/* * Copyright (C) 2019 The Android Open Source Project * * 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 * * http://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. */ #pragma once #include #include #include #include #include #include "android-base/thread_annotations.h" namespace android { /** * A thread-safe FIFO queue. This list-backed queue stores up to capacity objects if * a capacity is provided at construction, and is otherwise unbounded. * Objects can always be added. Objects are added immediately. * If the queue is full, new objects cannot be added. * * The action of retrieving an object will block until an element is available. */ template class BlockingQueue { public: explicit BlockingQueue() = default; explicit BlockingQueue(size_t capacity) : mCapacity(capacity){}; /** * Retrieve and remove the oldest object. * Blocks execution indefinitely while queue is empty. */ T pop() { std::unique_lock lock(mLock); android::base::ScopedLockAssertion assumeLock(mLock); mHasElements.wait(lock, [this]() REQUIRES(mLock) { return !this->mQueue.empty(); }); T t = std::move(mQueue.front()); mQueue.erase(mQueue.begin()); return t; }; /** * Retrieve and remove the oldest object. * Blocks execution for the given duration while queue is empty, and returns std::nullopt * if the queue was empty for the entire duration. */ std::optional popWithTimeout(std::chrono::nanoseconds duration) { std::unique_lock lock(mLock); android::base::ScopedLockAssertion assumeLock(mLock); if (!mHasElements.wait_for(lock, duration, [this]() REQUIRES(mLock) { return !this->mQueue.empty(); })) { return {}; } T t = std::move(mQueue.front()); mQueue.erase(mQueue.begin()); return t; }; /** * Add a new object to the queue. * Does not block. * Return true if an element was successfully added. * Return false if the queue is full. */ bool push(T&& t) { { // acquire lock std::scoped_lock lock(mLock); if (mCapacity && mQueue.size() == mCapacity) { return false; } mQueue.push_back(std::move(t)); } // release lock mHasElements.notify_one(); return true; }; /** * Construct a new object into the queue. * Does not block. * Return true if an element was successfully added. * Return false if the queue is full. */ template bool emplace(Args&&... args) { { // acquire lock std::scoped_lock lock(mLock); if (mCapacity && mQueue.size() == mCapacity) { return false; } mQueue.emplace_back(args...); } // release lock mHasElements.notify_one(); return true; }; void erase_if(const std::function& pred) { std::scoped_lock lock(mLock); std::erase_if(mQueue, pred); } /** * Remove all elements. * Does not block. */ void clear() { std::scoped_lock lock(mLock); mQueue.clear(); }; /** * How many elements are currently stored in the queue. * Primary used for debugging. * Does not block. */ size_t size() { std::scoped_lock lock(mLock); return mQueue.size(); } private: const std::optional mCapacity; /** * Used to signal that mQueue is non-empty. */ std::condition_variable mHasElements; /** * Lock for accessing and waiting on elements. */ std::mutex mLock; std::list mQueue GUARDED_BY(mLock); }; } // namespace android