// Copyright 2018 The Chromium 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 BASE_OBSERVER_LIST_INTERNAL_H_ #define BASE_OBSERVER_LIST_INTERNAL_H_ #include "base/base_export.h" #include "base/containers/linked_list.h" #include "base/logging.h" #include "base/macros.h" #include "base/memory/weak_ptr.h" #include "base/observer_list_types.h" namespace base { namespace internal { // Adapter for putting raw pointers into an ObserverList::Unchecked. class BASE_EXPORT UncheckedObserverAdapter { public: explicit UncheckedObserverAdapter(const void* observer) : ptr_(const_cast(observer)) {} UncheckedObserverAdapter(UncheckedObserverAdapter&& other) = default; UncheckedObserverAdapter& operator=(UncheckedObserverAdapter&& other) = default; void MarkForRemoval() { ptr_ = nullptr; } bool IsMarkedForRemoval() const { return !ptr_; } bool IsEqual(const void* rhs) const { return ptr_ == rhs; } template static ObserverType* Get(const UncheckedObserverAdapter& adapter) { static_assert( !std::is_base_of::value, "CheckedObserver classes must not use ObserverList::Unchecked."); return static_cast(adapter.ptr_); } private: void* ptr_; DISALLOW_COPY_AND_ASSIGN(UncheckedObserverAdapter); }; // Adapter for CheckedObserver types so that they can use the same syntax as a // raw pointer when stored in the std::vector of observers in an ObserverList. // It wraps a WeakPtr and allows a "null" pointer via // destruction to be distinguished from an observer marked for deferred removal // whilst an iteration is in progress. class BASE_EXPORT CheckedObserverAdapter { public: explicit CheckedObserverAdapter(const CheckedObserver* observer); // Move-only construction and assignment is required to store this in STL // types. CheckedObserverAdapter(CheckedObserverAdapter&& other); CheckedObserverAdapter& operator=(CheckedObserverAdapter&& other); ~CheckedObserverAdapter(); void MarkForRemoval() { DCHECK(weak_ptr_); weak_ptr_ = nullptr; } bool IsMarkedForRemoval() const { // If |weak_ptr_| was invalidated then this attempt to iterate over the // pointer is a UAF. Tip: If it's unclear where the `delete` occurred, try // adding CHECK(!IsInObserverList()) to the ~CheckedObserver() (destructor) // override. However, note that this is not always a bug: a destroyed // observer can exist in an ObserverList so long as nothing iterates over // the ObserverList before the list itself is destroyed. CHECK(!weak_ptr_.WasInvalidated()); return weak_ptr_ == nullptr; } bool IsEqual(const CheckedObserver* rhs) const { // Note that inside an iteration, ObserverList::HasObserver() may call this // and |weak_ptr_| may be null due to a deferred removal, which is fine. return weak_ptr_.get() == rhs; } template static ObserverType* Get(const CheckedObserverAdapter& adapter) { static_assert( std::is_base_of::value, "Observers should inherit from base::CheckedObserver. " "Use ObserverList::Unchecked to observe with raw pointers."); DCHECK(adapter.weak_ptr_); return static_cast(adapter.weak_ptr_.get()); } private: WeakPtr weak_ptr_; DISALLOW_COPY_AND_ASSIGN(CheckedObserverAdapter); }; // Wraps a pointer in a stack-allocated, base::LinkNode. The node is // automatically removed from the linked list upon destruction (of the node, not // the pointer). Nodes are detached from the list via Invalidate() in the // destructor of ObserverList. This invalidates all WeakLinkNodes. There is no // threading support. template class WeakLinkNode : public base::LinkNode> { public: WeakLinkNode() = default; explicit WeakLinkNode(ObserverList* list) { SetList(list); } ~WeakLinkNode() { Invalidate(); } bool IsOnlyRemainingNode() const { return list_ && list_->live_iterators_.head() == list_->live_iterators_.tail(); } void SetList(ObserverList* list) { DCHECK(!list_); DCHECK(list); list_ = list; list_->live_iterators_.Append(this); } void Invalidate() { if (list_) { list_ = nullptr; this->RemoveFromList(); } } ObserverList* get() const { if (list_) DCHECK_CALLED_ON_VALID_SEQUENCE(list_->iteration_sequence_checker_); return list_; } ObserverList* operator->() const { return get(); } explicit operator bool() const { return get(); } private: ObserverList* list_ = nullptr; DISALLOW_COPY_AND_ASSIGN(WeakLinkNode); }; } // namespace internal } // namespace base #endif // BASE_OBSERVER_LIST_INTERNAL_H_