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/*
* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2020-2021, Linus Groh <linusg@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/ScopeGuard.h>
#include <AK/StringBuilder.h>
#include <LibJS/Interpreter.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/Error.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/IteratorOperations.h>
#include <LibJS/Runtime/NativeFunction.h>
#include <LibJS/Runtime/PromiseReaction.h>
#include <LibJS/Runtime/Reference.h>
#include <LibJS/Runtime/ScriptFunction.h>
#include <LibJS/Runtime/Symbol.h>
#include <LibJS/Runtime/TemporaryClearException.h>
#include <LibJS/Runtime/VM.h>
namespace JS {
NonnullRefPtr<VM> VM::create()
{
return adopt_ref(*new VM);
}
VM::VM()
: m_heap(*this)
{
m_empty_string = m_heap.allocate_without_global_object<PrimitiveString>(String::empty());
for (size_t i = 0; i < 128; ++i) {
m_single_ascii_character_strings[i] = m_heap.allocate_without_global_object<PrimitiveString>(String::formatted("{:c}", i));
}
m_scope_object_shape = m_heap.allocate_without_global_object<Shape>(Shape::ShapeWithoutGlobalObjectTag::Tag);
#define __JS_ENUMERATE(SymbolName, snake_name) \
m_well_known_symbol_##snake_name = js_symbol(*this, "Symbol." #SymbolName, false);
JS_ENUMERATE_WELL_KNOWN_SYMBOLS
#undef __JS_ENUMERATE
}
VM::~VM()
{
}
Interpreter& VM::interpreter()
{
VERIFY(!m_interpreters.is_empty());
return *m_interpreters.last();
}
Interpreter* VM::interpreter_if_exists()
{
if (m_interpreters.is_empty())
return nullptr;
return m_interpreters.last();
}
void VM::push_interpreter(Interpreter& interpreter)
{
m_interpreters.append(&interpreter);
}
void VM::pop_interpreter(Interpreter& interpreter)
{
VERIFY(!m_interpreters.is_empty());
auto* popped_interpreter = m_interpreters.take_last();
VERIFY(popped_interpreter == &interpreter);
}
VM::InterpreterExecutionScope::InterpreterExecutionScope(Interpreter& interpreter)
: m_interpreter(interpreter)
{
m_interpreter.vm().push_interpreter(m_interpreter);
}
VM::InterpreterExecutionScope::~InterpreterExecutionScope()
{
m_interpreter.vm().pop_interpreter(m_interpreter);
}
void VM::gather_roots(HashTable<Cell*>& roots)
{
roots.set(m_empty_string);
for (auto* string : m_single_ascii_character_strings)
roots.set(string);
roots.set(m_scope_object_shape);
roots.set(m_exception);
if (m_last_value.is_cell())
roots.set(&m_last_value.as_cell());
for (auto& call_frame : m_call_stack) {
if (call_frame->this_value.is_cell())
roots.set(&call_frame->this_value.as_cell());
roots.set(call_frame->arguments_object);
for (auto& argument : call_frame->arguments) {
if (argument.is_cell())
roots.set(&argument.as_cell());
}
roots.set(call_frame->scope);
}
#define __JS_ENUMERATE(SymbolName, snake_name) \
roots.set(well_known_symbol_##snake_name());
JS_ENUMERATE_WELL_KNOWN_SYMBOLS
#undef __JS_ENUMERATE
for (auto& symbol : m_global_symbol_map)
roots.set(symbol.value);
for (auto* job : m_promise_jobs)
roots.set(job);
}
Symbol* VM::get_global_symbol(const String& description)
{
auto result = m_global_symbol_map.get(description);
if (result.has_value())
return result.value();
auto new_global_symbol = js_symbol(*this, description, true);
m_global_symbol_map.set(description, new_global_symbol);
return new_global_symbol;
}
void VM::set_variable(const FlyString& name, Value value, GlobalObject& global_object, bool first_assignment, ScopeObject* specific_scope)
{
Optional<Variable> possible_match;
if (!specific_scope && m_call_stack.size()) {
for (auto* scope = current_scope(); scope; scope = scope->parent()) {
possible_match = scope->get_from_scope(name);
if (possible_match.has_value()) {
specific_scope = scope;
break;
}
}
}
if (specific_scope && possible_match.has_value()) {
if (!first_assignment && possible_match.value().declaration_kind == DeclarationKind::Const) {
throw_exception<TypeError>(global_object, ErrorType::InvalidAssignToConst);
return;
}
specific_scope->put_to_scope(name, { value, possible_match.value().declaration_kind });
return;
}
if (specific_scope) {
specific_scope->put_to_scope(name, { value, DeclarationKind::Var });
return;
}
global_object.put(name, value);
}
void VM::assign(const FlyString& target, Value value, GlobalObject& global_object, bool first_assignment, ScopeObject* specific_scope)
{
set_variable(target, move(value), global_object, first_assignment, specific_scope);
}
void VM::assign(const Variant<NonnullRefPtr<Identifier>, NonnullRefPtr<BindingPattern>>& target, Value value, GlobalObject& global_object, bool first_assignment, ScopeObject* specific_scope)
{
if (auto id_ptr = target.get_pointer<NonnullRefPtr<Identifier>>())
return assign((*id_ptr)->string(), move(value), global_object, first_assignment, specific_scope);
assign(target.get<NonnullRefPtr<BindingPattern>>(), move(value), global_object, first_assignment, specific_scope);
}
void VM::assign(const NonnullRefPtr<BindingPattern>& target, Value value, GlobalObject& global_object, bool first_assignment, ScopeObject* specific_scope)
{
auto& binding = *target;
switch (binding.kind) {
case BindingPattern::Kind::Array: {
auto iterator = get_iterator(global_object, value, "sync"sv, {});
if (!iterator)
return;
size_t index = 0;
while (true) {
if (exception())
return;
if (index >= binding.properties.size())
break;
auto pattern_property = binding.properties[index];
++index;
if (pattern_property.is_rest) {
auto* array = Array::create(global_object);
for (;;) {
auto next_object = iterator_next(*iterator);
if (!next_object)
return;
auto done_property = next_object->get(names.done);
if (exception())
return;
if (!done_property.is_empty() && done_property.to_boolean())
break;
auto next_value = next_object->get(names.value);
if (exception())
return;
array->indexed_properties().append(next_value);
}
value = array;
} else {
auto next_object = iterator_next(*iterator);
if (!next_object)
return;
auto done_property = next_object->get(names.done);
if (exception())
return;
if (!done_property.is_empty() && done_property.to_boolean())
break;
value = next_object->get(names.value);
if (exception())
return;
}
if (value.is_undefined() && pattern_property.initializer)
value = pattern_property.initializer->execute(interpreter(), global_object);
if (exception())
return;
if (pattern_property.name) {
set_variable(pattern_property.name->string(), value, global_object, first_assignment, specific_scope);
if (pattern_property.is_rest)
break;
continue;
}
if (pattern_property.pattern) {
assign(NonnullRefPtr(*pattern_property.pattern), value, global_object, first_assignment, specific_scope);
if (pattern_property.is_rest)
break;
continue;
}
}
break;
}
case BindingPattern::Kind::Object: {
auto object = value.to_object(global_object);
HashTable<FlyString> seen_names;
for (auto& property : binding.properties) {
VERIFY(!property.pattern);
JS::Value value_to_assign;
if (property.is_rest) {
auto* rest_object = Object::create_empty(global_object);
rest_object->set_prototype(nullptr);
for (auto& property : object->shape().property_table()) {
if (!property.value.attributes.has_enumerable())
continue;
if (seen_names.contains(property.key.to_display_string()))
continue;
rest_object->put(property.key, object->get(property.key));
if (exception())
return;
}
value_to_assign = rest_object;
} else {
value_to_assign = object->get(property.name->string());
}
seen_names.set(property.name->string());
if (exception())
break;
auto assignment_name = property.name->string();
if (property.alias)
assignment_name = property.alias->string();
if (value_to_assign.is_empty())
value_to_assign = js_undefined();
if (value_to_assign.is_undefined() && property.initializer)
value_to_assign = property.initializer->execute(interpreter(), global_object);
if (exception())
break;
set_variable(assignment_name, value_to_assign, global_object, first_assignment, specific_scope);
if (property.is_rest)
break;
}
break;
}
}
}
Value VM::get_variable(const FlyString& name, GlobalObject& global_object)
{
if (!m_call_stack.is_empty()) {
if (name == names.arguments && !call_frame().callee.is_empty()) {
// HACK: Special handling for the name "arguments":
// If the name "arguments" is defined in the current scope, for example via
// a function parameter, or by a local var declaration, we use that.
// Otherwise, we return a lazily constructed Array with all the argument values.
// FIXME: Do something much more spec-compliant.
auto possible_match = current_scope()->get_from_scope(name);
if (possible_match.has_value())
return possible_match.value().value;
if (!call_frame().arguments_object) {
call_frame().arguments_object = Array::create(global_object);
call_frame().arguments_object->put(names.callee, call_frame().callee);
for (auto argument : call_frame().arguments) {
call_frame().arguments_object->indexed_properties().append(argument);
}
}
return call_frame().arguments_object;
}
for (auto* scope = current_scope(); scope; scope = scope->parent()) {
auto possible_match = scope->get_from_scope(name);
if (exception())
return {};
if (possible_match.has_value())
return possible_match.value().value;
}
}
auto value = global_object.get(name);
if (m_underscore_is_last_value && name == "_" && value.is_empty())
return m_last_value;
return value;
}
Reference VM::get_reference(const FlyString& name)
{
if (m_call_stack.size()) {
for (auto* scope = current_scope(); scope; scope = scope->parent()) {
if (is<GlobalObject>(scope))
break;
auto possible_match = scope->get_from_scope(name);
if (possible_match.has_value())
return { Reference::LocalVariable, name };
}
}
return { Reference::GlobalVariable, name };
}
Value VM::construct(Function& function, Function& new_target, Optional<MarkedValueList> arguments, GlobalObject& global_object)
{
CallFrame call_frame;
call_frame.callee = &function;
if (auto* interpreter = interpreter_if_exists())
call_frame.current_node = interpreter->current_node();
call_frame.is_strict_mode = function.is_strict_mode();
push_call_frame(call_frame, function.global_object());
if (exception())
return {};
ArmedScopeGuard call_frame_popper = [&] {
pop_call_frame();
};
call_frame.function_name = function.name();
call_frame.arguments = function.bound_arguments();
if (arguments.has_value())
call_frame.arguments.append(arguments.value().values());
auto* environment = function.create_environment();
call_frame.scope = environment;
environment->set_new_target(&new_target);
Object* new_object = nullptr;
if (function.constructor_kind() == Function::ConstructorKind::Base) {
new_object = Object::create_empty(global_object);
environment->bind_this_value(global_object, new_object);
if (exception())
return {};
auto prototype = new_target.get(names.prototype);
if (exception())
return {};
if (prototype.is_object()) {
new_object->set_prototype(&prototype.as_object());
if (exception())
return {};
}
}
// If we are a Derived constructor, |this| has not been constructed before super is called.
Value this_value = function.constructor_kind() == Function::ConstructorKind::Base ? new_object : Value {};
call_frame.this_value = this_value;
auto result = function.construct(new_target);
this_value = call_frame.scope->get_this_binding(global_object);
pop_call_frame();
call_frame_popper.disarm();
// If we are constructing an instance of a derived class,
// set the prototype on objects created by constructors that return an object (i.e. NativeFunction subclasses).
if (function.constructor_kind() == Function::ConstructorKind::Base && new_target.constructor_kind() == Function::ConstructorKind::Derived && result.is_object()) {
VERIFY(is<LexicalEnvironment>(current_scope()));
static_cast<LexicalEnvironment*>(current_scope())->replace_this_binding(result);
auto prototype = new_target.get(names.prototype);
if (exception())
return {};
if (prototype.is_object()) {
result.as_object().set_prototype(&prototype.as_object());
if (exception())
return {};
}
return result;
}
if (exception())
return {};
if (result.is_object())
return result;
return this_value;
}
void VM::throw_exception(Exception& exception)
{
set_exception(exception);
unwind(ScopeType::Try);
}
String VM::join_arguments(size_t start_index) const
{
StringBuilder joined_arguments;
for (size_t i = start_index; i < argument_count(); ++i) {
joined_arguments.append(argument(i).to_string_without_side_effects().characters());
if (i != argument_count() - 1)
joined_arguments.append(' ');
}
return joined_arguments.build();
}
Value VM::resolve_this_binding(GlobalObject& global_object) const
{
return find_this_scope()->get_this_binding(global_object);
}
const ScopeObject* VM::find_this_scope() const
{
// We will always return because the Global environment will always be reached, which has a |this| binding.
for (auto* scope = current_scope(); scope; scope = scope->parent()) {
if (scope->has_this_binding())
return scope;
}
VERIFY_NOT_REACHED();
}
Value VM::get_new_target() const
{
VERIFY(is<LexicalEnvironment>(find_this_scope()));
return static_cast<const LexicalEnvironment*>(find_this_scope())->new_target();
}
Value VM::call_internal(Function& function, Value this_value, Optional<MarkedValueList> arguments)
{
VERIFY(!exception());
VERIFY(!this_value.is_empty());
CallFrame call_frame;
call_frame.callee = &function;
if (auto* interpreter = interpreter_if_exists())
call_frame.current_node = interpreter->current_node();
call_frame.is_strict_mode = function.is_strict_mode();
call_frame.function_name = function.name();
call_frame.this_value = function.bound_this().value_or(this_value);
call_frame.arguments = function.bound_arguments();
if (arguments.has_value())
call_frame.arguments.append(arguments.value().values());
auto* environment = function.create_environment();
call_frame.scope = environment;
VERIFY(environment->this_binding_status() == LexicalEnvironment::ThisBindingStatus::Uninitialized);
environment->bind_this_value(function.global_object(), call_frame.this_value);
if (exception())
return {};
push_call_frame(call_frame, function.global_object());
if (exception())
return {};
auto result = function.call();
pop_call_frame();
return result;
}
bool VM::in_strict_mode() const
{
if (call_stack().is_empty())
return false;
return call_frame().is_strict_mode;
}
void VM::run_queued_promise_jobs()
{
dbgln_if(PROMISE_DEBUG, "Running queued promise jobs");
// Temporarily get rid of the exception, if any - job functions must be called
// either way, and that can't happen if we already have an exception stored.
TemporaryClearException clear_exception(*this);
while (!m_promise_jobs.is_empty()) {
auto* job = m_promise_jobs.take_first();
dbgln_if(PROMISE_DEBUG, "Calling promise job function @ {}", job);
[[maybe_unused]] auto result = call(*job, js_undefined());
}
// Ensure no job has created a new exception, they must clean up after themselves.
VERIFY(!m_exception);
}
// 9.4.4 HostEnqueuePromiseJob, https://tc39.es/ecma262/#sec-hostenqueuepromisejob
void VM::enqueue_promise_job(NativeFunction& job)
{
m_promise_jobs.append(&job);
}
// 27.2.1.9 HostPromiseRejectionTracker, https://tc39.es/ecma262/#sec-host-promise-rejection-tracker
void VM::promise_rejection_tracker(const Promise& promise, Promise::RejectionOperation operation) const
{
switch (operation) {
case Promise::RejectionOperation::Reject:
// A promise was rejected without any handlers
if (on_promise_unhandled_rejection)
on_promise_unhandled_rejection(promise);
break;
case Promise::RejectionOperation::Handle:
// A handler was added to an already rejected promise
if (on_promise_rejection_handled)
on_promise_rejection_handled(promise);
break;
default:
VERIFY_NOT_REACHED();
}
}
}
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