// Copyright 2012 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include #include "src/common/globals.h" #include "src/diagnostics/disasm.h" #include "src/diagnostics/disassembler.h" #include "src/execution/isolate-utils-inl.h" #include "src/heap/heap-inl.h" // For InOldSpace. #include "src/heap/heap-write-barrier-inl.h" // For GetIsolateFromWritableObj. #include "src/ic/handler-configuration-inl.h" #include "src/init/bootstrapper.h" #include "src/interpreter/bytecodes.h" #include "src/objects/all-objects-inl.h" #include "src/objects/code-kind.h" #include "src/regexp/regexp.h" #include "src/snapshot/embedded/embedded-data.h" #include "src/utils/ostreams.h" #if V8_ENABLE_WEBASSEMBLY #include "src/debug/debug-wasm-objects-inl.h" #include "src/wasm/wasm-code-manager.h" #include "src/wasm/wasm-engine.h" #include "src/wasm/wasm-objects-inl.h" #endif // V8_ENABLE_WEBASSEMBLY namespace v8 { namespace internal { #ifdef OBJECT_PRINT void Object::Print() const { // Output into debugger's command window if a debugger is attached. DbgStdoutStream dbg_os; this->Print(dbg_os); dbg_os << std::flush; StdoutStream os; this->Print(os); os << std::flush; } void Object::Print(std::ostream& os) const { if (IsSmi()) { os << "Smi: " << std::hex << "0x" << Smi::ToInt(*this); os << std::dec << " (" << Smi::ToInt(*this) << ")\n"; } else { HeapObject::cast(*this).HeapObjectPrint(os); } } namespace { void PrintHeapObjectHeaderWithoutMap(HeapObject object, std::ostream& os, const char* id) { os << reinterpret_cast(object.ptr()) << ": ["; if (id != nullptr) { os << id; } else { os << object.map().instance_type(); } os << "]"; if (ReadOnlyHeap::Contains(object)) { os << " in ReadOnlySpace"; } else if (GetHeapFromWritableObject(object)->InOldSpace(object)) { os << " in OldSpace"; } } template void PrintDictionaryContents(std::ostream& os, T dict) { DisallowGarbageCollection no_gc; ReadOnlyRoots roots = dict.GetReadOnlyRoots(); if (dict.Capacity() == 0) { return; } #ifdef V8_ENABLE_SWISS_NAME_DICTIONARY Isolate* isolate = GetIsolateFromWritableObject(dict); // IterateEntries for SwissNameDictionary needs to create a handle. HandleScope scope(isolate); #endif for (InternalIndex i : dict.IterateEntries()) { Object k; if (!dict.ToKey(roots, i, &k)) continue; os << "\n "; if (k.IsString()) { String::cast(k).PrintUC16(os); } else { os << Brief(k); } os << ": " << Brief(dict.ValueAt(i)) << " "; dict.DetailsAt(i).PrintAsSlowTo(os, !T::kIsOrderedDictionaryType); } } } // namespace void HeapObject::PrintHeader(std::ostream& os, const char* id) { PrintHeapObjectHeaderWithoutMap(*this, os, id); if (!IsMap()) os << "\n - map: " << Brief(map()); } void HeapObject::HeapObjectPrint(std::ostream& os) { InstanceType instance_type = map().instance_type(); if (instance_type < FIRST_NONSTRING_TYPE) { String::cast(*this).StringPrint(os); os << "\n"; return; } switch (instance_type) { case AWAIT_CONTEXT_TYPE: case BLOCK_CONTEXT_TYPE: case CATCH_CONTEXT_TYPE: case DEBUG_EVALUATE_CONTEXT_TYPE: case EVAL_CONTEXT_TYPE: case FUNCTION_CONTEXT_TYPE: case MODULE_CONTEXT_TYPE: case SCRIPT_CONTEXT_TYPE: case WITH_CONTEXT_TYPE: case SCRIPT_CONTEXT_TABLE_TYPE: Context::cast(*this).ContextPrint(os); break; case NATIVE_CONTEXT_TYPE: NativeContext::cast(*this).NativeContextPrint(os); break; case HASH_TABLE_TYPE: ObjectHashTable::cast(*this).ObjectHashTablePrint(os); break; case ORDERED_HASH_MAP_TYPE: OrderedHashMap::cast(*this).OrderedHashMapPrint(os); break; case ORDERED_HASH_SET_TYPE: OrderedHashSet::cast(*this).OrderedHashSetPrint(os); break; case ORDERED_NAME_DICTIONARY_TYPE: OrderedNameDictionary::cast(*this).OrderedNameDictionaryPrint(os); break; case NAME_DICTIONARY_TYPE: NameDictionary::cast(*this).NameDictionaryPrint(os); break; case GLOBAL_DICTIONARY_TYPE: GlobalDictionary::cast(*this).GlobalDictionaryPrint(os); break; case SIMPLE_NUMBER_DICTIONARY_TYPE: FixedArray::cast(*this).FixedArrayPrint(os); break; case NUMBER_DICTIONARY_TYPE: NumberDictionary::cast(*this).NumberDictionaryPrint(os); break; case EPHEMERON_HASH_TABLE_TYPE: EphemeronHashTable::cast(*this).EphemeronHashTablePrint(os); break; case OBJECT_BOILERPLATE_DESCRIPTION_TYPE: ObjectBoilerplateDescription::cast(*this) .ObjectBoilerplateDescriptionPrint(os); break; case TRANSITION_ARRAY_TYPE: TransitionArray::cast(*this).TransitionArrayPrint(os); break; case CLOSURE_FEEDBACK_CELL_ARRAY_TYPE: ClosureFeedbackCellArray::cast(*this).ClosureFeedbackCellArrayPrint(os); break; case FILLER_TYPE: os << "filler"; break; case JS_API_OBJECT_TYPE: case JS_ARRAY_ITERATOR_PROTOTYPE_TYPE: case JS_CONTEXT_EXTENSION_OBJECT_TYPE: case JS_ERROR_TYPE: case JS_ITERATOR_PROTOTYPE_TYPE: case JS_MAP_ITERATOR_PROTOTYPE_TYPE: case JS_OBJECT_PROTOTYPE_TYPE: case JS_PROMISE_PROTOTYPE_TYPE: case JS_REG_EXP_PROTOTYPE_TYPE: case JS_SET_ITERATOR_PROTOTYPE_TYPE: case JS_SET_PROTOTYPE_TYPE: case JS_SPECIAL_API_OBJECT_TYPE: case JS_STRING_ITERATOR_PROTOTYPE_TYPE: case JS_TYPED_ARRAY_PROTOTYPE_TYPE: JSObject::cast(*this).JSObjectPrint(os); break; #if V8_ENABLE_WEBASSEMBLY case WASM_INSTANCE_OBJECT_TYPE: WasmInstanceObject::cast(*this).WasmInstanceObjectPrint(os); break; case WASM_VALUE_OBJECT_TYPE: WasmValueObject::cast(*this).WasmValueObjectPrint(os); break; #endif // V8_ENABLE_WEBASSEMBLY case CODE_TYPE: Code::cast(*this).CodePrint(os); break; case CODE_DATA_CONTAINER_TYPE: CodeDataContainer::cast(*this).CodeDataContainerPrint(os); break; case JS_SET_KEY_VALUE_ITERATOR_TYPE: case JS_SET_VALUE_ITERATOR_TYPE: JSSetIterator::cast(*this).JSSetIteratorPrint(os); break; case JS_MAP_KEY_ITERATOR_TYPE: case JS_MAP_KEY_VALUE_ITERATOR_TYPE: case JS_MAP_VALUE_ITERATOR_TYPE: JSMapIterator::cast(*this).JSMapIteratorPrint(os); break; #define MAKE_TORQUE_CASE(Name, TYPE) \ case TYPE: \ Name::cast(*this).Name##Print(os); \ break; // Every class that has its fields defined in a .tq file and corresponds // to exactly one InstanceType value is included in the following list. TORQUE_INSTANCE_CHECKERS_SINGLE_FULLY_DEFINED(MAKE_TORQUE_CASE) TORQUE_INSTANCE_CHECKERS_MULTIPLE_FULLY_DEFINED(MAKE_TORQUE_CASE) #undef MAKE_TORQUE_CASE case ALLOCATION_SITE_TYPE: AllocationSite::cast(*this).AllocationSitePrint(os); break; case LOAD_HANDLER_TYPE: LoadHandler::cast(*this).LoadHandlerPrint(os); break; case STORE_HANDLER_TYPE: StoreHandler::cast(*this).StoreHandlerPrint(os); break; case FEEDBACK_METADATA_TYPE: FeedbackMetadata::cast(*this).FeedbackMetadataPrint(os); break; case BIG_INT_BASE_TYPE: BigIntBase::cast(*this).BigIntBasePrint(os); break; case JS_PROMISE_CONSTRUCTOR_TYPE: case JS_REG_EXP_CONSTRUCTOR_TYPE: case JS_ARRAY_CONSTRUCTOR_TYPE: #define TYPED_ARRAY_CONSTRUCTORS_SWITCH(Type, type, TYPE, Ctype) \ case TYPE##_TYPED_ARRAY_CONSTRUCTOR_TYPE: TYPED_ARRAYS(TYPED_ARRAY_CONSTRUCTORS_SWITCH) #undef TYPED_ARRAY_CONSTRUCTORS_SWITCH JSFunction::cast(*this).JSFunctionPrint(os); break; case INTERNALIZED_STRING_TYPE: case EXTERNAL_INTERNALIZED_STRING_TYPE: case ONE_BYTE_INTERNALIZED_STRING_TYPE: case EXTERNAL_ONE_BYTE_INTERNALIZED_STRING_TYPE: case UNCACHED_EXTERNAL_INTERNALIZED_STRING_TYPE: case UNCACHED_EXTERNAL_ONE_BYTE_INTERNALIZED_STRING_TYPE: case STRING_TYPE: case CONS_STRING_TYPE: case EXTERNAL_STRING_TYPE: case SLICED_STRING_TYPE: case THIN_STRING_TYPE: case ONE_BYTE_STRING_TYPE: case CONS_ONE_BYTE_STRING_TYPE: case EXTERNAL_ONE_BYTE_STRING_TYPE: case SLICED_ONE_BYTE_STRING_TYPE: case THIN_ONE_BYTE_STRING_TYPE: case UNCACHED_EXTERNAL_STRING_TYPE: case UNCACHED_EXTERNAL_ONE_BYTE_STRING_TYPE: case JS_LAST_DUMMY_API_OBJECT_TYPE: // TODO(all): Handle these types too. os << "UNKNOWN TYPE " << map().instance_type(); UNREACHABLE(); } } void ByteArray::ByteArrayPrint(std::ostream& os) { PrintHeader(os, "ByteArray"); os << "\n - length: " << length() << "\n - data-start: " << static_cast(GetDataStartAddress()) << "\n"; } void BytecodeArray::BytecodeArrayPrint(std::ostream& os) { PrintHeader(os, "BytecodeArray"); os << "\n"; Disassemble(os); } void FreeSpace::FreeSpacePrint(std::ostream& os) { os << "free space, size " << Size() << "\n"; } bool JSObject::PrintProperties(std::ostream& os) { if (HasFastProperties()) { DescriptorArray descs = map().instance_descriptors(GetIsolate()); int nof_inobject_properties = map().GetInObjectProperties(); for (InternalIndex i : map().IterateOwnDescriptors()) { os << "\n "; descs.GetKey(i).NamePrint(os); os << ": "; PropertyDetails details = descs.GetDetails(i); switch (details.location()) { case kField: { FieldIndex field_index = FieldIndex::ForDescriptor(map(), i); os << Brief(RawFastPropertyAt(field_index)); break; } case kDescriptor: os << Brief(descs.GetStrongValue(i)); break; } os << " "; details.PrintAsFastTo(os, PropertyDetails::kForProperties); if (details.location() == kField) { int field_index = details.field_index(); if (field_index < nof_inobject_properties) { os << ", location: in-object"; } else { field_index -= nof_inobject_properties; os << ", location: properties[" << field_index << "]"; } } else { os << ", location: descriptor"; } } return map().NumberOfOwnDescriptors() > 0; } else if (IsJSGlobalObject()) { PrintDictionaryContents( os, JSGlobalObject::cast(*this).global_dictionary(kAcquireLoad)); } else if (V8_ENABLE_SWISS_NAME_DICTIONARY_BOOL) { PrintDictionaryContents(os, property_dictionary_swiss()); } else { PrintDictionaryContents(os, property_dictionary()); } return true; } namespace { template bool IsTheHoleAt(T array, int index) { return false; } template <> bool IsTheHoleAt(FixedDoubleArray array, int index) { return array.is_the_hole(index); } template double GetScalarElement(T array, int index) { if (IsTheHoleAt(array, index)) { return std::numeric_limits::quiet_NaN(); } return array.get_scalar(index); } template void DoPrintElements(std::ostream& os, Object object, int length) { const bool print_the_hole = std::is_same::value; T array = T::cast(object); if (length == 0) return; int previous_index = 0; double previous_value = GetScalarElement(array, 0); double value = 0.0; int i; for (i = 1; i <= length; i++) { if (i < length) value = GetScalarElement(array, i); bool values_are_nan = std::isnan(previous_value) && std::isnan(value); if (i != length && (previous_value == value || values_are_nan) && IsTheHoleAt(array, i - 1) == IsTheHoleAt(array, i)) { continue; } os << "\n"; std::stringstream ss; ss << previous_index; if (previous_index != i - 1) { ss << '-' << (i - 1); } os << std::setw(12) << ss.str() << ": "; if (print_the_hole && IsTheHoleAt(array, i - 1)) { os << ""; } else { os << previous_value; } previous_index = i; previous_value = value; } } template void PrintTypedArrayElements(std::ostream& os, const ElementType* data_ptr, size_t length, bool is_on_heap) { if (length == 0) return; size_t previous_index = 0; if (i::FLAG_mock_arraybuffer_allocator && !is_on_heap) { // Don't try to print data that's not actually allocated. os << "\n 0-" << length << ": "; return; } ElementType previous_value = data_ptr[0]; ElementType value = 0; for (size_t i = 1; i <= length; i++) { if (i < length) value = data_ptr[i]; if (i != length && previous_value == value) { continue; } os << "\n"; std::stringstream ss; ss << previous_index; if (previous_index != i - 1) { ss << '-' << (i - 1); } os << std::setw(12) << ss.str() << ": " << +previous_value; previous_index = i; previous_value = value; } } template void PrintFixedArrayElements(std::ostream& os, T array) { // Print in array notation for non-sparse arrays. Object previous_value = array.length() > 0 ? array.get(0) : Object(); Object value; int previous_index = 0; int i; for (i = 1; i <= array.length(); i++) { if (i < array.length()) value = array.get(i); if (previous_value == value && i != array.length()) { continue; } os << "\n"; std::stringstream ss; ss << previous_index; if (previous_index != i - 1) { ss << '-' << (i - 1); } os << std::setw(12) << ss.str() << ": " << Brief(previous_value); previous_index = i; previous_value = value; } } void PrintDictionaryElements(std::ostream& os, FixedArrayBase elements) { // Print some internal fields NumberDictionary dict = NumberDictionary::cast(elements); if (dict.requires_slow_elements()) { os << "\n - requires_slow_elements"; } else { os << "\n - max_number_key: " << dict.max_number_key(); } PrintDictionaryContents(os, dict); } void PrintSloppyArgumentElements(std::ostream& os, ElementsKind kind, SloppyArgumentsElements elements) { FixedArray arguments_store = elements.arguments(); os << "\n 0: context: " << Brief(elements.context()) << "\n 1: arguments_store: " << Brief(arguments_store) << "\n parameter to context slot map:"; for (int i = 0; i < elements.length(); i++) { Object mapped_entry = elements.mapped_entries(i, kRelaxedLoad); os << "\n " << i << ": param(" << i << "): " << Brief(mapped_entry); if (mapped_entry.IsTheHole()) { os << " in the arguments_store[" << i << "]"; } else { os << " in the context"; } } if (arguments_store.length() == 0) return; os << "\n }" << "\n - arguments_store: " << Brief(arguments_store) << " " << ElementsKindToString(arguments_store.map().elements_kind()) << " {"; if (kind == FAST_SLOPPY_ARGUMENTS_ELEMENTS) { PrintFixedArrayElements(os, arguments_store); } else { DCHECK_EQ(kind, SLOW_SLOPPY_ARGUMENTS_ELEMENTS); PrintDictionaryElements(os, arguments_store); } } void PrintEmbedderData(Isolate* isolate, std::ostream& os, EmbedderDataSlot slot) { DisallowGarbageCollection no_gc; Object value = slot.load_tagged(); os << Brief(value); void* raw_pointer; if (slot.ToAlignedPointer(isolate, &raw_pointer)) { os << ", aligned pointer: " << raw_pointer; } } } // namespace void JSObject::PrintElements(std::ostream& os) { // Don't call GetElementsKind, its validation code can cause the printer to // fail when debugging. os << " - elements: " << Brief(elements()) << " {"; switch (map().elements_kind()) { case HOLEY_SMI_ELEMENTS: case PACKED_SMI_ELEMENTS: case HOLEY_ELEMENTS: case HOLEY_FROZEN_ELEMENTS: case HOLEY_SEALED_ELEMENTS: case HOLEY_NONEXTENSIBLE_ELEMENTS: case PACKED_ELEMENTS: case PACKED_FROZEN_ELEMENTS: case PACKED_SEALED_ELEMENTS: case PACKED_NONEXTENSIBLE_ELEMENTS: case FAST_STRING_WRAPPER_ELEMENTS: { PrintFixedArrayElements(os, FixedArray::cast(elements())); break; } case HOLEY_DOUBLE_ELEMENTS: case PACKED_DOUBLE_ELEMENTS: { DoPrintElements(os, elements(), elements().length()); break; } #define PRINT_ELEMENTS(Type, type, TYPE, elementType) \ case TYPE##_ELEMENTS: { \ size_t length = JSTypedArray::cast(*this).GetLength(); \ bool is_on_heap = JSTypedArray::cast(*this).is_on_heap(); \ const elementType* data_ptr = \ static_cast(JSTypedArray::cast(*this).DataPtr()); \ PrintTypedArrayElements(os, data_ptr, length, is_on_heap); \ break; \ } TYPED_ARRAYS(PRINT_ELEMENTS) RAB_GSAB_TYPED_ARRAYS(PRINT_ELEMENTS) #undef PRINT_ELEMENTS case DICTIONARY_ELEMENTS: case SLOW_STRING_WRAPPER_ELEMENTS: PrintDictionaryElements(os, elements()); break; case FAST_SLOPPY_ARGUMENTS_ELEMENTS: case SLOW_SLOPPY_ARGUMENTS_ELEMENTS: PrintSloppyArgumentElements(os, map().elements_kind(), SloppyArgumentsElements::cast(elements())); break; case WASM_ARRAY_ELEMENTS: // WasmArrayPrint() should be called intead. UNREACHABLE(); case NO_ELEMENTS: break; } os << "\n }\n"; } static void JSObjectPrintHeader(std::ostream& os, JSObject obj, const char* id) { Isolate* isolate = obj.GetIsolate(); obj.PrintHeader(os, id); // Don't call GetElementsKind, its validation code can cause the printer to // fail when debugging. os << " ["; if (obj.HasFastProperties()) { os << "FastProperties"; } else { os << "DictionaryProperties"; } PrototypeIterator iter(isolate, obj); os << "]\n - prototype: " << Brief(iter.GetCurrent()); os << "\n - elements: " << Brief(obj.elements()) << " [" << ElementsKindToString(obj.map().elements_kind()); if (obj.elements().IsCowArray()) os << " (COW)"; os << "]"; Object hash = obj.GetHash(); if (hash.IsSmi()) { os << "\n - hash: " << Brief(hash); } if (obj.GetEmbedderFieldCount() > 0) { os << "\n - embedder fields: " << obj.GetEmbedderFieldCount(); } } static void JSObjectPrintBody(std::ostream& os, JSObject obj, bool print_elements = true) { os << "\n - properties: "; Object properties_or_hash = obj.raw_properties_or_hash(kRelaxedLoad); if (!properties_or_hash.IsSmi()) { os << Brief(properties_or_hash); } os << "\n - All own properties (excluding elements): {"; if (obj.PrintProperties(os)) os << "\n "; os << "}\n"; if (print_elements) { size_t length = obj.IsJSTypedArray() ? JSTypedArray::cast(obj).GetLength() : obj.elements().length(); if (length > 0) obj.PrintElements(os); } int embedder_fields = obj.GetEmbedderFieldCount(); if (embedder_fields > 0) { Isolate* isolate = GetIsolateForHeapSandbox(obj); os << " - embedder fields = {"; for (int i = 0; i < embedder_fields; i++) { os << "\n "; PrintEmbedderData(isolate, os, EmbedderDataSlot(obj, i)); } os << "\n }\n"; } } void JSObject::JSObjectPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, nullptr); JSObjectPrintBody(os, *this); } void JSGeneratorObject::JSGeneratorObjectPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSGeneratorObject"); os << "\n - function: " << Brief(function()); os << "\n - context: " << Brief(context()); os << "\n - receiver: " << Brief(receiver()); if (is_executing() || is_closed()) { os << "\n - input: " << Brief(input_or_debug_pos()); } else { DCHECK(is_suspended()); os << "\n - debug pos: " << Brief(input_or_debug_pos()); } const char* mode = "(invalid)"; switch (resume_mode()) { case kNext: mode = ".next()"; break; case kReturn: mode = ".return()"; break; case kThrow: mode = ".throw()"; break; } os << "\n - resume mode: " << mode; os << "\n - continuation: " << continuation(); if (is_closed()) os << " (closed)"; if (is_executing()) os << " (executing)"; if (is_suspended()) os << " (suspended)"; if (is_suspended()) { DisallowGarbageCollection no_gc; SharedFunctionInfo fun_info = function().shared(); if (fun_info.HasSourceCode()) { Script script = Script::cast(fun_info.script()); String script_name = script.name().IsString() ? String::cast(script.name()) : GetReadOnlyRoots().empty_string(); os << "\n - source position: "; // Can't collect source positions here if not available as that would // allocate memory. Isolate* isolate = GetIsolate(); if (fun_info.HasBytecodeArray() && fun_info.GetBytecodeArray(isolate).HasSourcePositionTable()) { os << source_position(); os << " ("; script_name.PrintUC16(os); int lin = script.GetLineNumber(source_position()) + 1; int col = script.GetColumnNumber(source_position()) + 1; os << ", lin " << lin; os << ", col " << col; } else { os << "unavailable"; } os << ")"; } } os << "\n - register file: " << Brief(parameters_and_registers()); JSObjectPrintBody(os, *this); } void JSArray::JSArrayPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSArray"); os << "\n - length: " << Brief(this->length()); JSObjectPrintBody(os, *this); } void JSPromise::JSPromisePrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSPromise"); os << "\n - status: " << JSPromise::Status(status()); if (status() == Promise::kPending) { os << "\n - reactions: " << Brief(reactions()); } else { os << "\n - result: " << Brief(result()); } os << "\n - has_handler: " << has_handler(); os << "\n - handled_hint: " << handled_hint(); os << "\n - is_silent: " << is_silent(); JSObjectPrintBody(os, *this); } void JSRegExp::JSRegExpPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSRegExp"); os << "\n - data: " << Brief(data()); os << "\n - source: " << Brief(source()); JSObjectPrintBody(os, *this); } void JSRegExpStringIterator::JSRegExpStringIteratorPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSRegExpStringIterator"); os << "\n - regex: " << Brief(iterating_reg_exp()); os << "\n - string: " << Brief(iterated_string()); os << "\n - done: " << done(); os << "\n - global: " << global(); os << "\n - unicode: " << unicode(); JSObjectPrintBody(os, *this); } void Symbol::SymbolPrint(std::ostream& os) { PrintHeader(os, "Symbol"); os << "\n - hash: " << hash(); os << "\n - description: " << Brief(description()); if (description().IsUndefined()) { os << " (" << PrivateSymbolToName() << ")"; } os << "\n - private: " << is_private(); os << "\n"; } void DescriptorArray::DescriptorArrayPrint(std::ostream& os) { PrintHeader(os, "DescriptorArray"); os << "\n - enum_cache: "; if (enum_cache().keys().length() == 0) { os << "empty"; } else { os << enum_cache().keys().length(); os << "\n - keys: " << Brief(enum_cache().keys()); os << "\n - indices: " << Brief(enum_cache().indices()); } os << "\n - nof slack descriptors: " << number_of_slack_descriptors(); os << "\n - nof descriptors: " << number_of_descriptors(); int16_t raw_marked = raw_number_of_marked_descriptors(); os << "\n - raw marked descriptors: mc epoch " << NumberOfMarkedDescriptors::Epoch::decode(raw_marked) << ", marked " << NumberOfMarkedDescriptors::Marked::decode(raw_marked); PrintDescriptors(os); } namespace { void PrintFixedArrayWithHeader(std::ostream& os, FixedArray array, const char* type) { array.PrintHeader(os, type); os << "\n - length: " << array.length(); PrintFixedArrayElements(os, array); os << "\n"; } template void PrintWeakArrayElements(std::ostream& os, T* array) { // Print in array notation for non-sparse arrays. MaybeObject previous_value = array->length() > 0 ? array->Get(0) : MaybeObject(kNullAddress); MaybeObject value; int previous_index = 0; int i; for (i = 1; i <= array->length(); i++) { if (i < array->length()) value = array->Get(i); if (previous_value == value && i != array->length()) { continue; } os << "\n"; std::stringstream ss; ss << previous_index; if (previous_index != i - 1) { ss << '-' << (i - 1); } os << std::setw(12) << ss.str() << ": " << Brief(previous_value); previous_index = i; previous_value = value; } } } // namespace void ObjectBoilerplateDescription::ObjectBoilerplateDescriptionPrint( std::ostream& os) { PrintFixedArrayWithHeader(os, *this, "ObjectBoilerplateDescription"); } void EmbedderDataArray::EmbedderDataArrayPrint(std::ostream& os) { Isolate* isolate = GetIsolateForHeapSandbox(*this); PrintHeader(os, "EmbedderDataArray"); os << "\n - length: " << length(); EmbedderDataSlot start(*this, 0); EmbedderDataSlot end(*this, length()); for (EmbedderDataSlot slot = start; slot < end; ++slot) { os << "\n "; PrintEmbedderData(isolate, os, slot); } os << "\n"; } void FixedArray::FixedArrayPrint(std::ostream& os) { PrintFixedArrayWithHeader(os, *this, "FixedArray"); } namespace { const char* SideEffectType2String(SideEffectType type) { switch (type) { case SideEffectType::kHasSideEffect: return "kHasSideEffect"; case SideEffectType::kHasNoSideEffect: return "kHasNoSideEffect"; case SideEffectType::kHasSideEffectToReceiver: return "kHasSideEffectToReceiver"; } } } // namespace void AccessorInfo::AccessorInfoPrint(std::ostream& os) { TorqueGeneratedAccessorInfo::AccessorInfoPrint(os); os << " - all_can_read: " << all_can_read(); os << "\n - all_can_write: " << all_can_write(); os << "\n - is_special_data_property: " << is_special_data_property(); os << "\n - is_sloppy: " << is_sloppy(); os << "\n - replace_on_access: " << replace_on_access(); os << "\n - getter_side_effect_type: " << SideEffectType2String(getter_side_effect_type()); os << "\n - setter_side_effect_type: " << SideEffectType2String(setter_side_effect_type()); os << "\n - initial_attributes: " << initial_property_attributes(); os << '\n'; } namespace { void PrintContextWithHeader(std::ostream& os, Context context, const char* type) { context.PrintHeader(os, type); os << "\n - length: " << context.length(); os << "\n - scope_info: " << Brief(context.scope_info()); os << "\n - previous: " << Brief(context.unchecked_previous()); os << "\n - native_context: " << Brief(context.native_context()); PrintFixedArrayElements(os, context); os << "\n"; } } // namespace void Context::ContextPrint(std::ostream& os) { PrintContextWithHeader(os, *this, "Context"); } void NativeContext::NativeContextPrint(std::ostream& os) { PrintContextWithHeader(os, *this, "NativeContext"); os << " - microtask_queue: " << microtask_queue() << "\n"; } namespace { using DataPrinter = std::function; // Prints the data associated with each key (but no headers or other meta // data) in a hash table. Works on different hash table types, like the // subtypes of HashTable and OrderedHashTable. |print_data_at| is given an // index into the table (where a valid key resides) and prints the data at // that index, like just the value (in case of a hash map), or value and // property details (in case of a property dictionary). No leading space // required or trailing newline required. It can be null/non-callable // std::function to indicate that there is no associcated data to be printed // (for example in case of a hash set). template void PrintTableContentsGeneric(std::ostream& os, T dict, DataPrinter print_data_at) { DisallowGarbageCollection no_gc; ReadOnlyRoots roots = dict.GetReadOnlyRoots(); for (InternalIndex i : dict.IterateEntries()) { Object k; if (!dict.ToKey(roots, i, &k)) continue; os << "\n " << std::setw(12) << i.as_int() << ": "; if (k.IsString()) { String::cast(k).PrintUC16(os); } else { os << Brief(k); } if (print_data_at) { os << " -> "; print_data_at(i); } } } // Used for ordered and unordered dictionaries. template void PrintDictionaryContentsFull(std::ostream& os, T dict) { os << "\n - elements: {"; auto print_value_and_property_details = [&](InternalIndex i) { os << Brief(dict.ValueAt(i)) << " "; dict.DetailsAt(i).PrintAsSlowTo(os, !T::kIsOrderedDictionaryType); }; PrintTableContentsGeneric(os, dict, print_value_and_property_details); os << "\n }\n"; } // Used for ordered and unordered hash maps. template void PrintHashMapContentsFull(std::ostream& os, T dict) { os << "\n - elements: {"; auto print_value = [&](InternalIndex i) { os << Brief(dict.ValueAt(i)); }; PrintTableContentsGeneric(os, dict, print_value); os << "\n }\n"; } // Used for ordered and unordered hash sets. template void PrintHashSetContentsFull(std::ostream& os, T dict) { os << "\n - elements: {"; // Passing non-callable std::function as there are no values to print. PrintTableContentsGeneric(os, dict, nullptr); os << "\n }\n"; } // Used for subtypes of OrderedHashTable. template void PrintOrderedHashTableHeaderAndBuckets(std::ostream& os, T table, const char* type) { DisallowGarbageCollection no_gc; PrintHeapObjectHeaderWithoutMap(table, os, type); os << "\n - FixedArray length: " << table.length(); os << "\n - elements: " << table.NumberOfElements(); os << "\n - deleted: " << table.NumberOfDeletedElements(); os << "\n - buckets: " << table.NumberOfBuckets(); os << "\n - capacity: " << table.Capacity(); os << "\n - buckets: {"; for (int bucket = 0; bucket < table.NumberOfBuckets(); bucket++) { Object entry = table.get(T::HashTableStartIndex() + bucket); DCHECK(entry.IsSmi()); os << "\n " << std::setw(12) << bucket << ": " << Brief(entry); } os << "\n }"; } // Used for subtypes of HashTable. template void PrintHashTableHeader(std::ostream& os, T table, const char* type) { PrintHeapObjectHeaderWithoutMap(table, os, type); os << "\n - FixedArray length: " << table.length(); os << "\n - elements: " << table.NumberOfElements(); os << "\n - deleted: " << table.NumberOfDeletedElements(); os << "\n - capacity: " << table.Capacity(); } } // namespace void ObjectHashTable::ObjectHashTablePrint(std::ostream& os) { PrintHashTableHeader(os, *this, "ObjectHashTable"); PrintHashMapContentsFull(os, *this); } void NumberDictionary::NumberDictionaryPrint(std::ostream& os) { PrintHashTableHeader(os, *this, "NumberDictionary"); PrintDictionaryContentsFull(os, *this); } void EphemeronHashTable::EphemeronHashTablePrint(std::ostream& os) { PrintHashTableHeader(os, *this, "EphemeronHashTable"); PrintHashMapContentsFull(os, *this); } void NameDictionary::NameDictionaryPrint(std::ostream& os) { PrintHashTableHeader(os, *this, "NameDictionary"); PrintDictionaryContentsFull(os, *this); } void GlobalDictionary::GlobalDictionaryPrint(std::ostream& os) { PrintHashTableHeader(os, *this, "GlobalDictionary"); PrintDictionaryContentsFull(os, *this); } void SmallOrderedHashSet::SmallOrderedHashSetPrint(std::ostream& os) { PrintHeader(os, "SmallOrderedHashSet"); // TODO(turbofan): Print all fields. } void SmallOrderedHashMap::SmallOrderedHashMapPrint(std::ostream& os) { PrintHeader(os, "SmallOrderedHashMap"); // TODO(turbofan): Print all fields. } void SmallOrderedNameDictionary::SmallOrderedNameDictionaryPrint( std::ostream& os) { PrintHeader(os, "SmallOrderedNameDictionary"); // TODO(turbofan): Print all fields. } void OrderedHashSet::OrderedHashSetPrint(std::ostream& os) { PrintOrderedHashTableHeaderAndBuckets(os, *this, "OrderedHashSet"); PrintHashSetContentsFull(os, *this); } void OrderedHashMap::OrderedHashMapPrint(std::ostream& os) { PrintOrderedHashTableHeaderAndBuckets(os, *this, "OrderedHashMap"); PrintHashMapContentsFull(os, *this); } void OrderedNameDictionary::OrderedNameDictionaryPrint(std::ostream& os) { PrintOrderedHashTableHeaderAndBuckets(os, *this, "OrderedNameDictionary"); PrintDictionaryContentsFull(os, *this); } void print_hex_byte(std::ostream& os, int value) { os << "0x" << std::setfill('0') << std::setw(2) << std::right << std::hex << (value & 0xff) << std::setfill(' '); } void SwissNameDictionary::SwissNameDictionaryPrint(std::ostream& os) { this->PrintHeader(os, "SwissNameDictionary"); os << "\n - meta table ByteArray: " << reinterpret_cast(this->meta_table().ptr()); os << "\n - capacity: " << this->Capacity(); os << "\n - elements: " << this->NumberOfElements(); os << "\n - deleted: " << this->NumberOfDeletedElements(); std::ios_base::fmtflags sav_flags = os.flags(); os << "\n - ctrl table (omitting buckets where key is hole value): {"; for (int i = 0; i < this->Capacity() + kGroupWidth; i++) { ctrl_t ctrl = CtrlTable()[i]; if (ctrl == Ctrl::kEmpty) continue; os << "\n " << std::setw(12) << std::dec << i << ": "; switch (ctrl) { case Ctrl::kEmpty: UNREACHABLE(); case Ctrl::kDeleted: print_hex_byte(os, ctrl); os << " (= kDeleted)"; break; case Ctrl::kSentinel: print_hex_byte(os, ctrl); os << " (= kSentinel)"; break; default: print_hex_byte(os, ctrl); os << " (= H2 of a key)"; break; } } os << "\n }"; os << "\n - enumeration table: {"; for (int enum_index = 0; enum_index < this->UsedCapacity(); enum_index++) { int entry = EntryForEnumerationIndex(enum_index); os << "\n " << std::setw(12) << std::dec << enum_index << ": " << entry; } os << "\n }"; os << "\n - data table (omitting slots where key is the hole): {"; for (int bucket = 0; bucket < this->Capacity(); ++bucket) { Object k; if (!this->ToKey(this->GetReadOnlyRoots(), bucket, &k)) continue; Object value = this->ValueAtRaw(bucket); PropertyDetails details = this->DetailsAt(bucket); os << "\n " << std::setw(12) << std::dec << bucket << ": "; if (k.IsString()) { String::cast(k).PrintUC16(os); } else { os << Brief(k); } os << " -> " << Brief(value); details.PrintAsSlowTo(os, false); } os << "\n }\n"; os.flags(sav_flags); } void PropertyArray::PropertyArrayPrint(std::ostream& os) { PrintHeader(os, "PropertyArray"); os << "\n - length: " << length(); os << "\n - hash: " << Hash(); PrintFixedArrayElements(os, *this); os << "\n"; } void FixedDoubleArray::FixedDoubleArrayPrint(std::ostream& os) { PrintHeader(os, "FixedDoubleArray"); os << "\n - length: " << length(); DoPrintElements(os, *this, length()); os << "\n"; } void WeakFixedArray::WeakFixedArrayPrint(std::ostream& os) { PrintHeader(os, "WeakFixedArray"); os << "\n - length: " << length() << "\n"; PrintWeakArrayElements(os, this); os << "\n"; } void WeakArrayList::WeakArrayListPrint(std::ostream& os) { PrintHeader(os, "WeakArrayList"); os << "\n - capacity: " << capacity(); os << "\n - length: " << length() << "\n"; PrintWeakArrayElements(os, this); os << "\n"; } void TransitionArray::TransitionArrayPrint(std::ostream& os) { PrintHeader(os, "TransitionArray"); PrintInternal(os); } void FeedbackCell::FeedbackCellPrint(std::ostream& os) { PrintHeader(os, "FeedbackCell"); ReadOnlyRoots roots = GetReadOnlyRoots(); if (map() == roots.no_closures_cell_map()) { os << "\n - no closures"; } else if (map() == roots.one_closure_cell_map()) { os << "\n - one closure"; } else if (map() == roots.many_closures_cell_map()) { os << "\n - many closures"; } else { os << "\n - Invalid FeedbackCell map"; } os << "\n - value: " << Brief(value()); os << "\n - interrupt_budget: " << interrupt_budget(); os << "\n"; } void FeedbackVectorSpec::Print() { StdoutStream os; FeedbackVectorSpecPrint(os); os << std::flush; } void FeedbackVectorSpec::FeedbackVectorSpecPrint(std::ostream& os) { os << " - slot_count: " << slot_count(); if (slot_count() == 0) { os << " (empty)\n"; return; } for (int slot = 0; slot < slot_count();) { FeedbackSlotKind kind = GetKind(FeedbackSlot(slot)); int entry_size = FeedbackMetadata::GetSlotSize(kind); DCHECK_LT(0, entry_size); os << "\n Slot #" << slot << " " << kind; slot += entry_size; } os << "\n"; } void FeedbackMetadata::FeedbackMetadataPrint(std::ostream& os) { PrintHeader(os, "FeedbackMetadata"); os << "\n - slot_count: " << slot_count(); os << "\n - create_closure_slot_count: " << create_closure_slot_count(); FeedbackMetadataIterator iter(*this); while (iter.HasNext()) { FeedbackSlot slot = iter.Next(); FeedbackSlotKind kind = iter.kind(); os << "\n Slot " << slot << " " << kind; } os << "\n"; } void ClosureFeedbackCellArray::ClosureFeedbackCellArrayPrint(std::ostream& os) { PrintFixedArrayWithHeader(os, *this, "ClosureFeedbackCellArray"); } void FeedbackVector::FeedbackVectorPrint(std::ostream& os) { PrintHeader(os, "FeedbackVector"); os << "\n - length: " << length(); if (length() == 0) { os << " (empty)\n"; return; } os << "\n - shared function info: " << Brief(shared_function_info()); if (has_optimized_code()) { os << "\n - optimized code: " << Brief(optimized_code()); } else { os << "\n - no optimized code"; } os << "\n - optimization marker: " << optimization_marker(); os << "\n - optimization tier: " << optimization_tier(); os << "\n - invocation count: " << invocation_count(); os << "\n - profiler ticks: " << profiler_ticks(); os << "\n - closure feedback cell array: "; closure_feedback_cell_array().ClosureFeedbackCellArrayPrint(os); FeedbackMetadataIterator iter(metadata()); while (iter.HasNext()) { FeedbackSlot slot = iter.Next(); FeedbackSlotKind kind = iter.kind(); os << "\n - slot " << slot << " " << kind << " "; FeedbackSlotPrint(os, slot); int entry_size = iter.entry_size(); if (entry_size > 0) os << " {"; for (int i = 0; i < entry_size; i++) { FeedbackSlot slot_with_offset = slot.WithOffset(i); os << "\n [" << slot_with_offset.ToInt() << "]: " << Brief(Get(slot_with_offset)); } if (entry_size > 0) os << "\n }"; } os << "\n"; } void FeedbackVector::FeedbackSlotPrint(std::ostream& os, FeedbackSlot slot) { FeedbackNexus nexus(*this, slot); nexus.Print(os); } void FeedbackNexus::Print(std::ostream& os) { switch (kind()) { case FeedbackSlotKind::kCall: case FeedbackSlotKind::kCloneObject: case FeedbackSlotKind::kHasKeyed: case FeedbackSlotKind::kInstanceOf: case FeedbackSlotKind::kLoadGlobalInsideTypeof: case FeedbackSlotKind::kLoadGlobalNotInsideTypeof: case FeedbackSlotKind::kLoadKeyed: case FeedbackSlotKind::kLoadProperty: case FeedbackSlotKind::kStoreDataPropertyInLiteral: case FeedbackSlotKind::kStoreGlobalSloppy: case FeedbackSlotKind::kStoreGlobalStrict: case FeedbackSlotKind::kStoreInArrayLiteral: case FeedbackSlotKind::kStoreKeyedSloppy: case FeedbackSlotKind::kStoreKeyedStrict: case FeedbackSlotKind::kStoreNamedSloppy: case FeedbackSlotKind::kStoreNamedStrict: case FeedbackSlotKind::kStoreOwnNamed: { os << InlineCacheState2String(ic_state()); break; } case FeedbackSlotKind::kBinaryOp: { os << "BinaryOp:" << GetBinaryOperationFeedback(); break; } case FeedbackSlotKind::kCompareOp: { os << "CompareOp:" << GetCompareOperationFeedback(); break; } case FeedbackSlotKind::kForIn: { os << "ForIn:" << GetForInFeedback(); break; } case FeedbackSlotKind::kLiteral: case FeedbackSlotKind::kTypeProfile: break; case FeedbackSlotKind::kInvalid: case FeedbackSlotKind::kKindsNumber: UNREACHABLE(); } } void Oddball::OddballPrint(std::ostream& os) { PrintHeapObjectHeaderWithoutMap(*this, os, "Oddball"); os << ": "; String s = to_string(); os << s.PrefixForDebugPrint(); s.PrintUC16(os); os << s.SuffixForDebugPrint(); os << std::endl; } void JSAsyncFunctionObject::JSAsyncFunctionObjectPrint(std::ostream& os) { JSGeneratorObjectPrint(os); } void JSAsyncGeneratorObject::JSAsyncGeneratorObjectPrint(std::ostream& os) { JSGeneratorObjectPrint(os); } void JSArgumentsObject::JSArgumentsObjectPrint(std::ostream& os) { JSObjectPrint(os); } void JSStringIterator::JSStringIteratorPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSStringIterator"); os << "\n - string: " << Brief(string()); os << "\n - index: " << index(); JSObjectPrintBody(os, *this); } void JSAsyncFromSyncIterator::JSAsyncFromSyncIteratorPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSAsyncFromSyncIterator"); os << "\n - sync_iterator: " << Brief(sync_iterator()); os << "\n - next: " << Brief(next()); JSObjectPrintBody(os, *this); } void JSPrimitiveWrapper::JSPrimitiveWrapperPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSPrimitiveWrapper"); os << "\n - value: " << Brief(value()); JSObjectPrintBody(os, *this); } void JSMessageObject::JSMessageObjectPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSMessageObject"); os << "\n - type: " << static_cast(type()); os << "\n - arguments: " << Brief(argument()); os << "\n - start_position: " << start_position(); os << "\n - end_position: " << end_position(); os << "\n - script: " << Brief(script()); os << "\n - stack_frames: " << Brief(stack_frames()); JSObjectPrintBody(os, *this); } void String::StringPrint(std::ostream& os) { PrintHeapObjectHeaderWithoutMap(*this, os, "String"); os << ": "; os << PrefixForDebugPrint(); PrintUC16(os, 0, length()); os << SuffixForDebugPrint(); } void Name::NamePrint(std::ostream& os) { if (IsString()) { String::cast(*this).StringPrint(os); } else { os << Brief(*this); } } static const char* const weekdays[] = {"???", "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"}; void JSDate::JSDatePrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSDate"); os << "\n - value: " << Brief(value()); if (!year().IsSmi()) { os << "\n - time = NaN\n"; } else { // TODO(svenpanne) Add some basic formatting to our streams. base::ScopedVector buf(100); SNPrintF(buf, "\n - time = %s %04d/%02d/%02d %02d:%02d:%02d\n", weekdays[weekday().IsSmi() ? Smi::ToInt(weekday()) + 1 : 0], year().IsSmi() ? Smi::ToInt(year()) : -1, month().IsSmi() ? Smi::ToInt(month()) : -1, day().IsSmi() ? Smi::ToInt(day()) : -1, hour().IsSmi() ? Smi::ToInt(hour()) : -1, min().IsSmi() ? Smi::ToInt(min()) : -1, sec().IsSmi() ? Smi::ToInt(sec()) : -1); os << buf.begin(); } JSObjectPrintBody(os, *this); } void JSProxy::JSProxyPrint(std::ostream& os) { PrintHeader(os, "JSProxy"); os << "\n - target: "; target().ShortPrint(os); os << "\n - handler: "; handler().ShortPrint(os); os << "\n"; } void JSSet::JSSetPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSSet"); os << " - table: " << Brief(table()); JSObjectPrintBody(os, *this); } void JSMap::JSMapPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSMap"); os << " - table: " << Brief(table()); JSObjectPrintBody(os, *this); } void JSCollectionIterator::JSCollectionIteratorPrint(std::ostream& os, const char* name) { JSObjectPrintHeader(os, *this, name); os << "\n - table: " << Brief(table()); os << "\n - index: " << Brief(index()); JSObjectPrintBody(os, *this); } void JSSetIterator::JSSetIteratorPrint(std::ostream& os) { JSCollectionIteratorPrint(os, "JSSetIterator"); } void JSMapIterator::JSMapIteratorPrint(std::ostream& os) { JSCollectionIteratorPrint(os, "JSMapIterator"); } void WeakCell::WeakCellPrint(std::ostream& os) { PrintHeader(os, "WeakCell"); os << "\n - finalization_registry: " << Brief(finalization_registry()); os << "\n - target: " << Brief(target()); os << "\n - holdings: " << Brief(holdings()); os << "\n - prev: " << Brief(prev()); os << "\n - next: " << Brief(next()); os << "\n - unregister_token: " << Brief(unregister_token()); os << "\n - key_list_prev: " << Brief(key_list_prev()); os << "\n - key_list_next: " << Brief(key_list_next()); } void JSWeakRef::JSWeakRefPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSWeakRef"); os << "\n - target: " << Brief(target()); JSObjectPrintBody(os, *this); } void JSFinalizationRegistry::JSFinalizationRegistryPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSFinalizationRegistry"); os << "\n - native_context: " << Brief(native_context()); os << "\n - cleanup: " << Brief(cleanup()); os << "\n - active_cells: " << Brief(active_cells()); Object active_cell = active_cells(); while (active_cell.IsWeakCell()) { os << "\n - " << Brief(active_cell); active_cell = WeakCell::cast(active_cell).next(); } os << "\n - cleared_cells: " << Brief(cleared_cells()); Object cleared_cell = cleared_cells(); while (cleared_cell.IsWeakCell()) { os << "\n - " << Brief(cleared_cell); cleared_cell = WeakCell::cast(cleared_cell).next(); } os << "\n - key_map: " << Brief(key_map()); JSObjectPrintBody(os, *this); } void JSWeakMap::JSWeakMapPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSWeakMap"); os << "\n - table: " << Brief(table()); JSObjectPrintBody(os, *this); } void JSWeakSet::JSWeakSetPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSWeakSet"); os << "\n - table: " << Brief(table()); JSObjectPrintBody(os, *this); } void JSArrayBuffer::JSArrayBufferPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSArrayBuffer"); os << "\n - backing_store: " << backing_store(); os << "\n - byte_length: " << byte_length(); os << "\n - max_byte_length: " << max_byte_length(); if (is_external()) os << "\n - external"; if (is_detachable()) os << "\n - detachable"; if (was_detached()) os << "\n - detached"; if (is_shared()) os << "\n - shared"; if (is_resizable()) os << "\n - resizable"; JSObjectPrintBody(os, *this, !was_detached()); } void JSTypedArray::JSTypedArrayPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSTypedArray"); os << "\n - buffer: " << Brief(buffer()); os << "\n - byte_offset: " << byte_offset(); os << "\n - byte_length: " << byte_length(); os << "\n - length: " << GetLength(); os << "\n - data_ptr: " << DataPtr(); Tagged_t base_ptr = static_cast(base_pointer().ptr()); os << "\n - base_pointer: " << reinterpret_cast(static_cast
(base_ptr)); os << "\n - external_pointer: " << reinterpret_cast(external_pointer()); if (!buffer().IsJSArrayBuffer()) { os << "\n \n"; return; } if (WasDetached()) os << "\n - detached"; if (is_length_tracking()) os << "\n - length-tracking"; if (is_backed_by_rab()) os << "\n - backed-by-rab"; JSObjectPrintBody(os, *this, !WasDetached()); } void JSArrayIterator::JSArrayIteratorPrint(std::ostream& os) { // NOLING JSObjectPrintHeader(os, *this, "JSArrayIterator"); os << "\n - iterated_object: " << Brief(iterated_object()); os << "\n - next_index: " << Brief(next_index()); os << "\n - kind: " << kind(); JSObjectPrintBody(os, *this); } void JSDataView::JSDataViewPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSDataView"); os << "\n - buffer =" << Brief(buffer()); os << "\n - byte_offset: " << byte_offset(); os << "\n - byte_length: " << byte_length(); if (!buffer().IsJSArrayBuffer()) { os << "\n "; return; } if (WasDetached()) os << "\n - detached"; JSObjectPrintBody(os, *this, !WasDetached()); } void JSBoundFunction::JSBoundFunctionPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSBoundFunction"); os << "\n - bound_target_function: " << Brief(bound_target_function()); os << "\n - bound_this: " << Brief(bound_this()); os << "\n - bound_arguments: " << Brief(bound_arguments()); JSObjectPrintBody(os, *this); } void JSFunction::JSFunctionPrint(std::ostream& os) { Isolate* isolate = GetIsolate(); JSObjectPrintHeader(os, *this, "Function"); os << "\n - function prototype: "; if (has_prototype_slot()) { if (has_prototype()) { os << Brief(prototype()); if (map().has_non_instance_prototype()) { os << " (non-instance prototype)"; } } os << "\n - initial_map: "; if (has_initial_map()) os << Brief(initial_map()); } else { os << ""; } os << "\n - shared_info: " << Brief(shared()); os << "\n - name: " << Brief(shared().Name()); // Print Builtin name for builtin functions Builtin builtin = code().builtin_id(); if (Builtins::IsBuiltinId(builtin)) { os << "\n - builtin: " << isolate->builtins()->name(builtin); } os << "\n - formal_parameter_count: " << shared().internal_formal_parameter_count(); os << "\n - kind: " << shared().kind(); os << "\n - context: " << Brief(context()); os << "\n - code: " << Brief(raw_code()); if (code().kind() == CodeKind::FOR_TESTING) { os << "\n - FOR_TESTING"; } else if (ActiveTierIsIgnition()) { os << "\n - interpreted"; if (shared().HasBytecodeArray()) { os << "\n - bytecode: " << shared().GetBytecodeArray(isolate); } } #if V8_ENABLE_WEBASSEMBLY if (WasmExportedFunction::IsWasmExportedFunction(*this)) { WasmExportedFunction function = WasmExportedFunction::cast(*this); os << "\n - Wasm instance: " << Brief(function.instance()); os << "\n - Wasm function index: " << function.function_index(); } if (WasmJSFunction::IsWasmJSFunction(*this)) { WasmJSFunction function = WasmJSFunction::cast(*this); os << "\n - Wasm wrapper around: " << Brief(function.GetCallable()); } #endif // V8_ENABLE_WEBASSEMBLY shared().PrintSourceCode(os); JSObjectPrintBody(os, *this); os << " - feedback vector: "; if (!shared().HasFeedbackMetadata()) { os << "feedback metadata is not available in SFI\n"; } else if (has_feedback_vector()) { feedback_vector().FeedbackVectorPrint(os); } else if (has_closure_feedback_cell_array()) { os << "No feedback vector, but we have a closure feedback cell array\n"; closure_feedback_cell_array().ClosureFeedbackCellArrayPrint(os); } else { os << "not available\n"; } } void SharedFunctionInfo::PrintSourceCode(std::ostream& os) { if (HasSourceCode()) { os << "\n - source code: "; String source = String::cast(Script::cast(script()).source()); int start = StartPosition(); int length = EndPosition() - start; std::unique_ptr source_string = source.ToCString( DISALLOW_NULLS, FAST_STRING_TRAVERSAL, start, length, nullptr); os << source_string.get(); } } void SharedFunctionInfo::SharedFunctionInfoPrint(std::ostream& os) { PrintHeader(os, "SharedFunctionInfo"); os << "\n - name: "; if (HasSharedName()) { os << Brief(Name()); } else { os << ""; } if (HasInferredName()) { os << "\n - inferred name: " << Brief(inferred_name()); } if (class_scope_has_private_brand()) { os << "\n - class_scope_has_private_brand"; } if (has_static_private_methods_or_accessors()) { os << "\n - has_static_private_methods_or_accessors"; } os << "\n - kind: " << kind(); os << "\n - syntax kind: " << syntax_kind(); os << "\n - function_map_index: " << function_map_index(); os << "\n - formal_parameter_count: " << internal_formal_parameter_count(); os << "\n - expected_nof_properties: " << expected_nof_properties(); os << "\n - language_mode: " << language_mode(); os << "\n - data: " << Brief(function_data(kAcquireLoad)); os << "\n - code (from data): "; os << Brief(GetCode()); PrintSourceCode(os); // Script files are often large, thus only print their {Brief} representation. os << "\n - script: " << Brief(script()); os << "\n - function token position: " << function_token_position(); os << "\n - start position: " << StartPosition(); os << "\n - end position: " << EndPosition(); if (HasDebugInfo()) { os << "\n - debug info: " << Brief(GetDebugInfo()); } else { os << "\n - no debug info"; } os << "\n - scope info: " << Brief(scope_info()); if (HasOuterScopeInfo()) { os << "\n - outer scope info: " << Brief(GetOuterScopeInfo()); } os << "\n - length: " << length(); os << "\n - feedback_metadata: "; if (HasFeedbackMetadata()) { feedback_metadata().FeedbackMetadataPrint(os); } else { os << ""; } os << "\n"; } void JSGlobalProxy::JSGlobalProxyPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSGlobalProxy"); if (!GetIsolate()->bootstrapper()->IsActive()) { os << "\n - native context: " << Brief(native_context()); } JSObjectPrintBody(os, *this); } void JSGlobalObject::JSGlobalObjectPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSGlobalObject"); if (!GetIsolate()->bootstrapper()->IsActive()) { os << "\n - native context: " << Brief(native_context()); } os << "\n - global proxy: " << Brief(global_proxy()); JSObjectPrintBody(os, *this); } void PropertyCell::PropertyCellPrint(std::ostream& os) { PrintHeader(os, "PropertyCell"); os << "\n - name: "; name().NamePrint(os); os << "\n - value: " << Brief(value(kAcquireLoad)); os << "\n - details: "; PropertyDetails details = property_details(kAcquireLoad); details.PrintAsSlowTo(os, true); os << "\n - cell_type: " << details.cell_type(); os << "\n"; } void Code::CodePrint(std::ostream& os) { PrintHeader(os, "Code"); os << "\n - code_data_container: " << Brief(code_data_container(kAcquireLoad)); if (is_builtin()) { os << "\n - builtin_id: " << Builtins::name(builtin_id()); } os << "\n"; #ifdef ENABLE_DISASSEMBLER Disassemble(nullptr, os, GetIsolate()); #endif } void CodeDataContainer::CodeDataContainerPrint(std::ostream& os) { PrintHeader(os, "CodeDataContainer"); os << "\n - kind_specific_flags: " << kind_specific_flags(); if (V8_EXTERNAL_CODE_SPACE_BOOL) { os << "\n - code: " << Brief(code()); os << "\n - code_entry_point: " << reinterpret_cast(code_entry_point()); } os << "\n"; } void Foreign::ForeignPrint(std::ostream& os) { PrintHeader(os, "Foreign"); os << "\n - foreign address : " << reinterpret_cast(foreign_address()); os << "\n"; } void CallbackTask::CallbackTaskPrint(std::ostream& os) { PrintHeader(os, "CallbackTask"); os << "\n - callback: " << Brief(callback()); os << "\n - data: " << Brief(data()); os << "\n"; } void CallableTask::CallableTaskPrint(std::ostream& os) { PrintHeader(os, "CallableTask"); os << "\n - context: " << Brief(context()); os << "\n - callable: " << Brief(callable()); os << "\n"; } void PromiseFulfillReactionJobTask::PromiseFulfillReactionJobTaskPrint( std::ostream& os) { PrintHeader(os, "PromiseFulfillReactionJobTask"); os << "\n - argument: " << Brief(argument()); os << "\n - context: " << Brief(context()); os << "\n - handler: " << Brief(handler()); os << "\n - promise_or_capability: " << Brief(promise_or_capability()); os << "\n"; } void PromiseRejectReactionJobTask::PromiseRejectReactionJobTaskPrint( std::ostream& os) { PrintHeader(os, "PromiseRejectReactionJobTask"); os << "\n - argument: " << Brief(argument()); os << "\n - context: " << Brief(context()); os << "\n - handler: " << Brief(handler()); os << "\n - promise_or_capability: " << Brief(promise_or_capability()); os << "\n"; } void PromiseResolveThenableJobTask::PromiseResolveThenableJobTaskPrint( std::ostream& os) { PrintHeader(os, "PromiseResolveThenableJobTask"); os << "\n - context: " << Brief(context()); os << "\n - promise_to_resolve: " << Brief(promise_to_resolve()); os << "\n - then: " << Brief(then()); os << "\n - thenable: " << Brief(thenable()); os << "\n"; } void PromiseCapability::PromiseCapabilityPrint(std::ostream& os) { PrintHeader(os, "PromiseCapability"); os << "\n - promise: " << Brief(promise()); os << "\n - resolve: " << Brief(resolve()); os << "\n - reject: " << Brief(reject()); os << "\n"; } void PromiseReaction::PromiseReactionPrint(std::ostream& os) { PrintHeader(os, "PromiseReaction"); os << "\n - next: " << Brief(next()); os << "\n - reject_handler: " << Brief(reject_handler()); os << "\n - fulfill_handler: " << Brief(fulfill_handler()); os << "\n - promise_or_capability: " << Brief(promise_or_capability()); os << "\n"; } void AsyncGeneratorRequest::AsyncGeneratorRequestPrint(std::ostream& os) { PrintHeader(os, "AsyncGeneratorRequest"); const char* mode = "Invalid!"; switch (resume_mode()) { case JSGeneratorObject::kNext: mode = ".next()"; break; case JSGeneratorObject::kReturn: mode = ".return()"; break; case JSGeneratorObject::kThrow: mode = ".throw()"; break; } os << "\n - resume mode: " << mode; os << "\n - value: " << Brief(value()); os << "\n - next: " << Brief(next()); os << "\n"; } void SourceTextModuleInfoEntry::SourceTextModuleInfoEntryPrint( std::ostream& os) { PrintHeader(os, "SourceTextModuleInfoEntry"); os << "\n - export_name: " << Brief(export_name()); os << "\n - local_name: " << Brief(local_name()); os << "\n - import_name: " << Brief(import_name()); os << "\n - module_request: " << module_request(); os << "\n - cell_index: " << cell_index(); os << "\n - beg_pos: " << beg_pos(); os << "\n - end_pos: " << end_pos(); os << "\n"; } static void PrintModuleFields(Module module, std::ostream& os) { os << "\n - exports: " << Brief(module.exports()); os << "\n - status: " << module.status(); os << "\n - exception: " << Brief(module.exception()); } void Module::ModulePrint(std::ostream& os) { if (this->IsSourceTextModule()) { SourceTextModule::cast(*this).SourceTextModulePrint(os); } else if (this->IsSyntheticModule()) { SyntheticModule::cast(*this).SyntheticModulePrint(os); } else { UNREACHABLE(); } } void SourceTextModule::SourceTextModulePrint(std::ostream& os) { PrintHeader(os, "SourceTextModule"); PrintModuleFields(*this, os); os << "\n - sfi/code/info: " << Brief(code()); Script script = GetScript(); os << "\n - script: " << Brief(script); os << "\n - origin: " << Brief(script.GetNameOrSourceURL()); os << "\n - requested_modules: " << Brief(requested_modules()); os << "\n - import_meta: " << Brief(import_meta(kAcquireLoad)); os << "\n - cycle_root: " << Brief(cycle_root()); os << "\n - async_evaluating_ordinal: " << async_evaluating_ordinal(); os << "\n"; } void SyntheticModule::SyntheticModulePrint(std::ostream& os) { PrintHeader(os, "SyntheticModule"); PrintModuleFields(*this, os); os << "\n - export_names: " << Brief(export_names()); os << "\n - name: " << Brief(name()); os << "\n"; } void JSModuleNamespace::JSModuleNamespacePrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSModuleNamespace"); os << "\n - module: " << Brief(module()); JSObjectPrintBody(os, *this); } void PrototypeInfo::PrototypeInfoPrint(std::ostream& os) { PrintHeader(os, "PrototypeInfo"); os << "\n - module namespace: " << Brief(module_namespace()); os << "\n - prototype users: " << Brief(prototype_users()); os << "\n - registry slot: " << registry_slot(); os << "\n - object create map: " << Brief(object_create_map()); os << "\n - should_be_fast_map: " << should_be_fast_map(); os << "\n"; } void ClassPositions::ClassPositionsPrint(std::ostream& os) { PrintHeader(os, "ClassPositions"); os << "\n - start position: " << start(); os << "\n - end position: " << end(); os << "\n"; } void ArrayBoilerplateDescription::ArrayBoilerplateDescriptionPrint( std::ostream& os) { PrintHeader(os, "ArrayBoilerplateDescription"); os << "\n - elements kind: " << ElementsKindToString(elements_kind()); os << "\n - constant elements: " << Brief(constant_elements()); os << "\n"; } void RegExpBoilerplateDescription::RegExpBoilerplateDescriptionPrint( std::ostream& os) { PrintHeader(os, "RegExpBoilerplateDescription"); os << "\n - data: " << Brief(data()); os << "\n - source: " << Brief(source()); os << "\n - flags: " << flags(); os << "\n"; } #if V8_ENABLE_WEBASSEMBLY void AsmWasmData::AsmWasmDataPrint(std::ostream& os) { PrintHeader(os, "AsmWasmData"); os << "\n - native module: " << Brief(managed_native_module()); os << "\n - export_wrappers: " << Brief(export_wrappers()); os << "\n - uses bitset: " << uses_bitset().value(); os << "\n"; } void WasmTypeInfo::WasmTypeInfoPrint(std::ostream& os) { PrintHeader(os, "WasmTypeInfo"); os << "\n - type address: " << reinterpret_cast(foreign_address()); os << "\n - supertypes: " << Brief(supertypes()); os << "\n - subtypes: " << Brief(subtypes()); os << "\n - instance: " << Brief(instance()); os << "\n"; } void WasmStruct::WasmStructPrint(std::ostream& os) { PrintHeader(os, "WasmStruct"); wasm::StructType* struct_type = type(); os << "\n - fields (" << struct_type->field_count() << "):"; for (uint32_t i = 0; i < struct_type->field_count(); i++) { wasm::ValueType field = struct_type->field(i); os << "\n - " << field.short_name() << ": "; uint32_t field_offset = struct_type->field_offset(i); Address field_address = RawFieldAddress(field_offset); switch (field.kind()) { case wasm::kI32: os << base::ReadUnalignedValue(field_address); break; case wasm::kI64: os << base::ReadUnalignedValue(field_address); break; case wasm::kF32: os << base::ReadUnalignedValue(field_address); break; case wasm::kF64: os << base::ReadUnalignedValue(field_address); break; case wasm::kI8: os << base::ReadUnalignedValue(field_address); break; case wasm::kI16: os << base::ReadUnalignedValue(field_address); break; case wasm::kRef: case wasm::kOptRef: case wasm::kRtt: case wasm::kRttWithDepth: os << Brief(base::ReadUnalignedValue(field_address)); break; case wasm::kS128: case wasm::kBottom: case wasm::kVoid: os << "UNIMPLEMENTED"; // TODO(7748): Implement. break; } } os << "\n"; } void WasmArray::WasmArrayPrint(std::ostream& os) { PrintHeader(os, "WasmArray"); wasm::ArrayType* array_type = type(); uint32_t len = length(); os << "\n - type: " << array_type->element_type().name(); os << "\n - length: " << len; Address data_ptr = ptr() + WasmArray::kHeaderSize - kHeapObjectTag; switch (array_type->element_type().kind()) { case wasm::kI32: PrintTypedArrayElements(os, reinterpret_cast(data_ptr), len, true); break; case wasm::kI64: PrintTypedArrayElements(os, reinterpret_cast(data_ptr), len, true); break; case wasm::kF32: PrintTypedArrayElements(os, reinterpret_cast(data_ptr), len, true); break; case wasm::kF64: PrintTypedArrayElements(os, reinterpret_cast(data_ptr), len, true); break; case wasm::kI8: case wasm::kI16: case wasm::kS128: case wasm::kRef: case wasm::kOptRef: case wasm::kRtt: case wasm::kRttWithDepth: case wasm::kBottom: case wasm::kVoid: os << "\n Printing elements of this type is unimplemented, sorry"; // TODO(7748): Implement. break; } os << "\n"; } void WasmExceptionTag::WasmExceptionTagPrint(std::ostream& os) { PrintHeader(os, "WasmExceptionTag"); os << "\n - index: " << index(); os << "\n"; } void WasmInstanceObject::WasmInstanceObjectPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "WasmInstanceObject"); os << "\n - module_object: " << Brief(module_object()); os << "\n - exports_object: " << Brief(exports_object()); os << "\n - native_context: " << Brief(native_context()); if (has_memory_object()) { os << "\n - memory_object: " << Brief(memory_object()); } if (has_untagged_globals_buffer()) { os << "\n - untagged_globals_buffer: " << Brief(untagged_globals_buffer()); } if (has_tagged_globals_buffer()) { os << "\n - tagged_globals_buffer: " << Brief(tagged_globals_buffer()); } if (has_imported_mutable_globals_buffers()) { os << "\n - imported_mutable_globals_buffers: " << Brief(imported_mutable_globals_buffers()); } for (int i = 0; i < tables().length(); i++) { os << "\n - table " << i << ": " << Brief(tables().get(i)); } os << "\n - imported_function_refs: " << Brief(imported_function_refs()); if (has_indirect_function_table_refs()) { os << "\n - indirect_function_table_refs: " << Brief(indirect_function_table_refs()); } if (has_managed_native_allocations()) { os << "\n - managed_native_allocations: " << Brief(managed_native_allocations()); } os << "\n - memory_start: " << static_cast(memory_start()); os << "\n - memory_size: " << memory_size(); os << "\n - memory_mask: " << AsHex(memory_mask()); os << "\n - imported_function_targets: " << static_cast(imported_function_targets()); os << "\n - globals_start: " << static_cast(globals_start()); os << "\n - imported_mutable_globals: " << static_cast(imported_mutable_globals()); os << "\n - indirect_function_table_size: " << indirect_function_table_size(); os << "\n - indirect_function_table_sig_ids: " << static_cast(indirect_function_table_sig_ids()); os << "\n - indirect_function_table_targets: " << static_cast(indirect_function_table_targets()); JSObjectPrintBody(os, *this); os << "\n"; } // Never called directly, as WasmFunctionData is an "abstract" class. void WasmFunctionData::WasmFunctionDataPrint(std::ostream& os) { os << "\n - target: " << reinterpret_cast(foreign_address()); os << "\n - ref: " << Brief(ref()); os << "\n - wrapper_code: " << Brief(TorqueGeneratedClass::wrapper_code()); } void WasmExportedFunctionData::WasmExportedFunctionDataPrint(std::ostream& os) { PrintHeader(os, "WasmExportedFunctionData"); WasmFunctionDataPrint(os); os << "\n - instance: " << Brief(instance()); os << "\n - function_index: " << function_index(); os << "\n - signature: " << Brief(signature()); os << "\n - wrapper_budget: " << wrapper_budget(); os << "\n"; } void WasmJSFunctionData::WasmJSFunctionDataPrint(std::ostream& os) { PrintHeader(os, "WasmJSFunctionData"); WasmFunctionDataPrint(os); os << "\n - wasm_to_js_wrapper_code: " << Brief(raw_wasm_to_js_wrapper_code()); os << "\n - serialized_return_count: " << serialized_return_count(); os << "\n - serialized_parameter_count: " << serialized_parameter_count(); os << "\n - serialized_signature: " << Brief(serialized_signature()); os << "\n"; } void WasmCapiFunctionData::WasmCapiFunctionDataPrint(std::ostream& os) { PrintHeader(os, "WasmCapiFunctionData"); WasmFunctionDataPrint(os); os << "\n - embedder_data: " << Brief(embedder_data()); os << "\n - serialized_signature: " << Brief(serialized_signature()); os << "\n"; } void WasmModuleObject::WasmModuleObjectPrint(std::ostream& os) { PrintHeader(os, "WasmModuleObject"); os << "\n - module: " << module(); os << "\n - native module: " << native_module(); os << "\n - export wrappers: " << Brief(export_wrappers()); os << "\n - script: " << Brief(script()); os << "\n"; } void WasmTableObject::WasmTableObjectPrint(std::ostream& os) { PrintHeader(os, "WasmTableObject"); os << "\n - elements: " << Brief(elements()); os << "\n - maximum_length: " << Brief(maximum_length()); os << "\n - dispatch_tables: " << Brief(dispatch_tables()); os << "\n - raw_type: " << raw_type(); os << "\n"; } void WasmGlobalObject::WasmGlobalObjectPrint(std::ostream& os) { PrintHeader(os, "WasmGlobalObject"); if (type().is_reference()) { os << "\n - tagged_buffer: " << Brief(tagged_buffer()); } else { os << "\n - untagged_buffer: " << Brief(untagged_buffer()); } os << "\n - offset: " << offset(); os << "\n - raw_type: " << raw_type(); os << "\n - is_mutable: " << is_mutable(); os << "\n - type: " << type(); os << "\n - is_mutable: " << is_mutable(); os << "\n"; } void WasmMemoryObject::WasmMemoryObjectPrint(std::ostream& os) { PrintHeader(os, "WasmMemoryObject"); os << "\n - array_buffer: " << Brief(array_buffer()); os << "\n - maximum_pages: " << maximum_pages(); os << "\n - instances: " << Brief(instances()); os << "\n"; } void WasmTagObject::WasmTagObjectPrint(std::ostream& os) { PrintHeader(os, "WasmTagObject"); os << "\n - serialized_signature: " << Brief(serialized_signature()); os << "\n - tag: " << Brief(tag()); os << "\n"; } void WasmIndirectFunctionTable::WasmIndirectFunctionTablePrint( std::ostream& os) { PrintHeader(os, "WasmIndirectFunctionTable"); os << "\n - size: " << size(); os << "\n - sig_ids: " << static_cast(sig_ids()); os << "\n - targets: " << static_cast(targets()); if (has_managed_native_allocations()) { os << "\n - managed_native_allocations: " << Brief(managed_native_allocations()); } os << "\n - refs: " << Brief(refs()); os << "\n"; } void WasmValueObject::WasmValueObjectPrint(std::ostream& os) { PrintHeader(os, "WasmValueObject"); os << "\n - value: " << Brief(value()); os << "\n"; } #endif // V8_ENABLE_WEBASSEMBLY void LoadHandler::LoadHandlerPrint(std::ostream& os) { PrintHeader(os, "LoadHandler"); // TODO(ishell): implement printing based on handler kind os << "\n - handler: " << Brief(smi_handler()); os << "\n - validity_cell: " << Brief(validity_cell()); int data_count = data_field_count(); if (data_count >= 1) { os << "\n - data1: " << Brief(data1()); } if (data_count >= 2) { os << "\n - data2: " << Brief(data2()); } if (data_count >= 3) { os << "\n - data3: " << Brief(data3()); } os << "\n"; } void StoreHandler::StoreHandlerPrint(std::ostream& os) { PrintHeader(os, "StoreHandler"); // TODO(ishell): implement printing based on handler kind os << "\n - handler: " << Brief(smi_handler()); os << "\n - validity_cell: " << Brief(validity_cell()); int data_count = data_field_count(); if (data_count >= 1) { os << "\n - data1: " << Brief(data1()); } if (data_count >= 2) { os << "\n - data2: " << Brief(data2()); } if (data_count >= 3) { os << "\n - data3: " << Brief(data3()); } os << "\n"; } void AccessorPair::AccessorPairPrint(std::ostream& os) { PrintHeader(os, "AccessorPair"); os << "\n - getter: " << Brief(getter()); os << "\n - setter: " << Brief(setter()); os << "\n"; } void CallHandlerInfo::CallHandlerInfoPrint(std::ostream& os) { PrintHeader(os, "CallHandlerInfo"); os << "\n - callback: " << Brief(callback()); os << "\n - js_callback: " << Brief(js_callback()); os << "\n - data: " << Brief(data()); os << "\n - side_effect_free: " << (IsSideEffectFreeCallHandlerInfo() ? "true" : "false"); os << "\n"; } void FunctionTemplateInfo::FunctionTemplateInfoPrint(std::ostream& os) { PrintHeader(os, "FunctionTemplateInfo"); os << "\n - class name: " << Brief(class_name()); os << "\n - tag: " << tag(); os << "\n - serial_number: " << serial_number(); os << "\n - property_list: " << Brief(property_list()); os << "\n - call_code: " << Brief(call_code(kAcquireLoad)); os << "\n - property_accessors: " << Brief(property_accessors()); os << "\n - signature: " << Brief(signature()); os << "\n - cached_property_name: " << Brief(cached_property_name()); os << "\n - undetectable: " << (undetectable() ? "true" : "false"); os << "\n - need_access_check: " << (needs_access_check() ? "true" : "false"); os << "\n - instantiated: " << (instantiated() ? "true" : "false"); os << "\n - rare_data: " << Brief(rare_data(kAcquireLoad)); os << "\n"; } void ObjectTemplateInfo::ObjectTemplateInfoPrint(std::ostream& os) { PrintHeader(os, "ObjectTemplateInfo"); os << "\n - tag: " << tag(); os << "\n - serial_number: " << serial_number(); os << "\n - property_list: " << Brief(property_list()); os << "\n - property_accessors: " << Brief(property_accessors()); os << "\n - constructor: " << Brief(constructor()); os << "\n - embedder_field_count: " << embedder_field_count(); os << "\n - immutable_proto: " << (immutable_proto() ? "true" : "false"); os << "\n"; } void AllocationSite::AllocationSitePrint(std::ostream& os) { PrintHeader(os, "AllocationSite"); if (this->HasWeakNext()) os << "\n - weak_next: " << Brief(weak_next()); os << "\n - dependent code: " << Brief(dependent_code()); os << "\n - nested site: " << Brief(nested_site()); os << "\n - memento found count: " << Brief(Smi::FromInt(memento_found_count())); os << "\n - memento create count: " << Brief(Smi::FromInt(memento_create_count())); os << "\n - pretenure decision: " << Brief(Smi::FromInt(pretenure_decision())); os << "\n - transition_info: "; if (!PointsToLiteral()) { ElementsKind kind = GetElementsKind(); os << "Array allocation with ElementsKind " << ElementsKindToString(kind); } else if (boilerplate().IsJSArray()) { os << "Array literal with boilerplate " << Brief(boilerplate()); } else { os << "Object literal with boilerplate " << Brief(boilerplate()); } os << "\n"; } void AllocationMemento::AllocationMementoPrint(std::ostream& os) { PrintHeader(os, "AllocationMemento"); os << "\n - allocation site: "; if (IsValid()) { GetAllocationSite().AllocationSitePrint(os); } else { os << "\n"; } } void Script::ScriptPrint(std::ostream& os) { PrintHeader(os, "Script"); os << "\n - source: " << Brief(source()); os << "\n - name: " << Brief(name()); os << "\n - source_url: " << Brief(source_url()); os << "\n - line_offset: " << line_offset(); os << "\n - column_offset: " << column_offset(); os << "\n - type: " << type(); os << "\n - id: " << id(); os << "\n - context data: " << Brief(context_data()); os << "\n - compilation type: " << compilation_type(); os << "\n - line ends: " << Brief(line_ends()); bool is_wasm = false; #if V8_ENABLE_WEBASSEMBLY if ((is_wasm = (type() == TYPE_WASM))) { if (has_wasm_breakpoint_infos()) { os << "\n - wasm_breakpoint_infos: " << Brief(wasm_breakpoint_infos()); } } #endif // V8_ENABLE_WEBASSEMBLY if (!is_wasm) { if (has_eval_from_shared()) { os << "\n - eval from shared: " << Brief(eval_from_shared()); } else if (is_wrapped()) { os << "\n - wrapped arguments: " << Brief(wrapped_arguments()); } else if (type() == TYPE_WEB_SNAPSHOT) { os << "\n - shared function info table: " << Brief(shared_function_info_table()); } os << "\n - eval from position: " << eval_from_position(); } os << "\n - shared function infos: " << Brief(shared_function_infos()); os << "\n"; } #ifdef V8_INTL_SUPPORT void JSV8BreakIterator::JSV8BreakIteratorPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSV8BreakIterator"); os << "\n - locale: " << Brief(locale()); os << "\n - break iterator: " << Brief(break_iterator()); os << "\n - unicode string: " << Brief(unicode_string()); os << "\n - bound adopt text: " << Brief(bound_adopt_text()); os << "\n - bound first: " << Brief(bound_first()); os << "\n - bound next: " << Brief(bound_next()); os << "\n - bound current: " << Brief(bound_current()); os << "\n - bound break type: " << Brief(bound_break_type()); os << "\n"; } void JSCollator::JSCollatorPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSCollator"); os << "\n - icu collator: " << Brief(icu_collator()); os << "\n - bound compare: " << Brief(bound_compare()); JSObjectPrintBody(os, *this); } void JSDateTimeFormat::JSDateTimeFormatPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSDateTimeFormat"); os << "\n - locale: " << Brief(locale()); os << "\n - icu locale: " << Brief(icu_locale()); os << "\n - icu simple date format: " << Brief(icu_simple_date_format()); os << "\n - icu date interval format: " << Brief(icu_date_interval_format()); os << "\n - bound format: " << Brief(bound_format()); os << "\n - hour cycle: " << HourCycleAsString(); JSObjectPrintBody(os, *this); } void JSDisplayNames::JSDisplayNamesPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSDisplayNames"); os << "\n - internal: " << Brief(internal()); os << "\n - style: " << StyleAsString(); os << "\n - fallback: " << FallbackAsString(); JSObjectPrintBody(os, *this); } void JSListFormat::JSListFormatPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSListFormat"); os << "\n - locale: " << Brief(locale()); os << "\n - style: " << StyleAsString(); os << "\n - type: " << TypeAsString(); os << "\n - icu formatter: " << Brief(icu_formatter()); JSObjectPrintBody(os, *this); } void JSLocale::JSLocalePrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSLocale"); os << "\n - icu locale: " << Brief(icu_locale()); JSObjectPrintBody(os, *this); } void JSNumberFormat::JSNumberFormatPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSNumberFormat"); os << "\n - locale: " << Brief(locale()); os << "\n - icu_number_formatter: " << Brief(icu_number_formatter()); os << "\n - bound_format: " << Brief(bound_format()); JSObjectPrintBody(os, *this); } void JSPluralRules::JSPluralRulesPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSPluralRules"); os << "\n - locale: " << Brief(locale()); os << "\n - type: " << TypeAsString(); os << "\n - icu plural rules: " << Brief(icu_plural_rules()); os << "\n - icu_number_formatter: " << Brief(icu_number_formatter()); JSObjectPrintBody(os, *this); } void JSRelativeTimeFormat::JSRelativeTimeFormatPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSRelativeTimeFormat"); os << "\n - locale: " << Brief(locale()); os << "\n - numberingSystem: " << Brief(numberingSystem()); os << "\n - numeric: " << NumericAsString(); os << "\n - icu formatter: " << Brief(icu_formatter()); os << "\n"; } void JSSegmentIterator::JSSegmentIteratorPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSSegmentIterator"); os << "\n - icu break iterator: " << Brief(icu_break_iterator()); os << "\n - granularity: " << GranularityAsString(GetIsolate()); os << "\n"; } void JSSegmenter::JSSegmenterPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSSegmenter"); os << "\n - locale: " << Brief(locale()); os << "\n - granularity: " << GranularityAsString(GetIsolate()); os << "\n - icu break iterator: " << Brief(icu_break_iterator()); JSObjectPrintBody(os, *this); } void JSSegments::JSSegmentsPrint(std::ostream& os) { JSObjectPrintHeader(os, *this, "JSSegments"); os << "\n - icu break iterator: " << Brief(icu_break_iterator()); os << "\n - unicode string: " << Brief(unicode_string()); os << "\n - granularity: " << GranularityAsString(GetIsolate()); JSObjectPrintBody(os, *this); } #endif // V8_INTL_SUPPORT namespace { void PrintScopeInfoList(ScopeInfo scope_info, std::ostream& os, const char* list_name, int length) { if (length <= 0) return; os << "\n - " << list_name; os << " {\n"; for (int i = 0; i < length; ++i) { os << " - " << i << ": "; scope_info.context_local_names(i).ShortPrint(os); os << "\n"; } os << " }"; } } // namespace void ScopeInfo::ScopeInfoPrint(std::ostream& os) { PrintHeader(os, "ScopeInfo"); if (IsEmpty()) { os << "\n - empty\n"; return; } int flags = Flags(); os << "\n - parameters: " << ParameterCount(); os << "\n - context locals : " << ContextLocalCount(); os << "\n - scope type: " << scope_type(); if (SloppyEvalCanExtendVars()) os << "\n - sloppy eval"; os << "\n - language mode: " << language_mode(); if (is_declaration_scope()) os << "\n - declaration scope"; if (HasReceiver()) { os << "\n - receiver: " << ReceiverVariableBits::decode(flags); } if (HasClassBrand()) os << "\n - has class brand"; if (HasSavedClassVariableIndex()) os << "\n - has saved class variable index"; if (HasNewTarget()) os << "\n - needs new target"; if (HasFunctionName()) { os << "\n - function name(" << FunctionVariableBits::decode(flags) << "): "; FunctionName().ShortPrint(os); } if (IsAsmModule()) os << "\n - asm module"; if (HasSimpleParameters()) os << "\n - simple parameters"; os << "\n - function kind: " << function_kind(); if (HasOuterScopeInfo()) { os << "\n - outer scope info: " << Brief(OuterScopeInfo()); } if (HasLocalsBlockList()) { os << "\n - locals blocklist: " << Brief(LocalsBlockList()); } if (HasFunctionName()) { os << "\n - function name: " << Brief(FunctionName()); } if (HasInferredFunctionName()) { os << "\n - inferred function name: " << Brief(InferredFunctionName()); } if (HasContextExtensionSlot()) { os << "\n - has context extension slot"; } if (HasPositionInfo()) { os << "\n - start position: " << StartPosition(); os << "\n - end position: " << EndPosition(); } os << "\n - length: " << length(); if (length() > 0) { PrintScopeInfoList(*this, os, "context slots", ContextLocalCount()); // TODO(neis): Print module stuff if present. } os << "\n"; } void StackFrameInfo::StackFrameInfoPrint(std::ostream& os) { PrintHeader(os, "StackFrameInfo"); os << "\n - receiver_or_instance: " << Brief(receiver_or_instance()); os << "\n - function: " << Brief(function()); os << "\n - code_object: " << Brief(TorqueGeneratedClass::code_object()); os << "\n - code_offset_or_source_position: " << code_offset_or_source_position(); os << "\n - flags: " << flags(); os << "\n - parameters: " << Brief(parameters()); os << "\n"; } void PreparseData::PreparseDataPrint(std::ostream& os) { PrintHeader(os, "PreparseData"); os << "\n - data_length: " << data_length(); os << "\n - children_length: " << children_length(); if (data_length() > 0) { os << "\n - data-start: " << (address() + kDataStartOffset); } if (children_length() > 0) { os << "\n - children-start: " << inner_start_offset(); } for (int i = 0; i < children_length(); ++i) { os << "\n - [" << i << "]: " << Brief(get_child(i)); } os << "\n"; } void InterpreterData::InterpreterDataPrint(std::ostream& os) { PrintHeader(os, "InterpreterData"); os << "\n - bytecode_array: " << Brief(bytecode_array()); os << "\n - interpreter_trampoline: " << Brief(interpreter_trampoline()); os << "\n"; } template void TaggedImpl::Print() { StdoutStream os; this->Print(os); os << std::flush; } template void TaggedImpl::Print(std::ostream& os) { Smi smi; HeapObject heap_object; if (ToSmi(&smi)) { smi.SmiPrint(os); } else if (IsCleared()) { os << "[cleared]"; } else if (GetHeapObjectIfWeak(&heap_object)) { os << "[weak] "; heap_object.HeapObjectPrint(os); } else if (GetHeapObjectIfStrong(&heap_object)) { heap_object.HeapObjectPrint(os); } else { UNREACHABLE(); } } void HeapNumber::HeapNumberPrint(std::ostream& os) { HeapNumberShortPrint(os); os << "\n"; } #endif // OBJECT_PRINT void HeapNumber::HeapNumberShortPrint(std::ostream& os) { static constexpr uint64_t kUint64AllBitsSet = static_cast(int64_t{-1}); // Min/max integer values representable by 52 bits of mantissa and 1 sign bit. static constexpr int64_t kMinSafeInteger = static_cast(kUint64AllBitsSet << 53); static constexpr int64_t kMaxSafeInteger = -(kMinSafeInteger + 1); double val = value(); if (val == DoubleToInteger(val) && val >= static_cast(kMinSafeInteger) && val <= static_cast(kMaxSafeInteger)) { int64_t i = static_cast(val); os << i << ".0"; } else { os << val; } } // TODO(cbruni): remove once the new maptracer is in place. void Name::NameShortPrint() { if (this->IsString()) { PrintF("%s", String::cast(*this).ToCString().get()); } else { DCHECK(this->IsSymbol()); Symbol s = Symbol::cast(*this); if (s.description().IsUndefined()) { PrintF("#<%s>", s.PrivateSymbolToName()); } else { PrintF("<%s>", String::cast(s.description()).ToCString().get()); } } } // TODO(cbruni): remove once the new maptracer is in place. int Name::NameShortPrint(base::Vector str) { if (this->IsString()) { return SNPrintF(str, "%s", String::cast(*this).ToCString().get()); } else { DCHECK(this->IsSymbol()); Symbol s = Symbol::cast(*this); if (s.description().IsUndefined()) { return SNPrintF(str, "#<%s>", s.PrivateSymbolToName()); } else { return SNPrintF(str, "<%s>", String::cast(s.description()).ToCString().get()); } } } void Map::PrintMapDetails(std::ostream& os) { DisallowGarbageCollection no_gc; this->MapPrint(os); instance_descriptors().PrintDescriptors(os); } void Map::MapPrint(std::ostream& os) { #ifdef OBJECT_PRINT PrintHeader(os, "Map"); #else os << "Map=" << reinterpret_cast(ptr()); #endif os << "\n - type: " << instance_type(); os << "\n - instance size: "; if (instance_size() == kVariableSizeSentinel) { os << "variable"; } else { os << instance_size(); } if (IsJSObjectMap()) { os << "\n - inobject properties: " << GetInObjectProperties(); } os << "\n - elements kind: " << ElementsKindToString(elements_kind()); os << "\n - unused property fields: " << UnusedPropertyFields(); os << "\n - enum length: "; if (EnumLength() == kInvalidEnumCacheSentinel) { os << "invalid"; } else { os << EnumLength(); } if (is_deprecated()) os << "\n - deprecated_map"; if (is_stable()) os << "\n - stable_map"; if (is_migration_target()) os << "\n - migration_target"; if (is_dictionary_map()) os << "\n - dictionary_map"; if (has_named_interceptor()) os << "\n - named_interceptor"; if (has_indexed_interceptor()) os << "\n - indexed_interceptor"; if (may_have_interesting_symbols()) os << "\n - may_have_interesting_symbols"; if (is_undetectable()) os << "\n - undetectable"; if (is_callable()) os << "\n - callable"; if (is_constructor()) os << "\n - constructor"; if (has_prototype_slot()) { os << "\n - has_prototype_slot"; if (has_non_instance_prototype()) os << " (non-instance prototype)"; } if (is_access_check_needed()) os << "\n - access_check_needed"; if (!is_extensible()) os << "\n - non-extensible"; if (IsContextMap()) { os << "\n - native context: " << Brief(native_context()); } else if (is_prototype_map()) { os << "\n - prototype_map"; os << "\n - prototype info: " << Brief(prototype_info()); } else { os << "\n - back pointer: " << Brief(GetBackPointer()); } os << "\n - prototype_validity cell: " << Brief(prototype_validity_cell()); os << "\n - instance descriptors " << (owns_descriptors() ? "(own) " : "") << "#" << NumberOfOwnDescriptors() << ": " << Brief(instance_descriptors()); // Read-only maps can't have transitions, which is fortunate because we need // the isolate to iterate over the transitions. if (!IsReadOnlyHeapObject(*this)) { Isolate* isolate = GetIsolateFromWritableObject(*this); DisallowGarbageCollection no_gc; TransitionsAccessor transitions(isolate, *this, &no_gc); int nof_transitions = transitions.NumberOfTransitions(); if (nof_transitions > 0) { os << "\n - transitions #" << nof_transitions << ": "; HeapObject heap_object; Smi smi; if (raw_transitions()->ToSmi(&smi)) { os << Brief(smi); } else if (raw_transitions()->GetHeapObject(&heap_object)) { os << Brief(heap_object); } #ifdef OBJECT_PRINT transitions.PrintTransitions(os); #endif // OBJECT_PRINT } } os << "\n - prototype: " << Brief(prototype()); if (!IsContextMap()) { os << "\n - constructor: " << Brief(GetConstructor()); } os << "\n - dependent code: " << Brief(dependent_code()); os << "\n - construction counter: " << construction_counter(); os << "\n"; } void DescriptorArray::PrintDescriptors(std::ostream& os) { for (InternalIndex i : InternalIndex::Range(number_of_descriptors())) { Name key = GetKey(i); os << "\n [" << i.as_int() << "]: "; #ifdef OBJECT_PRINT key.NamePrint(os); #else key.ShortPrint(os); #endif os << " "; PrintDescriptorDetails(os, i, PropertyDetails::kPrintFull); } os << "\n"; } void DescriptorArray::PrintDescriptorDetails(std::ostream& os, InternalIndex descriptor, PropertyDetails::PrintMode mode) { PropertyDetails details = GetDetails(descriptor); details.PrintAsFastTo(os, mode); os << " @ "; switch (details.location()) { case kField: { FieldType field_type = GetFieldType(descriptor); field_type.PrintTo(os); break; } case kDescriptor: Object value = GetStrongValue(descriptor); os << Brief(value); if (value.IsAccessorPair()) { AccessorPair pair = AccessorPair::cast(value); os << "(get: " << Brief(pair.getter()) << ", set: " << Brief(pair.setter()) << ")"; } break; } } #if defined(DEBUG) || defined(OBJECT_PRINT) // This method is only meant to be called from gdb for debugging purposes. // Since the string can also be in two-byte encoding, non-Latin1 characters // will be ignored in the output. char* String::ToAsciiArray() { // Static so that subsequent calls frees previously allocated space. // This also means that previous results will be overwritten. static char* buffer = nullptr; if (buffer != nullptr) delete[] buffer; buffer = new char[length() + 1]; WriteToFlat(*this, reinterpret_cast(buffer), 0, length()); buffer[length()] = 0; return buffer; } // static void TransitionsAccessor::PrintOneTransition(std::ostream& os, Name key, Map target) { os << "\n "; #ifdef OBJECT_PRINT key.NamePrint(os); #else key.ShortPrint(os); #endif os << ": "; ReadOnlyRoots roots = key.GetReadOnlyRoots(); if (key == roots.nonextensible_symbol()) { os << "(transition to non-extensible)"; } else if (key == roots.sealed_symbol()) { os << "(transition to sealed)"; } else if (key == roots.frozen_symbol()) { os << "(transition to frozen)"; } else if (key == roots.elements_transition_symbol()) { os << "(transition to " << ElementsKindToString(target.elements_kind()) << ")"; } else if (key == roots.strict_function_transition_symbol()) { os << " (transition to strict function)"; } else { DCHECK(!IsSpecialTransition(roots, key)); os << "(transition to "; InternalIndex descriptor = target.LastAdded(); DescriptorArray descriptors = target.instance_descriptors(); descriptors.PrintDescriptorDetails(os, descriptor, PropertyDetails::kForTransitions); os << ")"; } os << " -> " << Brief(target); } void TransitionArray::PrintInternal(std::ostream& os) { int num_transitions = number_of_transitions(); os << "Transition array #" << num_transitions << ":"; for (int i = 0; i < num_transitions; i++) { Name key = GetKey(i); Map target = GetTarget(i); TransitionsAccessor::PrintOneTransition(os, key, target); } os << "\n" << std::flush; } void TransitionsAccessor::PrintTransitions(std::ostream& os) { switch (encoding()) { case kPrototypeInfo: case kUninitialized: case kMigrationTarget: return; case kWeakRef: { Map target = Map::cast(raw_transitions_->GetHeapObjectAssumeWeak()); Name key = GetSimpleTransitionKey(target); PrintOneTransition(os, key, target); break; } case kFullTransitionArray: return transitions().PrintInternal(os); } } void TransitionsAccessor::PrintTransitionTree() { StdoutStream os; os << "map= " << Brief(map_); DisallowGarbageCollection no_gc; PrintTransitionTree(os, 0, &no_gc); os << "\n" << std::flush; } void TransitionsAccessor::PrintTransitionTree( std::ostream& os, int level, DisallowGarbageCollection* no_gc) { ReadOnlyRoots roots = ReadOnlyRoots(isolate_); int num_transitions = NumberOfTransitions(); if (num_transitions == 0) return; for (int i = 0; i < num_transitions; i++) { Name key = GetKey(i); Map target = GetTarget(i); os << std::endl << " " << level << "/" << i << ":" << std::setw(level * 2 + 2) << " "; std::stringstream ss; ss << Brief(target); os << std::left << std::setw(50) << ss.str() << ": "; if (key == roots.nonextensible_symbol()) { os << "to non-extensible"; } else if (key == roots.sealed_symbol()) { os << "to sealed "; } else if (key == roots.frozen_symbol()) { os << "to frozen"; } else if (key == roots.elements_transition_symbol()) { os << "to " << ElementsKindToString(target.elements_kind()); } else if (key == roots.strict_function_transition_symbol()) { os << "to strict function"; } else { #ifdef OBJECT_PRINT key.NamePrint(os); #else key.ShortPrint(os); #endif os << " "; DCHECK(!IsSpecialTransition(ReadOnlyRoots(isolate_), key)); os << "to "; InternalIndex descriptor = target.LastAdded(); DescriptorArray descriptors = target.instance_descriptors(isolate_); descriptors.PrintDescriptorDetails(os, descriptor, PropertyDetails::kForTransitions); } TransitionsAccessor transitions(isolate_, target, no_gc); transitions.PrintTransitionTree(os, level + 1, no_gc); } } void JSObject::PrintTransitions(std::ostream& os) { DisallowGarbageCollection no_gc; TransitionsAccessor ta(GetIsolate(), map(), &no_gc); if (ta.NumberOfTransitions() == 0) return; os << "\n - transitions"; ta.PrintTransitions(os); } #endif // defined(DEBUG) || defined(OBJECT_PRINT) } // namespace internal } // namespace v8 namespace { inline i::Object GetObjectFromRaw(void* object) { i::Address object_ptr = reinterpret_cast(object); #ifdef V8_COMPRESS_POINTERS if (RoundDown(object_ptr) == i::kNullAddress) { // Try to decompress pointer. i::Isolate* isolate = i::Isolate::Current(); object_ptr = i::DecompressTaggedAny(isolate, static_cast(object_ptr)); } #endif return i::Object(object_ptr); } } // namespace // // The following functions are used by our gdb macros. // V8_EXPORT_PRIVATE extern i::Object _v8_internal_Get_Object(void* object) { return GetObjectFromRaw(object); } V8_EXPORT_PRIVATE extern void _v8_internal_Print_Object(void* object) { GetObjectFromRaw(object).Print(); } V8_EXPORT_PRIVATE extern void _v8_internal_Print_LoadHandler(void* object) { #ifdef OBJECT_PRINT i::StdoutStream os; i::LoadHandler::PrintHandler(GetObjectFromRaw(object), os); os << std::flush; #endif } V8_EXPORT_PRIVATE extern void _v8_internal_Print_StoreHandler(void* object) { #ifdef OBJECT_PRINT i::StdoutStream os; i::StoreHandler::PrintHandler(GetObjectFromRaw(object), os); os << std::flush; #endif } V8_EXPORT_PRIVATE extern void _v8_internal_Print_Code(void* object) { i::Address address = reinterpret_cast(object); i::Isolate* isolate = i::Isolate::Current(); #if V8_ENABLE_WEBASSEMBLY { i::wasm::WasmCodeRefScope scope; if (auto* wasm_code = i::wasm::GetWasmCodeManager()->LookupCode(address)) { i::StdoutStream os; wasm_code->Disassemble(nullptr, os, address); return; } } #endif // V8_ENABLE_WEBASSEMBLY if (!isolate->heap()->InSpaceSlow(address, i::CODE_SPACE) && !isolate->heap()->InSpaceSlow(address, i::CODE_LO_SPACE) && !i::InstructionStream::PcIsOffHeap(isolate, address) && !i::ReadOnlyHeap::Contains(address)) { i::PrintF( "%p is not within the current isolate's code, read_only or embedded " "spaces\n", object); return; } i::Code code = isolate->FindCodeObject(address); if (!code.IsCode()) { i::PrintF("No code object found containing %p\n", object); return; } #ifdef ENABLE_DISASSEMBLER i::StdoutStream os; code.Disassemble(nullptr, os, isolate, address); #else // ENABLE_DISASSEMBLER code.Print(); #endif // ENABLE_DISASSEMBLER } V8_EXPORT_PRIVATE extern void _v8_internal_Print_StackTrace() { i::Isolate* isolate = i::Isolate::Current(); isolate->PrintStack(stdout); } V8_EXPORT_PRIVATE extern void _v8_internal_Print_TransitionTree(void* object) { i::Object o(GetObjectFromRaw(object)); if (!o.IsMap()) { printf("Please provide a valid Map\n"); } else { #if defined(DEBUG) || defined(OBJECT_PRINT) i::DisallowGarbageCollection no_gc; i::Map map = i::Map::unchecked_cast(o); i::TransitionsAccessor transitions(i::Isolate::Current(), map, &no_gc); transitions.PrintTransitionTree(); #endif } }