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// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
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use crate ::bindings ;
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use crate ::error ::attach_handle_to_error ;
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use crate ::error ::generic_error ;
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use crate ::error ::ErrWithV8Handle ;
use crate ::error ::JsError ;
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use crate ::inspector ::JsRuntimeInspector ;
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use crate ::module_specifier ::ModuleSpecifier ;
use crate ::modules ::ModuleId ;
use crate ::modules ::ModuleLoadId ;
use crate ::modules ::ModuleLoader ;
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use crate ::modules ::ModuleMap ;
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use crate ::modules ::NoopModuleLoader ;
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use crate ::ops ::* ;
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use crate ::Extension ;
use crate ::OpMiddlewareFn ;
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use crate ::OpPayload ;
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use crate ::OpResult ;
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use crate ::OpState ;
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use crate ::PromiseId ;
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use anyhow ::Error ;
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use futures ::channel ::oneshot ;
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use futures ::future ::poll_fn ;
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use futures ::future ::FutureExt ;
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use futures ::stream ::FuturesUnordered ;
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use futures ::stream ::StreamExt ;
use futures ::task ::AtomicWaker ;
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use std ::any ::Any ;
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use std ::cell ::RefCell ;
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use std ::collections ::HashMap ;
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use std ::ffi ::c_void ;
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use std ::mem ::forget ;
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use std ::option ::Option ;
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use std ::rc ::Rc ;
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use std ::sync ::Arc ;
use std ::sync ::Mutex ;
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use std ::sync ::Once ;
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use std ::task ::Context ;
use std ::task ::Poll ;
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type PendingOpFuture = OpCall < ( PromiseId , OpId , OpResult ) > ;
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pub enum Snapshot {
Static ( & 'static [ u8 ] ) ,
JustCreated ( v8 ::StartupData ) ,
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Boxed ( Box < [ u8 ] > ) ,
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}
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pub type JsErrorCreateFn = dyn Fn ( JsError ) -> Error ;
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pub type GetErrorClassFn = & 'static dyn for < ' e > Fn ( & ' e Error ) -> & 'static str ;
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/// Objects that need to live as long as the isolate
#[ derive(Default) ]
struct IsolateAllocations {
near_heap_limit_callback_data :
Option < ( Box < RefCell < dyn Any > > , v8 ::NearHeapLimitCallback ) > ,
}
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/// A single execution context of JavaScript. Corresponds roughly to the "Web
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/// Worker" concept in the DOM. A JsRuntime is a Future that can be used with
/// an event loop (Tokio, async_std).
////
/// The JsRuntime future completes when there is an error or when all
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/// pending ops have completed.
///
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/// Pending ops are created in JavaScript by calling Deno.core.opAsync(), and in Rust
/// by implementing an async function that takes a serde::Deserialize "control argument"
/// and an optional zero copy buffer, each async Op is tied to a Promise in JavaScript.
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pub struct JsRuntime {
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// This is an Option<OwnedIsolate> instead of just OwnedIsolate to workaround
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// a safety issue with SnapshotCreator. See JsRuntime::drop.
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v8_isolate : Option < v8 ::OwnedIsolate > ,
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// This is an Option<Box<JsRuntimeInspector> instead of just Box<JsRuntimeInspector>
// to workaround a safety issue. See JsRuntime::drop.
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inspector : Option < Box < JsRuntimeInspector > > ,
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snapshot_creator : Option < v8 ::SnapshotCreator > ,
has_snapshotted : bool ,
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allocations : IsolateAllocations ,
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extensions : Vec < Extension > ,
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}
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struct DynImportModEvaluate {
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load_id : ModuleLoadId ,
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module_id : ModuleId ,
promise : v8 ::Global < v8 ::Promise > ,
module : v8 ::Global < v8 ::Module > ,
}
struct ModEvaluate {
promise : v8 ::Global < v8 ::Promise > ,
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sender : oneshot ::Sender < Result < ( ) , Error > > ,
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}
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pub struct CrossIsolateStore < T > ( Arc < Mutex < CrossIsolateStoreInner < T > > > ) ;
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struct CrossIsolateStoreInner < T > {
map : HashMap < u32 , T > ,
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last_id : u32 ,
}
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impl < T > CrossIsolateStore < T > {
pub ( crate ) fn insert ( & self , value : T ) -> u32 {
let mut store = self . 0. lock ( ) . unwrap ( ) ;
let last_id = store . last_id ;
store . map . insert ( last_id , value ) ;
store . last_id + = 1 ;
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last_id
}
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pub ( crate ) fn take ( & self , id : u32 ) -> Option < T > {
let mut store = self . 0. lock ( ) . unwrap ( ) ;
store . map . remove ( & id )
}
}
impl < T > Default for CrossIsolateStore < T > {
fn default ( ) -> Self {
CrossIsolateStore ( Arc ::new ( Mutex ::new ( CrossIsolateStoreInner {
map : Default ::default ( ) ,
last_id : 0 ,
} ) ) )
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}
}
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impl < T > Clone for CrossIsolateStore < T > {
fn clone ( & self ) -> Self {
Self ( self . 0. clone ( ) )
}
}
pub type SharedArrayBufferStore =
CrossIsolateStore < v8 ::SharedRef < v8 ::BackingStore > > ;
pub type CompiledWasmModuleStore = CrossIsolateStore < v8 ::CompiledWasmModule > ;
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struct AsyncOpIterator < ' a , ' b , ' c > {
ops : & ' b mut FuturesUnordered < PendingOpFuture > ,
cx : & ' a mut Context < ' c > ,
}
impl Iterator for AsyncOpIterator < '_ , '_ , '_ > {
type Item = ( PromiseId , OpId , OpResult ) ;
#[ inline ]
fn next ( & mut self ) -> Option < Self ::Item > {
match self . ops . poll_next_unpin ( self . cx ) {
Poll ::Ready ( Some ( item ) ) = > Some ( item ) ,
_ = > None ,
}
}
}
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/// Internal state for JsRuntime which is stored in one of v8::Isolate's
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/// embedder slots.
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pub ( crate ) struct JsRuntimeState {
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pub global_context : Option < v8 ::Global < v8 ::Context > > ,
pub ( crate ) js_recv_cb : Option < v8 ::Global < v8 ::Function > > ,
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pub ( crate ) js_sync_cb : Option < v8 ::Global < v8 ::Function > > ,
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pub ( crate ) js_macrotask_cbs : Vec < v8 ::Global < v8 ::Function > > ,
pub ( crate ) js_nexttick_cbs : Vec < v8 ::Global < v8 ::Function > > ,
pub ( crate ) has_tick_scheduled : bool ,
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pub ( crate ) js_wasm_streaming_cb : Option < v8 ::Global < v8 ::Function > > ,
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pub ( crate ) pending_promise_exceptions :
HashMap < v8 ::Global < v8 ::Promise > , v8 ::Global < v8 ::Value > > ,
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pending_dyn_mod_evaluate : Vec < DynImportModEvaluate > ,
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pending_mod_evaluate : Option < ModEvaluate > ,
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/// A counter used to delay our dynamic import deadlock detection by one spin
/// of the event loop.
dyn_module_evaluate_idle_counter : u32 ,
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pub ( crate ) js_error_create_fn : Rc < JsErrorCreateFn > ,
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pub ( crate ) pending_ops : FuturesUnordered < PendingOpFuture > ,
pub ( crate ) pending_unref_ops : FuturesUnordered < PendingOpFuture > ,
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pub ( crate ) have_unpolled_ops : bool ,
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pub ( crate ) op_state : Rc < RefCell < OpState > > ,
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pub ( crate ) shared_array_buffer_store : Option < SharedArrayBufferStore > ,
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pub ( crate ) compiled_wasm_module_store : Option < CompiledWasmModuleStore > ,
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waker : AtomicWaker ,
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}
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impl Drop for JsRuntime {
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fn drop ( & mut self ) {
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// The Isolate object must outlive the Inspector object, but this is
// currently not enforced by the type system.
self . inspector . take ( ) ;
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if let Some ( creator ) = self . snapshot_creator . take ( ) {
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// TODO(ry): in rusty_v8, `SnapShotCreator::get_owned_isolate()` returns
// a `struct OwnedIsolate` which is not actually owned, hence the need
// here to leak the `OwnedIsolate` in order to avoid a double free and
// the segfault that it causes.
let v8_isolate = self . v8_isolate . take ( ) . unwrap ( ) ;
forget ( v8_isolate ) ;
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// TODO(ry) V8 has a strange assert which prevents a SnapshotCreator from
// being deallocated if it hasn't created a snapshot yet.
// https://github.com/v8/v8/blob/73212783fbd534fac76cc4b66aac899c13f71fc8/src/api.cc#L603
// If that assert is removed, this if guard could be removed.
// WARNING: There may be false positive LSAN errors here.
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if self . has_snapshotted {
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drop ( creator ) ;
}
}
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}
}
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fn v8_init ( v8_platform : Option < v8 ::SharedRef < v8 ::Platform > > ) {
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// Include 10MB ICU data file.
#[ repr(C, align(16)) ]
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struct IcuData ( [ u8 ; 10144432 ] ) ;
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static ICU_DATA : IcuData = IcuData ( * include_bytes! ( " icudtl.dat " ) ) ;
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v8 ::icu ::set_common_data_69 ( & ICU_DATA . 0 ) . unwrap ( ) ;
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let v8_platform = v8_platform
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. unwrap_or_else ( | | v8 ::new_default_platform ( 0 , false ) . make_shared ( ) ) ;
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v8 ::V8 ::initialize_platform ( v8_platform ) ;
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v8 ::V8 ::initialize ( ) ;
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let flags = concat! (
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" --experimental-wasm-threads " ,
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" --wasm-test-streaming " ,
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" --harmony-import-assertions " ,
" --no-validate-asm " ,
) ;
v8 ::V8 ::set_flags_from_string ( flags ) ;
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}
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#[ derive(Default) ]
pub struct RuntimeOptions {
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/// Allows a callback to be set whenever a V8 exception is made. This allows
/// the caller to wrap the JsError into an error. By default this callback
/// is set to `JsError::create()`.
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pub js_error_create_fn : Option < Rc < JsErrorCreateFn > > ,
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/// Allows to map error type to a string "class" used to represent
/// error in JavaScript.
pub get_error_class_fn : Option < GetErrorClassFn > ,
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/// Implementation of `ModuleLoader` which will be
/// called when V8 requests to load ES modules.
///
/// If not provided runtime will error if code being
/// executed tries to load modules.
pub module_loader : Option < Rc < dyn ModuleLoader > > ,
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/// JsRuntime extensions, not to be confused with ES modules
/// these are sets of ops and other JS code to be initialized.
pub extensions : Vec < Extension > ,
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/// V8 snapshot that should be loaded on startup.
///
/// Currently can't be used with `will_snapshot`.
pub startup_snapshot : Option < Snapshot > ,
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/// Prepare runtime to take snapshot of loaded code.
///
/// Currently can't be used with `startup_snapshot`.
pub will_snapshot : bool ,
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/// Isolate creation parameters.
pub create_params : Option < v8 ::CreateParams > ,
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/// V8 platform instance to use. Used when Deno initializes V8
/// (which it only does once), otherwise it's silenty dropped.
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pub v8_platform : Option < v8 ::SharedRef < v8 ::Platform > > ,
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/// The store to use for transferring SharedArrayBuffers between isolates.
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/// If multiple isolates should have the possibility of sharing
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/// SharedArrayBuffers, they should use the same [SharedArrayBufferStore]. If
/// no [SharedArrayBufferStore] is specified, SharedArrayBuffer can not be
/// serialized.
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pub shared_array_buffer_store : Option < SharedArrayBufferStore > ,
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/// The store to use for transferring `WebAssembly.Module` objects between
/// isolates.
/// If multiple isolates should have the possibility of sharing
/// `WebAssembly.Module` objects, they should use the same
/// [CompiledWasmModuleStore]. If no [CompiledWasmModuleStore] is specified,
/// `WebAssembly.Module` objects cannot be serialized.
pub compiled_wasm_module_store : Option < CompiledWasmModuleStore > ,
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}
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impl JsRuntime {
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/// Only constructor, configuration is done through `options`.
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pub fn new ( mut options : RuntimeOptions ) -> Self {
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let v8_platform = options . v8_platform . take ( ) ;
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static DENO_INIT : Once = Once ::new ( ) ;
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DENO_INIT . call_once ( move | | v8_init ( v8_platform ) ) ;
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let has_startup_snapshot = options . startup_snapshot . is_some ( ) ;
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let global_context ;
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let ( mut isolate , maybe_snapshot_creator ) = if options . will_snapshot {
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// TODO(ry) Support loading snapshots before snapshotting.
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assert! ( options . startup_snapshot . is_none ( ) ) ;
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let mut creator =
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v8 ::SnapshotCreator ::new ( Some ( & bindings ::EXTERNAL_REFERENCES ) ) ;
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let isolate = unsafe { creator . get_owned_isolate ( ) } ;
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let mut isolate = JsRuntime ::setup_isolate ( isolate ) ;
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{
let scope = & mut v8 ::HandleScope ::new ( & mut isolate ) ;
let context = bindings ::initialize_context ( scope ) ;
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global_context = v8 ::Global ::new ( scope , context ) ;
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creator . set_default_context ( context ) ;
}
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( isolate , Some ( creator ) )
} else {
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let mut params = options
. create_params
. take ( )
. unwrap_or_else ( v8 ::Isolate ::create_params )
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. external_references ( & * * bindings ::EXTERNAL_REFERENCES ) ;
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let snapshot_loaded = if let Some ( snapshot ) = options . startup_snapshot {
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params = match snapshot {
Snapshot ::Static ( data ) = > params . snapshot_blob ( data ) ,
Snapshot ::JustCreated ( data ) = > params . snapshot_blob ( data ) ,
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Snapshot ::Boxed ( data ) = > params . snapshot_blob ( data ) ,
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} ;
true
} else {
false
} ;
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let isolate = v8 ::Isolate ::new ( params ) ;
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let mut isolate = JsRuntime ::setup_isolate ( isolate ) ;
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{
let scope = & mut v8 ::HandleScope ::new ( & mut isolate ) ;
let context = if snapshot_loaded {
v8 ::Context ::new ( scope )
} else {
// If no snapshot is provided, we initialize the context with empty
// main source code and source maps.
bindings ::initialize_context ( scope )
} ;
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global_context = v8 ::Global ::new ( scope , context ) ;
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}
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( isolate , None )
} ;
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let inspector =
JsRuntimeInspector ::new ( & mut isolate , global_context . clone ( ) ) ;
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let loader = options
. module_loader
. unwrap_or_else ( | | Rc ::new ( NoopModuleLoader ) ) ;
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let js_error_create_fn = options
. js_error_create_fn
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. unwrap_or_else ( | | Rc ::new ( JsError ::create ) ) ;
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let mut op_state = OpState ::new ( ) ;
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if let Some ( get_error_class_fn ) = options . get_error_class_fn {
op_state . get_error_class_fn = get_error_class_fn ;
}
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let op_state = Rc ::new ( RefCell ::new ( op_state ) ) ;
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isolate . set_slot ( Rc ::new ( RefCell ::new ( JsRuntimeState {
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global_context : Some ( global_context ) ,
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pending_promise_exceptions : HashMap ::new ( ) ,
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pending_dyn_mod_evaluate : vec ! [ ] ,
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pending_mod_evaluate : None ,
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dyn_module_evaluate_idle_counter : 0 ,
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js_recv_cb : None ,
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js_sync_cb : None ,
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js_macrotask_cbs : vec ! [ ] ,
js_nexttick_cbs : vec ! [ ] ,
has_tick_scheduled : false ,
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js_wasm_streaming_cb : None ,
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js_error_create_fn ,
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pending_ops : FuturesUnordered ::new ( ) ,
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pending_unref_ops : FuturesUnordered ::new ( ) ,
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shared_array_buffer_store : options . shared_array_buffer_store ,
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compiled_wasm_module_store : options . compiled_wasm_module_store ,
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op_state : op_state . clone ( ) ,
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have_unpolled_ops : false ,
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waker : AtomicWaker ::new ( ) ,
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} ) ) ) ;
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let module_map = ModuleMap ::new ( loader , op_state ) ;
isolate . set_slot ( Rc ::new ( RefCell ::new ( module_map ) ) ) ;
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// Add builtins extension
options
. extensions
. insert ( 0 , crate ::ops_builtin ::init_builtins ( ) ) ;
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let mut js_runtime = Self {
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v8_isolate : Some ( isolate ) ,
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inspector : Some ( inspector ) ,
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snapshot_creator : maybe_snapshot_creator ,
has_snapshotted : false ,
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allocations : IsolateAllocations ::default ( ) ,
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extensions : options . extensions ,
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} ;
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// TODO(@AaronO): diff extensions inited in snapshot and those provided
// for now we assume that snapshot and extensions always match
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if ! has_startup_snapshot {
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js_runtime . init_extension_js ( ) . unwrap ( ) ;
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}
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// Init extension ops
js_runtime . init_extension_ops ( ) . unwrap ( ) ;
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// Init callbacks (opresolve & syncOpsCache)
js_runtime . init_cbs ( ) ;
// Sync ops cache
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js_runtime . sync_ops_cache ( ) ;
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js_runtime
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}
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pub fn global_context ( & mut self ) -> v8 ::Global < v8 ::Context > {
let state = Self ::state ( self . v8_isolate ( ) ) ;
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let state = state . borrow ( ) ;
state . global_context . clone ( ) . unwrap ( )
}
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pub fn v8_isolate ( & mut self ) -> & mut v8 ::OwnedIsolate {
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self . v8_isolate . as_mut ( ) . unwrap ( )
}
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pub fn inspector ( & mut self ) -> & mut Box < JsRuntimeInspector > {
self . inspector . as_mut ( ) . unwrap ( )
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}
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pub fn handle_scope ( & mut self ) -> v8 ::HandleScope {
let context = self . global_context ( ) ;
v8 ::HandleScope ::with_context ( self . v8_isolate ( ) , context )
}
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fn setup_isolate ( mut isolate : v8 ::OwnedIsolate ) -> v8 ::OwnedIsolate {
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isolate . set_capture_stack_trace_for_uncaught_exceptions ( true , 10 ) ;
isolate . set_promise_reject_callback ( bindings ::promise_reject_callback ) ;
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isolate . set_host_initialize_import_meta_object_callback (
bindings ::host_initialize_import_meta_object_callback ,
) ;
isolate . set_host_import_module_dynamically_callback (
bindings ::host_import_module_dynamically_callback ,
) ;
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isolate
}
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pub ( crate ) fn state ( isolate : & v8 ::Isolate ) -> Rc < RefCell < JsRuntimeState > > {
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let s = isolate . get_slot ::< Rc < RefCell < JsRuntimeState > > > ( ) . unwrap ( ) ;
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s . clone ( )
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}
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pub ( crate ) fn module_map ( isolate : & v8 ::Isolate ) -> Rc < RefCell < ModuleMap > > {
let module_map = isolate . get_slot ::< Rc < RefCell < ModuleMap > > > ( ) . unwrap ( ) ;
module_map . clone ( )
}
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/// Initializes JS of provided Extensions
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fn init_extension_js ( & mut self ) -> Result < ( ) , Error > {
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// Take extensions to avoid double-borrow
let mut extensions : Vec < Extension > = std ::mem ::take ( & mut self . extensions ) ;
for m in extensions . iter_mut ( ) {
let js_files = m . init_js ( ) ;
for ( filename , source ) in js_files {
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let source = source ( ) ? ;
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// TODO(@AaronO): use JsRuntime::execute_static() here to move src off heap
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self . execute_script ( filename , & source ) ? ;
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}
}
// Restore extensions
self . extensions = extensions ;
Ok ( ( ) )
}
/// Initializes ops of provided Extensions
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fn init_extension_ops ( & mut self ) -> Result < ( ) , Error > {
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let op_state = self . op_state ( ) ;
// Take extensions to avoid double-borrow
let mut extensions : Vec < Extension > = std ::mem ::take ( & mut self . extensions ) ;
// Middleware
let middleware : Vec < Box < OpMiddlewareFn > > = extensions
. iter_mut ( )
. filter_map ( | e | e . init_middleware ( ) )
. collect ( ) ;
// macroware wraps an opfn in all the middleware
let macroware =
move | name , opfn | middleware . iter ( ) . fold ( opfn , | opfn , m | m ( name , opfn ) ) ;
// Register ops
for e in extensions . iter_mut ( ) {
e . init_state ( & mut op_state . borrow_mut ( ) ) ? ;
// Register each op after middlewaring it
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let ops = e . init_ops ( ) . unwrap_or_default ( ) ;
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for ( name , opfn ) in ops {
self . register_op ( name , macroware ( name , opfn ) ) ;
}
}
// Restore extensions
self . extensions = extensions ;
Ok ( ( ) )
}
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/// Grab a Global handle to a function returned by the given expression
fn grab_fn (
scope : & mut v8 ::HandleScope ,
code : & str ,
) -> v8 ::Global < v8 ::Function > {
let code = v8 ::String ::new ( scope , code ) . unwrap ( ) ;
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let script = v8 ::Script ::compile ( scope , code , None ) . unwrap ( ) ;
let v8_value = script . run ( scope ) . unwrap ( ) ;
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let cb = v8 ::Local ::< v8 ::Function > ::try_from ( v8_value ) . unwrap ( ) ;
v8 ::Global ::new ( scope , cb )
}
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/// Grabs a reference to core.js' opresolve & syncOpsCache()
fn init_cbs ( & mut self ) {
let mut scope = self . handle_scope ( ) ;
let recv_cb = Self ::grab_fn ( & mut scope , " Deno.core.opresolve " ) ;
let sync_cb = Self ::grab_fn ( & mut scope , " Deno.core.syncOpsCache " ) ;
// Put global handles in state
let state_rc = JsRuntime ::state ( & scope ) ;
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let mut state = state_rc . borrow_mut ( ) ;
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state . js_recv_cb . replace ( recv_cb ) ;
state . js_sync_cb . replace ( sync_cb ) ;
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}
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/// Ensures core.js has the latest op-name to op-id mappings
pub fn sync_ops_cache ( & mut self ) {
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let scope = & mut self . handle_scope ( ) ;
let state_rc = JsRuntime ::state ( scope ) ;
let js_sync_cb_handle = state_rc . borrow ( ) . js_sync_cb . clone ( ) . unwrap ( ) ;
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let js_sync_cb = js_sync_cb_handle . open ( scope ) ;
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let this = v8 ::undefined ( scope ) . into ( ) ;
js_sync_cb . call ( scope , this , & [ ] ) ;
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}
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/// Returns the runtime's op state, which can be used to maintain ops
/// and access resources between op calls.
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pub fn op_state ( & mut self ) -> Rc < RefCell < OpState > > {
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let state = state_rc . borrow ( ) ;
state . op_state . clone ( )
}
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/// Executes traditional JavaScript code (traditional = not ES modules).
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///
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/// The execution takes place on the current global context, so it is possible
/// to maintain local JS state and invoke this method multiple times.
///
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/// `name` can be a filepath or any other string, eg.
///
/// - "/some/file/path.js"
/// - "<anon>"
/// - "[native code]"
///
/// The same `name` value can be used for multiple executions.
///
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/// `Error` can be downcast to a type that exposes additional information
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/// about the V8 exception. By default this type is `JsError`, however it may
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/// be a different type if `RuntimeOptions::js_error_create_fn` has been set.
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pub fn execute_script (
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& mut self ,
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name : & str ,
source_code : & str ,
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) -> Result < v8 ::Global < v8 ::Value > , Error > {
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let scope = & mut self . handle_scope ( ) ;
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let source = v8 ::String ::new ( scope , source_code ) . unwrap ( ) ;
let name = v8 ::String ::new ( scope , name ) . unwrap ( ) ;
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let origin = bindings ::script_origin ( scope , name ) ;
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let tc_scope = & mut v8 ::TryCatch ::new ( scope ) ;
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let script = match v8 ::Script ::compile ( tc_scope , source , Some ( & origin ) ) {
Some ( script ) = > script ,
None = > {
let exception = tc_scope . exception ( ) . unwrap ( ) ;
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return exception_to_err_result ( tc_scope , exception , false ) ;
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}
} ;
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match script . run ( tc_scope ) {
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Some ( value ) = > {
let value_handle = v8 ::Global ::new ( tc_scope , value ) ;
Ok ( value_handle )
}
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None = > {
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assert! ( tc_scope . has_caught ( ) ) ;
let exception = tc_scope . exception ( ) . unwrap ( ) ;
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exception_to_err_result ( tc_scope , exception , false )
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}
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}
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}
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/// Takes a snapshot. The isolate should have been created with will_snapshot
/// set to true.
///
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/// `Error` can be downcast to a type that exposes additional information
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/// about the V8 exception. By default this type is `JsError`, however it may
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/// be a different type if `RuntimeOptions::js_error_create_fn` has been set.
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pub fn snapshot ( & mut self ) -> v8 ::StartupData {
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assert! ( self . snapshot_creator . is_some ( ) ) ;
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let state = Self ::state ( self . v8_isolate ( ) ) ;
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// Note: create_blob() method must not be called from within a HandleScope.
// TODO(piscisaureus): The rusty_v8 type system should enforce this.
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state . borrow_mut ( ) . global_context . take ( ) ;
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self . inspector . take ( ) ;
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// Overwrite existing ModuleMap to drop v8::Global handles
self
. v8_isolate ( )
. set_slot ( Rc ::new ( RefCell ::new ( ModuleMap ::new (
Rc ::new ( NoopModuleLoader ) ,
state . borrow ( ) . op_state . clone ( ) ,
) ) ) ) ;
// Drop other v8::Global handles before snapshotting
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std ::mem ::take ( & mut state . borrow_mut ( ) . js_recv_cb ) ;
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std ::mem ::take ( & mut state . borrow_mut ( ) . js_sync_cb ) ;
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let snapshot_creator = self . snapshot_creator . as_mut ( ) . unwrap ( ) ;
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let snapshot = snapshot_creator
. create_blob ( v8 ::FunctionCodeHandling ::Keep )
. unwrap ( ) ;
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self . has_snapshotted = true ;
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snapshot
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}
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/// Registers an op that can be called from JavaScript.
///
/// The _op_ mechanism allows to expose Rust functions to the JS runtime,
/// which can be called using the provided `name`.
///
/// This function provides byte-level bindings. To pass data via JSON, the
/// following functions can be passed as an argument for `op_fn`:
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/// * [op_sync()](fn.op_sync.html)
/// * [op_async()](fn.op_async.html)
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pub fn register_op < F > ( & mut self , name : & str , op_fn : F ) -> OpId
where
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F : Fn ( Rc < RefCell < OpState > > , OpPayload ) -> Op + 'static ,
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{
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Self ::state ( self . v8_isolate ( ) )
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. borrow_mut ( )
. op_state
. borrow_mut ( )
. op_table
. register_op ( name , op_fn )
}
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/// Registers a callback on the isolate when the memory limits are approached.
/// Use this to prevent V8 from crashing the process when reaching the limit.
///
/// Calls the closure with the current heap limit and the initial heap limit.
/// The return value of the closure is set as the new limit.
pub fn add_near_heap_limit_callback < C > ( & mut self , cb : C )
where
C : FnMut ( usize , usize ) -> usize + 'static ,
{
let boxed_cb = Box ::new ( RefCell ::new ( cb ) ) ;
let data = boxed_cb . as_ptr ( ) as * mut c_void ;
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let prev = self
. allocations
. near_heap_limit_callback_data
. replace ( ( boxed_cb , near_heap_limit_callback ::< C > ) ) ;
if let Some ( ( _ , prev_cb ) ) = prev {
self
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. v8_isolate ( )
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. remove_near_heap_limit_callback ( prev_cb , 0 ) ;
}
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self
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. v8_isolate ( )
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. add_near_heap_limit_callback ( near_heap_limit_callback ::< C > , data ) ;
}
pub fn remove_near_heap_limit_callback ( & mut self , heap_limit : usize ) {
if let Some ( ( _ , cb ) ) = self . allocations . near_heap_limit_callback_data . take ( )
{
self
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. v8_isolate ( )
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. remove_near_heap_limit_callback ( cb , heap_limit ) ;
}
}
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fn pump_v8_message_loop ( & mut self ) {
let scope = & mut self . handle_scope ( ) ;
while v8 ::Platform ::pump_message_loop (
& v8 ::V8 ::get_current_platform ( ) ,
scope ,
false , // don't block if there are no tasks
) {
// do nothing
}
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scope . perform_microtask_checkpoint ( ) ;
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}
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/// Waits for the given value to resolve while polling the event loop.
///
/// This future resolves when either the value is resolved or the event loop runs to
/// completion.
pub async fn resolve_value (
& mut self ,
global : v8 ::Global < v8 ::Value > ,
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) -> Result < v8 ::Global < v8 ::Value > , Error > {
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poll_fn ( | cx | {
let state = self . poll_event_loop ( cx , false ) ;
let mut scope = self . handle_scope ( ) ;
let local = v8 ::Local ::< v8 ::Value > ::new ( & mut scope , & global ) ;
if let Ok ( promise ) = v8 ::Local ::< v8 ::Promise > ::try_from ( local ) {
match promise . state ( ) {
v8 ::PromiseState ::Pending = > match state {
Poll ::Ready ( Ok ( _ ) ) = > {
let msg = " Promise resolution is still pending but the event loop has already resolved. " ;
Poll ::Ready ( Err ( generic_error ( msg ) ) )
} ,
Poll ::Ready ( Err ( e ) ) = > Poll ::Ready ( Err ( e ) ) ,
Poll ::Pending = > Poll ::Pending ,
} ,
v8 ::PromiseState ::Fulfilled = > {
let value = promise . result ( & mut scope ) ;
let value_handle = v8 ::Global ::new ( & mut scope , value ) ;
Poll ::Ready ( Ok ( value_handle ) )
}
v8 ::PromiseState ::Rejected = > {
let exception = promise . result ( & mut scope ) ;
Poll ::Ready ( exception_to_err_result ( & mut scope , exception , false ) )
}
}
} else {
let value_handle = v8 ::Global ::new ( & mut scope , local ) ;
Poll ::Ready ( Ok ( value_handle ) )
}
} )
. await
}
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/// Runs event loop to completion
///
/// This future resolves when:
/// - there are no more pending dynamic imports
/// - there are no more pending ops
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/// - there are no more active inspector sessions (only if `wait_for_inspector` is set to true)
pub async fn run_event_loop (
& mut self ,
wait_for_inspector : bool ,
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) -> Result < ( ) , Error > {
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poll_fn ( | cx | self . poll_event_loop ( cx , wait_for_inspector ) ) . await
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}
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/// Runs a single tick of event loop
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///
/// If `wait_for_inspector` is set to true event loop
/// will return `Poll::Pending` if there are active inspector sessions.
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pub fn poll_event_loop (
& mut self ,
cx : & mut Context ,
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wait_for_inspector : bool ,
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) -> Poll < Result < ( ) , Error > > {
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// We always poll the inspector first
let _ = self . inspector ( ) . poll_unpin ( cx ) ;
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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{
let state = state_rc . borrow ( ) ;
state . waker . register ( cx . waker ( ) ) ;
}
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self . pump_v8_message_loop ( ) ;
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// Ops
{
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self . resolve_async_ops ( cx ) ? ;
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self . drain_nexttick ( ) ? ;
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self . drain_macrotasks ( ) ? ;
self . check_promise_exceptions ( ) ? ;
}
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// Dynamic module loading - ie. modules loaded using "import()"
{
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let poll_imports = self . prepare_dyn_imports ( cx ) ? ;
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assert! ( poll_imports . is_ready ( ) ) ;
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let poll_imports = self . poll_dyn_imports ( cx ) ? ;
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assert! ( poll_imports . is_ready ( ) ) ;
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self . evaluate_dyn_imports ( ) ;
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self . check_promise_exceptions ( ) ? ;
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}
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// Top level module
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self . evaluate_pending_module ( ) ;
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let mut state = state_rc . borrow_mut ( ) ;
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let module_map = module_map_rc . borrow ( ) ;
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let has_pending_ops = ! state . pending_ops . is_empty ( ) ;
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let has_pending_dyn_imports = module_map . has_pending_dynamic_imports ( ) ;
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let has_pending_dyn_module_evaluation =
! state . pending_dyn_mod_evaluate . is_empty ( ) ;
let has_pending_module_evaluation = state . pending_mod_evaluate . is_some ( ) ;
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let has_pending_background_tasks =
self . v8_isolate ( ) . has_pending_background_tasks ( ) ;
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let has_tick_scheduled = state . has_tick_scheduled ;
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let inspector_has_active_sessions = self
. inspector
. as_ref ( )
. map ( | i | i . has_active_sessions ( ) )
. unwrap_or ( false ) ;
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if ! has_pending_ops
& & ! has_pending_dyn_imports
& & ! has_pending_dyn_module_evaluation
& & ! has_pending_module_evaluation
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& & ! has_pending_background_tasks
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& & ! has_tick_scheduled
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{
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if wait_for_inspector & & inspector_has_active_sessions {
return Poll ::Pending ;
}
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return Poll ::Ready ( Ok ( ( ) ) ) ;
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}
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// Check if more async ops have been dispatched
// during this turn of event loop.
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// If there are any pending background tasks, we also wake the runtime to
// make sure we don't miss them.
// TODO(andreubotella) The event loop will spin as long as there are pending
// background tasks. We should look into having V8 notify us when a
// background task is done.
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if state . have_unpolled_ops
| | has_pending_background_tasks
| | has_tick_scheduled
{
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state . waker . wake ( ) ;
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}
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if has_pending_module_evaluation {
if has_pending_ops
| | has_pending_dyn_imports
| | has_pending_dyn_module_evaluation
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| | has_pending_background_tasks
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| | has_tick_scheduled
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{
// pass, will be polled again
} else {
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let msg = " Module evaluation is still pending but there are no pending ops or dynamic imports. This situation is often caused by unresolved promises. " ;
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return Poll ::Ready ( Err ( generic_error ( msg ) ) ) ;
}
}
if has_pending_dyn_module_evaluation {
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if has_pending_ops
| | has_pending_dyn_imports
| | has_pending_background_tasks
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| | has_tick_scheduled
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{
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// pass, will be polled again
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} else if state . dyn_module_evaluate_idle_counter > = 1 {
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let mut msg = " Dynamically imported module evaluation is still pending but there are no pending ops. This situation is often caused by unresolved promises.
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Pending dynamic modules :\ n " .to_string();
for pending_evaluate in & state . pending_dyn_mod_evaluate {
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let module_info = module_map
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. get_info_by_id ( & pending_evaluate . module_id )
. unwrap ( ) ;
msg . push_str ( & format! ( " - {} " , module_info . name . as_str ( ) ) ) ;
}
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return Poll ::Ready ( Err ( generic_error ( msg ) ) ) ;
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} else {
// Delay the above error by one spin of the event loop. A dynamic import
// evaluation may complete during this, in which case the counter will
// reset.
state . dyn_module_evaluate_idle_counter + = 1 ;
state . waker . wake ( ) ;
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}
}
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Poll ::Pending
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}
}
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extern " C " fn near_heap_limit_callback < F > (
data : * mut c_void ,
current_heap_limit : usize ,
initial_heap_limit : usize ,
) -> usize
where
F : FnMut ( usize , usize ) -> usize ,
{
let callback = unsafe { & mut * ( data as * mut F ) } ;
callback ( current_heap_limit , initial_heap_limit )
}
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impl JsRuntimeState {
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/// Called by `bindings::host_import_module_dynamically_callback`
/// after initiating new dynamic import load.
pub fn notify_new_dynamic_import ( & mut self ) {
// Notify event loop to poll again soon.
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self . waker . wake ( ) ;
}
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}
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pub ( crate ) fn exception_to_err_result < ' s , T > (
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scope : & mut v8 ::HandleScope < ' s > ,
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exception : v8 ::Local < v8 ::Value > ,
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in_promise : bool ,
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) -> Result < T , Error > {
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let is_terminating_exception = scope . is_execution_terminating ( ) ;
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let mut exception = exception ;
if is_terminating_exception {
// TerminateExecution was called. Cancel exception termination so that the
// exception can be created..
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scope . cancel_terminate_execution ( ) ;
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// Maybe make a new exception object.
if exception . is_null_or_undefined ( ) {
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let message = v8 ::String ::new ( scope , " execution terminated " ) . unwrap ( ) ;
exception = v8 ::Exception ::error ( scope , message ) ;
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}
}
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let mut js_error = JsError ::from_v8_exception ( scope , exception ) ;
if in_promise {
js_error . message = format! (
" Uncaught (in promise) {} " ,
js_error . message . trim_start_matches ( " Uncaught " )
) ;
}
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let state_rc = JsRuntime ::state ( scope ) ;
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let state = state_rc . borrow ( ) ;
let js_error = ( state . js_error_create_fn ) ( js_error ) ;
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if is_terminating_exception {
// Re-enable exception termination.
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scope . terminate_execution ( ) ;
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}
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Err ( js_error )
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}
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// Related to module loading
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impl JsRuntime {
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pub ( crate ) fn instantiate_module (
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& mut self ,
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id : ModuleId ,
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) -> Result < ( ) , Error > {
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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let scope = & mut self . handle_scope ( ) ;
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let tc_scope = & mut v8 ::TryCatch ::new ( scope ) ;
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let module = module_map_rc
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. borrow ( )
. get_handle ( id )
. map ( | handle | v8 ::Local ::new ( tc_scope , handle ) )
. expect ( " ModuleInfo not found " ) ;
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if module . get_status ( ) = = v8 ::ModuleStatus ::Errored {
let exception = module . get_exception ( ) ;
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let err = exception_to_err_result ( tc_scope , exception , false )
. map_err ( | err | attach_handle_to_error ( tc_scope , err , exception ) ) ;
return err ;
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}
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// IMPORTANT: No borrows to `ModuleMap` can be held at this point because
// `module_resolve_callback` will be calling into `ModuleMap` from within
// the isolate.
let instantiate_result =
module . instantiate_module ( tc_scope , bindings ::module_resolve_callback ) ;
if instantiate_result . is_none ( ) {
let exception = tc_scope . exception ( ) . unwrap ( ) ;
let err = exception_to_err_result ( tc_scope , exception , false )
. map_err ( | err | attach_handle_to_error ( tc_scope , err , exception ) ) ;
return err ;
}
Ok ( ( ) )
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}
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fn dynamic_import_module_evaluate (
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& mut self ,
load_id : ModuleLoadId ,
id : ModuleId ,
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) -> Result < ( ) , Error > {
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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let module_handle = module_map_rc
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. borrow ( )
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. get_handle ( id )
. expect ( " ModuleInfo not found " ) ;
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let status = {
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let scope = & mut self . handle_scope ( ) ;
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let module = module_handle . open ( scope ) ;
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module . get_status ( )
} ;
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match status {
v8 ::ModuleStatus ::Instantiated | v8 ::ModuleStatus ::Evaluated = > { }
_ = > return Ok ( ( ) ) ,
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}
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// IMPORTANT: Top-level-await is enabled, which means that return value
// of module evaluation is a promise.
//
// This promise is internal, and not the same one that gets returned to
// the user. We add an empty `.catch()` handler so that it does not result
// in an exception if it rejects. That will instead happen for the other
// promise if not handled by the user.
//
// For more details see:
// https://github.com/denoland/deno/issues/4908
// https://v8.dev/features/top-level-await#module-execution-order
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let scope = & mut self . handle_scope ( ) ;
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let tc_scope = & mut v8 ::TryCatch ::new ( scope ) ;
let module = v8 ::Local ::new ( tc_scope , & module_handle ) ;
let maybe_value = module . evaluate ( tc_scope ) ;
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// Update status after evaluating.
let status = module . get_status ( ) ;
if let Some ( value ) = maybe_value {
assert! (
status = = v8 ::ModuleStatus ::Evaluated
| | status = = v8 ::ModuleStatus ::Errored
) ;
let promise = v8 ::Local ::< v8 ::Promise > ::try_from ( value )
. expect ( " Expected to get promise as module evaluation result " ) ;
let empty_fn = | _scope : & mut v8 ::HandleScope ,
_args : v8 ::FunctionCallbackArguments ,
_rv : v8 ::ReturnValue | { } ;
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let empty_fn = v8 ::FunctionTemplate ::new ( tc_scope , empty_fn ) ;
let empty_fn = empty_fn . get_function ( tc_scope ) . unwrap ( ) ;
promise . catch ( tc_scope , empty_fn ) ;
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let mut state = state_rc . borrow_mut ( ) ;
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let promise_global = v8 ::Global ::new ( tc_scope , promise ) ;
let module_global = v8 ::Global ::new ( tc_scope , module ) ;
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let dyn_import_mod_evaluate = DynImportModEvaluate {
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load_id ,
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module_id : id ,
promise : promise_global ,
module : module_global ,
} ;
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state . pending_dyn_mod_evaluate . push ( dyn_import_mod_evaluate ) ;
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} else if tc_scope . has_terminated ( ) | | tc_scope . is_execution_terminating ( ) {
return Err (
generic_error ( " Cannot evaluate dynamically imported module, because JavaScript execution has been terminated. " )
) ;
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} else {
assert! ( status = = v8 ::ModuleStatus ::Errored ) ;
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}
Ok ( ( ) )
}
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// TODO(bartlomieju): make it return `ModuleEvaluationFuture`?
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/// Evaluates an already instantiated ES module.
///
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/// Returns a receiver handle that resolves when module promise resolves.
/// Implementors must manually call `run_event_loop()` to drive module
/// evaluation future.
///
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/// `Error` can be downcast to a type that exposes additional information
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/// about the V8 exception. By default this type is `JsError`, however it may
/// be a different type if `RuntimeOptions::js_error_create_fn` has been set.
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///
/// This function panics if module has not been instantiated.
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pub fn mod_evaluate (
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& mut self ,
id : ModuleId ,
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) -> oneshot ::Receiver < Result < ( ) , Error > > {
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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let scope = & mut self . handle_scope ( ) ;
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let tc_scope = & mut v8 ::TryCatch ::new ( scope ) ;
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let module = module_map_rc
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. borrow ( )
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. get_handle ( id )
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. map ( | handle | v8 ::Local ::new ( tc_scope , handle ) )
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. expect ( " ModuleInfo not found " ) ;
let mut status = module . get_status ( ) ;
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assert_eq! ( status , v8 ::ModuleStatus ::Instantiated ) ;
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let ( sender , receiver ) = oneshot ::channel ( ) ;
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// IMPORTANT: Top-level-await is enabled, which means that return value
// of module evaluation is a promise.
//
// Because that promise is created internally by V8, when error occurs during
// module evaluation the promise is rejected, and since the promise has no rejection
// handler it will result in call to `bindings::promise_reject_callback` adding
// the promise to pending promise rejection table - meaning JsRuntime will return
// error on next poll().
//
// This situation is not desirable as we want to manually return error at the
// end of this function to handle it further. It means we need to manually
// remove this promise from pending promise rejection table.
//
// For more details see:
// https://github.com/denoland/deno/issues/4908
// https://v8.dev/features/top-level-await#module-execution-order
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let maybe_value = module . evaluate ( tc_scope ) ;
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// Update status after evaluating.
status = module . get_status ( ) ;
if let Some ( value ) = maybe_value {
assert! (
status = = v8 ::ModuleStatus ::Evaluated
| | status = = v8 ::ModuleStatus ::Errored
) ;
let promise = v8 ::Local ::< v8 ::Promise > ::try_from ( value )
. expect ( " Expected to get promise as module evaluation result " ) ;
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let promise_global = v8 ::Global ::new ( tc_scope , promise ) ;
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let mut state = state_rc . borrow_mut ( ) ;
state . pending_promise_exceptions . remove ( & promise_global ) ;
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let promise_global = v8 ::Global ::new ( tc_scope , promise ) ;
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assert! (
state . pending_mod_evaluate . is_none ( ) ,
" There is already pending top level module evaluation "
) ;
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state . pending_mod_evaluate = Some ( ModEvaluate {
promise : promise_global ,
sender ,
} ) ;
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tc_scope . perform_microtask_checkpoint ( ) ;
} else if tc_scope . has_terminated ( ) | | tc_scope . is_execution_terminating ( ) {
sender . send ( Err (
generic_error ( " Cannot evaluate module, because JavaScript execution has been terminated. " )
) ) . expect ( " Failed to send module evaluation error. " ) ;
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} else {
assert! ( status = = v8 ::ModuleStatus ::Errored ) ;
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}
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receiver
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}
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fn dynamic_import_reject ( & mut self , id : ModuleLoadId , err : Error ) {
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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let scope = & mut self . handle_scope ( ) ;
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let resolver_handle = module_map_rc
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. borrow_mut ( )
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. dynamic_import_map
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. remove ( & id )
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. expect ( " Invalid dynamic import id " ) ;
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let resolver = resolver_handle . open ( scope ) ;
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let exception = err
. downcast_ref ::< ErrWithV8Handle > ( )
. map ( | err | err . get_handle ( scope ) )
. unwrap_or_else ( | | {
let message = err . to_string ( ) ;
let message = v8 ::String ::new ( scope , & message ) . unwrap ( ) ;
v8 ::Exception ::type_error ( scope , message )
} ) ;
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// IMPORTANT: No borrows to `ModuleMap` can be held at this point because
// rejecting the promise might initiate another `import()` which will
// in turn call `bindings::host_import_module_dynamically_callback` which
// will reach into `ModuleMap` from within the isolate.
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resolver . reject ( scope , exception ) . unwrap ( ) ;
scope . perform_microtask_checkpoint ( ) ;
}
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fn dynamic_import_resolve ( & mut self , id : ModuleLoadId , mod_id : ModuleId ) {
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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let scope = & mut self . handle_scope ( ) ;
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let resolver_handle = module_map_rc
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. borrow_mut ( )
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. dynamic_import_map
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. remove ( & id )
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. expect ( " Invalid dynamic import id " ) ;
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let resolver = resolver_handle . open ( scope ) ;
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let module = {
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module_map_rc
. borrow ( )
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. get_handle ( mod_id )
. map ( | handle | v8 ::Local ::new ( scope , handle ) )
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. expect ( " Dyn import module info not found " )
} ;
// Resolution success
assert_eq! ( module . get_status ( ) , v8 ::ModuleStatus ::Evaluated ) ;
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// IMPORTANT: No borrows to `ModuleMap` can be held at this point because
// resolving the promise might initiate another `import()` which will
// in turn call `bindings::host_import_module_dynamically_callback` which
// will reach into `ModuleMap` from within the isolate.
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let module_namespace = module . get_module_namespace ( ) ;
resolver . resolve ( scope , module_namespace ) . unwrap ( ) ;
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state_rc . borrow_mut ( ) . dyn_module_evaluate_idle_counter = 0 ;
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scope . perform_microtask_checkpoint ( ) ;
}
fn prepare_dyn_imports (
& mut self ,
cx : & mut Context ,
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) -> Poll < Result < ( ) , Error > > {
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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if module_map_rc . borrow ( ) . preparing_dynamic_imports . is_empty ( ) {
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return Poll ::Ready ( Ok ( ( ) ) ) ;
}
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loop {
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let poll_result = module_map_rc
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. borrow_mut ( )
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. preparing_dynamic_imports
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. poll_next_unpin ( cx ) ;
if let Poll ::Ready ( Some ( prepare_poll ) ) = poll_result {
let dyn_import_id = prepare_poll . 0 ;
let prepare_result = prepare_poll . 1 ;
match prepare_result {
Ok ( load ) = > {
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module_map_rc
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. borrow_mut ( )
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. pending_dynamic_imports
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. push ( load . into_future ( ) ) ;
}
Err ( err ) = > {
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self . dynamic_import_reject ( dyn_import_id , err ) ;
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}
}
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// Continue polling for more prepared dynamic imports.
continue ;
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}
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// There are no active dynamic import loads, or none are ready.
return Poll ::Ready ( Ok ( ( ) ) ) ;
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}
}
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fn poll_dyn_imports ( & mut self , cx : & mut Context ) -> Poll < Result < ( ) , Error > > {
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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if module_map_rc . borrow ( ) . pending_dynamic_imports . is_empty ( ) {
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return Poll ::Ready ( Ok ( ( ) ) ) ;
}
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loop {
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let poll_result = module_map_rc
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. borrow_mut ( )
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. pending_dynamic_imports
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. poll_next_unpin ( cx ) ;
if let Poll ::Ready ( Some ( load_stream_poll ) ) = poll_result {
let maybe_result = load_stream_poll . 0 ;
let mut load = load_stream_poll . 1 ;
let dyn_import_id = load . id ;
if let Some ( load_stream_result ) = maybe_result {
match load_stream_result {
Ok ( info ) = > {
// A module (not necessarily the one dynamically imported) has been
// fetched. Create and register it, and if successful, poll for the
// next recursive-load event related to this dynamic import.
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let register_result =
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load . register_and_recurse ( & mut self . handle_scope ( ) , & info ) ;
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match register_result {
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Ok ( ( ) ) = > {
// Keep importing until it's fully drained
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module_map_rc
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. borrow_mut ( )
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. pending_dynamic_imports
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. push ( load . into_future ( ) ) ;
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}
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Err ( err ) = > self . dynamic_import_reject ( dyn_import_id , err ) ,
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}
}
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Err ( err ) = > {
// A non-javascript error occurred; this could be due to a an invalid
// module specifier, or a problem with the source map, or a failure
// to fetch the module source code.
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self . dynamic_import_reject ( dyn_import_id , err )
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}
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}
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} else {
// The top-level module from a dynamic import has been instantiated.
// Load is done.
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let module_id =
load . root_module_id . expect ( " Root module should be loaded " ) ;
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let result = self . instantiate_module ( module_id ) ;
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if let Err ( err ) = result {
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self . dynamic_import_reject ( dyn_import_id , err ) ;
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}
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self . dynamic_import_module_evaluate ( dyn_import_id , module_id ) ? ;
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}
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// Continue polling for more ready dynamic imports.
continue ;
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}
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// There are no active dynamic import loads, or none are ready.
return Poll ::Ready ( Ok ( ( ) ) ) ;
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}
}
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/// "deno_core" runs V8 with Top Level Await enabled. It means that each
/// module evaluation returns a promise from V8.
/// Feature docs: https://v8.dev/features/top-level-await
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///
/// This promise resolves after all dependent modules have also
/// resolved. Each dependent module may perform calls to "import()" and APIs
/// using async ops will add futures to the runtime's event loop.
/// It means that the promise returned from module evaluation will
/// resolve only after all futures in the event loop are done.
///
/// Thus during turn of event loop we need to check if V8 has
/// resolved or rejected the promise. If the promise is still pending
/// then another turn of event loop must be performed.
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fn evaluate_pending_module ( & mut self ) {
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let maybe_module_evaluation =
state_rc . borrow_mut ( ) . pending_mod_evaluate . take ( ) ;
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if maybe_module_evaluation . is_none ( ) {
return ;
}
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let module_evaluation = maybe_module_evaluation . unwrap ( ) ;
let scope = & mut self . handle_scope ( ) ;
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let promise = module_evaluation . promise . open ( scope ) ;
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let promise_state = promise . state ( ) ;
match promise_state {
v8 ::PromiseState ::Pending = > {
// NOTE: `poll_event_loop` will decide if
// runtime would be woken soon
state_rc . borrow_mut ( ) . pending_mod_evaluate = Some ( module_evaluation ) ;
}
v8 ::PromiseState ::Fulfilled = > {
scope . perform_microtask_checkpoint ( ) ;
// Receiver end might have been already dropped, ignore the result
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let _ = module_evaluation . sender . send ( Ok ( ( ) ) ) ;
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}
v8 ::PromiseState ::Rejected = > {
let exception = promise . result ( scope ) ;
scope . perform_microtask_checkpoint ( ) ;
let err1 = exception_to_err_result ::< ( ) > ( scope , exception , false )
. map_err ( | err | attach_handle_to_error ( scope , err , exception ) )
. unwrap_err ( ) ;
// Receiver end might have been already dropped, ignore the result
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let _ = module_evaluation . sender . send ( Err ( err1 ) ) ;
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}
}
}
fn evaluate_dyn_imports ( & mut self ) {
let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let mut still_pending = vec! [ ] ;
let pending =
std ::mem ::take ( & mut state_rc . borrow_mut ( ) . pending_dyn_mod_evaluate ) ;
for pending_dyn_evaluate in pending {
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let maybe_result = {
let scope = & mut self . handle_scope ( ) ;
let module_id = pending_dyn_evaluate . module_id ;
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let promise = pending_dyn_evaluate . promise . open ( scope ) ;
let _module = pending_dyn_evaluate . module . open ( scope ) ;
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let promise_state = promise . state ( ) ;
match promise_state {
v8 ::PromiseState ::Pending = > {
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still_pending . push ( pending_dyn_evaluate ) ;
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None
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}
v8 ::PromiseState ::Fulfilled = > {
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Some ( Ok ( ( pending_dyn_evaluate . load_id , module_id ) ) )
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}
v8 ::PromiseState ::Rejected = > {
let exception = promise . result ( scope ) ;
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let err1 = exception_to_err_result ::< ( ) > ( scope , exception , false )
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. map_err ( | err | attach_handle_to_error ( scope , err , exception ) )
. unwrap_err ( ) ;
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Some ( Err ( ( pending_dyn_evaluate . load_id , err1 ) ) )
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}
}
} ;
if let Some ( result ) = maybe_result {
match result {
Ok ( ( dyn_import_id , module_id ) ) = > {
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self . dynamic_import_resolve ( dyn_import_id , module_id ) ;
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}
Err ( ( dyn_import_id , err1 ) ) = > {
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self . dynamic_import_reject ( dyn_import_id , err1 ) ;
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}
}
}
}
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state_rc . borrow_mut ( ) . pending_dyn_mod_evaluate = still_pending ;
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}
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/// Asynchronously load specified module and all of its dependencies.
///
/// The module will be marked as "main", and because of that
/// "import.meta.main" will return true when checked inside that module.
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///
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/// User must call `JsRuntime::mod_evaluate` with returned `ModuleId`
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/// manually after load is finished.
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pub async fn load_main_module (
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& mut self ,
specifier : & ModuleSpecifier ,
code : Option < String > ,
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) -> Result < ModuleId , Error > {
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
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if let Some ( code ) = code {
module_map_rc . borrow_mut ( ) . new_module (
& mut self . handle_scope ( ) ,
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// main module
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true ,
specifier . as_str ( ) ,
& code ,
) ? ;
}
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let mut load =
ModuleMap ::load_main ( module_map_rc . clone ( ) , specifier . as_str ( ) ) . await ? ;
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while let Some ( info_result ) = load . next ( ) . await {
let info = info_result ? ;
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let scope = & mut self . handle_scope ( ) ;
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load . register_and_recurse ( scope , & info ) ? ;
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}
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let root_id = load . root_module_id . expect ( " Root module should be loaded " ) ;
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self . instantiate_module ( root_id ) ? ;
Ok ( root_id )
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}
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/// Asynchronously load specified ES module and all of its dependencies.
///
/// This method is meant to be used when loading some utility code that
/// might be later imported by the main module (ie. an entry point module).
///
/// User must call `JsRuntime::mod_evaluate` with returned `ModuleId`
/// manually after load is finished.
pub async fn load_side_module (
& mut self ,
specifier : & ModuleSpecifier ,
code : Option < String > ,
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) -> Result < ModuleId , Error > {
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let module_map_rc = Self ::module_map ( self . v8_isolate ( ) ) ;
if let Some ( code ) = code {
module_map_rc . borrow_mut ( ) . new_module (
& mut self . handle_scope ( ) ,
// not main module
false ,
specifier . as_str ( ) ,
& code ,
) ? ;
}
let mut load =
ModuleMap ::load_side ( module_map_rc . clone ( ) , specifier . as_str ( ) ) . await ? ;
while let Some ( info_result ) = load . next ( ) . await {
let info = info_result ? ;
let scope = & mut self . handle_scope ( ) ;
load . register_and_recurse ( scope , & info ) ? ;
}
let root_id = load . root_module_id . expect ( " Root module should be loaded " ) ;
self . instantiate_module ( root_id ) ? ;
Ok ( root_id )
}
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fn check_promise_exceptions ( & mut self ) -> Result < ( ) , Error > {
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let mut state = state_rc . borrow_mut ( ) ;
if state . pending_promise_exceptions . is_empty ( ) {
return Ok ( ( ) ) ;
}
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let key = {
state
. pending_promise_exceptions
. keys ( )
. next ( )
. unwrap ( )
. clone ( )
} ;
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let handle = state . pending_promise_exceptions . remove ( & key ) . unwrap ( ) ;
drop ( state ) ;
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let scope = & mut self . handle_scope ( ) ;
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let exception = v8 ::Local ::new ( scope , handle ) ;
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exception_to_err_result ( scope , exception , true )
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}
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// Send finished responses to JS
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fn resolve_async_ops ( & mut self , cx : & mut Context ) -> Result < ( ) , Error > {
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let state_rc = Self ::state ( self . v8_isolate ( ) ) ;
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let js_recv_cb_handle = state_rc . borrow ( ) . js_recv_cb . clone ( ) . unwrap ( ) ;
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let scope = & mut self . handle_scope ( ) ;
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// We return async responses to JS in unbounded batches (may change),
// each batch is a flat vector of tuples:
// `[promise_id1, op_result1, promise_id2, op_result2, ...]`
// promise_id is a simple integer, op_result is an ops::OpResult
// which contains a value OR an error, encoded as a tuple.
// This batch is received in JS via the special `arguments` variable
// and then each tuple is used to resolve or reject promises
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let mut args : Vec < v8 ::Local < v8 ::Value > > = vec! [ ] ;
// Now handle actual ops.
{
let mut state = state_rc . borrow_mut ( ) ;
state . have_unpolled_ops = false ;
let op_state = state . op_state . clone ( ) ;
let ops = AsyncOpIterator {
ops : & mut state . pending_ops ,
cx ,
} ;
for ( promise_id , op_id , resp ) in ops {
op_state . borrow ( ) . tracker . track_async_completed ( op_id ) ;
args . push ( v8 ::Integer ::new ( scope , promise_id as i32 ) . into ( ) ) ;
args . push ( resp . to_v8 ( scope ) . unwrap ( ) ) ;
}
let ops = AsyncOpIterator {
ops : & mut state . pending_unref_ops ,
cx ,
} ;
for ( promise_id , op_id , resp ) in ops {
op_state . borrow ( ) . tracker . track_unref_completed ( op_id ) ;
args . push ( v8 ::Integer ::new ( scope , promise_id as i32 ) . into ( ) ) ;
args . push ( resp . to_v8 ( scope ) . unwrap ( ) ) ;
}
}
if args . is_empty ( ) {
return Ok ( ( ) ) ;
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}
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let tc_scope = & mut v8 ::TryCatch ::new ( scope ) ;
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let js_recv_cb = js_recv_cb_handle . open ( tc_scope ) ;
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let this = v8 ::undefined ( tc_scope ) . into ( ) ;
js_recv_cb . call ( tc_scope , this , args . as_slice ( ) ) ;
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match tc_scope . exception ( ) {
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None = > Ok ( ( ) ) ,
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Some ( exception ) = > exception_to_err_result ( tc_scope , exception , false ) ,
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}
}
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fn drain_macrotasks ( & mut self ) -> Result < ( ) , Error > {
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let state = Self ::state ( self . v8_isolate ( ) ) ;
if state . borrow ( ) . js_macrotask_cbs . is_empty ( ) {
return Ok ( ( ) ) ;
}
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let js_macrotask_cb_handles = state . borrow ( ) . js_macrotask_cbs . clone ( ) ;
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let scope = & mut self . handle_scope ( ) ;
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for js_macrotask_cb_handle in js_macrotask_cb_handles {
let js_macrotask_cb = js_macrotask_cb_handle . open ( scope ) ;
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// Repeatedly invoke macrotask callback until it returns true (done),
// such that ready microtasks would be automatically run before
// next macrotask is processed.
let tc_scope = & mut v8 ::TryCatch ::new ( scope ) ;
let this = v8 ::undefined ( tc_scope ) . into ( ) ;
loop {
let is_done = js_macrotask_cb . call ( tc_scope , this , & [ ] ) ;
if let Some ( exception ) = tc_scope . exception ( ) {
return exception_to_err_result ( tc_scope , exception , false ) ;
}
if tc_scope . has_terminated ( ) | | tc_scope . is_execution_terminating ( ) {
return Ok ( ( ) ) ;
}
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let is_done = is_done . unwrap ( ) ;
if is_done . is_true ( ) {
break ;
}
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}
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}
Ok ( ( ) )
}
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fn drain_nexttick ( & mut self ) -> Result < ( ) , Error > {
let state = Self ::state ( self . v8_isolate ( ) ) ;
if state . borrow ( ) . js_nexttick_cbs . is_empty ( ) {
return Ok ( ( ) ) ;
}
if ! state . borrow ( ) . has_tick_scheduled {
let scope = & mut self . handle_scope ( ) ;
scope . perform_microtask_checkpoint ( ) ;
}
// TODO(bartlomieju): Node also checks for absence of "rejection_to_warn"
if ! state . borrow ( ) . has_tick_scheduled {
return Ok ( ( ) ) ;
}
let js_nexttick_cb_handles = state . borrow ( ) . js_nexttick_cbs . clone ( ) ;
let scope = & mut self . handle_scope ( ) ;
for js_nexttick_cb_handle in js_nexttick_cb_handles {
let js_nexttick_cb = js_nexttick_cb_handle . open ( scope ) ;
let tc_scope = & mut v8 ::TryCatch ::new ( scope ) ;
let this = v8 ::undefined ( tc_scope ) . into ( ) ;
js_nexttick_cb . call ( tc_scope , this , & [ ] ) ;
if let Some ( exception ) = tc_scope . exception ( ) {
return exception_to_err_result ( tc_scope , exception , false ) ;
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}
}
Ok ( ( ) )
}
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}
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#[ cfg(test) ]
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pub mod tests {
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use super ::* ;
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use crate ::error ::custom_error ;
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use crate ::modules ::ModuleSource ;
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use crate ::modules ::ModuleSourceFuture ;
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use crate ::op_async ;
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use crate ::op_sync ;
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use crate ::ZeroCopyBuf ;
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use futures ::future ::lazy ;
use std ::ops ::FnOnce ;
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use std ::pin ::Pin ;
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use std ::rc ::Rc ;
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use std ::sync ::atomic ::{ AtomicUsize , Ordering } ;
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use std ::sync ::Arc ;
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pub fn run_in_task < F > ( f : F )
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where
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F : FnOnce ( & mut Context ) + Send + 'static ,
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{
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futures ::executor ::block_on ( lazy ( move | cx | f ( cx ) ) ) ;
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}
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enum Mode {
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Async ,
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AsyncZeroCopy ( bool ) ,
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}
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struct TestState {
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mode : Mode ,
dispatch_count : Arc < AtomicUsize > ,
}
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fn dispatch ( rc_op_state : Rc < RefCell < OpState > > , payload : OpPayload ) -> Op {
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let rc_op_state2 = rc_op_state . clone ( ) ;
let op_state_ = rc_op_state2 . borrow ( ) ;
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let test_state = op_state_ . borrow ::< TestState > ( ) ;
test_state . dispatch_count . fetch_add ( 1 , Ordering ::Relaxed ) ;
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let ( control , buf ) : ( u8 , Option < ZeroCopyBuf > ) =
payload . deserialize ( ) . unwrap ( ) ;
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match test_state . mode {
Mode ::Async = > {
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assert_eq! ( control , 42 ) ;
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let resp = ( 0 , 1 , serialize_op_result ( Ok ( 43 ) , rc_op_state ) ) ;
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Op ::Async ( OpCall ::ready ( resp ) )
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}
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Mode ::AsyncZeroCopy ( has_buffer ) = > {
assert_eq! ( buf . is_some ( ) , has_buffer ) ;
if let Some ( buf ) = buf {
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assert_eq! ( buf . len ( ) , 1 ) ;
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}
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let resp = ( 0 , 1 , serialize_op_result ( Ok ( 43 ) , rc_op_state ) ) ;
Op ::Async ( OpCall ::ready ( resp ) )
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}
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}
}
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fn setup ( mode : Mode ) -> ( JsRuntime , Arc < AtomicUsize > ) {
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let dispatch_count = Arc ::new ( AtomicUsize ::new ( 0 ) ) ;
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let mut runtime = JsRuntime ::new ( Default ::default ( ) ) ;
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let op_state = runtime . op_state ( ) ;
op_state . borrow_mut ( ) . put ( TestState {
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mode ,
dispatch_count : dispatch_count . clone ( ) ,
} ) ;
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runtime . register_op ( " op_test " , dispatch ) ;
runtime . sync_ops_cache ( ) ;
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runtime
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. execute_script (
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" setup.js " ,
r #"
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function assert ( cond ) {
if ( ! cond ) {
throw Error ( " assert " ) ;
}
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}
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" #,
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)
. unwrap ( ) ;
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assert_eq! ( dispatch_count . load ( Ordering ::Relaxed ) , 0 ) ;
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( runtime , dispatch_count )
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}
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#[ test ]
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fn test_dispatch ( ) {
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let ( mut runtime , dispatch_count ) = setup ( Mode ::Async ) ;
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runtime
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. execute_script (
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" filename.js " ,
r #"
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let control = 42 ;
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Deno . core . opAsync ( " op_test " , control ) ;
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async function main ( ) {
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Deno . core . opAsync ( " op_test " , control ) ;
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}
main ( ) ;
" #,
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)
. unwrap ( ) ;
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assert_eq! ( dispatch_count . load ( Ordering ::Relaxed ) , 2 ) ;
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}
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#[ test ]
fn test_dispatch_no_zero_copy_buf ( ) {
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let ( mut runtime , dispatch_count ) = setup ( Mode ::AsyncZeroCopy ( false ) ) ;
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runtime
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. execute_script (
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" filename.js " ,
r #"
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Deno . core . opAsync ( " op_test " ) ;
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" #,
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)
. unwrap ( ) ;
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assert_eq! ( dispatch_count . load ( Ordering ::Relaxed ) , 1 ) ;
}
#[ test ]
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fn test_dispatch_stack_zero_copy_bufs ( ) {
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let ( mut runtime , dispatch_count ) = setup ( Mode ::AsyncZeroCopy ( true ) ) ;
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runtime
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. execute_script (
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" filename.js " ,
r #"
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let zero_copy_a = new Uint8Array ( [ 0 ] ) ;
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Deno . core . opAsync ( " op_test " , null , zero_copy_a ) ;
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" #,
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)
. unwrap ( ) ;
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assert_eq! ( dispatch_count . load ( Ordering ::Relaxed ) , 1 ) ;
}
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#[ test ]
fn test_execute_script_return_value ( ) {
let mut runtime = JsRuntime ::new ( Default ::default ( ) ) ;
let value_global = runtime . execute_script ( " a.js " , " a = 1 + 2 " ) . unwrap ( ) ;
{
let scope = & mut runtime . handle_scope ( ) ;
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let value = value_global . open ( scope ) ;
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assert_eq! ( value . integer_value ( scope ) . unwrap ( ) , 3 ) ;
}
let value_global = runtime . execute_script ( " b.js " , " b = 'foobar' " ) . unwrap ( ) ;
{
let scope = & mut runtime . handle_scope ( ) ;
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let value = value_global . open ( scope ) ;
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assert! ( value . is_string ( ) ) ;
assert_eq! (
value . to_string ( scope ) . unwrap ( ) . to_rust_string_lossy ( scope ) ,
" foobar "
) ;
}
}
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#[ tokio::test ]
async fn test_resolve_value ( ) {
let mut runtime = JsRuntime ::new ( Default ::default ( ) ) ;
let value_global = runtime
. execute_script ( " a.js " , " Promise.resolve(1 + 2) " )
. unwrap ( ) ;
let result_global = runtime . resolve_value ( value_global ) . await . unwrap ( ) ;
{
let scope = & mut runtime . handle_scope ( ) ;
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let value = result_global . open ( scope ) ;
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assert_eq! ( value . integer_value ( scope ) . unwrap ( ) , 3 ) ;
}
let value_global = runtime
. execute_script (
" a.js " ,
" Promise.resolve(new Promise(resolve => resolve(2 + 2))) " ,
)
. unwrap ( ) ;
let result_global = runtime . resolve_value ( value_global ) . await . unwrap ( ) ;
{
let scope = & mut runtime . handle_scope ( ) ;
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let value = result_global . open ( scope ) ;
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assert_eq! ( value . integer_value ( scope ) . unwrap ( ) , 4 ) ;
}
let value_global = runtime
. execute_script ( " a.js " , " Promise.reject(new Error('fail')) " )
. unwrap ( ) ;
let err = runtime . resolve_value ( value_global ) . await . unwrap_err ( ) ;
assert_eq! (
" Uncaught Error: fail " ,
err . downcast ::< JsError > ( ) . unwrap ( ) . message
) ;
let value_global = runtime
. execute_script ( " a.js " , " new Promise(resolve => {}) " )
. unwrap ( ) ;
let error_string = runtime
. resolve_value ( value_global )
. await
. unwrap_err ( )
. to_string ( ) ;
assert_eq! (
" Promise resolution is still pending but the event loop has already resolved. " ,
error_string ,
) ;
}
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#[ test ]
fn terminate_execution ( ) {
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let ( mut isolate , _dispatch_count ) = setup ( Mode ::Async ) ;
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// TODO(piscisaureus): in rusty_v8, the `thread_safe_handle()` method
// should not require a mutable reference to `struct rusty_v8::Isolate`.
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let v8_isolate_handle = isolate . v8_isolate ( ) . thread_safe_handle ( ) ;
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let terminator_thread = std ::thread ::spawn ( move | | {
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// allow deno to boot and run
std ::thread ::sleep ( std ::time ::Duration ::from_millis ( 100 ) ) ;
// terminate execution
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let ok = v8_isolate_handle . terminate_execution ( ) ;
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assert! ( ok ) ;
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} ) ;
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// Rn an infinite loop, which should be terminated.
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match isolate . execute_script ( " infinite_loop.js " , " for(;;) {} " ) {
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Ok ( _ ) = > panic! ( " execution should be terminated " ) ,
Err ( e ) = > {
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assert_eq! ( e . to_string ( ) , " Uncaught Error: execution terminated " )
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}
} ;
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// Cancel the execution-terminating exception in order to allow script
// execution again.
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let ok = isolate . v8_isolate ( ) . cancel_terminate_execution ( ) ;
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assert! ( ok ) ;
// Verify that the isolate usable again.
isolate
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. execute_script ( " simple.js " , " 1 + 1 " )
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. expect ( " execution should be possible again " ) ;
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terminator_thread . join ( ) . unwrap ( ) ;
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}
#[ test ]
fn dangling_shared_isolate ( ) {
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let v8_isolate_handle = {
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// isolate is dropped at the end of this block
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let ( mut runtime , _dispatch_count ) = setup ( Mode ::Async ) ;
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// TODO(piscisaureus): in rusty_v8, the `thread_safe_handle()` method
// should not require a mutable reference to `struct rusty_v8::Isolate`.
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runtime . v8_isolate ( ) . thread_safe_handle ( )
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} ;
// this should not SEGFAULT
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v8_isolate_handle . terminate_execution ( ) ;
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}
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#[ test ]
fn test_pre_dispatch ( ) {
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run_in_task ( | mut cx | {
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let ( mut runtime , _dispatch_count ) = setup ( Mode ::Async ) ;
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runtime
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. execute_script (
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" bad_op_id.js " ,
r #"
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let thrown ;
try {
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Deno . core . opcallSync ( 100 , null , null ) ;
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} catch ( e ) {
thrown = e ;
}
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assert ( String ( thrown ) = = = " TypeError: Unknown op id: 100 " ) ;
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" #,
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)
. unwrap ( ) ;
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if let Poll ::Ready ( Err ( _ ) ) = runtime . poll_event_loop ( & mut cx , false ) {
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unreachable! ( ) ;
}
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} ) ;
}
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#[ test ]
fn syntax_error ( ) {
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let mut runtime = JsRuntime ::new ( Default ::default ( ) ) ;
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let src = " hocuspocus( " ;
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let r = runtime . execute_script ( " i.js " , src ) ;
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let e = r . unwrap_err ( ) ;
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let js_error = e . downcast ::< JsError > ( ) . unwrap ( ) ;
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assert_eq! ( js_error . end_column , Some ( 11 ) ) ;
}
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#[ test ]
fn test_encode_decode ( ) {
run_in_task ( | mut cx | {
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let ( mut runtime , _dispatch_count ) = setup ( Mode ::Async ) ;
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runtime
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. execute_script (
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" encode_decode_test.js " ,
include_str! ( " encode_decode_test.js " ) ,
)
. unwrap ( ) ;
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if let Poll ::Ready ( Err ( _ ) ) = runtime . poll_event_loop ( & mut cx , false ) {
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unreachable! ( ) ;
}
} ) ;
}
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#[ test ]
fn test_serialize_deserialize ( ) {
run_in_task ( | mut cx | {
let ( mut runtime , _dispatch_count ) = setup ( Mode ::Async ) ;
runtime
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. execute_script (
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" serialize_deserialize_test.js " ,
include_str! ( " serialize_deserialize_test.js " ) ,
)
. unwrap ( ) ;
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if let Poll ::Ready ( Err ( _ ) ) = runtime . poll_event_loop ( & mut cx , false ) {
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unreachable! ( ) ;
}
} ) ;
}
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#[ test ]
fn test_error_builder ( ) {
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fn op_err ( _ : & mut OpState , _ : ( ) , _ : ( ) ) -> Result < ( ) , Error > {
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Err ( custom_error ( " DOMExceptionOperationError " , " abc " ) )
}
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pub fn get_error_class_name ( _ : & Error ) -> & 'static str {
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" DOMExceptionOperationError "
}
run_in_task ( | mut cx | {
let mut runtime = JsRuntime ::new ( RuntimeOptions {
get_error_class_fn : Some ( & get_error_class_name ) ,
.. Default ::default ( )
} ) ;
runtime . register_op ( " op_err " , op_sync ( op_err ) ) ;
runtime . sync_ops_cache ( ) ;
runtime
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. execute_script (
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" error_builder_test.js " ,
include_str! ( " error_builder_test.js " ) ,
)
. unwrap ( ) ;
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if let Poll ::Ready ( Err ( _ ) ) = runtime . poll_event_loop ( & mut cx , false ) {
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unreachable! ( ) ;
}
} ) ;
}
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#[ test ]
fn will_snapshot ( ) {
let snapshot = {
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let mut runtime = JsRuntime ::new ( RuntimeOptions {
will_snapshot : true ,
.. Default ::default ( )
} ) ;
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runtime . execute_script ( " a.js " , " a = 1 + 2 " ) . unwrap ( ) ;
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runtime . snapshot ( )
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} ;
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let snapshot = Snapshot ::JustCreated ( snapshot ) ;
let mut runtime2 = JsRuntime ::new ( RuntimeOptions {
startup_snapshot : Some ( snapshot ) ,
.. Default ::default ( )
} ) ;
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runtime2
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. execute_script ( " check.js " , " if (a != 3) throw Error('x') " )
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. unwrap ( ) ;
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}
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#[ test ]
fn test_from_boxed_snapshot ( ) {
let snapshot = {
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let mut runtime = JsRuntime ::new ( RuntimeOptions {
will_snapshot : true ,
.. Default ::default ( )
} ) ;
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runtime . execute_script ( " a.js " , " a = 1 + 2 " ) . unwrap ( ) ;
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let snap : & [ u8 ] = & * runtime . snapshot ( ) ;
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Vec ::from ( snap ) . into_boxed_slice ( )
} ;
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let snapshot = Snapshot ::Boxed ( snapshot ) ;
let mut runtime2 = JsRuntime ::new ( RuntimeOptions {
startup_snapshot : Some ( snapshot ) ,
.. Default ::default ( )
} ) ;
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runtime2
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. execute_script ( " check.js " , " if (a != 3) throw Error('x') " )
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. unwrap ( ) ;
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}
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#[ test ]
fn test_heap_limits ( ) {
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let create_params =
v8 ::Isolate ::create_params ( ) . heap_limits ( 0 , 3 * 1024 * 1024 ) ;
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let mut runtime = JsRuntime ::new ( RuntimeOptions {
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create_params : Some ( create_params ) ,
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.. Default ::default ( )
} ) ;
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let cb_handle = runtime . v8_isolate ( ) . thread_safe_handle ( ) ;
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let callback_invoke_count = Rc ::new ( AtomicUsize ::default ( ) ) ;
let inner_invoke_count = Rc ::clone ( & callback_invoke_count ) ;
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runtime . add_near_heap_limit_callback (
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move | current_limit , _initial_limit | {
inner_invoke_count . fetch_add ( 1 , Ordering ::SeqCst ) ;
cb_handle . terminate_execution ( ) ;
current_limit * 2
} ,
) ;
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let err = runtime
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. execute_script (
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" script name " ,
r # "let s = ""; while(true) { s += "Hello"; }"# ,
)
. expect_err ( " script should fail " ) ;
assert_eq! (
" Uncaught Error: execution terminated " ,
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err . downcast ::< JsError > ( ) . unwrap ( ) . message
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) ;
assert! ( callback_invoke_count . load ( Ordering ::SeqCst ) > 0 )
}
#[ test ]
fn test_heap_limit_cb_remove ( ) {
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let mut runtime = JsRuntime ::new ( Default ::default ( ) ) ;
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runtime . add_near_heap_limit_callback ( | current_limit , _initial_limit | {
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current_limit * 2
} ) ;
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runtime . remove_near_heap_limit_callback ( 3 * 1024 * 1024 ) ;
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assert! ( runtime . allocations . near_heap_limit_callback_data . is_none ( ) ) ;
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}
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#[ test ]
fn test_heap_limit_cb_multiple ( ) {
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let create_params =
v8 ::Isolate ::create_params ( ) . heap_limits ( 0 , 3 * 1024 * 1024 ) ;
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let mut runtime = JsRuntime ::new ( RuntimeOptions {
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create_params : Some ( create_params ) ,
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.. Default ::default ( )
} ) ;
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let cb_handle = runtime . v8_isolate ( ) . thread_safe_handle ( ) ;
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let callback_invoke_count_first = Rc ::new ( AtomicUsize ::default ( ) ) ;
let inner_invoke_count_first = Rc ::clone ( & callback_invoke_count_first ) ;
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runtime . add_near_heap_limit_callback (
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move | current_limit , _initial_limit | {
inner_invoke_count_first . fetch_add ( 1 , Ordering ::SeqCst ) ;
current_limit * 2
} ,
) ;
let callback_invoke_count_second = Rc ::new ( AtomicUsize ::default ( ) ) ;
let inner_invoke_count_second = Rc ::clone ( & callback_invoke_count_second ) ;
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runtime . add_near_heap_limit_callback (
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move | current_limit , _initial_limit | {
inner_invoke_count_second . fetch_add ( 1 , Ordering ::SeqCst ) ;
cb_handle . terminate_execution ( ) ;
current_limit * 2
} ,
) ;
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let err = runtime
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. execute_script (
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" script name " ,
r # "let s = ""; while(true) { s += "Hello"; }"# ,
)
. expect_err ( " script should fail " ) ;
assert_eq! (
" Uncaught Error: execution terminated " ,
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err . downcast ::< JsError > ( ) . unwrap ( ) . message
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) ;
assert_eq! ( 0 , callback_invoke_count_first . load ( Ordering ::SeqCst ) ) ;
assert! ( callback_invoke_count_second . load ( Ordering ::SeqCst ) > 0 ) ;
}
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#[ test ]
fn es_snapshot ( ) {
#[ derive(Default) ]
struct ModsLoader ;
impl ModuleLoader for ModsLoader {
fn resolve (
& self ,
specifier : & str ,
referrer : & str ,
_is_main : bool ,
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) -> Result < ModuleSpecifier , Error > {
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assert_eq! ( specifier , " file:///main.js " ) ;
assert_eq! ( referrer , " . " ) ;
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let s = crate ::resolve_import ( specifier , referrer ) . unwrap ( ) ;
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Ok ( s )
}
fn load (
& self ,
_module_specifier : & ModuleSpecifier ,
_maybe_referrer : Option < ModuleSpecifier > ,
_is_dyn_import : bool ,
) -> Pin < Box < ModuleSourceFuture > > {
unreachable! ( )
}
}
let loader = std ::rc ::Rc ::new ( ModsLoader ::default ( ) ) ;
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let mut runtime = JsRuntime ::new ( RuntimeOptions {
module_loader : Some ( loader ) ,
will_snapshot : true ,
.. Default ::default ( )
} ) ;
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let specifier = crate ::resolve_url ( " file:///main.js " ) . unwrap ( ) ;
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let source_code = " Deno.core.print('hello \\ n') " . to_string ( ) ;
let module_id = futures ::executor ::block_on (
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runtime . load_main_module ( & specifier , Some ( source_code ) ) ,
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)
. unwrap ( ) ;
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let _ = runtime . mod_evaluate ( module_id ) ;
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futures ::executor ::block_on ( runtime . run_event_loop ( false ) ) . unwrap ( ) ;
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let _snapshot = runtime . snapshot ( ) ;
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}
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#[ test ]
fn test_error_without_stack ( ) {
let mut runtime = JsRuntime ::new ( RuntimeOptions ::default ( ) ) ;
// SyntaxError
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let result = runtime . execute_script (
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" error_without_stack.js " ,
r #"
function main ( ) {
console . log ( " asdf);
}
main ( ) ;
" #,
) ;
let expected_error = r #" Uncaught SyntaxError: Invalid or unexpected token
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at error_without_stack . js :3 :14 " #;
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assert_eq! ( result . unwrap_err ( ) . to_string ( ) , expected_error ) ;
}
#[ test ]
fn test_error_stack ( ) {
let mut runtime = JsRuntime ::new ( RuntimeOptions ::default ( ) ) ;
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let result = runtime . execute_script (
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" error_stack.js " ,
r #"
function assert ( cond ) {
if ( ! cond ) {
throw Error ( " assert " ) ;
}
}
function main ( ) {
assert ( false ) ;
}
main ( ) ;
" #,
) ;
let expected_error = r #" Error: assert
at assert ( error_stack . js :4 :11 )
at main ( error_stack . js :9 :3 )
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at error_stack . js :12 :1 " #;
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assert_eq! ( result . unwrap_err ( ) . to_string ( ) , expected_error ) ;
}
#[ test ]
fn test_error_async_stack ( ) {
run_in_task ( | cx | {
let mut runtime = JsRuntime ::new ( RuntimeOptions ::default ( ) ) ;
runtime
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. execute_script (
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" error_async_stack.js " ,
r #"
( async ( ) = > {
const p = ( async ( ) = > {
await Promise . resolve ( ) . then ( ( ) = > {
throw new Error ( " async " ) ;
} ) ;
} ) ( ) ;
try {
await p ;
} catch ( error ) {
console . log ( error . stack ) ;
throw error ;
}
} ) ( ) ; " #,
)
. unwrap ( ) ;
let expected_error = r #" Error: async
at error_async_stack . js :5 :13
at async error_async_stack . js :4 :5
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at async error_async_stack . js :10 :5 " #;
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match runtime . poll_event_loop ( cx , false ) {
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Poll ::Ready ( Err ( e ) ) = > {
assert_eq! ( e . to_string ( ) , expected_error ) ;
}
_ = > panic! ( ) ,
} ;
} )
}
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#[ test ]
fn test_pump_message_loop ( ) {
run_in_task ( | cx | {
let mut runtime = JsRuntime ::new ( RuntimeOptions ::default ( ) ) ;
runtime
. execute_script (
" pump_message_loop.js " ,
r #"
function assertEquals ( a , b ) {
if ( a = = = b ) return ;
throw a + " does not equal " + b ;
}
const sab = new SharedArrayBuffer ( 16 ) ;
const i32a = new Int32Array ( sab ) ;
globalThis . resolved = false ;
( function ( ) {
const result = Atomics . waitAsync ( i32a , 0 , 0 ) ;
result . value . then (
( value ) = > { assertEquals ( " ok " , value ) ; globalThis . resolved = true ; } ,
( ) = > { assertUnreachable ( ) ;
} ) ;
} ) ( ) ;
const notify_return_value = Atomics . notify ( i32a , 0 , 1 ) ;
assertEquals ( 1 , notify_return_value ) ;
" #,
)
. unwrap ( ) ;
match runtime . poll_event_loop ( cx , false ) {
Poll ::Ready ( Ok ( ( ) ) ) = > { }
_ = > panic! ( ) ,
} ;
// noop script, will resolve promise from first script
runtime
. execute_script ( " pump_message_loop2.js " , r # "assertEquals(1, 1);"# )
. unwrap ( ) ;
// check that promise from `Atomics.waitAsync` has been resolved
runtime
. execute_script (
" pump_message_loop3.js " ,
r # "assertEquals(globalThis.resolved, true);"# ,
)
. unwrap ( ) ;
} )
}
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#[ test ]
fn test_core_js_stack_frame ( ) {
let mut runtime = JsRuntime ::new ( RuntimeOptions ::default ( ) ) ;
// Call non-existent op so we get error from `core.js`
let error = runtime
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. execute_script (
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" core_js_stack_frame.js " ,
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" Deno.core.opSync('non_existent'); " ,
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)
. unwrap_err ( ) ;
let error_string = error . to_string ( ) ;
// Test that the script specifier is a URL: `deno:<repo-relative path>`.
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assert! ( error_string . contains ( " deno:core/01_core.js " ) ) ;
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}
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#[ test ]
fn test_v8_platform ( ) {
let options = RuntimeOptions {
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v8_platform : Some ( v8 ::new_default_platform ( 0 , false ) . make_shared ( ) ) ,
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.. Default ::default ( )
} ;
let mut runtime = JsRuntime ::new ( options ) ;
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runtime . execute_script ( " <none> " , " " ) . unwrap ( ) ;
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}
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#[ test ]
fn test_is_proxy ( ) {
let mut runtime = JsRuntime ::new ( RuntimeOptions ::default ( ) ) ;
let all_true : v8 ::Global < v8 ::Value > = runtime
. execute_script (
" is_proxy.js " ,
r #"
( function ( ) {
const { isProxy } = Deno . core ;
const o = { a : 1 , b : 2 } ;
const p = new Proxy ( o , { } ) ;
return isProxy ( p ) & & ! isProxy ( o ) & & ! isProxy ( 42 ) ;
} ) ( )
" #,
)
. unwrap ( ) ;
let mut scope = runtime . handle_scope ( ) ;
let all_true = v8 ::Local ::< v8 ::Value > ::new ( & mut scope , & all_true ) ;
assert! ( all_true . is_true ( ) ) ;
}
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#[ test ]
fn test_binding_names ( ) {
let mut runtime = JsRuntime ::new ( RuntimeOptions ::default ( ) ) ;
let all_true : v8 ::Global < v8 ::Value > = runtime
. execute_script (
" binding_names.js " ,
" Deno.core.encode.toString() === 'function encode() { [native code] }' " ,
)
. unwrap ( ) ;
let mut scope = runtime . handle_scope ( ) ;
let all_true = v8 ::Local ::< v8 ::Value > ::new ( & mut scope , & all_true ) ;
assert! ( all_true . is_true ( ) ) ;
}
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#[ tokio::test ]
async fn test_async_opstate_borrow ( ) {
struct InnerState ( u64 ) ;
async fn op_async_borrow (
op_state : Rc < RefCell < OpState > > ,
_ : ( ) ,
_ : ( ) ,
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) -> Result < ( ) , Error > {
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let n = {
let op_state = op_state . borrow ( ) ;
let inner_state = op_state . borrow ::< InnerState > ( ) ;
inner_state . 0
} ;
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// Future must be Poll::Pending on first call
tokio ::time ::sleep ( std ::time ::Duration ::from_millis ( 1 ) ) . await ;
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if n ! = 42 {
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unreachable! ( ) ;
}
Ok ( ( ) )
}
let extension = Extension ::builder ( )
. ops ( vec! [ ( " op_async_borrow " , op_async ( op_async_borrow ) ) ] )
. state ( | state | {
state . put ( InnerState ( 42 ) ) ;
Ok ( ( ) )
} )
. build ( ) ;
let mut runtime = JsRuntime ::new ( RuntimeOptions {
extensions : vec ! [ extension ] ,
.. Default ::default ( )
} ) ;
runtime
. execute_script (
" op_async_borrow.js " ,
" Deno.core.opAsync('op_async_borrow') " ,
)
. unwrap ( ) ;
runtime . run_event_loop ( false ) . await . unwrap ( ) ;
}
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#[ tokio::test ]
async fn test_set_macrotask_callback_set_next_tick_callback ( ) {
async fn op_async_sleep (
_op_state : Rc < RefCell < OpState > > ,
_ : ( ) ,
_ : ( ) ,
) -> Result < ( ) , Error > {
// Future must be Poll::Pending on first call
tokio ::time ::sleep ( std ::time ::Duration ::from_millis ( 1 ) ) . await ;
Ok ( ( ) )
}
let extension = Extension ::builder ( )
. ops ( vec! [ ( " op_async_sleep " , op_async ( op_async_sleep ) ) ] )
. build ( ) ;
let mut runtime = JsRuntime ::new ( RuntimeOptions {
extensions : vec ! [ extension ] ,
.. Default ::default ( )
} ) ;
runtime
. execute_script (
" macrotasks_and_nextticks.js " ,
r #"
( async function ( ) {
const results = [ ] ;
Deno . core . setMacrotaskCallback ( ( ) = > {
results . push ( " macrotask " ) ;
return true ;
} ) ;
Deno . core . setNextTickCallback ( ( ) = > {
results . push ( " nextTick " ) ;
Deno . core . setHasTickScheduled ( false ) ;
} ) ;
Deno . core . setHasTickScheduled ( true ) ;
await Deno . core . opAsync ( ' op_async_sleep ' ) ;
if ( results [ 0 ] ! = " nextTick " ) {
throw new Error ( ` expected nextTick , got : $ { results [ 0 ] } ` ) ;
}
if ( results [ 1 ] ! = " macrotask " ) {
throw new Error ( ` expected macrotask , got : $ { results [ 1 ] } ` ) ;
}
} ) ( ) ;
" #,
)
. unwrap ( ) ;
runtime . run_event_loop ( false ) . await . unwrap ( ) ;
}
#[ tokio::test ]
async fn test_set_macrotask_callback_set_next_tick_callback_multiple ( ) {
let mut runtime = JsRuntime ::new ( Default ::default ( ) ) ;
runtime
. execute_script (
" multiple_macrotasks_and_nextticks.js " ,
r #"
Deno . core . setMacrotaskCallback ( ( ) = > { return true ; } ) ;
Deno . core . setMacrotaskCallback ( ( ) = > { return true ; } ) ;
Deno . core . setNextTickCallback ( ( ) = > { } ) ;
Deno . core . setNextTickCallback ( ( ) = > { } ) ;
" #,
)
. unwrap ( ) ;
let isolate = runtime . v8_isolate ( ) ;
let state_rc = JsRuntime ::state ( isolate ) ;
let state = state_rc . borrow ( ) ;
assert_eq! ( state . js_macrotask_cbs . len ( ) , 2 ) ;
assert_eq! ( state . js_nexttick_cbs . len ( ) , 2 ) ;
}
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#[ test ]
fn test_has_tick_scheduled ( ) {
use futures ::task ::ArcWake ;
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let macrotask = Arc ::new ( AtomicUsize ::default ( ) ) ;
let macrotask_ = Arc ::clone ( & macrotask ) ;
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let next_tick = Arc ::new ( AtomicUsize ::default ( ) ) ;
let next_tick_ = Arc ::clone ( & next_tick ) ;
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let op_macrotask = move | _ : & mut OpState , _ : ( ) , _ : ( ) | {
macrotask_ . fetch_add ( 1 , Ordering ::Relaxed ) ;
Ok ( ( ) )
} ;
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let op_next_tick = move | _ : & mut OpState , _ : ( ) , _ : ( ) | {
next_tick_ . fetch_add ( 1 , Ordering ::Relaxed ) ;
Ok ( ( ) )
} ;
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let extension = Extension ::builder ( )
. ops ( vec! [ ( " op_macrotask " , op_sync ( op_macrotask ) ) ] )
. ops ( vec! [ ( " op_next_tick " , op_sync ( op_next_tick ) ) ] )
. build ( ) ;
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let mut runtime = JsRuntime ::new ( RuntimeOptions {
extensions : vec ! [ extension ] ,
.. Default ::default ( )
} ) ;
runtime
. execute_script (
" has_tick_scheduled.js " ,
r #"
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Deno . core . setMacrotaskCallback ( ( ) = > {
Deno . core . opSync ( " op_macrotask " ) ;
return true ; // We're done.
} ) ;
Deno . core . setNextTickCallback ( ( ) = > Deno . core . opSync ( " op_next_tick " ) ) ;
Deno . core . setHasTickScheduled ( true ) ;
" #,
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)
. unwrap ( ) ;
struct ArcWakeImpl ( Arc < AtomicUsize > ) ;
impl ArcWake for ArcWakeImpl {
fn wake_by_ref ( arc_self : & Arc < Self > ) {
arc_self . 0. fetch_add ( 1 , Ordering ::Relaxed ) ;
}
}
let awoken_times = Arc ::new ( AtomicUsize ::new ( 0 ) ) ;
let waker =
futures ::task ::waker ( Arc ::new ( ArcWakeImpl ( awoken_times . clone ( ) ) ) ) ;
let cx = & mut Context ::from_waker ( & waker ) ;
assert! ( matches! ( runtime . poll_event_loop ( cx , false ) , Poll ::Pending ) ) ;
assert_eq! ( 1 , macrotask . load ( Ordering ::Relaxed ) ) ;
assert_eq! ( 1 , next_tick . load ( Ordering ::Relaxed ) ) ;
assert_eq! ( awoken_times . swap ( 0 , Ordering ::Relaxed ) , 1 ) ;
assert! ( matches! ( runtime . poll_event_loop ( cx , false ) , Poll ::Pending ) ) ;
assert_eq! ( awoken_times . swap ( 0 , Ordering ::Relaxed ) , 1 ) ;
assert! ( matches! ( runtime . poll_event_loop ( cx , false ) , Poll ::Pending ) ) ;
assert_eq! ( awoken_times . swap ( 0 , Ordering ::Relaxed ) , 1 ) ;
assert! ( matches! ( runtime . poll_event_loop ( cx , false ) , Poll ::Pending ) ) ;
assert_eq! ( awoken_times . swap ( 0 , Ordering ::Relaxed ) , 1 ) ;
let state_rc = JsRuntime ::state ( runtime . v8_isolate ( ) ) ;
state_rc . borrow_mut ( ) . has_tick_scheduled = false ;
assert! ( matches! (
runtime . poll_event_loop ( cx , false ) ,
Poll ::Ready ( Ok ( ( ) ) )
) ) ;
assert_eq! ( awoken_times . load ( Ordering ::Relaxed ) , 0 ) ;
assert! ( matches! (
runtime . poll_event_loop ( cx , false ) ,
Poll ::Ready ( Ok ( ( ) ) )
) ) ;
assert_eq! ( awoken_times . load ( Ordering ::Relaxed ) , 0 ) ;
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}
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#[ test ]
fn terminate_during_module_eval ( ) {
#[ derive(Default) ]
struct ModsLoader ;
impl ModuleLoader for ModsLoader {
fn resolve (
& self ,
specifier : & str ,
referrer : & str ,
_is_main : bool ,
) -> Result < ModuleSpecifier , Error > {
assert_eq! ( specifier , " file:///main.js " ) ;
assert_eq! ( referrer , " . " ) ;
let s = crate ::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 move {
Ok ( ModuleSource {
code : " console.log('hello world'); " . to_string ( ) ,
module_url_specified : " file:///main.js " . to_string ( ) ,
module_url_found : " file:///main.js " . to_string ( ) ,
} )
}
. boxed_local ( )
}
}
let loader = std ::rc ::Rc ::new ( ModsLoader ::default ( ) ) ;
let mut runtime = JsRuntime ::new ( RuntimeOptions {
module_loader : Some ( loader ) ,
.. Default ::default ( )
} ) ;
let specifier = crate ::resolve_url ( " file:///main.js " ) . unwrap ( ) ;
let source_code = " Deno.core.print('hello \\ n') " . to_string ( ) ;
let module_id = futures ::executor ::block_on (
runtime . load_main_module ( & specifier , Some ( source_code ) ) ,
)
. unwrap ( ) ;
runtime . v8_isolate ( ) . terminate_execution ( ) ;
let mod_result =
futures ::executor ::block_on ( runtime . mod_evaluate ( module_id ) ) . unwrap ( ) ;
assert! ( mod_result
. unwrap_err ( )
. to_string ( )
. contains ( " JavaScript execution has been terminated " ) ) ;
}
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}