The createOffer()
method of the RTCPeerConnection
interface initiates the creation of an SDP offer which includes information about any MediaStreamTrack
s already attached to the WebRTC session, codec and options supported by the browser, and any candidates already gathered by the ICE agent, for the purpose of being sent over the signaling channel to a potential peer to request a connection or to update the configuration of an existing connection.
The return value is a Promise
which, when the offer has been created, is resolved with a RTCSessionDescription
object containing the newly-created offer.
aPromise = myPeerConnection.createOffer([options]); myPeerConnection.createOffer(successCallback, failureCallback, [options])
options
Optional
RTCOfferOptions
dictionary providing options requested for the offer.The RTCOfferOptions
dictionary is used to customize the offer created by this method.
iceRestart
Optional
true
. This will cause the returned offer to have different credentials than those already in place. If you then apply the returned offer, ICE will restart. Specify false
to keep the same credentials and therefore not restart ICE. false
.voiceActivityDetection
Optional
true
(voice activity detection enabled).In older code and documentation, you may see a callback-based version of this function. This has been deprecated and its use is strongly discouraged. You should update any existing code to use the Promise
-based version of createOffer()
instead. The parameters for this form of createOffer()
are described below, to aid in updating existing code.
successCallback
RTCSessionDescriptionCallback
which will be passed a single RTCSessionDescription
object describing the newly-created offer.errorCallback
RTCPeerConnectionErrorCallback
which will be passed a single DOMException
object explaining why the request to create an offer failed.options
Optional
RTCOfferOptions
dictionary providing options requested for the offer.A Promise
whose fulfillment handler will receive an object conforming to the RTCSessionDescriptionInit
dictionary which contains the SDP describing the generated offer. That received offer should be delivered through the signaling server to a remote peer.
Here we see a handler for the negotiationneeded
event which creates the offer and sends it to the remote system over a signaling channel.
Keep in mind that this is part of the signaling process, the transport layer for which is an implementation detail that's entirely up to you. In this case, a WebSocket connection is used to send a JSON message with a type
field with the value "video-offer" to the other peer. The contents of the object being passed to the sendToServer()
function, along with everything else in the promise fulfillment handler, depend entirely on your design.
myPeerConnection.createOffer().then(function(offer) { return myPeerConnection.setLocalDescription(offer); }) .then(function() { sendToServer({ name: myUsername, target: targetUsername, type: "video-offer", sdp: myPeerConnection.localDescription }); }) .catch(function(reason) { // An error occurred, so handle the failure to connect });
In this code, the offer is created, and once successful, the local end of the RTCPeerConnection
is configured to match by passing the offer (which is represented using an object conforming to RTCSessionDescriptionInit
) into setLocalDescription()
. Once that's done, the offer is sent to the remote system over the signaling channel; in this case, by using a custom function called sendToServer()
. The implementation of the signaling server is independent from the WebRTC specification, so it doesn't matter how the offer is sent as long as both the caller and potential receiver are using the same one.
Use Promise.catch()
to trap and handle errors.
See Signaling and video calling for the complete example from which this snippet is derived; this will help you to understand how the signaling code here works.
Specification | Status | Comment |
---|---|---|
WebRTC 1.0: Real-time Communication Between Browsers The definition of 'createOffer()' in that specification. | Working Draft | Initial definition. |
Feature | Chrome | Edge | Firefox (Gecko) | Internet Explorer | Opera | Safari (WebKit) |
---|---|---|---|---|---|---|
Basic support | (Yes)[1][2] | (Yes) | 22 (22)[3] | ? | ? | ? |
Promise-based version | 52.0 | ? | 37 (37) | ? | ? | ? |
RTCSessionDescriptionInit returned | ? | ? | ? | ? | ? | |
Errors represented by DOMException , not DOMError
| (Yes) | (Yes) | 58 (58) | No support | (Yes) | No support |
Feature | Android Webview | Chrome for Android | Edge | Firefox Mobile (Gecko) | Firefox OS | IE Mobile | Opera Mobile | Safari Mobile |
---|---|---|---|---|---|---|---|---|
Basic support | (Yes)[1][2] | (Yes)[1][2] | (Yes) | 24.0 (24)[3] | 37[3] | ? | ? | ? |
Promise-based version | 52.0 | 52.0 | ? | 37.0 (37) | ? | ? | ? | ? |
RTCSessionDescriptionInit returned | ? | ? | ? | 53.0 (53) | ? | ? | ? | ? |
Errors represented by DOMException , not DOMError
| (Yes) | (Yes) | (Yes) | 58.0 (58) | No support | (Yes) | No support |
[1] The callback-based version of this method was deprecated in Chrome 49.
[2] Though this method is not prefixed, the interface it belongs to was until Chrome 56
[3] Starting in Firefox 46, VP9 support was added, but disabled by default. To enable it, set the preference media.peerconnection.video.vp9_enabled
to true
using about:config
. If you enable VP9 in Firefox 46 through Firefox 50, it's the preferred video codec. Starting in Firefox 51, it's enabled by default but VP8 is preferred.
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Licensed under the Creative Commons Attribution-ShareAlike License v2.5 or later.
https://developer.mozilla.org/en-US/docs/Web/API/RTCPeerConnection/createOffer