// Copyright 2006-2008 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. #ifndef V8_HANDLES_HANDLES_INL_H_ #define V8_HANDLES_HANDLES_INL_H_ #include "src/execution/isolate.h" #include "src/execution/local-isolate.h" #include "src/handles/handles.h" #include "src/handles/local-handles-inl.h" #include "src/objects/objects.h" #include "src/sanitizer/msan.h" namespace v8 { namespace internal { class LocalHeap; HandleBase::HandleBase(Address object, Isolate* isolate) : location_(HandleScope::GetHandle(isolate, object)) {} HandleBase::HandleBase(Address object, LocalIsolate* isolate) : location_(LocalHandleScope::GetHandle(isolate->heap(), object)) {} HandleBase::HandleBase(Address object, LocalHeap* local_heap) : location_(LocalHandleScope::GetHandle(local_heap, object)) {} bool HandleBase::is_identical_to(const HandleBase that) const { SLOW_DCHECK((this->location_ == nullptr || this->IsDereferenceAllowed()) && (that.location_ == nullptr || that.IsDereferenceAllowed())); if (this->location_ == that.location_) return true; if (this->location_ == nullptr || that.location_ == nullptr) return false; return Object(*this->location_) == Object(*that.location_); } // Allocate a new handle for the object, do not canonicalize. template Handle Handle::New(T object, Isolate* isolate) { return Handle(HandleScope::CreateHandle(isolate, object.ptr())); } template template const Handle Handle::cast(Handle that) { T::cast(*FullObjectSlot(that.location())); return Handle(that.location_); } template Handle::Handle(T object, Isolate* isolate) : HandleBase(object.ptr(), isolate) {} template Handle::Handle(T object, LocalIsolate* isolate) : HandleBase(object.ptr(), isolate) {} template Handle::Handle(T object, LocalHeap* local_heap) : HandleBase(object.ptr(), local_heap) {} template V8_INLINE Handle handle(T object, Isolate* isolate) { return Handle(object, isolate); } template V8_INLINE Handle handle(T object, LocalIsolate* isolate) { return Handle(object, isolate); } template V8_INLINE Handle handle(T object, LocalHeap* local_heap) { return Handle(object, local_heap); } template inline std::ostream& operator<<(std::ostream& os, Handle handle) { return os << Brief(*handle); } HandleScope::HandleScope(Isolate* isolate) { HandleScopeData* data = isolate->handle_scope_data(); isolate_ = isolate; prev_next_ = data->next; prev_limit_ = data->limit; data->level++; } HandleScope::HandleScope(HandleScope&& other) V8_NOEXCEPT : isolate_(other.isolate_), prev_next_(other.prev_next_), prev_limit_(other.prev_limit_) { other.isolate_ = nullptr; } HandleScope::~HandleScope() { if (isolate_ == nullptr) return; CloseScope(isolate_, prev_next_, prev_limit_); } HandleScope& HandleScope::operator=(HandleScope&& other) V8_NOEXCEPT { if (isolate_ == nullptr) { isolate_ = other.isolate_; } else { DCHECK_EQ(isolate_, other.isolate_); CloseScope(isolate_, prev_next_, prev_limit_); } prev_next_ = other.prev_next_; prev_limit_ = other.prev_limit_; other.isolate_ = nullptr; return *this; } void HandleScope::CloseScope(Isolate* isolate, Address* prev_next, Address* prev_limit) { #ifdef DEBUG int before = FLAG_check_handle_count ? NumberOfHandles(isolate) : 0; #endif DCHECK_NOT_NULL(isolate); HandleScopeData* current = isolate->handle_scope_data(); std::swap(current->next, prev_next); current->level--; Address* limit = prev_next; if (current->limit != prev_limit) { current->limit = prev_limit; limit = prev_limit; DeleteExtensions(isolate); } #ifdef ENABLE_HANDLE_ZAPPING ZapRange(current->next, limit); #endif MSAN_ALLOCATED_UNINITIALIZED_MEMORY( current->next, static_cast(reinterpret_cast
(limit) - reinterpret_cast
(current->next))); #ifdef DEBUG int after = FLAG_check_handle_count ? NumberOfHandles(isolate) : 0; DCHECK_LT(after - before, kCheckHandleThreshold); DCHECK_LT(before, kCheckHandleThreshold); #endif } template Handle HandleScope::CloseAndEscape(Handle handle_value) { HandleScopeData* current = isolate_->handle_scope_data(); T value = *handle_value; // Throw away all handles in the current scope. CloseScope(isolate_, prev_next_, prev_limit_); // Allocate one handle in the parent scope. DCHECK(current->level > current->sealed_level); Handle result(value, isolate_); // Reinitialize the current scope (so that it's ready // to be used or closed again). prev_next_ = current->next; prev_limit_ = current->limit; current->level++; return result; } Address* HandleScope::CreateHandle(Isolate* isolate, Address value) { DCHECK(AllowHandleAllocation::IsAllowed()); HandleScopeData* data = isolate->handle_scope_data(); Address* result = data->next; if (result == data->limit) { result = Extend(isolate); } // Update the current next field, set the value in the created handle, // and return the result. DCHECK_LT(reinterpret_cast
(result), reinterpret_cast
(data->limit)); data->next = reinterpret_cast(reinterpret_cast
(result) + sizeof(Address)); *result = value; return result; } Address* HandleScope::GetHandle(Isolate* isolate, Address value) { DCHECK(AllowHandleAllocation::IsAllowed()); HandleScopeData* data = isolate->handle_scope_data(); CanonicalHandleScope* canonical = data->canonical_scope; return canonical ? canonical->Lookup(value) : CreateHandle(isolate, value); } #ifdef DEBUG inline SealHandleScope::SealHandleScope(Isolate* isolate) : isolate_(isolate) { // Make sure the current thread is allowed to create handles to begin with. DCHECK(AllowHandleAllocation::IsAllowed()); HandleScopeData* current = isolate_->handle_scope_data(); // Shrink the current handle scope to make it impossible to do // handle allocations without an explicit handle scope. prev_limit_ = current->limit; current->limit = current->next; prev_sealed_level_ = current->sealed_level; current->sealed_level = current->level; } inline SealHandleScope::~SealHandleScope() { // Restore state in current handle scope to re-enable handle // allocations. HandleScopeData* current = isolate_->handle_scope_data(); DCHECK_EQ(current->next, current->limit); current->limit = prev_limit_; DCHECK_EQ(current->level, current->sealed_level); current->sealed_level = prev_sealed_level_; } #endif } // namespace internal } // namespace v8 #endif // V8_HANDLES_HANDLES_INL_H_