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b99cc7d05039b9386538a581244be5af782c8d05
ladybird/Userland/Libraries/LibJS/Runtime/ShadowRealm.cpp
Linus Groh b99cc7d050 LibJS+LibWeb: Replace GlobalObject with Realm in create() functions 
This is a continuation of the previous two commits.

As allocating a JS cell already primarily involves a realm instead of a
global object, and we'll need to pass one to the allocate() function
itself eventually (it's bridged via the global object right now), the
create() functions need to receive a realm as well.
The plan is for this to be the highest-level function that actually
receives a realm and passes it around, AOs on an even higher level will
use the "current realm" concept via VM::current_realm() as that's what
the spec assumes; passing around realms (or global objects, for that
matter) on higher AO levels is pointless and unlike for allocating
individual objects, which may happen outside of regular JS execution, we
don't need control over the specific realm that is being used there.
2022-08-23 13:58:30 +01:00

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/*
* Copyright (c) 2021-2022, Linus Groh <linusg@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibJS/Lexer.h>
#include <LibJS/Parser.h>
#include <LibJS/Runtime/AbstractOperations.h>
#include <LibJS/Runtime/DeclarativeEnvironment.h>
#include <LibJS/Runtime/GlobalEnvironment.h>
#include <LibJS/Runtime/ModuleNamespaceObject.h>
#include <LibJS/Runtime/NativeFunction.h>
#include <LibJS/Runtime/PromiseConstructor.h>
#include <LibJS/Runtime/PromiseReaction.h>
#include <LibJS/Runtime/ShadowRealm.h>
#include <LibJS/Runtime/WrappedFunction.h>
namespace JS {
ShadowRealm::ShadowRealm(Realm& shadow_realm, ExecutionContext execution_context, Object& prototype)
: Object(prototype)
, m_shadow_realm(shadow_realm)
, m_execution_context(move(execution_context))
{
}
void ShadowRealm::visit_edges(Visitor& visitor)
{
Base::visit_edges(visitor);
visitor.visit(&m_shadow_realm);
}
// 3.1.2 CopyNameAndLength ( F: a function object, Target: a function object, optional prefix: a String, optional argCount: a Number, ), https://tc39.es/proposal-shadowrealm/#sec-copynameandlength
ThrowCompletionOr<void> copy_name_and_length(GlobalObject& global_object, FunctionObject& function, FunctionObject& target, Optional<StringView> prefix, Optional<unsigned> arg_count)
{
auto& vm = global_object.vm();
// 1. If argCount is undefined, then set argCount to 0.
if (!arg_count.has_value())
arg_count = 0;
// 2. Let L be 0.
double length = 0;
// 3. Let targetHasLength be ? HasOwnProperty(Target, "length").
auto target_has_length = TRY(target.has_own_property(vm.names.length));
// 4. If targetHasLength is true, then
if (target_has_length) {
// a. Let targetLen be ? Get(Target, "length").
auto target_length = TRY(target.get(vm.names.length));
// b. If Type(targetLen) is Number, then
if (target_length.is_number()) {
// i. If targetLen is +∞𝔽, set L to +∞.
if (target_length.is_positive_infinity()) {
length = target_length.as_double();
}
// ii. Else if targetLen is -∞𝔽, set L to 0.
else if (target_length.is_negative_infinity()) {
length = 0;
}
// iii. Else,
else {
// 1. Let targetLenAsInt be ! ToIntegerOrInfinity(targetLen).
auto target_length_as_int = MUST(target_length.to_integer_or_infinity(global_object));
// 2. Assert: targetLenAsInt is finite.
VERIFY(!isinf(target_length_as_int));
// 3. Set L to max(targetLenAsInt - argCount, 0).
length = max(target_length_as_int - *arg_count, 0);
}
}
}
// 5. Perform SetFunctionLength(F, L).
function.set_function_length(length);
// 6. Let targetName be ? Get(Target, "name").
auto target_name = TRY(target.get(vm.names.name));
// 7. If Type(targetName) is not String, set targetName to the empty String.
if (!target_name.is_string())
target_name = js_string(vm, String::empty());
// 8. Perform SetFunctionName(F, targetName, prefix).
function.set_function_name({ target_name.as_string().string() }, move(prefix));
return {};
}
// 3.1.3 PerformShadowRealmEval ( sourceText: a String, callerRealm: a Realm Record, evalRealm: a Realm Record, ), https://tc39.es/proposal-shadowrealm/#sec-performshadowrealmeval
ThrowCompletionOr<Value> perform_shadow_realm_eval(GlobalObject& global_object, StringView source_text, Realm& caller_realm, Realm& eval_realm)
{
auto& vm = global_object.vm();
// FIXME: Needs to be updated to latest ECMA-262. See: https://github.com/tc39/proposal-shadowrealm/issues/367
// 1. Perform ? HostEnsureCanCompileStrings(callerRealm, evalRealm).
TRY(vm.host_ensure_can_compile_strings(eval_realm));
// 2. Perform the following substeps in an implementation-defined order, possibly interleaving parsing and error detection:
// a. Let script be ParseText(StringToCodePoints(sourceText), Script).
auto parser = Parser(Lexer(source_text));
auto program = parser.parse_program();
// b. If script is a List of errors, throw a SyntaxError exception.
if (parser.has_errors()) {
auto& error = parser.errors()[0];
return vm.throw_completion<SyntaxError>(global_object, error.to_string());
}
// c. If script Contains ScriptBody is false, return undefined.
if (program->children().is_empty())
return js_undefined();
// d. Let body be the ScriptBody of script.
// e. If body Contains NewTarget is true, throw a SyntaxError exception.
// f. If body Contains SuperProperty is true, throw a SyntaxError exception.
// g. If body Contains SuperCall is true, throw a SyntaxError exception.
// FIXME: Implement these, we probably need a generic way of scanning the AST for certain nodes.
// 3. Let strictEval be IsStrict of script.
auto strict_eval = program->is_strict_mode();
// 4. Let runningContext be the running execution context.
// NOTE: This would be unused due to step 11 and is omitted for that reason.
// 5. Let lexEnv be NewDeclarativeEnvironment(evalRealm.[[GlobalEnv]]).
Environment* lexical_environment = new_declarative_environment(eval_realm.global_environment());
// 6. Let varEnv be evalRealm.[[GlobalEnv]].
Environment* variable_environment = &eval_realm.global_environment();
// 7. If strictEval is true, set varEnv to lexEnv.
if (strict_eval)
variable_environment = lexical_environment;
// 8. If runningContext is not already suspended, suspend runningContext.
// NOTE: We don't support this concept yet.
// 9. Let evalContext be a new ECMAScript code execution context.
auto eval_context = ExecutionContext { vm.heap() };
// 10. Set evalContext's Function to null.
eval_context.function = nullptr;
// 11. Set evalContext's Realm to evalRealm.
eval_context.realm = &eval_realm;
// 12. Set evalContext's ScriptOrModule to null.
// Note: This is already the default value.
// 13. Set evalContext's VariableEnvironment to varEnv.
eval_context.variable_environment = variable_environment;
// 14. Set evalContext's LexicalEnvironment to lexEnv.
eval_context.lexical_environment = lexical_environment;
// Non-standard
eval_context.is_strict_mode = strict_eval;
// 15. Push evalContext onto the execution context stack; evalContext is now the running execution context.
TRY(vm.push_execution_context(eval_context, eval_realm.global_object()));
// 16. Let result be Completion(EvalDeclarationInstantiation(body, varEnv, lexEnv, null, strictEval)).
auto eval_result = eval_declaration_instantiation(vm, eval_realm.global_object(), program, variable_environment, lexical_environment, nullptr, strict_eval);
Completion result;
// 17. If result.[[Type]] is normal, then
if (!eval_result.is_throw_completion()) {
// TODO: Optionally use bytecode interpreter?
// a. Set result to the result of evaluating body.
result = program->execute(vm.interpreter(), eval_realm.global_object());
}
// 18. If result.[[Type]] is normal and result.[[Value]] is empty, then
if (result.type() == Completion::Type::Normal && !result.value().has_value()) {
// a. Set result to NormalCompletion(undefined).
result = normal_completion(js_undefined());
}
// 19. Suspend evalContext and remove it from the execution context stack.
// NOTE: We don't support this concept yet.
vm.pop_execution_context();
// 20. Resume the context that is now on the top of the execution context stack as the running execution context.
// NOTE: We don't support this concept yet.
// 21. If result.[[Type]] is not normal, throw a TypeError exception.
if (result.type() != Completion::Type::Normal)
return vm.throw_completion<TypeError>(global_object, ErrorType::ShadowRealmEvaluateAbruptCompletion);
// 22. Return ? GetWrappedValue(callerRealm, result.[[Value]]).
return get_wrapped_value(global_object, caller_realm, *result.value());
// NOTE: Also see "Editor's Note" in the spec regarding the TypeError above.
}
// 3.1.4 ShadowRealmImportValue ( specifierString: a String, exportNameString: a String, callerRealm: a Realm Record, evalRealm: a Realm Record, evalContext: an execution context, ), https://tc39.es/proposal-shadowrealm/#sec-shadowrealmimportvalue
ThrowCompletionOr<Value> shadow_realm_import_value(GlobalObject& global_object, String specifier_string, String export_name_string, Realm& caller_realm, Realm& eval_realm, ExecutionContext& eval_context)
{
auto& vm = global_object.vm();
auto& realm = *global_object.associated_realm();
// 1. Assert: evalContext is an execution context associated to a ShadowRealm instance's [[ExecutionContext]].
// 2. Let innerCapability be ! NewPromiseCapability(%Promise%).
auto inner_capability = MUST(new_promise_capability(global_object, global_object.promise_constructor()));
// 3. Let runningContext be the running execution context.
// 4. If runningContext is not already suspended, suspend runningContext.
// NOTE: We don't support this concept yet.
// 5. Push evalContext onto the execution context stack; evalContext is now the running execution context.
TRY(vm.push_execution_context(eval_context, eval_realm.global_object()));
// 6. Perform HostImportModuleDynamically(null, specifierString, innerCapability).
vm.host_import_module_dynamically(Empty {}, ModuleRequest { move(specifier_string) }, inner_capability);
// 7. Suspend evalContext and remove it from the execution context stack.
// NOTE: We don't support this concept yet.
vm.pop_execution_context();
// 8. Resume the context that is now on the top of the execution context stack as the running execution context.
// NOTE: We don't support this concept yet.
// 9. Let steps be the steps of an ExportGetter function as described below.
auto steps = [string = move(export_name_string)](auto& vm, auto& global_object) -> ThrowCompletionOr<Value> {
// 1. Assert: exports is a module namespace exotic object.
VERIFY(vm.argument(0).is_object());
auto& exports = vm.argument(0).as_object();
VERIFY(is<ModuleNamespaceObject>(exports));
// 2. Let f be the active function object.
auto* function = vm.running_execution_context().function;
// 3. Let string be f.[[ExportNameString]].
// 4. Assert: Type(string) is String.
// 5. Let hasOwn be ? HasOwnProperty(exports, string).
auto has_own = TRY(exports.has_own_property(string));
// 6. If hasOwn is false, throw a TypeError exception.
if (!has_own)
return vm.template throw_completion<TypeError>(global_object, ErrorType::MissingRequiredProperty, string);
// 7. Let value be ? Get(exports, string).
auto value = TRY(exports.get(string));
// 8. Let realm be f.[[Realm]].
auto* realm = function->realm();
VERIFY(realm);
// 9. Return ? GetWrappedValue(realm, value).
return get_wrapped_value(global_object, *realm, value);
};
// 10. Let onFulfilled be CreateBuiltinFunction(steps, 1, "", « [[ExportNameString]] », callerRealm).
// 11. Set onFulfilled.[[ExportNameString]] to exportNameString.
auto* on_fulfilled = NativeFunction::create(realm, move(steps), 1, "", &caller_realm);
// 12. Let promiseCapability be ! NewPromiseCapability(%Promise%).
auto promise_capability = MUST(new_promise_capability(global_object, global_object.promise_constructor()));
// NOTE: Even though the spec tells us to use %ThrowTypeError%, it's not observable if we actually do.
// Throw a nicer TypeError forwarding the import error message instead (we know the argument is an Error object).
auto* throw_type_error = NativeFunction::create(realm, {}, [](auto& vm, auto& global_object) -> ThrowCompletionOr<Value> {
return vm.template throw_completion<TypeError>(global_object, vm.argument(0).as_object().get_without_side_effects(vm.names.message).as_string().string());
});
// 13. Return PerformPromiseThen(innerCapability.[[Promise]], onFulfilled, callerRealm.[[Intrinsics]].[[%ThrowTypeError%]], promiseCapability).
return verify_cast<Promise>(inner_capability.promise)->perform_then(on_fulfilled, throw_type_error, promise_capability);
}
// 3.1.5 GetWrappedValue ( callerRealm: a Realm Record, value: unknown, ), https://tc39.es/proposal-shadowrealm/#sec-getwrappedvalue
ThrowCompletionOr<Value> get_wrapped_value(GlobalObject& global_object, Realm& caller_realm, Value value)
{
auto& vm = global_object.vm();
auto& realm = *global_object.associated_realm();
// 1. If Type(value) is Object, then
if (value.is_object()) {
// a. If IsCallable(value) is false, throw a TypeError exception.
if (!value.is_function())
return vm.throw_completion<TypeError>(global_object, ErrorType::ShadowRealmWrappedValueNonFunctionObject, value);
// b. Return ? WrappedFunctionCreate(callerRealm, value).
return TRY(WrappedFunction::create(realm, caller_realm, value.as_function()));
}
// 2. Return value.
return value;
}
}
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