/* * Copyright (c) 2022, networkException * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include namespace Web::HTML { GC_DEFINE_ALLOCATOR(ModuleScript); ModuleScript::~ModuleScript() = default; ModuleScript::ModuleScript(Optional base_url, ByteString filename, EnvironmentSettingsObject& settings) : Script(move(base_url), move(filename), settings) { } // https://html.spec.whatwg.org/multipage/webappapis.html#creating-a-javascript-module-script WebIDL::ExceptionOr> ModuleScript::create_a_javascript_module_script(ByteString const& filename, StringView source, EnvironmentSettingsObject& settings, URL::URL base_url) { auto& realm = settings.realm(); // 1. If scripting is disabled for settings, then set source to the empty string. if (HTML::is_scripting_disabled(settings)) source = ""sv; // 2. Let script be a new module script that this algorithm will subsequently initialize. // 3. Set script's settings object to settings. // 4. Set script's base URL to baseURL. auto script = realm.create(move(base_url), filename, settings); // FIXME: 5. Set script's fetch options to options. // 6. Set script's parse error and error to rethrow to null. script->set_parse_error(JS::js_null()); script->set_error_to_rethrow(JS::js_null()); // 7. Let result be ParseModule(source, realm, script). auto result = JS::SourceTextModule::parse(source, realm, filename.view(), script); // 8. If result is a list of errors, then: if (result.is_error()) { auto& parse_error = result.error().first(); dbgln("JavaScriptModuleScript: Failed to parse: {}", parse_error.to_string()); // 1. Set script's parse error to result[0]. script->set_parse_error(JS::SyntaxError::create(realm, parse_error.to_string())); // 2. Return script. return script; } // 9. Set script's record to result. script->m_record = result.value(); // 10. Return script. return script; } WebIDL::ExceptionOr> ModuleScript::create_from_pre_parsed(ByteString const& filename, NonnullRefPtr source_code, EnvironmentSettingsObject& settings, URL::URL base_url, JS::FFI::ParsedProgram* parsed) { auto& realm = settings.realm(); auto script = realm.create(move(base_url), filename, settings); script->set_parse_error(JS::js_null()); script->set_error_to_rethrow(JS::js_null()); auto result = JS::SourceTextModule::parse_from_pre_parsed(parsed, move(source_code), realm, script); if (result.is_error()) { auto& parse_error = result.error().first(); dbgln("JavaScriptModuleScript: Failed to parse: {}", parse_error.to_string()); script->set_parse_error(JS::SyntaxError::create(realm, parse_error.to_string())); return script; } script->m_record = result.value(); return script; } WebIDL::ExceptionOr> ModuleScript::create_from_pre_compiled(ByteString const& filename, NonnullRefPtr source_code, EnvironmentSettingsObject& settings, URL::URL base_url, JS::FFI::CompiledProgram* compiled) { auto& realm = settings.realm(); auto script = realm.create(move(base_url), filename, settings); script->set_parse_error(JS::js_null()); script->set_error_to_rethrow(JS::js_null()); auto result = JS::SourceTextModule::parse_from_pre_compiled(compiled, move(source_code), realm, script); if (result.is_error()) { auto& parse_error = result.error().first(); dbgln("JavaScriptModuleScript: Failed to materialize: {}", parse_error.to_string()); script->set_parse_error(JS::SyntaxError::create(realm, parse_error.to_string())); return script; } script->m_record = result.value(); return script; } WebIDL::ExceptionOr> ModuleScript::create_from_bytecode_cache(ByteString const& filename, NonnullRefPtr source_code, EnvironmentSettingsObject& settings, URL::URL base_url, JS::FFI::DecodedBytecodeCacheBlob* bytecode_cache) { auto& realm = settings.realm(); auto script = realm.create(move(base_url), filename, settings); script->set_parse_error(JS::js_null()); script->set_error_to_rethrow(JS::js_null()); auto result = JS::SourceTextModule::parse_from_bytecode_cache(bytecode_cache, move(source_code), realm, script); if (result.is_error()) { auto& parse_error = result.error().first(); dbgln("JavaScriptModuleScript: Failed to materialize bytecode cache: {}", parse_error.to_string()); script->set_parse_error(JS::SyntaxError::create(realm, parse_error.to_string())); return script; } script->m_record = result.value(); return script; } // https://html.spec.whatwg.org/multipage/webappapis.html#creating-a-css-module-script WebIDL::ExceptionOr> ModuleScript::create_a_css_module_script(ByteString const& filename, StringView source, EnvironmentSettingsObject& settings) { auto& realm = settings.realm(); // 1. Let script be a new module script that this algorithm will subsequently initialize. // 2. Set script's settings object to settings. // 3. Set script's base URL and fetch options to null. auto script = realm.create(Optional {}, filename, settings); // 4. Set script's parse error and error to rethrow to null. script->set_parse_error(JS::js_null()); script->set_error_to_rethrow(JS::js_null()); // 5. Let sheet be the result of running the steps to create a constructed CSSStyleSheet with an empty dictionary as // the argument. auto sheet = TRY(CSS::CSSStyleSheet::construct_impl(realm)); // 6. Run the steps to synchronously replace the rules of a CSSStyleSheet on sheet given source. // If this throws an exception, catch it, and set script's parse error to that exception, and return script. if (auto result = sheet->replace_sync(source); result.is_error()) { auto throw_completion = Bindings::exception_to_throw_completion(realm.vm(), result.exception()); script->set_parse_error(throw_completion.value()); return script; } // 7. Set script's record to the result of CreateDefaultExportSyntheticModule(sheet). script->m_record = JS::SyntheticModule::create_default_export_synthetic_module(realm, sheet, filename.view()); // 8. Return script. return script; } // https://html.spec.whatwg.org/multipage/webappapis.html#creating-a-json-module-script WebIDL::ExceptionOr> ModuleScript::create_a_json_module_script(ByteString const& filename, StringView source, EnvironmentSettingsObject& settings) { auto& realm = settings.realm(); // 1. Let script be a new module script that this algorithm will subsequently initialize. // 2. Set script's settings object to settings. // 3. Set script's base URL and fetch options to null. // FIXME: Set options. auto script = realm.create(Optional {}, filename, settings); // 4. Set script's parse error and error to rethrow to null. script->set_parse_error(JS::js_null()); script->set_error_to_rethrow(JS::js_null()); // 5. Let result be ParseJSONModule(source). // If this throws an exception, catch it, and set script's parse error to that exception, and return script. TemporaryExecutionContext execution_context { realm }; auto result = JS::parse_json_module(realm, source, filename); if (result.is_error()) { script->set_parse_error(result.error().value()); return script; } // 6. Set script's record to result. script->m_record = result.value(); // 7. Return script. return script; } // https://html.spec.whatwg.org/multipage/webappapis.html#creating-a-webassembly-module-script WebIDL::ExceptionOr> ModuleScript::create_a_webassembly_module_script(ByteString const& filename, ByteBuffer body_bytes, EnvironmentSettingsObject& settings, URL::URL base_url) { auto& realm = settings.realm(); // 1. If scripting is disabled for settings, then set bodyBytes to the byte sequence 0x00 0x61 0x73 0x6D 0x01 0x00 0x00 0x00. // NOTE: This byte sequence corresponds to an empty WebAssembly module with only the magic bytes and version number provided. if (HTML::is_scripting_disabled(settings)) { auto byte_sequence = "\x00\x61\x73\x6d\x01\x00\x00\x00"sv.bytes(); body_bytes = MUST(ByteBuffer::create_uninitialized(byte_sequence.size())); byte_sequence.copy_to(body_bytes); } // 2. Let script be a new module script that this algorithm will subsequently initialize. // 3. Set script's settings object to settings. // 4. Set script's base URL to baseURL. // FIXME: 5. Set script's fetch options to options. auto script = settings.realm().create(base_url, filename, settings); // 6. Set script's parse error and error to rethrow to null. script->set_parse_error(JS::js_null()); script->set_error_to_rethrow(JS::js_null()); // 7. Let result be the result of parsing a web assembly module given bodyBytes, realm, and script. // NOTE: Passing script as the last parameter here ensures result.[[HostDefined]] will be script. TemporaryExecutionContext execution_context { realm }; auto result = WebAssembly::WebAssemblyModule::parse(body_bytes, realm, filename, script); // 8. If the previous step threw an error error, then: if (result.is_error()) { // 1. Set script's parse error to error. script->set_parse_error(result.error().value()); // 2. Return script. return script; } // 9. Set script's record to result. script->m_record = result.value(); // 10. Return script. return script; } // https://html.spec.whatwg.org/multipage/webappapis.html#run-a-module-script WebIDL::Promise* ModuleScript::run(PreventErrorReporting prevent_error_reporting) { // 1. Let settings be the settings object of script. auto& settings = this->settings_object(); auto& realm = settings.realm(); // 2. Check if we can run script with realm. If this returns "do not run", then return a promise resolved with undefined. if (can_run_script(settings) == RunScriptDecision::DoNotRun) { return WebIDL::create_resolved_promise(realm, JS::js_undefined()); } // FIXME: 3. Record module script execution start time given script. // 4. Prepare to run script given settings. prepare_to_run_script(settings); // 5. Let evaluationPromise be null. GC::Ptr evaluation_promise = nullptr; // 6. If script's error to rethrow is not null, then set evaluationPromise to a promise rejected with script's error to rethrow. if (!error_to_rethrow().is_null()) { evaluation_promise = WebIDL::create_rejected_promise(realm, error_to_rethrow()); } // 7. Otherwise: else { // 1. Let record be script's record. auto record = m_record.visit( [](Empty) -> GC::Ref { VERIFY_NOT_REACHED(); }, [](auto& module) -> GC::Ref { return module; }); // NON-STANDARD: To ensure that LibJS can find the module on the stack, we push a new execution context. auto& stack = vm().interpreter_stack(); auto* stack_mark = stack.top(); auto* module_execution_context = stack.allocate(0, ReadonlySpan {}, 0); VERIFY(module_execution_context); module_execution_context->realm = &realm; module_execution_context->script_or_module = record; vm().push_execution_context(*module_execution_context); // 2. Set evaluationPromise to record.Evaluate(). auto elevation_promise_or_error = record->evaluate(vm()); // NOTE: This step will recursively evaluate all of the module's dependencies. // If Evaluate fails to complete as a result of the user agent aborting the running script, // then set evaluationPromise to a promise rejected with a new "QuotaExceededError" DOMException. if (elevation_promise_or_error.is_error()) { evaluation_promise = WebIDL::create_rejected_promise(realm, WebIDL::QuotaExceededError::create(realm, "Failed to evaluate module script"_utf16).ptr()); } else { evaluation_promise = elevation_promise_or_error.value(); } // NON-STANDARD: Pop the execution context mentioned above. vm().pop_execution_context(); stack.deallocate(stack_mark); } // 8. If preventErrorReporting is false, then upon rejection of evaluationPromise with reason, report the exception given by reason for script. if (prevent_error_reporting == PreventErrorReporting::No) { HTML::TemporaryExecutionContext execution_context { realm, HTML::TemporaryExecutionContext::CallbacksEnabled::Yes }; evaluation_promise = WebIDL::upon_rejection(*evaluation_promise, GC::create_function(realm.heap(), [&realm](JS::Value reason) -> WebIDL::ExceptionOr { auto& window_or_worker = as(realm.global_object()); window_or_worker.report_an_exception(reason); return throw_completion(reason); })); } // 9. Clean up after running script with settings. clean_up_after_running_script(settings); // 10. Return evaluationPromise. return evaluation_promise; } void ModuleScript::visit_edges(Cell::Visitor& visitor) { Base::visit_edges(visitor); m_record.visit( [&](Empty) {}, [&](auto record) { visitor.visit(record); }); } }