/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* 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/. */ #include "mozilla/SPSCQueue.h" #include "mozilla/PodOperations.h" #include #include #include #include #include #include #ifdef _WIN32 # include #endif using namespace mozilla; /* Generate a monotonically increasing sequence of numbers. */ template class SequenceGenerator { public: SequenceGenerator() {} void Get(T* aElements, size_t aCount) { for (size_t i = 0; i < aCount; i++) { aElements[i] = static_cast(mIndex); mIndex++; } } void Rewind(size_t aCount) { mIndex -= aCount; } private: size_t mIndex = 0; }; /* Checks that a sequence is monotonically increasing. */ template class SequenceVerifier { public: SequenceVerifier() {} void Check(T* aElements, size_t aCount) { for (size_t i = 0; i < aCount; i++) { if (aElements[i] != static_cast(mIndex)) { std::cerr << "Element " << i << " is different. Expected " << static_cast(mIndex) << ", got " << aElements[i] << "." << std::endl; MOZ_RELEASE_ASSERT(false); } mIndex++; } } private: size_t mIndex = 0; }; const int BLOCK_SIZE = 127; template void TestRing(int capacity) { SPSCQueue buf(capacity); std::unique_ptr seq(new T[capacity]); SequenceGenerator gen; SequenceVerifier checker; int iterations = 1002; while (iterations--) { gen.Get(seq.get(), BLOCK_SIZE); int rv = buf.Enqueue(seq.get(), BLOCK_SIZE); MOZ_RELEASE_ASSERT(rv == BLOCK_SIZE); PodZero(seq.get(), BLOCK_SIZE); rv = buf.Dequeue(seq.get(), BLOCK_SIZE); MOZ_RELEASE_ASSERT(rv == BLOCK_SIZE); checker.Check(seq.get(), BLOCK_SIZE); } } void Delay() { // On Windows and x86 Android, the timer resolution is so bad that, even if // we used `timeBeginPeriod(1)`, any nonzero sleep from the test's inner loops // would make this program take far too long. #ifdef _WIN32 Sleep(0); #elif defined(ANDROID) std::this_thread::sleep_for(std::chrono::microseconds(0)); #else std::this_thread::sleep_for(std::chrono::microseconds(10)); #endif } template void TestRingMultiThread(int capacity) { SPSCQueue buf(capacity); SequenceVerifier checker; std::unique_ptr outBuffer(new T[capacity]); std::thread t([&buf, capacity] { int iterations = 1002; std::unique_ptr inBuffer(new T[capacity]); SequenceGenerator gen; while (iterations--) { Delay(); gen.Get(inBuffer.get(), BLOCK_SIZE); int rv = buf.Enqueue(inBuffer.get(), BLOCK_SIZE); MOZ_RELEASE_ASSERT(rv <= BLOCK_SIZE); if (rv != BLOCK_SIZE) { gen.Rewind(BLOCK_SIZE - rv); } } }); int remaining = 1002; while (remaining--) { Delay(); int rv = buf.Dequeue(outBuffer.get(), BLOCK_SIZE); MOZ_RELEASE_ASSERT(rv <= BLOCK_SIZE); checker.Check(outBuffer.get(), rv); } t.join(); } template void BasicAPITest(T& ring) { MOZ_RELEASE_ASSERT(ring.Capacity() == 128); MOZ_RELEASE_ASSERT(ring.AvailableRead() == 0); MOZ_RELEASE_ASSERT(ring.AvailableWrite() == 128); int rv = ring.EnqueueDefault(63); MOZ_RELEASE_ASSERT(rv == 63); MOZ_RELEASE_ASSERT(ring.AvailableRead() == 63); MOZ_RELEASE_ASSERT(ring.AvailableWrite() == 65); rv = ring.EnqueueDefault(65); MOZ_RELEASE_ASSERT(rv == 65); MOZ_RELEASE_ASSERT(ring.AvailableRead() == 128); MOZ_RELEASE_ASSERT(ring.AvailableWrite() == 0); rv = ring.Dequeue(nullptr, 63); MOZ_RELEASE_ASSERT(ring.AvailableRead() == 65); MOZ_RELEASE_ASSERT(ring.AvailableWrite() == 63); rv = ring.Dequeue(nullptr, 65); MOZ_RELEASE_ASSERT(ring.AvailableRead() == 0); MOZ_RELEASE_ASSERT(ring.AvailableWrite() == 128); } const size_t RING_BUFFER_SIZE = 128; const size_t ENQUEUE_SIZE = RING_BUFFER_SIZE / 2; void TestResetAPI() { SPSCQueue ring(RING_BUFFER_SIZE); std::thread t([&ring] { std::unique_ptr inBuffer(new float[ENQUEUE_SIZE]); int rv = ring.Enqueue(inBuffer.get(), ENQUEUE_SIZE); MOZ_RELEASE_ASSERT(rv > 0); }); t.join(); ring.ResetThreadIds(); // Enqueue with a different thread. We have reset the thread ID // in the ring buffer, this should work. std::thread t2([&ring] { std::unique_ptr inBuffer(new float[ENQUEUE_SIZE]); int rv = ring.Enqueue(inBuffer.get(), ENQUEUE_SIZE); MOZ_RELEASE_ASSERT(rv > 0); }); t2.join(); } void TestMove() { const size_t ELEMENT_COUNT = 16; struct Thing { Thing() : mStr("") {} explicit Thing(const std::string& aStr) : mStr(aStr) {} Thing(Thing&& aOtherThing) { mStr = std::move(aOtherThing.mStr); // aOtherThing.mStr.clear(); } Thing& operator=(Thing&& aOtherThing) { mStr = std::move(aOtherThing.mStr); return *this; } std::string mStr; }; std::vector vec_in; std::vector vec_out; for (uint32_t i = 0; i < ELEMENT_COUNT; i++) { vec_in.push_back(Thing(std::to_string(i))); vec_out.push_back(Thing()); } SPSCQueue queue(ELEMENT_COUNT); int rv = queue.Enqueue(&vec_in[0], ELEMENT_COUNT); MOZ_RELEASE_ASSERT(rv == ELEMENT_COUNT); // Check that we've moved the std::string into the queue. for (uint32_t i = 0; i < ELEMENT_COUNT; i++) { MOZ_RELEASE_ASSERT(vec_in[i].mStr.empty()); } rv = queue.Dequeue(&vec_out[0], ELEMENT_COUNT); MOZ_RELEASE_ASSERT(rv == ELEMENT_COUNT); for (uint32_t i = 0; i < ELEMENT_COUNT; i++) { MOZ_RELEASE_ASSERT(std::stoul(vec_out[i].mStr) == i); } } int main() { const int minCapacity = 199; const int maxCapacity = 1277; const int capacityIncrement = 27; SPSCQueue q1(128); BasicAPITest(q1); SPSCQueue q2(128); BasicAPITest(q2); for (uint32_t i = minCapacity; i < maxCapacity; i += capacityIncrement) { TestRing(i); TestRingMultiThread(i); TestRing(i); TestRingMultiThread(i); } TestResetAPI(); TestMove(); return 0; }