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https://github.com/LadybirdBrowser/ladybird.git
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LibWasm: Decouple ModuleInstance from the AbstractMachine
This fixes a FIXME and will allow linking only select modules together, instead of linking every instantiated module into a big mess of exported entities :P
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parent
24b2a6c93a
commit
efb106069b
Notes:
sideshowbarker
2024-07-18 17:39:46 +09:00
Author: https://github.com/alimpfard Commit: https://github.com/SerenityOS/serenity/commit/efb106069bb Pull-request: https://github.com/SerenityOS/serenity/pull/7239 Reviewed-by: https://github.com/linusg
4 changed files with 55 additions and 47 deletions
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@ -31,18 +31,23 @@ class WebAssemblyModule final : public JS::Object {
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JS_OBJECT(WebAssemblyModule, JS::Object);
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public:
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// FIXME: This should only contain an instantiated module, not the entire abstract machine!
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explicit WebAssemblyModule(JS::Object& prototype)
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: JS::Object(prototype)
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{
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}
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static Wasm::AbstractMachine& machine() { return m_machine; }
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Wasm::Module& module() { return *m_module; }
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Wasm::ModuleInstance& module_instance() { return *m_module_instance; }
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static WebAssemblyModule* create(JS::GlobalObject& global_object, Wasm::Module module)
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{
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auto instance = global_object.heap().allocate<WebAssemblyModule>(global_object, *global_object.object_prototype());
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instance->m_module = move(module);
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if (auto result = instance->m_machine.instantiate(*instance->m_module, {}); result.is_error())
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if (auto result = machine().instantiate(*instance->m_module, {}); result.is_error())
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global_object.vm().throw_exception<JS::TypeError>(global_object, result.release_error().error);
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else
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instance->m_module_instance = result.release_value();
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return instance;
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}
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void initialize(JS::GlobalObject&) override;
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@ -53,10 +58,13 @@ private:
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JS_DECLARE_NATIVE_FUNCTION(get_export);
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JS_DECLARE_NATIVE_FUNCTION(wasm_invoke);
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Wasm::AbstractMachine m_machine;
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static Wasm::AbstractMachine m_machine;
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Optional<Wasm::Module> m_module;
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Optional<Wasm::ModuleInstance> m_module_instance;
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};
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Wasm::AbstractMachine WebAssemblyModule::m_machine;
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TESTJS_GLOBAL_FUNCTION(parse_webassembly_module, parseWebAssemblyModule)
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{
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auto object = vm.argument(0).to_object(global_object);
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@ -123,7 +131,7 @@ JS_DEFINE_NATIVE_FUNCTION(WebAssemblyModule::get_export)
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return {};
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}
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auto instance = static_cast<WebAssemblyModule*>(object);
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for (auto& entry : instance->m_machine.module_instance().exports()) {
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for (auto& entry : instance->module_instance().exports()) {
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if (entry.name() == name) {
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auto& value = entry.value();
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if (auto ptr = value.get_pointer<Wasm::FunctionAddress>())
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@ -151,7 +159,7 @@ JS_DEFINE_NATIVE_FUNCTION(WebAssemblyModule::wasm_invoke)
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}
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auto instance = static_cast<WebAssemblyModule*>(object);
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Wasm::FunctionAddress function_address { address };
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auto function_instance = instance->m_machine.store().get(function_address);
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auto function_instance = WebAssemblyModule::machine().store().get(function_address);
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if (!function_instance) {
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vm.throw_exception<JS::TypeError>(global_object, "Invalid function address");
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return {};
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@ -194,7 +202,7 @@ JS_DEFINE_NATIVE_FUNCTION(WebAssemblyModule::wasm_invoke)
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}
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}
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auto result = instance->m_machine.invoke(function_address, arguments);
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auto result = WebAssemblyModule::machine().invoke(function_address, arguments);
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if (result.is_trap()) {
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vm.throw_exception<JS::TypeError>(global_object, "Execution trapped");
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return {};
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@ -85,10 +85,11 @@ GlobalInstance* Store::get(GlobalAddress address)
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InstantiationResult AbstractMachine::instantiate(const Module& module, Vector<ExternValue> externs)
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{
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ModuleInstance main_module_instance;
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Optional<InstantiationResult> instantiation_result;
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module.for_each_section_of_type<TypeSection>([&](const TypeSection& section) {
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m_module_instance.types() = section.types();
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main_module_instance.types() = section.types();
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});
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// FIXME: Validate stuff
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@ -121,8 +122,8 @@ InstantiationResult AbstractMachine::instantiate(const Module& module, Vector<Ex
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}
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});
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if (auto result = allocate_all(module, externs, global_values); result.is_error()) {
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return result.error();
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if (auto result = allocate_all(module, main_module_instance, externs, global_values); result.has_value()) {
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return result.release_value();
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}
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module.for_each_section_of_type<ElementSection>([&](const ElementSection&) {
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@ -136,7 +137,7 @@ InstantiationResult AbstractMachine::instantiate(const Module& module, Vector<Ex
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segment.value().visit(
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[&](const DataSection::Data::Active& data) {
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auto frame = make<Frame>(
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m_module_instance,
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main_module_instance,
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Vector<Value> {},
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data.offset,
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1);
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@ -150,11 +151,11 @@ InstantiationResult AbstractMachine::instantiate(const Module& module, Vector<Ex
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[&](const ExternAddress&) { instantiation_result = InstantiationError { "Data segment offset returned an address" }; });
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if (instantiation_result.has_value() && instantiation_result->is_error())
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return;
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if (m_module_instance.memories().size() <= data.index.value()) {
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instantiation_result = InstantiationError { String::formatted("Data segment referenced out-of-bounds memory ({}) of max {} entries", data.index.value(), m_module_instance.memories().size()) };
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if (main_module_instance.memories().size() <= data.index.value()) {
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instantiation_result = InstantiationError { String::formatted("Data segment referenced out-of-bounds memory ({}) of max {} entries", data.index.value(), main_module_instance.memories().size()) };
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return;
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}
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auto address = m_module_instance.memories()[data.index.value()];
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auto address = main_module_instance.memories()[data.index.value()];
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if (auto instance = m_store.get(address)) {
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if (instance->type().limits().max().value_or(data.init.size() + offset + 1) <= data.init.size() + offset) {
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instantiation_result = InstantiationError { String::formatted("Data segment attempted to write to out-of-bounds memory ({}) of max {} bytes", data.init.size() + offset, instance->type().limits().max().value()) };
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@ -171,7 +172,7 @@ InstantiationResult AbstractMachine::instantiate(const Module& module, Vector<Ex
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});
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module.for_each_section_of_type<StartSection>([&](const StartSection& section) {
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auto& functions = m_module_instance.functions();
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auto& functions = main_module_instance.functions();
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auto index = section.function().index();
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if (functions.size() <= index.value()) {
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instantiation_result = InstantiationError { String::formatted("Start section function referenced invalid index {} of max {} entries", index.value(), functions.size()) };
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@ -180,34 +181,34 @@ InstantiationResult AbstractMachine::instantiate(const Module& module, Vector<Ex
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invoke(functions[index.value()], {});
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});
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return instantiation_result.value_or({});
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return instantiation_result.value_or(move(main_module_instance));
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}
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InstantiationResult AbstractMachine::allocate_all(const Module& module, Vector<ExternValue>& externs, Vector<Value>& global_values)
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Optional<InstantiationError> AbstractMachine::allocate_all(const Module& module, ModuleInstance& module_instance, Vector<ExternValue>& externs, Vector<Value>& global_values)
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{
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Optional<InstantiationResult> result;
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Optional<InstantiationError> result;
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for (auto& entry : externs) {
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entry.visit(
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[&](const FunctionAddress& address) { m_module_instance.functions().append(address); },
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[&](const TableAddress& address) { m_module_instance.tables().append(address); },
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[&](const MemoryAddress& address) { m_module_instance.memories().append(address); },
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[&](const GlobalAddress& address) { m_module_instance.globals().append(address); });
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[&](const FunctionAddress& address) { module_instance.functions().append(address); },
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[&](const TableAddress& address) { module_instance.tables().append(address); },
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[&](const MemoryAddress& address) { module_instance.memories().append(address); },
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[&](const GlobalAddress& address) { module_instance.globals().append(address); });
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}
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// FIXME: What if this fails?
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for (auto& func : module.functions()) {
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auto address = m_store.allocate(m_module_instance, func);
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auto address = m_store.allocate(module_instance, func);
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VERIFY(address.has_value());
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m_module_instance.functions().append(*address);
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module_instance.functions().append(*address);
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}
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module.for_each_section_of_type<TableSection>([&](const TableSection& section) {
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for (auto& table : section.tables()) {
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auto table_address = m_store.allocate(table.type());
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VERIFY(table_address.has_value());
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m_module_instance.tables().append(*table_address);
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module_instance.tables().append(*table_address);
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}
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});
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@ -215,7 +216,7 @@ InstantiationResult AbstractMachine::allocate_all(const Module& module, Vector<E
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for (auto& memory : section.memories()) {
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auto memory_address = m_store.allocate(memory.type());
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VERIFY(memory_address.has_value());
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m_module_instance.memories().append(*memory_address);
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module_instance.memories().append(*memory_address);
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}
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});
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@ -224,7 +225,7 @@ InstantiationResult AbstractMachine::allocate_all(const Module& module, Vector<E
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for (auto& entry : section.entries()) {
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auto address = m_store.allocate(entry.type(), global_values[index]);
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VERIFY(address.has_value());
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m_module_instance.globals().append(*address);
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module_instance.globals().append(*address);
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index++;
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}
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});
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@ -234,28 +235,28 @@ InstantiationResult AbstractMachine::allocate_all(const Module& module, Vector<E
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Variant<FunctionAddress, TableAddress, MemoryAddress, GlobalAddress, Empty> address { Empty {} };
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entry.description().visit(
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[&](const FunctionIndex& index) {
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if (m_module_instance.functions().size() > index.value())
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address = FunctionAddress { m_module_instance.functions()[index.value()] };
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if (module_instance.functions().size() > index.value())
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address = FunctionAddress { module_instance.functions()[index.value()] };
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else
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), m_module_instance.functions().size());
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), module_instance.functions().size());
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},
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[&](const TableIndex& index) {
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if (m_module_instance.tables().size() > index.value())
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address = TableAddress { m_module_instance.tables()[index.value()] };
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if (module_instance.tables().size() > index.value())
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address = TableAddress { module_instance.tables()[index.value()] };
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else
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), m_module_instance.tables().size());
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), module_instance.tables().size());
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},
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[&](const MemoryIndex& index) {
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if (m_module_instance.memories().size() > index.value())
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address = MemoryAddress { m_module_instance.memories()[index.value()] };
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if (module_instance.memories().size() > index.value())
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address = MemoryAddress { module_instance.memories()[index.value()] };
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else
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), m_module_instance.memories().size());
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), module_instance.memories().size());
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},
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[&](const GlobalIndex& index) {
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if (m_module_instance.globals().size() > index.value())
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address = GlobalAddress { m_module_instance.globals()[index.value()] };
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if (module_instance.globals().size() > index.value())
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address = GlobalAddress { module_instance.globals()[index.value()] };
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else
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), m_module_instance.globals().size());
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dbgln("Failed to export '{}', the exported address ({}) was out of bounds (min: 0, max: {})", entry.name(), index.value(), module_instance.globals().size());
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});
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if (address.has<Empty>()) {
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@ -263,14 +264,14 @@ InstantiationResult AbstractMachine::allocate_all(const Module& module, Vector<E
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continue;
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}
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m_module_instance.exports().append(ExportInstance {
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module_instance.exports().append(ExportInstance {
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entry.name(),
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move(address).downcast<FunctionAddress, TableAddress, MemoryAddress, GlobalAddress>(),
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});
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}
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});
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return result.value_or({});
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return result;
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}
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Result AbstractMachine::invoke(FunctionAddress address, Vector<Value> arguments)
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@ -15,7 +15,6 @@ namespace Wasm {
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struct InstantiationError {
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String error { "Unknown error" };
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};
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using InstantiationResult = Result<void, InstantiationError>;
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TYPEDEF_DISTINCT_NUMERIC_GENERAL(u64, true, true, false, false, false, true, FunctionAddress);
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TYPEDEF_DISTINCT_NUMERIC_GENERAL(u64, true, true, false, false, false, true, ExternAddress);
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@ -419,6 +418,8 @@ private:
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Vector<EntryType> m_data;
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};
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using InstantiationResult = AK::Result<ModuleInstance, InstantiationError>;
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class AbstractMachine {
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public:
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explicit AbstractMachine() = default;
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@ -427,14 +428,11 @@ public:
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InstantiationResult instantiate(const Module&, Vector<ExternValue>);
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Result invoke(FunctionAddress, Vector<Value>);
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auto& module_instance() const { return m_module_instance; }
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auto& module_instance() { return m_module_instance; }
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auto& store() const { return m_store; }
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auto& store() { return m_store; }
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private:
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InstantiationResult allocate_all(const Module&, Vector<ExternValue>&, Vector<Value>& global_values);
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ModuleInstance m_module_instance;
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Optional<InstantiationError> allocate_all(const Module&, ModuleInstance&, Vector<ExternValue>&, Vector<Value>& global_values);
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Store m_store;
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};
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@ -70,6 +70,7 @@ int main(int argc, char* argv[])
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warnln("Module instantiation failed: {}", result.error().error);
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return 1;
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}
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auto module_instance = result.release_value();
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auto stream = Core::OutputFileStream::standard_output();
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auto print_func = [&](const auto& address) {
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@ -90,7 +91,7 @@ int main(int argc, char* argv[])
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};
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if (print) {
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// Now, let's dump the functions!
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for (auto& address : machine.module_instance().functions()) {
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for (auto& address : module_instance.functions()) {
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print_func(address);
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}
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}
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@ -98,7 +99,7 @@ int main(int argc, char* argv[])
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if (!exported_function_to_execute.is_empty()) {
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Optional<Wasm::FunctionAddress> run_address;
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Vector<Wasm::Value> values;
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for (auto& entry : machine.module_instance().exports()) {
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for (auto& entry : module_instance.exports()) {
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if (entry.name() == exported_function_to_execute) {
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if (auto addr = entry.value().get_pointer<Wasm::FunctionAddress>())
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run_address = *addr;
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