winamp/Src/Plugins/Input/in_wmvdrm/VideoThread.cpp

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2024-09-24 12:54:57 +00:00
#include "Main.h"
#include "VideoThread.h"
#include "VideoLayer.h"
#include "config.h"
#include <windows.h>
DWORD WINAPI VidThread_stub(void *ptr)
{
((VideoThread *)ptr)->VidThread();
return 0;
}
VideoThread::VideoThread() : converter(0), clock(0)
{
drm = false;
DWORD id;
thread = CreateThread(NULL, 256*1024, VidThread_stub, (void *)this, NULL, &id);
SetThreadPriority(thread, AGAVE_API_CONFIG->GetInt(playbackConfigGroupGUID, L"priority", THREAD_PRIORITY_HIGHEST));
}
void VideoThread::Start(VideoDataConverter *_converter, WMHandler *_clock)
{
clock = _clock;
if (converter != _converter)
{
if (converter)
delete converter;
converter = _converter;
}
ResetEvent(stopped);
QueueUserAPC(MediaThread_StartAPC, thread, reinterpret_cast<ULONG_PTR>(this));
}
void VideoThread::VidThread()
{
while (true)
{
switch (WaitForSingleObjectEx(killEvent, wait, TRUE))
{
case WAIT_OBJECT_0:
//StopAPC();
return;
case WAIT_TIMEOUT:
{
if (buffers.empty())
{
SetEvent(bufferFreed);
continue;
}
MediaBuffer *buffer = buffers.front();
__int64 diff;
clock->TimeToSync(buffer->timestamp, diff);
if (diff < VIDEO_ACCEPTABLE_JITTER)
{
void *data;
DWORD size;
buffer->buffer->GetBufferAndLength((BYTE **)&data, &size);
if (buffer->drmProtected)
winamp.EncryptedDrawFrame(converter->Convert(data));
else
winamp.DrawFrame(converter->Convert(data));
try {
buffer->buffer->Release();
delete buffer;
} catch (...) {}
//buffers.pop_front();
if (buffers.size())
{
buffers.erase(buffers.begin());
}
}
if (buffers.size() < config_video_cache_frames)
SetEvent(bufferFreed);
}
continue;
default:
continue;
}
}
}
void VideoThread::AddAPC(MediaBuffer *buffer)
{
if (buffers.empty())
{
__int64 diff;
clock->TimeToSync(buffer->timestamp, diff);
if (diff < VIDEO_ACCEPTABLE_JITTER)
{
void *data;
DWORD size;
buffer->buffer->GetBufferAndLength((BYTE **)&data, &size);
if (buffer->drmProtected)
winamp.EncryptedDrawFrame(converter->Convert(data));
else
winamp.DrawFrame(converter->Convert(data));
buffer->buffer->Release();
if (buffers.size() >= config_video_cache_frames)
ResetEvent(bufferFreed);
return;
}
}
OrderedInsert(buffer);
if (buffers.size() >= config_video_cache_frames)
ResetEvent(bufferFreed);
}
struct VideoOpenParameters
{
int width;
int height;
int color_format;
double aspect;
int flip;
bool drm;
};
VOID CALLBACK VideoThread::VideoThread_VideoOpenAPC(ULONG_PTR params)
{
VideoOpenParameters *p = (VideoOpenParameters *)params;
if (p->drm)
{
winamp.OpenEncryptedVideo(p->width, p->height, !!p->flip, p->aspect, p->color_format);
}
else
{
winamp.OpenVideo(p->width, p->height, !!p->flip, p->aspect, p->color_format);
}
}
void VideoThread::OpenVideo(bool drm, int width, int height, bool flip, double aspect, int fourcc)
{
VideoOpenParameters *p = new VideoOpenParameters;
p->width = width;
p->height = height;
p->color_format = fourcc;
p->aspect = aspect;
p->flip = flip;
p->drm = drm;
this->drm = drm;
QueueUserAPC(VideoThread_VideoOpenAPC, thread, reinterpret_cast<ULONG_PTR>(p));
}
VOID CALLBACK VideoThread::VideoThread_VideoCloseAPC(ULONG_PTR params)
{
if (params)
winamp.CloseEncryptedVideo();
else
winamp.CloseVideo();
}
void VideoThread::CloseVideo(bool drm)
{
QueueUserAPC(VideoThread_VideoCloseAPC, thread, static_cast<ULONG_PTR>(drm));
}