jsmpeg is a MPEG1 Decoder, written in JavaScript. It's "hand ported", i.e. not compiled with emscripten or similar. This will probably make it obsolete with the advent of asmjs.
Some demos and more info: phoboslab.org/log/2013/05/mpeg1-video-decoder-in-javascript
npm install jsmpeg
// Synopsis: var player = new jsmpeg(urlToFile, options);
// The 'options' argument and all of its properties is optional. If no canvas element
// is given, jsmpeg will create its own, to be accessed at .canvas
// Example:
var jsmpeg = require('jsmpeg');
var canvas = document.getElementById('videoCanvas');
var player = new jsmpeg('file.mpeg', {canvas: canvas, autoplay: true, loop: true});
player.pause();
player.play();
player.stop();
// If you pass 'seekable: true' in the options, you can seek to a specific frame
// or time in the video.
var player = new jsmpeg('file.mpeg', {canvas: canvas, seekable: true});
player.seekToFrame(1200); // Seek to intra frame before frame 1200
player.seekToTime(20); // Seek to intra frame before 20sec
// seekToFrame() and seekToTime() only seek to the closest, previous intra frame by
// default. If you want to seek to the exact frame or time, pass 'true' as second
// parameter.
// Depending on the input video, this can be potentially slow, as jsmpeg has
// to decode all frames between the previous intra frame and the seek target
player.seekToFrame(1200, true); // Seek to frame 1200 exactly
// Passing 'seekable: true' also populates the total frame count and duration
// of the video
console.log('Duration: '+player.duration+' seconds ('+player.frameCount+' frames)')
// An 'onload' callback can be specified in the 'options' argument
var mpegLoaded = function( player ) {
console.log('Loaded', player);
};
var player = new jsmpeg('file.mpeg', {onload: mpegLoaded});
// If you don't use 'autoplay' and don't explicitly call .play(), you can get individual
// video frames (a canvas element) like so:
var frame = null;
while( (frame = player.nextFrame()) ) {
someOtherCanvasContext.drawImage(frame, 0, 0);
}
jsmpeg supports streaming live video through WebSockets. You can use ffmpeg and a nodejs server to serve the MPEG video. See this blog post for the details of setting up a server. Also have a look at the stream-server.js
and stream-example.html
.
To configure jsmpeg to connect to the stream server, simply pass a WebSocket connection instead of a filename to the constructor:
// Setup the WebSocket connection and start the player
var client = new WebSocket( 'ws://example.com:8084/' );
var player = new jsmpeg(client, {canvas:canvas});
###Stream Recording###
To record an MPEG stream clientside in the browser jsmpeg provides the .startRecording(cb)
and .stopRecording()
methods. .stopRecording()
returns a Blob
object that can be used to create a download link.
player.startRecording(function(player){
// Called when recording really starts; usually
// when the next intra frame is received
});
// ...
// Stop recording and create a download link
var blob = player.stopRecording();
var filename = 'jsmpeg-recording.mpg';
var a = document.getElementById('downloadLink');
a.innerHTML = filename;
a.download = fileName;
a.href = window.URL.createObjectURL(blob);
- Playback can only start when the file is fully loaded (when not streaming through WebSockets). I'm waiting for chunked XHR with ArrayBuffers to arrive in browsers.
- MPEG files with B-Frames look weird - frames are not reordered. This should be relatively easy to fix, but most encoders seem to not use B-Frames at all by default.
- The width of the MPEG video has to be a multiple of 2.
- Only raw MPEG video streams are supported. The decoder hates Stream Packet Headers in between macroblocks.
You can use FFmpeg to encode videos in a suited format. This will crop the size to a multiple of 2, omit B-Frames and force a raw video stream:
ffmpeg -i in.mp4 -f mpeg1video -vf "crop=iw-mod(iw\,2):ih-mod(ih\,2)" -b 0 out.mpg