moonlight-qt/app/streaming/video/ffmpeg-renderers/pacer/pacer.cpp
2019-03-17 00:45:31 -07:00

298 lines
9 KiB
C++

#include "pacer.h"
#include "streaming/streamutils.h"
#include "nullthreadedvsyncsource.h"
#ifdef Q_OS_DARWIN
#include "displaylinkvsyncsource.h"
#endif
#ifdef Q_OS_WIN32
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#include <VersionHelpers.h>
#include "dxvsyncsource.h"
#endif
// Limit the number of queued frames to prevent excessive memory consumption
// if the V-Sync source or renderer is blocked for a while.
#define MAX_QUEUED_FRAMES 8
// We may be woken up slightly late so don't go all the way
// up to the next V-sync since we may accidentally step into
// the next V-sync period. It also takes some amount of time
// to do the render itself, so we can't render right before
// V-sync happens.
#define TIMER_SLACK_MS 3
Pacer::Pacer(IFFmpegRenderer* renderer, PVIDEO_STATS videoStats) :
m_RenderThread(nullptr),
m_Stopping(false),
m_VsyncSource(nullptr),
m_VsyncRenderer(renderer),
m_MaxVideoFps(0),
m_DisplayFps(0),
m_VideoStats(videoStats)
{
}
Pacer::~Pacer()
{
// Stop V-sync callbacks
delete m_VsyncSource;
m_VsyncSource = nullptr;
// Stop the render thread
m_Stopping = true;
if (m_RenderThread != nullptr) {
m_RenderQueueNotEmpty.wakeAll();
SDL_WaitThread(m_RenderThread, nullptr);
}
// Delete any remaining unconsumed frames
while (!m_RenderQueue.isEmpty()) {
AVFrame* frame = m_RenderQueue.dequeue();
av_frame_free(&frame);
}
while (!m_PacingQueue.isEmpty()) {
AVFrame* frame = m_PacingQueue.dequeue();
av_frame_free(&frame);
}
}
int Pacer::renderThread(void* context)
{
Pacer* me = reinterpret_cast<Pacer*>(context);
if (SDL_SetThreadPriority(SDL_THREAD_PRIORITY_HIGH) < 0) {
SDL_LogWarn(SDL_LOG_CATEGORY_APPLICATION,
"Unable to set render thread to high priority: %s",
SDL_GetError());
}
while (!me->m_Stopping) {
// Acquire the frame queue lock to protect the queue and
// the not empty condition
me->m_FrameQueueLock.lock();
// Wait for a frame to be ready to render
while (!me->m_Stopping && me->m_RenderQueue.isEmpty()) {
me->m_RenderQueueNotEmpty.wait(&me->m_FrameQueueLock);
}
if (me->m_Stopping) {
// Exit this thread
me->m_FrameQueueLock.unlock();
break;
}
// Dequeue the most recent frame for rendering and free the others.
// NB: m_FrameQueueLock still held here!
AVFrame* lastFrame = nullptr;
while (!me->m_RenderQueue.isEmpty()) {
if (lastFrame != nullptr) {
// Don't hold the frame queue lock across av_frame_free(),
// since it could need to talk to the GPU driver. This is safe
// because we're guaranteed that the queue will not shrink during
// this time (and so dequeue() below will always get something).
me->m_FrameQueueLock.unlock();
av_frame_free(&lastFrame);
me->m_VideoStats->pacerDroppedFrames++;
me->m_FrameQueueLock.lock();
}
lastFrame = me->m_RenderQueue.dequeue();
}
// Release the frame queue lock before rendering
me->m_FrameQueueLock.unlock();
// Render and free the mot current frame
me->renderFrame(lastFrame);
}
return 0;
}
// Called in an arbitrary thread by the IVsyncSource on V-sync
// or an event synchronized with V-sync
void Pacer::vsyncCallback(int timeUntilNextVsyncMillis)
{
// Make sure initialize() has been called
SDL_assert(m_MaxVideoFps != 0);
SDL_assert(timeUntilNextVsyncMillis >= TIMER_SLACK_MS);
m_FrameQueueLock.lock();
// If the queue length history entries are large, be strict
// about dropping excess frames.
int frameDropTarget = 1;
// If we may get more frames per second than we can display, use
// frame history to drop frames only if consistently above the
// one queued frame mark.
if (m_MaxVideoFps >= m_DisplayFps) {
for (int queueHistoryEntry : m_PacingQueueHistory) {
if (queueHistoryEntry <= 1) {
// Be lenient as long as the queue length
// resolves before the end of frame history
frameDropTarget = 3;
break;
}
}
// Keep a rolling 500 ms window of pacing queue history
if (m_PacingQueueHistory.count() == m_DisplayFps / 2) {
m_PacingQueueHistory.dequeue();
}
m_PacingQueueHistory.enqueue(m_PacingQueue.count());
}
// Catch up if we're several frames ahead
while (m_PacingQueue.count() > frameDropTarget) {
AVFrame* frame = m_PacingQueue.dequeue();
// Drop the lock while we call av_frame_free()
m_FrameQueueLock.unlock();
m_VideoStats->pacerDroppedFrames++;
av_frame_free(&frame);
m_FrameQueueLock.lock();
}
if (m_PacingQueue.isEmpty()) {
// Wait for a frame to arrive or our V-sync timeout to expire
if (!m_PacingQueueNotEmpty.wait(&m_FrameQueueLock, timeUntilNextVsyncMillis - TIMER_SLACK_MS)) {
// Wait timed out - unlock and bail
m_FrameQueueLock.unlock();
return;
}
}
// Place the first frame on the render queue
dropFrameForEnqueue(m_RenderQueue);
m_RenderQueue.enqueue(m_PacingQueue.dequeue());
m_FrameQueueLock.unlock();
m_RenderQueueNotEmpty.wakeOne();
}
bool Pacer::initialize(SDL_Window* window, int maxVideoFps, bool enablePacing)
{
m_MaxVideoFps = maxVideoFps;
m_DisplayFps = StreamUtils::getDisplayRefreshRate(window);
if (enablePacing) {
SDL_LogInfo(SDL_LOG_CATEGORY_APPLICATION,
"Frame pacing active: target %d Hz with %d FPS stream",
m_DisplayFps, m_MaxVideoFps);
#if defined(Q_OS_DARWIN)
m_VsyncSource = DisplayLinkVsyncSourceFactory::createVsyncSource(this);
#elif defined(Q_OS_WIN32)
// Don't use D3DKMTWaitForVerticalBlankEvent() on Windows 7, because
// it blocks during other concurrent DX operations (like actually rendering).
if (IsWindows8OrGreater()) {
m_VsyncSource = new DxVsyncSource(this);
}
#else
// Platforms without a VsyncSource will just render frames
// immediately like they used to.
#endif
if (m_VsyncSource != nullptr && !m_VsyncSource->initialize(window, m_DisplayFps)) {
return false;
}
}
else {
SDL_LogInfo(SDL_LOG_CATEGORY_APPLICATION,
"Frame pacing disabled: target %d Hz with %d FPS stream",
m_DisplayFps, m_MaxVideoFps);
}
m_RenderThread = SDL_CreateThread(Pacer::renderThread, "Pacer Render Thread", this);
return true;
}
void Pacer::renderFrame(AVFrame* frame)
{
// Count time spent in Pacer's queues
Uint32 beforeRender = SDL_GetTicks();
m_VideoStats->totalPacerTime += beforeRender - frame->pts;
// Render it
m_VsyncRenderer->renderFrame(frame);
Uint32 afterRender = SDL_GetTicks();
m_VideoStats->totalRenderTime += afterRender - beforeRender;
m_VideoStats->renderedFrames++;
av_frame_free(&frame);
// Drop frames if we have too many queued up for a while
m_FrameQueueLock.lock();
int frameDropTarget = 0;
for (int queueHistoryEntry : m_RenderQueueHistory) {
if (queueHistoryEntry == 0) {
// Be lenient as long as the queue length
// resolves before the end of frame history
frameDropTarget = 2;
break;
}
}
// Keep a rolling 500 ms window of render queue history
if (m_RenderQueueHistory.count() == m_MaxVideoFps / 2) {
m_RenderQueueHistory.dequeue();
}
m_RenderQueueHistory.enqueue(m_RenderQueue.count());
// Catch up if we're several frames ahead
while (m_RenderQueue.count() > frameDropTarget) {
AVFrame* frame = m_RenderQueue.dequeue();
// Drop the lock while we call av_frame_free()
m_FrameQueueLock.unlock();
m_VideoStats->pacerDroppedFrames++;
av_frame_free(&frame);
m_FrameQueueLock.lock();
}
m_FrameQueueLock.unlock();
}
void Pacer::dropFrameForEnqueue(QQueue<AVFrame*>& queue)
{
SDL_assert(queue.size() <= MAX_QUEUED_FRAMES);
if (queue.size() == MAX_QUEUED_FRAMES) {
AVFrame* frame = queue.dequeue();
av_frame_free(&frame);
}
}
void Pacer::submitFrame(AVFrame* frame)
{
// Make sure initialize() has been called
SDL_assert(m_MaxVideoFps != 0);
// Queue the frame and possibly wake up the render thread
m_FrameQueueLock.lock();
if (m_VsyncSource != nullptr) {
dropFrameForEnqueue(m_PacingQueue);
m_PacingQueue.enqueue(frame);
}
else {
dropFrameForEnqueue(m_RenderQueue);
m_RenderQueue.enqueue(frame);
}
m_FrameQueueLock.unlock();
if (m_VsyncSource != nullptr) {
m_PacingQueueNotEmpty.wakeOne();
}
else {
m_RenderQueueNotEmpty.wakeOne();
}
}