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• Internecine Legal Threats

  1er juin 2011, par Multimedia Mike — Legal/Ethical

  FFmpeg and associated open source multimedia projects such as xine, MPlayer, and VLC have long had a rebel mystique about them ; a bunch of hackers playing fast and loose with IP law in order to give the world the free multimedia experience it deserved. We figured out the algorithms using any tools available, including the feared technique of binary reverse engineering. When I gave a presentation about FFmpeg at Linuxtag in 2007, I created this image illustrating said mystique :

  
  
  

  It garnered laughs. But I made the point that we multimedia hackers just press on, doing our thing while ignoring legal threats. The policy has historically worked out famously for us– to date, I seem to be the only person on the receiving end of a sort-of legal threat from the outside world.

  Who would have thought that the most credible legal threat to an open source multimedia project would emanate from a fork of that very project ? Because that’s exactly what has transpired :

  
  
  Click for full threat
  

  So it came to pass that Michael Niedermayer — the leader of the FFmpeg project — received a bona fide legal nastygram from Mans Rullgard, a representative of the FFmpeg-forked Libav project. The subject of dispute is a scorched-earth matter involving the somewhat iconic FFmpeg zigzag logo :

  Original 2D logo		enhanced 3D logo

  To think of all those years we spent worrying about legal threats from organizations outside the community. I’m reminded of that time-honored horror trope/urban legend staple : Get out ! The legal threats are coming from inside the house !

  I’m interested to see how this all plays out, particularly regarding jurisdiction, as we have a U.K. resident engaging an Italian lawyer outfit to deliver a legal threat to an Austrian citizen regarding an image hosted on a server in Hungary. I suspect I know why that law firm was chosen, but it’s still a curious jurisdictional setup.

  People often used to ask me if we multimedia hackers would get sued to death for doing what we do. My response was always, “There’s only one way to know for sure,” by which I meant that we would just have to engage in said shady activities and determine empirically if lawsuits resulted. So I’m a strong advocate for experimentation to push the limits. Kudos to Michael and Mans for volunteering to push the legal limits.

• Automatic ffmpeg conversion of only completed, fully uploaded files

  8 février 2012, par user374407

  Maybe it would be best to start by describing the scenario.

  We have a Debian server with ffmpeg that we use to covert various video files into FLV.
  The files are supplied by a number of different people via FTP and are kept in the "uploads" folder.

  I need to write a PHP script that would go through all the files in the uploads folder, select the ones which are complete (i.e. not currently being uploaded or without any uploading errors) and then convert them to FLV using ffmpeg.

  I can do the conversion and everything else, but how do I determine whether a file is complete and fully uploaded ?

  Many thanks !

• How to fix a segmentaion fault in a C program ? [closed]

  13 janvier 2012, par ipegasus

  Possible Duplicate :
  Segmentation fault

  Currently I am upgrading an open source program used for HTTP streaming. It needs to support the latest FFMPEG.
  The code compiles fine with no warnings although I am getting a segmentation fault error.
  I would like to know how to fix the issue ? and / or the best way to debug ? Please find attached a portion of the code due to size. I will try to add the project to github :) Thanks in advance !

  Sample Usage

  # segmenter --i out.ts --l 10 --o stream.m3u8 --d segments --f stream

  Makefile

  FFLIBS=`pkg-config --libs libavformat libavcodec libavutil`
  
  FFFLAGS=`pkg-config --cflags libavformat libavcodec libavutil`
  
  
  
  all:
  
      gcc -Wall -g segmenter.c -o segmenter ${FFFLAGS} ${FFLIBS}

  segmenter.c

  /*
  
   * Copyright (c) 2009 Chase Douglas
  
   *
  
   * This program is free software; you can redistribute it and/or
  
   * modify it under the terms of the GNU General Public License version 2
  
   * as published by the Free Software Foundation.
  
   *
  
   * This program is distributed in the hope that it will be useful,
  
   * but WITHOUT ANY WARRANTY; without even the implied warranty of
  
   * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  
   * GNU General Public License for more details.
  
   *
  
   * You should have received a copy of the GNU General Public License
  
   * along with this program; if not, write to the Free Software
  
   * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
  
   */
  
  #include 
  
  #include 
  
  #include 
  
  #include 
  
  #include 
  
  #include "libavformat/avformat.h"
  
  
  
  #include "libavformat/avio.h"
  
  
  
  #include <sys></sys>stat.h>
  
  
  
  #include "segmenter.h"
  
  #include "libavformat/avformat.h"
  
  
  
  #define IMAGE_ID3_SIZE 9171
  
  
  
  void printUsage() {
  
      fprintf(stderr, "\nExample: segmenter --i infile --d baseDir --f baseFileName --o playListFile.m3u8 --l 10 \n");
  
      fprintf(stderr, "\nOptions: \n");
  
      fprintf(stderr, "--i <infile>.\n");
  
      fprintf(stderr, "--o <outfile>.\n");
  
      fprintf(stderr, "--d basedir, the base directory for files.\n");
  
      fprintf(stderr, "--f baseFileName, output files will be baseFileName-#.\n");
  
      fprintf(stderr, "--l segment length, the length of each segment.\n");
  
      fprintf(stderr, "--a,  audio only decode for &lt; 64k streams.\n");
  
      fprintf(stderr, "--v,  video only decode for &lt; 64k streams.\n");
  
      fprintf(stderr, "--version, print version details and exit.\n");
  
      fprintf(stderr, "\n\n");
  
  }
  
  
  
  void ffmpeg_version() {
  
      // output build and version numbers
  
      fprintf(stderr, "  libavutil version:   %s\n", AV_STRINGIFY(LIBAVUTIL_VERSION));
  
      fprintf(stderr, "  libavutil build:     %d\n", LIBAVUTIL_BUILD);
  
      fprintf(stderr, "  libavcodec version:  %s\n", AV_STRINGIFY(LIBAVCODEC_VERSION));
  
      fprintf(stdout, "  libavcodec build:    %d\n", LIBAVCODEC_BUILD);
  
      fprintf(stderr, "  libavformat version: %s\n", AV_STRINGIFY(LIBAVFORMAT_VERSION));
  
      fprintf(stderr, "  libavformat build:   %d\n", LIBAVFORMAT_BUILD);
  
      fprintf(stderr, "  built on " __DATE__ " " __TIME__);
  
  #ifdef __GNUC__
  
      fprintf(stderr, ", gcc: " __VERSION__ "\n");
  
  #else
  
      fprintf(stderr, ", using a non-gcc compiler\n");
  
  #endif
  
  }
  
  
  
  
  
  static AVStream *add_output_stream(AVFormatContext *output_format_context, AVStream *input_stream) {
  
      AVCodecContext *input_codec_context;
  
      AVCodecContext *output_codec_context;
  
      AVStream *output_stream;
  
  
  
      output_stream = avformat_new_stream(output_format_context, 0);
  
      if (!output_stream) {
  
          fprintf(stderr, "Segmenter error: Could not allocate stream\n");
  
          exit(1);
  
      }
  
  
  
      input_codec_context = input_stream->codec;
  
      output_codec_context = output_stream->codec;
  
  
  
      output_codec_context->codec_id = input_codec_context->codec_id;
  
      output_codec_context->codec_type = input_codec_context->codec_type;
  
      output_codec_context->codec_tag = input_codec_context->codec_tag;
  
      output_codec_context->bit_rate = input_codec_context->bit_rate;
  
      output_codec_context->extradata = input_codec_context->extradata;
  
      output_codec_context->extradata_size = input_codec_context->extradata_size;
  
  
  
      if (av_q2d(input_codec_context->time_base) * input_codec_context->ticks_per_frame > av_q2d(input_stream->time_base) &amp;&amp; av_q2d(input_stream->time_base) &lt; 1.0 / 1000) {
  
          output_codec_context->time_base = input_codec_context->time_base;
  
          output_codec_context->time_base.num *= input_codec_context->ticks_per_frame;
  
      } else {
  
          output_codec_context->time_base = input_stream->time_base;
  
      }
  
  
  
      switch (input_codec_context->codec_type) {
  
  #ifdef USE_OLD_FFMPEG
  
          case CODEC_TYPE_AUDIO:
  
  #else
  
          case AVMEDIA_TYPE_AUDIO:
  
  #endif
  
              output_codec_context->channel_layout = input_codec_context->channel_layout;
  
              output_codec_context->sample_rate = input_codec_context->sample_rate;
  
              output_codec_context->channels = input_codec_context->channels;
  
              output_codec_context->frame_size = input_codec_context->frame_size;
  
              if ((input_codec_context->block_align == 1 &amp;&amp; input_codec_context->codec_id == CODEC_ID_MP3) || input_codec_context->codec_id == CODEC_ID_AC3) {
  
                  output_codec_context->block_align = 0;
  
              } else {
  
                  output_codec_context->block_align = input_codec_context->block_align;
  
              }
  
              break;
  
  #ifdef USE_OLD_FFMPEG
  
          case CODEC_TYPE_VIDEO:
  
  #else
  
          case AVMEDIA_TYPE_VIDEO:
  
  #endif
  
              output_codec_context->pix_fmt = input_codec_context->pix_fmt;
  
              output_codec_context->width = input_codec_context->width;
  
              output_codec_context->height = input_codec_context->height;
  
              output_codec_context->has_b_frames = input_codec_context->has_b_frames;
  
  
  
              if (output_format_context->oformat->flags &amp; AVFMT_GLOBALHEADER) {
  
                  output_codec_context->flags |= CODEC_FLAG_GLOBAL_HEADER;
  
              }
  
              break;
  
          default:
  
              break;
  
      }
  
  
  
      return output_stream;
  
  }
  
  
  
  int write_index_file(const char index[], const char tmp_index[], const unsigned int planned_segment_duration, const unsigned int actual_segment_duration[],
  
          const char output_directory[], const char output_prefix[], const char output_file_extension[],
  
          const unsigned int first_segment, const unsigned int last_segment) {
  
      FILE *index_fp;
  
      char *write_buf;
  
      unsigned int i;
  
  
  
      index_fp = fopen(tmp_index, "w");
  
      if (!index_fp) {
  
          fprintf(stderr, "Could not open temporary m3u8 index file (%s), no index file will be created\n", tmp_index);
  
          return -1;
  
      }
  
  
  
      write_buf = malloc(sizeof (char) * 1024);
  
      if (!write_buf) {
  
          fprintf(stderr, "Could not allocate write buffer for index file, index file will be invalid\n");
  
          fclose(index_fp);
  
          return -1;
  
      }
  
  
  
      unsigned int maxDuration = planned_segment_duration;
  
  
  
      for (i = first_segment; i &lt;= last_segment; i++)
  
          if (actual_segment_duration[i] > maxDuration)
  
              maxDuration = actual_segment_duration[i];
  
  
  
  
  
  
  
      snprintf(write_buf, 1024, "#EXTM3U\n#EXT-X-TARGETDURATION:%u\n", maxDuration);
  
  
  
      if (fwrite(write_buf, strlen(write_buf), 1, index_fp) != 1) {
  
          fprintf(stderr, "Could not write to m3u8 index file, will not continue writing to index file\n");
  
          free(write_buf);
  
          fclose(index_fp);
  
          return -1;
  
      }
  
  
  
      for (i = first_segment; i &lt;= last_segment; i++) {
  
          snprintf(write_buf, 1024, "#EXTINF:%u,\n%s-%u%s\n", actual_segment_duration[i], output_prefix, i, output_file_extension);
  
          if (fwrite(write_buf, strlen(write_buf), 1, index_fp) != 1) {
  
              fprintf(stderr, "Could not write to m3u8 index file, will not continue writing to index file\n");
  
              free(write_buf);
  
              fclose(index_fp);
  
              return -1;
  
          }
  
      }
  
  
  
      snprintf(write_buf, 1024, "#EXT-X-ENDLIST\n");
  
      if (fwrite(write_buf, strlen(write_buf), 1, index_fp) != 1) {
  
          fprintf(stderr, "Could not write last file and endlist tag to m3u8 index file\n");
  
          free(write_buf);
  
          fclose(index_fp);
  
          return -1;
  
      }
  
  
  
      free(write_buf);
  
      fclose(index_fp);
  
  
  
      return rename(tmp_index, index);
  
  }
  
  
  
  int main(int argc, const char *argv[]) {
  
      //input parameters
  
      char inputFilename[MAX_FILENAME_LENGTH], playlistFilename[MAX_FILENAME_LENGTH], baseDirName[MAX_FILENAME_LENGTH], baseFileName[MAX_FILENAME_LENGTH];
  
      char baseFileExtension[5]; //either "ts", "aac" or "mp3"
  
      int segmentLength, outputStreams, verbosity, version;
  
  
  
  
  
  
  
      char currentOutputFileName[MAX_FILENAME_LENGTH];
  
      char tempPlaylistName[MAX_FILENAME_LENGTH];
  
  
  
  
  
      //these are used to determine the exact length of the current segment
  
      double prev_segment_time = 0;
  
      double segment_time;
  
      unsigned int actual_segment_durations[2048];
  
      double packet_time = 0;
  
  
  
      //new variables to keep track of output size
  
      double output_bytes = 0;
  
  
  
      unsigned int output_index = 1;
  
      AVOutputFormat *ofmt;
  
      AVFormatContext *ic = NULL;
  
      AVFormatContext *oc;
  
      AVStream *video_st = NULL;
  
      AVStream *audio_st = NULL;
  
      AVCodec *codec;
  
      int video_index;
  
      int audio_index;
  
      unsigned int first_segment = 1;
  
      unsigned int last_segment = 0;
  
      int write_index = 1;
  
      int decode_done;
  
      int ret;
  
      int i;
  
  
  
      unsigned char id3_tag[128];
  
      unsigned char * image_id3_tag;
  
  
  
      size_t id3_tag_size = 73;
  
      int newFile = 1; //a boolean value to flag when a new file needs id3 tag info in it
  
  
  
      if (parseCommandLine(inputFilename, playlistFilename, baseDirName, baseFileName, baseFileExtension, &amp;outputStreams, &amp;segmentLength, &amp;verbosity, &amp;version, argc, argv) != 0)
  
          return 0;
  
  
  
      if (version) {
  
          ffmpeg_version();
  
          return 0;
  
      }
  
  
  
  
  
      fprintf(stderr, "%s %s\n", playlistFilename, tempPlaylistName);
  
  
  
  
  
      image_id3_tag = malloc(IMAGE_ID3_SIZE);
  
      if (outputStreams == OUTPUT_STREAM_AUDIO)
  
          build_image_id3_tag(image_id3_tag);
  
      build_id3_tag((char *) id3_tag, id3_tag_size);
  
  
  
      snprintf(tempPlaylistName, strlen(playlistFilename) + strlen(baseDirName) + 1, "%s%s", baseDirName, playlistFilename);
  
      strncpy(playlistFilename, tempPlaylistName, strlen(tempPlaylistName));
  
      strncpy(tempPlaylistName, playlistFilename, MAX_FILENAME_LENGTH);
  
      strncat(tempPlaylistName, ".", 1);
  
  
  
      //decide if this is an aac file or a mpegts file.
  
      //postpone deciding format until later
  
      /*  ifmt = av_find_input_format("mpegts");
  
      if (!ifmt) 
  
      {
  
      fprintf(stderr, "Could not find MPEG-TS demuxer.\n");
  
      exit(1);
  
      } */
  
  
  
      av_log_set_level(AV_LOG_DEBUG);
  
  
  
      av_register_all();
  
      ret = avformat_open_input(&amp;ic, inputFilename, NULL, NULL);
  
      if (ret != 0) {
  
          fprintf(stderr, "Could not open input file %s. Error %d.\n", inputFilename, ret);
  
          exit(1);
  
      }
  
  
  
      if (avformat_find_stream_info(ic, NULL) &lt; 0) {
  
          fprintf(stderr, "Could not read stream information.\n");
  
          exit(1);
  
      }
  
  
  
      oc = avformat_alloc_context();
  
      if (!oc) {
  
          fprintf(stderr, "Could not allocate output context.");
  
          exit(1);
  
      }
  
  
  
      video_index = -1;
  
      audio_index = -1;
  
  
  
      for (i = 0; i &lt; ic->nb_streams &amp;&amp; (video_index &lt; 0 || audio_index &lt; 0); i++) {
  
          switch (ic->streams[i]->codec->codec_type) {
  
  
  
  #ifdef USE_OLD_FFMPEG
  
              case CODEC_TYPE_VIDEO:
  
  #else
  
              case AVMEDIA_TYPE_VIDEO:
  
  #endif
  
                  video_index = i;
  
                  ic->streams[i]->discard = AVDISCARD_NONE;
  
                  if (outputStreams &amp; OUTPUT_STREAM_VIDEO)
  
                      video_st = add_output_stream(oc, ic->streams[i]);
  
                  break;
  
  #ifdef USE_OLD_FFMPEG
  
              case CODEC_TYPE_AUDIO:
  
  #else
  
              case AVMEDIA_TYPE_AUDIO:
  
  #endif
  
                  audio_index = i;
  
                  ic->streams[i]->discard = AVDISCARD_NONE;
  
                  if (outputStreams &amp; OUTPUT_STREAM_AUDIO)
  
                      audio_st = add_output_stream(oc, ic->streams[i]);
  
                  break;
  
              default:
  
                  ic->streams[i]->discard = AVDISCARD_ALL;
  
                  break;
  
          }
  
      }
  
  
  
      if (video_index == -1) {
  
          fprintf(stderr, "Stream must have video component.\n");
  
          exit(1);
  
      }
  
  
  
      //now that we know the audio and video output streams
  
      //we can decide on an output format.
  
      if (outputStreams == OUTPUT_STREAM_AUDIO) {
  
          //the audio output format should be the same as the audio input format
  
          switch (ic->streams[audio_index]->codec->codec_id) {
  
              case CODEC_ID_MP3:
  
                  fprintf(stderr, "Setting output audio to mp3.");
  
                  strncpy(baseFileExtension, ".mp3", strlen(".mp3"));
  
                  ofmt = av_guess_format("mp3", NULL, NULL);
  
                  break;
  
              case CODEC_ID_AAC:
  
                  fprintf(stderr, "Setting output audio to aac.");
  
                  ofmt = av_guess_format("adts", NULL, NULL);
  
                  break;
  
              default:
  
                  fprintf(stderr, "Codec id %d not supported.\n", ic->streams[audio_index]->id);
  
          }
  
          if (!ofmt) {
  
              fprintf(stderr, "Could not find audio muxer.\n");
  
              exit(1);
  
          }
  
      } else {
  
          ofmt = av_guess_format("mpegts", NULL, NULL);
  
          if (!ofmt) {
  
              fprintf(stderr, "Could not find MPEG-TS muxer.\n");
  
              exit(1);
  
          }
  
      }
  
      oc->oformat = ofmt;
  
  
  
      if (outputStreams &amp; OUTPUT_STREAM_VIDEO &amp;&amp; oc->oformat->flags &amp; AVFMT_GLOBALHEADER) {
  
          oc->flags |= CODEC_FLAG_GLOBAL_HEADER;
  
      }
  
  
  
  
  
      /*  Deprecated: pass the options to avformat_write_header directly. 
  
          if (av_set_parameters(oc, NULL) &lt; 0) {
  
              fprintf(stderr, "Invalid output format parameters.\n");
  
              exit(1);
  
          }
  
       */
  
  
  
      av_dump_format(oc, 0, baseFileName, 1);
  
  
  
  
  
      //open the video codec only if there is video data
  
      if (video_index != -1) {
  
          if (outputStreams &amp; OUTPUT_STREAM_VIDEO)
  
              codec = avcodec_find_decoder(video_st->codec->codec_id);
  
          else
  
              codec = avcodec_find_decoder(ic->streams[video_index]->codec->codec_id);
  
          if (!codec) {
  
              fprintf(stderr, "Could not find video decoder, key frames will not be honored.\n");
  
          }
  
  
  
          if (outputStreams &amp; OUTPUT_STREAM_VIDEO)
  
              ret = avcodec_open2(video_st->codec, codec, NULL);
  
          else
  
              avcodec_open2(ic->streams[video_index]->codec, codec, NULL);
  
          if (ret &lt; 0) {
  
              fprintf(stderr, "Could not open video decoder, key frames will not be honored.\n");
  
          }
  
      }
  
  
  
      snprintf(currentOutputFileName, strlen(baseDirName) + strlen(baseFileName) + strlen(baseFileExtension) + 10, "%s%s-%u%s", baseDirName, baseFileName, output_index++, baseFileExtension);
  
  
  
      if (avio_open(&amp;oc->pb, currentOutputFileName, URL_WRONLY) &lt; 0) {
  
          fprintf(stderr, "Could not open &#39;%s&#39;.\n", currentOutputFileName);
  
          exit(1);
  
      }
  
      newFile = 1;
  
  
  
      int r = avformat_write_header(oc,NULL);
  
      if (r) {
  
          fprintf(stderr, "Could not write mpegts header to first output file.\n");
  
          debugReturnCode(r);
  
          exit(1);
  
      }
  
  
  
      //no segment info is written here. This just creates the shell of the playlist file
  
      write_index = !write_index_file(playlistFilename, tempPlaylistName, segmentLength, actual_segment_durations, baseDirName, baseFileName, baseFileExtension, first_segment, last_segment);
  
  
  
      do {
  
          AVPacket packet;
  
  
  
          decode_done = av_read_frame(ic, &amp;packet);
  
  
  
          if (decode_done &lt; 0) {
  
              break;
  
          }
  
  
  
          if (av_dup_packet(&amp;packet) &lt; 0) {
  
              fprintf(stderr, "Could not duplicate packet.");
  
              av_free_packet(&amp;packet);
  
              break;
  
          }
  
  
  
          //this time is used to check for a break in the segments
  
          //  if (packet.stream_index == video_index &amp;&amp; (packet.flags &amp; PKT_FLAG_KEY)) 
  
          //  {
  
          //    segment_time = (double)video_st->pts.val * video_st->time_base.num / video_st->time_base.den;         
  
          //  }
  
  #if USE_OLD_FFMPEG
  
          if (packet.stream_index == video_index &amp;&amp; (packet.flags &amp; PKT_FLAG_KEY))
  
  #else
  
          if (packet.stream_index == video_index &amp;&amp; (packet.flags &amp; AV_PKT_FLAG_KEY))
  
  #endif
  
          {
  
              segment_time = (double) packet.pts * ic->streams[video_index]->time_base.num / ic->streams[video_index]->time_base.den;
  
          }
  
          //  else if (video_index &lt; 0) 
  
          //  {
  
          //      segment_time = (double)audio_st->pts.val * audio_st->time_base.num / audio_st->time_base.den;
  
          //  }
  
  
  
          //get the most recent packet time
  
          //this time is used when the time for the final segment is printed. It may not be on the edge of
  
          //of a keyframe!
  
          if (packet.stream_index == video_index)
  
              packet_time = (double) packet.pts * ic->streams[video_index]->time_base.num / ic->streams[video_index]->time_base.den; //(double)video_st->pts.val * video_st->time_base.num / video_st->time_base.den;
  
          else if (outputStreams &amp; OUTPUT_STREAM_AUDIO)
  
              packet_time = (double) audio_st->pts.val * audio_st->time_base.num / audio_st->time_base.den;
  
          else
  
              continue;
  
          //start looking for segment splits for videos one half second before segment duration expires. This is because the 
  
          //segments are split on key frames so we cannot expect all segments to be split exactly equally. 
  
          if (segment_time - prev_segment_time >= segmentLength - 0.5) {
  
              fprintf(stderr, "looking to print index file at time %lf\n", segment_time);
  
              avio_flush(oc->pb);
  
              avio_close(oc->pb);
  
  
  
              if (write_index) {
  
                  actual_segment_durations[++last_segment] = (unsigned int) rint(segment_time - prev_segment_time);
  
                  write_index = !write_index_file(playlistFilename, tempPlaylistName, segmentLength, actual_segment_durations, baseDirName, baseFileName, baseFileExtension, first_segment, last_segment);
  
                  fprintf(stderr, "Writing index file at time %lf\n", packet_time);
  
              }
  
  
  
              struct stat st;
  
              stat(currentOutputFileName, &amp;st);
  
              output_bytes += st.st_size;
  
  
  
              snprintf(currentOutputFileName, strlen(baseDirName) + strlen(baseFileName) + strlen(baseFileExtension) + 10, "%s%s-%u%s", baseDirName, baseFileName, output_index++, baseFileExtension);
  
              if (avio_open(&amp;oc->pb, currentOutputFileName, URL_WRONLY) &lt; 0) {
  
                  fprintf(stderr, "Could not open &#39;%s&#39;\n", currentOutputFileName);
  
                  break;
  
              }
  
  
  
              newFile = 1;
  
              prev_segment_time = segment_time;
  
          }
  
  
  
          if (outputStreams == OUTPUT_STREAM_AUDIO &amp;&amp; packet.stream_index == audio_index) {
  
              if (newFile &amp;&amp; outputStreams == OUTPUT_STREAM_AUDIO) {
  
                  //add id3 tag info
  
                  //fprintf(stderr, "adding id3tag to file %s\n", currentOutputFileName);
  
                  //printf("%lf %lld %lld %lld %lld %lld %lf\n", segment_time, audio_st->pts.val, audio_st->cur_dts, audio_st->cur_pkt.pts, packet.pts, packet.dts, packet.dts * av_q2d(ic->streams[audio_index]->time_base) );
  
                  fill_id3_tag((char*) id3_tag, id3_tag_size, packet.dts);
  
                  avio_write(oc->pb, id3_tag, id3_tag_size);
  
                  avio_write(oc->pb, image_id3_tag, IMAGE_ID3_SIZE);
  
                  avio_flush(oc->pb);
  
                  newFile = 0;
  
              }
  
  
  
              packet.stream_index = 0; //only one stream in audio only segments
  
              ret = av_interleaved_write_frame(oc, &amp;packet);
  
          } else if (outputStreams &amp; OUTPUT_STREAM_VIDEO) {
  
              if (newFile) {
  
                  //fprintf(stderr, "New File: %lld %lld %lld\n", packet.pts, video_st->pts.val, audio_st->pts.val);
  
                  //printf("%lf %lld %lld %lld %lld %lld %lf\n", segment_time, audio_st->pts.val, audio_st->cur_dts, audio_st->cur_pkt.pts, packet.pts, packet.dts, packet.dts * av_q2d(ic->streams[audio_index]->time_base) );
  
                  newFile = 0;
  
              }
  
              if (outputStreams == OUTPUT_STREAM_VIDEO)
  
                  ret = av_write_frame(oc, &amp;packet);
  
              else
  
                  ret = av_interleaved_write_frame(oc, &amp;packet);
  
          }
  
  
  
          if (ret &lt; 0) {
  
              fprintf(stderr, "Warning: Could not write frame of stream.\n");
  
          } else if (ret > 0) {
  
              fprintf(stderr, "End of stream requested.\n");
  
              av_free_packet(&amp;packet);
  
              break;
  
          }
  
  
  
          av_free_packet(&amp;packet);
  
      } while (!decode_done);
  
  
  
      //make sure all packets are written and then close the last file. 
  
      avio_flush(oc->pb);
  
      av_write_trailer(oc);
  
  
  
      if (video_st &amp;&amp; video_st->codec)
  
          avcodec_close(video_st->codec);
  
  
  
      if (audio_st &amp;&amp; audio_st->codec)
  
          avcodec_close(audio_st->codec);
  
  
  
      for (i = 0; i &lt; oc->nb_streams; i++) {
  
          av_freep(&amp;oc->streams[i]->codec);
  
          av_freep(&amp;oc->streams[i]);
  
      }
  
  
  
      avio_close(oc->pb);
  
      av_free(oc);
  
  
  
      struct stat st;
  
      stat(currentOutputFileName, &amp;st);
  
      output_bytes += st.st_size;
  
  
  
  
  
      if (write_index) {
  
          actual_segment_durations[++last_segment] = (unsigned int) rint(packet_time - prev_segment_time);
  
  
  
          //make sure that the last segment length is not zero
  
          if (actual_segment_durations[last_segment] == 0)
  
              actual_segment_durations[last_segment] = 1;
  
  
  
          write_index_file(playlistFilename, tempPlaylistName, segmentLength, actual_segment_durations, baseDirName, baseFileName, baseFileExtension, first_segment, last_segment);
  
  
  
      }
  
  
  
      write_stream_size_file(baseDirName, baseFileName, output_bytes * 8 / segment_time);
  
  
  
      return 0;
  
  }
  
  </outfile></infile>