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  • Proper use of `nalu_process` callback in x264

    26 janvier 2021, par gspr

    I wish to make use of libx264's low-latency encoding mechanism, whereby a user-provided callback is called as soon as a single NAL unit is available instead of having to wait for a whole frame to be encoded before starting processing.

    


    The x264 documentation states the following about that facility :

    


    /* Optional low-level callback for low-latency encoding.  Called for each output NAL unit
 * immediately after the NAL unit is finished encoding.  This allows the calling application
 * to begin processing video data (e.g. by sending packets over a network) before the frame
 * is done encoding.
 *
 * This callback MUST do the following in order to work correctly:
 * 1) Have available an output buffer of at least size nal->i_payload*3/2 + 5 + 64.
 * 2) Call x264_nal_encode( h, dst, nal ), where dst is the output buffer.
 * After these steps, the content of nal is valid and can be used in the same way as if
 * the NAL unit were output by x264_encoder_encode.
 *
 * This does not need to be synchronous with the encoding process: the data pointed to
 * by nal (both before and after x264_nal_encode) will remain valid until the next
 * x264_encoder_encode call.  The callback must be re-entrant.
 *
 * This callback does not work with frame-based threads; threads must be disabled
 * or sliced-threads enabled.  This callback also does not work as one would expect
 * with HRD -- since the buffering period SEI cannot be calculated until the frame
 * is finished encoding, it will not be sent via this callback.
 *
 * Note also that the NALs are not necessarily returned in order when sliced threads is
 * enabled.  Accordingly, the variable i_first_mb and i_last_mb are available in
 * x264_nal_t to help the calling application reorder the slices if necessary.
 *
 * When this callback is enabled, x264_encoder_encode does not return valid NALs;
 * the calling application is expected to acquire all output NALs through the callback.
 *
 * It is generally sensible to combine this callback with a use of slice-max-mbs or
 * slice-max-size.
 *
 * The opaque pointer is the opaque pointer from the input frame associated with this
 * NAL unit. This helps distinguish between nalu_process calls from different sources,
 * e.g. if doing multiple encodes in one process.
 */
void (*nalu_process)( x264_t *h, x264_nal_t *nal, void *opaque );


    


    This seems straight forward enough. However, when I run the following dummy code, I get a segfault on the marked line. I've tried to add some debugging to x264_nal_encode itself to understand where it goes wrong, but it seems to be the function call itself that results in a segfault. Am I missing something here ? (Let's ignore the fact that the use of assert probably makes cb non-reentrant – it's only there to indicate to the reader that my workspace buffer is more than large enough.)

    


    #include 
#include 
#include 
#include 
#include 
#include 

#define WS_SIZE 10000000
uint8_t * workspace;

void cb(x264_t * h, x264_nal_t * nal, void * opaque)
{
  assert((nal->i_payload*3)/2 + 5 + 64 < WS_SIZE);
  x264_nal_encode(h, workspace, nal); // Segfault here.
  // Removed: Process nal.
}

int main(int argc, char ** argv)
{
  uint8_t * fake_frame = malloc(1280*720*3);
  memset(fake_frame, 0, 1280*720*3);

  workspace = malloc(WS_SIZE);

  x264_param_t param;
  int status = x264_param_default_preset(&param, "ultrafast", "zerolatency");
  assert(status == 0);

  param.i_csp = X264_CSP_RGB;
  param.i_width = 1280;
  param.i_height = 720;
  param.i_threads = 1;
  param.i_lookahead_threads = 1;
  param.i_frame_total = 0;
  param.i_fps_num = 30;
  param.i_fps_den = 1;
  param.i_slice_max_size = 1024;
  param.b_annexb = 1;
  param.nalu_process = cb;

  status = x264_param_apply_profile(&param, "high444");
  assert(status == 0);

  x264_t * h = x264_encoder_open(&param);
  assert(h);

  x264_picture_t pic;
  status = x264_picture_alloc(&pic, param.i_csp, param.i_width, param.i_height);
  assert(pic.img.i_plane == 1);

  x264_picture_t pic_out;
  x264_nal_t * nal; // Not used. We process NALs in cb.
  int i_nal;

  for (int i = 0; i < 100; ++i)
  {
    pic.i_pts = i;
    pic.img.plane[0] = fake_frame;
    status = x264_encoder_encode(h, &nal, &i_nal, &pic, &pic_out);
  }

  x264_encoder_close(h);
  x264_picture_clean(&pic);
  free(workspace);
  free(fake_frame);
  return 0;
}


    


    Edit : The segfault happens the first time cb calls x264_nal_encode. If I switch to a different preset, where more frames are encoded before the first callback happens, then several successful calls to x264_encoder_encode are made before the first callback, and hence segfault, occurs.

    


  • LibVLC DXVA2 Windows C++ Hardware Acceleration

    15 novembre 2016, par Sergiu Vlad

    I want to decode a h264 RTSP stream using DXVA2 Accelerated decoder. In VLC it does work but in my code have the following output :

    avcodec generic warning: threaded frame decoding is not compatible with DXVA2, disabled
    
avcodec generic debug: available hardware decoder output format 61 (dxva2_vld)
    
avcodec generic debug: available hardware decoder output format 128 (d3d11va_vld)
    
avcodec generic debug: available software decoder output format 12 (yuvj420p)
    
core generic debug: looking for hw decoder module matching "any": 1 candidates
    
core generic debug: no hw decoder modules matched

    Is this a problem with NV12 conversion ? Is there a way to force DXVA2 ?

    Thanks

    CODE :

        #include 
    
#include 
    
#include 
    
#include 
    
#include 
    
#include <iostream>
    

    
#include 
    
#include <ctime>
    
#include <vlc></vlc>vlc.h>
    

    
// RTSP address
    
const char* rtspAddress = "rtsp://admin:admin@192.168.0.245/live_st1";
    
// Video resolution WxH
    
cv::Size rtspRes(1920, 1080);
    

    
struct VideoDataStruct
    
{
    
    int param;
    
};
    

    
int done = 0;
    
libvlc_media_player_t *mp;
    
unsigned int videoBufferSize = 0;
    
uint8_t *videoBuffer = 0;
    

    
void cbVideoPrerender(void *p_video_data, uint8_t **pp_pixel_buffer, int size)
    
{
    
    if (size > videoBufferSize || !videoBuffer)
    
    {
    
        printf("Reallocate raw video buffer %d bytes\n", size);
    
        free(videoBuffer);
    
        videoBuffer = (uint8_t *)malloc(size);
    
        videoBufferSize = size;
    
    }
    

    
    // videoBuffer = (uint8_t *)malloc(size);
    
    *pp_pixel_buffer = videoBuffer;
    
}
    
void cbVideoPostrender(void *p_video_data, uint8_t *p_pixel_buffer, int width, int height, int pixel_pitch, int size, int64_t pts)
    
{
    
    // Unlocking
    
    //CloseHandle(hMutex);
    

    
}
    

    
//static void handleEvent(const libvlc_event_t* pEvt, void* pUserData)
    
//{
    
//    libvlc_time_t time;
    
//    switch (pEvt->type)
    
//    {
    
//    case libvlc_MediaPlayerTimeChanged:
    
//        time = libvlc_media_player_get_time(mp);
    
//        printf("MediaPlayerTimeChanged %lld ms\n", (long long)time);
    
//        break;
    
//    case libvlc_MediaPlayerEndReached:
    
//        printf("MediaPlayerEndReached\n");
    
//        done = 1;
    
//        break;
    
//    default:
    
//        printf("%s\n", libvlc_event_type_name(pEvt->type));
    
//    }
    
//}
    

    
clock_t startTime[8];
    
int framesReceivedThisSecond[8];
    

    
int main()
    
{
    

    

    
    // VLC pointers
    
    libvlc_instance_t *inst;
    
    libvlc_media_t *m;
    
    void *pUserData = 0;
    

    
    VideoDataStruct dataStruct;
    

    
    // VLC options
    
    char smem_options[1000];
    

    
    // RV24
    
    sprintf(smem_options
    
            , "#transcode{vcodec=RV24}:smem{"
    
              "video-prerender-callback=%lld,"
    
              "video-postrender-callback=%lld,"
    
              "video-data=%lld,"
    
              "no-time-sync},"
    
            , (long long int)(intptr_t)(void*)&amp;cbVideoPrerender
    
            , (long long int)(intptr_t)(void*)&amp;cbVideoPostrender
    
            , (long long int)(intptr_t)(void*)&amp;dataStruct
    
            );
    

    
    const char * const vlc_args[] = {
    
        "-I", "dummy",            // Don't use any interface
    
        "--ignore-config",        // Don't use VLC's config
    
        "--extraintf=logger",     // Log anything
    
        "--verbose=4",            // Be verbose
    
        //        "--ffmpeg-hw",
    
        //        "-vvv",
    
        "--ffmpeg-hw",
    
        "--avcodec-hw=any",
    
        "--sout", smem_options    // Stream to memory
    

    
    };
    

    
    // Launch VLC
    
    inst = libvlc_new(sizeof(vlc_args) / sizeof(vlc_args[0]), vlc_args);
    

    
    // Create a new item
    
    m = libvlc_media_new_location(inst, rtspAddress);
    

    

    

    
    // Create a media player playing environement
    
    mp = libvlc_media_player_new_from_media(m);
    

    
    //    libvlc_event_manager_t* eventManager = libvlc_media_player_event_manager(mp);
    
    //    libvlc_event_attach(eventManager, libvlc_MediaPlayerTimeChanged, handleEvent, pUserData);
    
    //    libvlc_event_attach(eventManager, libvlc_MediaPlayerEndReached, handleEvent, pUserData);
    
    //    libvlc_event_attach(eventManager, libvlc_MediaPlayerPositionChanged, handleEvent, pUserData);
    

    
    //libvlc_video_set_format(mp, "RV24", 240, 320, 240 * 3 );
    

    
    // play the media_player
    
    libvlc_media_player_play(mp);
    

    

    
    // Create a window for displaying the video
    
    std::string winName("Demo Video");
    
    cv::namedWindow(winName, cv::WINDOW_AUTOSIZE);
    

    
    cv::Mat frame;
    
    int key = 0;
    

    
    // Endless loop, press Esc to quit
    
    while (key != 27)
    
    {
    

    
        // Check for invalid input
    
        if (videoBuffer)
    
        {
    
            // CV_8UC3 = 8 bits, 3 chanels
    
            frame = cv::Mat(rtspRes, CV_8UC3, videoBuffer);
    
        }
    

    

    
        if (frame.rows == 0 || frame.cols == 0)
    
            continue;
    

    
        int stream_number=0;
    
        framesReceivedThisSecond[stream_number]++;
    
        long    duration = ( std::clock() - startTime[stream_number] );
    
        if(duration>1000)
    
        {
    
            std::cout&lt;&lt;"\n"&lt;&lt;"FPS "&lt;code></ctime></iostream>

    FULL LOG :

    core libvlc debug: Copyright © 1996-2016 the VideoLAN team
    
core libvlc debug: revision 2.2.3-37-g888b7e89
    
core libvlc debug: configured with ../extras/package/win32/../../../configure  '--enable-update-check' '--enable-lua' '--enable-faad' '--enable-flac' '--enable-theora' '--enable-twolame' '--enable-quicktime' '--enable-avcodec' '--enable-merge-ffmpeg' '--enable-dca' '--enable-mpc' '--enable-libass' '--enable-x264' '--enable-schroedinger' '--enable-realrtsp' '--enable-live555' '--enable-dvdread' '--enable-shout' '--enable-goom' '--enable-caca' '--disable-sdl' '--enable-qt' '--enable-skins2' '--enable-sse' '--enable-mmx' '--enable-libcddb' '--enable-zvbi' '--disable-telx' '--enable-nls' '--host=i686-w64-mingw32' '--build=x86_64-pc-linux-gnu' 'build_alias=x86_64-pc-linux-gnu' 'host_alias=i686-w64-mingw32' 'PKG_CONFIG_PATH=/opt/intel/opencl:' 'PKG_CONFIG_LIBDIR=/home/svlad/DEV/vlc/contrib/i686-w64-mingw32/lib/pkgconfig'
    
core libvlc debug: using multimedia timers as clock source
    
core libvlc debug:  min period: 1 ms, max period: 1000000 ms
    
core libvlc debug: searching plug-in modules
    
core libvlc debug: loading plugins cache file C:\DEV\VLCStreamProcessor\build-untitled-Desktop_Qt_5_5_1_MSVC2013_32bit-Debug\debug\plugins\plugins.dat
    
core libvlc debug: recursively browsing `C:\DEV\VLCStreamProcessor\build-untitled-Desktop_Qt_5_5_1_MSVC2013_32bit-Debug\debug\plugins'
    
core libvlc debug: saving plugins cache C:\DEV\VLCStreamProcessor\build-untitled-Desktop_Qt_5_5_1_MSVC2013_32bit-Debug\debug\plugins\plugins.dat
    
core libvlc debug: plug-ins loaded: 418 modules
    
core libvlc debug: translation test: code is "C"
    
core libvlc debug: CPU has capabilities MMX MMXEXT SSE SSE2 SSE3 SSSE3 SSE4.1 SSE4.2 FPU 
    
core playlist debug: creating audio output
    
core audio output debug: looking for audio output module matching "any": 6 candidates
    
directsound audio output debug: found 2 devices
    
core audio output debug: using audio output module "directsound"
    
core playlist debug: keeping audio output
    
core interface debug: looking for interface module matching "logger,none": 16 candidates
    
logger interface: VLC media player - 2.2.4 Weatherwax
    
logger interface: Copyright © 1996-2016 the VideoLAN team
    
logger interface: 
    
Warning: if you cannot access the GUI anymore, open a command-line window, go to the directory where you installed VLC and run "vlc -I qt"
    
logger interface: using logger.
    
logger interface warning: no log filename provided, using `vlc-log.txt'
    
logger interface debug: opening logfile `vlc-log.txt'
    
core libvlc debug: VLC media player - 2.2.4 Weatherwax
    
core libvlc debug: Copyright © 1996-2016 the VideoLAN team
    
core libvlc debug: revision 2.2.3-37-g888b7e89
    
core libvlc debug: configured with ../extras/package/win32/../../../configure  '--enable-update-check' '--enable-lua' '--enable-faad' '--enable-flac' '--enable-theora' '--enable-twolame' '--enable-quicktime' '--enable-avcodec' '--enable-merge-ffmpeg' '--enable-dca' '--enable-mpc' '--enable-libass' '--enable-x264' '--enable-schroedinger' '--enable-realrtsp' '--enable-live555' '--enable-dvdread' '--enable-shout' '--enable-goom' '--enable-caca' '--disable-sdl' '--enable-qt' '--enable-skins2' '--enable-sse' '--enable-mmx' '--enable-libcddb' '--enable-zvbi' '--disable-telx' '--enable-nls' '--host=i686-w64-mingw32' '--build=x86_64-pc-linux-gnu' 'build_alias=x86_64-pc-linux-gnu' 'host_alias=i686-w64-mingw32' 'PKG_CONFIG_PATH=/opt/intel/opencl:' 'PKG_CONFIG_LIBDIR=/home/svlad/DEV/vlc/contrib/i686-w64-mingw32/lib/pkgconfig'
    
core interface debug: using interface module "logger"
    
core generic debug: creating audio output
    
core audio output debug: looking for audio output module matching "any": 6 candidates
    
directsound audio output debug: found 2 devices
    
core audio output debug: using audio output module "directsound"
    
core generic debug: keeping audio output
    
core input debug: Creating an input for 'rtsp://192.168.0.245/live_st1'
    
core stream output debug: using sout chain=`transcode{vcodec=RV24}:smem{video-prerender-callback=15667245,video-postrender-callback=15667630,video-data=3471900,no-time-sync},'
    
core stream output debug: stream=`smem'
    
core stream out debug: looking for sout stream module matching "smem": 22 candidates
    
core stream out debug: set config option: sout-smem-video-prerender-callback to 15667245
    
core stream out debug: set config option: sout-smem-video-postrender-callback to 15667630
    
core stream out debug: set config option: sout-smem-video-data to 3471900
    
core stream out debug: set config option: sout-smem-time-sync to (null)
    
core stream out debug: using sout stream module "stream_out_smem"
    
core stream output debug: stream=`transcode'
    
core stream out debug: looking for sout stream module matching "transcode": 22 candidates
    
core stream out debug: set config option: sout-transcode-vcodec to RV24
    
stream_out_transcode stream out debug: Checking video codec mapping for RV24 got RV24 
    
stream_out_transcode stream out debug: codec video=RV24 0x0 scaling: 0.000000 0kb/s
    
core stream out debug: using sout stream module "stream_out_transcode"
    
core input debug: using timeshift granularity of 50 MiB, in path 'C:\Users\BCDVideo\AppData\Local\Temp'
    
core input debug: `rtsp://admin:admin@192.168.0.245/live_st1' gives access `rtsp' demux `' path `admin:admin@192.168.0.245/live_st1'
    
core input debug: specified demux `any'
    
core input debug: creating demux: access='rtsp' demux='any' location='admin:admin@192.168.0.245/live_st1' file='\\admin:admin@192.168.0.245\live_st1'
    
core demux debug: looking for access_demux module matching "rtsp": 12 candidates
    
live555 demux debug: version 2016.01.12
    
live555 demux debug: RTP subsession 'video/H264'
    
core input debug: selecting program id=0
    
live555 demux debug: setup start: 0.000000 stop:0.000000
    
live555 demux debug: We have a timeout of 60 seconds
    
live555 demux debug: spawned timeout thread
    
live555 demux debug: play start: 0.000000 stop:0.000000
    
core demux debug: using access_demux module "live555"
    
core decoder debug: looking for packetizer module matching "any": 23 candidates
    
packetizer_h264 decoder debug: found NAL_SPS (sps_id=0)
    
packetizer_h264 decoder debug: found NAL_PPS (pps_id=0 sps_id=0)
    
core decoder debug: using packetizer module "packetizer_h264"
    
core input debug: starting in sync mode
    
core demux meta debug: looking for meta reader module matching "any": 2 candidates
    
lua demux meta debug: Trying Lua scripts in C:\Users\BCDVideo\AppData\Roaming\vlc\lua\meta\reader
    
lua demux meta debug: Trying Lua scripts in C:\DEV\VLCStreamProcessor\build-untitled-Desktop_Qt_5_5_1_MSVC2013_32bit-Debug\debug\lua\meta\reader
    
core demux meta debug: no meta reader modules matched
    
core input debug: `rtsp://admin:admin@192.168.0.245/live_st1' successfully opened
    
core input debug: switching to async mode
    
core input debug: Buffering 0%
    
core input debug: Buffering 3%
    
core input debug: Buffering 10%
    
core stream output debug: adding a new sout input (sout_input:00c21c50)
    
core input debug: Buffering 13%
    
stream_out_transcode stream out debug: creating video transcoding from fcc=`h264' to fcc=`RV24'
    
core input debug: Buffering 16%
    
core generic debug: looking for decoder module matching "any": 43 candidates
    
core input debug: Buffering 20%
    
core input debug: Buffering 23%
    
avcodec generic debug: CPU flags: 0x0107d3db
    
core input debug: Buffering 30%
    
avcodec generic debug: trying to use direct rendering
    
core input debug: Buffering 33%
    
avcodec generic debug: allowing 4 thread(s) for decoding
    
core input debug: Buffering 36%
    
avcodec generic warning: threaded frame decoding is not compatible with DXVA2, disabled
    
core input debug: Buffering 40%
    
avcodec generic debug: avcodec codec (H264 - MPEG-4 AVC (part 10)) started
    
core input debug: Buffering 43%
    
avcodec generic debug: using slice thread mode with 4 threads
    
core input debug: Buffering 50%
    
core generic debug: using decoder module "avcodec"
    
core input debug: Buffering 53%
    
core encoder debug: looking for encoder module matching "any": 20 candidates
    
core input debug: Buffering 56%
    
core input debug: Buffering 60%
    
avcodec encoder debug: CPU flags: 0x0107d3db
    
core input debug: Buffering 63%
    
avcodec encoder debug: Time base for probing setted to 1/1000000
    
core input debug: Buffering 70%
    
avcodec encoder debug: Time base set to 1/1000000
    
core input debug: Buffering 73%
    
avcodec encoder debug: found encoder Raw video
    
core input debug: Buffering 76%
    
core encoder debug: using encoder module "avcodec"
    
core input debug: Buffering 80%
    
core encoder debug: removing module "avcodec"
    
core input debug: Buffering 83%
    
core input debug: Buffering 90%
    
core input debug: Buffering 93%
    
core input debug: Buffering 96%
    
core input debug: Stream buffering done (1002 ms in 834 ms)
    
core input debug: Decoder wait done in 0 ms
    
avcodec generic debug: available hardware decoder output format 61 (dxva2_vld)
    
avcodec generic debug: available hardware decoder output format 128 (d3d11va_vld)
    
avcodec generic debug: available software decoder output format 12 (yuvj420p)
    
core generic debug: looking for hw decoder module matching "any": 1 candidates
    
core generic debug: no hw decoder modules matched
    
avcodec generic warning: plane 0 not aligned
    
avcodec generic warning: disabling direct rendering
    
stream_out_transcode stream out debug: decoder aspect is 1.761468:1
    
stream_out_transcode stream out debug: source pixel aspect is 0.990826:1
    
stream_out_transcode stream out debug: scaled pixel aspect is 0.990826:1
    
stream_out_transcode stream out debug: source 1920x1080, destination 1920x1080
    
stream_out_transcode stream out debug: source fps 30/1, destination 30/1
    
stream_out_transcode stream out: input interval 33333 (base 1)
    
stream_out_transcode stream out: output interval 33333 (base 1)
    
stream_out_transcode stream out debug: encoder aspect is 1920:1090
    
core filter debug: looking for video filter2 module matching "any": 58 candidates
    
swscale filter debug: 1920x1080 (1920x1090) chroma: J420 -> 1920x1080 (1920x1090) chroma: RV24 with scaling using Bicubic (good quality)
    
core filter debug: using video filter2 module "swscale"
    
core stream out debug: Filter 'Swscale' (0089a2cc) appended to chain
    
stream_out_transcode stream out debug: destination (after video filters) 1920x1090
    
core encoder debug: looking for encoder module matching "any": 20 candidates
    
avcodec encoder debug: CPU flags: 0x0107d3db
    
avcodec encoder debug: Time base for probing setted to 1/30
    
avcodec encoder debug: Time base set to 1/30
    
avcodec encoder debug: found encoder Raw video
    
core encoder debug: using encoder module "avcodec"
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518755, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518756, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518757, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518758, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518759, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518760, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518761, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518762, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518763, last: 1518769)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518764, last: 1518769)
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518784, last: 1518795)
    
live555 demux debug: tk->rtpSource->hasBeenSynchronizedUsingRTCP()
    
core input error: ES_OUT_RESET_PCR called
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518785, last: 1518795)
    
core input debug: Buffering 0%
    
core input debug: Buffering 3%
    
core input debug: Buffering 6%
    
core input debug: Buffering 10%
    
core input debug: Buffering 13%
    
core input debug: Buffering 20%
    
core input debug: Buffering 23%
    
core input debug: Buffering 26%
    
core input debug: Buffering 30%
    
core input debug: Buffering 33%
    
core input debug: Buffering 40%
    
core input debug: Buffering 43%
    
core input debug: Buffering 46%
    
core input debug: Buffering 50%
    
core input debug: Buffering 53%
    
core input debug: Buffering 60%
    
core input debug: Buffering 63%
    
core input debug: Buffering 66%
    
core input debug: Buffering 70%
    
core input debug: Buffering 73%
    
core input debug: Buffering 80%
    
core input debug: Buffering 83%
    
core input debug: Buffering 86%
    
core input debug: Buffering 90%
    
core input debug: Buffering 93%
    
core input debug: Stream buffering done (1002 ms in 817 ms)
    
core input debug: Decoder wait done in 0 ms
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518834, last: 1518837)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518835, last: 1518837)
    
avcodec encoder warning: almost fed libavcodec with a frame in the past (current: 1518836, last: 1518837)
    
avcodec encoder warning: almost fed libavcodec with two frames with the same PTS (1518837)
    
stream_out_transcode stream out warning: Reseting video sync
    
stream_out_transcode stream out warning: Reseting video sync

  • Revision 716ae78ce4 : Change initialization of static_scene_max_gf_interval. This removes an unnecess

    16 octobre 2014, par Paul Wilkins

    Changed Paths :
     Modify /vp9/encoder/vp9_ratectrl.c



    Change initialization of static_scene_max_gf_interval.

    This removes an unnecessary restriction that causes
    a problem (noticed by AWG) when the forced key frame
    interval is set to a very small value, such as 10. In this case
    we were being forced to code minimal length GF groups.

    Change-Id : I76ef5861a09638ff51f61fea02359554184ada53

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