// Copyright 2019 The Abseil Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "absl/strings/internal/cordz_handle.h" #include #include "absl/base/internal/raw_logging.h" // For ABSL_RAW_CHECK #include "absl/base/no_destructor.h" #include "absl/synchronization/mutex.h" namespace absl { ABSL_NAMESPACE_BEGIN namespace cord_internal { namespace { struct Queue { Queue() = default; absl::Mutex mutex; std::atomic dq_tail ABSL_GUARDED_BY(mutex){nullptr}; // Returns true if this delete queue is empty. This method does not acquire // the lock, but does a 'load acquire' observation on the delete queue tail. // It is used inside Delete() to check for the presence of a delete queue // without holding the lock. The assumption is that the caller is in the // state of 'being deleted', and can not be newly discovered by a concurrent // 'being constructed' snapshot instance. Practically, this means that any // such discovery (`find`, 'first' or 'next', etc) must have proper 'happens // before / after' semantics and atomic fences. bool IsEmpty() const ABSL_NO_THREAD_SAFETY_ANALYSIS { return dq_tail.load(std::memory_order_acquire) == nullptr; } }; static Queue& GlobalQueue() { static absl::NoDestructor global_queue; return *global_queue; } } // namespace CordzHandle::CordzHandle(bool is_snapshot) : is_snapshot_(is_snapshot) { Queue& global_queue = GlobalQueue(); if (is_snapshot) { MutexLock lock(&global_queue.mutex); CordzHandle* dq_tail = global_queue.dq_tail.load(std::memory_order_acquire); if (dq_tail != nullptr) { dq_prev_ = dq_tail; dq_tail->dq_next_ = this; } global_queue.dq_tail.store(this, std::memory_order_release); } } CordzHandle::~CordzHandle() { Queue& global_queue = GlobalQueue(); if (is_snapshot_) { std::vector to_delete; { MutexLock lock(&global_queue.mutex); CordzHandle* next = dq_next_; if (dq_prev_ == nullptr) { // We were head of the queue, delete every CordzHandle until we reach // either the end of the list, or a snapshot handle. while (next && !next->is_snapshot_) { to_delete.push_back(next); next = next->dq_next_; } } else { // Another CordzHandle existed before this one, don't delete anything. dq_prev_->dq_next_ = next; } if (next) { next->dq_prev_ = dq_prev_; } else { global_queue.dq_tail.store(dq_prev_, std::memory_order_release); } } for (CordzHandle* handle : to_delete) { delete handle; } } } bool CordzHandle::SafeToDelete() const { return is_snapshot_ || GlobalQueue().IsEmpty(); } void CordzHandle::Delete(CordzHandle* handle) { assert(handle); if (handle) { Queue& queue = GlobalQueue(); if (!handle->SafeToDelete()) { MutexLock lock(&queue.mutex); CordzHandle* dq_tail = queue.dq_tail.load(std::memory_order_acquire); if (dq_tail != nullptr) { handle->dq_prev_ = dq_tail; dq_tail->dq_next_ = handle; queue.dq_tail.store(handle, std::memory_order_release); return; } } delete handle; } } std::vector CordzHandle::DiagnosticsGetDeleteQueue() { std::vector handles; Queue& global_queue = GlobalQueue(); MutexLock lock(&global_queue.mutex); CordzHandle* dq_tail = global_queue.dq_tail.load(std::memory_order_acquire); for (const CordzHandle* p = dq_tail; p; p = p->dq_prev_) { handles.push_back(p); } return handles; } bool CordzHandle::DiagnosticsHandleIsSafeToInspect( const CordzHandle* handle) const { if (!is_snapshot_) return false; if (handle == nullptr) return true; if (handle->is_snapshot_) return false; bool snapshot_found = false; Queue& global_queue = GlobalQueue(); MutexLock lock(&global_queue.mutex); for (const CordzHandle* p = global_queue.dq_tail; p; p = p->dq_prev_) { if (p == handle) return !snapshot_found; if (p == this) snapshot_found = true; } ABSL_ASSERT(snapshot_found); // Assert that 'this' is in delete queue. return true; } std::vector CordzHandle::DiagnosticsGetSafeToInspectDeletedHandles() { std::vector handles; if (!is_snapshot()) { return handles; } Queue& global_queue = GlobalQueue(); MutexLock lock(&global_queue.mutex); for (const CordzHandle* p = dq_next_; p != nullptr; p = p->dq_next_) { if (!p->is_snapshot()) { handles.push_back(p); } } return handles; } } // namespace cord_internal ABSL_NAMESPACE_END } // namespace absl