store: HashMap<v8::Global<v8::Module>, v8::Global<v8::Value>>,
}
impl ModuleMap {
pub(crate) fn new(
loader: Rc<dyn ModuleLoader>,
op_state: Rc<RefCell<OpState>>,
) -> ModuleMap {
Self {
ids_by_handle: HashMap::new(),
handles_by_id: HashMap::new(),
info: HashMap::new(),
by_name: HashMap::new(),
next_module_id: 1,
next_load_id: 1,
loader,
op_state,
dynamic_import_map: HashMap::new(),
preparing_dynamic_imports: FuturesUnordered::new(),
pending_dynamic_imports: FuturesUnordered::new(),
json_value_store: HashMap::new(),
}
}
/// Get module id, following all aliases in case of module specifier
/// that had been redirected.
fn get_id(
&self,
name: &str,
asserted_module_type: AssertedModuleType,
) -> Option<ModuleId> {
let mut mod_name = name;
loop {
let symbolic_module = self
.by_name
.get(&(mod_name.to_string(), asserted_module_type))?;
match symbolic_module {
SymbolicModule::Alias(target) => {
mod_name = target;
}
SymbolicModule::Mod(mod_id) => return Some(*mod_id),
}
}
}
fn new_json_module(
&mut self,
scope: &mut v8::HandleScope,
name: &str,
source: &[u8],
) -> Result<ModuleId, ModuleError> {
let name_str = v8::String::new(scope, name).unwrap();
let source_str = v8::String::new_from_utf8(
scope,
strip_bom(source),
v8::NewStringType::Normal,
)
.unwrap();
let tc_scope = &mut v8::TryCatch::new(scope);
let parsed_json = match v8::json::parse(tc_scope, source_str) {
Some(parsed_json) => parsed_json,
None => {
assert!(tc_scope.has_caught());
let exception = tc_scope.exception().unwrap();
let exception = v8::Global::new(tc_scope, exception);
return Err(ModuleError::Exception(exception));
}
};
let export_names = [v8::String::new(tc_scope, "default").unwrap()];
let module = v8::Module::create_synthetic_module(
tc_scope,
name_str,
&export_names,
json_module_evaluation_steps,
);
let handle = v8::Global::<v8::Module>::new(tc_scope, module);
let value_handle = v8::Global::<v8::Value>::new(tc_scope, parsed_json);
self.json_value_store.insert(handle.clone(), value_handle);
let id =
self.create_module_info(name, ModuleType::Json, handle, false, vec![]);
Ok(id)
}
// Create and compile an ES module.
pub(crate) fn new_es_module(
&mut self,
scope: &mut v8::HandleScope,
main: bool,
name: &str,
source: &[u8],
) -> Result<ModuleId, ModuleError> {
let name_str = v8::String::new(scope, name).unwrap();
let source_str =
v8::String::new_from_utf8(scope, source, v8::NewStringType::Normal)
.unwrap();
let origin = bindings::module_origin(scope, name_str);
let source = v8::script_compiler::Source::new(source_str, Some(&origin));
let tc_scope = &mut v8::TryCatch::new(scope);
let maybe_module = v8::script_compiler::compile_module(tc_scope, source);
if tc_scope.has_caught() {
assert!(maybe_module.is_none());
let exception = tc_scope.exception().unwrap();
let exception = v8::Global::new(tc_scope, exception);
return Err(ModuleError::Exception(exception));
}
let module = maybe_module.unwrap();
let mut requests: Vec<ModuleRequest> = vec![];
let module_requests = module.get_module_requests();
for i in 0..module_requests.length() {
let module_request = v8::Local::<v8::ModuleRequest>::try_from(
module_requests.get(tc_scope, i).unwrap(),
)
.unwrap();
let import_specifier = module_request
.get_specifier()
.to_rust_string_lossy(tc_scope);
let import_assertions = module_request.get_import_assertions();
let assertions = parse_import_assertions(
tc_scope,
import_assertions,
ImportAssertionsKind::StaticImport,
);
// FIXME(bartomieju): there are no stack frames if exception
// is thrown here
validate_import_assertions(tc_scope, &assertions);
if tc_scope.has_caught() {
let exception = tc_scope.exception().unwrap();
let exception = v8::Global::new(tc_scope, exception);
return Err(ModuleError::Exception(exception));
}
let module_specifier =
match self.loader.resolve(&import_specifier, name, false) {
Ok(s) => s,
Err(e) => return Err(ModuleError::Other(e)),
};
let asserted_module_type =
get_asserted_module_type_from_assertions(&assertions);
let request = ModuleRequest {
specifier: module_specifier,
asserted_module_type,
};
requests.push(request);
}
if main {
let maybe_main_module = self.info.values().find(|module| module.main);
if let Some(main_module) = maybe_main_module {
return Err(ModuleError::Other(generic_error(
format!("Trying to create \"main\" module ({:?}), when one already exists ({:?})",
name,
main_module.name,
))));
}
}
let handle = v8::Global::<v8::Module>::new(tc_scope, module);
let id = self.create_module_info(
name,
ModuleType::JavaScript,
handle,
main,
requests,
);
Ok(id)
}
fn create_module_info(
&mut self,
name: &str,
module_type: ModuleType,
handle: v8::Global<v8::Module>,
main: bool,
requests: Vec<ModuleRequest>,
) -> ModuleId {
let id = self.next_module_id;
self.next_module_id += 1;
self.by_name.insert(
(name.to_string(), module_type.into()),
SymbolicModule::Mod(id),
);
self.handles_by_id.insert(id, handle.clone());
self.ids_by_handle.insert(handle, id);
self.info.insert(
id,
ModuleInfo {
id,
main,
name: name.to_string(),
requests,
module_type,
},
);
id
}
fn get_requested_modules(&self, id: ModuleId) -> Option<&Vec<ModuleRequest>> {
self.info.get(&id).map(|i| &i.requests)
}
fn is_registered(
&self,
specifier: &ModuleSpecifier,
asserted_module_type: AssertedModuleType,
) -> bool {
if let Some(id) = self.get_id(specifier.as_str(), asserted_module_type) {
let info = self.get_info_by_id(&id).unwrap();
return asserted_module_type == info.module_type.into();
}
false
}
fn alias(
&mut self,
name: &str,
asserted_module_type: AssertedModuleType,
target: &str,
) {
self.by_name.insert(
(name.to_string(), asserted_module_type),
SymbolicModule::Alias(target.to_string()),
);
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}
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#[cfg(test)]
fn is_alias(
&self,
name: &str,
asserted_module_type: AssertedModuleType,
) -> bool {
let cond = self.by_name.get(&(name.to_string(), asserted_module_type));
matches!(cond, Some(SymbolicModule::Alias(_)))
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}
pub(crate) fn get_handle(
&self,
id: ModuleId,
) -> Option<v8::Global<v8::Module>> {
self.handles_by_id.get(&id).cloned()
}
pub(crate) fn get_info(
&self,
global: &v8::Global<v8::Module>,
) -> Option<&ModuleInfo> {
if let Some(id) = self.ids_by_handle.get(global) {
return self.info.get(id);
}
None
}
pub(crate) fn get_info_by_id(&self, id: &ModuleId) -> Option<&ModuleInfo> {
self.info.get(id)
}
pub(crate) async fn load_main(
module_map_rc: Rc<RefCell<ModuleMap>>,
specifier: &str,
) -> Result<RecursiveModuleLoad, Error> {
let load = RecursiveModuleLoad::main(specifier, module_map_rc.clone());
load.prepare().await?;
Ok(load)
}
pub(crate) async fn load_side(
module_map_rc: Rc<RefCell<ModuleMap>>,
specifier: &str,
) -> Result<RecursiveModuleLoad, Error> {
let load = RecursiveModuleLoad::side(specifier, module_map_rc.clone());
load.prepare().await?;
Ok(load)
}
// Initiate loading of a module graph imported using `import()`.
pub(crate) fn load_dynamic_import(
module_map_rc: Rc<RefCell<ModuleMap>>,
specifier: &str,
referrer: &str,
asserted_module_type: AssertedModuleType,
resolver_handle: v8::Global<v8::PromiseResolver>,
) {
let load = RecursiveModuleLoad::dynamic_import(
specifier,
referrer,
asserted_module_type,
module_map_rc.clone(),
);
module_map_rc
.borrow_mut()
.dynamic_import_map
.insert(load.id, resolver_handle);
let resolve_result = module_map_rc
.borrow()
.loader
.resolve(specifier, referrer, false);
let fut = match resolve_result {
Ok(module_specifier) => {
if module_map_rc
.borrow()
.is_registered(&module_specifier, asserted_module_type)
{
async move { (load.id, Ok(load)) }.boxed_local()
} else {
async move { (load.id, load.prepare().await.map(|()| load)) }
.boxed_local()
}
}
Err(error) => async move { (load.id, Err(error)) }.boxed_local(),
};
module_map_rc
.borrow_mut()
.preparing_dynamic_imports
.push(fut);
}
pub(crate) fn has_pending_dynamic_imports(&self) -> bool {
!(self.preparing_dynamic_imports.is_empty()
&& self.pending_dynamic_imports.is_empty())
}
/// Called by `module_resolve_callback` during module instantiation.
pub(crate) fn resolve_callback<'s>(
&self,
scope: &mut v8::HandleScope<'s>,
specifier: &str,
referrer: &str,
import_assertions: HashMap<String, String>,
) -> Option<v8::Local<'s, v8::Module>> {
let resolved_specifier = self
.loader
.resolve(specifier, referrer, false)
.expect("Module should have been already resolved");
let module_type =
get_asserted_module_type_from_assertions(&import_assertions);
if let Some(id) = self.get_id(resolved_specifier.as_str(), module_type) {
if let Some(handle) = self.get_handle(id) {
return Some(v8::Local::new(scope, handle));
}
}
None
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::Extension;
use crate::JsRuntime;
use crate::RuntimeOptions;
use deno_ops::op;
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use futures::future::FutureExt;
use parking_lot::Mutex;
use std::fmt;
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use std::future::Future;
use std::io;
use std::path::PathBuf;
use std::sync::atomic::{AtomicUsize, Ordering};
use std::sync::Arc;
// deno_ops macros generate code assuming deno_core in scope.
mod deno_core {
pub use crate::*;
}
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// TODO(ry) Sadly FuturesUnordered requires the current task to be set. So
// even though we are only using poll() in these tests and not Tokio, we must
// nevertheless run it in the tokio executor. Ideally run_in_task can be
// removed in the future.
use crate::runtime::tests::run_in_task;
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#[derive(Default)]
struct MockLoader {
pub loads: Arc<Mutex<Vec<String>>>,
}
impl MockLoader {
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fn new() -> Rc<Self> {
Default::default()
}
}
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fn mock_source_code(url: &str) -> Option<(&'static str, &'static str)> {
const A_SRC: &str = r#"
import { b } from "/b.js";
import { c } from "/c.js";
if (b() != 'b') throw Error();
if (c() != 'c') throw Error();
if (!import.meta.main) throw Error();
if (import.meta.url != 'file:///a.js') throw Error();
"#;
const B_SRC: &str = r#"
import { c } from "/c.js";
if (c() != 'c') throw Error();
export function b() { return 'b'; }
if (import.meta.main) throw Error();
if (import.meta.url != 'file:///b.js') throw Error();
"#;
const C_SRC: &str = r#"
import { d } from "/d.js";
export function c() { return 'c'; }
if (d() != 'd') throw Error();
if (import.meta.main) throw Error();
if (import.meta.url != 'file:///c.js') throw Error();
"#;
const D_SRC: &str = r#"
export function d() { return 'd'; }
if (import.meta.main) throw Error();
if (import.meta.url != 'file:///d.js') throw Error();
"#;
const CIRCULAR1_SRC: &str = r#"
import "/circular2.js";
Deno.core.print("circular1");
"#;
const CIRCULAR2_SRC: &str = r#"
import "/circular3.js";
Deno.core.print("circular2");
"#;
const CIRCULAR3_SRC: &str = r#"
import "/circular1.js";
import "/circular2.js";
Deno.core.print("circular3");
"#;
const REDIRECT1_SRC: &str = r#"
import "./redirect2.js";
Deno.core.print("redirect1");
"#;
const REDIRECT2_SRC: &str = r#"
import "./redirect3.js";
Deno.core.print("redirect2");
"#;
const REDIRECT3_SRC: &str = r#"Deno.core.print("redirect3");"#;
const MAIN_SRC: &str = r#"
// never_ready.js never loads.
import "/never_ready.js";
// slow.js resolves after one tick.
import "/slow.js";
"#;
const SLOW_SRC: &str = r#"
// Circular import of never_ready.js
// Does this trigger two ModuleLoader calls? It shouldn't.
import "/never_ready.js";
import "/a.js";
"#;
const BAD_IMPORT_SRC: &str = r#"import "foo";"#;
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// (code, real_module_name)
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let spec: Vec<&str> = url.split("file://").collect();
match spec[1] {
"/a.js" => Some((A_SRC, "file:///a.js")),
"/b.js" => Some((B_SRC, "file:///b.js")),
"/c.js" => Some((C_SRC, "file:///c.js")),
"/d.js" => Some((D_SRC, "file:///d.js")),
"/circular1.js" => Some((CIRCULAR1_SRC, "file:///circular1.js")),
"/circular2.js" => Some((CIRCULAR2_SRC, "file:///circular2.js")),
"/circular3.js" => Some((CIRCULAR3_SRC, "file:///circular3.js")),
"/redirect1.js" => Some((REDIRECT1_SRC, "file:///redirect1.js")),
// pretend redirect - real module name is different than one requested
"/redirect2.js" => Some((REDIRECT2_SRC, "file:///dir/redirect2.js")),
"/dir/redirect3.js" => Some((REDIRECT3_SRC, "file:///redirect3.js")),
"/slow.js" => Some((SLOW_SRC, "file:///slow.js")),
"/never_ready.js" => {
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Some(("should never be Ready", "file:///never_ready.js"))
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}
"/main.js" => Some((MAIN_SRC, "file:///main.js")),
"/bad_import.js" => Some((BAD_IMPORT_SRC, "file:///bad_import.js")),
// deliberately empty code.
"/main_with_code.js" => Some(("", "file:///main_with_code.js")),
_ => None,
}
}
#[derive(Debug, PartialEq)]
enum MockError {
ResolveErr,
LoadErr,
}
impl fmt::Display for MockError {
fn fmt(&self, _f: &mut fmt::Formatter) -> fmt::Result {
unimplemented!()
}
}
impl std::error::Error for MockError {
fn cause(&self) -> Option<&dyn std::error::Error> {
unimplemented!()
}
}
struct DelayedSourceCodeFuture {
url: String,
counter: u32,
}
impl Future for DelayedSourceCodeFuture {
type Output = Result<ModuleSource, Error>;
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fn poll(self: Pin<&mut Self>, cx: &mut Context) -> Poll<Self::Output> {
let inner = self.get_mut();
inner.counter += 1;
if inner.url == "file:///never_ready.js" {
return Poll::Pending;
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}
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if inner.url == "file:///slow.js" && inner.counter < 2 {
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// TODO(ry) Hopefully in the future we can remove current task
// notification. See comment above run_in_task.
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cx.waker().wake_by_ref();
return Poll::Pending;
}
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match mock_source_code(&inner.url) {
Some(src) => Poll::Ready(Ok(ModuleSource {
code: src.0.as_bytes().to_vec().into_boxed_slice(),
module_type: ModuleType::JavaScript,
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module_url_specified: inner.url.clone(),
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module_url_found: src.1.to_owned(),
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})),
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None => Poll::Ready(Err(MockError::LoadErr.into())),
}
}
}
impl ModuleLoader for MockLoader {
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fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_root: bool,
) -> Result<ModuleSpecifier, Error> {
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let referrer = if referrer == "." {
"file:///"
} else {
referrer
};
let output_specifier = match resolve_import(specifier, referrer) {
Ok(specifier) => specifier,
Err(..) => return Err(MockError::ResolveErr.into()),
};
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if mock_source_code(&output_specifier.to_string()).is_some() {
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Ok(output_specifier)
} else {
Err(MockError::ResolveErr.into())
}
}
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fn load(
&self,
module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
let mut loads = self.loads.lock();
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loads.push(module_specifier.to_string());
let url = module_specifier.to_string();
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DelayedSourceCodeFuture { url, counter: 0 }.boxed()
}
}
#[test]
fn test_recursive_load() {
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
let spec = resolve_url("file:///a.js").unwrap();
let a_id_fut = runtime.load_main_module(&spec, None);
let a_id = futures::executor::block_on(a_id_fut).unwrap();
let _ = runtime.mod_evaluate(a_id);
futures::executor::block_on(runtime.run_event_loop(false)).unwrap();
let l = loads.lock();
assert_eq!(
l.to_vec(),
vec![
"file:///a.js",
"file:///b.js",
"file:///c.js",
"file:///d.js"
]
);
let module_map_rc = JsRuntime::module_map(runtime.v8_isolate());
let modules = module_map_rc.borrow();
assert_eq!(
modules.get_id("file:///a.js", AssertedModuleType::JavaScriptOrWasm),
Some(a_id)
);
let b_id = modules
.get_id("file:///b.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
let c_id = modules
.get_id("file:///c.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
let d_id = modules
.get_id("file:///d.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
assert_eq!(
modules.get_requested_modules(a_id),
Some(&vec![
ModuleRequest {
specifier: resolve_url("file:///b.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
},
ModuleRequest {
specifier: resolve_url("file:///c.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
},
])
);
assert_eq!(
modules.get_requested_modules(b_id),
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///c.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
},])
);
assert_eq!(
modules.get_requested_modules(c_id),
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///d.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
},])
);
assert_eq!(modules.get_requested_modules(d_id), Some(&vec![]));
}
#[test]
fn test_mods() {
#[derive(Default)]
struct ModsLoader {
pub count: Arc<AtomicUsize>,
}
impl ModuleLoader for ModsLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
self.count.fetch_add(1, Ordering::Relaxed);
assert_eq!(specifier, "./b.js");
assert_eq!(referrer, "file:///a.js");
let s = resolve_import(specifier, referrer).unwrap();
Ok(s)
}
fn load(
&self,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
unreachable!()
}
}
let loader = Rc::new(ModsLoader::default());
let resolve_count = loader.count.clone();
static DISPATCH_COUNT: AtomicUsize = AtomicUsize::new(0);
#[op]
fn op_test(control: u8) -> u8 {
DISPATCH_COUNT.fetch_add(1, Ordering::Relaxed);
assert_eq!(control, 42);
43
}
let ext = Extension::builder().ops(vec![op_test::decl()]).build();
let mut runtime = JsRuntime::new(RuntimeOptions {
extensions: vec![ext],
module_loader: Some(loader),
..Default::default()
});
runtime
.execute_script(
"setup.js",
r#"
function assert(cond) {
if (!cond) {
throw Error("assert");
}
}
"#,
)
.unwrap();
assert_eq!(DISPATCH_COUNT.load(Ordering::Relaxed), 0);
let module_map_rc = JsRuntime::module_map(runtime.v8_isolate());
let (mod_a, mod_b) = {
let scope = &mut runtime.handle_scope();
let mut module_map = module_map_rc.borrow_mut();
let specifier_a = "file:///a.js".to_string();
let mod_a = module_map
.new_es_module(
scope,
true,
&specifier_a,
br#"
import { b } from './b.js'
if (b() != 'b') throw Error();
let control = 42;
Deno.core.opSync("op_test", control);
"#,
)
.unwrap();
assert_eq!(DISPATCH_COUNT.load(Ordering::Relaxed), 0);
let imports = module_map.get_requested_modules(mod_a);
assert_eq!(
imports,
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///b.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
},])
);
let mod_b = module_map
.new_es_module(
scope,
false,
"file:///b.js",
b"export function b() { return 'b' }",
)
.unwrap();
let imports = module_map.get_requested_modules(mod_b).unwrap();
assert_eq!(imports.len(), 0);
(mod_a, mod_b)
};
runtime.instantiate_module(mod_b).unwrap();
assert_eq!(DISPATCH_COUNT.load(Ordering::Relaxed), 0);
assert_eq!(resolve_count.load(Ordering::SeqCst), 1);
runtime.instantiate_module(mod_a).unwrap();
assert_eq!(DISPATCH_COUNT.load(Ordering::Relaxed), 0);
let _ = runtime.mod_evaluate(mod_a);
assert_eq!(DISPATCH_COUNT.load(Ordering::Relaxed), 1);
}
#[test]
fn test_json_module() {
#[derive(Default)]
struct ModsLoader {
pub count: Arc<AtomicUsize>,
}
impl ModuleLoader for ModsLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
self.count.fetch_add(1, Ordering::Relaxed);
assert_eq!(specifier, "./b.json");
assert_eq!(referrer, "file:///a.js");
let s = resolve_import(specifier, referrer).unwrap();
Ok(s)
}
fn load(
&self,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
unreachable!()
}
}
let loader = Rc::new(ModsLoader::default());
let resolve_count = loader.count.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
runtime
.execute_script(
"setup.js",
r#"
function assert(cond) {
if (!cond) {
throw Error("assert");
}
}
"#,
)
.unwrap();
let module_map_rc = JsRuntime::module_map(runtime.v8_isolate());
let (mod_a, mod_b) = {
let scope = &mut runtime.handle_scope();
let mut module_map = module_map_rc.borrow_mut();
let specifier_a = "file:///a.js".to_string();
let mod_a = module_map
.new_es_module(
scope,
true,
&specifier_a,
br#"
import jsonData from './b.json' assert {type: "json"};
assert(jsonData.a == "b");
assert(jsonData.c.d == 10);
"#,
)
.unwrap();
let imports = module_map.get_requested_modules(mod_a);
assert_eq!(
imports,
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///b.json").unwrap(),
asserted_module_type: AssertedModuleType::Json,
},])
);
let mod_b = module_map
.new_json_module(
scope,
"file:///b.json",
b"{\"a\": \"b\", \"c\": {\"d\": 10}}",
)
.unwrap();
let imports = module_map.get_requested_modules(mod_b).unwrap();
assert_eq!(imports.len(), 0);
(mod_a, mod_b)
};
runtime.instantiate_module(mod_b).unwrap();
assert_eq!(resolve_count.load(Ordering::SeqCst), 1);
runtime.instantiate_module(mod_a).unwrap();
let receiver = runtime.mod_evaluate(mod_a);
futures::executor::block_on(runtime.run_event_loop(false)).unwrap();
futures::executor::block_on(receiver).unwrap().unwrap();
}
#[test]
fn dyn_import_err() {
#[derive(Clone, Default)]
struct DynImportErrLoader {
pub count: Arc<AtomicUsize>,
}
impl ModuleLoader for DynImportErrLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
self.count.fetch_add(1, Ordering::Relaxed);
assert_eq!(specifier, "/foo.js");
assert_eq!(referrer, "file:///dyn_import2.js");
let s = resolve_import(specifier, referrer).unwrap();
Ok(s)
}
fn load(
&self,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
async { Err(io::Error::from(io::ErrorKind::NotFound).into()) }.boxed()
}
}
// Test an erroneous dynamic import where the specified module isn't found.
run_in_task(|cx| {
let loader = Rc::new(DynImportErrLoader::default());
let count = loader.count.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
runtime
.execute_script(
"file:///dyn_import2.js",
r#"
(async () => {
await import("/foo.js");
})();
"#,
)
.unwrap();
// We should get an error here.
let result = runtime.poll_event_loop(cx, false);
if let Poll::Ready(Ok(_)) = result {
unreachable!();
}
assert_eq!(count.load(Ordering::Relaxed), 4);
})
}
#[derive(Clone, Default)]
struct DynImportOkLoader {
pub prepare_load_count: Arc<AtomicUsize>,
pub resolve_count: Arc<AtomicUsize>,
pub load_count: Arc<AtomicUsize>,
}
impl ModuleLoader for DynImportOkLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
let c = self.resolve_count.fetch_add(1, Ordering::Relaxed);
assert!(c < 7);
assert_eq!(specifier, "./b.js");
assert_eq!(referrer, "file:///dyn_import3.js");
let s = resolve_import(specifier, referrer).unwrap();
Ok(s)
}
fn load(
&self,
specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
self.load_count.fetch_add(1, Ordering::Relaxed);
let info = ModuleSource {
module_url_specified: specifier.to_string(),
module_url_found: specifier.to_string(),
code: b"export function b() { return 'b' }"
.to_vec()
.into_boxed_slice(),
module_type: ModuleType::JavaScript,
};
async move { Ok(info) }.boxed()
}
fn prepare_load(
&self,
_op_state: Rc<RefCell<OpState>>,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<String>,
_is_dyn_import: bool,
) -> Pin<Box<dyn Future<Output = Result<(), Error>>>> {
self.prepare_load_count.fetch_add(1, Ordering::Relaxed);
async { Ok(()) }.boxed_local()
}
}
#[test]
fn dyn_import_ok() {
run_in_task(|cx| {
let loader = Rc::new(DynImportOkLoader::default());
let prepare_load_count = loader.prepare_load_count.clone();
let resolve_count = loader.resolve_count.clone();
let load_count = loader.load_count.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
// Dynamically import mod_b
runtime
.execute_script(
"file:///dyn_import3.js",
r#"
(async () => {
let mod = await import("./b.js");
if (mod.b() !== 'b') {
throw Error("bad1");
}
// And again!
mod = await import("./b.js");
if (mod.b() !== 'b') {
throw Error("bad2");
}
})();
"#,
)
.unwrap();
// First poll runs `prepare_load` hook.
assert!(matches!(runtime.poll_event_loop(cx, false), Poll::Pending));
assert_eq!(prepare_load_count.load(Ordering::Relaxed), 1);
// Second poll actually loads modules into the isolate.
assert!(matches!(
runtime.poll_event_loop(cx, false),
Poll::Ready(Ok(_))
));
assert_eq!(resolve_count.load(Ordering::Relaxed), 7);
assert_eq!(load_count.load(Ordering::Relaxed), 1);
assert!(matches!(
runtime.poll_event_loop(cx, false),
Poll::Ready(Ok(_))
));
assert_eq!(resolve_count.load(Ordering::Relaxed), 7);
assert_eq!(load_count.load(Ordering::Relaxed), 1);
})
}
#[test]
fn dyn_import_borrow_mut_error() {
// https://github.com/denoland/deno/issues/6054
run_in_task(|cx| {
let loader = Rc::new(DynImportOkLoader::default());
let prepare_load_count = loader.prepare_load_count.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
runtime
.execute_script(
"file:///dyn_import3.js",
r#"
(async () => {
let mod = await import("./b.js");
if (mod.b() !== 'b') {
throw Error("bad");
}
})();
"#,
)
.unwrap();
// First poll runs `prepare_load` hook.
let _ = runtime.poll_event_loop(cx, false);
assert_eq!(prepare_load_count.load(Ordering::Relaxed), 1);
// Second poll triggers error
let _ = runtime.poll_event_loop(cx, false);
})
}
// Regression test for https://github.com/denoland/deno/issues/3736.
#[test]
fn dyn_concurrent_circular_import() {
#[derive(Clone, Default)]
struct DynImportCircularLoader {
pub resolve_count: Arc<AtomicUsize>,
pub load_count: Arc<AtomicUsize>,
}
impl ModuleLoader for DynImportCircularLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
self.resolve_count.fetch_add(1, Ordering::Relaxed);
let s = resolve_import(specifier, referrer).unwrap();
Ok(s)
}
fn load(
&self,
specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
self.load_count.fetch_add(1, Ordering::Relaxed);
let filename = PathBuf::from(specifier.to_string())
.file_name()
.unwrap()
.to_string_lossy()
.to_string();
let code = match filename.as_str() {
"a.js" => "import './b.js';",
"b.js" => "import './c.js';\nimport './a.js';",
"c.js" => "import './d.js';",
"d.js" => "// pass",
_ => unreachable!(),
};
let info = ModuleSource {
module_url_specified: specifier.to_string(),
module_url_found: specifier.to_string(),
code: code.as_bytes().to_vec().into_boxed_slice(),
module_type: ModuleType::JavaScript,
};
async move { Ok(info) }.boxed()
}
}
let loader = Rc::new(DynImportCircularLoader::default());
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
runtime
.execute_script(
"file:///entry.js",
"import('./b.js');\nimport('./a.js');",
)
.unwrap();
let result = futures::executor::block_on(runtime.run_event_loop(false));
assert!(result.is_ok());
}
#[test]
fn test_circular_load() {
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
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let fut = async move {
let spec = resolve_url("file:///circular1.js").unwrap();
let result = runtime.load_main_module(&spec, None).await;
assert!(result.is_ok());
let circular1_id = result.unwrap();
let _ = runtime.mod_evaluate(circular1_id);
runtime.run_event_loop(false).await.unwrap();
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let l = loads.lock();
assert_eq!(
l.to_vec(),
vec![
"file:///circular1.js",
"file:///circular2.js",
"file:///circular3.js"
]
);
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let module_map_rc = JsRuntime::module_map(runtime.v8_isolate());
let modules = module_map_rc.borrow();
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assert_eq!(
modules
.get_id("file:///circular1.js", AssertedModuleType::JavaScriptOrWasm),
Some(circular1_id)
);
let circular2_id = modules
.get_id("file:///circular2.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
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assert_eq!(
modules.get_requested_modules(circular1_id),
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///circular2.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
}])
);
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assert_eq!(
modules.get_requested_modules(circular2_id),
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///circular3.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
}])
);
assert!(modules
.get_id("file:///circular3.js", AssertedModuleType::JavaScriptOrWasm)
.is_some());
let circular3_id = modules
.get_id("file:///circular3.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
assert_eq!(
modules.get_requested_modules(circular3_id),
Some(&vec![
ModuleRequest {
specifier: resolve_url("file:///circular1.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
},
ModuleRequest {
specifier: resolve_url("file:///circular2.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
}
])
);
}
.boxed_local();
futures::executor::block_on(fut);
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}
#[test]
fn test_redirect_load() {
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
let fut = async move {
let spec = resolve_url("file:///redirect1.js").unwrap();
let result = runtime.load_main_module(&spec, None).await;
assert!(result.is_ok());
let redirect1_id = result.unwrap();
let _ = runtime.mod_evaluate(redirect1_id);
runtime.run_event_loop(false).await.unwrap();
let l = loads.lock();
assert_eq!(
l.to_vec(),
vec![
"file:///redirect1.js",
"file:///redirect2.js",
"file:///dir/redirect3.js"
]
);
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let module_map_rc = JsRuntime::module_map(runtime.v8_isolate());
let modules = module_map_rc.borrow();
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assert_eq!(
modules
.get_id("file:///redirect1.js", AssertedModuleType::JavaScriptOrWasm),
Some(redirect1_id)
);
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let redirect2_id = modules
.get_id(
"file:///dir/redirect2.js",
AssertedModuleType::JavaScriptOrWasm,
)
.unwrap();
assert!(modules.is_alias(
"file:///redirect2.js",
AssertedModuleType::JavaScriptOrWasm
));
assert!(!modules.is_alias(
"file:///dir/redirect2.js",
AssertedModuleType::JavaScriptOrWasm
));
assert_eq!(
modules
.get_id("file:///redirect2.js", AssertedModuleType::JavaScriptOrWasm),
Some(redirect2_id)
);
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let redirect3_id = modules
.get_id("file:///redirect3.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
assert!(modules.is_alias(
"file:///dir/redirect3.js",
AssertedModuleType::JavaScriptOrWasm
));
assert!(!modules.is_alias(
"file:///redirect3.js",
AssertedModuleType::JavaScriptOrWasm
));
assert_eq!(
modules.get_id(
"file:///dir/redirect3.js",
AssertedModuleType::JavaScriptOrWasm
),
Some(redirect3_id)
);
}
.boxed_local();
futures::executor::block_on(fut);
}
#[test]
fn slow_never_ready_modules() {
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run_in_task(|cx| {
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let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
let spec = resolve_url("file:///main.js").unwrap();
let mut recursive_load =
runtime.load_main_module(&spec, None).boxed_local();
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let result = recursive_load.poll_unpin(cx);
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assert!(result.is_pending());
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// TODO(ry) Arguably the first time we poll only the following modules
// should be loaded:
// "file:///main.js",
// "file:///never_ready.js",
// "file:///slow.js"
// But due to current task notification in DelayedSourceCodeFuture they
// all get loaded in a single poll. Also see the comment above
// run_in_task.
for _ in 0..10 {
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let result = recursive_load.poll_unpin(cx);
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assert!(result.is_pending());
let l = loads.lock();
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assert_eq!(
l.to_vec(),
vec![
"file:///main.js",
"file:///never_ready.js",
"file:///slow.js",
"file:///a.js",
"file:///b.js",
"file:///c.js",
"file:///d.js"
]
);
}
})
}
#[test]
fn loader_disappears_after_error() {
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run_in_task(|cx| {
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let loader = MockLoader::new();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
let spec = resolve_url("file:///bad_import.js").unwrap();
let mut load_fut = runtime.load_main_module(&spec, None).boxed_local();
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let result = load_fut.poll_unpin(cx);
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if let Poll::Ready(Err(err)) = result {
assert_eq!(
err.downcast_ref::<MockError>().unwrap(),
&MockError::ResolveErr
);
} else {
unreachable!();
}
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})
}
#[test]
fn recursive_load_main_with_code() {
const MAIN_WITH_CODE_SRC: &str = r#"
import { b } from "/b.js";
import { c } from "/c.js";
if (b() != 'b') throw Error();
if (c() != 'c') throw Error();
if (!import.meta.main) throw Error();
if (import.meta.url != 'file:///main_with_code.js') throw Error();
"#;
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
// In default resolution code should be empty.
// Instead we explicitly pass in our own code.
// The behavior should be very similar to /a.js.
let spec = resolve_url("file:///main_with_code.js").unwrap();
let main_id_fut = runtime
.load_main_module(&spec, Some(MAIN_WITH_CODE_SRC.to_owned()))
.boxed_local();
let main_id = futures::executor::block_on(main_id_fut).unwrap();
let _ = runtime.mod_evaluate(main_id);
futures::executor::block_on(runtime.run_event_loop(false)).unwrap();
let l = loads.lock();
assert_eq!(
l.to_vec(),
vec!["file:///b.js", "file:///c.js", "file:///d.js"]
);
let module_map_rc = JsRuntime::module_map(runtime.v8_isolate());
let modules = module_map_rc.borrow();
assert_eq!(
modules.get_id(
"file:///main_with_code.js",
AssertedModuleType::JavaScriptOrWasm
),
Some(main_id)
);
let b_id = modules
.get_id("file:///b.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
let c_id = modules
.get_id("file:///c.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
let d_id = modules
.get_id("file:///d.js", AssertedModuleType::JavaScriptOrWasm)
.unwrap();
assert_eq!(
modules.get_requested_modules(main_id),
Some(&vec![
ModuleRequest {
specifier: resolve_url("file:///b.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
},
ModuleRequest {
specifier: resolve_url("file:///c.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
}
])
);
assert_eq!(
modules.get_requested_modules(b_id),
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///c.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
}])
);
assert_eq!(
modules.get_requested_modules(c_id),
Some(&vec![ModuleRequest {
specifier: resolve_url("file:///d.js").unwrap(),
asserted_module_type: AssertedModuleType::JavaScriptOrWasm,
}])
);
assert_eq!(modules.get_requested_modules(d_id), Some(&vec![]));
}
#[test]
fn main_and_side_module() {
struct ModsLoader {}
let main_specifier = resolve_url("file:///main_module.js").unwrap();
let side_specifier = resolve_url("file:///side_module.js").unwrap();
impl ModuleLoader for ModsLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
_is_main: bool,
) -> Result<ModuleSpecifier, Error> {
let s = resolve_import(specifier, referrer).unwrap();
Ok(s)
}
fn load(
&self,
module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
_is_dyn_import: bool,
) -> Pin<Box<ModuleSourceFuture>> {
let module_source = match module_specifier.as_str() {
"file:///main_module.js" => Ok(ModuleSource {
module_url_specified: "file:///main_module.js".to_string(),
module_url_found: "file:///main_module.js".to_string(),
code: b"if (!import.meta.main) throw Error();"
.to_vec()
.into_boxed_slice(),
module_type: ModuleType::JavaScript,
}),
"file:///side_module.js" => Ok(ModuleSource {
module_url_specified: "file:///side_module.js".to_string(),
module_url_found: "file:///side_module.js".to_string(),
code: b"if (import.meta.main) throw Error();"
.to_vec()
.into_boxed_slice(),
module_type: ModuleType::JavaScript,
}),
_ => unreachable!(),
};
async move { module_source }.boxed()
}
}
let loader = Rc::new(ModsLoader {});
let mut runtime = JsRuntime::new(RuntimeOptions {
module_loader: Some(loader),
..Default::default()
});
let main_id_fut = runtime
.load_main_module(&main_specifier, None)
.boxed_local();
let main_id = futures::executor::block_on(main_id_fut).unwrap();
let _ = runtime.mod_evaluate(main_id);
futures::executor::block_on(runtime.run_event_loop(false)).unwrap();
// Try to add another main module - it should error.
let side_id_fut = runtime
.load_main_module(&side_specifier, None)
.boxed_local();
futures::executor::block_on(side_id_fut).unwrap_err();
// And now try to load it as a side module
let side_id_fut = runtime
.load_side_module(&side_specifier, None)
.boxed_local();
let side_id = futures::executor::block_on(side_id_fut).unwrap();
let _ = runtime.mod_evaluate(side_id);
futures::executor::block_on(runtime.run_event_loop(false)).unwrap();
}
}