// Copyright (c) 2011 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. #include "base/memory/ref_counted.h" #include #include #include "base/threading/thread_collision_warner.h" namespace base { namespace { #if DCHECK_IS_ON() std::atomic_int g_cross_thread_ref_count_access_allow_count(0); #endif } // namespace namespace subtle { bool RefCountedThreadSafeBase::HasOneRef() const { return ref_count_.IsOne(); } bool RefCountedThreadSafeBase::HasAtLeastOneRef() const { return !ref_count_.IsZero(); } #if DCHECK_IS_ON() RefCountedThreadSafeBase::~RefCountedThreadSafeBase() { DCHECK(in_dtor_) << "RefCountedThreadSafe object deleted without " "calling Release()"; } #endif // For security and correctness, we check the arithmetic on ref counts. // // In an attempt to avoid binary bloat (from inlining the `CHECK`), we define // these functions out-of-line. However, compilers are wily. Further testing may // show that `NOINLINE` helps or hurts. // #if defined(ARCH_CPU_64_BITS) void RefCountedBase::AddRefImpl() const { // An attacker could induce use-after-free bugs, and potentially exploit them, // by creating so many references to a ref-counted object that the reference // count overflows. On 32-bit architectures, there is not enough address space // to succeed. But on 64-bit architectures, it might indeed be possible. // Therefore, we can elide the check for arithmetic overflow on 32-bit, but we // must check on 64-bit. // // Make sure the addition didn't wrap back around to 0. This form of check // works because we assert that `ref_count_` is an unsigned integer type. CHECK(++ref_count_ != 0); } void RefCountedBase::ReleaseImpl() const { // Make sure the subtraction didn't wrap back around from 0 to the max value. // That could cause memory leaks, and may induce application-semantic // correctness or safety bugs. (E.g. what if we really needed that object to // be destroyed at the right time?) // // Note that unlike with overflow, underflow could also happen on 32-bit // architectures. Arguably, we should do this check on32-bit machines too. CHECK(--ref_count_ != std::numeric_limits::max()); } #endif #if !defined(ARCH_CPU_X86_FAMILY) bool RefCountedThreadSafeBase::Release() const { return ReleaseImpl(); } void RefCountedThreadSafeBase::AddRef() const { AddRefImpl(); } void RefCountedThreadSafeBase::AddRefWithCheck() const { AddRefWithCheckImpl(); } #endif #if DCHECK_IS_ON() bool RefCountedBase::CalledOnValidSequence() const { return sequence_checker_.CalledOnValidSequence() || g_cross_thread_ref_count_access_allow_count.load() != 0; } #endif } // namespace subtle #if DCHECK_IS_ON() ScopedAllowCrossThreadRefCountAccess::ScopedAllowCrossThreadRefCountAccess() { ++g_cross_thread_ref_count_access_allow_count; } ScopedAllowCrossThreadRefCountAccess::~ScopedAllowCrossThreadRefCountAccess() { --g_cross_thread_ref_count_access_allow_count; } #endif } // namespace base