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denoland-deno/core/modules.rs

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
use rusty_v8 as v8;
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use crate::module_specifier::ModuleSpecifier;
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use crate::ErrBox;
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use futures::future::FutureExt;
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use futures::stream::FuturesUnordered;
use futures::stream::Stream;
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use futures::stream::TryStreamExt;
use std::collections::HashMap;
use std::collections::HashSet;
use std::fmt;
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use std::future::Future;
use std::pin::Pin;
use std::rc::Rc;
use std::sync::atomic::AtomicI32;
use std::sync::atomic::Ordering;
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use std::task::Context;
use std::task::Poll;
lazy_static! {
pub static ref NEXT_LOAD_ID: AtomicI32 = AtomicI32::new(0);
}
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pub type ModuleId = i32;
pub type ModuleLoadId = i32;
/// 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, Eq, PartialEq)]
pub struct ModuleSource {
pub code: String,
pub module_url_specified: String,
pub module_url_found: String,
}
pub type PrepareLoadFuture =
dyn Future<Output = (ModuleLoadId, Result<RecursiveModuleLoad, ErrBox>)>;
pub type ModuleSourceFuture = dyn Future<Output = Result<ModuleSource, ErrBox>>;
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,
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is_main: bool,
) -> Result<ModuleSpecifier, ErrBox>;
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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 Isolate.
///
/// It's not required to implement this method.
fn prepare_load(
&self,
_load_id: ModuleLoadId,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<String>,
_is_dyn_import: bool,
) -> Pin<Box<dyn Future<Output = Result<(), ErrBox>>>> {
async { Ok(()) }.boxed_local()
}
}
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#[derive(Debug, Eq, PartialEq)]
enum Kind {
Main,
DynamicImport,
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}
#[derive(Debug, Eq, PartialEq)]
pub enum LoadState {
ResolveMain(String, Option<String>),
ResolveImport(String, String),
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LoadingRoot,
LoadingImports,
Done,
}
/// This future is used to implement parallel async module loading without
/// that is consumed by the isolate.
pub struct RecursiveModuleLoad {
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kind: Kind,
// TODO(bartlomieju): in future this value should
// be randomized
pub id: ModuleLoadId,
pub root_module_id: Option<ModuleId>,
pub state: LoadState,
pub loader: Rc<dyn ModuleLoader>,
pub pending: FuturesUnordered<Pin<Box<ModuleSourceFuture>>>,
pub is_pending: HashSet<ModuleSpecifier>,
}
impl RecursiveModuleLoad {
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/// Starts a new parallel load of the given URL of the main module.
pub fn main(
specifier: &str,
code: Option<String>,
loader: Rc<dyn ModuleLoader>,
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) -> Self {
let kind = Kind::Main;
let state = LoadState::ResolveMain(specifier.to_owned(), code);
Self::new(kind, state, loader)
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}
pub fn dynamic_import(
specifier: &str,
referrer: &str,
loader: Rc<dyn ModuleLoader>,
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) -> Self {
let kind = Kind::DynamicImport;
let state =
LoadState::ResolveImport(specifier.to_owned(), referrer.to_owned());
Self::new(kind, state, loader)
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}
pub fn is_dynamic_import(&self) -> bool {
self.kind != Kind::Main
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}
fn new(kind: Kind, state: LoadState, loader: Rc<dyn ModuleLoader>) -> Self {
Self {
id: NEXT_LOAD_ID.fetch_add(1, Ordering::SeqCst),
root_module_id: None,
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kind,
state,
loader,
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pending: FuturesUnordered::new(),
is_pending: HashSet::new(),
}
}
pub async fn prepare(self) -> (ModuleLoadId, Result<Self, ErrBox>) {
let (module_specifier, maybe_referrer) = match self.state {
LoadState::ResolveMain(ref specifier, _) => {
let spec = match self.loader.resolve(specifier, ".", true) {
Ok(spec) => spec,
Err(e) => return (self.id, Err(e)),
};
(spec, None)
}
LoadState::ResolveImport(ref specifier, ref referrer) => {
let spec = match self.loader.resolve(specifier, referrer, false) {
Ok(spec) => spec,
Err(e) => return (self.id, Err(e)),
};
(spec, Some(referrer.to_string()))
}
_ => unreachable!(),
};
let prepare_result = self
.loader
.prepare_load(
self.id,
&module_specifier,
maybe_referrer,
self.is_dynamic_import(),
)
.await;
match prepare_result {
Ok(()) => (self.id, Ok(self)),
Err(e) => (self.id, Err(e)),
}
}
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fn add_root(&mut self) -> Result<(), ErrBox> {
let module_specifier = match self.state {
LoadState::ResolveMain(ref specifier, _) => {
self.loader.resolve(specifier, ".", true)?
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}
LoadState::ResolveImport(ref specifier, ref referrer) => {
self.loader.resolve(specifier, referrer, false)?
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}
_ => unreachable!(),
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};
let load_fut = match &self.state {
LoadState::ResolveMain(_, Some(code)) => {
futures::future::ok(ModuleSource {
code: code.to_owned(),
module_url_specified: module_specifier.to_string(),
module_url_found: module_specifier.to_string(),
})
.boxed()
}
_ => self
.loader
.load(&module_specifier, None, self.is_dynamic_import())
.boxed_local(),
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};
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self.pending.push(load_fut);
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self.state = LoadState::LoadingRoot;
Ok(())
}
pub fn add_import(
&mut self,
specifier: ModuleSpecifier,
referrer: ModuleSpecifier,
) {
if !self.is_pending.contains(&specifier) {
let fut =
self
.loader
.load(&specifier, Some(referrer), self.is_dynamic_import());
self.pending.push(fut.boxed_local());
self.is_pending.insert(specifier);
}
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}
}
impl Stream for RecursiveModuleLoad {
type Item = Result<ModuleSource, ErrBox>;
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fn poll_next(
self: Pin<&mut Self>,
cx: &mut Context,
) -> Poll<Option<Self::Item>> {
let inner = self.get_mut();
match inner.state {
LoadState::ResolveMain(..) | LoadState::ResolveImport(..) => {
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if let Err(e) = inner.add_root() {
return Poll::Ready(Some(Err(e)));
}
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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}
}
}
pub struct ModuleInfo {
pub main: bool,
pub name: String,
pub handle: v8::Global<v8::Module>,
pub import_specifiers: Vec<ModuleSpecifier>,
}
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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(Default)]
/// Alias-able module name map
struct ModuleNameMap {
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inner: HashMap<String, SymbolicModule>,
}
impl ModuleNameMap {
pub fn new() -> Self {
ModuleNameMap {
inner: HashMap::new(),
}
}
/// Get the id of a module.
/// If this module is internally represented as an alias,
/// follow the alias chain to get the final module id.
pub fn get(&self, name: &str) -> Option<ModuleId> {
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let mut mod_name = name;
loop {
let cond = self.inner.get(mod_name);
match cond {
Some(SymbolicModule::Alias(target)) => {
mod_name = target;
}
Some(SymbolicModule::Mod(mod_id)) => {
return Some(*mod_id);
}
_ => {
return None;
}
}
}
}
/// Insert a name assocated module id.
pub fn insert(&mut self, name: String, id: ModuleId) {
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self.inner.insert(name, SymbolicModule::Mod(id));
}
/// Create an alias to another module.
pub fn alias(&mut self, name: String, target: String) {
self.inner.insert(name, SymbolicModule::Alias(target));
}
/// Check if a name is an alias to another module.
pub fn is_alias(&self, name: &str) -> bool {
let cond = self.inner.get(name);
matches!(cond, Some(SymbolicModule::Alias(_)))
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}
}
/// A collection of JS modules.
#[derive(Default)]
pub struct Modules {
pub(crate) info: HashMap<ModuleId, ModuleInfo>,
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by_name: ModuleNameMap,
}
impl Modules {
pub fn new() -> Modules {
Self {
info: HashMap::new(),
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by_name: ModuleNameMap::new(),
}
}
pub fn get_id(&self, name: &str) -> Option<ModuleId> {
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self.by_name.get(name)
}
pub fn get_children(&self, id: ModuleId) -> Option<&Vec<ModuleSpecifier>> {
self.info.get(&id).map(|i| &i.import_specifiers)
}
pub fn get_name(&self, id: ModuleId) -> Option<&String> {
self.info.get(&id).map(|i| &i.name)
}
pub fn is_registered(&self, specifier: &ModuleSpecifier) -> bool {
self.by_name.get(&specifier.to_string()).is_some()
}
pub fn register(
&mut self,
id: ModuleId,
name: &str,
main: bool,
handle: v8::Global<v8::Module>,
import_specifiers: Vec<ModuleSpecifier>,
) {
let name = String::from(name);
debug!("register_complete {}", name);
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self.by_name.insert(name.clone(), id);
self.info.insert(
id,
ModuleInfo {
main,
name,
import_specifiers,
handle,
},
);
}
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pub fn alias(&mut self, name: &str, target: &str) {
self.by_name.alias(name.to_owned(), target.to_owned());
}
pub fn is_alias(&self, name: &str) -> bool {
self.by_name.is_alias(name)
}
pub fn get_info(&self, id: ModuleId) -> Option<&ModuleInfo> {
if id == 0 {
return None;
}
self.info.get(&id)
}
pub fn deps(&self, module_specifier: &ModuleSpecifier) -> Option<Deps> {
Deps::new(self, module_specifier)
}
}
/// This is a tree structure representing the dependencies of a given module.
/// Use Modules::deps to construct it. The 'deps' member is None if this module
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/// was already seen elsewhere in the tree.
#[derive(Debug, PartialEq)]
pub struct Deps {
pub name: String,
pub deps: Option<Vec<Deps>>,
prefix: String,
is_last: bool,
}
impl Deps {
fn new(
modules: &Modules,
module_specifier: &ModuleSpecifier,
) -> Option<Deps> {
let mut seen = HashSet::new();
Self::helper(&mut seen, "".to_string(), true, modules, module_specifier)
}
fn helper(
seen: &mut HashSet<String>,
prefix: String,
is_last: bool,
modules: &Modules,
module_specifier: &ModuleSpecifier,
) -> Option<Deps> {
let name = module_specifier.to_string();
if seen.contains(&name) {
Some(Deps {
name,
prefix,
deps: None,
is_last,
})
} else {
let mod_id = modules.get_id(&name)?;
let children = modules.get_children(mod_id).unwrap();
seen.insert(name.to_string());
let child_count = children.len();
let deps: Vec<Deps> = children
.iter()
.enumerate()
.map(|(index, dep_specifier)| {
let new_is_last = index == child_count - 1;
let mut new_prefix = prefix.clone();
new_prefix.push(if is_last { ' ' } else { '│' });
new_prefix.push(' ');
Self::helper(seen, new_prefix, new_is_last, modules, dep_specifier)
})
// If any of the children are missing, return None.
.collect::<Option<_>>()?;
Some(Deps {
name,
prefix,
deps: Some(deps),
is_last,
})
}
}
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pub fn to_json(&self) -> serde_json::Value {
let children;
if let Some(deps) = &self.deps {
children = deps.iter().map(|c| c.to_json()).collect();
} else {
children = Vec::new()
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}
serde_json::json!([&self.name, children])
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}
}
impl fmt::Display for Deps {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let mut has_children = false;
if let Some(ref deps) = self.deps {
has_children = !deps.is_empty();
}
write!(
f,
"{}{}─{} {}",
self.prefix,
if self.is_last { "" } else { "" },
if has_children { "" } else { "" },
self.name
)?;
if let Some(ref deps) = self.deps {
for d in deps {
write!(f, "\n{}", d)?;
}
}
Ok(())
}
}
#[macro_export]
macro_rules! crate_modules {
() => {
pub const DENO_CRATE_PATH: &'static str = env!("CARGO_MANIFEST_DIR");
};
}
#[macro_export]
macro_rules! include_crate_modules {
( $( $x:ident ),* ) => {
{
let mut temp: HashMap<String, String> = HashMap::new();
$(
temp.insert(stringify!($x).to_string(), $x::DENO_CRATE_PATH.to_string());
)*
temp
}
};
}
#[cfg(test)]
mod tests {
use super::*;
use crate::es_isolate::EsIsolate;
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use crate::js_check;
use crate::StartupData;
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use futures::future::FutureExt;
use std::error::Error;
use std::fmt;
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use std::future::Future;
use std::sync::Arc;
use std::sync::Mutex;
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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::core_isolate::tests::run_in_task;
struct MockLoader {
pub loads: Arc<Mutex<Vec<String>>>,
}
impl MockLoader {
fn new() -> Self {
Self {
loads: Arc::new(Mutex::new(Vec::new())),
}
}
}
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fn mock_source_code(url: &str) -> Option<(&'static str, &'static str)> {
// (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 Error for MockError {
fn cause(&self) -> Option<&dyn Error> {
unimplemented!()
}
}
struct DelayedSourceCodeFuture {
url: String,
counter: u32,
}
impl Future for DelayedSourceCodeFuture {
type Output = Result<ModuleSource, ErrBox>;
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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 {
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code: src.0.to_owned(),
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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, ErrBox> {
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let referrer = if referrer == "." {
"file:///"
} else {
referrer
};
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eprintln!(">> RESOLVING, S: {}, R: {}", specifier, referrer);
let output_specifier =
match ModuleSpecifier::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().unwrap();
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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()
}
}
const A_SRC: &str = r#"
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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();
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if (import.meta.url != 'file:///a.js') throw Error();
"#;
const B_SRC: &str = r#"
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import { c } from "/c.js";
if (c() != 'c') throw Error();
export function b() { return 'b'; }
if (import.meta.main) throw Error();
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if (import.meta.url != 'file:///b.js') throw Error();
"#;
const C_SRC: &str = r#"
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import { d } from "/d.js";
export function c() { return 'c'; }
if (d() != 'd') throw Error();
if (import.meta.main) throw Error();
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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();
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if (import.meta.url != 'file:///d.js') throw Error();
"#;
#[test]
fn test_recursive_load() {
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut isolate = EsIsolate::new(Rc::new(loader), StartupData::None, false);
let spec = ModuleSpecifier::resolve_url("file:///a.js").unwrap();
let a_id_fut = isolate.load_module(&spec, None);
let a_id = futures::executor::block_on(a_id_fut).expect("Failed to load");
js_check(isolate.mod_evaluate(a_id));
let l = loads.lock().unwrap();
assert_eq!(
l.to_vec(),
vec![
"file:///a.js",
"file:///b.js",
"file:///c.js",
"file:///d.js"
]
);
let state_rc = EsIsolate::state(&isolate);
let state = state_rc.borrow();
let modules = &state.modules;
assert_eq!(modules.get_id("file:///a.js"), Some(a_id));
let b_id = modules.get_id("file:///b.js").unwrap();
let c_id = modules.get_id("file:///c.js").unwrap();
let d_id = modules.get_id("file:///d.js").unwrap();
assert_eq!(
modules.get_children(a_id),
Some(&vec![
ModuleSpecifier::resolve_url("file:///b.js").unwrap(),
ModuleSpecifier::resolve_url("file:///c.js").unwrap()
])
);
assert_eq!(
modules.get_children(b_id),
Some(&vec![ModuleSpecifier::resolve_url("file:///c.js").unwrap()])
);
assert_eq!(
modules.get_children(c_id),
Some(&vec![ModuleSpecifier::resolve_url("file:///d.js").unwrap()])
);
assert_eq!(modules.get_children(d_id), Some(&vec![]));
}
const CIRCULAR1_SRC: &str = r#"
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import "/circular2.js";
Deno.core.print("circular1");
"#;
const CIRCULAR2_SRC: &str = r#"
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import "/circular3.js";
Deno.core.print("circular2");
"#;
const CIRCULAR3_SRC: &str = r#"
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import "/circular1.js";
import "/circular2.js";
Deno.core.print("circular3");
"#;
#[test]
fn test_circular_load() {
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut isolate = EsIsolate::new(Rc::new(loader), StartupData::None, false);
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let fut = async move {
let spec = ModuleSpecifier::resolve_url("file:///circular1.js").unwrap();
let result = isolate.load_module(&spec, None).await;
assert!(result.is_ok());
let circular1_id = result.unwrap();
js_check(isolate.mod_evaluate(circular1_id));
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let l = loads.lock().unwrap();
assert_eq!(
l.to_vec(),
vec![
"file:///circular1.js",
"file:///circular2.js",
"file:///circular3.js"
]
);
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let state_rc = EsIsolate::state(&isolate);
let state = state_rc.borrow();
let modules = &state.modules;
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assert_eq!(modules.get_id("file:///circular1.js"), Some(circular1_id));
let circular2_id = modules.get_id("file:///circular2.js").unwrap();
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assert_eq!(
modules.get_children(circular1_id),
Some(&vec![
ModuleSpecifier::resolve_url("file:///circular2.js").unwrap()
])
);
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assert_eq!(
modules.get_children(circular2_id),
Some(&vec![
ModuleSpecifier::resolve_url("file:///circular3.js").unwrap()
])
);
assert!(modules.get_id("file:///circular3.js").is_some());
let circular3_id = modules.get_id("file:///circular3.js").unwrap();
assert_eq!(
modules.get_children(circular3_id),
Some(&vec![
ModuleSpecifier::resolve_url("file:///circular1.js").unwrap(),
ModuleSpecifier::resolve_url("file:///circular2.js").unwrap()
])
);
}
.boxed_local();
futures::executor::block_on(fut);
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}
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");
"#;
#[test]
fn test_redirect_load() {
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut isolate = EsIsolate::new(Rc::new(loader), StartupData::None, false);
let fut = async move {
let spec = ModuleSpecifier::resolve_url("file:///redirect1.js").unwrap();
let result = isolate.load_module(&spec, None).await;
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println!(">> result {:?}", result);
assert!(result.is_ok());
let redirect1_id = result.unwrap();
js_check(isolate.mod_evaluate(redirect1_id));
let l = loads.lock().unwrap();
assert_eq!(
l.to_vec(),
vec![
"file:///redirect1.js",
"file:///redirect2.js",
"file:///dir/redirect3.js"
]
);
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let state_rc = EsIsolate::state(&isolate);
let state = state_rc.borrow();
let modules = &state.modules;
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assert_eq!(modules.get_id("file:///redirect1.js"), Some(redirect1_id));
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let redirect2_id = modules.get_id("file:///dir/redirect2.js").unwrap();
assert!(modules.is_alias("file:///redirect2.js"));
assert!(!modules.is_alias("file:///dir/redirect2.js"));
assert_eq!(modules.get_id("file:///redirect2.js"), Some(redirect2_id));
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let redirect3_id = modules.get_id("file:///redirect3.js").unwrap();
assert!(modules.is_alias("file:///dir/redirect3.js"));
assert!(!modules.is_alias("file:///redirect3.js"));
assert_eq!(
modules.get_id("file:///dir/redirect3.js"),
Some(redirect3_id)
);
}
.boxed_local();
futures::executor::block_on(fut);
}
// main.js
const MAIN_SRC: &str = r#"
// never_ready.js never loads.
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import "/never_ready.js";
// slow.js resolves after one tick.
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import "/slow.js";
"#;
// slow.js
const SLOW_SRC: &str = r#"
// Circular import of never_ready.js
// Does this trigger two ModuleLoader calls? It shouldn't.
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import "/never_ready.js";
import "/a.js";
"#;
#[test]
fn slow_never_ready_modules() {
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run_in_task(|mut cx| {
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let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut isolate =
EsIsolate::new(Rc::new(loader), StartupData::None, false);
let spec = ModuleSpecifier::resolve_url("file:///main.js").unwrap();
let mut recursive_load = isolate.load_module(&spec, None).boxed_local();
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let result = recursive_load.poll_unpin(&mut cx);
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(&mut cx);
assert!(result.is_pending());
let l = loads.lock().unwrap();
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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"
]
);
}
})
}
// bad_import.js
const BAD_IMPORT_SRC: &str = r#"
import "foo";
"#;
#[test]
fn loader_disappears_after_error() {
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run_in_task(|mut cx| {
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let loader = MockLoader::new();
let mut isolate =
EsIsolate::new(Rc::new(loader), StartupData::None, false);
let spec = ModuleSpecifier::resolve_url("file:///bad_import.js").unwrap();
let mut load_fut = isolate.load_module(&spec, None).boxed_local();
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let result = load_fut.poll_unpin(&mut cx);
if let Poll::Ready(Err(err)) = result {
assert_eq!(
err.downcast_ref::<MockError>().unwrap(),
&MockError::ResolveErr
);
} else {
unreachable!();
}
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})
}
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();
"#;
#[test]
fn recursive_load_main_with_code() {
let loader = MockLoader::new();
let loads = loader.loads.clone();
let mut isolate = EsIsolate::new(Rc::new(loader), StartupData::None, false);
// 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 =
ModuleSpecifier::resolve_url("file:///main_with_code.js").unwrap();
let main_id_fut = isolate
.load_module(&spec, Some(MAIN_WITH_CODE_SRC.to_owned()))
.boxed_local();
let main_id =
futures::executor::block_on(main_id_fut).expect("Failed to load");
js_check(isolate.mod_evaluate(main_id));
let l = loads.lock().unwrap();
assert_eq!(
l.to_vec(),
vec!["file:///b.js", "file:///c.js", "file:///d.js"]
);
let state_rc = EsIsolate::state(&isolate);
let state = state_rc.borrow();
let modules = &state.modules;
assert_eq!(modules.get_id("file:///main_with_code.js"), Some(main_id));
let b_id = modules.get_id("file:///b.js").unwrap();
let c_id = modules.get_id("file:///c.js").unwrap();
let d_id = modules.get_id("file:///d.js").unwrap();
assert_eq!(
modules.get_children(main_id),
Some(&vec![
ModuleSpecifier::resolve_url("file:///b.js").unwrap(),
ModuleSpecifier::resolve_url("file:///c.js").unwrap()
])
);
assert_eq!(
modules.get_children(b_id),
Some(&vec![ModuleSpecifier::resolve_url("file:///c.js").unwrap()])
);
assert_eq!(
modules.get_children(c_id),
Some(&vec![ModuleSpecifier::resolve_url("file:///d.js").unwrap()])
);
assert_eq!(modules.get_children(d_id), Some(&vec![]));
}
#[test]
fn empty_deps() {
let modules = Modules::new();
let specifier = ModuleSpecifier::resolve_url("file:///foo").unwrap();
assert!(modules.deps(&specifier).is_none());
}
#[test]
fn deps_to_json() {
fn dep(name: &str, deps: Option<Vec<Deps>>) -> Deps {
Deps {
name: name.to_string(),
deps,
prefix: "".to_string(),
is_last: false,
}
}
let deps = dep(
"a",
Some(vec![
dep("b", Some(vec![dep("b2", None)])),
dep("c", Some(vec![])),
]),
);
assert_eq!(
serde_json::json!(["a", [["b", [["b2", []]]], ["c", []]]]),
deps.to_json()
);
}
/* TODO(bartlomieju): reenable
#[test]
fn deps() {
// "foo" -> "bar"
let mut modules = Modules::new();
modules.register(1, "foo");
modules.register(2, "bar");
modules.add_child(1, "bar");
let maybe_deps = modules.deps("foo");
assert!(maybe_deps.is_some());
let mut foo_deps = maybe_deps.unwrap();
assert_eq!(foo_deps.name, "foo");
assert!(foo_deps.deps.is_some());
let foo_children = foo_deps.deps.take().unwrap();
assert_eq!(foo_children.len(), 1);
let bar_deps = &foo_children[0];
assert_eq!(bar_deps.name, "bar");
assert_eq!(bar_deps.deps, Some(vec![]));
}
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*/
}