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• ffmpeg takes too long to start

  17 octobre 2020, par Suspended

  I have this command in python script, in a loop :

  


  ffmpeg -i somefile.mp4 -ss 00:03:12 -t 00:00:35 piece.mp4 -loglevel error -stats


  


  It cuts out pieces of input file (-i). Input filename, as well as start time (-ss) and length of the piece I cut out (-t) varies, so it reads number of mp4 files and cuts out number of pieces from each one. During execution of the script it might be called around 100 times. My problem is that each time before it starts, there is a delay of 6-15 seconds and it adds up to significant time. How can I get it to start immediately ?

  


  Initially I thought it was process priority problem, but I noticed that even during the "pause", all processors work at 100%, so apparently some work is being done.

  


  The script (process_videos.py) :
  

  


  import subprocess
import sys
import math
import time

class TF:
    """TimeFormatter class (TF).
This class' reason for being is to convert time in short
form, e.g. 1:33, 0:32, or 23 into long form accepted by
mp4cut function in bash, e.g. 00:01:22, 00:00:32, etc"""

def toLong(self, shrt):
    """Converts time to its long form"""
    sx = '00:00:00'
    ladd = 8 - len(shrt)
    n = sx[:ladd] + shrt
    return n

def toShort(self, lng):
    """Converts time to short form"""
    if lng[0] == '0' or lng[0] == ':':
        return self.toShort(lng[1:])
    else:
        return lng

def toSeconds(self, any_time):
    """Converts time to seconds"""
    if len(any_time) < 3:
        return int(any_time)
    tt = any_time.split(':')
    if len(any_time) < 6:            
        return int(tt[0])*60 + int(tt[1])
    return int(tt[0])*3600 + int(tt[1])*60 + int(tt[2])

def toTime(self, secsInt):
    """"""
    tStr = ''
    hrs, mins, secs = 0, 0, 0
    if secsInt >= 3600:
        hrs = math.floor(secsInt / 3600)
        secsInt = secsInt % 3600
    if secsInt >= 60:
        mins = math.floor(secsInt / 60)
        secsInt = secsInt % 60
    secs = secsInt
    return str(hrs).zfill(2) + ':' + str(mins).zfill(2) + ':' + str(secs).zfill(2)

def minus(self, t_start, t_end):
    """"""
    t_e = self.toSeconds(t_end)
    t_s = self.toSeconds(t_start)
    t_r = t_e - t_s
    hrs, mins, secs = 0, 0, 0
    if t_r >= 3600:
        hrs = math.floor(t_r / 3600)
        t_r = t_r - (hrs * 3600)
    if t_r >= 60:
        mins = math.floor(t_r / 60)
        t_r = t_r - (mins * 60)
    secs = t_r
    hrsf = str(hrs).zfill(2)
    minsf = str(mins).zfill(2)
    secsf = str(secs).zfill(2)
    t_fnl = hrsf + ':' + minsf + ':' + secsf
    return t_fnl

def go_main():
    tf = TF()
    vid_n = 0
    arglen = len(sys.argv)
    if arglen == 2:
        with open(sys.argv[1], 'r') as f_in:
            lines = f_in.readlines()
            start = None
            end = None
            cnt = 0
            for line in lines:
                if line[:5] == 'BEGIN':
                    start = cnt
                if line[:3] == 'END':
                    end = cnt
                cnt += 1
            if start == None or end == None:
                print('Invalid file format. start = {}, end = {}'.format(start,end))
                return
            else:
                lines_r = lines[start+1:end]
                del lines
                print('videos to process: {}'.format(len(lines_r)))
                f_out_prefix = ""
                for vid in lines_r:
                     vid_n += 1
                    print('\nProcessing video {}/{}'.format(vid_n, len(lines_r)))
                    f_out_prefix = 'v' + str(vid_n) + '-'
                    dat = vid.split('!')[1:3]
                    title = dat[0]
                    dat_t = dat[1].split(',')
                    v_pieces = len(dat_t)
                    piece_n = 0
                    video_pieces = []
                    cmd1 = "echo -n \"\" > tmpfile"
                    subprocess.run(cmd1, shell=True)                    
                    print('  new tmpfile created')
                    for v_times in dat_t:
                        piece_n += 1
                        f_out = f_out_prefix + str(piece_n) + '.mp4'
                        video_pieces.append(f_out)
                        print('  piece filename {} added to video_pieces list'.format(f_out))
                        v_times_spl = v_times.split('-')
                        v_times_start = v_times_spl[0]
                        v_times_end = v_times_spl[1]
                        t_st = tf.toLong(v_times_start)
                        t_dur = tf.toTime(tf.toSeconds(v_times_end) - tf.toSeconds(v_times_start))
                        cmd3 = ["ffmpeg", "-i", title, "-ss", t_st, "-t", t_dur, f_out, "-loglevel", "error", "-stats"]
                        print('  cutting out piece {}/{} - {}'.format(piece_n, len(dat_t), t_dur))
                        subprocess.run(cmd3)
                    for video_piece_name in video_pieces:
                        cmd4 = "echo \"file " + video_piece_name + "\" >> tmpfile"
                        subprocess.run(cmd4, shell=True)
                        print('  filename {} added to tmpfile'.format(video_piece_name))
                    vname = f_out_prefix[:-1] + ".mp4"
                    print('  name of joined file: {}'.format(vname))
                    cmd5 = "ffmpeg -f concat -safe 0 -i tmpfile -c copy joined.mp4 -loglevel error -stats"
                    to_be_joined = " ".join(video_pieces)
                    print('  joining...')
                    join_cmd = subprocess.Popen(cmd5, shell=True)
                    join_cmd.wait()
                    print('  joined!')
                    cmd6 = "mv joined.mp4 " + vname
                    rename_cmd = subprocess.Popen(cmd6, shell=True)
                    rename_cmd.wait()
                    print('  File joined.mp4 renamed to {}'.format(vname))
                    cmd7 = "rm " + to_be_joined
                    rm_cmd = subprocess.Popen(cmd7, shell=True)
                    rm_cmd.wait()
                    print('rm command completed - pieces removed')
                cmd8 = "rm tmpfile"
                subprocess.run(cmd8, shell=True)
                print('tmpfile removed')
                print('All done')
    else:
        print('Incorrect number of arguments')

############################
if __name__ == '__main__':
    go_main()


  


  process_videos.py is called from bash terminal like this :

  


  $ python process_videos.py video_data   


  


  video_data file has the following format :

  


  BEGIN
!first_video.mp4!3-23,55-1:34,2:01-3:15,3:34-3:44!
!second_video.mp4!2-7,12-44,1:03-1:33!
END


  


  My system details :

  


  System:    Host: snowflake Kernel: 5.4.0-52-generic x86_64 bits: 64 Desktop: Gnome 3.28.4
           Distro: Ubuntu 18.04.5 LTS
Machine:   Device: desktop System: Gigabyte product: N/A serial: N/A
Mobo:      Gigabyte model: Z77-D3H v: x.x serial: N/A BIOS: American Megatrends v: F14 date: 05/31/2012
CPU:       Quad core Intel Core i5-3570 (-MCP-) cache: 6144 KB 
           clock speeds: max: 3800 MHz 1: 1601 MHz 2: 1601 MHz 3: 1601 MHz 4: 1602 MHz
Drives:    HDD Total Size: 1060.2GB (55.2% used)
           ID-1: /dev/sda model: ST31000524AS size: 1000.2GB
           ID-2: /dev/sdb model: Corsair_Force_GT size: 60.0GB
Partition: ID-1: / size: 366G used: 282G (82%) fs: ext4 dev: /dev/sda1
           ID-2: swap-1 size: 0.70GB used: 0.00GB (0%) fs: swap dev: /dev/sda5
Info:      Processes: 313 Uptime: 16:37 Memory: 3421.4/15906.9MB Client: Shell (bash) inxi: 2.3.56


  

  


  UPDATE :

  


  Following Charles' advice, I used performance sampling :

  


  # perf record -a -g sleep 180


  


  ...and here's the report :

  


  Samples: 74K of event 'cycles', Event count (approx.): 1043554519767
  Children      Self  Command          Shared Object
-   50.56%    45.86%  ffmpeg           libavcodec.so.57.107.100                                                                                
   - 3.10% 0x4489480000002825                                                                                                                  
       0.64% 0x7ffaf24b92f0                                                                                                                   
   - 2.12% 0x5f7369007265646f                                                                                                                  
       av_default_item_name                                                                                                                   
     1.39% 0                                                                                                                                   
-   44.48%    40.59%  ffmpeg           libx264.so.152                                                                                          
     5.78% x264_add8x8_idct_avx2.skip_prologue                                                                                                 
     3.13% x264_add8x8_idct_avx2.skip_prologue                                                                                                 
     2.91% x264_add8x8_idct_avx2.skip_prologue                                                                                                 
     2.31% x264_add8x8_idct_avx.skip_prologue                                                                                                  
     2.03% 0                                                                                                                                   
     1.78% 0x1                                                                                                                                 
     1.26% x264_add8x8_idct_avx2.skip_prologue                                                                                                 
     1.09% x264_add8x8_idct_avx.skip_prologue                                                                                                  
     1.06% x264_me_search_ref                                                                                                                  
     0.97% x264_add8x8_idct_avx.skip_prologue                                                                                                  
     0.60% x264_me_search_ref                                                                                                                  
-   38.01%     0.00%  ffmpeg           [unknown]                                                                                               
     4.10% 0                                                                                                                                   
   - 3.49% 0x4489480000002825                                                                                                                  
        0.70% 0x7ffaf24b92f0                                                                                                                   
        0.56% 0x7f273ae822f0                                                                                                                   
        0.50% 0x7f0c4768b2f0                                                                                                                   
   - 2.29% 0x5f7369007265646f                                                                                                                  
        av_default_item_name                                                                                                                   
     1.99% 0x1                                                                                                                                 
    10.13%    10.12%  ffmpeg           [kernel.kallsyms]                                                                                       
-    3.14%     0.73%  ffmpeg           libavutil.so.55.78.100                                                                                  
     2.34% av_default_item_name                                                                                                                
-    1.73%     0.21%  ffmpeg           libpthread-2.27.so                                                                                      
   - 0.70% pthread_cond_wait@@GLIBC_2.3.2                                                                                                      
      - 0.62% entry_SYSCALL_64_after_hwframe                                                                                                   
         - 0.62% do_syscall_64                                                                                                                 
            - 0.57% __x64_sys_futex                                                                                                            
                 0.52% do_futex                                                                                                                
     0.93%     0.89%  ffmpeg           libc-2.27.so                                                                                            
-    0.64%     0.64%  swapper          [kernel.kallsyms]                                                                                       
     0.63% secondary_startup_64                                                                                                                
     0.21%     0.18%  ffmpeg           libavfilter.so.6.107.100                                                                                
     0.20%     0.11%  ffmpeg           libavformat.so.57.83.100                                                                                
     0.12%     0.11%  ffmpeg           ffmpeg                                                                                                  
     0.11%     0.00%  gnome-terminal-  [unknown]                                                                                               
     0.09%     0.07%  ffmpeg           libm-2.27.so                                                                                            
     0.08%     0.07%  ffmpeg           ld-2.27.so                                                                                              
     0.04%     0.04%  gnome-terminal-  libglib-2.0.so.0.5600.4


  


  


• How to new & delete AVPacket ?

  18 octobre 2020, par PatrickSCLin

  I'm working with a FFmpeg project right now, I have to store the data of AVPacket which from av_read_frame, and fill data to new AVPacket for following decoding.

  


  Here is my problem : when I try to new & free an AVPacket, memory leaks always happen.

  


  I am just doing a simple testing :

  


  for(;;) {
    AVPacket pkt;
    av_new_packet(&pkt, 1000);
    av_init_packet(&pkt);
    av_free_packet(&pkt);
}


  


  What am I doing wrong ?

  


• How to play and seek fragmented MP4 audio using MSE SourceBuffer ?

  29 juin 2024, par Stefan Falk

  Note :

  


  


  If you end up here, you might want to take a look at shaka-player and the accompanying shaka-streamer. Use it. Don't implement this yourself unless you really have to.

  


  


  I am trying for quite some time now to be able to play an audio track on Chrome, Firefox, Safari, etc. but I keep hitting brick walls. My problem is currently that I am just not able to seek within a fragmented MP4 (or MP3).

  


  At the moment I am converting audio files such as MP3 to fragmented MP4 (fMP4) and send them chunk-wise to the client. What I do is defining a CHUNK_DURACTION_SEC (chunk duration in seconds) and compute a chunk size like this :

  


  chunksTotal = Math.ceil(this.track.duration / CHUNK_DURATION_SEC);
chunkSize = Math.ceil(this.track.fileSize / this.chunksTotal);


  


  With this I partition the audio file and can fetch it entirely jumping chunkSize-many bytes for each chunk :

  


  -----------------------------------------
| chunk 1 | chunk 2 |   ...   | chunk n |
-----------------------------------------


  


  How audio files are converted to fMP4

  


  ffmpeg -i input.mp3 -acodec aac -b:a 256k -f mp4 \
       -movflags faststart+frag_every_frame+empty_moov+default_base_moof \
        output.mp4


  


  This seems to work with Chrome and Firefox (so far).

  


  How chunks are appended

  


  After following this example, and realizing that it's simply not working as it is explained here, I threw it away and started over from scratch. Unfortunately without success. It's still not working.

  


  The following code is supposed to play a track from the very beginning to the very end. However, I also need to be able to seek. So far, this is simply not working. Seeking will just stop the audio after the seeking event got triggered.

  


  The code

  


  /* Desired chunk duration in seconds. */&#xA;const CHUNK_DURATION_SEC = 20;&#xA;&#xA;const AUDIO_EVENTS = [&#xA;  &#x27;ended&#x27;,&#xA;  &#x27;error&#x27;,&#xA;  &#x27;play&#x27;,&#xA;  &#x27;playing&#x27;,&#xA;  &#x27;seeking&#x27;,&#xA;  &#x27;seeked&#x27;,&#xA;  &#x27;pause&#x27;,&#xA;  &#x27;timeupdate&#x27;,&#xA;  &#x27;canplay&#x27;,&#xA;  &#x27;loadedmetadata&#x27;,&#xA;  &#x27;loadstart&#x27;,&#xA;  &#x27;updateend&#x27;,&#xA;];&#xA;&#xA;&#xA;class ChunksLoader {&#xA;&#xA;  /** The total number of chunks for the track. */&#xA;  public readonly chunksTotal: number;&#xA;&#xA;  /** The length of one chunk in bytes */&#xA;  public readonly chunkSize: number;&#xA;&#xA;  /** Keeps track of requested chunks. */&#xA;  private readonly requested: boolean[];&#xA;&#xA;  /** URL of endpoint for fetching audio chunks. */&#xA;  private readonly url: string;&#xA;&#xA;  constructor(&#xA;    private track: Track,&#xA;    private sourceBuffer: SourceBuffer,&#xA;    private logger: NGXLogger,&#xA;  ) {&#xA;&#xA;    this.chunksTotal = Math.ceil(this.track.duration / CHUNK_DURATION_SEC);&#xA;    this.chunkSize = Math.ceil(this.track.fileSize / this.chunksTotal);&#xA;&#xA;    this.requested = [];&#xA;    for (let i = 0; i &lt; this.chunksTotal; i&#x2B;&#x2B;) {&#xA;      this.requested[i] = false;&#xA;    }&#xA;&#xA;    this.url = `${environment.apiBaseUrl}/api/tracks/${this.track.id}/play`;&#xA;  }&#xA;&#xA;  /**&#xA;   * Fetch the first chunk.&#xA;   */&#xA;  public begin() {&#xA;    this.maybeFetchChunk(0);&#xA;  }&#xA;&#xA;  /**&#xA;   * Handler for the "timeupdate" event. Checks if the next chunk should be fetched.&#xA;   *&#xA;   * @param currentTime&#xA;   *  The current time of the track which is currently played.&#xA;   */&#xA;  public handleOnTimeUpdate(currentTime: number) {&#xA;&#xA;    const nextChunkIndex = Math.floor(currentTime / CHUNK_DURATION_SEC) &#x2B; 1;&#xA;    const hasAllChunks = this.requested.every(val => !!val);&#xA;&#xA;    if (nextChunkIndex === (this.chunksTotal - 1) &amp;&amp; hasAllChunks) {&#xA;      this.logger.debug(&#x27;Last chunk. Calling mediaSource.endOfStream();&#x27;);&#xA;      return;&#xA;    }&#xA;&#xA;    if (this.requested[nextChunkIndex] === true) {&#xA;      return;&#xA;    }&#xA;&#xA;    if (currentTime &lt; CHUNK_DURATION_SEC * (nextChunkIndex - 1 &#x2B; 0.25)) {&#xA;      return;&#xA;    }&#xA;&#xA;    this.maybeFetchChunk(nextChunkIndex);&#xA;  }&#xA;&#xA;  /**&#xA;   * Fetches the chunk if it hasn&#x27;t been requested yet. After the request finished, the returned&#xA;   * chunk gets appended to the SourceBuffer-instance.&#xA;   *&#xA;   * @param chunkIndex&#xA;   *  The chunk to fetch.&#xA;   */&#xA;  private maybeFetchChunk(chunkIndex: number) {&#xA;&#xA;    const start = chunkIndex * this.chunkSize;&#xA;    const end = start &#x2B; this.chunkSize - 1;&#xA;&#xA;    if (this.requested[chunkIndex] == true) {&#xA;      return;&#xA;    }&#xA;&#xA;    this.requested[chunkIndex] = true;&#xA;&#xA;    if ((end - start) == 0) {&#xA;      this.logger.warn(&#x27;Nothing to fetch.&#x27;);&#xA;      return;&#xA;    }&#xA;&#xA;    const totalKb = ((end - start) / 1000).toFixed(2);&#xA;    this.logger.debug(`Starting to fetch bytes ${start} to ${end} (total ${totalKb} kB). Chunk ${chunkIndex &#x2B; 1} of ${this.chunksTotal}`);&#xA;&#xA;    const xhr = new XMLHttpRequest();&#xA;    xhr.open(&#x27;get&#x27;, this.url);&#xA;    xhr.setRequestHeader(&#x27;Authorization&#x27;, `Bearer ${AuthenticationService.getJwtToken()}`);&#xA;    xhr.setRequestHeader(&#x27;Range&#x27;, &#x27;bytes=&#x27; &#x2B; start &#x2B; &#x27;-&#x27; &#x2B; end);&#xA;    xhr.responseType = &#x27;arraybuffer&#x27;;&#xA;    xhr.onload = () => {&#xA;      this.logger.debug(`Range ${start} to ${end} fetched`);&#xA;      this.logger.debug(`Requested size:        ${end - start &#x2B; 1}`);&#xA;      this.logger.debug(`Fetched size:          ${xhr.response.byteLength}`);&#xA;      this.logger.debug(&#x27;Appending chunk to SourceBuffer.&#x27;);&#xA;      this.sourceBuffer.appendBuffer(xhr.response);&#xA;    };&#xA;    xhr.send();&#xA;  };&#xA;&#xA;}&#xA;&#xA;export enum StreamStatus {&#xA;  NOT_INITIALIZED,&#xA;  INITIALIZING,&#xA;  PLAYING,&#xA;  SEEKING,&#xA;  PAUSED,&#xA;  STOPPED,&#xA;  ERROR&#xA;}&#xA;&#xA;export class PlayerState {&#xA;  status: StreamStatus = StreamStatus.NOT_INITIALIZED;&#xA;}&#xA;&#xA;&#xA;/**&#xA; *&#xA; */&#xA;@Injectable({&#xA;  providedIn: &#x27;root&#x27;&#xA;})&#xA;export class MediaSourcePlayerService {&#xA;&#xA;  public track: Track;&#xA;&#xA;  private mediaSource: MediaSource;&#xA;&#xA;  private sourceBuffer: SourceBuffer;&#xA;&#xA;  private audioObj: HTMLAudioElement;&#xA;&#xA;  private chunksLoader: ChunksLoader;&#xA;&#xA;  private state: PlayerState = new PlayerState();&#xA;&#xA;  private state$ = new BehaviorSubject<playerstate>(this.state);&#xA;&#xA;  public stateChange = this.state$.asObservable();&#xA;&#xA;  private currentTime$ = new BehaviorSubject<number>(null);&#xA;&#xA;  public currentTimeChange = this.currentTime$.asObservable();&#xA;&#xA;  constructor(&#xA;    private httpClient: HttpClient,&#xA;    private logger: NGXLogger&#xA;  ) {&#xA;  }&#xA;&#xA;  get canPlay() {&#xA;    const state = this.state$.getValue();&#xA;    const status = state.status;&#xA;    return status == StreamStatus.PAUSED;&#xA;  }&#xA;&#xA;  get canPause() {&#xA;    const state = this.state$.getValue();&#xA;    const status = state.status;&#xA;    return status == StreamStatus.PLAYING || status == StreamStatus.SEEKING;&#xA;  }&#xA;&#xA;  public playTrack(track: Track) {&#xA;    this.logger.debug(&#x27;playTrack&#x27;);&#xA;    this.track = track;&#xA;    this.startPlayingFrom(0);&#xA;  }&#xA;&#xA;  public play() {&#xA;    this.logger.debug(&#x27;play()&#x27;);&#xA;    this.audioObj.play().then();&#xA;  }&#xA;&#xA;  public pause() {&#xA;    this.logger.debug(&#x27;pause()&#x27;);&#xA;    this.audioObj.pause();&#xA;  }&#xA;&#xA;  public stop() {&#xA;    this.logger.debug(&#x27;stop()&#x27;);&#xA;    this.audioObj.pause();&#xA;  }&#xA;&#xA;  public seek(seconds: number) {&#xA;    this.logger.debug(&#x27;seek()&#x27;);&#xA;    this.audioObj.currentTime = seconds;&#xA;  }&#xA;&#xA;  private startPlayingFrom(seconds: number) {&#xA;    this.logger.info(`Start playing from ${seconds.toFixed(2)} seconds`);&#xA;    this.mediaSource = new MediaSource();&#xA;    this.mediaSource.addEventListener(&#x27;sourceopen&#x27;, this.onSourceOpen);&#xA;&#xA;    this.audioObj = document.createElement(&#x27;audio&#x27;);&#xA;    this.addEvents(this.audioObj, AUDIO_EVENTS, this.handleEvent);&#xA;    this.audioObj.src = URL.createObjectURL(this.mediaSource);&#xA;&#xA;    this.audioObj.play().then();&#xA;  }&#xA;&#xA;  private onSourceOpen = () => {&#xA;&#xA;    this.logger.debug(&#x27;onSourceOpen&#x27;);&#xA;&#xA;    this.mediaSource.removeEventListener(&#x27;sourceopen&#x27;, this.onSourceOpen);&#xA;    this.mediaSource.duration = this.track.duration;&#xA;&#xA;    this.sourceBuffer = this.mediaSource.addSourceBuffer(&#x27;audio/mp4; codecs="mp4a.40.2"&#x27;);&#xA;    // this.sourceBuffer = this.mediaSource.addSourceBuffer(&#x27;audio/mpeg&#x27;);&#xA;&#xA;    this.chunksLoader = new ChunksLoader(&#xA;      this.track,&#xA;      this.sourceBuffer,&#xA;      this.logger&#xA;    );&#xA;&#xA;    this.chunksLoader.begin();&#xA;  };&#xA;&#xA;  private handleEvent = (e) => {&#xA;&#xA;    const currentTime = this.audioObj.currentTime.toFixed(2);&#xA;    const totalDuration = this.track.duration.toFixed(2);&#xA;    this.logger.warn(`MediaSource event: ${e.type} (${currentTime} of ${totalDuration} sec)`);&#xA;&#xA;    this.currentTime$.next(this.audioObj.currentTime);&#xA;&#xA;    const currentStatus = this.state$.getValue();&#xA;&#xA;    switch (e.type) {&#xA;      case &#x27;playing&#x27;:&#xA;        currentStatus.status = StreamStatus.PLAYING;&#xA;        this.state$.next(currentStatus);&#xA;        break;&#xA;      case &#x27;pause&#x27;:&#xA;        currentStatus.status = StreamStatus.PAUSED;&#xA;        this.state$.next(currentStatus);&#xA;        break;&#xA;      case &#x27;timeupdate&#x27;:&#xA;        this.chunksLoader.handleOnTimeUpdate(this.audioObj.currentTime);&#xA;        break;&#xA;      case &#x27;seeking&#x27;:&#xA;        currentStatus.status = StreamStatus.SEEKING;&#xA;        this.state$.next(currentStatus);&#xA;        if (this.mediaSource.readyState == &#x27;open&#x27;) {&#xA;          this.sourceBuffer.abort();&#xA;        }&#xA;        this.chunksLoader.handleOnTimeUpdate(this.audioObj.currentTime);&#xA;        break;&#xA;    }&#xA;  };&#xA;&#xA;  private addEvents(obj, events, handler) {&#xA;    events.forEach(event => obj.addEventListener(event, handler));&#xA;  }&#xA;&#xA;}&#xA;</number></playerstate>

  


  Running it will give me the following output :

  


  

  


  


  Apologies for the screenshot but it's not possible to just copy the output without all the stack traces in Chrome.

  


  


  What I also tried was following this example and call sourceBuffer.abort() but that didn't work. It looks more like a hack that used to work years ago but it's still referenced in the docs (see "Example" -> "You can see something similar in action in Nick Desaulnier's bufferWhenNeeded demo ..").

  


  case 'seeking':
  currentStatus.status = StreamStatus.SEEKING;
  this.state$.next(currentStatus);        
  if (this.mediaSource.readyState === 'open') {
    this.sourceBuffer.abort();
  } 
  break;


  


  Trying with MP3

  


  I have tested the above code under Chrome by converting tracks to MP3 :

  


  ffmpeg -i input.mp3 -acodec aac -b:a 256k -f mp3 output.mp3


  


  and creating a SourceBuffer using audio/mpeg as type :

  


  this.mediaSource.addSourceBuffer('audio/mpeg')


  


  I have the same problem when seeking.

  


  The issue wihout seeking

  


  The above code has another issue :

  


  After two minutes of playing, the audio playback starts to stutter and comes to a halt prematurely. So, the audio plays up to a point and then it stops without any obvious reason.

  


  For whatever reason there is another canplay and playing event. A few seconds after, the audio simply stops..