namespace std::chrono_literals; class DequeueWatchdogTest : public V4L2VideoDeviceTest { public: DequeueWatchdogTest() : V4L2VideoDeviceTest("vimc", "Raw Capture 0"), frames_(0), barks_(0) {} protected: int run() { constexpr unsigned int bufferCount = 8; EventDispatcher *dispatcher = Thread::current()->eventDispatcher(); Timer timeout; int ret = capture_->allocateBuffers(bufferCount, &buffers_); if (ret < 0) { std::cout << "Failed to allocate buffers" << std::endl; return TestFail; } capture_->dequeueTimeout.connect(this, &DequeueWatchdogTest::barkCounter); capture_->setDequeueTimeout(5ms); capture_->bufferReady.connect(this, &DequeueWatchdogTest::receiveBuffer); for (const std::unique_ptr &buffer : buffers_) { if (capture_->queueBuffer(buffer.get())) { std::cout << "Failed to queue buffer" << std::endl; return TestFail; } } ret = capture_->streamOn(); if (ret < 0) { std::cout << "Failed to start streaming" << std::endl; return TestFail; } timeout.start(5s); while (timeout.isRunning()) { dispatcher->processEvents(); if (frames_ > 5) break; } std::cout << "Processed " << frames_ << " frames_ and heard " << barks_ << " barks_" << std::endl; if (!barks_) { std::cout << "Failed to hear any barks_." << std::endl; return TestFail; } capture_->streamOff(); return TestPass; } private: void receiveBuffer(FrameBuffer *buffer) { if (buffer->metadata().status == FrameMetadata::FrameCancelled) return; std::cout << "Buffer received" << std::endl; frames_++; /* Requeue the buffer for further use. */ capture_->queueBuffer(buffer); } void barkCounter() { std::cout << "Watchdog is barking" << std::endl; barks_++; } unsigned int frames_; unsigned int barks_; }; TEST_REGISTER(DequeueWatchdogTest)