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serenity/Userland/Libraries/LibWeb/Bindings/MainThreadVM.cpp
Linus Groh 9422ae9bb2 LibJS: Add infallible variant of VM::push_execution_context() 
It makes no sense to require passing a global object and doing a stack
space check in some cases where running out of stack is highly unlikely,
we can't recover from errors, and currently ignore the result anyway.

This is most commonly in constructors and when setting things up, rather
than regular function calls.
2022-03-18 01:12:12 +01:00

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/*
* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, Luke Wilde <lukew@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibJS/Module.h>
#include <LibJS/Runtime/Environment.h>
#include <LibJS/Runtime/FinalizationRegistry.h>
#include <LibJS/Runtime/NativeFunction.h>
#include <LibJS/Runtime/VM.h>
#include <LibWeb/Bindings/MainThreadVM.h>
#include <LibWeb/DOM/Document.h>
#include <LibWeb/HTML/PromiseRejectionEvent.h>
#include <LibWeb/HTML/Scripting/ClassicScript.h>
#include <LibWeb/HTML/Scripting/Environments.h>
#include <LibWeb/HTML/Scripting/ExceptionReporter.h>
#include <LibWeb/HTML/Window.h>
namespace Web::Bindings {
// https://html.spec.whatwg.org/multipage/webappapis.html#active-script
HTML::ClassicScript* active_script()
{
// 1. Let record be GetActiveScriptOrModule().
auto record = main_thread_vm().get_active_script_or_module();
// 2. If record is null, return null.
if (record.has<Empty>())
return nullptr;
// 3. Return record.[[HostDefined]].
if (record.has<WeakPtr<JS::Module>>()) {
// FIXME: We don't currently have a module script.
TODO();
}
auto js_script = record.get<WeakPtr<JS::Script>>();
VERIFY(js_script);
VERIFY(js_script->host_defined());
return verify_cast<HTML::ClassicScript>(js_script->host_defined());
}
JS::VM& main_thread_vm()
{
static RefPtr<JS::VM> vm;
if (!vm) {
vm = JS::VM::create(make<WebEngineCustomData>());
static_cast<WebEngineCustomData*>(vm->custom_data())->event_loop.set_vm(*vm);
// FIXME: Implement 8.1.5.1 HostEnsureCanCompileStrings(callerRealm, calleeRealm), https://html.spec.whatwg.org/multipage/webappapis.html#hostensurecancompilestrings(callerrealm,-calleerealm)
// 8.1.5.2 HostPromiseRejectionTracker(promise, operation), https://html.spec.whatwg.org/multipage/webappapis.html#the-hostpromiserejectiontracker-implementation
vm->host_promise_rejection_tracker = [](JS::Promise& promise, JS::Promise::RejectionOperation operation) {
// 1. Let script be the running script.
// The running script is the script in the [[HostDefined]] field in the ScriptOrModule component of the running JavaScript execution context.
// FIXME: This currently assumes there's only a ClassicScript.
HTML::ClassicScript* script { nullptr };
vm->running_execution_context().script_or_module.visit(
[&script](WeakPtr<JS::Script>& js_script) {
script = verify_cast<HTML::ClassicScript>(js_script->host_defined());
},
[](WeakPtr<JS::Module>&) {
TODO();
},
[](Empty) {
});
// If there's no script, we're out of luck. Return.
// FIXME: This can happen from JS::NativeFunction, which makes its callee contexts [[ScriptOrModule]] null.
if (!script) {
dbgln("FIXME: Unable to process unhandled promise rejection in host_promise_rejection_tracker as the running script is null.");
return;
}
// 2. If script's muted errors is true, terminate these steps.
if (script->muted_errors() == HTML::ClassicScript::MutedErrors::Yes)
return;
// 3. Let settings object be script's settings object.
auto& settings_object = script->settings_object();
switch (operation) {
case JS::Promise::RejectionOperation::Reject:
// 4. If operation is "reject",
// 1. Add promise to settings object's about-to-be-notified rejected promises list.
settings_object.push_onto_about_to_be_notified_rejected_promises_list(JS::make_handle(&promise));
break;
case JS::Promise::RejectionOperation::Handle: {
// 5. If operation is "handle",
// 1. If settings object's about-to-be-notified rejected promises list contains promise, then remove promise from that list and return.
bool removed_about_to_be_notified_rejected_promise = settings_object.remove_from_about_to_be_notified_rejected_promises_list(&promise);
if (removed_about_to_be_notified_rejected_promise)
return;
// 3. Remove promise from settings object's outstanding rejected promises weak set.
bool removed_outstanding_rejected_promise = settings_object.remove_from_outstanding_rejected_promises_weak_set(&promise);
// 2. If settings object's outstanding rejected promises weak set does not contain promise, then return.
// NOTE: This is done out of order because removed_outstanding_rejected_promise will be false if the promise wasn't in the set or true if it was and got removed.
if (!removed_outstanding_rejected_promise)
return;
// 4. Let global be settings object's global object.
auto& global = settings_object.global_object();
// 5. Queue a global task on the DOM manipulation task source given global to fire an event named rejectionhandled at global, using PromiseRejectionEvent,
// with the promise attribute initialized to promise, and the reason attribute initialized to the value of promise's [[PromiseResult]] internal slot.
HTML::queue_global_task(HTML::Task::Source::DOMManipulation, global, [global = JS::make_handle(&global), promise = JS::make_handle(&promise)]() mutable {
// FIXME: This currently assumes that global is a WindowObject.
auto& window = verify_cast<Bindings::WindowObject>(*global.cell());
HTML::PromiseRejectionEventInit event_init {
{}, // Initialize the inherited DOM::EventInit
/* .promise = */ promise,
/* .reason = */ promise.cell()->result(),
};
auto promise_rejection_event = HTML::PromiseRejectionEvent::create(HTML::EventNames::rejectionhandled, event_init);
window.impl().dispatch_event(move(promise_rejection_event));
});
break;
}
default:
VERIFY_NOT_REACHED();
}
};
// 8.1.5.3.1 HostCallJobCallback(callback, V, argumentsList), https://html.spec.whatwg.org/multipage/webappapis.html#hostcalljobcallback
vm->host_call_job_callback = [](JS::GlobalObject& global_object, JS::JobCallback& callback, JS::Value this_value, JS::MarkedVector<JS::Value> arguments_list) {
auto& callback_host_defined = verify_cast<WebEngineCustomJobCallbackData>(*callback.custom_data);
// 1. Let incumbent settings be callback.[[HostDefined]].[[IncumbentSettings]]. (NOTE: Not necessary)
// 2. Let script execution context be callback.[[HostDefined]].[[ActiveScriptContext]]. (NOTE: Not necessary)
// 3. Prepare to run a callback with incumbent settings.
callback_host_defined.incumbent_settings.prepare_to_run_callback();
// 4. If script execution context is not null, then push script execution context onto the JavaScript execution context stack.
if (callback_host_defined.active_script_context)
vm->push_execution_context(*callback_host_defined.active_script_context);
// 5. Let result be Call(callback.[[Callback]], V, argumentsList).
auto result = JS::call(global_object, *callback.callback.cell(), this_value, move(arguments_list));
// 6. If script execution context is not null, then pop script execution context from the JavaScript execution context stack.
if (callback_host_defined.active_script_context) {
VERIFY(&vm->running_execution_context() == callback_host_defined.active_script_context.ptr());
vm->pop_execution_context();
}
// 7. Clean up after running a callback with incumbent settings.
callback_host_defined.incumbent_settings.clean_up_after_running_callback();
// 8. Return result.
return result;
};
// 8.1.5.3.2 HostEnqueueFinalizationRegistryCleanupJob(finalizationRegistry), https://html.spec.whatwg.org/multipage/webappapis.html#hostenqueuefinalizationregistrycleanupjob
vm->host_enqueue_finalization_registry_cleanup_job = [](JS::FinalizationRegistry& finalization_registry) mutable {
// 1. Let global be finalizationRegistry.[[Realm]]'s global object.
auto& global = finalization_registry.realm().global_object();
// 2. Queue a global task on the JavaScript engine task source given global to perform the following steps:
HTML::queue_global_task(HTML::Task::Source::JavaScriptEngine, global, [finalization_registry = JS::make_handle(&finalization_registry)]() mutable {
// 1. Let entry be finalizationRegistry.[[CleanupCallback]].[[Callback]].[[Realm]]'s environment settings object.
auto& entry = verify_cast<HTML::EnvironmentSettingsObject>(*finalization_registry.cell()->cleanup_callback().callback.cell()->realm()->host_defined());
// 2. Check if we can run script with entry. If this returns "do not run", then return.
if (entry.can_run_script() == HTML::RunScriptDecision::DoNotRun)
return;
// 3. Prepare to run script with entry.
entry.prepare_to_run_script();
// 4. Let result be the result of performing CleanupFinalizationRegistry(finalizationRegistry).
auto result = finalization_registry.cell()->cleanup();
// 5. Clean up after running script with entry.
entry.clean_up_after_running_script();
// 6. If result is an abrupt completion, then report the exception given by result.[[Value]].
if (result.is_error())
HTML::report_exception(result);
});
};
// 8.1.5.3.3 HostEnqueuePromiseJob(job, realm), https://html.spec.whatwg.org/multipage/webappapis.html#hostenqueuepromisejob
vm->host_enqueue_promise_job = [](Function<JS::ThrowCompletionOr<JS::Value>()> job, JS::Realm* realm) {
// 1. If realm is not null, then let job settings be the settings object for realm. Otherwise, let job settings be null.
HTML::EnvironmentSettingsObject* job_settings { nullptr };
if (realm)
job_settings = verify_cast<HTML::EnvironmentSettingsObject>(realm->host_defined());
// IMPLEMENTATION DEFINED: The JS spec says we must take implementation defined steps to make the currently active script or module at the time of HostEnqueuePromiseJob being invoked
// also be the active script or module of the job at the time of its invocation.
// This means taking it here now and passing it through to the lambda.
auto script_or_module = vm->get_active_script_or_module();
// 2. Queue a microtask on the surrounding agent's event loop to perform the following steps:
// This instance of "queue a microtask" uses the "implied document". The best fit for "implied document" here is "If the task is being queued by or for a script, then return the script's settings object's responsible document."
// Do note that "implied document" from the spec is handwavy and the spec authors are trying to get rid of it: https://github.com/whatwg/html/issues/4980
auto* script = active_script();
// NOTE: This keeps job_settings alive by keeping realm alive, which is holding onto job_settings.
HTML::queue_a_microtask(script ? script->settings_object().responsible_document().ptr() : nullptr, [job_settings, job = move(job), realm = realm ? JS::make_handle(realm) : JS::Handle<JS::Realm> {}, script_or_module = move(script_or_module)]() mutable {
// The dummy execution context has to be kept up here to keep it alive for the duration of the function.
Optional<JS::ExecutionContext> dummy_execution_context;
if (job_settings) {
// 1. If job settings is not null, then check if we can run script with job settings. If this returns "do not run" then return.
if (job_settings->can_run_script() == HTML::RunScriptDecision::DoNotRun)
return;
// 2. If job settings is not null, then prepare to run script with job settings.
job_settings->prepare_to_run_script();
// IMPLEMENTATION DEFINED: Per the previous "implementation defined" comment, we must now make the script or module the active script or module.
// Since the only active execution context currently is the realm execution context of job settings, lets attach it here.
job_settings->realm_execution_context().script_or_module = script_or_module;
} else {
// FIXME: We need to setup a dummy execution context in case a JS::NativeFunction is called when processing the job.
// This is because JS::NativeFunction::call excepts something to be on the execution context stack to be able to get the caller context to initialize the environment.
// Since this requires pushing an execution context onto the stack, it also requires a global object. The only thing we can get a global object from in this case is the script or module.
// To do this, we must assume script or module is not Empty. We must also assume that it is a Script Record for now as we don't currently run modules.
// Do note that the JS spec gives _no_ guarantee that the execution context stack has something on it if HostEnqueuePromiseJob was called with a null realm: https://tc39.es/ecma262/#job-preparedtoevaluatecode
VERIFY(script_or_module.has<WeakPtr<JS::Script>>());
auto script_record = script_or_module.get<WeakPtr<JS::Script>>();
dummy_execution_context = JS::ExecutionContext { vm->heap() };
dummy_execution_context->script_or_module = script_or_module;
vm->push_execution_context(dummy_execution_context.value());
}
// 3. Let result be job().
[[maybe_unused]] auto result = job();
// 4. If job settings is not null, then clean up after running script with job settings.
if (job_settings) {
// IMPLEMENTATION DEFINED: Disassociate the realm execution context from the script or module.
job_settings->realm_execution_context().script_or_module = Empty {};
job_settings->clean_up_after_running_script();
} else {
// Pop off the dummy execution context. See the above FIXME block about why this is done.
vm->pop_execution_context();
}
// 5. If result is an abrupt completion, then report the exception given by result.[[Value]].
if (result.is_error())
HTML::report_exception(result);
});
};
// 8.1.5.3.4 HostMakeJobCallback(callable), https://html.spec.whatwg.org/multipage/webappapis.html#hostmakejobcallback
vm->host_make_job_callback = [](JS::FunctionObject& callable) -> JS::JobCallback {
// 1. Let incumbent settings be the incumbent settings object.
auto& incumbent_settings = HTML::incumbent_settings_object();
// 2. Let active script be the active script.
auto* script = active_script();
// 3. Let script execution context be null.
OwnPtr<JS::ExecutionContext> script_execution_context;
// 4. If active script is not null, set script execution context to a new JavaScript execution context, with its Function field set to null,
// its Realm field set to active script's settings object's Realm, and its ScriptOrModule set to active script's record.
if (script) {
script_execution_context = adopt_own(*new JS::ExecutionContext(vm->heap()));
script_execution_context->function = nullptr;
script_execution_context->realm = &script->settings_object().realm();
VERIFY(script->script_record());
script_execution_context->script_or_module = script->script_record()->make_weak_ptr();
}
// 5. Return the JobCallback Record { [[Callback]]: callable, [[HostDefined]]: { [[IncumbentSettings]]: incumbent settings, [[ActiveScriptContext]]: script execution context } }.
auto host_defined = adopt_own(*new WebEngineCustomJobCallbackData(incumbent_settings, move(script_execution_context)));
return { JS::make_handle(&callable), move(host_defined) };
};
// FIXME: Implement 8.1.5.4.1 HostGetImportMetaProperties(moduleRecord), https://html.spec.whatwg.org/multipage/webappapis.html#hostgetimportmetaproperties
// FIXME: Implement 8.1.5.4.2 HostImportModuleDynamically(referencingScriptOrModule, moduleRequest, promiseCapability), https://html.spec.whatwg.org/multipage/webappapis.html#hostimportmoduledynamically(referencingscriptormodule,-modulerequest,-promisecapability)
// FIXME: Implement 8.1.5.4.3 HostResolveImportedModule(referencingScriptOrModule, moduleRequest), https://html.spec.whatwg.org/multipage/webappapis.html#hostresolveimportedmodule(referencingscriptormodule,-modulerequest)
// FIXME: Implement 8.1.5.4.4 HostGetSupportedImportAssertions(), https://html.spec.whatwg.org/multipage/webappapis.html#hostgetsupportedimportassertions
vm->host_resolve_imported_module = [&](JS::ScriptOrModule, JS::ModuleRequest const&) -> JS::ThrowCompletionOr<NonnullRefPtr<JS::Module>> {
return vm->throw_completion<JS::InternalError>(vm->current_realm()->global_object(), JS::ErrorType::NotImplemented, "Modules in the browser");
};
}
return *vm;
}
}
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