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-rw-r--r-- | dom/media/MPSCQueue.h | 132 |
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diff --git a/dom/media/MPSCQueue.h b/dom/media/MPSCQueue.h new file mode 100644 index 0000000000..ea7848154f --- /dev/null +++ b/dom/media/MPSCQueue.h @@ -0,0 +1,132 @@ +/* This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#ifndef mozilla_dom_MPSCQueue_h +#define mozilla_dom_MPSCQueue_h + +namespace mozilla { + +// This class implements a lock-free multiple producer single consumer queue of +// fixed size log messages, with the following characteristics: +// - Unbounded (uses a intrinsic linked list) +// - Allocates on Push. Push can be called on any thread. +// - Deallocates on Pop. Pop MUST always be called on the same thread for the +// life-time of the queue. +// +// In our scenario, the producer threads are real-time, they can't block. The +// consummer thread runs every now and then and empties the queue to a log +// file, on disk. +const size_t MPSC_MSG_RESERVED = sizeof(std::atomic<void*>); + +template <typename T> +class MPSCQueue { + public: + struct Message { + Message() { mNext.store(nullptr, std::memory_order_relaxed); } + Message(const Message& aMessage) = delete; + void operator=(const Message& aMessage) = delete; + + std::atomic<Message*> mNext; + T data; + }; + + // Creates a new MPSCQueue. Initially, the queue has a single sentinel node, + // pointed to by both mHead and mTail. + MPSCQueue() + // At construction, the initial message points to nullptr (it has no + // successor). It is a sentinel node, that does not contain meaningful + // data. + : mHead(new Message()), mTail(mHead.load(std::memory_order_relaxed)) {} + + ~MPSCQueue() { + Message dummy; + while (Pop(&dummy.data)) { + } + Message* front = mHead.load(std::memory_order_relaxed); + delete front; + } + + void Push(MPSCQueue<T>::Message* aMessage) { + // The next two non-commented line are called A and B in this paragraph. + // Producer threads i, i-1, etc. are numbered in the order they reached + // A in time, thread i being the thread that has reached A first. + // Atomically, on line A the new `mHead` is set to be the node that was + // just allocated, with strong memory order. From now on, any thread + // that reaches A will see that the node just allocated is + // effectively the head of the list, and will make itself the new head + // of the list. + // In a bad case (when thread i executes A and then + // is not scheduled for a long time), it is possible that thread i-1 and + // subsequent threads create a seemingly disconnected set of nodes, but + // they all have the correct value for the next node to set as their + // mNext member on their respective stacks (in `prev`), and this is + // always correct. When the scheduler resumes, and line B is executed, + // the correct linkage is resumed. + // Before line B, since mNext for the node was the last element of + // the queue still has an mNext of nullptr, Pop will not see the node + // added. + // For line A, it's critical to have strong ordering both ways (since + // it's going to possibly be read and write repeatidly by multiple + // threads) + // Line B can have weaker guarantees, it's only going to be written by a + // single thread, and we just need to ensure it's read properly by a + // single other one. + Message* prev = mHead.exchange(aMessage, std::memory_order_acq_rel); + prev->mNext.store(aMessage, std::memory_order_release); + } + + // Copy the content of the first message of the queue to aOutput, and + // frees the message. Returns true if there was a message, in which case + // `aOutput` contains a valid value. If the queue was empty, returns false, + // in which case `aOutput` is left untouched. + bool Pop(T* aOutput) { + // Similarly, in this paragraph, the two following lines are called A + // and B, and threads are called thread i, i-1, etc. in order of + // execution of line A. + // On line A, the first element of the queue is acquired. It is simply a + // sentinel node. + // On line B, we acquire the node that has the data we want. If B is + // null, then only the sentinel node was present in the queue, we can + // safely return false. + // mTail can be loaded with relaxed ordering, since it's not written nor + // read by any other thread (this queue is single consumer). + // mNext can be written to by one of the producer, so it's necessary to + // ensure those writes are seen, hence the stricter ordering. + Message* tail = mTail.load(std::memory_order_relaxed); + Message* next = tail->mNext.load(std::memory_order_acquire); + + if (next == nullptr) { + return false; + } + + *aOutput = next->data; + + // Simply shift the queue one node further, so that the sentinel node is + // now pointing to the correct most ancient node. It contains stale data, + // but this data will never be read again. + // It's only necessary to ensure the previous load on this thread is not + // reordered past this line, so release ordering is sufficient here. + mTail.store(next, std::memory_order_release); + + // This thread is now the only thing that points to `tail`, it can be + // safely deleted. + delete tail; + + return true; + } + + private: + // An atomic pointer to the most recent message in the queue. + std::atomic<Message*> mHead; + // An atomic pointer to a sentinel node, that points to the oldest message + // in the queue. + std::atomic<Message*> mTail; + + MPSCQueue(const MPSCQueue&) = delete; + void operator=(const MPSCQueue&) = delete; +}; + +} // namespace mozilla + +#endif // mozilla_dom_MPSCQueue_h |