eb67a45ca8
This commit aims to implement the NVDEC (Nvidia Decoder) functionality, with video frame decoding being handled by the FFmpeg library. The process begins with Ioctl commands being sent to the NVDEC and VIC (Video Image Composer) emulated devices. These allocate the necessary GPU buffers for the frame data, along with providing information on the incoming video data. A Submit command then signals the GPU to process and decode the frame data. To decode the frame, the respective codec's header must be manually composed from the information provided by NVDEC, then sent with the raw frame data to the ffmpeg library. Currently, H264 and VP9 are supported, with VP9 having some minor artifacting issues related mainly to the reference frame composition in its uncompressed header. Async GPU is not properly implemented at the moment. Co-Authored-By: David <25727384+ogniK5377@users.noreply.github.com>
141 lines
5.1 KiB
C++
141 lines
5.1 KiB
C++
// Copyright 2019 yuzu Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include "common/assert.h"
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#include "common/microprofile.h"
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#include "common/thread.h"
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#include "core/core.h"
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#include "core/frontend/emu_window.h"
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#include "core/settings.h"
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#include "video_core/dma_pusher.h"
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#include "video_core/gpu.h"
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#include "video_core/gpu_thread.h"
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#include "video_core/renderer_base.h"
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namespace VideoCommon::GPUThread {
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/// Runs the GPU thread
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static void RunThread(Core::System& system, VideoCore::RendererBase& renderer,
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Core::Frontend::GraphicsContext& context, Tegra::DmaPusher& dma_pusher,
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SynchState& state, Tegra::CDmaPusher& cdma_pusher) {
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std::string name = "yuzu:GPU";
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MicroProfileOnThreadCreate(name.c_str());
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Common::SetCurrentThreadName(name.c_str());
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Common::SetCurrentThreadPriority(Common::ThreadPriority::High);
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system.RegisterHostThread();
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// Wait for first GPU command before acquiring the window context
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while (state.queue.Empty())
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;
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// If emulation was stopped during disk shader loading, abort before trying to acquire context
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if (!state.is_running) {
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return;
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}
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auto current_context = context.Acquire();
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CommandDataContainer next;
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while (state.is_running) {
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next = state.queue.PopWait();
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if (const auto submit_list = std::get_if<SubmitListCommand>(&next.data)) {
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dma_pusher.Push(std::move(submit_list->entries));
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dma_pusher.DispatchCalls();
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} else if (const auto command_list = std::get_if<SubmitChCommandEntries>(&next.data)) {
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// NVDEC
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cdma_pusher.Push(std::move(command_list->entries));
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cdma_pusher.DispatchCalls();
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} else if (const auto data = std::get_if<SwapBuffersCommand>(&next.data)) {
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renderer.SwapBuffers(data->framebuffer ? &*data->framebuffer : nullptr);
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} else if (std::holds_alternative<OnCommandListEndCommand>(next.data)) {
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renderer.Rasterizer().ReleaseFences();
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} else if (std::holds_alternative<GPUTickCommand>(next.data)) {
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system.GPU().TickWork();
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} else if (const auto data = std::get_if<FlushRegionCommand>(&next.data)) {
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renderer.Rasterizer().FlushRegion(data->addr, data->size);
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} else if (const auto data = std::get_if<InvalidateRegionCommand>(&next.data)) {
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renderer.Rasterizer().OnCPUWrite(data->addr, data->size);
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} else if (std::holds_alternative<EndProcessingCommand>(next.data)) {
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return;
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} else {
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UNREACHABLE();
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}
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state.signaled_fence.store(next.fence);
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}
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}
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ThreadManager::ThreadManager(Core::System& system) : system{system} {}
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ThreadManager::~ThreadManager() {
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if (!thread.joinable()) {
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return;
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}
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// Notify GPU thread that a shutdown is pending
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PushCommand(EndProcessingCommand());
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thread.join();
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}
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void ThreadManager::StartThread(VideoCore::RendererBase& renderer,
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Core::Frontend::GraphicsContext& context,
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Tegra::DmaPusher& dma_pusher, Tegra::CDmaPusher& cdma_pusher) {
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thread = std::thread(RunThread, std::ref(system), std::ref(renderer), std::ref(context),
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std::ref(dma_pusher), std::ref(state), std::ref(cdma_pusher));
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}
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void ThreadManager::SubmitList(Tegra::CommandList&& entries) {
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PushCommand(SubmitListCommand(std::move(entries)));
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}
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void ThreadManager::SubmitCommandBuffer(Tegra::ChCommandHeaderList&& entries) {
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PushCommand(SubmitChCommandEntries(std::move(entries)));
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}
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void ThreadManager::SwapBuffers(const Tegra::FramebufferConfig* framebuffer) {
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PushCommand(SwapBuffersCommand(framebuffer ? std::make_optional(*framebuffer) : std::nullopt));
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}
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void ThreadManager::FlushRegion(VAddr addr, u64 size) {
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if (!Settings::IsGPULevelHigh()) {
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PushCommand(FlushRegionCommand(addr, size));
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return;
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}
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if (!Settings::IsGPULevelExtreme()) {
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return;
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}
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if (system.Renderer().Rasterizer().MustFlushRegion(addr, size)) {
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auto& gpu = system.GPU();
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u64 fence = gpu.RequestFlush(addr, size);
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PushCommand(GPUTickCommand());
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while (fence > gpu.CurrentFlushRequestFence()) {
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}
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}
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}
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void ThreadManager::InvalidateRegion(VAddr addr, u64 size) {
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system.Renderer().Rasterizer().OnCPUWrite(addr, size);
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}
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void ThreadManager::FlushAndInvalidateRegion(VAddr addr, u64 size) {
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// Skip flush on asynch mode, as FlushAndInvalidateRegion is not used for anything too important
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system.Renderer().Rasterizer().OnCPUWrite(addr, size);
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}
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void ThreadManager::WaitIdle() const {
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while (state.last_fence > state.signaled_fence.load(std::memory_order_relaxed)) {
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}
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}
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void ThreadManager::OnCommandListEnd() {
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PushCommand(OnCommandListEndCommand());
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}
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u64 ThreadManager::PushCommand(CommandData&& command_data) {
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const u64 fence{++state.last_fence};
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state.queue.Push(CommandDataContainer(std::move(command_data), fence));
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return fence;
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}
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} // namespace VideoCommon::GPUThread
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