All of Twilio's examples for their Programmable Video service that I've been able to find either demonstrate screen sharing or webcam media streams. Can someone point me to an example that streams video from an RTSP stream provided by an IP Camera?

I've been able to find examples of and experiment with this behavior using Kurento, so I figured Twilio-Video might expose the same. See https://github.com/lulop-k/kurento-rtsp2webrtc

  • You can't use RTSP directly with WebRTC, as you've discovered. This answer has more detail on that. If you are more interested in doing this, could you send some details of your usecase to help@twilio.com and they will be able to direct the query to the right team. – philnash Mar 6 '17 at 17:34

Can someone point me to an example that streams video from an RTSP stream provided by an IP Camera?

Since you've tagged Javascript you've got to realise that rtsp:// is not an expected video source within the HTML5 environment. There isn't a specific example for RTSP stream from camera.

possible solution :
The only solution I can think of is to use a virtual webcam software that outputs a video stream/file instead of showing feed from device webcam.

The virtual webcam would be detected like a normal webcam (by browser / webRTC), but instead of showing your face, it shows a pre-recorded stream/file. If you involve FFmpeg you could replace MP4 file with your RTSP live-stream.

On the Twilio / HTML5 code side, you simply select the "virtual cam" as if real webcam, now this way you can send RTSP feed as if it's your webcam feed.


Did you take a look at this?

It's an interesting, well-written article on the matter.

From the link in question:

WebRTC Media Gateways for media interoperability For integrating an IP camera with a WebRTC application you first need to achieve media interoperability. This means that the media stream provided by the camera needs to be made compatible with the WebRTC codecs and formats supported by browsers. This means to translate whatever the IP camera speaks into whatever the WebRTC browser supports. For this to happen, typically a piece of technology called a WebRTC Media Gateway is required. For understanding what such a gateway does, observe the following.

Most IP cameras available in the market (excluding exotic ones) publish media through any of these mechanisms:

    RTSP/H.264: These types of cameras are typical for video surveillance applications. They use the RTSP protocol for establishing an RTP media session. In other words, signaling takes place through RTSP while media transport itself is based on plain RTP. Different camera vendors may support different RTP profiles but, for most of the cameras I've seen, the AVP is the only available option. In these cameras, and also typically, H.264 is the only option for the codec.
    HTTP/MJPEG: These cameras use HTTP streaming for signaling and transport and encode video as a sequence of JPEG pictures. The hardware for these cameras is simpler and requires fewer resources to operate. This is why they are often used when battery consumption or weight is an issue (e.g. robotics, drones, etc.) As a drawback, the video quality tends to decrease significantly.

Doing it right with Kurento Media Server

The Kurento Media Server toolbox makes possible to create rich WebRTC Media Gateways in a flexible way and programming in Java or JavaScript if you want. For an introduction on Kurento Media Server technologies, just take a look to the documentation. Implementing a WebRTC Media Gateway for interoperating with IP cameras in Kurento is trivial and safe. You need only take into consideration three aspects:

    Kurento Media Server PlayerEndpoint supports reading video streams from different types of sources including RTSP/RTP and HTTP/MJPEG. In other words, the PlayerEndpoint is capable of managing the capture of media from the IP camera.
    Kurento Media Server WebRtcEndpoint supports publishing media streams to WebRTC browsers with full termination of RTCP feedback. This means that, every time a PLI packet is received, the WebRtcEndpoint shall command the VP8 encoder to generate a new key frame. This also means that REMB feedback and congestion control shall be honored by commanding the VP8 encoder to decrease its quality.
    Kurento Media Server agnostic media capability performs, transparently for the developer, all the appropriate trans-codifications when two incompatible media elements are connected. Hence, in this case, just by connecting the PlayerEndpoint source to the WebRtcEndpoint sink the H.264/MJPEG to VP8 transcoding shall take place.

enter image description here

The souce code of a JavaScript application implementing this logic is sketched below:

    var pipeline = ...//Use Kurento Client API for obtaining your pipeline.

//Create the PlayerEndpoint for receiving from the IP camera. HTTP and RTSP uris are supportd
pipeline.create("PlayerEndpoint", {uri: "rtsp://your.rtsp.address"}, function(error, playerEndpoint){

    //Create the WebRtcEndpoint
    pipeline.create("WebRtcEndpoint", function(error, webRtcEndpoint){

    //If working with trickle ice, some code for candidate management is required here.

        //Connect playerEndpoint to webRtcEndpoint. This connection activates the agnostic media
        //capability and the appropriate transcodings are configured and activated.
    playerEndpoint.connect(webRtcEndpoint, function(error){

                //Media starts flowing ... enjoy

If you want a fully working example in JavaScript, you can take a look to this GitHub repository

This should provide a solution to your needs, comment if you have any problems.

Good luck!

  • If you'll look closely, I actually included the link to the github repo associated with that article. I already have a working example with Kurento - what I want is a similar solution using Twilio Programmable Video... – hatboyzero Mar 9 '17 at 1:45
  • Oh, sorry about that, missed it somehow. Well, you can't. Your best option is to contact Twillio and see where that goes, as stated in the comment of your question. – t1f Mar 9 '17 at 7:59

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.