Recherche avancée

Sur d’autres sites (6481)

• ffmpeg drawtext RGB color codes

  19 janvier 2018, par Manish Jha

  I have an ffmpeg command which overlays an image and some text on a video where arguments are :

   -i "C:\exports\blue.mp4"
  
   -i "D:\Manish\Videos\logo.png" 
  
   -filter_complex 
  
   "[0:v]drawtext=fontfile='C\:\\Windows\\Fonts\\arial.ttf':
  
    text='falana dhimaka':
  
    fontcolor=AntiqueWhite:
  
    fontsize=20:x=1000:y=10[text]; 
  
    [text][1:v]overlay=140:5[filtered]" -map "[filtered]" -map 0:a? -codec:a copy 
  
    -preset ultrafast -ac 2 "C:\exports\blue_wm.mp4"

  This works well, but I want to be able to supply RGB Hex instead of AntiqueWhite. Any help is appreciated.

• Is there a chance to check why a videostream on IOS does not work ?

  13 septembre 2013, par mazleu

  I have a very strange problem.

  To stream videos I use AMS (Adobe Media Server)
  This works fine for the most Videos.
  But 4 videos do not work on iOS devices. The first seconds work but then the Video break.
  All Videos (over 1000) are convertet with the same ffmpeg settings.

  I try other settings and other converters but the Result are the same.

  Is there any opportunity to show why IOS don't like this 4 Videos ?

  Mediainfo form a failed video :

  MediaInfoLib - v0.7.62
  
  
  
  General
  
  Complete name                       : ---
  
  Format                              : MPEG-4
  
  Format profile                      : Base Media
  
  Codec ID                            : isom
  
  File size                           : 91.3 MiB
  
  Duration                            : 24mn 27s
  
  Overall bit rate mode               : Variable
  
  Overall bit rate                    : 522 Kbps
  
  Encoded date                        : UTC 2013-09-12 14:24:13
  
  Tagged date                         : UTC 2013-09-12 14:24:13
  
  
  
  Video
  
  ID                                  : 1
  
  Format                              : AVC
  
  Format/Info                         : Advanced Video Codec
  
  Format profile                      : High@L4.1
  
  Format settings, CABAC              : Yes
  
  Format settings, ReFrames           : 4 frames
  
  Codec ID                            : avc1
  
  Codec ID/Info                       : Advanced Video Coding
  
  Duration                            : 24mn 27s
  
  Bit rate                            : 387 Kbps
  
  Maximum bit rate                    : 4 885 Kbps
  
  Width                               : 1 280 pixels
  
  Height                              : 720 pixels
  
  Display aspect ratio                : 16:9
  
  Frame rate mode                     : Constant
  
  Frame rate                          : 30.000 fps
  
  Color space                         : YUV
  
  Chroma subsampling                  : 4:2:0
  
  Bit depth                           : 8 bits
  
  Scan type                           : Progressive
  
  Bits/(Pixel*Frame)                  : 0.014
  
  Stream size                         : 67.7 MiB (74%)
  
  Writing library                     : x264 core 130 r2273 b3065e6
  
  Encoding settings                   : cabac=1 / ref=2 / deblock=1:0:0 / analyse=0x3:0x113 / me=hex / subme=6 / psy=1 / psy_rd=1.00:0.00 / mixed_ref=1 / me_range=16 / chroma_me=1 / trellis=1 / 8x8dct=1 / cqm=0 / deadzone=21,11 / fast_pskip=1 / chroma_qp_offset=-2 / threads=6 / lookahead_threads=1 / sliced_threads=0 / nr=0 / decimate=1 / interlaced=0 / bluray_compat=0 / constrained_intra=0 / bframes=3 / b_pyramid=2 / b_adapt=1 / b_bias=0 / direct=1 / weightb=1 / open_gop=0 / weightp=1 / keyint=250 / keyint_min=25 / scenecut=40 / intra_refresh=0 / rc_lookahead=30 / rc=crf / mbtree=1 / crf=28.0 / qcomp=0.70 / qpmin=0 / qpmax=69 / qpstep=4 / vbv_maxrate=50000 / vbv_bufsize=50000 / crf_max=0.0 / nal_hrd=none / ip_ratio=1.40 / aq=1:0.60
  
  Encoded date                        : UTC 2013-09-12 14:24:13
  
  Tagged date                         : UTC 2013-09-12 14:24:16
  
  
  
  Audio
  
  ID                                  : 2
  
  Format                              : AAC
  
  Format/Info                         : Advanced Audio Codec
  
  Format profile                      : LC
  
  Codec ID                            : 40
  
  Duration                            : 24mn 27s
  
  Bit rate mode                       : Variable
  
  Bit rate                            : 132 Kbps
  
  Maximum bit rate                    : 172 Kbps
  
  Channel(s)                          : 2 channels
  
  Channel positions                   : Front: L R
  
  Sampling rate                       : 48.0 KHz
  
  Compression mode                    : Lossy
  
  Delay relative to video             : 67ms
  
  Stream size                         : 22.7 MiB (25%)
  
  Encoded date                        : UTC 2013-09-12 14:24:15
  
  Tagged date                         : UTC 2013-09-12 14:24:16

• AVIOContext custom stream playback glitches/corruption on UDP stream

  21 décembre 2017, par WLGfx

  I’ve written a general all round player (for Android OS) which plays file based streams as well as streams from network sources, and it all works good. File based streams I’ve got the seeking which works too.

  What it is I’m now struggling with is now I’m using AVIOContext to latch onto a UDP stream which saves the packet data partially in memory and then to transient storage. This is so I can pause live TV and also seek within it.

  However, after much faffing about, during playback (seeking is only partial at the moment), either the video frame rate will drop from 25FPS (will be deinterlaced on higher spec devices) down to between 17 and 19 frames per second, or, it will glitch and grey out.

  When I playback the record TS data from the file, it plays perfect, so the UDP buffering and writing out the overflow is sound. (This is currently not true now, only currently a minor issue)

  I’m at the point were I’ve spent a lot of time on this and I’m at a loss as to why I get either frame drops or glitches.

  The class def :

  #define PKT_SIZE (188)
  
  #define PKT_SIZE7 (PKT_SIZE * 7)
  
  
  
  #define UDP_QUEUE_SIZE (12000)
  
  #define UDP_THRESHOLD (100)
  
  
  
  #define FILE_QUEUE_PKTS (200000)
  
  
  
  #define AVIO_QUEUE_SIZE (24)
  
  #define AVIO_THRESHOLD (10)
  
  
  
  extern "C" {
  
  #include "libavformat/avio.h"
  
  };
  
  
  
  /*
  
   * PracticalSocket class as found here with examples:
  
   * http://cs.baylor.edu/~donahoo/practical/CSockets/practical/
  
   */
  
  
  
  #include "PracticalSocket.h"
  
  
  
  class FFIOBufferManager2 {
  
  
  
  public:
  
  
  
      AVIOContext *avioContext = nullptr;
  
  
  
      bool quit = false;
  
  
  
      char udp_buffer[UDP_QUEUE_SIZE][PKT_SIZE7];
  
      int udp_write_pos, udp_size; // by PKT_SIZE7
  
      char *get_udp_buffer(int index);
  
      int get_udp_buffer_size() { return udp_size; }
  
  
  
      int file_write_pos, file_size; // by PKT_SIZE7
  
      std::fstream file_out, file_in;
  
      std::mutex udp_mutex, file_mutex;
  
      std::thread udp_thread, file_thread;
  
  
  
      static void udp_thread_func(FFIOBufferManager2 *io, const char *ip, int port);
  
      static void file_thread_func(FFIOBufferManager2 *io, const char *dir);
  
      void udp_thread_run(const char *ip, int port);
  
      void file_thread_run();
  
  
  
      char avio_buffer[AVIO_QUEUE_SIZE * 7 * PKT_SIZE];
  
      int64_t avio_read_offset; // controlled by udp mutex (quickest)
  
      static int avio_read(void *ptr, uint8_t *buff, int buf_size);
  
      static int64_t avio_seek(void *ptr, int64_t pos, int whence);
  
      int avio_read_run(uint8_t *buf, int buf_size);
  
      int64_t avio_seek_run(int64_t pos, int whence);
  
      void write_udp_overflow();
  
  
  
      void start(const char *ip, int port, const char *dir);
  
  
  
      void get_size_and_pos(int64_t *size, int64_t *pos);
  
  
  
      ~FFIOBufferManager2();
  
  };

  The classes methods :

  #include 
  
  #include "FFIOBufferManager2.h"
  
  
  
  #include "LOG.h"
  
  
  
  void FFIOBufferManager2::start(const char *ip, int port, const char *dir) {
  
  
  
      file_write_pos = 0;
  
      file_size = 0;
  
  
  
      udp_write_pos = 0;
  
      udp_size = 0;
  
      avio_read_offset = 0;
  
  
  
      file_thread = std::thread(&FFIOBufferManager2::file_thread_func, this, dir);
  
      udp_thread = std::thread(&FFIOBufferManager2::udp_thread_func, this, ip, port);
  
  
  
      LOGD("Initialising avioContext");
  
  
  
      avioContext = avio_alloc_context((uint8_t*)avio_buffer,
  
                                       AVIO_QUEUE_SIZE * PKT_SIZE7,
  
                                       0,
  
                                       this,
  
                                       avio_read,
  
                                       NULL,
  
                                       avio_seek);
  
  }
  
  
  
  void FFIOBufferManager2::udp_thread_func(FFIOBufferManager2 *io, const char *ip, int port) {
  
  
  
      LOGD("AVIO UDP thread started address %s port %d - %08X", ip, port, (uint)io);
  
  
  
      io->udp_thread_run(ip, port); // run inside class
  
  
  
      LOGD("AVIO UDP thread stopped");
  
  }
  
  
  
  void FFIOBufferManager2::udp_thread_run(const char *ip, int port) {
  
  
  
      std::string addr = ip;
  
  
  
      UDPSocket socket(addr, (uint16_t)port);
  
      socket.joinGroup(addr);
  
  
  
      LOGD("UDP loop starting");
  
  
  
      while (!quit) {
  
  
  
          if (socket.recv(get_udp_buffer(udp_write_pos), PKT_SIZE7) == PKT_SIZE7) {
  
  
  
              udp_mutex.lock();
  
  
  
              udp_write_pos = (udp_write_pos + 1) % UDP_QUEUE_SIZE;
  
              udp_size++;
  
              if (udp_size >= UDP_QUEUE_SIZE) udp_size--;
  
              else avio_read_offset += PKT_SIZE7;
  
  
  
              udp_mutex.unlock();
  
          }
  
      }
  
  }
  
  
  
  void FFIOBufferManager2::file_thread_func(FFIOBufferManager2 *io, const char *dir) {
  
  
  
      LOGD("AVIO FILE thread started");
  
  
  
      std::string file = dir;
  
      const char *tsfile_name = "/tsdata.ts";
  
      file += tsfile_name;
  
  
  
      LOGD("Deleting old file %s", file.c_str());
  
  
  
      remove(file.c_str());
  
  
  
      {
  
          fstream temp; // create the ts file
  
          temp.open(file.c_str());
  
          temp.close();
  
      }
  
  
  
      LOGD("Opening %s for read and write", file.c_str());
  
  
  
      io->file_out.open(file, fstream::out | fstream::binary);
  
      io->file_in.open(file, fstream::in | fstream::binary);
  
  
  
      io->file_thread_run(); // continue inside the class to lessen pointer use
  
  
  
      LOGD("AVIO FILE thread stopped");
  
  }
  
  
  
  void FFIOBufferManager2::file_thread_run() {
  
  
  
      LOGD("FILE thread run");
  
  
  
      if (!file_out.is_open() || !file_in.is_open()) {
  
  
  
          LOGE("TS data file, error opening...");
  
          quit = true;
  
          return;
  
      }
  
  
  
      int udp_threshold = UDP_QUEUE_SIZE - (UDP_THRESHOLD * 4);
  
  
  
      while (!quit) {
  
  
  
          if (udp_size >= udp_threshold) write_udp_overflow();
  
          else usleep(1000 * 1);
  
      }
  
  }
  
  
  
  void FFIOBufferManager2::write_udp_overflow() {
  
  
  
      file_mutex.lock();
  
  
  
      udp_mutex.lock();
  
      int udp_write_pos_current = udp_write_pos;
  
      int udp_size_current = udp_size;
  
      udp_mutex.unlock();
  
  
  
      int udp_index = udp_write_pos_current - udp_size_current;
  
      if (udp_index < 0) udp_index += UDP_QUEUE_SIZE;
  
      int written = 0;
  
  
  
      //file_out.seekp((int64_t)file_write_pos * PKT_SIZE7);
  
  
  
      while (written < UDP_THRESHOLD) {
  
          file_out.write(get_udp_buffer(udp_index), PKT_SIZE7);
  
          written++;
  
          udp_index = (udp_index + 1) % UDP_QUEUE_SIZE;
  
  
  
          file_write_pos++;
  
          if (file_write_pos >= FILE_QUEUE_PKTS) {
  
              file_write_pos = 0;
  
              file_out.seekp(0);
  
          }
  
          file_size++;
  
          if (file_size > FILE_QUEUE_PKTS) file_size = FILE_QUEUE_PKTS;
  
      }
  
  
  
      udp_mutex.lock();
  
      udp_size -= UDP_THRESHOLD; // we've written this amount out
  
      udp_mutex.unlock();
  
  
  
      //file_out.flush();
  
  
  
      file_mutex.unlock();
  
  
  
      //LOGD("Written UDP overflow at %d of %d blocks file size %d",
  
      //     udp_index, written, file_size);
  
  }
  
  
  
  char *FFIOBufferManager2::get_udp_buffer(int index) {
  
      if (index < 0 || index >= UDP_QUEUE_SIZE) return nullptr;
  
      return ((char*)udp_buffer + (index * PKT_SIZE7));
  
  }
  
  
  
  /*
  
   * The avio_read and avio_seek now work on either 188 byte alignment or
  
   * byte alignment for the benefit of ffmpeg - byte positioning at the moment
  
   *
  
   * The file_mutex allows for either a read or write operation at a time
  
   */
  
  
  
  int FFIOBufferManager2::avio_read(void *ptr, uint8_t *buff, int buf_size) {
  
      FFIOBufferManager2 *io = (FFIOBufferManager2*)ptr;
  
      return io->avio_read_run(buff, buf_size);
  
  }
  
  
  
  int64_t FFIOBufferManager2::avio_seek(void *ptr, int64_t pos, int whence) {
  
      FFIOBufferManager2 *io = (FFIOBufferManager2*)ptr;
  
      return io->avio_seek_run(pos, whence);
  
  }
  
  
  
  int FFIOBufferManager2::avio_read_run(uint8_t *buf, int buf_size) {
  
  
  
      file_mutex.lock();
  
      udp_mutex.lock();
  
  
  
      int64_t cur_udp_write_pos = (int64_t) udp_write_pos * PKT_SIZE7;
  
      int64_t cur_udp_size = (int64_t) udp_size * PKT_SIZE7;
  
  
  
      int64_t cur_file_write_pos = (int64_t) file_write_pos * PKT_SIZE7;
  
      int64_t cur_file_size = (int64_t) file_size * PKT_SIZE7;
  
  
  
      int64_t cur_avio_read_offset = avio_read_offset; // already int64_t (under the udp_mutex)
  
  
  
      udp_mutex.unlock();
  
  
  
      if (cur_avio_read_offset < (AVIO_THRESHOLD * 4) * PKT_SIZE7) {
  
          file_mutex.unlock();
  
          return 0;
  
      }
  
  
  
      int64_t udp_buffer_max = (int64_t) (UDP_QUEUE_SIZE * PKT_SIZE7);
  
      int64_t file_buffer_max = (int64_t) (FILE_QUEUE_PKTS * PKT_SIZE7);
  
      uint8_t *ptr_udp_buffer = (uint8_t*)udp_buffer;
  
      int cur_written = 0;
  
  
  
      int file_reads = 0, udp_reads = 0; // for debugging
  
  
  
      int64_t cur_file_offset = cur_file_write_pos - cur_udp_size - cur_avio_read_offset;
  
      while (cur_file_offset < 0) cur_file_offset += file_buffer_max;
  
  
  
      if (cur_file_offset >= 0) {
  
          file_in.seekg(cur_file_offset);
  
  
  
          while (//cur_avio_read_offset > 0
  
                 cur_avio_read_offset > cur_udp_size
  
                 && cur_written < buf_size) { // read from file first
  
  
  
              file_in.read(&avio_buffer[cur_written], PKT_SIZE); // get 1 or 188 byte/s
  
  
  
              cur_file_offset+=PKT_SIZE;
  
              if (cur_file_offset >= file_buffer_max) { // back to file beginning
  
                  cur_file_offset = 0;
  
                  file_in.seekg(0);
  
              }
  
  
  
              cur_avio_read_offset-=PKT_SIZE;
  
  
  
              cur_written+=PKT_SIZE;
  
              file_reads+=PKT_SIZE;
  
          }
  
      }
  
  
  
      int64_t cur_udp_offset = (cur_udp_write_pos - cur_avio_read_offset);
  
      if (cur_udp_offset < 0) cur_udp_offset += udp_buffer_max;
  
  
  
      while (cur_avio_read_offset > AVIO_THRESHOLD * PKT_SIZE7
  
              && cur_avio_read_offset <= cur_udp_size
  
              && cur_written < buf_size) { // read the rest from udp buffer
  
  
  
          buf[cur_written] = ptr_udp_buffer[cur_udp_offset]; // get byte
  
  
  
          cur_udp_offset = (cur_udp_offset + 1) % udp_buffer_max;
  
          if (cur_udp_offset == 0) LOGD("AVIO UDP BUFFER to start");
  
  
  
          cur_avio_read_offset--;
  
  
  
          cur_written++;
  
          udp_reads++;
  
      }
  
  
  
      udp_mutex.lock();
  
      avio_read_offset -= cur_written;
  
      udp_mutex.unlock();
  
  
  
      file_mutex.unlock();
  
  
  
      if (cur_written) {
  
          LOGD("AVIO_READ: Written %d of %d, avio_offset %lld, file reads %d, udp reads %d, udp offset %lld, file offset %lld, file size %lld",
  
               cur_written, buf_size,
  
               cur_avio_read_offset,
  
               file_reads, udp_reads,
  
               cur_udp_write_pos, cur_file_write_pos, cur_file_size);
  
      }
  
  
  
      return cur_written;
  
  }
  
  
  
  int64_t FFIOBufferManager2::avio_seek_run(int64_t pos, int whence) {
  
      // SEEK_SET(0), SEEK_CUR(1), SEEK_END(2), AVSEEK_SIZE
  
  
  
      int64_t new_pos = -1;
  
      int64_t full_length = (udp_size + file_size) * PKT_SIZE7;
  
  
  
      switch (whence) {
  
  
  
          case AVSEEK_SIZE:
  
              LOGD("AVSEEK_SIZE pos %lld", pos);
  
              break;
  
  
  
          case SEEK_SET:
  
              LOGD("AVSEEK_SET pos %lld", pos);
  
              if (pos > full_length) new_pos = full_length;
  
              else new_pos = full_length - pos;
  
              break;
  
  
  
          case SEEK_CUR:
  
              LOGD("AVSEEK_CUR pos %lld", pos);
  
              break;
  
  
  
          case SEEK_END:
  
              LOGD("AVSEEK_END pos %lld", pos);
  
              new_pos = pos;
  
              break;
  
  
  
          default:
  
              LOGD("UNKNOWN AVIO SEEK whence %d pos %lld", whence, pos);
  
              break;
  
      }
  
  
  
      if (new_pos >= 0) {
  
  
  
          udp_mutex.lock();
  
  
  
          new_pos = (new_pos / PKT_SIZE) * PKT_SIZE; // align to packet boundary
  
          avio_read_offset = new_pos;
  
          //file_out.seekg(full_length - new_pos);
  
  
  
          udp_mutex.unlock();
  
  
  
          return full_length - new_pos;
  
      }
  
  
  
      return -1;
  
  }
  
  
  
  FFIOBufferManager2::~FFIOBufferManager2() {
  
      if (avioContext) ;// TODO whoops
  
      quit = true;
  
      if (udp_thread.joinable()) udp_thread.join();
  
      if (file_thread.joinable()) file_thread.join();
  
  }
  
  
  
  void FFIOBufferManager2::get_size_and_pos(int64_t *size, int64_t *pos) {
  
      file_mutex.lock();
  
      udp_mutex.lock();
  
  
  
      *size = (udp_size + file_size) * PKT_SIZE7;
  
      *pos = *size - avio_read_offset;
  
  
  
      udp_mutex.unlock();
  
      file_mutex.unlock();
  
  }

  It’ll play for a few seconds before any of the glitches start to appear. I have checked against the udp_buffer and the avio_buffer, but my suspicions lie with one of two things :

  1. Reading and writing to the file.
  2. the avio_read method is wrong.

  Has anybody got any input as to why this is occurring ? Any thoughts would be greatly appreciated.

  If you need any more information I’ll be glad to provide more details.

  EDIT : Seeking now actually moves to any point within the stream, but now doesn’t read from the file recording. Although that’s only a minor issue at the moment.

  The main two issues still stand, frame rate drops dramatically and the glitches after approximately 8 seconds.