mirror of
https://github.com/denoland/deno.git
synced 2024-10-29 08:58:01 -04:00
f57745fe21
- upgrade to v8 12.8 - optimizes DataView bigint methods - fixes global interceptors - includes CPED methods for ALS - fix global resolution - makes global resolution consistent using host_defined_options. originally a separate patch but due to the global interceptor bug it needs to be included in this pr for all tests to pass.
477 lines
14 KiB
Rust
477 lines
14 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use deno_core::v8;
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use deno_core::v8::GetPropertyNamesArgs;
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use deno_core::v8::MapFnTo;
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// NOTE(bartlomieju): somehow calling `.map_fn_to()` multiple times on a function
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// returns two different pointers. That shouldn't be the case as `.map_fn_to()`
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// creates a thin wrapper that is a pure function. @piscisaureus suggests it
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// might be a bug in Rust compiler; so for now we just create and store
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// these mapped functions per-thread. We should revisit it in the future and
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// ideally remove altogether.
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thread_local! {
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pub static GETTER_MAP_FN: v8::NamedPropertyGetterCallback<'static> = getter.map_fn_to();
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pub static SETTER_MAP_FN: v8::NamedPropertySetterCallback<'static> = setter.map_fn_to();
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pub static QUERY_MAP_FN: v8::NamedPropertyQueryCallback<'static> = query.map_fn_to();
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pub static DELETER_MAP_FN: v8::NamedPropertyDeleterCallback<'static> = deleter.map_fn_to();
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pub static ENUMERATOR_MAP_FN: v8::NamedPropertyEnumeratorCallback<'static> = enumerator.map_fn_to();
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pub static DEFINER_MAP_FN: v8::NamedPropertyDefinerCallback<'static> = definer.map_fn_to();
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pub static DESCRIPTOR_MAP_FN: v8::NamedPropertyGetterCallback<'static> = descriptor.map_fn_to();
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}
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/// Convert an ASCII string to a UTF-16 byte encoding of the string.
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const fn str_to_utf16<const N: usize>(s: &str) -> [u16; N] {
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let mut out = [0_u16; N];
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let mut i = 0;
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let bytes = s.as_bytes();
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assert!(N == bytes.len());
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while i < bytes.len() {
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assert!(bytes[i] < 128, "only works for ASCII strings");
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out[i] = bytes[i] as u16;
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i += 1;
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}
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out
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}
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// ext/node changes the global object to be a proxy object that intercepts all
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// property accesses for globals that are different between Node and Deno and
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// dynamically returns a different value depending on if the accessing code is
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// in node_modules/ or not.
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//
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// To make this performant, a v8 named property handler is used, that only
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// intercepts property accesses for properties that are not already present on
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// the global object (it is non-masking). This means that in the common case,
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// when a user accesses a global that is the same between Node and Deno (like
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// Uint8Array or fetch), the proxy overhead is avoided.
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//
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// The Deno and Node specific globals are stored in a struct in a context slot.
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//
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// These are the globals that are handled:
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// - Buffer (node only)
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// - clearImmediate (node only)
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// - clearInterval (both, but different implementation)
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// - clearTimeout (both, but different implementation)
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// - console (both, but different implementation)
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// - global (node only)
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// - performance (both, but different implementation)
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// - process (node only)
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// - setImmediate (node only)
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// - setInterval (both, but different implementation)
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// - setTimeout (both, but different implementation)
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// - window (deno only)
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// UTF-16 encodings of the managed globals. THIS LIST MUST BE SORTED.
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#[rustfmt::skip]
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const MANAGED_GLOBALS: [&[u16]; 13] = [
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&str_to_utf16::<6>("Buffer"),
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&str_to_utf16::<14>("clearImmediate"),
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&str_to_utf16::<13>("clearInterval"),
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&str_to_utf16::<12>("clearTimeout"),
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&str_to_utf16::<7>("console"),
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&str_to_utf16::<6>("global"),
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&str_to_utf16::<11>("performance"),
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&str_to_utf16::<7>("process"),
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&str_to_utf16::<4>("self"),
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&str_to_utf16::<12>("setImmediate"),
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&str_to_utf16::<11>("setInterval"),
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&str_to_utf16::<10>("setTimeout"),
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&str_to_utf16::<6>("window"),
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];
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const SHORTEST_MANAGED_GLOBAL: usize = 4;
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const LONGEST_MANAGED_GLOBAL: usize = 14;
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#[derive(Debug, Clone, Copy)]
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enum Mode {
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Deno,
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Node,
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}
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struct GlobalsStorage {
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deno_globals: v8::Global<v8::Object>,
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node_globals: v8::Global<v8::Object>,
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}
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impl GlobalsStorage {
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fn inner_for_mode(&self, mode: Mode) -> v8::Global<v8::Object> {
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match mode {
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Mode::Deno => &self.deno_globals,
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Mode::Node => &self.node_globals,
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}
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.clone()
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}
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}
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pub fn global_template_middleware<'s>(
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_scope: &mut v8::HandleScope<'s, ()>,
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template: v8::Local<'s, v8::ObjectTemplate>,
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) -> v8::Local<'s, v8::ObjectTemplate> {
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let mut config = v8::NamedPropertyHandlerConfiguration::new().flags(
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v8::PropertyHandlerFlags::NON_MASKING
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| v8::PropertyHandlerFlags::HAS_NO_SIDE_EFFECT,
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);
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config = GETTER_MAP_FN.with(|getter| config.getter_raw(*getter));
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config = SETTER_MAP_FN.with(|setter| config.setter_raw(*setter));
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config = QUERY_MAP_FN.with(|query| config.query_raw(*query));
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config = DELETER_MAP_FN.with(|deleter| config.deleter_raw(*deleter));
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config =
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ENUMERATOR_MAP_FN.with(|enumerator| config.enumerator_raw(*enumerator));
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config = DEFINER_MAP_FN.with(|definer| config.definer_raw(*definer));
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config =
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DESCRIPTOR_MAP_FN.with(|descriptor| config.descriptor_raw(*descriptor));
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template.set_named_property_handler(config);
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template
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}
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pub fn global_object_middleware<'s>(
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scope: &mut v8::HandleScope<'s>,
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global: v8::Local<'s, v8::Object>,
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) {
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// ensure the global object is not Object.prototype
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let object_key =
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v8::String::new_external_onebyte_static(scope, b"Object").unwrap();
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let object = global
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.get(scope, object_key.into())
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.unwrap()
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.to_object(scope)
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.unwrap();
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let prototype_key =
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v8::String::new_external_onebyte_static(scope, b"prototype").unwrap();
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let object_prototype = object
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.get(scope, prototype_key.into())
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.unwrap()
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.to_object(scope)
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.unwrap();
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assert_ne!(global, object_prototype);
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// globalThis.__bootstrap.ext_node_denoGlobals and
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// globalThis.__bootstrap.ext_node_nodeGlobals are the objects that contain
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// the Deno and Node specific globals respectively. If they do not yet exist
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// on the global object, create them as null prototype objects.
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let bootstrap_key =
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v8::String::new_external_onebyte_static(scope, b"__bootstrap").unwrap();
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let bootstrap = match global.get(scope, bootstrap_key.into()) {
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Some(value) if value.is_object() => value.to_object(scope).unwrap(),
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Some(value) if value.is_undefined() => {
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let null = v8::null(scope);
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let obj =
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v8::Object::with_prototype_and_properties(scope, null.into(), &[], &[]);
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global.set(scope, bootstrap_key.into(), obj.into());
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obj
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}
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_ => panic!("__bootstrap should not be tampered with"),
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};
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let deno_globals_key =
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v8::String::new_external_onebyte_static(scope, b"ext_node_denoGlobals")
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.unwrap();
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let deno_globals = match bootstrap.get(scope, deno_globals_key.into()) {
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Some(value) if value.is_object() => value,
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Some(value) if value.is_undefined() => {
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let null = v8::null(scope);
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let obj =
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v8::Object::with_prototype_and_properties(scope, null.into(), &[], &[])
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.into();
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bootstrap.set(scope, deno_globals_key.into(), obj);
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obj
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}
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_ => panic!("__bootstrap.ext_node_denoGlobals should not be tampered with"),
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};
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let deno_globals_obj: v8::Local<v8::Object> =
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deno_globals.try_into().unwrap();
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let deno_globals = v8::Global::new(scope, deno_globals_obj);
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let node_globals_key =
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v8::String::new_external_onebyte_static(scope, b"ext_node_nodeGlobals")
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.unwrap();
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let node_globals = match bootstrap.get(scope, node_globals_key.into()) {
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Some(value) if value.is_object() => value,
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Some(value) if value.is_undefined() => {
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let null = v8::null(scope);
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let obj =
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v8::Object::with_prototype_and_properties(scope, null.into(), &[], &[])
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.into();
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bootstrap.set(scope, node_globals_key.into(), obj);
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obj
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}
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_ => panic!("__bootstrap.ext_node_nodeGlobals should not be tampered with"),
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};
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let node_globals_obj: v8::Local<v8::Object> =
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node_globals.try_into().unwrap();
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let node_globals = v8::Global::new(scope, node_globals_obj);
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// Create the storage struct and store it in a context slot.
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let storage = GlobalsStorage {
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deno_globals,
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node_globals,
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};
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scope.get_current_context().set_slot(scope, storage);
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}
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fn is_managed_key(
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scope: &mut v8::HandleScope,
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key: v8::Local<v8::Name>,
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) -> bool {
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let Ok(str): Result<v8::Local<v8::String>, _> = key.try_into() else {
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return false;
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};
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let len = str.length();
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#[allow(clippy::manual_range_contains)]
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if len < SHORTEST_MANAGED_GLOBAL || len > LONGEST_MANAGED_GLOBAL {
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return false;
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}
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let buf = &mut [0u16; LONGEST_MANAGED_GLOBAL];
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let written = str.write(
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scope,
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buf.as_mut_slice(),
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0,
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v8::WriteOptions::NO_NULL_TERMINATION,
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);
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assert_eq!(written, len);
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MANAGED_GLOBALS.binary_search(&&buf[..len]).is_ok()
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}
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fn current_mode(scope: &mut v8::HandleScope) -> Mode {
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let Some(host_defined_options) = scope.get_current_host_defined_options()
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else {
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return Mode::Deno;
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};
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// SAFETY: host defined options must always be a PrimitiveArray in current V8.
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let host_defined_options = unsafe {
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v8::Local::<v8::PrimitiveArray>::cast_unchecked(host_defined_options)
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};
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if host_defined_options.length() < 1 {
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return Mode::Deno;
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}
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let is_node = host_defined_options.get(scope, 0).is_true();
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if is_node {
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Mode::Node
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} else {
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Mode::Deno
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}
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}
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pub fn getter<'s>(
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scope: &mut v8::HandleScope<'s>,
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key: v8::Local<'s, v8::Name>,
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args: v8::PropertyCallbackArguments<'s>,
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mut rv: v8::ReturnValue,
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) -> v8::Intercepted {
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if !is_managed_key(scope, key) {
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return v8::Intercepted::No;
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};
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let this = args.this();
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let mode = current_mode(scope);
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let context = scope.get_current_context();
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let inner = {
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let storage = context.get_slot::<GlobalsStorage>(scope).unwrap();
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storage.inner_for_mode(mode)
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};
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let inner = v8::Local::new(scope, inner);
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if !inner.has_own_property(scope, key).unwrap_or(false) {
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return v8::Intercepted::No;
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}
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let Some(value) = inner.get_with_receiver(scope, key.into(), this) else {
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return v8::Intercepted::No;
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};
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rv.set(value);
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v8::Intercepted::Yes
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}
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pub fn setter<'s>(
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scope: &mut v8::HandleScope<'s>,
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key: v8::Local<'s, v8::Name>,
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value: v8::Local<'s, v8::Value>,
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args: v8::PropertyCallbackArguments<'s>,
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mut rv: v8::ReturnValue<()>,
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) -> v8::Intercepted {
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if !is_managed_key(scope, key) {
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return v8::Intercepted::No;
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};
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let this = args.this();
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let mode = current_mode(scope);
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let context = scope.get_current_context();
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let inner = {
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let storage = context.get_slot::<GlobalsStorage>(scope).unwrap();
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storage.inner_for_mode(mode)
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};
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let inner = v8::Local::new(scope, inner);
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let Some(success) = inner.set_with_receiver(scope, key.into(), value, this)
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else {
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return v8::Intercepted::No;
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};
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rv.set_bool(success);
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v8::Intercepted::Yes
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}
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pub fn query<'s>(
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scope: &mut v8::HandleScope<'s>,
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key: v8::Local<'s, v8::Name>,
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_args: v8::PropertyCallbackArguments<'s>,
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mut rv: v8::ReturnValue<v8::Integer>,
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) -> v8::Intercepted {
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if !is_managed_key(scope, key) {
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return v8::Intercepted::No;
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};
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let mode = current_mode(scope);
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let context = scope.get_current_context();
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let inner = {
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let storage = context.get_slot::<GlobalsStorage>(scope).unwrap();
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storage.inner_for_mode(mode)
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};
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let inner = v8::Local::new(scope, inner);
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let Some(true) = inner.has_own_property(scope, key) else {
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return v8::Intercepted::No;
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};
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let Some(attributes) = inner.get_property_attributes(scope, key.into())
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else {
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return v8::Intercepted::No;
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};
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rv.set_uint32(attributes.as_u32());
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v8::Intercepted::Yes
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}
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pub fn deleter<'s>(
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scope: &mut v8::HandleScope<'s>,
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key: v8::Local<'s, v8::Name>,
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args: v8::PropertyCallbackArguments<'s>,
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mut rv: v8::ReturnValue<v8::Boolean>,
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) -> v8::Intercepted {
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if !is_managed_key(scope, key) {
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return v8::Intercepted::No;
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};
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let mode = current_mode(scope);
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let context = scope.get_current_context();
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let inner = {
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let storage = context.get_slot::<GlobalsStorage>(scope).unwrap();
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storage.inner_for_mode(mode)
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};
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let inner = v8::Local::new(scope, inner);
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let Some(success) = inner.delete(scope, key.into()) else {
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return v8::Intercepted::No;
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};
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if args.should_throw_on_error() && !success {
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let message = v8::String::new(scope, "Cannot delete property").unwrap();
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let exception = v8::Exception::type_error(scope, message);
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scope.throw_exception(exception);
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return v8::Intercepted::Yes;
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}
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rv.set_bool(success);
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v8::Intercepted::Yes
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}
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pub fn enumerator<'s>(
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scope: &mut v8::HandleScope<'s>,
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_args: v8::PropertyCallbackArguments<'s>,
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mut rv: v8::ReturnValue<v8::Array>,
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) {
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let mode = current_mode(scope);
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let context = scope.get_current_context();
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let inner = {
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let storage = context.get_slot::<GlobalsStorage>(scope).unwrap();
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storage.inner_for_mode(mode)
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};
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let inner = v8::Local::new(scope, inner);
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let Some(array) = inner.get_property_names(
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scope,
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GetPropertyNamesArgs {
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mode: v8::KeyCollectionMode::OwnOnly,
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property_filter: v8::PropertyFilter::ALL_PROPERTIES,
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..Default::default()
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},
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) else {
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return;
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};
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rv.set(array);
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}
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pub fn definer<'s>(
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scope: &mut v8::HandleScope<'s>,
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key: v8::Local<'s, v8::Name>,
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descriptor: &v8::PropertyDescriptor,
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args: v8::PropertyCallbackArguments<'s>,
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_rv: v8::ReturnValue<()>,
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) -> v8::Intercepted {
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if !is_managed_key(scope, key) {
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return v8::Intercepted::No;
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};
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let mode = current_mode(scope);
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let context = scope.get_current_context();
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let inner = {
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let storage = context.get_slot::<GlobalsStorage>(scope).unwrap();
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storage.inner_for_mode(mode)
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};
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let inner = v8::Local::new(scope, inner);
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let Some(success) = inner.define_property(scope, key, descriptor) else {
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return v8::Intercepted::No;
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};
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if args.should_throw_on_error() && !success {
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let message = v8::String::new(scope, "Cannot define property").unwrap();
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let exception = v8::Exception::type_error(scope, message);
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scope.throw_exception(exception);
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}
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v8::Intercepted::Yes
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}
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pub fn descriptor<'s>(
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scope: &mut v8::HandleScope<'s>,
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key: v8::Local<'s, v8::Name>,
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_args: v8::PropertyCallbackArguments<'s>,
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mut rv: v8::ReturnValue,
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) -> v8::Intercepted {
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if !is_managed_key(scope, key) {
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return v8::Intercepted::No;
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};
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let mode = current_mode(scope);
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let scope = &mut v8::TryCatch::new(scope);
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let context = scope.get_current_context();
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let inner = {
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let storage = context.get_slot::<GlobalsStorage>(scope).unwrap();
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storage.inner_for_mode(mode)
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};
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let inner = v8::Local::new(scope, inner);
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let Some(descriptor) = inner.get_own_property_descriptor(scope, key) else {
|
|
scope.rethrow().expect("to have caught an exception");
|
|
return v8::Intercepted::Yes;
|
|
};
|
|
|
|
if descriptor.is_undefined() {
|
|
return v8::Intercepted::No;
|
|
}
|
|
|
|
rv.set(descriptor);
|
|
v8::Intercepted::Yes
|
|
}
|