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//go:build js && wasm
// +build js,wasm
// Package webrtc implements the WebRTC 1.0 as defined in W3C WebRTC specification document.
package webrtc
import (
"syscall/js"
"github.com/pion/ice/v2"
"github.com/pion/webrtc/v3/pkg/rtcerr"
)
// PeerConnection represents a WebRTC connection that establishes a
// peer-to-peer communications with another PeerConnection instance in a
// browser, or to another endpoint implementing the required protocols.
type PeerConnection struct {
// Pointer to the underlying JavaScript RTCPeerConnection object.
underlying js.Value
// Keep track of handlers/callbacks so we can call Release as required by the
// syscall/js API. Initially nil.
onSignalingStateChangeHandler *js.Func
onDataChannelHandler *js.Func
onNegotiationNeededHandler *js.Func
onConnectionStateChangeHandler *js.Func
onICEConnectionStateChangeHandler *js.Func
onICECandidateHandler *js.Func
onICEGatheringStateChangeHandler *js.Func
// Used by GatheringCompletePromise
onGatherCompleteHandler func()
// A reference to the associated API state used by this connection
api *API
}
// NewPeerConnection creates a peerconnection.
func NewPeerConnection(configuration Configuration) (*PeerConnection, error) {
api := NewAPI()
return api.NewPeerConnection(configuration)
}
// NewPeerConnection creates a new PeerConnection with the provided configuration against the received API object
func (api *API) NewPeerConnection(configuration Configuration) (_ *PeerConnection, err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
configMap := configurationToValue(configuration)
underlying := js.Global().Get("window").Get("RTCPeerConnection").New(configMap)
return &PeerConnection{
underlying: underlying,
api: api,
}, nil
}
// JSValue returns the underlying PeerConnection
func (pc *PeerConnection) JSValue() js.Value {
return pc.underlying
}
// OnSignalingStateChange sets an event handler which is invoked when the
// peer connection's signaling state changes
func (pc *PeerConnection) OnSignalingStateChange(f func(SignalingState)) {
if pc.onSignalingStateChangeHandler != nil {
oldHandler := pc.onSignalingStateChangeHandler
defer oldHandler.Release()
}
onSignalingStateChangeHandler := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
state := newSignalingState(args[0].String())
go f(state)
return js.Undefined()
})
pc.onSignalingStateChangeHandler = &onSignalingStateChangeHandler
pc.underlying.Set("onsignalingstatechange", onSignalingStateChangeHandler)
}
// OnDataChannel sets an event handler which is invoked when a data
// channel message arrives from a remote peer.
func (pc *PeerConnection) OnDataChannel(f func(*DataChannel)) {
if pc.onDataChannelHandler != nil {
oldHandler := pc.onDataChannelHandler
defer oldHandler.Release()
}
onDataChannelHandler := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
// pion/webrtc/projects/15
// This reference to the underlying DataChannel doesn't know
// about any other references to the same DataChannel. This might result in
// memory leaks where we don't clean up handler functions. Could possibly fix
// by keeping a mutex-protected list of all DataChannel references as a
// property of this PeerConnection, but at the cost of additional overhead.
dataChannel := &DataChannel{
underlying: args[0].Get("channel"),
api: pc.api,
}
go f(dataChannel)
return js.Undefined()
})
pc.onDataChannelHandler = &onDataChannelHandler
pc.underlying.Set("ondatachannel", onDataChannelHandler)
}
// OnNegotiationNeeded sets an event handler which is invoked when
// a change has occurred which requires session negotiation
func (pc *PeerConnection) OnNegotiationNeeded(f func()) {
if pc.onNegotiationNeededHandler != nil {
oldHandler := pc.onNegotiationNeededHandler
defer oldHandler.Release()
}
onNegotiationNeededHandler := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
go f()
return js.Undefined()
})
pc.onNegotiationNeededHandler = &onNegotiationNeededHandler
pc.underlying.Set("onnegotiationneeded", onNegotiationNeededHandler)
}
// OnICEConnectionStateChange sets an event handler which is called
// when an ICE connection state is changed.
func (pc *PeerConnection) OnICEConnectionStateChange(f func(ICEConnectionState)) {
if pc.onICEConnectionStateChangeHandler != nil {
oldHandler := pc.onICEConnectionStateChangeHandler
defer oldHandler.Release()
}
onICEConnectionStateChangeHandler := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
connectionState := NewICEConnectionState(pc.underlying.Get("iceConnectionState").String())
go f(connectionState)
return js.Undefined()
})
pc.onICEConnectionStateChangeHandler = &onICEConnectionStateChangeHandler
pc.underlying.Set("oniceconnectionstatechange", onICEConnectionStateChangeHandler)
}
// OnConnectionStateChange sets an event handler which is called
// when an PeerConnectionState is changed.
func (pc *PeerConnection) OnConnectionStateChange(f func(PeerConnectionState)) {
if pc.onConnectionStateChangeHandler != nil {
oldHandler := pc.onConnectionStateChangeHandler
defer oldHandler.Release()
}
onConnectionStateChangeHandler := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
connectionState := newPeerConnectionState(pc.underlying.Get("connectionState").String())
go f(connectionState)
return js.Undefined()
})
pc.onConnectionStateChangeHandler = &onConnectionStateChangeHandler
pc.underlying.Set("onconnectionstatechange", onConnectionStateChangeHandler)
}
func (pc *PeerConnection) checkConfiguration(configuration Configuration) error {
// https://www.w3.org/TR/webrtc/#dom-rtcpeerconnection-setconfiguration (step #2)
if pc.ConnectionState() == PeerConnectionStateClosed {
return &rtcerr.InvalidStateError{Err: ErrConnectionClosed}
}
existingConfig := pc.GetConfiguration()
// https://www.w3.org/TR/webrtc/#set-the-configuration (step #3)
if configuration.PeerIdentity != "" {
if configuration.PeerIdentity != existingConfig.PeerIdentity {
return &rtcerr.InvalidModificationError{Err: ErrModifyingPeerIdentity}
}
}
// https://github.com/pion/webrtc/issues/513
// https://www.w3.org/TR/webrtc/#set-the-configuration (step #4)
// if len(configuration.Certificates) > 0 {
// if len(configuration.Certificates) != len(existingConfiguration.Certificates) {
// return &rtcerr.InvalidModificationError{Err: ErrModifyingCertificates}
// }
// for i, certificate := range configuration.Certificates {
// if !pc.configuration.Certificates[i].Equals(certificate) {
// return &rtcerr.InvalidModificationError{Err: ErrModifyingCertificates}
// }
// }
// pc.configuration.Certificates = configuration.Certificates
// }
// https://www.w3.org/TR/webrtc/#set-the-configuration (step #5)
if configuration.BundlePolicy != BundlePolicy(Unknown) {
if configuration.BundlePolicy != existingConfig.BundlePolicy {
return &rtcerr.InvalidModificationError{Err: ErrModifyingBundlePolicy}
}
}
// https://www.w3.org/TR/webrtc/#set-the-configuration (step #6)
if configuration.RTCPMuxPolicy != RTCPMuxPolicy(Unknown) {
if configuration.RTCPMuxPolicy != existingConfig.RTCPMuxPolicy {
return &rtcerr.InvalidModificationError{Err: ErrModifyingRTCPMuxPolicy}
}
}
// https://www.w3.org/TR/webrtc/#set-the-configuration (step #7)
if configuration.ICECandidatePoolSize != 0 {
if configuration.ICECandidatePoolSize != existingConfig.ICECandidatePoolSize &&
pc.LocalDescription() != nil {
return &rtcerr.InvalidModificationError{Err: ErrModifyingICECandidatePoolSize}
}
}
// https://www.w3.org/TR/webrtc/#set-the-configuration (step #11)
if len(configuration.ICEServers) > 0 {
// https://www.w3.org/TR/webrtc/#set-the-configuration (step #11.3)
for _, server := range configuration.ICEServers {
if _, err := server.validate(); err != nil {
return err
}
}
}
return nil
}
// SetConfiguration updates the configuration of this PeerConnection object.
func (pc *PeerConnection) SetConfiguration(configuration Configuration) (err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
if err := pc.checkConfiguration(configuration); err != nil {
return err
}
configMap := configurationToValue(configuration)
pc.underlying.Call("setConfiguration", configMap)
return nil
}
// GetConfiguration returns a Configuration object representing the current
// configuration of this PeerConnection object. The returned object is a
// copy and direct mutation on it will not take affect until SetConfiguration
// has been called with Configuration passed as its only argument.
// https://www.w3.org/TR/webrtc/#dom-rtcpeerconnection-getconfiguration
func (pc *PeerConnection) GetConfiguration() Configuration {
return valueToConfiguration(pc.underlying.Call("getConfiguration"))
}
// CreateOffer starts the PeerConnection and generates the localDescription
func (pc *PeerConnection) CreateOffer(options *OfferOptions) (_ SessionDescription, err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
promise := pc.underlying.Call("createOffer", offerOptionsToValue(options))
desc, err := awaitPromise(promise)
if err != nil {
return SessionDescription{}, err
}
return *valueToSessionDescription(desc), nil
}
// CreateAnswer starts the PeerConnection and generates the localDescription
func (pc *PeerConnection) CreateAnswer(options *AnswerOptions) (_ SessionDescription, err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
promise := pc.underlying.Call("createAnswer", answerOptionsToValue(options))
desc, err := awaitPromise(promise)
if err != nil {
return SessionDescription{}, err
}
return *valueToSessionDescription(desc), nil
}
// SetLocalDescription sets the SessionDescription of the local peer
func (pc *PeerConnection) SetLocalDescription(desc SessionDescription) (err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
promise := pc.underlying.Call("setLocalDescription", sessionDescriptionToValue(&desc))
_, err = awaitPromise(promise)
return err
}
// LocalDescription returns PendingLocalDescription if it is not null and
// otherwise it returns CurrentLocalDescription. This property is used to
// determine if setLocalDescription has already been called.
// https://www.w3.org/TR/webrtc/#dom-rtcpeerconnection-localdescription
func (pc *PeerConnection) LocalDescription() *SessionDescription {
return valueToSessionDescription(pc.underlying.Get("localDescription"))
}
// SetRemoteDescription sets the SessionDescription of the remote peer
func (pc *PeerConnection) SetRemoteDescription(desc SessionDescription) (err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
promise := pc.underlying.Call("setRemoteDescription", sessionDescriptionToValue(&desc))
_, err = awaitPromise(promise)
return err
}
// RemoteDescription returns PendingRemoteDescription if it is not null and
// otherwise it returns CurrentRemoteDescription. This property is used to
// determine if setRemoteDescription has already been called.
// https://www.w3.org/TR/webrtc/#dom-rtcpeerconnection-remotedescription
func (pc *PeerConnection) RemoteDescription() *SessionDescription {
return valueToSessionDescription(pc.underlying.Get("remoteDescription"))
}
// AddICECandidate accepts an ICE candidate string and adds it
// to the existing set of candidates
func (pc *PeerConnection) AddICECandidate(candidate ICECandidateInit) (err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
promise := pc.underlying.Call("addIceCandidate", iceCandidateInitToValue(candidate))
_, err = awaitPromise(promise)
return err
}
// ICEConnectionState returns the ICE connection state of the
// PeerConnection instance.
func (pc *PeerConnection) ICEConnectionState() ICEConnectionState {
return NewICEConnectionState(pc.underlying.Get("iceConnectionState").String())
}
// OnICECandidate sets an event handler which is invoked when a new ICE
// candidate is found.
func (pc *PeerConnection) OnICECandidate(f func(candidate *ICECandidate)) {
if pc.onICECandidateHandler != nil {
oldHandler := pc.onICECandidateHandler
defer oldHandler.Release()
}
onICECandidateHandler := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
candidate := valueToICECandidate(args[0].Get("candidate"))
if candidate == nil && pc.onGatherCompleteHandler != nil {
go pc.onGatherCompleteHandler()
}
go f(candidate)
return js.Undefined()
})
pc.onICECandidateHandler = &onICECandidateHandler
pc.underlying.Set("onicecandidate", onICECandidateHandler)
}
// OnICEGatheringStateChange sets an event handler which is invoked when the
// ICE candidate gathering state has changed.
func (pc *PeerConnection) OnICEGatheringStateChange(f func()) {
if pc.onICEGatheringStateChangeHandler != nil {
oldHandler := pc.onICEGatheringStateChangeHandler
defer oldHandler.Release()
}
onICEGatheringStateChangeHandler := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
go f()
return js.Undefined()
})
pc.onICEGatheringStateChangeHandler = &onICEGatheringStateChangeHandler
pc.underlying.Set("onicegatheringstatechange", onICEGatheringStateChangeHandler)
}
// CreateDataChannel creates a new DataChannel object with the given label
// and optional DataChannelInit used to configure properties of the
// underlying channel such as data reliability.
func (pc *PeerConnection) CreateDataChannel(label string, options *DataChannelInit) (_ *DataChannel, err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
channel := pc.underlying.Call("createDataChannel", label, dataChannelInitToValue(options))
return &DataChannel{
underlying: channel,
api: pc.api,
}, nil
}
// SetIdentityProvider is used to configure an identity provider to generate identity assertions
func (pc *PeerConnection) SetIdentityProvider(provider string) (err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
pc.underlying.Call("setIdentityProvider", provider)
return nil
}
// Close ends the PeerConnection
func (pc *PeerConnection) Close() (err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
pc.underlying.Call("close")
// Release any handlers as required by the syscall/js API.
if pc.onSignalingStateChangeHandler != nil {
pc.onSignalingStateChangeHandler.Release()
}
if pc.onDataChannelHandler != nil {
pc.onDataChannelHandler.Release()
}
if pc.onNegotiationNeededHandler != nil {
pc.onNegotiationNeededHandler.Release()
}
if pc.onConnectionStateChangeHandler != nil {
pc.onConnectionStateChangeHandler.Release()
}
if pc.onICEConnectionStateChangeHandler != nil {
pc.onICEConnectionStateChangeHandler.Release()
}
if pc.onICECandidateHandler != nil {
pc.onICECandidateHandler.Release()
}
if pc.onICEGatheringStateChangeHandler != nil {
pc.onICEGatheringStateChangeHandler.Release()
}
return nil
}
// CurrentLocalDescription represents the local description that was
// successfully negotiated the last time the PeerConnection transitioned
// into the stable state plus any local candidates that have been generated
// by the ICEAgent since the offer or answer was created.
func (pc *PeerConnection) CurrentLocalDescription() *SessionDescription {
desc := pc.underlying.Get("currentLocalDescription")
return valueToSessionDescription(desc)
}
// PendingLocalDescription represents a local description that is in the
// process of being negotiated plus any local candidates that have been
// generated by the ICEAgent since the offer or answer was created. If the
// PeerConnection is in the stable state, the value is null.
func (pc *PeerConnection) PendingLocalDescription() *SessionDescription {
desc := pc.underlying.Get("pendingLocalDescription")
return valueToSessionDescription(desc)
}
// CurrentRemoteDescription represents the last remote description that was
// successfully negotiated the last time the PeerConnection transitioned
// into the stable state plus any remote candidates that have been supplied
// via AddICECandidate() since the offer or answer was created.
func (pc *PeerConnection) CurrentRemoteDescription() *SessionDescription {
desc := pc.underlying.Get("currentRemoteDescription")
return valueToSessionDescription(desc)
}
// PendingRemoteDescription represents a remote description that is in the
// process of being negotiated, complete with any remote candidates that
// have been supplied via AddICECandidate() since the offer or answer was
// created. If the PeerConnection is in the stable state, the value is
// null.
func (pc *PeerConnection) PendingRemoteDescription() *SessionDescription {
desc := pc.underlying.Get("pendingRemoteDescription")
return valueToSessionDescription(desc)
}
// SignalingState returns the signaling state of the PeerConnection instance.
func (pc *PeerConnection) SignalingState() SignalingState {
rawState := pc.underlying.Get("signalingState").String()
return newSignalingState(rawState)
}
// ICEGatheringState attribute the ICE gathering state of the PeerConnection
// instance.
func (pc *PeerConnection) ICEGatheringState() ICEGatheringState {
rawState := pc.underlying.Get("iceGatheringState").String()
return NewICEGatheringState(rawState)
}
// ConnectionState attribute the connection state of the PeerConnection
// instance.
func (pc *PeerConnection) ConnectionState() PeerConnectionState {
rawState := pc.underlying.Get("connectionState").String()
return newPeerConnectionState(rawState)
}
func (pc *PeerConnection) setGatherCompleteHandler(handler func()) {
pc.onGatherCompleteHandler = handler
// If no onIceCandidate handler has been set provide an empty one
// otherwise our onGatherCompleteHandler will not be executed
if pc.onICECandidateHandler == nil {
pc.OnICECandidate(func(i *ICECandidate) {})
}
}
// AddTransceiverFromKind Create a new RtpTransceiver and adds it to the set of transceivers.
func (pc *PeerConnection) AddTransceiverFromKind(kind RTPCodecType, init ...RTPTransceiverInit) (transceiver *RTPTransceiver, err error) {
defer func() {
if e := recover(); e != nil {
err = recoveryToError(e)
}
}()
if len(init) == 1 {
return &RTPTransceiver{
underlying: pc.underlying.Call("addTransceiver", kind.String(), rtpTransceiverInitInitToValue(init[0])),
}, err
}
return &RTPTransceiver{
underlying: pc.underlying.Call("addTransceiver", kind.String()),
}, err
}
// GetTransceivers returns the RtpTransceiver that are currently attached to this PeerConnection
func (pc *PeerConnection) GetTransceivers() (transceivers []*RTPTransceiver) {
rawTransceivers := pc.underlying.Call("getTransceivers")
transceivers = make([]*RTPTransceiver, rawTransceivers.Length())
for i := 0; i < rawTransceivers.Length(); i++ {
transceivers[i] = &RTPTransceiver{
underlying: rawTransceivers.Index(i),
}
}
return
}
// SCTP returns the SCTPTransport for this PeerConnection
//
// The SCTP transport over which SCTP data is sent and received. If SCTP has not been negotiated, the value is nil.
// https://www.w3.org/TR/webrtc/#attributes-15
func (pc *PeerConnection) SCTP() *SCTPTransport {
underlying := pc.underlying.Get("sctp")
if underlying.IsNull() || underlying.IsUndefined() {
return nil
}
return &SCTPTransport{
underlying: underlying,
}
}
// Converts a Configuration to js.Value so it can be passed
// through to the JavaScript WebRTC API. Any zero values are converted to
// js.Undefined(), which will result in the default value being used.
func configurationToValue(configuration Configuration) js.Value {
return js.ValueOf(map[string]interface{}{
"iceServers": iceServersToValue(configuration.ICEServers),
"iceTransportPolicy": stringEnumToValueOrUndefined(configuration.ICETransportPolicy.String()),
"bundlePolicy": stringEnumToValueOrUndefined(configuration.BundlePolicy.String()),
"rtcpMuxPolicy": stringEnumToValueOrUndefined(configuration.RTCPMuxPolicy.String()),
"peerIdentity": stringToValueOrUndefined(configuration.PeerIdentity),
"iceCandidatePoolSize": uint8ToValueOrUndefined(configuration.ICECandidatePoolSize),
// Note: Certificates are not currently supported.
// "certificates": configuration.Certificates,
})
}
func iceServersToValue(iceServers []ICEServer) js.Value {
if len(iceServers) == 0 {
return js.Undefined()
}
maps := make([]interface{}, len(iceServers))
for i, server := range iceServers {
maps[i] = iceServerToValue(server)
}
return js.ValueOf(maps)
}
func oauthCredentialToValue(o OAuthCredential) js.Value {
out := map[string]interface{}{
"MACKey": o.MACKey,
"AccessToken": o.AccessToken,
}
return js.ValueOf(out)
}
func iceServerToValue(server ICEServer) js.Value {
out := map[string]interface{}{
"urls": stringsToValue(server.URLs), // required
}
if server.Username != "" {
out["username"] = stringToValueOrUndefined(server.Username)
}
if server.Credential != nil {
switch t := server.Credential.(type) {
case string:
out["credential"] = stringToValueOrUndefined(t)
case OAuthCredential:
out["credential"] = oauthCredentialToValue(t)
}
}
out["credentialType"] = stringEnumToValueOrUndefined(server.CredentialType.String())
return js.ValueOf(out)
}
func valueToConfiguration(configValue js.Value) Configuration {
if configValue.IsNull() || configValue.IsUndefined() {
return Configuration{}
}
return Configuration{
ICEServers: valueToICEServers(configValue.Get("iceServers")),
ICETransportPolicy: NewICETransportPolicy(valueToStringOrZero(configValue.Get("iceTransportPolicy"))),
BundlePolicy: newBundlePolicy(valueToStringOrZero(configValue.Get("bundlePolicy"))),
RTCPMuxPolicy: newRTCPMuxPolicy(valueToStringOrZero(configValue.Get("rtcpMuxPolicy"))),
PeerIdentity: valueToStringOrZero(configValue.Get("peerIdentity")),
ICECandidatePoolSize: valueToUint8OrZero(configValue.Get("iceCandidatePoolSize")),
// Note: Certificates are not supported.
// Certificates []Certificate
}
}
func valueToICEServers(iceServersValue js.Value) []ICEServer {
if iceServersValue.IsNull() || iceServersValue.IsUndefined() {
return nil
}
iceServers := make([]ICEServer, iceServersValue.Length())
for i := 0; i < iceServersValue.Length(); i++ {
iceServers[i] = valueToICEServer(iceServersValue.Index(i))
}
return iceServers
}
func valueToICECredential(iceCredentialValue js.Value) interface{} {
if iceCredentialValue.IsNull() || iceCredentialValue.IsUndefined() {
return nil
}
if iceCredentialValue.Type() == js.TypeString {
return iceCredentialValue.String()
}
if iceCredentialValue.Type() == js.TypeObject {
return OAuthCredential{
MACKey: iceCredentialValue.Get("MACKey").String(),
AccessToken: iceCredentialValue.Get("AccessToken").String(),
}
}
return nil
}
func valueToICEServer(iceServerValue js.Value) ICEServer {
tpe, err := newICECredentialType(valueToStringOrZero(iceServerValue.Get("credentialType")))
if err != nil {
tpe = ICECredentialTypePassword
}
s := ICEServer{
URLs: valueToStrings(iceServerValue.Get("urls")), // required
Username: valueToStringOrZero(iceServerValue.Get("username")),
// Note: Credential and CredentialType are not currently supported.
Credential: valueToICECredential(iceServerValue.Get("credential")),
CredentialType: tpe,
}
return s
}
func valueToICECandidate(val js.Value) *ICECandidate {
if val.IsNull() || val.IsUndefined() {
return nil
}
if val.Get("protocol").IsUndefined() && !val.Get("candidate").IsUndefined() {
// Missing some fields, assume it's Firefox and parse SDP candidate.
c, err := ice.UnmarshalCandidate(val.Get("candidate").String())
if err != nil {
return nil
}
iceCandidate, err := newICECandidateFromICE(c)
if err != nil {
return nil
}
return &iceCandidate
}
protocol, _ := NewICEProtocol(val.Get("protocol").String())
candidateType, _ := NewICECandidateType(val.Get("type").String())
return &ICECandidate{
Foundation: val.Get("foundation").String(),
Priority: valueToUint32OrZero(val.Get("priority")),
Address: val.Get("address").String(),
Protocol: protocol,
Port: valueToUint16OrZero(val.Get("port")),
Typ: candidateType,
Component: stringToComponentIDOrZero(val.Get("component").String()),
RelatedAddress: val.Get("relatedAddress").String(),
RelatedPort: valueToUint16OrZero(val.Get("relatedPort")),
}
}
func stringToComponentIDOrZero(val string) uint16 {
// See: https://developer.mozilla.org/en-US/docs/Web/API/RTCIceComponent
switch val {
case "rtp":
return 1
case "rtcp":
return 2
}
return 0
}
func sessionDescriptionToValue(desc *SessionDescription) js.Value {
if desc == nil {
return js.Undefined()
}
return js.ValueOf(map[string]interface{}{
"type": desc.Type.String(),
"sdp": desc.SDP,
})
}
func valueToSessionDescription(descValue js.Value) *SessionDescription {
if descValue.IsNull() || descValue.IsUndefined() {
return nil
}
return &SessionDescription{
Type: NewSDPType(descValue.Get("type").String()),
SDP: descValue.Get("sdp").String(),
}
}
func offerOptionsToValue(offerOptions *OfferOptions) js.Value {
if offerOptions == nil {
return js.Undefined()
}
return js.ValueOf(map[string]interface{}{
"iceRestart": offerOptions.ICERestart,
"voiceActivityDetection": offerOptions.VoiceActivityDetection,
})
}
func answerOptionsToValue(answerOptions *AnswerOptions) js.Value {
if answerOptions == nil {
return js.Undefined()
}
return js.ValueOf(map[string]interface{}{
"voiceActivityDetection": answerOptions.VoiceActivityDetection,
})
}
func iceCandidateInitToValue(candidate ICECandidateInit) js.Value {
return js.ValueOf(map[string]interface{}{
"candidate": candidate.Candidate,
"sdpMid": stringPointerToValue(candidate.SDPMid),
"sdpMLineIndex": uint16PointerToValue(candidate.SDPMLineIndex),
"usernameFragment": stringPointerToValue(candidate.UsernameFragment),
})
}
func dataChannelInitToValue(options *DataChannelInit) js.Value {
if options == nil {
return js.Undefined()
}
maxPacketLifeTime := uint16PointerToValue(options.MaxPacketLifeTime)
return js.ValueOf(map[string]interface{}{
"ordered": boolPointerToValue(options.Ordered),
"maxPacketLifeTime": maxPacketLifeTime,
// See https://bugs.chromium.org/p/chromium/issues/detail?id=696681
// Chrome calls this "maxRetransmitTime"
"maxRetransmitTime": maxPacketLifeTime,
"maxRetransmits": uint16PointerToValue(options.MaxRetransmits),
"protocol": stringPointerToValue(options.Protocol),
"negotiated": boolPointerToValue(options.Negotiated),
"id": uint16PointerToValue(options.ID),
})
}
func rtpTransceiverInitInitToValue(init RTPTransceiverInit) js.Value {
return js.ValueOf(map[string]interface{}{
"direction": init.Direction.String(),
})
}
