vk_scheduler: split work queue waits and execution waits
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@ -47,14 +47,15 @@ Scheduler::Scheduler(const Device& device_, StateTracker& state_tracker_)
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Scheduler::~Scheduler() = default;
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Scheduler::~Scheduler() = default;
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void Scheduler::Flush(VkSemaphore signal_semaphore, VkSemaphore wait_semaphore) {
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void Scheduler::Flush(VkSemaphore signal_semaphore, VkSemaphore wait_semaphore) {
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// When flushing, we only send data to the worker thread; no waiting is necessary.
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SubmitExecution(signal_semaphore, wait_semaphore);
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SubmitExecution(signal_semaphore, wait_semaphore);
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AllocateNewContext();
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AllocateNewContext();
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}
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}
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void Scheduler::Finish(VkSemaphore signal_semaphore, VkSemaphore wait_semaphore) {
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void Scheduler::Finish(VkSemaphore signal_semaphore, VkSemaphore wait_semaphore) {
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// When finishing, we need to wait for the submission to have executed on the device.
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const u64 presubmit_tick = CurrentTick();
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const u64 presubmit_tick = CurrentTick();
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SubmitExecution(signal_semaphore, wait_semaphore);
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SubmitExecution(signal_semaphore, wait_semaphore);
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WaitWorker();
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Wait(presubmit_tick);
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Wait(presubmit_tick);
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AllocateNewContext();
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AllocateNewContext();
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}
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}
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@ -63,8 +64,13 @@ void Scheduler::WaitWorker() {
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MICROPROFILE_SCOPE(Vulkan_WaitForWorker);
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MICROPROFILE_SCOPE(Vulkan_WaitForWorker);
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DispatchWork();
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DispatchWork();
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std::unique_lock lock{work_mutex};
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// Ensure the queue is drained.
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wait_cv.wait(lock, [this] { return work_queue.empty(); });
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std::unique_lock ql{queue_mutex};
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event_cv.wait(ql, [this] { return work_queue.empty(); });
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// Now wait for execution to finish.
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// This needs to be done in the same order as WorkerThread.
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std::unique_lock el{execution_mutex};
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}
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}
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void Scheduler::DispatchWork() {
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void Scheduler::DispatchWork() {
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@ -72,10 +78,10 @@ void Scheduler::DispatchWork() {
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return;
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return;
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}
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}
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{
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{
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std::scoped_lock lock{work_mutex};
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std::scoped_lock ql{queue_mutex};
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work_queue.push(std::move(chunk));
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work_queue.push(std::move(chunk));
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}
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}
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work_cv.notify_one();
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event_cv.notify_all();
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AcquireNewChunk();
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AcquireNewChunk();
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}
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}
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@ -137,30 +143,55 @@ bool Scheduler::UpdateRescaling(bool is_rescaling) {
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void Scheduler::WorkerThread(std::stop_token stop_token) {
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void Scheduler::WorkerThread(std::stop_token stop_token) {
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Common::SetCurrentThreadName("VulkanWorker");
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Common::SetCurrentThreadName("VulkanWorker");
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do {
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std::unique_ptr<CommandChunk> work;
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bool has_submit{false};
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{
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std::unique_lock lock{work_mutex};
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if (work_queue.empty()) {
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wait_cv.notify_all();
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}
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Common::CondvarWait(work_cv, lock, stop_token, [&] { return !work_queue.empty(); });
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if (stop_token.stop_requested()) {
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continue;
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}
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work = std::move(work_queue.front());
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work_queue.pop();
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has_submit = work->HasSubmit();
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const auto TryPopQueue{[this](auto& work) -> bool {
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if (work_queue.empty()) {
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return false;
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}
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work = std::move(work_queue.front());
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work_queue.pop();
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event_cv.notify_all();
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return true;
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}};
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while (!stop_token.stop_requested()) {
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std::unique_ptr<CommandChunk> work;
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{
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std::unique_lock lk{queue_mutex};
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// Wait for work.
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Common::CondvarWait(event_cv, lk, stop_token, [&] { return TryPopQueue(work); });
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// If we've been asked to stop, we're done.
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if (stop_token.stop_requested()) {
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return;
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}
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// Exchange lock ownership so that we take the execution lock before
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// the queue lock goes out of scope. This allows us to force execution
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// to complete in the next step.
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std::exchange(lk, std::unique_lock{execution_mutex});
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// Perform the work, tracking whether the chunk was a submission
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// before executing.
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const bool has_submit = work->HasSubmit();
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work->ExecuteAll(current_cmdbuf);
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work->ExecuteAll(current_cmdbuf);
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// If the chunk was a submission, reallocate the command buffer.
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if (has_submit) {
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AllocateWorkerCommandBuffer();
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}
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}
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}
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if (has_submit) {
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AllocateWorkerCommandBuffer();
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{
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std::scoped_lock rl{reserve_mutex};
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// Recycle the chunk back to the reserve.
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chunk_reserve.emplace_back(std::move(work));
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}
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}
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std::scoped_lock reserve_lock{reserve_mutex};
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}
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chunk_reserve.push_back(std::move(work));
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} while (!stop_token.stop_requested());
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}
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}
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void Scheduler::AllocateWorkerCommandBuffer() {
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void Scheduler::AllocateWorkerCommandBuffer() {
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@ -289,13 +320,16 @@ void Scheduler::EndRenderPass() {
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}
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}
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void Scheduler::AcquireNewChunk() {
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void Scheduler::AcquireNewChunk() {
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std::scoped_lock lock{reserve_mutex};
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std::scoped_lock rl{reserve_mutex};
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if (chunk_reserve.empty()) {
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if (chunk_reserve.empty()) {
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// If we don't have anything reserved, we need to make a new chunk.
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chunk = std::make_unique<CommandChunk>();
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chunk = std::make_unique<CommandChunk>();
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return;
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} else {
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// Otherwise, we can just take from the reserve.
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chunk = std::make_unique<CommandChunk>();
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chunk_reserve.pop_back();
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}
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}
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chunk = std::move(chunk_reserve.back());
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chunk_reserve.pop_back();
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}
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}
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} // namespace Vulkan
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} // namespace Vulkan
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@ -232,10 +232,10 @@ private:
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std::queue<std::unique_ptr<CommandChunk>> work_queue;
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std::queue<std::unique_ptr<CommandChunk>> work_queue;
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std::vector<std::unique_ptr<CommandChunk>> chunk_reserve;
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std::vector<std::unique_ptr<CommandChunk>> chunk_reserve;
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std::mutex execution_mutex;
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std::mutex reserve_mutex;
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std::mutex reserve_mutex;
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std::mutex work_mutex;
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std::mutex queue_mutex;
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std::condition_variable_any work_cv;
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std::condition_variable_any event_cv;
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std::condition_variable wait_cv;
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std::jthread worker_thread;
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std::jthread worker_thread;
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};
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};
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