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var ZLMRTCClient = ( function ( exports ) {
'use strict' ;
const Events$1 = {
WEBRTC _NOT _SUPPORT : 'WEBRTC_NOT_SUPPORT' ,
WEBRTC _ICE _CANDIDATE _ERROR : 'WEBRTC_ICE_CANDIDATE_ERROR' ,
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WEBRTC _OFFER _ANWSER _EXCHANGE _FAILED : 'WEBRTC_OFFER_ANWSER_EXCHANGE_FAILED' ,
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WEBRTC _ON _REMOTE _STREAMS : 'WEBRTC_ON_REMOTE_STREAMS' ,
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WEBRTC _ON _LOCAL _STREAM : 'WEBRTC_ON_LOCAL_STREAM' ,
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WEBRTC _ON _CONNECTION _STATE _CHANGE : 'WEBRTC_ON_CONNECTION_STATE_CHANGE' ,
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WEBRTC _ON _DATA _CHANNEL _OPEN : 'WEBRTC_ON_DATA_CHANNEL_OPEN' ,
WEBRTC _ON _DATA _CHANNEL _CLOSE : 'WEBRTC_ON_DATA_CHANNEL_CLOSE' ,
WEBRTC _ON _DATA _CHANNEL _ERR : 'WEBRTC_ON_DATA_CHANNEL_ERR' ,
WEBRTC _ON _DATA _CHANNEL _MSG : 'WEBRTC_ON_DATA_CHANNEL_MSG' ,
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CAPTURE _STREAM _FAILED : 'CAPTURE_STREAM_FAILED'
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} ;
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const VERSION$1 = '1.1.1' ;
const BUILD _DATE = 'Tue Nov 19 2024 20:10:15 GMT+0800 (China Standard Time)' ;
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// Copyright (C) <2018> Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0
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// eslint-disable-next-line require-jsdoc
function isFirefox ( ) {
return window . navigator . userAgent . match ( 'Firefox' ) !== null ;
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}
// eslint-disable-next-line require-jsdoc
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function isChrome ( ) {
return window . navigator . userAgent . match ( 'Chrome' ) !== null ;
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}
// eslint-disable-next-line require-jsdoc
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function isEdge ( ) {
return window . navigator . userAgent . match ( /Edge\/(\d+).(\d+)$/ ) !== null ;
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}
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// Copyright (C) <2018> Intel Corporation
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/ * *
* @ class AudioSourceInfo
* @ classDesc Source info about an audio track . Values : 'mic' , 'screen-cast' , 'file' , 'mixed' .
* @ memberOf Owt . Base
* @ readonly
* @ enum { string }
* /
const AudioSourceInfo = {
MIC : 'mic' ,
SCREENCAST : 'screen-cast' ,
FILE : 'file' ,
MIXED : 'mixed'
} ;
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/ * *
* @ class VideoSourceInfo
* @ classDesc Source info about a video track . Values : 'camera' , 'screen-cast' , 'file' , 'mixed' .
* @ memberOf Owt . Base
* @ readonly
* @ enum { string }
* /
const VideoSourceInfo = {
CAMERA : 'camera' ,
SCREENCAST : 'screen-cast' ,
FILE : 'file' ,
MIXED : 'mixed'
} ;
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/ * *
* @ class TrackKind
* @ classDesc Kind of a track . Values : 'audio' for audio track , 'video' for video track , 'av' for both audio and video tracks .
* @ memberOf Owt . Base
* @ readonly
* @ enum { string }
* /
const TrackKind = {
/ * *
* Audio tracks .
* @ type string
* /
AUDIO : 'audio' ,
/ * *
* Video tracks .
* @ type string
* /
VIDEO : 'video' ,
/ * *
* Both audio and video tracks .
* @ type string
* /
AUDIO _AND _VIDEO : 'av'
} ;
/ * *
* @ class Resolution
* @ memberOf Owt . Base
* @ classDesc The Resolution defines the size of a rectangle .
* @ constructor
* @ param { number } width
* @ param { number } height
* /
class Resolution {
// eslint-disable-next-line require-jsdoc
constructor ( width , height ) {
/ * *
* @ member { number } width
* @ instance
* @ memberof Owt . Base . Resolution
* /
this . width = width ;
/ * *
* @ member { number } height
* @ instance
* @ memberof Owt . Base . Resolution
* /
this . height = height ;
}
}
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
let logDisabled _ = true ;
let deprecationWarnings _ = true ;
/ * *
* Extract browser version out of the provided user agent string .
*
* @ param { ! string } uastring userAgent string .
* @ param { ! string } expr Regular expression used as match criteria .
* @ param { ! number } pos position in the version string to be returned .
* @ return { ! number } browser version .
* /
function extractVersion ( uastring , expr , pos ) {
const match = uastring . match ( expr ) ;
return match && match . length >= pos && parseInt ( match [ pos ] , 10 ) ;
}
// Wraps the peerconnection event eventNameToWrap in a function
// which returns the modified event object (or false to prevent
// the event).
function wrapPeerConnectionEvent ( window , eventNameToWrap , wrapper ) {
if ( ! window . RTCPeerConnection ) {
return ;
}
const proto = window . RTCPeerConnection . prototype ;
const nativeAddEventListener = proto . addEventListener ;
proto . addEventListener = function ( nativeEventName , cb ) {
if ( nativeEventName !== eventNameToWrap ) {
return nativeAddEventListener . apply ( this , arguments ) ;
}
const wrappedCallback = ( e ) => {
const modifiedEvent = wrapper ( e ) ;
if ( modifiedEvent ) {
if ( cb . handleEvent ) {
cb . handleEvent ( modifiedEvent ) ;
} else {
cb ( modifiedEvent ) ;
}
}
} ;
this . _eventMap = this . _eventMap || { } ;
if ( ! this . _eventMap [ eventNameToWrap ] ) {
this . _eventMap [ eventNameToWrap ] = new Map ( ) ;
}
this . _eventMap [ eventNameToWrap ] . set ( cb , wrappedCallback ) ;
return nativeAddEventListener . apply ( this , [ nativeEventName ,
wrappedCallback ] ) ;
} ;
const nativeRemoveEventListener = proto . removeEventListener ;
proto . removeEventListener = function ( nativeEventName , cb ) {
if ( nativeEventName !== eventNameToWrap || ! this . _eventMap
|| ! this . _eventMap [ eventNameToWrap ] ) {
return nativeRemoveEventListener . apply ( this , arguments ) ;
}
if ( ! this . _eventMap [ eventNameToWrap ] . has ( cb ) ) {
return nativeRemoveEventListener . apply ( this , arguments ) ;
}
const unwrappedCb = this . _eventMap [ eventNameToWrap ] . get ( cb ) ;
this . _eventMap [ eventNameToWrap ] . delete ( cb ) ;
if ( this . _eventMap [ eventNameToWrap ] . size === 0 ) {
delete this . _eventMap [ eventNameToWrap ] ;
}
if ( Object . keys ( this . _eventMap ) . length === 0 ) {
delete this . _eventMap ;
}
return nativeRemoveEventListener . apply ( this , [ nativeEventName ,
unwrappedCb ] ) ;
} ;
Object . defineProperty ( proto , 'on' + eventNameToWrap , {
get ( ) {
return this [ '_on' + eventNameToWrap ] ;
} ,
set ( cb ) {
if ( this [ '_on' + eventNameToWrap ] ) {
this . removeEventListener ( eventNameToWrap ,
this [ '_on' + eventNameToWrap ] ) ;
delete this [ '_on' + eventNameToWrap ] ;
}
if ( cb ) {
this . addEventListener ( eventNameToWrap ,
this [ '_on' + eventNameToWrap ] = cb ) ;
}
} ,
enumerable : true ,
configurable : true
} ) ;
}
function disableLog ( bool ) {
if ( typeof bool !== 'boolean' ) {
return new Error ( 'Argument type: ' + typeof bool +
'. Please use a boolean.' ) ;
}
logDisabled _ = bool ;
return ( bool ) ? 'adapter.js logging disabled' :
'adapter.js logging enabled' ;
}
/ * *
* Disable or enable deprecation warnings
* @ param { ! boolean } bool set to true to disable warnings .
* /
function disableWarnings ( bool ) {
if ( typeof bool !== 'boolean' ) {
return new Error ( 'Argument type: ' + typeof bool +
'. Please use a boolean.' ) ;
}
deprecationWarnings _ = ! bool ;
return 'adapter.js deprecation warnings ' + ( bool ? 'disabled' : 'enabled' ) ;
}
function log$1 ( ) {
if ( typeof window === 'object' ) {
if ( logDisabled _ ) {
return ;
}
if ( typeof console !== 'undefined' && typeof console . log === 'function' ) {
console . log . apply ( console , arguments ) ;
}
}
}
/ * *
* Shows a deprecation warning suggesting the modern and spec - compatible API .
* /
function deprecated ( oldMethod , newMethod ) {
if ( ! deprecationWarnings _ ) {
return ;
}
console . warn ( oldMethod + ' is deprecated, please use ' + newMethod +
' instead.' ) ;
}
/ * *
* Browser detector .
*
* @ return { object } result containing browser and version
* properties .
* /
function detectBrowser ( window ) {
// Returned result object.
const result = { browser : null , version : null } ;
// Fail early if it's not a browser
if ( typeof window === 'undefined' || ! window . navigator ) {
result . browser = 'Not a browser.' ;
return result ;
}
const { navigator } = window ;
if ( navigator . mozGetUserMedia ) { // Firefox.
result . browser = 'firefox' ;
result . version = extractVersion ( navigator . userAgent ,
/Firefox\/(\d+)\./ , 1 ) ;
} else if ( navigator . webkitGetUserMedia ||
( window . isSecureContext === false && window . webkitRTCPeerConnection &&
! window . RTCIceGatherer ) ) {
// Chrome, Chromium, Webview, Opera.
// Version matches Chrome/WebRTC version.
// Chrome 74 removed webkitGetUserMedia on http as well so we need the
// more complicated fallback to webkitRTCPeerConnection.
result . browser = 'chrome' ;
result . version = extractVersion ( navigator . userAgent ,
/Chrom(e|ium)\/(\d+)\./ , 2 ) ;
} else if ( navigator . mediaDevices &&
navigator . userAgent . match ( /Edge\/(\d+).(\d+)$/ ) ) { // Edge.
result . browser = 'edge' ;
result . version = extractVersion ( navigator . userAgent ,
/Edge\/(\d+).(\d+)$/ , 2 ) ;
} else if ( window . RTCPeerConnection &&
navigator . userAgent . match ( /AppleWebKit\/(\d+)\./ ) ) { // Safari.
result . browser = 'safari' ;
result . version = extractVersion ( navigator . userAgent ,
/AppleWebKit\/(\d+)\./ , 1 ) ;
result . supportsUnifiedPlan = window . RTCRtpTransceiver &&
'currentDirection' in window . RTCRtpTransceiver . prototype ;
} else { // Default fallthrough: not supported.
result . browser = 'Not a supported browser.' ;
return result ;
}
return result ;
}
/ * *
* Checks if something is an object .
*
* @ param { * } val The something you want to check .
* @ return true if val is an object , false otherwise .
* /
function isObject$1 ( val ) {
return Object . prototype . toString . call ( val ) === '[object Object]' ;
}
/ * *
* Remove all empty objects and undefined values
* from a nested object -- an enhanced and vanilla version
* of Lodash ' s ` compact ` .
* /
function compactObject ( data ) {
if ( ! isObject$1 ( data ) ) {
return data ;
}
return Object . keys ( data ) . reduce ( function ( accumulator , key ) {
const isObj = isObject$1 ( data [ key ] ) ;
const value = isObj ? compactObject ( data [ key ] ) : data [ key ] ;
const isEmptyObject = isObj && ! Object . keys ( value ) . length ;
if ( value === undefined || isEmptyObject ) {
return accumulator ;
}
return Object . assign ( accumulator , { [ key ] : value } ) ;
} , { } ) ;
}
/* iterates the stats graph recursively. */
function walkStats ( stats , base , resultSet ) {
if ( ! base || resultSet . has ( base . id ) ) {
return ;
}
resultSet . set ( base . id , base ) ;
Object . keys ( base ) . forEach ( name => {
if ( name . endsWith ( 'Id' ) ) {
walkStats ( stats , stats . get ( base [ name ] ) , resultSet ) ;
} else if ( name . endsWith ( 'Ids' ) ) {
base [ name ] . forEach ( id => {
walkStats ( stats , stats . get ( id ) , resultSet ) ;
} ) ;
}
} ) ;
}
/* filter getStats for a sender/receiver track. */
function filterStats ( result , track , outbound ) {
const streamStatsType = outbound ? 'outbound-rtp' : 'inbound-rtp' ;
const filteredResult = new Map ( ) ;
if ( track === null ) {
return filteredResult ;
}
const trackStats = [ ] ;
result . forEach ( value => {
if ( value . type === 'track' &&
value . trackIdentifier === track . id ) {
trackStats . push ( value ) ;
}
} ) ;
trackStats . forEach ( trackStat => {
result . forEach ( stats => {
if ( stats . type === streamStatsType && stats . trackId === trackStat . id ) {
walkStats ( result , stats , filteredResult ) ;
}
} ) ;
} ) ;
return filteredResult ;
}
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
const logging = log$1 ;
function shimGetUserMedia$3 ( window , browserDetails ) {
const navigator = window && window . navigator ;
if ( ! navigator . mediaDevices ) {
return ;
}
const constraintsToChrome _ = function ( c ) {
if ( typeof c !== 'object' || c . mandatory || c . optional ) {
return c ;
}
const cc = { } ;
Object . keys ( c ) . forEach ( key => {
if ( key === 'require' || key === 'advanced' || key === 'mediaSource' ) {
return ;
}
const r = ( typeof c [ key ] === 'object' ) ? c [ key ] : { ideal : c [ key ] } ;
if ( r . exact !== undefined && typeof r . exact === 'number' ) {
r . min = r . max = r . exact ;
}
const oldname _ = function ( prefix , name ) {
if ( prefix ) {
return prefix + name . charAt ( 0 ) . toUpperCase ( ) + name . slice ( 1 ) ;
}
return ( name === 'deviceId' ) ? 'sourceId' : name ;
} ;
if ( r . ideal !== undefined ) {
cc . optional = cc . optional || [ ] ;
let oc = { } ;
if ( typeof r . ideal === 'number' ) {
oc [ oldname _ ( 'min' , key ) ] = r . ideal ;
cc . optional . push ( oc ) ;
oc = { } ;
oc [ oldname _ ( 'max' , key ) ] = r . ideal ;
cc . optional . push ( oc ) ;
} else {
oc [ oldname _ ( '' , key ) ] = r . ideal ;
cc . optional . push ( oc ) ;
}
}
if ( r . exact !== undefined && typeof r . exact !== 'number' ) {
cc . mandatory = cc . mandatory || { } ;
cc . mandatory [ oldname _ ( '' , key ) ] = r . exact ;
} else {
[ 'min' , 'max' ] . forEach ( mix => {
if ( r [ mix ] !== undefined ) {
cc . mandatory = cc . mandatory || { } ;
cc . mandatory [ oldname _ ( mix , key ) ] = r [ mix ] ;
}
} ) ;
}
} ) ;
if ( c . advanced ) {
cc . optional = ( cc . optional || [ ] ) . concat ( c . advanced ) ;
}
return cc ;
} ;
const shimConstraints _ = function ( constraints , func ) {
if ( browserDetails . version >= 61 ) {
return func ( constraints ) ;
}
constraints = JSON . parse ( JSON . stringify ( constraints ) ) ;
if ( constraints && typeof constraints . audio === 'object' ) {
const remap = function ( obj , a , b ) {
if ( a in obj && ! ( b in obj ) ) {
obj [ b ] = obj [ a ] ;
delete obj [ a ] ;
}
} ;
constraints = JSON . parse ( JSON . stringify ( constraints ) ) ;
remap ( constraints . audio , 'autoGainControl' , 'googAutoGainControl' ) ;
remap ( constraints . audio , 'noiseSuppression' , 'googNoiseSuppression' ) ;
constraints . audio = constraintsToChrome _ ( constraints . audio ) ;
}
if ( constraints && typeof constraints . video === 'object' ) {
// Shim facingMode for mobile & surface pro.
let face = constraints . video . facingMode ;
face = face && ( ( typeof face === 'object' ) ? face : { ideal : face } ) ;
const getSupportedFacingModeLies = browserDetails . version < 66 ;
if ( ( face && ( face . exact === 'user' || face . exact === 'environment' ||
face . ideal === 'user' || face . ideal === 'environment' ) ) &&
! ( navigator . mediaDevices . getSupportedConstraints &&
navigator . mediaDevices . getSupportedConstraints ( ) . facingMode &&
! getSupportedFacingModeLies ) ) {
delete constraints . video . facingMode ;
let matches ;
if ( face . exact === 'environment' || face . ideal === 'environment' ) {
matches = [ 'back' , 'rear' ] ;
} else if ( face . exact === 'user' || face . ideal === 'user' ) {
matches = [ 'front' ] ;
}
if ( matches ) {
// Look for matches in label, or use last cam for back (typical).
return navigator . mediaDevices . enumerateDevices ( )
. then ( devices => {
devices = devices . filter ( d => d . kind === 'videoinput' ) ;
let dev = devices . find ( d => matches . some ( match =>
d . label . toLowerCase ( ) . includes ( match ) ) ) ;
if ( ! dev && devices . length && matches . includes ( 'back' ) ) {
dev = devices [ devices . length - 1 ] ; // more likely the back cam
}
if ( dev ) {
constraints . video . deviceId = face . exact ? { exact : dev . deviceId } :
{ ideal : dev . deviceId } ;
}
constraints . video = constraintsToChrome _ ( constraints . video ) ;
logging ( 'chrome: ' + JSON . stringify ( constraints ) ) ;
return func ( constraints ) ;
} ) ;
}
}
constraints . video = constraintsToChrome _ ( constraints . video ) ;
}
logging ( 'chrome: ' + JSON . stringify ( constraints ) ) ;
return func ( constraints ) ;
} ;
const shimError _ = function ( e ) {
if ( browserDetails . version >= 64 ) {
return e ;
}
return {
name : {
PermissionDeniedError : 'NotAllowedError' ,
PermissionDismissedError : 'NotAllowedError' ,
InvalidStateError : 'NotAllowedError' ,
DevicesNotFoundError : 'NotFoundError' ,
ConstraintNotSatisfiedError : 'OverconstrainedError' ,
TrackStartError : 'NotReadableError' ,
MediaDeviceFailedDueToShutdown : 'NotAllowedError' ,
MediaDeviceKillSwitchOn : 'NotAllowedError' ,
TabCaptureError : 'AbortError' ,
ScreenCaptureError : 'AbortError' ,
DeviceCaptureError : 'AbortError'
} [ e . name ] || e . name ,
message : e . message ,
constraint : e . constraint || e . constraintName ,
toString ( ) {
return this . name + ( this . message && ': ' ) + this . message ;
}
} ;
} ;
const getUserMedia _ = function ( constraints , onSuccess , onError ) {
shimConstraints _ ( constraints , c => {
navigator . webkitGetUserMedia ( c , onSuccess , e => {
if ( onError ) {
onError ( shimError _ ( e ) ) ;
}
} ) ;
} ) ;
} ;
navigator . getUserMedia = getUserMedia _ . bind ( navigator ) ;
// Even though Chrome 45 has navigator.mediaDevices and a getUserMedia
// function which returns a Promise, it does not accept spec-style
// constraints.
if ( navigator . mediaDevices . getUserMedia ) {
const origGetUserMedia = navigator . mediaDevices . getUserMedia .
bind ( navigator . mediaDevices ) ;
navigator . mediaDevices . getUserMedia = function ( cs ) {
return shimConstraints _ ( cs , c => origGetUserMedia ( c ) . then ( stream => {
if ( c . audio && ! stream . getAudioTracks ( ) . length ||
c . video && ! stream . getVideoTracks ( ) . length ) {
stream . getTracks ( ) . forEach ( track => {
track . stop ( ) ;
} ) ;
throw new DOMException ( '' , 'NotFoundError' ) ;
}
return stream ;
} , e => Promise . reject ( shimError _ ( e ) ) ) ) ;
} ;
}
}
/ *
* Copyright ( c ) 2018 The adapter . js project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimGetDisplayMedia$2 ( window , getSourceId ) {
if ( window . navigator . mediaDevices &&
'getDisplayMedia' in window . navigator . mediaDevices ) {
return ;
}
if ( ! ( window . navigator . mediaDevices ) ) {
return ;
}
// getSourceId is a function that returns a promise resolving with
// the sourceId of the screen/window/tab to be shared.
if ( typeof getSourceId !== 'function' ) {
console . error ( 'shimGetDisplayMedia: getSourceId argument is not ' +
'a function' ) ;
return ;
}
window . navigator . mediaDevices . getDisplayMedia =
function getDisplayMedia ( constraints ) {
return getSourceId ( constraints )
. then ( sourceId => {
const widthSpecified = constraints . video && constraints . video . width ;
const heightSpecified = constraints . video &&
constraints . video . height ;
const frameRateSpecified = constraints . video &&
constraints . video . frameRate ;
constraints . video = {
mandatory : {
chromeMediaSource : 'desktop' ,
chromeMediaSourceId : sourceId ,
maxFrameRate : frameRateSpecified || 3
}
} ;
if ( widthSpecified ) {
constraints . video . mandatory . maxWidth = widthSpecified ;
}
if ( heightSpecified ) {
constraints . video . mandatory . maxHeight = heightSpecified ;
}
return window . navigator . mediaDevices . getUserMedia ( constraints ) ;
} ) ;
} ;
}
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimMediaStream ( window ) {
window . MediaStream = window . MediaStream || window . webkitMediaStream ;
}
function shimOnTrack$1 ( window ) {
if ( typeof window === 'object' && window . RTCPeerConnection && ! ( 'ontrack' in
window . RTCPeerConnection . prototype ) ) {
Object . defineProperty ( window . RTCPeerConnection . prototype , 'ontrack' , {
get ( ) {
return this . _ontrack ;
} ,
set ( f ) {
if ( this . _ontrack ) {
this . removeEventListener ( 'track' , this . _ontrack ) ;
}
this . addEventListener ( 'track' , this . _ontrack = f ) ;
} ,
enumerable : true ,
configurable : true
} ) ;
const origSetRemoteDescription =
window . RTCPeerConnection . prototype . setRemoteDescription ;
window . RTCPeerConnection . prototype . setRemoteDescription =
function setRemoteDescription ( ) {
if ( ! this . _ontrackpoly ) {
this . _ontrackpoly = ( e ) => {
// onaddstream does not fire when a track is added to an existing
// stream. But stream.onaddtrack is implemented so we use that.
e . stream . addEventListener ( 'addtrack' , te => {
let receiver ;
if ( window . RTCPeerConnection . prototype . getReceivers ) {
receiver = this . getReceivers ( )
. find ( r => r . track && r . track . id === te . track . id ) ;
} else {
receiver = { track : te . track } ;
}
const event = new Event ( 'track' ) ;
event . track = te . track ;
event . receiver = receiver ;
event . transceiver = { receiver } ;
event . streams = [ e . stream ] ;
this . dispatchEvent ( event ) ;
} ) ;
e . stream . getTracks ( ) . forEach ( track => {
let receiver ;
if ( window . RTCPeerConnection . prototype . getReceivers ) {
receiver = this . getReceivers ( )
. find ( r => r . track && r . track . id === track . id ) ;
} else {
receiver = { track } ;
}
const event = new Event ( 'track' ) ;
event . track = track ;
event . receiver = receiver ;
event . transceiver = { receiver } ;
event . streams = [ e . stream ] ;
this . dispatchEvent ( event ) ;
} ) ;
} ;
this . addEventListener ( 'addstream' , this . _ontrackpoly ) ;
}
return origSetRemoteDescription . apply ( this , arguments ) ;
} ;
} else {
// even if RTCRtpTransceiver is in window, it is only used and
// emitted in unified-plan. Unfortunately this means we need
// to unconditionally wrap the event.
wrapPeerConnectionEvent ( window , 'track' , e => {
if ( ! e . transceiver ) {
Object . defineProperty ( e , 'transceiver' ,
{ value : { receiver : e . receiver } } ) ;
}
return e ;
} ) ;
}
}
function shimGetSendersWithDtmf ( window ) {
// Overrides addTrack/removeTrack, depends on shimAddTrackRemoveTrack.
if ( typeof window === 'object' && window . RTCPeerConnection &&
! ( 'getSenders' in window . RTCPeerConnection . prototype ) &&
'createDTMFSender' in window . RTCPeerConnection . prototype ) {
const shimSenderWithDtmf = function ( pc , track ) {
return {
track ,
get dtmf ( ) {
if ( this . _dtmf === undefined ) {
if ( track . kind === 'audio' ) {
this . _dtmf = pc . createDTMFSender ( track ) ;
} else {
this . _dtmf = null ;
}
}
return this . _dtmf ;
} ,
_pc : pc
} ;
} ;
// augment addTrack when getSenders is not available.
if ( ! window . RTCPeerConnection . prototype . getSenders ) {
window . RTCPeerConnection . prototype . getSenders = function getSenders ( ) {
this . _senders = this . _senders || [ ] ;
return this . _senders . slice ( ) ; // return a copy of the internal state.
} ;
const origAddTrack = window . RTCPeerConnection . prototype . addTrack ;
window . RTCPeerConnection . prototype . addTrack =
function addTrack ( track , stream ) {
let sender = origAddTrack . apply ( this , arguments ) ;
if ( ! sender ) {
sender = shimSenderWithDtmf ( this , track ) ;
this . _senders . push ( sender ) ;
}
return sender ;
} ;
const origRemoveTrack = window . RTCPeerConnection . prototype . removeTrack ;
window . RTCPeerConnection . prototype . removeTrack =
function removeTrack ( sender ) {
origRemoveTrack . apply ( this , arguments ) ;
const idx = this . _senders . indexOf ( sender ) ;
if ( idx !== - 1 ) {
this . _senders . splice ( idx , 1 ) ;
}
} ;
}
const origAddStream = window . RTCPeerConnection . prototype . addStream ;
window . RTCPeerConnection . prototype . addStream = function addStream ( stream ) {
this . _senders = this . _senders || [ ] ;
origAddStream . apply ( this , [ stream ] ) ;
stream . getTracks ( ) . forEach ( track => {
this . _senders . push ( shimSenderWithDtmf ( this , track ) ) ;
} ) ;
} ;
const origRemoveStream = window . RTCPeerConnection . prototype . removeStream ;
window . RTCPeerConnection . prototype . removeStream =
function removeStream ( stream ) {
this . _senders = this . _senders || [ ] ;
origRemoveStream . apply ( this , [ stream ] ) ;
stream . getTracks ( ) . forEach ( track => {
const sender = this . _senders . find ( s => s . track === track ) ;
if ( sender ) { // remove sender
this . _senders . splice ( this . _senders . indexOf ( sender ) , 1 ) ;
}
} ) ;
} ;
} else if ( typeof window === 'object' && window . RTCPeerConnection &&
'getSenders' in window . RTCPeerConnection . prototype &&
'createDTMFSender' in window . RTCPeerConnection . prototype &&
window . RTCRtpSender &&
! ( 'dtmf' in window . RTCRtpSender . prototype ) ) {
const origGetSenders = window . RTCPeerConnection . prototype . getSenders ;
window . RTCPeerConnection . prototype . getSenders = function getSenders ( ) {
const senders = origGetSenders . apply ( this , [ ] ) ;
senders . forEach ( sender => sender . _pc = this ) ;
return senders ;
} ;
Object . defineProperty ( window . RTCRtpSender . prototype , 'dtmf' , {
get ( ) {
if ( this . _dtmf === undefined ) {
if ( this . track . kind === 'audio' ) {
this . _dtmf = this . _pc . createDTMFSender ( this . track ) ;
} else {
this . _dtmf = null ;
}
}
return this . _dtmf ;
}
} ) ;
}
}
function shimGetStats ( window ) {
if ( ! window . RTCPeerConnection ) {
return ;
}
const origGetStats = window . RTCPeerConnection . prototype . getStats ;
window . RTCPeerConnection . prototype . getStats = function getStats ( ) {
const [ selector , onSucc , onErr ] = arguments ;
// If selector is a function then we are in the old style stats so just
// pass back the original getStats format to avoid breaking old users.
if ( arguments . length > 0 && typeof selector === 'function' ) {
return origGetStats . apply ( this , arguments ) ;
}
// When spec-style getStats is supported, return those when called with
// either no arguments or the selector argument is null.
if ( origGetStats . length === 0 && ( arguments . length === 0 ||
typeof selector !== 'function' ) ) {
return origGetStats . apply ( this , [ ] ) ;
}
const fixChromeStats _ = function ( response ) {
const standardReport = { } ;
const reports = response . result ( ) ;
reports . forEach ( report => {
const standardStats = {
id : report . id ,
timestamp : report . timestamp ,
type : {
localcandidate : 'local-candidate' ,
remotecandidate : 'remote-candidate'
} [ report . type ] || report . type
} ;
report . names ( ) . forEach ( name => {
standardStats [ name ] = report . stat ( name ) ;
} ) ;
standardReport [ standardStats . id ] = standardStats ;
} ) ;
return standardReport ;
} ;
// shim getStats with maplike support
const makeMapStats = function ( stats ) {
return new Map ( Object . keys ( stats ) . map ( key => [ key , stats [ key ] ] ) ) ;
} ;
if ( arguments . length >= 2 ) {
const successCallbackWrapper _ = function ( response ) {
onSucc ( makeMapStats ( fixChromeStats _ ( response ) ) ) ;
} ;
return origGetStats . apply ( this , [ successCallbackWrapper _ ,
selector ] ) ;
}
// promise-support
return new Promise ( ( resolve , reject ) => {
origGetStats . apply ( this , [
function ( response ) {
resolve ( makeMapStats ( fixChromeStats _ ( response ) ) ) ;
} , reject ] ) ;
} ) . then ( onSucc , onErr ) ;
} ;
}
function shimSenderReceiverGetStats ( window ) {
if ( ! ( typeof window === 'object' && window . RTCPeerConnection &&
window . RTCRtpSender && window . RTCRtpReceiver ) ) {
return ;
}
// shim sender stats.
if ( ! ( 'getStats' in window . RTCRtpSender . prototype ) ) {
const origGetSenders = window . RTCPeerConnection . prototype . getSenders ;
if ( origGetSenders ) {
window . RTCPeerConnection . prototype . getSenders = function getSenders ( ) {
const senders = origGetSenders . apply ( this , [ ] ) ;
senders . forEach ( sender => sender . _pc = this ) ;
return senders ;
} ;
}
const origAddTrack = window . RTCPeerConnection . prototype . addTrack ;
if ( origAddTrack ) {
window . RTCPeerConnection . prototype . addTrack = function addTrack ( ) {
const sender = origAddTrack . apply ( this , arguments ) ;
sender . _pc = this ;
return sender ;
} ;
}
window . RTCRtpSender . prototype . getStats = function getStats ( ) {
const sender = this ;
return this . _pc . getStats ( ) . then ( result =>
/ * N o t e : t h i s w i l l i n c l u d e s t a t s o f a l l s e n d e r s t h a t
* send a track with the same id as sender . track as
* it is not possible to identify the RTCRtpSender .
* /
filterStats ( result , sender . track , true ) ) ;
} ;
}
// shim receiver stats.
if ( ! ( 'getStats' in window . RTCRtpReceiver . prototype ) ) {
const origGetReceivers = window . RTCPeerConnection . prototype . getReceivers ;
if ( origGetReceivers ) {
window . RTCPeerConnection . prototype . getReceivers =
function getReceivers ( ) {
const receivers = origGetReceivers . apply ( this , [ ] ) ;
receivers . forEach ( receiver => receiver . _pc = this ) ;
return receivers ;
} ;
}
wrapPeerConnectionEvent ( window , 'track' , e => {
e . receiver . _pc = e . srcElement ;
return e ;
} ) ;
window . RTCRtpReceiver . prototype . getStats = function getStats ( ) {
const receiver = this ;
return this . _pc . getStats ( ) . then ( result =>
filterStats ( result , receiver . track , false ) ) ;
} ;
}
if ( ! ( 'getStats' in window . RTCRtpSender . prototype &&
'getStats' in window . RTCRtpReceiver . prototype ) ) {
return ;
}
// shim RTCPeerConnection.getStats(track).
const origGetStats = window . RTCPeerConnection . prototype . getStats ;
window . RTCPeerConnection . prototype . getStats = function getStats ( ) {
if ( arguments . length > 0 &&
arguments [ 0 ] instanceof window . MediaStreamTrack ) {
const track = arguments [ 0 ] ;
let sender ;
let receiver ;
let err ;
this . getSenders ( ) . forEach ( s => {
if ( s . track === track ) {
if ( sender ) {
err = true ;
} else {
sender = s ;
}
}
} ) ;
this . getReceivers ( ) . forEach ( r => {
if ( r . track === track ) {
if ( receiver ) {
err = true ;
} else {
receiver = r ;
}
}
return r . track === track ;
} ) ;
if ( err || ( sender && receiver ) ) {
return Promise . reject ( new DOMException (
'There are more than one sender or receiver for the track.' ,
'InvalidAccessError' ) ) ;
} else if ( sender ) {
return sender . getStats ( ) ;
} else if ( receiver ) {
return receiver . getStats ( ) ;
}
return Promise . reject ( new DOMException (
'There is no sender or receiver for the track.' ,
'InvalidAccessError' ) ) ;
}
return origGetStats . apply ( this , arguments ) ;
} ;
}
function shimAddTrackRemoveTrackWithNative ( window ) {
// shim addTrack/removeTrack with native variants in order to make
// the interactions with legacy getLocalStreams behave as in other browsers.
// Keeps a mapping stream.id => [stream, rtpsenders...]
window . RTCPeerConnection . prototype . getLocalStreams =
function getLocalStreams ( ) {
this . _shimmedLocalStreams = this . _shimmedLocalStreams || { } ;
return Object . keys ( this . _shimmedLocalStreams )
. map ( streamId => this . _shimmedLocalStreams [ streamId ] [ 0 ] ) ;
} ;
const origAddTrack = window . RTCPeerConnection . prototype . addTrack ;
window . RTCPeerConnection . prototype . addTrack =
function addTrack ( track , stream ) {
if ( ! stream ) {
return origAddTrack . apply ( this , arguments ) ;
}
this . _shimmedLocalStreams = this . _shimmedLocalStreams || { } ;
const sender = origAddTrack . apply ( this , arguments ) ;
if ( ! this . _shimmedLocalStreams [ stream . id ] ) {
this . _shimmedLocalStreams [ stream . id ] = [ stream , sender ] ;
} else if ( this . _shimmedLocalStreams [ stream . id ] . indexOf ( sender ) === - 1 ) {
this . _shimmedLocalStreams [ stream . id ] . push ( sender ) ;
}
return sender ;
} ;
const origAddStream = window . RTCPeerConnection . prototype . addStream ;
window . RTCPeerConnection . prototype . addStream = function addStream ( stream ) {
this . _shimmedLocalStreams = this . _shimmedLocalStreams || { } ;
stream . getTracks ( ) . forEach ( track => {
const alreadyExists = this . getSenders ( ) . find ( s => s . track === track ) ;
if ( alreadyExists ) {
throw new DOMException ( 'Track already exists.' ,
'InvalidAccessError' ) ;
}
} ) ;
const existingSenders = this . getSenders ( ) ;
origAddStream . apply ( this , arguments ) ;
const newSenders = this . getSenders ( )
. filter ( newSender => existingSenders . indexOf ( newSender ) === - 1 ) ;
this . _shimmedLocalStreams [ stream . id ] = [ stream ] . concat ( newSenders ) ;
} ;
const origRemoveStream = window . RTCPeerConnection . prototype . removeStream ;
window . RTCPeerConnection . prototype . removeStream =
function removeStream ( stream ) {
this . _shimmedLocalStreams = this . _shimmedLocalStreams || { } ;
delete this . _shimmedLocalStreams [ stream . id ] ;
return origRemoveStream . apply ( this , arguments ) ;
} ;
const origRemoveTrack = window . RTCPeerConnection . prototype . removeTrack ;
window . RTCPeerConnection . prototype . removeTrack =
function removeTrack ( sender ) {
this . _shimmedLocalStreams = this . _shimmedLocalStreams || { } ;
if ( sender ) {
Object . keys ( this . _shimmedLocalStreams ) . forEach ( streamId => {
const idx = this . _shimmedLocalStreams [ streamId ] . indexOf ( sender ) ;
if ( idx !== - 1 ) {
this . _shimmedLocalStreams [ streamId ] . splice ( idx , 1 ) ;
}
if ( this . _shimmedLocalStreams [ streamId ] . length === 1 ) {
delete this . _shimmedLocalStreams [ streamId ] ;
}
} ) ;
}
return origRemoveTrack . apply ( this , arguments ) ;
} ;
}
function shimAddTrackRemoveTrack ( window , browserDetails ) {
if ( ! window . RTCPeerConnection ) {
return ;
}
// shim addTrack and removeTrack.
if ( window . RTCPeerConnection . prototype . addTrack &&
browserDetails . version >= 65 ) {
return shimAddTrackRemoveTrackWithNative ( window ) ;
}
// also shim pc.getLocalStreams when addTrack is shimmed
// to return the original streams.
const origGetLocalStreams = window . RTCPeerConnection . prototype
. getLocalStreams ;
window . RTCPeerConnection . prototype . getLocalStreams =
function getLocalStreams ( ) {
const nativeStreams = origGetLocalStreams . apply ( this ) ;
this . _reverseStreams = this . _reverseStreams || { } ;
return nativeStreams . map ( stream => this . _reverseStreams [ stream . id ] ) ;
} ;
const origAddStream = window . RTCPeerConnection . prototype . addStream ;
window . RTCPeerConnection . prototype . addStream = function addStream ( stream ) {
this . _streams = this . _streams || { } ;
this . _reverseStreams = this . _reverseStreams || { } ;
stream . getTracks ( ) . forEach ( track => {
const alreadyExists = this . getSenders ( ) . find ( s => s . track === track ) ;
if ( alreadyExists ) {
throw new DOMException ( 'Track already exists.' ,
'InvalidAccessError' ) ;
}
} ) ;
// Add identity mapping for consistency with addTrack.
// Unless this is being used with a stream from addTrack.
if ( ! this . _reverseStreams [ stream . id ] ) {
const newStream = new window . MediaStream ( stream . getTracks ( ) ) ;
this . _streams [ stream . id ] = newStream ;
this . _reverseStreams [ newStream . id ] = stream ;
stream = newStream ;
}
origAddStream . apply ( this , [ stream ] ) ;
} ;
const origRemoveStream = window . RTCPeerConnection . prototype . removeStream ;
window . RTCPeerConnection . prototype . removeStream =
function removeStream ( stream ) {
this . _streams = this . _streams || { } ;
this . _reverseStreams = this . _reverseStreams || { } ;
origRemoveStream . apply ( this , [ ( this . _streams [ stream . id ] || stream ) ] ) ;
delete this . _reverseStreams [ ( this . _streams [ stream . id ] ?
this . _streams [ stream . id ] . id : stream . id ) ] ;
delete this . _streams [ stream . id ] ;
} ;
window . RTCPeerConnection . prototype . addTrack =
function addTrack ( track , stream ) {
if ( this . signalingState === 'closed' ) {
throw new DOMException (
'The RTCPeerConnection\'s signalingState is \'closed\'.' ,
'InvalidStateError' ) ;
}
const streams = [ ] . slice . call ( arguments , 1 ) ;
if ( streams . length !== 1 ||
! streams [ 0 ] . getTracks ( ) . find ( t => t === track ) ) {
// this is not fully correct but all we can manage without
// [[associated MediaStreams]] internal slot.
throw new DOMException (
'The adapter.js addTrack polyfill only supports a single ' +
' stream which is associated with the specified track.' ,
'NotSupportedError' ) ;
}
const alreadyExists = this . getSenders ( ) . find ( s => s . track === track ) ;
if ( alreadyExists ) {
throw new DOMException ( 'Track already exists.' ,
'InvalidAccessError' ) ;
}
this . _streams = this . _streams || { } ;
this . _reverseStreams = this . _reverseStreams || { } ;
const oldStream = this . _streams [ stream . id ] ;
if ( oldStream ) {
// this is using odd Chrome behaviour, use with caution:
// https://bugs.chromium.org/p/webrtc/issues/detail?id=7815
// Note: we rely on the high-level addTrack/dtmf shim to
// create the sender with a dtmf sender.
oldStream . addTrack ( track ) ;
// Trigger ONN async.
Promise . resolve ( ) . then ( ( ) => {
this . dispatchEvent ( new Event ( 'negotiationneeded' ) ) ;
} ) ;
} else {
const newStream = new window . MediaStream ( [ track ] ) ;
this . _streams [ stream . id ] = newStream ;
this . _reverseStreams [ newStream . id ] = stream ;
this . addStream ( newStream ) ;
}
return this . getSenders ( ) . find ( s => s . track === track ) ;
} ;
// replace the internal stream id with the external one and
// vice versa.
function replaceInternalStreamId ( pc , description ) {
let sdp = description . sdp ;
Object . keys ( pc . _reverseStreams || [ ] ) . forEach ( internalId => {
const externalStream = pc . _reverseStreams [ internalId ] ;
const internalStream = pc . _streams [ externalStream . id ] ;
sdp = sdp . replace ( new RegExp ( internalStream . id , 'g' ) ,
externalStream . id ) ;
} ) ;
return new RTCSessionDescription ( {
type : description . type ,
sdp
} ) ;
}
function replaceExternalStreamId ( pc , description ) {
let sdp = description . sdp ;
Object . keys ( pc . _reverseStreams || [ ] ) . forEach ( internalId => {
const externalStream = pc . _reverseStreams [ internalId ] ;
const internalStream = pc . _streams [ externalStream . id ] ;
sdp = sdp . replace ( new RegExp ( externalStream . id , 'g' ) ,
internalStream . id ) ;
} ) ;
return new RTCSessionDescription ( {
type : description . type ,
sdp
} ) ;
}
[ 'createOffer' , 'createAnswer' ] . forEach ( function ( method ) {
const nativeMethod = window . RTCPeerConnection . prototype [ method ] ;
const methodObj = { [ method ] ( ) {
const args = arguments ;
const isLegacyCall = arguments . length &&
typeof arguments [ 0 ] === 'function' ;
if ( isLegacyCall ) {
return nativeMethod . apply ( this , [
( description ) => {
const desc = replaceInternalStreamId ( this , description ) ;
args [ 0 ] . apply ( null , [ desc ] ) ;
} ,
( err ) => {
if ( args [ 1 ] ) {
args [ 1 ] . apply ( null , err ) ;
}
} , arguments [ 2 ]
] ) ;
}
return nativeMethod . apply ( this , arguments )
. then ( description => replaceInternalStreamId ( this , description ) ) ;
} } ;
window . RTCPeerConnection . prototype [ method ] = methodObj [ method ] ;
} ) ;
const origSetLocalDescription =
window . RTCPeerConnection . prototype . setLocalDescription ;
window . RTCPeerConnection . prototype . setLocalDescription =
function setLocalDescription ( ) {
if ( ! arguments . length || ! arguments [ 0 ] . type ) {
return origSetLocalDescription . apply ( this , arguments ) ;
}
arguments [ 0 ] = replaceExternalStreamId ( this , arguments [ 0 ] ) ;
return origSetLocalDescription . apply ( this , arguments ) ;
} ;
// TODO: mangle getStats: https://w3c.github.io/webrtc-stats/#dom-rtcmediastreamstats-streamidentifier
const origLocalDescription = Object . getOwnPropertyDescriptor (
window . RTCPeerConnection . prototype , 'localDescription' ) ;
Object . defineProperty ( window . RTCPeerConnection . prototype ,
'localDescription' , {
get ( ) {
const description = origLocalDescription . get . apply ( this ) ;
if ( description . type === '' ) {
return description ;
}
return replaceInternalStreamId ( this , description ) ;
}
} ) ;
window . RTCPeerConnection . prototype . removeTrack =
function removeTrack ( sender ) {
if ( this . signalingState === 'closed' ) {
throw new DOMException (
'The RTCPeerConnection\'s signalingState is \'closed\'.' ,
'InvalidStateError' ) ;
}
// We can not yet check for sender instanceof RTCRtpSender
// since we shim RTPSender. So we check if sender._pc is set.
if ( ! sender . _pc ) {
throw new DOMException ( 'Argument 1 of RTCPeerConnection.removeTrack ' +
'does not implement interface RTCRtpSender.' , 'TypeError' ) ;
}
const isLocal = sender . _pc === this ;
if ( ! isLocal ) {
throw new DOMException ( 'Sender was not created by this connection.' ,
'InvalidAccessError' ) ;
}
// Search for the native stream the senders track belongs to.
this . _streams = this . _streams || { } ;
let stream ;
Object . keys ( this . _streams ) . forEach ( streamid => {
const hasTrack = this . _streams [ streamid ] . getTracks ( )
. find ( track => sender . track === track ) ;
if ( hasTrack ) {
stream = this . _streams [ streamid ] ;
}
} ) ;
if ( stream ) {
if ( stream . getTracks ( ) . length === 1 ) {
// if this is the last track of the stream, remove the stream. This
// takes care of any shimmed _senders.
this . removeStream ( this . _reverseStreams [ stream . id ] ) ;
} else {
// relying on the same odd chrome behaviour as above.
stream . removeTrack ( sender . track ) ;
}
this . dispatchEvent ( new Event ( 'negotiationneeded' ) ) ;
}
} ;
}
function shimPeerConnection$2 ( window , browserDetails ) {
if ( ! window . RTCPeerConnection && window . webkitRTCPeerConnection ) {
// very basic support for old versions.
window . RTCPeerConnection = window . webkitRTCPeerConnection ;
}
if ( ! window . RTCPeerConnection ) {
return ;
}
// shim implicit creation of RTCSessionDescription/RTCIceCandidate
if ( browserDetails . version < 53 ) {
[ 'setLocalDescription' , 'setRemoteDescription' , 'addIceCandidate' ]
. forEach ( function ( method ) {
const nativeMethod = window . RTCPeerConnection . prototype [ method ] ;
const methodObj = { [ method ] ( ) {
arguments [ 0 ] = new ( ( method === 'addIceCandidate' ) ?
window . RTCIceCandidate :
window . RTCSessionDescription ) ( arguments [ 0 ] ) ;
return nativeMethod . apply ( this , arguments ) ;
} } ;
window . RTCPeerConnection . prototype [ method ] = methodObj [ method ] ;
} ) ;
}
}
// Attempt to fix ONN in plan-b mode.
function fixNegotiationNeeded ( window , browserDetails ) {
wrapPeerConnectionEvent ( window , 'negotiationneeded' , e => {
const pc = e . target ;
if ( browserDetails . version < 72 || ( pc . getConfiguration &&
pc . getConfiguration ( ) . sdpSemantics === 'plan-b' ) ) {
if ( pc . signalingState !== 'stable' ) {
return ;
}
}
return e ;
} ) ;
}
var chromeShim = /*#__PURE__*/ Object . freeze ( {
_ _proto _ _ : null ,
shimMediaStream : shimMediaStream ,
shimOnTrack : shimOnTrack$1 ,
shimGetSendersWithDtmf : shimGetSendersWithDtmf ,
shimGetStats : shimGetStats ,
shimSenderReceiverGetStats : shimSenderReceiverGetStats ,
shimAddTrackRemoveTrackWithNative : shimAddTrackRemoveTrackWithNative ,
shimAddTrackRemoveTrack : shimAddTrackRemoveTrack ,
shimPeerConnection : shimPeerConnection$2 ,
fixNegotiationNeeded : fixNegotiationNeeded ,
shimGetUserMedia : shimGetUserMedia$3 ,
shimGetDisplayMedia : shimGetDisplayMedia$2
} ) ;
/ *
* Copyright ( c ) 2018 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
// Edge does not like
// 1) stun: filtered after 14393 unless ?transport=udp is present
// 2) turn: that does not have all of turn:host:port?transport=udp
// 3) turn: with ipv6 addresses
// 4) turn: occurring muliple times
function filterIceServers$1 ( iceServers , edgeVersion ) {
let hasTurn = false ;
iceServers = JSON . parse ( JSON . stringify ( iceServers ) ) ;
return iceServers . filter ( server => {
if ( server && ( server . urls || server . url ) ) {
let urls = server . urls || server . url ;
if ( server . url && ! server . urls ) {
deprecated ( 'RTCIceServer.url' , 'RTCIceServer.urls' ) ;
}
const isString = typeof urls === 'string' ;
if ( isString ) {
urls = [ urls ] ;
}
urls = urls . filter ( url => {
// filter STUN unconditionally.
if ( url . indexOf ( 'stun:' ) === 0 ) {
return false ;
}
const validTurn = url . startsWith ( 'turn' ) &&
! url . startsWith ( 'turn:[' ) &&
url . includes ( 'transport=udp' ) ;
if ( validTurn && ! hasTurn ) {
hasTurn = true ;
return true ;
}
return validTurn && ! hasTurn ;
} ) ;
delete server . url ;
server . urls = isString ? urls [ 0 ] : urls ;
return ! ! urls . length ;
}
} ) ;
}
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var commonjsGlobal = typeof globalThis !== 'undefined' ? globalThis : typeof window !== 'undefined' ? window : typeof global !== 'undefined' ? global : typeof self !== 'undefined' ? self : { } ;
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function createCommonjsModule ( fn ) {
var module = { exports : { } } ;
return fn ( module , module . exports ) , module . exports ;
}
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function commonjsRequire ( path ) {
throw new Error ( 'Could not dynamically require "' + path + '". Please configure the dynamicRequireTargets or/and ignoreDynamicRequires option of @rollup/plugin-commonjs appropriately for this require call to work.' ) ;
}
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/* eslint-env node */
var sdp = createCommonjsModule ( function ( module ) {
// SDP helpers.
var SDPUtils = { } ;
// Generate an alphanumeric identifier for cname or mids.
// TODO: use UUIDs instead? https://gist.github.com/jed/982883
SDPUtils . generateIdentifier = function ( ) {
return Math . random ( ) . toString ( 36 ) . substr ( 2 , 10 ) ;
} ;
// The RTCP CNAME used by all peerconnections from the same JS.
SDPUtils . localCName = SDPUtils . generateIdentifier ( ) ;
// Splits SDP into lines, dealing with both CRLF and LF.
SDPUtils . splitLines = function ( blob ) {
return blob . trim ( ) . split ( '\n' ) . map ( function ( line ) {
return line . trim ( ) ;
} ) ;
} ;
// Splits SDP into sessionpart and mediasections. Ensures CRLF.
SDPUtils . splitSections = function ( blob ) {
var parts = blob . split ( '\nm=' ) ;
return parts . map ( function ( part , index ) {
return ( index > 0 ? 'm=' + part : part ) . trim ( ) + '\r\n' ;
} ) ;
} ;
// returns the session description.
SDPUtils . getDescription = function ( blob ) {
var sections = SDPUtils . splitSections ( blob ) ;
return sections && sections [ 0 ] ;
} ;
// returns the individual media sections.
SDPUtils . getMediaSections = function ( blob ) {
var sections = SDPUtils . splitSections ( blob ) ;
sections . shift ( ) ;
return sections ;
} ;
// Returns lines that start with a certain prefix.
SDPUtils . matchPrefix = function ( blob , prefix ) {
return SDPUtils . splitLines ( blob ) . filter ( function ( line ) {
return line . indexOf ( prefix ) === 0 ;
} ) ;
} ;
// Parses an ICE candidate line. Sample input:
// candidate:702786350 2 udp 41819902 8.8.8.8 60769 typ relay raddr 8.8.8.8
// rport 55996"
SDPUtils . parseCandidate = function ( line ) {
var parts ;
// Parse both variants.
if ( line . indexOf ( 'a=candidate:' ) === 0 ) {
parts = line . substring ( 12 ) . split ( ' ' ) ;
} else {
parts = line . substring ( 10 ) . split ( ' ' ) ;
}
var candidate = {
foundation : parts [ 0 ] ,
component : parseInt ( parts [ 1 ] , 10 ) ,
protocol : parts [ 2 ] . toLowerCase ( ) ,
priority : parseInt ( parts [ 3 ] , 10 ) ,
ip : parts [ 4 ] ,
address : parts [ 4 ] , // address is an alias for ip.
port : parseInt ( parts [ 5 ] , 10 ) ,
// skip parts[6] == 'typ'
type : parts [ 7 ]
} ;
for ( var i = 8 ; i < parts . length ; i += 2 ) {
switch ( parts [ i ] ) {
case 'raddr' :
candidate . relatedAddress = parts [ i + 1 ] ;
break ;
case 'rport' :
candidate . relatedPort = parseInt ( parts [ i + 1 ] , 10 ) ;
break ;
case 'tcptype' :
candidate . tcpType = parts [ i + 1 ] ;
break ;
case 'ufrag' :
candidate . ufrag = parts [ i + 1 ] ; // for backward compability.
candidate . usernameFragment = parts [ i + 1 ] ;
break ;
default : // extension handling, in particular ufrag
candidate [ parts [ i ] ] = parts [ i + 1 ] ;
break ;
}
}
return candidate ;
} ;
// Translates a candidate object into SDP candidate attribute.
SDPUtils . writeCandidate = function ( candidate ) {
var sdp = [ ] ;
sdp . push ( candidate . foundation ) ;
sdp . push ( candidate . component ) ;
sdp . push ( candidate . protocol . toUpperCase ( ) ) ;
sdp . push ( candidate . priority ) ;
sdp . push ( candidate . address || candidate . ip ) ;
sdp . push ( candidate . port ) ;
var type = candidate . type ;
sdp . push ( 'typ' ) ;
sdp . push ( type ) ;
if ( type !== 'host' && candidate . relatedAddress &&
candidate . relatedPort ) {
sdp . push ( 'raddr' ) ;
sdp . push ( candidate . relatedAddress ) ;
sdp . push ( 'rport' ) ;
sdp . push ( candidate . relatedPort ) ;
}
if ( candidate . tcpType && candidate . protocol . toLowerCase ( ) === 'tcp' ) {
sdp . push ( 'tcptype' ) ;
sdp . push ( candidate . tcpType ) ;
}
if ( candidate . usernameFragment || candidate . ufrag ) {
sdp . push ( 'ufrag' ) ;
sdp . push ( candidate . usernameFragment || candidate . ufrag ) ;
}
return 'candidate:' + sdp . join ( ' ' ) ;
} ;
// Parses an ice-options line, returns an array of option tags.
// a=ice-options:foo bar
SDPUtils . parseIceOptions = function ( line ) {
return line . substr ( 14 ) . split ( ' ' ) ;
} ;
// Parses an rtpmap line, returns RTCRtpCoddecParameters. Sample input:
// a=rtpmap:111 opus/48000/2
SDPUtils . parseRtpMap = function ( line ) {
var parts = line . substr ( 9 ) . split ( ' ' ) ;
var parsed = {
payloadType : parseInt ( parts . shift ( ) , 10 ) // was: id
} ;
parts = parts [ 0 ] . split ( '/' ) ;
parsed . name = parts [ 0 ] ;
parsed . clockRate = parseInt ( parts [ 1 ] , 10 ) ; // was: clockrate
parsed . channels = parts . length === 3 ? parseInt ( parts [ 2 ] , 10 ) : 1 ;
// legacy alias, got renamed back to channels in ORTC.
parsed . numChannels = parsed . channels ;
return parsed ;
} ;
// Generate an a=rtpmap line from RTCRtpCodecCapability or
// RTCRtpCodecParameters.
SDPUtils . writeRtpMap = function ( codec ) {
var pt = codec . payloadType ;
if ( codec . preferredPayloadType !== undefined ) {
pt = codec . preferredPayloadType ;
}
var channels = codec . channels || codec . numChannels || 1 ;
return 'a=rtpmap:' + pt + ' ' + codec . name + '/' + codec . clockRate +
( channels !== 1 ? '/' + channels : '' ) + '\r\n' ;
} ;
// Parses an a=extmap line (headerextension from RFC 5285). Sample input:
// a=extmap:2 urn:ietf:params:rtp-hdrext:toffset
// a=extmap:2/sendonly urn:ietf:params:rtp-hdrext:toffset
SDPUtils . parseExtmap = function ( line ) {
var parts = line . substr ( 9 ) . split ( ' ' ) ;
return {
id : parseInt ( parts [ 0 ] , 10 ) ,
direction : parts [ 0 ] . indexOf ( '/' ) > 0 ? parts [ 0 ] . split ( '/' ) [ 1 ] : 'sendrecv' ,
uri : parts [ 1 ]
} ;
} ;
// Generates a=extmap line from RTCRtpHeaderExtensionParameters or
// RTCRtpHeaderExtension.
SDPUtils . writeExtmap = function ( headerExtension ) {
return 'a=extmap:' + ( headerExtension . id || headerExtension . preferredId ) +
( headerExtension . direction && headerExtension . direction !== 'sendrecv'
? '/' + headerExtension . direction
: '' ) +
' ' + headerExtension . uri + '\r\n' ;
} ;
// Parses an ftmp line, returns dictionary. Sample input:
// a=fmtp:96 vbr=on;cng=on
// Also deals with vbr=on; cng=on
SDPUtils . parseFmtp = function ( line ) {
var parsed = { } ;
var kv ;
var parts = line . substr ( line . indexOf ( ' ' ) + 1 ) . split ( ';' ) ;
for ( var j = 0 ; j < parts . length ; j ++ ) {
kv = parts [ j ] . trim ( ) . split ( '=' ) ;
parsed [ kv [ 0 ] . trim ( ) ] = kv [ 1 ] ;
}
return parsed ;
} ;
// Generates an a=ftmp line from RTCRtpCodecCapability or RTCRtpCodecParameters.
SDPUtils . writeFmtp = function ( codec ) {
var line = '' ;
var pt = codec . payloadType ;
if ( codec . preferredPayloadType !== undefined ) {
pt = codec . preferredPayloadType ;
}
if ( codec . parameters && Object . keys ( codec . parameters ) . length ) {
var params = [ ] ;
Object . keys ( codec . parameters ) . forEach ( function ( param ) {
if ( codec . parameters [ param ] ) {
params . push ( param + '=' + codec . parameters [ param ] ) ;
} else {
params . push ( param ) ;
}
} ) ;
line += 'a=fmtp:' + pt + ' ' + params . join ( ';' ) + '\r\n' ;
}
return line ;
} ;
// Parses an rtcp-fb line, returns RTCPRtcpFeedback object. Sample input:
// a=rtcp-fb:98 nack rpsi
SDPUtils . parseRtcpFb = function ( line ) {
var parts = line . substr ( line . indexOf ( ' ' ) + 1 ) . split ( ' ' ) ;
return {
type : parts . shift ( ) ,
parameter : parts . join ( ' ' )
} ;
} ;
// Generate a=rtcp-fb lines from RTCRtpCodecCapability or RTCRtpCodecParameters.
SDPUtils . writeRtcpFb = function ( codec ) {
var lines = '' ;
var pt = codec . payloadType ;
if ( codec . preferredPayloadType !== undefined ) {
pt = codec . preferredPayloadType ;
}
if ( codec . rtcpFeedback && codec . rtcpFeedback . length ) {
// FIXME: special handling for trr-int?
codec . rtcpFeedback . forEach ( function ( fb ) {
lines += 'a=rtcp-fb:' + pt + ' ' + fb . type +
( fb . parameter && fb . parameter . length ? ' ' + fb . parameter : '' ) +
'\r\n' ;
} ) ;
}
return lines ;
} ;
// Parses an RFC 5576 ssrc media attribute. Sample input:
// a=ssrc:3735928559 cname:something
SDPUtils . parseSsrcMedia = function ( line ) {
var sp = line . indexOf ( ' ' ) ;
var parts = {
ssrc : parseInt ( line . substr ( 7 , sp - 7 ) , 10 )
} ;
var colon = line . indexOf ( ':' , sp ) ;
if ( colon > - 1 ) {
parts . attribute = line . substr ( sp + 1 , colon - sp - 1 ) ;
parts . value = line . substr ( colon + 1 ) ;
} else {
parts . attribute = line . substr ( sp + 1 ) ;
}
return parts ;
} ;
SDPUtils . parseSsrcGroup = function ( line ) {
var parts = line . substr ( 13 ) . split ( ' ' ) ;
return {
semantics : parts . shift ( ) ,
ssrcs : parts . map ( function ( ssrc ) {
return parseInt ( ssrc , 10 ) ;
} )
} ;
} ;
// Extracts the MID (RFC 5888) from a media section.
// returns the MID or undefined if no mid line was found.
SDPUtils . getMid = function ( mediaSection ) {
var mid = SDPUtils . matchPrefix ( mediaSection , 'a=mid:' ) [ 0 ] ;
if ( mid ) {
return mid . substr ( 6 ) ;
}
} ;
SDPUtils . parseFingerprint = function ( line ) {
var parts = line . substr ( 14 ) . split ( ' ' ) ;
return {
algorithm : parts [ 0 ] . toLowerCase ( ) , // algorithm is case-sensitive in Edge.
value : parts [ 1 ]
} ;
} ;
// Extracts DTLS parameters from SDP media section or sessionpart.
// FIXME: for consistency with other functions this should only
// get the fingerprint line as input. See also getIceParameters.
SDPUtils . getDtlsParameters = function ( mediaSection , sessionpart ) {
var lines = SDPUtils . matchPrefix ( mediaSection + sessionpart ,
'a=fingerprint:' ) ;
// Note: a=setup line is ignored since we use the 'auto' role.
// Note2: 'algorithm' is not case sensitive except in Edge.
return {
role : 'auto' ,
fingerprints : lines . map ( SDPUtils . parseFingerprint )
} ;
} ;
// Serializes DTLS parameters to SDP.
SDPUtils . writeDtlsParameters = function ( params , setupType ) {
var sdp = 'a=setup:' + setupType + '\r\n' ;
params . fingerprints . forEach ( function ( fp ) {
sdp += 'a=fingerprint:' + fp . algorithm + ' ' + fp . value + '\r\n' ;
} ) ;
return sdp ;
} ;
// Parses a=crypto lines into
// https://rawgit.com/aboba/edgertc/master/msortc-rs4.html#dictionary-rtcsrtpsdesparameters-members
SDPUtils . parseCryptoLine = function ( line ) {
var parts = line . substr ( 9 ) . split ( ' ' ) ;
return {
tag : parseInt ( parts [ 0 ] , 10 ) ,
cryptoSuite : parts [ 1 ] ,
keyParams : parts [ 2 ] ,
sessionParams : parts . slice ( 3 ) ,
} ;
} ;
SDPUtils . writeCryptoLine = function ( parameters ) {
return 'a=crypto:' + parameters . tag + ' ' +
parameters . cryptoSuite + ' ' +
( typeof parameters . keyParams === 'object'
? SDPUtils . writeCryptoKeyParams ( parameters . keyParams )
: parameters . keyParams ) +
( parameters . sessionParams ? ' ' + parameters . sessionParams . join ( ' ' ) : '' ) +
'\r\n' ;
} ;
// Parses the crypto key parameters into
// https://rawgit.com/aboba/edgertc/master/msortc-rs4.html#rtcsrtpkeyparam*
SDPUtils . parseCryptoKeyParams = function ( keyParams ) {
if ( keyParams . indexOf ( 'inline:' ) !== 0 ) {
return null ;
}
var parts = keyParams . substr ( 7 ) . split ( '|' ) ;
return {
keyMethod : 'inline' ,
keySalt : parts [ 0 ] ,
lifeTime : parts [ 1 ] ,
mkiValue : parts [ 2 ] ? parts [ 2 ] . split ( ':' ) [ 0 ] : undefined ,
mkiLength : parts [ 2 ] ? parts [ 2 ] . split ( ':' ) [ 1 ] : undefined ,
} ;
} ;
SDPUtils . writeCryptoKeyParams = function ( keyParams ) {
return keyParams . keyMethod + ':'
+ keyParams . keySalt +
( keyParams . lifeTime ? '|' + keyParams . lifeTime : '' ) +
( keyParams . mkiValue && keyParams . mkiLength
? '|' + keyParams . mkiValue + ':' + keyParams . mkiLength
: '' ) ;
} ;
// Extracts all SDES paramters.
SDPUtils . getCryptoParameters = function ( mediaSection , sessionpart ) {
var lines = SDPUtils . matchPrefix ( mediaSection + sessionpart ,
'a=crypto:' ) ;
return lines . map ( SDPUtils . parseCryptoLine ) ;
} ;
// Parses ICE information from SDP media section or sessionpart.
// FIXME: for consistency with other functions this should only
// get the ice-ufrag and ice-pwd lines as input.
SDPUtils . getIceParameters = function ( mediaSection , sessionpart ) {
var ufrag = SDPUtils . matchPrefix ( mediaSection + sessionpart ,
'a=ice-ufrag:' ) [ 0 ] ;
var pwd = SDPUtils . matchPrefix ( mediaSection + sessionpart ,
'a=ice-pwd:' ) [ 0 ] ;
if ( ! ( ufrag && pwd ) ) {
return null ;
}
return {
usernameFragment : ufrag . substr ( 12 ) ,
password : pwd . substr ( 10 ) ,
} ;
} ;
// Serializes ICE parameters to SDP.
SDPUtils . writeIceParameters = function ( params ) {
return 'a=ice-ufrag:' + params . usernameFragment + '\r\n' +
'a=ice-pwd:' + params . password + '\r\n' ;
} ;
// Parses the SDP media section and returns RTCRtpParameters.
SDPUtils . parseRtpParameters = function ( mediaSection ) {
var description = {
codecs : [ ] ,
headerExtensions : [ ] ,
fecMechanisms : [ ] ,
rtcp : [ ]
} ;
var lines = SDPUtils . splitLines ( mediaSection ) ;
var mline = lines [ 0 ] . split ( ' ' ) ;
for ( var i = 3 ; i < mline . length ; i ++ ) { // find all codecs from mline[3..]
var pt = mline [ i ] ;
var rtpmapline = SDPUtils . matchPrefix (
mediaSection , 'a=rtpmap:' + pt + ' ' ) [ 0 ] ;
if ( rtpmapline ) {
var codec = SDPUtils . parseRtpMap ( rtpmapline ) ;
var fmtps = SDPUtils . matchPrefix (
mediaSection , 'a=fmtp:' + pt + ' ' ) ;
// Only the first a=fmtp:<pt> is considered.
codec . parameters = fmtps . length ? SDPUtils . parseFmtp ( fmtps [ 0 ] ) : { } ;
codec . rtcpFeedback = SDPUtils . matchPrefix (
mediaSection , 'a=rtcp-fb:' + pt + ' ' )
. map ( SDPUtils . parseRtcpFb ) ;
description . codecs . push ( codec ) ;
// parse FEC mechanisms from rtpmap lines.
switch ( codec . name . toUpperCase ( ) ) {
case 'RED' :
case 'ULPFEC' :
description . fecMechanisms . push ( codec . name . toUpperCase ( ) ) ;
break ;
}
}
}
SDPUtils . matchPrefix ( mediaSection , 'a=extmap:' ) . forEach ( function ( line ) {
description . headerExtensions . push ( SDPUtils . parseExtmap ( line ) ) ;
} ) ;
// FIXME: parse rtcp.
return description ;
} ;
// Generates parts of the SDP media section describing the capabilities /
// parameters.
SDPUtils . writeRtpDescription = function ( kind , caps ) {
var sdp = '' ;
// Build the mline.
sdp += 'm=' + kind + ' ' ;
sdp += caps . codecs . length > 0 ? '9' : '0' ; // reject if no codecs.
sdp += ' UDP/TLS/RTP/SAVPF ' ;
sdp += caps . codecs . map ( function ( codec ) {
if ( codec . preferredPayloadType !== undefined ) {
return codec . preferredPayloadType ;
}
return codec . payloadType ;
} ) . join ( ' ' ) + '\r\n' ;
sdp += 'c=IN IP4 0.0.0.0\r\n' ;
sdp += 'a=rtcp:9 IN IP4 0.0.0.0\r\n' ;
// Add a=rtpmap lines for each codec. Also fmtp and rtcp-fb.
caps . codecs . forEach ( function ( codec ) {
sdp += SDPUtils . writeRtpMap ( codec ) ;
sdp += SDPUtils . writeFmtp ( codec ) ;
sdp += SDPUtils . writeRtcpFb ( codec ) ;
} ) ;
var maxptime = 0 ;
caps . codecs . forEach ( function ( codec ) {
if ( codec . maxptime > maxptime ) {
maxptime = codec . maxptime ;
}
} ) ;
if ( maxptime > 0 ) {
sdp += 'a=maxptime:' + maxptime + '\r\n' ;
}
sdp += 'a=rtcp-mux\r\n' ;
if ( caps . headerExtensions ) {
caps . headerExtensions . forEach ( function ( extension ) {
sdp += SDPUtils . writeExtmap ( extension ) ;
} ) ;
}
// FIXME: write fecMechanisms.
return sdp ;
} ;
// Parses the SDP media section and returns an array of
// RTCRtpEncodingParameters.
SDPUtils . parseRtpEncodingParameters = function ( mediaSection ) {
var encodingParameters = [ ] ;
var description = SDPUtils . parseRtpParameters ( mediaSection ) ;
var hasRed = description . fecMechanisms . indexOf ( 'RED' ) !== - 1 ;
var hasUlpfec = description . fecMechanisms . indexOf ( 'ULPFEC' ) !== - 1 ;
// filter a=ssrc:... cname:, ignore PlanB-msid
var ssrcs = SDPUtils . matchPrefix ( mediaSection , 'a=ssrc:' )
. map ( function ( line ) {
return SDPUtils . parseSsrcMedia ( line ) ;
} )
. filter ( function ( parts ) {
return parts . attribute === 'cname' ;
} ) ;
var primarySsrc = ssrcs . length > 0 && ssrcs [ 0 ] . ssrc ;
var secondarySsrc ;
var flows = SDPUtils . matchPrefix ( mediaSection , 'a=ssrc-group:FID' )
. map ( function ( line ) {
var parts = line . substr ( 17 ) . split ( ' ' ) ;
return parts . map ( function ( part ) {
return parseInt ( part , 10 ) ;
} ) ;
} ) ;
if ( flows . length > 0 && flows [ 0 ] . length > 1 && flows [ 0 ] [ 0 ] === primarySsrc ) {
secondarySsrc = flows [ 0 ] [ 1 ] ;
}
description . codecs . forEach ( function ( codec ) {
if ( codec . name . toUpperCase ( ) === 'RTX' && codec . parameters . apt ) {
var encParam = {
ssrc : primarySsrc ,
codecPayloadType : parseInt ( codec . parameters . apt , 10 )
} ;
if ( primarySsrc && secondarySsrc ) {
encParam . rtx = { ssrc : secondarySsrc } ;
}
encodingParameters . push ( encParam ) ;
if ( hasRed ) {
encParam = JSON . parse ( JSON . stringify ( encParam ) ) ;
encParam . fec = {
ssrc : primarySsrc ,
mechanism : hasUlpfec ? 'red+ulpfec' : 'red'
} ;
encodingParameters . push ( encParam ) ;
}
}
} ) ;
if ( encodingParameters . length === 0 && primarySsrc ) {
encodingParameters . push ( {
ssrc : primarySsrc
} ) ;
}
// we support both b=AS and b=TIAS but interpret AS as TIAS.
var bandwidth = SDPUtils . matchPrefix ( mediaSection , 'b=' ) ;
if ( bandwidth . length ) {
if ( bandwidth [ 0 ] . indexOf ( 'b=TIAS:' ) === 0 ) {
bandwidth = parseInt ( bandwidth [ 0 ] . substr ( 7 ) , 10 ) ;
} else if ( bandwidth [ 0 ] . indexOf ( 'b=AS:' ) === 0 ) {
// use formula from JSEP to convert b=AS to TIAS value.
bandwidth = parseInt ( bandwidth [ 0 ] . substr ( 5 ) , 10 ) * 1000 * 0.95
- ( 50 * 40 * 8 ) ;
} else {
bandwidth = undefined ;
}
encodingParameters . forEach ( function ( params ) {
params . maxBitrate = bandwidth ;
} ) ;
}
return encodingParameters ;
} ;
// parses http://draft.ortc.org/#rtcrtcpparameters*
SDPUtils . parseRtcpParameters = function ( mediaSection ) {
var rtcpParameters = { } ;
// Gets the first SSRC. Note tha with RTX there might be multiple
// SSRCs.
var remoteSsrc = SDPUtils . matchPrefix ( mediaSection , 'a=ssrc:' )
. map ( function ( line ) {
return SDPUtils . parseSsrcMedia ( line ) ;
} )
. filter ( function ( obj ) {
return obj . attribute === 'cname' ;
} ) [ 0 ] ;
if ( remoteSsrc ) {
rtcpParameters . cname = remoteSsrc . value ;
rtcpParameters . ssrc = remoteSsrc . ssrc ;
}
// Edge uses the compound attribute instead of reducedSize
// compound is !reducedSize
var rsize = SDPUtils . matchPrefix ( mediaSection , 'a=rtcp-rsize' ) ;
rtcpParameters . reducedSize = rsize . length > 0 ;
rtcpParameters . compound = rsize . length === 0 ;
// parses the rtcp-mux attrі bute.
// Note that Edge does not support unmuxed RTCP.
var mux = SDPUtils . matchPrefix ( mediaSection , 'a=rtcp-mux' ) ;
rtcpParameters . mux = mux . length > 0 ;
return rtcpParameters ;
} ;
// parses either a=msid: or a=ssrc:... msid lines and returns
// the id of the MediaStream and MediaStreamTrack.
SDPUtils . parseMsid = function ( mediaSection ) {
var parts ;
var spec = SDPUtils . matchPrefix ( mediaSection , 'a=msid:' ) ;
if ( spec . length === 1 ) {
parts = spec [ 0 ] . substr ( 7 ) . split ( ' ' ) ;
return { stream : parts [ 0 ] , track : parts [ 1 ] } ;
}
var planB = SDPUtils . matchPrefix ( mediaSection , 'a=ssrc:' )
. map ( function ( line ) {
return SDPUtils . parseSsrcMedia ( line ) ;
} )
. filter ( function ( msidParts ) {
return msidParts . attribute === 'msid' ;
} ) ;
if ( planB . length > 0 ) {
parts = planB [ 0 ] . value . split ( ' ' ) ;
return { stream : parts [ 0 ] , track : parts [ 1 ] } ;
}
} ;
// SCTP
// parses draft-ietf-mmusic-sctp-sdp-26 first and falls back
// to draft-ietf-mmusic-sctp-sdp-05
SDPUtils . parseSctpDescription = function ( mediaSection ) {
var mline = SDPUtils . parseMLine ( mediaSection ) ;
var maxSizeLine = SDPUtils . matchPrefix ( mediaSection , 'a=max-message-size:' ) ;
var maxMessageSize ;
if ( maxSizeLine . length > 0 ) {
maxMessageSize = parseInt ( maxSizeLine [ 0 ] . substr ( 19 ) , 10 ) ;
}
if ( isNaN ( maxMessageSize ) ) {
maxMessageSize = 65536 ;
}
var sctpPort = SDPUtils . matchPrefix ( mediaSection , 'a=sctp-port:' ) ;
if ( sctpPort . length > 0 ) {
return {
port : parseInt ( sctpPort [ 0 ] . substr ( 12 ) , 10 ) ,
protocol : mline . fmt ,
maxMessageSize : maxMessageSize
} ;
}
var sctpMapLines = SDPUtils . matchPrefix ( mediaSection , 'a=sctpmap:' ) ;
if ( sctpMapLines . length > 0 ) {
var parts = SDPUtils . matchPrefix ( mediaSection , 'a=sctpmap:' ) [ 0 ]
. substr ( 10 )
. split ( ' ' ) ;
return {
port : parseInt ( parts [ 0 ] , 10 ) ,
protocol : parts [ 1 ] ,
maxMessageSize : maxMessageSize
} ;
}
} ;
// SCTP
// outputs the draft-ietf-mmusic-sctp-sdp-26 version that all browsers
// support by now receiving in this format, unless we originally parsed
// as the draft-ietf-mmusic-sctp-sdp-05 format (indicated by the m-line
// protocol of DTLS/SCTP -- without UDP/ or TCP/)
SDPUtils . writeSctpDescription = function ( media , sctp ) {
var output = [ ] ;
if ( media . protocol !== 'DTLS/SCTP' ) {
output = [
'm=' + media . kind + ' 9 ' + media . protocol + ' ' + sctp . protocol + '\r\n' ,
'c=IN IP4 0.0.0.0\r\n' ,
'a=sctp-port:' + sctp . port + '\r\n'
] ;
} else {
output = [
'm=' + media . kind + ' 9 ' + media . protocol + ' ' + sctp . port + '\r\n' ,
'c=IN IP4 0.0.0.0\r\n' ,
'a=sctpmap:' + sctp . port + ' ' + sctp . protocol + ' 65535\r\n'
] ;
}
if ( sctp . maxMessageSize !== undefined ) {
output . push ( 'a=max-message-size:' + sctp . maxMessageSize + '\r\n' ) ;
}
return output . join ( '' ) ;
} ;
// Generate a session ID for SDP.
// https://tools.ietf.org/html/draft-ietf-rtcweb-jsep-20#section-5.2.1
// recommends using a cryptographically random +ve 64-bit value
// but right now this should be acceptable and within the right range
SDPUtils . generateSessionId = function ( ) {
return Math . random ( ) . toString ( ) . substr ( 2 , 21 ) ;
} ;
// Write boilder plate for start of SDP
// sessId argument is optional - if not supplied it will
// be generated randomly
// sessVersion is optional and defaults to 2
// sessUser is optional and defaults to 'thisisadapterortc'
SDPUtils . writeSessionBoilerplate = function ( sessId , sessVer , sessUser ) {
var sessionId ;
var version = sessVer !== undefined ? sessVer : 2 ;
if ( sessId ) {
sessionId = sessId ;
} else {
sessionId = SDPUtils . generateSessionId ( ) ;
}
var user = sessUser || 'thisisadapterortc' ;
// FIXME: sess-id should be an NTP timestamp.
return 'v=0\r\n' +
'o=' + user + ' ' + sessionId + ' ' + version +
' IN IP4 127.0.0.1\r\n' +
's=-\r\n' +
't=0 0\r\n' ;
} ;
SDPUtils . writeMediaSection = function ( transceiver , caps , type , stream ) {
var sdp = SDPUtils . writeRtpDescription ( transceiver . kind , caps ) ;
// Map ICE parameters (ufrag, pwd) to SDP.
sdp += SDPUtils . writeIceParameters (
transceiver . iceGatherer . getLocalParameters ( ) ) ;
// Map DTLS parameters to SDP.
sdp += SDPUtils . writeDtlsParameters (
transceiver . dtlsTransport . getLocalParameters ( ) ,
type === 'offer' ? 'actpass' : 'active' ) ;
sdp += 'a=mid:' + transceiver . mid + '\r\n' ;
if ( transceiver . direction ) {
sdp += 'a=' + transceiver . direction + '\r\n' ;
} else if ( transceiver . rtpSender && transceiver . rtpReceiver ) {
sdp += 'a=sendrecv\r\n' ;
} else if ( transceiver . rtpSender ) {
sdp += 'a=sendonly\r\n' ;
} else if ( transceiver . rtpReceiver ) {
sdp += 'a=recvonly\r\n' ;
} else {
sdp += 'a=inactive\r\n' ;
}
if ( transceiver . rtpSender ) {
// spec.
var msid = 'msid:' + stream . id + ' ' +
transceiver . rtpSender . track . id + '\r\n' ;
sdp += 'a=' + msid ;
// for Chrome.
sdp += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . ssrc +
' ' + msid ;
if ( transceiver . sendEncodingParameters [ 0 ] . rtx ) {
sdp += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . rtx . ssrc +
' ' + msid ;
sdp += 'a=ssrc-group:FID ' +
transceiver . sendEncodingParameters [ 0 ] . ssrc + ' ' +
transceiver . sendEncodingParameters [ 0 ] . rtx . ssrc +
'\r\n' ;
}
}
// FIXME: this should be written by writeRtpDescription.
sdp += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . ssrc +
' cname:' + SDPUtils . localCName + '\r\n' ;
if ( transceiver . rtpSender && transceiver . sendEncodingParameters [ 0 ] . rtx ) {
sdp += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . rtx . ssrc +
' cname:' + SDPUtils . localCName + '\r\n' ;
}
return sdp ;
} ;
// Gets the direction from the mediaSection or the sessionpart.
SDPUtils . getDirection = function ( mediaSection , sessionpart ) {
// Look for sendrecv, sendonly, recvonly, inactive, default to sendrecv.
var lines = SDPUtils . splitLines ( mediaSection ) ;
for ( var i = 0 ; i < lines . length ; i ++ ) {
switch ( lines [ i ] ) {
case 'a=sendrecv' :
case 'a=sendonly' :
case 'a=recvonly' :
case 'a=inactive' :
return lines [ i ] . substr ( 2 ) ;
// FIXME: What should happen here?
}
}
if ( sessionpart ) {
return SDPUtils . getDirection ( sessionpart ) ;
}
return 'sendrecv' ;
} ;
SDPUtils . getKind = function ( mediaSection ) {
var lines = SDPUtils . splitLines ( mediaSection ) ;
var mline = lines [ 0 ] . split ( ' ' ) ;
return mline [ 0 ] . substr ( 2 ) ;
} ;
SDPUtils . isRejected = function ( mediaSection ) {
return mediaSection . split ( ' ' , 2 ) [ 1 ] === '0' ;
} ;
SDPUtils . parseMLine = function ( mediaSection ) {
var lines = SDPUtils . splitLines ( mediaSection ) ;
var parts = lines [ 0 ] . substr ( 2 ) . split ( ' ' ) ;
return {
kind : parts [ 0 ] ,
port : parseInt ( parts [ 1 ] , 10 ) ,
protocol : parts [ 2 ] ,
fmt : parts . slice ( 3 ) . join ( ' ' )
} ;
} ;
SDPUtils . parseOLine = function ( mediaSection ) {
var line = SDPUtils . matchPrefix ( mediaSection , 'o=' ) [ 0 ] ;
var parts = line . substr ( 2 ) . split ( ' ' ) ;
return {
username : parts [ 0 ] ,
sessionId : parts [ 1 ] ,
sessionVersion : parseInt ( parts [ 2 ] , 10 ) ,
netType : parts [ 3 ] ,
addressType : parts [ 4 ] ,
address : parts [ 5 ]
} ;
} ;
// a very naive interpretation of a valid SDP.
SDPUtils . isValidSDP = function ( blob ) {
if ( typeof blob !== 'string' || blob . length === 0 ) {
return false ;
}
var lines = SDPUtils . splitLines ( blob ) ;
for ( var i = 0 ; i < lines . length ; i ++ ) {
if ( lines [ i ] . length < 2 || lines [ i ] . charAt ( 1 ) !== '=' ) {
return false ;
}
// TODO: check the modifier a bit more.
}
return true ;
} ;
// Expose public methods.
{
module . exports = SDPUtils ;
}
} ) ;
/ *
* Copyright ( c ) 2017 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function fixStatsType ( stat ) {
return {
inboundrtp : 'inbound-rtp' ,
outboundrtp : 'outbound-rtp' ,
candidatepair : 'candidate-pair' ,
localcandidate : 'local-candidate' ,
remotecandidate : 'remote-candidate'
} [ stat . type ] || stat . type ;
}
function writeMediaSection ( transceiver , caps , type , stream , dtlsRole ) {
var sdp$1 = sdp . writeRtpDescription ( transceiver . kind , caps ) ;
// Map ICE parameters (ufrag, pwd) to SDP.
sdp$1 += sdp . writeIceParameters (
transceiver . iceGatherer . getLocalParameters ( ) ) ;
// Map DTLS parameters to SDP.
sdp$1 += sdp . writeDtlsParameters (
transceiver . dtlsTransport . getLocalParameters ( ) ,
type === 'offer' ? 'actpass' : dtlsRole || 'active' ) ;
sdp$1 += 'a=mid:' + transceiver . mid + '\r\n' ;
if ( transceiver . rtpSender && transceiver . rtpReceiver ) {
sdp$1 += 'a=sendrecv\r\n' ;
} else if ( transceiver . rtpSender ) {
sdp$1 += 'a=sendonly\r\n' ;
} else if ( transceiver . rtpReceiver ) {
sdp$1 += 'a=recvonly\r\n' ;
} else {
sdp$1 += 'a=inactive\r\n' ;
}
if ( transceiver . rtpSender ) {
var trackId = transceiver . rtpSender . _initialTrackId ||
transceiver . rtpSender . track . id ;
transceiver . rtpSender . _initialTrackId = trackId ;
// spec.
var msid = 'msid:' + ( stream ? stream . id : '-' ) + ' ' +
trackId + '\r\n' ;
sdp$1 += 'a=' + msid ;
// for Chrome. Legacy should no longer be required.
sdp$1 += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . ssrc +
' ' + msid ;
// RTX
if ( transceiver . sendEncodingParameters [ 0 ] . rtx ) {
sdp$1 += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . rtx . ssrc +
' ' + msid ;
sdp$1 += 'a=ssrc-group:FID ' +
transceiver . sendEncodingParameters [ 0 ] . ssrc + ' ' +
transceiver . sendEncodingParameters [ 0 ] . rtx . ssrc +
'\r\n' ;
}
}
// FIXME: this should be written by writeRtpDescription.
sdp$1 += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . ssrc +
' cname:' + sdp . localCName + '\r\n' ;
if ( transceiver . rtpSender && transceiver . sendEncodingParameters [ 0 ] . rtx ) {
sdp$1 += 'a=ssrc:' + transceiver . sendEncodingParameters [ 0 ] . rtx . ssrc +
' cname:' + sdp . localCName + '\r\n' ;
}
return sdp$1 ;
}
// Edge does not like
// 1) stun: filtered after 14393 unless ?transport=udp is present
// 2) turn: that does not have all of turn:host:port?transport=udp
// 3) turn: with ipv6 addresses
// 4) turn: occurring muliple times
function filterIceServers ( iceServers , edgeVersion ) {
var hasTurn = false ;
iceServers = JSON . parse ( JSON . stringify ( iceServers ) ) ;
return iceServers . filter ( function ( server ) {
if ( server && ( server . urls || server . url ) ) {
var urls = server . urls || server . url ;
if ( server . url && ! server . urls ) {
console . warn ( 'RTCIceServer.url is deprecated! Use urls instead.' ) ;
}
var isString = typeof urls === 'string' ;
if ( isString ) {
urls = [ urls ] ;
}
urls = urls . filter ( function ( url ) {
var validTurn = url . indexOf ( 'turn:' ) === 0 &&
url . indexOf ( 'transport=udp' ) !== - 1 &&
url . indexOf ( 'turn:[' ) === - 1 &&
! hasTurn ;
if ( validTurn ) {
hasTurn = true ;
return true ;
}
return url . indexOf ( 'stun:' ) === 0 && edgeVersion >= 14393 &&
url . indexOf ( '?transport=udp' ) === - 1 ;
} ) ;
delete server . url ;
server . urls = isString ? urls [ 0 ] : urls ;
return ! ! urls . length ;
}
} ) ;
}
// Determines the intersection of local and remote capabilities.
function getCommonCapabilities ( localCapabilities , remoteCapabilities ) {
var commonCapabilities = {
codecs : [ ] ,
headerExtensions : [ ] ,
fecMechanisms : [ ]
} ;
var findCodecByPayloadType = function ( pt , codecs ) {
pt = parseInt ( pt , 10 ) ;
for ( var i = 0 ; i < codecs . length ; i ++ ) {
if ( codecs [ i ] . payloadType === pt ||
codecs [ i ] . preferredPayloadType === pt ) {
return codecs [ i ] ;
}
}
} ;
var rtxCapabilityMatches = function ( lRtx , rRtx , lCodecs , rCodecs ) {
var lCodec = findCodecByPayloadType ( lRtx . parameters . apt , lCodecs ) ;
var rCodec = findCodecByPayloadType ( rRtx . parameters . apt , rCodecs ) ;
return lCodec && rCodec &&
lCodec . name . toLowerCase ( ) === rCodec . name . toLowerCase ( ) ;
} ;
localCapabilities . codecs . forEach ( function ( lCodec ) {
for ( var i = 0 ; i < remoteCapabilities . codecs . length ; i ++ ) {
var rCodec = remoteCapabilities . codecs [ i ] ;
if ( lCodec . name . toLowerCase ( ) === rCodec . name . toLowerCase ( ) &&
lCodec . clockRate === rCodec . clockRate ) {
if ( lCodec . name . toLowerCase ( ) === 'rtx' &&
lCodec . parameters && rCodec . parameters . apt ) {
// for RTX we need to find the local rtx that has a apt
// which points to the same local codec as the remote one.
if ( ! rtxCapabilityMatches ( lCodec , rCodec ,
localCapabilities . codecs , remoteCapabilities . codecs ) ) {
continue ;
}
}
rCodec = JSON . parse ( JSON . stringify ( rCodec ) ) ; // deepcopy
// number of channels is the highest common number of channels
rCodec . numChannels = Math . min ( lCodec . numChannels ,
rCodec . numChannels ) ;
// push rCodec so we reply with offerer payload type
commonCapabilities . codecs . push ( rCodec ) ;
// determine common feedback mechanisms
rCodec . rtcpFeedback = rCodec . rtcpFeedback . filter ( function ( fb ) {
for ( var j = 0 ; j < lCodec . rtcpFeedback . length ; j ++ ) {
if ( lCodec . rtcpFeedback [ j ] . type === fb . type &&
lCodec . rtcpFeedback [ j ] . parameter === fb . parameter ) {
return true ;
}
}
return false ;
} ) ;
// FIXME: also need to determine .parameters
// see https://github.com/openpeer/ortc/issues/569
break ;
}
}
} ) ;
localCapabilities . headerExtensions . forEach ( function ( lHeaderExtension ) {
for ( var i = 0 ; i < remoteCapabilities . headerExtensions . length ;
i ++ ) {
var rHeaderExtension = remoteCapabilities . headerExtensions [ i ] ;
if ( lHeaderExtension . uri === rHeaderExtension . uri ) {
commonCapabilities . headerExtensions . push ( rHeaderExtension ) ;
break ;
}
}
} ) ;
// FIXME: fecMechanisms
return commonCapabilities ;
}
// is action=setLocalDescription with type allowed in signalingState
function isActionAllowedInSignalingState ( action , type , signalingState ) {
return {
offer : {
setLocalDescription : [ 'stable' , 'have-local-offer' ] ,
setRemoteDescription : [ 'stable' , 'have-remote-offer' ]
} ,
answer : {
setLocalDescription : [ 'have-remote-offer' , 'have-local-pranswer' ] ,
setRemoteDescription : [ 'have-local-offer' , 'have-remote-pranswer' ]
}
} [ type ] [ action ] . indexOf ( signalingState ) !== - 1 ;
}
function maybeAddCandidate ( iceTransport , candidate ) {
// Edge's internal representation adds some fields therefore
// not all fieldѕ are taken into account.
var alreadyAdded = iceTransport . getRemoteCandidates ( )
. find ( function ( remoteCandidate ) {
return candidate . foundation === remoteCandidate . foundation &&
candidate . ip === remoteCandidate . ip &&
candidate . port === remoteCandidate . port &&
candidate . priority === remoteCandidate . priority &&
candidate . protocol === remoteCandidate . protocol &&
candidate . type === remoteCandidate . type ;
} ) ;
if ( ! alreadyAdded ) {
iceTransport . addRemoteCandidate ( candidate ) ;
}
return ! alreadyAdded ;
}
function makeError ( name , description ) {
var e = new Error ( description ) ;
e . name = name ;
// legacy error codes from https://heycam.github.io/webidl/#idl-DOMException-error-names
e . code = {
NotSupportedError : 9 ,
InvalidStateError : 11 ,
InvalidAccessError : 15 ,
TypeError : undefined ,
OperationError : undefined
} [ name ] ;
return e ;
}
var rtcpeerconnection = function ( window , edgeVersion ) {
// https://w3c.github.io/mediacapture-main/#mediastream
// Helper function to add the track to the stream and
// dispatch the event ourselves.
function addTrackToStreamAndFireEvent ( track , stream ) {
stream . addTrack ( track ) ;
stream . dispatchEvent ( new window . MediaStreamTrackEvent ( 'addtrack' ,
{ track : track } ) ) ;
}
function removeTrackFromStreamAndFireEvent ( track , stream ) {
stream . removeTrack ( track ) ;
stream . dispatchEvent ( new window . MediaStreamTrackEvent ( 'removetrack' ,
{ track : track } ) ) ;
}
function fireAddTrack ( pc , track , receiver , streams ) {
var trackEvent = new Event ( 'track' ) ;
trackEvent . track = track ;
trackEvent . receiver = receiver ;
trackEvent . transceiver = { receiver : receiver } ;
trackEvent . streams = streams ;
window . setTimeout ( function ( ) {
pc . _dispatchEvent ( 'track' , trackEvent ) ;
} ) ;
}
var RTCPeerConnection = function ( config ) {
var pc = this ;
var _eventTarget = document . createDocumentFragment ( ) ;
[ 'addEventListener' , 'removeEventListener' , 'dispatchEvent' ]
. forEach ( function ( method ) {
pc [ method ] = _eventTarget [ method ] . bind ( _eventTarget ) ;
} ) ;
this . canTrickleIceCandidates = null ;
this . needNegotiation = false ;
this . localStreams = [ ] ;
this . remoteStreams = [ ] ;
this . _localDescription = null ;
this . _remoteDescription = null ;
this . signalingState = 'stable' ;
this . iceConnectionState = 'new' ;
this . connectionState = 'new' ;
this . iceGatheringState = 'new' ;
config = JSON . parse ( JSON . stringify ( config || { } ) ) ;
this . usingBundle = config . bundlePolicy === 'max-bundle' ;
if ( config . rtcpMuxPolicy === 'negotiate' ) {
throw ( makeError ( 'NotSupportedError' ,
'rtcpMuxPolicy \'negotiate\' is not supported' ) ) ;
} else if ( ! config . rtcpMuxPolicy ) {
config . rtcpMuxPolicy = 'require' ;
}
switch ( config . iceTransportPolicy ) {
case 'all' :
case 'relay' :
break ;
default :
config . iceTransportPolicy = 'all' ;
break ;
}
switch ( config . bundlePolicy ) {
case 'balanced' :
case 'max-compat' :
case 'max-bundle' :
break ;
default :
config . bundlePolicy = 'balanced' ;
break ;
}
config . iceServers = filterIceServers ( config . iceServers || [ ] , edgeVersion ) ;
this . _iceGatherers = [ ] ;
if ( config . iceCandidatePoolSize ) {
for ( var i = config . iceCandidatePoolSize ; i > 0 ; i -- ) {
this . _iceGatherers . push ( new window . RTCIceGatherer ( {
iceServers : config . iceServers ,
gatherPolicy : config . iceTransportPolicy
} ) ) ;
}
} else {
config . iceCandidatePoolSize = 0 ;
}
this . _config = config ;
// per-track iceGathers, iceTransports, dtlsTransports, rtpSenders, ...
// everything that is needed to describe a SDP m-line.
this . transceivers = [ ] ;
this . _sdpSessionId = sdp . generateSessionId ( ) ;
this . _sdpSessionVersion = 0 ;
this . _dtlsRole = undefined ; // role for a=setup to use in answers.
this . _isClosed = false ;
} ;
Object . defineProperty ( RTCPeerConnection . prototype , 'localDescription' , {
configurable : true ,
get : function ( ) {
return this . _localDescription ;
}
} ) ;
Object . defineProperty ( RTCPeerConnection . prototype , 'remoteDescription' , {
configurable : true ,
get : function ( ) {
return this . _remoteDescription ;
}
} ) ;
// set up event handlers on prototype
RTCPeerConnection . prototype . onicecandidate = null ;
RTCPeerConnection . prototype . onaddstream = null ;
RTCPeerConnection . prototype . ontrack = null ;
RTCPeerConnection . prototype . onremovestream = null ;
RTCPeerConnection . prototype . onsignalingstatechange = null ;
RTCPeerConnection . prototype . oniceconnectionstatechange = null ;
RTCPeerConnection . prototype . onconnectionstatechange = null ;
RTCPeerConnection . prototype . onicegatheringstatechange = null ;
RTCPeerConnection . prototype . onnegotiationneeded = null ;
RTCPeerConnection . prototype . ondatachannel = null ;
RTCPeerConnection . prototype . _dispatchEvent = function ( name , event ) {
if ( this . _isClosed ) {
return ;
}
this . dispatchEvent ( event ) ;
if ( typeof this [ 'on' + name ] === 'function' ) {
this [ 'on' + name ] ( event ) ;
}
} ;
RTCPeerConnection . prototype . _emitGatheringStateChange = function ( ) {
var event = new Event ( 'icegatheringstatechange' ) ;
this . _dispatchEvent ( 'icegatheringstatechange' , event ) ;
} ;
RTCPeerConnection . prototype . getConfiguration = function ( ) {
return this . _config ;
} ;
RTCPeerConnection . prototype . getLocalStreams = function ( ) {
return this . localStreams ;
} ;
RTCPeerConnection . prototype . getRemoteStreams = function ( ) {
return this . remoteStreams ;
} ;
// internal helper to create a transceiver object.
// (which is not yet the same as the WebRTC 1.0 transceiver)
RTCPeerConnection . prototype . _createTransceiver = function ( kind , doNotAdd ) {
var hasBundleTransport = this . transceivers . length > 0 ;
var transceiver = {
track : null ,
iceGatherer : null ,
iceTransport : null ,
dtlsTransport : null ,
localCapabilities : null ,
remoteCapabilities : null ,
rtpSender : null ,
rtpReceiver : null ,
kind : kind ,
mid : null ,
sendEncodingParameters : null ,
recvEncodingParameters : null ,
stream : null ,
associatedRemoteMediaStreams : [ ] ,
wantReceive : true
} ;
if ( this . usingBundle && hasBundleTransport ) {
transceiver . iceTransport = this . transceivers [ 0 ] . iceTransport ;
transceiver . dtlsTransport = this . transceivers [ 0 ] . dtlsTransport ;
} else {
var transports = this . _createIceAndDtlsTransports ( ) ;
transceiver . iceTransport = transports . iceTransport ;
transceiver . dtlsTransport = transports . dtlsTransport ;
}
if ( ! doNotAdd ) {
this . transceivers . push ( transceiver ) ;
}
return transceiver ;
} ;
RTCPeerConnection . prototype . addTrack = function ( track , stream ) {
if ( this . _isClosed ) {
throw makeError ( 'InvalidStateError' ,
'Attempted to call addTrack on a closed peerconnection.' ) ;
}
var alreadyExists = this . transceivers . find ( function ( s ) {
return s . track === track ;
} ) ;
if ( alreadyExists ) {
throw makeError ( 'InvalidAccessError' , 'Track already exists.' ) ;
}
var transceiver ;
for ( var i = 0 ; i < this . transceivers . length ; i ++ ) {
if ( ! this . transceivers [ i ] . track &&
this . transceivers [ i ] . kind === track . kind ) {
transceiver = this . transceivers [ i ] ;
}
}
if ( ! transceiver ) {
transceiver = this . _createTransceiver ( track . kind ) ;
}
this . _maybeFireNegotiationNeeded ( ) ;
if ( this . localStreams . indexOf ( stream ) === - 1 ) {
this . localStreams . push ( stream ) ;
}
transceiver . track = track ;
transceiver . stream = stream ;
transceiver . rtpSender = new window . RTCRtpSender ( track ,
transceiver . dtlsTransport ) ;
return transceiver . rtpSender ;
} ;
RTCPeerConnection . prototype . addStream = function ( stream ) {
var pc = this ;
if ( edgeVersion >= 15025 ) {
stream . getTracks ( ) . forEach ( function ( track ) {
pc . addTrack ( track , stream ) ;
} ) ;
} else {
// Clone is necessary for local demos mostly, attaching directly
// to two different senders does not work (build 10547).
// Fixed in 15025 (or earlier)
var clonedStream = stream . clone ( ) ;
stream . getTracks ( ) . forEach ( function ( track , idx ) {
var clonedTrack = clonedStream . getTracks ( ) [ idx ] ;
track . addEventListener ( 'enabled' , function ( event ) {
clonedTrack . enabled = event . enabled ;
} ) ;
} ) ;
clonedStream . getTracks ( ) . forEach ( function ( track ) {
pc . addTrack ( track , clonedStream ) ;
} ) ;
}
} ;
RTCPeerConnection . prototype . removeTrack = function ( sender ) {
if ( this . _isClosed ) {
throw makeError ( 'InvalidStateError' ,
'Attempted to call removeTrack on a closed peerconnection.' ) ;
}
if ( ! ( sender instanceof window . RTCRtpSender ) ) {
throw new TypeError ( 'Argument 1 of RTCPeerConnection.removeTrack ' +
'does not implement interface RTCRtpSender.' ) ;
}
var transceiver = this . transceivers . find ( function ( t ) {
return t . rtpSender === sender ;
} ) ;
if ( ! transceiver ) {
throw makeError ( 'InvalidAccessError' ,
'Sender was not created by this connection.' ) ;
}
var stream = transceiver . stream ;
transceiver . rtpSender . stop ( ) ;
transceiver . rtpSender = null ;
transceiver . track = null ;
transceiver . stream = null ;
// remove the stream from the set of local streams
var localStreams = this . transceivers . map ( function ( t ) {
return t . stream ;
} ) ;
if ( localStreams . indexOf ( stream ) === - 1 &&
this . localStreams . indexOf ( stream ) > - 1 ) {
this . localStreams . splice ( this . localStreams . indexOf ( stream ) , 1 ) ;
}
this . _maybeFireNegotiationNeeded ( ) ;
} ;
RTCPeerConnection . prototype . removeStream = function ( stream ) {
var pc = this ;
stream . getTracks ( ) . forEach ( function ( track ) {
var sender = pc . getSenders ( ) . find ( function ( s ) {
return s . track === track ;
} ) ;
if ( sender ) {
pc . removeTrack ( sender ) ;
}
} ) ;
} ;
RTCPeerConnection . prototype . getSenders = function ( ) {
return this . transceivers . filter ( function ( transceiver ) {
return ! ! transceiver . rtpSender ;
} )
. map ( function ( transceiver ) {
return transceiver . rtpSender ;
} ) ;
} ;
RTCPeerConnection . prototype . getReceivers = function ( ) {
return this . transceivers . filter ( function ( transceiver ) {
return ! ! transceiver . rtpReceiver ;
} )
. map ( function ( transceiver ) {
return transceiver . rtpReceiver ;
} ) ;
} ;
RTCPeerConnection . prototype . _createIceGatherer = function ( sdpMLineIndex ,
usingBundle ) {
var pc = this ;
if ( usingBundle && sdpMLineIndex > 0 ) {
return this . transceivers [ 0 ] . iceGatherer ;
} else if ( this . _iceGatherers . length ) {
return this . _iceGatherers . shift ( ) ;
}
var iceGatherer = new window . RTCIceGatherer ( {
iceServers : this . _config . iceServers ,
gatherPolicy : this . _config . iceTransportPolicy
} ) ;
Object . defineProperty ( iceGatherer , 'state' ,
{ value : 'new' , writable : true }
) ;
this . transceivers [ sdpMLineIndex ] . bufferedCandidateEvents = [ ] ;
this . transceivers [ sdpMLineIndex ] . bufferCandidates = function ( event ) {
var end = ! event . candidate || Object . keys ( event . candidate ) . length === 0 ;
// polyfill since RTCIceGatherer.state is not implemented in
// Edge 10547 yet.
iceGatherer . state = end ? 'completed' : 'gathering' ;
if ( pc . transceivers [ sdpMLineIndex ] . bufferedCandidateEvents !== null ) {
pc . transceivers [ sdpMLineIndex ] . bufferedCandidateEvents . push ( event ) ;
}
} ;
iceGatherer . addEventListener ( 'localcandidate' ,
this . transceivers [ sdpMLineIndex ] . bufferCandidates ) ;
return iceGatherer ;
} ;
// start gathering from an RTCIceGatherer.
RTCPeerConnection . prototype . _gather = function ( mid , sdpMLineIndex ) {
var pc = this ;
var iceGatherer = this . transceivers [ sdpMLineIndex ] . iceGatherer ;
if ( iceGatherer . onlocalcandidate ) {
return ;
}
var bufferedCandidateEvents =
this . transceivers [ sdpMLineIndex ] . bufferedCandidateEvents ;
this . transceivers [ sdpMLineIndex ] . bufferedCandidateEvents = null ;
iceGatherer . removeEventListener ( 'localcandidate' ,
this . transceivers [ sdpMLineIndex ] . bufferCandidates ) ;
iceGatherer . onlocalcandidate = function ( evt ) {
if ( pc . usingBundle && sdpMLineIndex > 0 ) {
// if we know that we use bundle we can drop candidates with
// ѕ dpMLineIndex > 0. If we don't do this then our state gets
// confused since we dispose the extra ice gatherer.
return ;
}
var event = new Event ( 'icecandidate' ) ;
event . candidate = { sdpMid : mid , sdpMLineIndex : sdpMLineIndex } ;
var cand = evt . candidate ;
// Edge emits an empty object for RTCIceCandidateComplete‥
var end = ! cand || Object . keys ( cand ) . length === 0 ;
if ( end ) {
// polyfill since RTCIceGatherer.state is not implemented in
// Edge 10547 yet.
if ( iceGatherer . state === 'new' || iceGatherer . state === 'gathering' ) {
iceGatherer . state = 'completed' ;
}
} else {
if ( iceGatherer . state === 'new' ) {
iceGatherer . state = 'gathering' ;
}
// RTCIceCandidate doesn't have a component, needs to be added
cand . component = 1 ;
// also the usernameFragment. TODO: update SDP to take both variants.
cand . ufrag = iceGatherer . getLocalParameters ( ) . usernameFragment ;
var serializedCandidate = sdp . writeCandidate ( cand ) ;
event . candidate = Object . assign ( event . candidate ,
sdp . parseCandidate ( serializedCandidate ) ) ;
event . candidate . candidate = serializedCandidate ;
event . candidate . toJSON = function ( ) {
return {
candidate : event . candidate . candidate ,
sdpMid : event . candidate . sdpMid ,
sdpMLineIndex : event . candidate . sdpMLineIndex ,
usernameFragment : event . candidate . usernameFragment
} ;
} ;
}
// update local description.
var sections = sdp . getMediaSections ( pc . _localDescription . sdp ) ;
if ( ! end ) {
sections [ event . candidate . sdpMLineIndex ] +=
'a=' + event . candidate . candidate + '\r\n' ;
} else {
sections [ event . candidate . sdpMLineIndex ] +=
'a=end-of-candidates\r\n' ;
}
pc . _localDescription . sdp =
sdp . getDescription ( pc . _localDescription . sdp ) +
sections . join ( '' ) ;
var complete = pc . transceivers . every ( function ( transceiver ) {
return transceiver . iceGatherer &&
transceiver . iceGatherer . state === 'completed' ;
} ) ;
if ( pc . iceGatheringState !== 'gathering' ) {
pc . iceGatheringState = 'gathering' ;
pc . _emitGatheringStateChange ( ) ;
}
// Emit candidate. Also emit null candidate when all gatherers are
// complete.
if ( ! end ) {
pc . _dispatchEvent ( 'icecandidate' , event ) ;
}
if ( complete ) {
pc . _dispatchEvent ( 'icecandidate' , new Event ( 'icecandidate' ) ) ;
pc . iceGatheringState = 'complete' ;
pc . _emitGatheringStateChange ( ) ;
}
} ;
// emit already gathered candidates.
window . setTimeout ( function ( ) {
bufferedCandidateEvents . forEach ( function ( e ) {
iceGatherer . onlocalcandidate ( e ) ;
} ) ;
} , 0 ) ;
} ;
// Create ICE transport and DTLS transport.
RTCPeerConnection . prototype . _createIceAndDtlsTransports = function ( ) {
var pc = this ;
var iceTransport = new window . RTCIceTransport ( null ) ;
iceTransport . onicestatechange = function ( ) {
pc . _updateIceConnectionState ( ) ;
pc . _updateConnectionState ( ) ;
} ;
var dtlsTransport = new window . RTCDtlsTransport ( iceTransport ) ;
dtlsTransport . ondtlsstatechange = function ( ) {
pc . _updateConnectionState ( ) ;
} ;
dtlsTransport . onerror = function ( ) {
// onerror does not set state to failed by itself.
Object . defineProperty ( dtlsTransport , 'state' ,
{ value : 'failed' , writable : true } ) ;
pc . _updateConnectionState ( ) ;
} ;
return {
iceTransport : iceTransport ,
dtlsTransport : dtlsTransport
} ;
} ;
// Destroy ICE gatherer, ICE transport and DTLS transport.
// Without triggering the callbacks.
RTCPeerConnection . prototype . _disposeIceAndDtlsTransports = function (
sdpMLineIndex ) {
var iceGatherer = this . transceivers [ sdpMLineIndex ] . iceGatherer ;
if ( iceGatherer ) {
delete iceGatherer . onlocalcandidate ;
delete this . transceivers [ sdpMLineIndex ] . iceGatherer ;
}
var iceTransport = this . transceivers [ sdpMLineIndex ] . iceTransport ;
if ( iceTransport ) {
delete iceTransport . onicestatechange ;
delete this . transceivers [ sdpMLineIndex ] . iceTransport ;
}
var dtlsTransport = this . transceivers [ sdpMLineIndex ] . dtlsTransport ;
if ( dtlsTransport ) {
delete dtlsTransport . ondtlsstatechange ;
delete dtlsTransport . onerror ;
delete this . transceivers [ sdpMLineIndex ] . dtlsTransport ;
}
} ;
// Start the RTP Sender and Receiver for a transceiver.
RTCPeerConnection . prototype . _transceive = function ( transceiver ,
send , recv ) {
var params = getCommonCapabilities ( transceiver . localCapabilities ,
transceiver . remoteCapabilities ) ;
if ( send && transceiver . rtpSender ) {
params . encodings = transceiver . sendEncodingParameters ;
params . rtcp = {
cname : sdp . localCName ,
compound : transceiver . rtcpParameters . compound
} ;
if ( transceiver . recvEncodingParameters . length ) {
params . rtcp . ssrc = transceiver . recvEncodingParameters [ 0 ] . ssrc ;
}
transceiver . rtpSender . send ( params ) ;
}
if ( recv && transceiver . rtpReceiver && params . codecs . length > 0 ) {
// remove RTX field in Edge 14942
if ( transceiver . kind === 'video'
&& transceiver . recvEncodingParameters
&& edgeVersion < 15019 ) {
transceiver . recvEncodingParameters . forEach ( function ( p ) {
delete p . rtx ;
} ) ;
}
if ( transceiver . recvEncodingParameters . length ) {
params . encodings = transceiver . recvEncodingParameters ;
} else {
params . encodings = [ { } ] ;
}
params . rtcp = {
compound : transceiver . rtcpParameters . compound
} ;
if ( transceiver . rtcpParameters . cname ) {
params . rtcp . cname = transceiver . rtcpParameters . cname ;
}
if ( transceiver . sendEncodingParameters . length ) {
params . rtcp . ssrc = transceiver . sendEncodingParameters [ 0 ] . ssrc ;
}
transceiver . rtpReceiver . receive ( params ) ;
}
} ;
RTCPeerConnection . prototype . setLocalDescription = function ( description ) {
var pc = this ;
// Note: pranswer is not supported.
if ( [ 'offer' , 'answer' ] . indexOf ( description . type ) === - 1 ) {
return Promise . reject ( makeError ( 'TypeError' ,
'Unsupported type "' + description . type + '"' ) ) ;
}
if ( ! isActionAllowedInSignalingState ( 'setLocalDescription' ,
description . type , pc . signalingState ) || pc . _isClosed ) {
return Promise . reject ( makeError ( 'InvalidStateError' ,
'Can not set local ' + description . type +
' in state ' + pc . signalingState ) ) ;
}
var sections ;
var sessionpart ;
if ( description . type === 'offer' ) {
// VERY limited support for SDP munging. Limited to:
// * changing the order of codecs
sections = sdp . splitSections ( description . sdp ) ;
sessionpart = sections . shift ( ) ;
sections . forEach ( function ( mediaSection , sdpMLineIndex ) {
var caps = sdp . parseRtpParameters ( mediaSection ) ;
pc . transceivers [ sdpMLineIndex ] . localCapabilities = caps ;
} ) ;
pc . transceivers . forEach ( function ( transceiver , sdpMLineIndex ) {
pc . _gather ( transceiver . mid , sdpMLineIndex ) ;
} ) ;
} else if ( description . type === 'answer' ) {
sections = sdp . splitSections ( pc . _remoteDescription . sdp ) ;
sessionpart = sections . shift ( ) ;
var isIceLite = sdp . matchPrefix ( sessionpart ,
'a=ice-lite' ) . length > 0 ;
sections . forEach ( function ( mediaSection , sdpMLineIndex ) {
var transceiver = pc . transceivers [ sdpMLineIndex ] ;
var iceGatherer = transceiver . iceGatherer ;
var iceTransport = transceiver . iceTransport ;
var dtlsTransport = transceiver . dtlsTransport ;
var localCapabilities = transceiver . localCapabilities ;
var remoteCapabilities = transceiver . remoteCapabilities ;
// treat bundle-only as not-rejected.
var rejected = sdp . isRejected ( mediaSection ) &&
sdp . matchPrefix ( mediaSection , 'a=bundle-only' ) . length === 0 ;
if ( ! rejected && ! transceiver . rejected ) {
var remoteIceParameters = sdp . getIceParameters (
mediaSection , sessionpart ) ;
var remoteDtlsParameters = sdp . getDtlsParameters (
mediaSection , sessionpart ) ;
if ( isIceLite ) {
remoteDtlsParameters . role = 'server' ;
}
if ( ! pc . usingBundle || sdpMLineIndex === 0 ) {
pc . _gather ( transceiver . mid , sdpMLineIndex ) ;
if ( iceTransport . state === 'new' ) {
iceTransport . start ( iceGatherer , remoteIceParameters ,
isIceLite ? 'controlling' : 'controlled' ) ;
}
if ( dtlsTransport . state === 'new' ) {
dtlsTransport . start ( remoteDtlsParameters ) ;
}
}
// Calculate intersection of capabilities.
var params = getCommonCapabilities ( localCapabilities ,
remoteCapabilities ) ;
// Start the RTCRtpSender. The RTCRtpReceiver for this
// transceiver has already been started in setRemoteDescription.
pc . _transceive ( transceiver ,
params . codecs . length > 0 ,
false ) ;
}
} ) ;
}
pc . _localDescription = {
type : description . type ,
sdp : description . sdp
} ;
if ( description . type === 'offer' ) {
pc . _updateSignalingState ( 'have-local-offer' ) ;
} else {
pc . _updateSignalingState ( 'stable' ) ;
}
return Promise . resolve ( ) ;
} ;
RTCPeerConnection . prototype . setRemoteDescription = function ( description ) {
var pc = this ;
// Note: pranswer is not supported.
if ( [ 'offer' , 'answer' ] . indexOf ( description . type ) === - 1 ) {
return Promise . reject ( makeError ( 'TypeError' ,
'Unsupported type "' + description . type + '"' ) ) ;
}
if ( ! isActionAllowedInSignalingState ( 'setRemoteDescription' ,
description . type , pc . signalingState ) || pc . _isClosed ) {
return Promise . reject ( makeError ( 'InvalidStateError' ,
'Can not set remote ' + description . type +
' in state ' + pc . signalingState ) ) ;
}
var streams = { } ;
pc . remoteStreams . forEach ( function ( stream ) {
streams [ stream . id ] = stream ;
} ) ;
var receiverList = [ ] ;
var sections = sdp . splitSections ( description . sdp ) ;
var sessionpart = sections . shift ( ) ;
var isIceLite = sdp . matchPrefix ( sessionpart ,
'a=ice-lite' ) . length > 0 ;
var usingBundle = sdp . matchPrefix ( sessionpart ,
'a=group:BUNDLE ' ) . length > 0 ;
pc . usingBundle = usingBundle ;
var iceOptions = sdp . matchPrefix ( sessionpart ,
'a=ice-options:' ) [ 0 ] ;
if ( iceOptions ) {
pc . canTrickleIceCandidates = iceOptions . substr ( 14 ) . split ( ' ' )
. indexOf ( 'trickle' ) >= 0 ;
} else {
pc . canTrickleIceCandidates = false ;
}
sections . forEach ( function ( mediaSection , sdpMLineIndex ) {
var lines = sdp . splitLines ( mediaSection ) ;
var kind = sdp . getKind ( mediaSection ) ;
// treat bundle-only as not-rejected.
var rejected = sdp . isRejected ( mediaSection ) &&
sdp . matchPrefix ( mediaSection , 'a=bundle-only' ) . length === 0 ;
var protocol = lines [ 0 ] . substr ( 2 ) . split ( ' ' ) [ 2 ] ;
var direction = sdp . getDirection ( mediaSection , sessionpart ) ;
var remoteMsid = sdp . parseMsid ( mediaSection ) ;
var mid = sdp . getMid ( mediaSection ) || sdp . generateIdentifier ( ) ;
// Reject datachannels which are not implemented yet.
if ( rejected || ( kind === 'application' && ( protocol === 'DTLS/SCTP' ||
protocol === 'UDP/DTLS/SCTP' ) ) ) {
// TODO: this is dangerous in the case where a non-rejected m-line
// becomes rejected.
pc . transceivers [ sdpMLineIndex ] = {
mid : mid ,
kind : kind ,
protocol : protocol ,
rejected : true
} ;
return ;
}
if ( ! rejected && pc . transceivers [ sdpMLineIndex ] &&
pc . transceivers [ sdpMLineIndex ] . rejected ) {
// recycle a rejected transceiver.
pc . transceivers [ sdpMLineIndex ] = pc . _createTransceiver ( kind , true ) ;
}
var transceiver ;
var iceGatherer ;
var iceTransport ;
var dtlsTransport ;
var rtpReceiver ;
var sendEncodingParameters ;
var recvEncodingParameters ;
var localCapabilities ;
var track ;
// FIXME: ensure the mediaSection has rtcp-mux set.
var remoteCapabilities = sdp . parseRtpParameters ( mediaSection ) ;
var remoteIceParameters ;
var remoteDtlsParameters ;
if ( ! rejected ) {
remoteIceParameters = sdp . getIceParameters ( mediaSection ,
sessionpart ) ;
remoteDtlsParameters = sdp . getDtlsParameters ( mediaSection ,
sessionpart ) ;
remoteDtlsParameters . role = 'client' ;
}
recvEncodingParameters =
sdp . parseRtpEncodingParameters ( mediaSection ) ;
var rtcpParameters = sdp . parseRtcpParameters ( mediaSection ) ;
var isComplete = sdp . matchPrefix ( mediaSection ,
'a=end-of-candidates' , sessionpart ) . length > 0 ;
var cands = sdp . matchPrefix ( mediaSection , 'a=candidate:' )
. map ( function ( cand ) {
return sdp . parseCandidate ( cand ) ;
} )
. filter ( function ( cand ) {
return cand . component === 1 ;
} ) ;
// Check if we can use BUNDLE and dispose transports.
if ( ( description . type === 'offer' || description . type === 'answer' ) &&
! rejected && usingBundle && sdpMLineIndex > 0 &&
pc . transceivers [ sdpMLineIndex ] ) {
pc . _disposeIceAndDtlsTransports ( sdpMLineIndex ) ;
pc . transceivers [ sdpMLineIndex ] . iceGatherer =
pc . transceivers [ 0 ] . iceGatherer ;
pc . transceivers [ sdpMLineIndex ] . iceTransport =
pc . transceivers [ 0 ] . iceTransport ;
pc . transceivers [ sdpMLineIndex ] . dtlsTransport =
pc . transceivers [ 0 ] . dtlsTransport ;
if ( pc . transceivers [ sdpMLineIndex ] . rtpSender ) {
pc . transceivers [ sdpMLineIndex ] . rtpSender . setTransport (
pc . transceivers [ 0 ] . dtlsTransport ) ;
}
if ( pc . transceivers [ sdpMLineIndex ] . rtpReceiver ) {
pc . transceivers [ sdpMLineIndex ] . rtpReceiver . setTransport (
pc . transceivers [ 0 ] . dtlsTransport ) ;
}
}
if ( description . type === 'offer' && ! rejected ) {
transceiver = pc . transceivers [ sdpMLineIndex ] ||
pc . _createTransceiver ( kind ) ;
transceiver . mid = mid ;
if ( ! transceiver . iceGatherer ) {
transceiver . iceGatherer = pc . _createIceGatherer ( sdpMLineIndex ,
usingBundle ) ;
}
if ( cands . length && transceiver . iceTransport . state === 'new' ) {
if ( isComplete && ( ! usingBundle || sdpMLineIndex === 0 ) ) {
transceiver . iceTransport . setRemoteCandidates ( cands ) ;
} else {
cands . forEach ( function ( candidate ) {
maybeAddCandidate ( transceiver . iceTransport , candidate ) ;
} ) ;
}
}
localCapabilities = window . RTCRtpReceiver . getCapabilities ( kind ) ;
// filter RTX until additional stuff needed for RTX is implemented
// in adapter.js
if ( edgeVersion < 15019 ) {
localCapabilities . codecs = localCapabilities . codecs . filter (
function ( codec ) {
return codec . name !== 'rtx' ;
} ) ;
}
sendEncodingParameters = transceiver . sendEncodingParameters || [ {
ssrc : ( 2 * sdpMLineIndex + 2 ) * 1001
} ] ;
// TODO: rewrite to use http://w3c.github.io/webrtc-pc/#set-associated-remote-streams
var isNewTrack = false ;
if ( direction === 'sendrecv' || direction === 'sendonly' ) {
isNewTrack = ! transceiver . rtpReceiver ;
rtpReceiver = transceiver . rtpReceiver ||
new window . RTCRtpReceiver ( transceiver . dtlsTransport , kind ) ;
if ( isNewTrack ) {
var stream ;
track = rtpReceiver . track ;
// FIXME: does not work with Plan B.
if ( remoteMsid && remoteMsid . stream === '-' ) ; else if ( remoteMsid ) {
if ( ! streams [ remoteMsid . stream ] ) {
streams [ remoteMsid . stream ] = new window . MediaStream ( ) ;
Object . defineProperty ( streams [ remoteMsid . stream ] , 'id' , {
get : function ( ) {
return remoteMsid . stream ;
}
} ) ;
}
Object . defineProperty ( track , 'id' , {
get : function ( ) {
return remoteMsid . track ;
}
} ) ;
stream = streams [ remoteMsid . stream ] ;
} else {
if ( ! streams . default ) {
streams . default = new window . MediaStream ( ) ;
}
stream = streams . default ;
}
if ( stream ) {
addTrackToStreamAndFireEvent ( track , stream ) ;
transceiver . associatedRemoteMediaStreams . push ( stream ) ;
}
receiverList . push ( [ track , rtpReceiver , stream ] ) ;
}
} else if ( transceiver . rtpReceiver && transceiver . rtpReceiver . track ) {
transceiver . associatedRemoteMediaStreams . forEach ( function ( s ) {
var nativeTrack = s . getTracks ( ) . find ( function ( t ) {
return t . id === transceiver . rtpReceiver . track . id ;
} ) ;
if ( nativeTrack ) {
removeTrackFromStreamAndFireEvent ( nativeTrack , s ) ;
}
} ) ;
transceiver . associatedRemoteMediaStreams = [ ] ;
}
transceiver . localCapabilities = localCapabilities ;
transceiver . remoteCapabilities = remoteCapabilities ;
transceiver . rtpReceiver = rtpReceiver ;
transceiver . rtcpParameters = rtcpParameters ;
transceiver . sendEncodingParameters = sendEncodingParameters ;
transceiver . recvEncodingParameters = recvEncodingParameters ;
// Start the RTCRtpReceiver now. The RTPSender is started in
// setLocalDescription.
pc . _transceive ( pc . transceivers [ sdpMLineIndex ] ,
false ,
isNewTrack ) ;
} else if ( description . type === 'answer' && ! rejected ) {
transceiver = pc . transceivers [ sdpMLineIndex ] ;
iceGatherer = transceiver . iceGatherer ;
iceTransport = transceiver . iceTransport ;
dtlsTransport = transceiver . dtlsTransport ;
rtpReceiver = transceiver . rtpReceiver ;
sendEncodingParameters = transceiver . sendEncodingParameters ;
localCapabilities = transceiver . localCapabilities ;
pc . transceivers [ sdpMLineIndex ] . recvEncodingParameters =
recvEncodingParameters ;
pc . transceivers [ sdpMLineIndex ] . remoteCapabilities =
remoteCapabilities ;
pc . transceivers [ sdpMLineIndex ] . rtcpParameters = rtcpParameters ;
if ( cands . length && iceTransport . state === 'new' ) {
if ( ( isIceLite || isComplete ) &&
( ! usingBundle || sdpMLineIndex === 0 ) ) {
iceTransport . setRemoteCandidates ( cands ) ;
} else {
cands . forEach ( function ( candidate ) {
maybeAddCandidate ( transceiver . iceTransport , candidate ) ;
} ) ;
}
}
if ( ! usingBundle || sdpMLineIndex === 0 ) {
if ( iceTransport . state === 'new' ) {
iceTransport . start ( iceGatherer , remoteIceParameters ,
'controlling' ) ;
}
if ( dtlsTransport . state === 'new' ) {
dtlsTransport . start ( remoteDtlsParameters ) ;
}
}
// If the offer contained RTX but the answer did not,
// remove RTX from sendEncodingParameters.
var commonCapabilities = getCommonCapabilities (
transceiver . localCapabilities ,
transceiver . remoteCapabilities ) ;
var hasRtx = commonCapabilities . codecs . filter ( function ( c ) {
return c . name . toLowerCase ( ) === 'rtx' ;
} ) . length ;
if ( ! hasRtx && transceiver . sendEncodingParameters [ 0 ] . rtx ) {
delete transceiver . sendEncodingParameters [ 0 ] . rtx ;
}
pc . _transceive ( transceiver ,
direction === 'sendrecv' || direction === 'recvonly' ,
direction === 'sendrecv' || direction === 'sendonly' ) ;
// TODO: rewrite to use http://w3c.github.io/webrtc-pc/#set-associated-remote-streams
if ( rtpReceiver &&
( direction === 'sendrecv' || direction === 'sendonly' ) ) {
track = rtpReceiver . track ;
if ( remoteMsid ) {
if ( ! streams [ remoteMsid . stream ] ) {
streams [ remoteMsid . stream ] = new window . MediaStream ( ) ;
}
addTrackToStreamAndFireEvent ( track , streams [ remoteMsid . stream ] ) ;
receiverList . push ( [ track , rtpReceiver , streams [ remoteMsid . stream ] ] ) ;
} else {
if ( ! streams . default ) {
streams . default = new window . MediaStream ( ) ;
}
addTrackToStreamAndFireEvent ( track , streams . default ) ;
receiverList . push ( [ track , rtpReceiver , streams . default ] ) ;
}
} else {
// FIXME: actually the receiver should be created later.
delete transceiver . rtpReceiver ;
}
}
} ) ;
if ( pc . _dtlsRole === undefined ) {
pc . _dtlsRole = description . type === 'offer' ? 'active' : 'passive' ;
}
pc . _remoteDescription = {
type : description . type ,
sdp : description . sdp
} ;
if ( description . type === 'offer' ) {
pc . _updateSignalingState ( 'have-remote-offer' ) ;
} else {
pc . _updateSignalingState ( 'stable' ) ;
}
Object . keys ( streams ) . forEach ( function ( sid ) {
var stream = streams [ sid ] ;
if ( stream . getTracks ( ) . length ) {
if ( pc . remoteStreams . indexOf ( stream ) === - 1 ) {
pc . remoteStreams . push ( stream ) ;
var event = new Event ( 'addstream' ) ;
event . stream = stream ;
window . setTimeout ( function ( ) {
pc . _dispatchEvent ( 'addstream' , event ) ;
} ) ;
}
receiverList . forEach ( function ( item ) {
var track = item [ 0 ] ;
var receiver = item [ 1 ] ;
if ( stream . id !== item [ 2 ] . id ) {
return ;
}
fireAddTrack ( pc , track , receiver , [ stream ] ) ;
} ) ;
}
} ) ;
receiverList . forEach ( function ( item ) {
if ( item [ 2 ] ) {
return ;
}
fireAddTrack ( pc , item [ 0 ] , item [ 1 ] , [ ] ) ;
} ) ;
// check whether addIceCandidate({}) was called within four seconds after
// setRemoteDescription.
window . setTimeout ( function ( ) {
if ( ! ( pc && pc . transceivers ) ) {
return ;
}
pc . transceivers . forEach ( function ( transceiver ) {
if ( transceiver . iceTransport &&
transceiver . iceTransport . state === 'new' &&
transceiver . iceTransport . getRemoteCandidates ( ) . length > 0 ) {
console . warn ( 'Timeout for addRemoteCandidate. Consider sending ' +
'an end-of-candidates notification' ) ;
transceiver . iceTransport . addRemoteCandidate ( { } ) ;
}
} ) ;
} , 4000 ) ;
return Promise . resolve ( ) ;
} ;
RTCPeerConnection . prototype . close = function ( ) {
this . transceivers . forEach ( function ( transceiver ) {
/ * n o t y e t
if ( transceiver . iceGatherer ) {
transceiver . iceGatherer . close ( ) ;
}
* /
if ( transceiver . iceTransport ) {
transceiver . iceTransport . stop ( ) ;
}
if ( transceiver . dtlsTransport ) {
transceiver . dtlsTransport . stop ( ) ;
}
if ( transceiver . rtpSender ) {
transceiver . rtpSender . stop ( ) ;
}
if ( transceiver . rtpReceiver ) {
transceiver . rtpReceiver . stop ( ) ;
}
} ) ;
// FIXME: clean up tracks, local streams, remote streams, etc
this . _isClosed = true ;
this . _updateSignalingState ( 'closed' ) ;
} ;
// Update the signaling state.
RTCPeerConnection . prototype . _updateSignalingState = function ( newState ) {
this . signalingState = newState ;
var event = new Event ( 'signalingstatechange' ) ;
this . _dispatchEvent ( 'signalingstatechange' , event ) ;
} ;
// Determine whether to fire the negotiationneeded event.
RTCPeerConnection . prototype . _maybeFireNegotiationNeeded = function ( ) {
var pc = this ;
if ( this . signalingState !== 'stable' || this . needNegotiation === true ) {
return ;
}
this . needNegotiation = true ;
window . setTimeout ( function ( ) {
if ( pc . needNegotiation ) {
pc . needNegotiation = false ;
var event = new Event ( 'negotiationneeded' ) ;
pc . _dispatchEvent ( 'negotiationneeded' , event ) ;
}
} , 0 ) ;
} ;
// Update the ice connection state.
RTCPeerConnection . prototype . _updateIceConnectionState = function ( ) {
var newState ;
var states = {
'new' : 0 ,
closed : 0 ,
checking : 0 ,
connected : 0 ,
completed : 0 ,
disconnected : 0 ,
failed : 0
} ;
this . transceivers . forEach ( function ( transceiver ) {
if ( transceiver . iceTransport && ! transceiver . rejected ) {
states [ transceiver . iceTransport . state ] ++ ;
}
} ) ;
newState = 'new' ;
if ( states . failed > 0 ) {
newState = 'failed' ;
} else if ( states . checking > 0 ) {
newState = 'checking' ;
} else if ( states . disconnected > 0 ) {
newState = 'disconnected' ;
} else if ( states . new > 0 ) {
newState = 'new' ;
} else if ( states . connected > 0 ) {
newState = 'connected' ;
} else if ( states . completed > 0 ) {
newState = 'completed' ;
}
if ( newState !== this . iceConnectionState ) {
this . iceConnectionState = newState ;
var event = new Event ( 'iceconnectionstatechange' ) ;
this . _dispatchEvent ( 'iceconnectionstatechange' , event ) ;
}
} ;
// Update the connection state.
RTCPeerConnection . prototype . _updateConnectionState = function ( ) {
var newState ;
var states = {
'new' : 0 ,
closed : 0 ,
connecting : 0 ,
connected : 0 ,
completed : 0 ,
disconnected : 0 ,
failed : 0
} ;
this . transceivers . forEach ( function ( transceiver ) {
if ( transceiver . iceTransport && transceiver . dtlsTransport &&
! transceiver . rejected ) {
states [ transceiver . iceTransport . state ] ++ ;
states [ transceiver . dtlsTransport . state ] ++ ;
}
} ) ;
// ICETransport.completed and connected are the same for this purpose.
states . connected += states . completed ;
newState = 'new' ;
if ( states . failed > 0 ) {
newState = 'failed' ;
} else if ( states . connecting > 0 ) {
newState = 'connecting' ;
} else if ( states . disconnected > 0 ) {
newState = 'disconnected' ;
} else if ( states . new > 0 ) {
newState = 'new' ;
} else if ( states . connected > 0 ) {
newState = 'connected' ;
}
if ( newState !== this . connectionState ) {
this . connectionState = newState ;
var event = new Event ( 'connectionstatechange' ) ;
this . _dispatchEvent ( 'connectionstatechange' , event ) ;
}
} ;
RTCPeerConnection . prototype . createOffer = function ( ) {
var pc = this ;
if ( pc . _isClosed ) {
return Promise . reject ( makeError ( 'InvalidStateError' ,
'Can not call createOffer after close' ) ) ;
}
var numAudioTracks = pc . transceivers . filter ( function ( t ) {
return t . kind === 'audio' ;
} ) . length ;
var numVideoTracks = pc . transceivers . filter ( function ( t ) {
return t . kind === 'video' ;
} ) . length ;
// Determine number of audio and video tracks we need to send/recv.
var offerOptions = arguments [ 0 ] ;
if ( offerOptions ) {
// Reject Chrome legacy constraints.
if ( offerOptions . mandatory || offerOptions . optional ) {
throw new TypeError (
'Legacy mandatory/optional constraints not supported.' ) ;
}
if ( offerOptions . offerToReceiveAudio !== undefined ) {
if ( offerOptions . offerToReceiveAudio === true ) {
numAudioTracks = 1 ;
} else if ( offerOptions . offerToReceiveAudio === false ) {
numAudioTracks = 0 ;
} else {
numAudioTracks = offerOptions . offerToReceiveAudio ;
}
}
if ( offerOptions . offerToReceiveVideo !== undefined ) {
if ( offerOptions . offerToReceiveVideo === true ) {
numVideoTracks = 1 ;
} else if ( offerOptions . offerToReceiveVideo === false ) {
numVideoTracks = 0 ;
} else {
numVideoTracks = offerOptions . offerToReceiveVideo ;
}
}
}
pc . transceivers . forEach ( function ( transceiver ) {
if ( transceiver . kind === 'audio' ) {
numAudioTracks -- ;
if ( numAudioTracks < 0 ) {
transceiver . wantReceive = false ;
}
} else if ( transceiver . kind === 'video' ) {
numVideoTracks -- ;
if ( numVideoTracks < 0 ) {
transceiver . wantReceive = false ;
}
}
} ) ;
// Create M-lines for recvonly streams.
while ( numAudioTracks > 0 || numVideoTracks > 0 ) {
if ( numAudioTracks > 0 ) {
pc . _createTransceiver ( 'audio' ) ;
numAudioTracks -- ;
}
if ( numVideoTracks > 0 ) {
pc . _createTransceiver ( 'video' ) ;
numVideoTracks -- ;
}
}
var sdp$1 = sdp . writeSessionBoilerplate ( pc . _sdpSessionId ,
pc . _sdpSessionVersion ++ ) ;
pc . transceivers . forEach ( function ( transceiver , sdpMLineIndex ) {
// For each track, create an ice gatherer, ice transport,
// dtls transport, potentially rtpsender and rtpreceiver.
var track = transceiver . track ;
var kind = transceiver . kind ;
var mid = transceiver . mid || sdp . generateIdentifier ( ) ;
transceiver . mid = mid ;
if ( ! transceiver . iceGatherer ) {
transceiver . iceGatherer = pc . _createIceGatherer ( sdpMLineIndex ,
pc . usingBundle ) ;
}
var localCapabilities = window . RTCRtpSender . getCapabilities ( kind ) ;
// filter RTX until additional stuff needed for RTX is implemented
// in adapter.js
if ( edgeVersion < 15019 ) {
localCapabilities . codecs = localCapabilities . codecs . filter (
function ( codec ) {
return codec . name !== 'rtx' ;
} ) ;
}
localCapabilities . codecs . forEach ( function ( codec ) {
// work around https://bugs.chromium.org/p/webrtc/issues/detail?id=6552
// by adding level-asymmetry-allowed=1
if ( codec . name === 'H264' &&
codec . parameters [ 'level-asymmetry-allowed' ] === undefined ) {
codec . parameters [ 'level-asymmetry-allowed' ] = '1' ;
}
// for subsequent offers, we might have to re-use the payload
// type of the last offer.
if ( transceiver . remoteCapabilities &&
transceiver . remoteCapabilities . codecs ) {
transceiver . remoteCapabilities . codecs . forEach ( function ( remoteCodec ) {
if ( codec . name . toLowerCase ( ) === remoteCodec . name . toLowerCase ( ) &&
codec . clockRate === remoteCodec . clockRate ) {
codec . preferredPayloadType = remoteCodec . payloadType ;
}
} ) ;
}
} ) ;
localCapabilities . headerExtensions . forEach ( function ( hdrExt ) {
var remoteExtensions = transceiver . remoteCapabilities &&
transceiver . remoteCapabilities . headerExtensions || [ ] ;
remoteExtensions . forEach ( function ( rHdrExt ) {
if ( hdrExt . uri === rHdrExt . uri ) {
hdrExt . id = rHdrExt . id ;
}
} ) ;
} ) ;
// generate an ssrc now, to be used later in rtpSender.send
var sendEncodingParameters = transceiver . sendEncodingParameters || [ {
ssrc : ( 2 * sdpMLineIndex + 1 ) * 1001
} ] ;
if ( track ) {
// add RTX
if ( edgeVersion >= 15019 && kind === 'video' &&
! sendEncodingParameters [ 0 ] . rtx ) {
sendEncodingParameters [ 0 ] . rtx = {
ssrc : sendEncodingParameters [ 0 ] . ssrc + 1
} ;
}
}
if ( transceiver . wantReceive ) {
transceiver . rtpReceiver = new window . RTCRtpReceiver (
transceiver . dtlsTransport , kind ) ;
}
transceiver . localCapabilities = localCapabilities ;
transceiver . sendEncodingParameters = sendEncodingParameters ;
} ) ;
// always offer BUNDLE and dispose on return if not supported.
if ( pc . _config . bundlePolicy !== 'max-compat' ) {
sdp$1 += 'a=group:BUNDLE ' + pc . transceivers . map ( function ( t ) {
return t . mid ;
} ) . join ( ' ' ) + '\r\n' ;
}
sdp$1 += 'a=ice-options:trickle\r\n' ;
pc . transceivers . forEach ( function ( transceiver , sdpMLineIndex ) {
sdp$1 += writeMediaSection ( transceiver , transceiver . localCapabilities ,
'offer' , transceiver . stream , pc . _dtlsRole ) ;
sdp$1 += 'a=rtcp-rsize\r\n' ;
if ( transceiver . iceGatherer && pc . iceGatheringState !== 'new' &&
( sdpMLineIndex === 0 || ! pc . usingBundle ) ) {
transceiver . iceGatherer . getLocalCandidates ( ) . forEach ( function ( cand ) {
cand . component = 1 ;
sdp$1 += 'a=' + sdp . writeCandidate ( cand ) + '\r\n' ;
} ) ;
if ( transceiver . iceGatherer . state === 'completed' ) {
sdp$1 += 'a=end-of-candidates\r\n' ;
}
}
} ) ;
var desc = new window . RTCSessionDescription ( {
type : 'offer' ,
sdp : sdp$1
} ) ;
return Promise . resolve ( desc ) ;
} ;
RTCPeerConnection . prototype . createAnswer = function ( ) {
var pc = this ;
if ( pc . _isClosed ) {
return Promise . reject ( makeError ( 'InvalidStateError' ,
'Can not call createAnswer after close' ) ) ;
}
if ( ! ( pc . signalingState === 'have-remote-offer' ||
pc . signalingState === 'have-local-pranswer' ) ) {
return Promise . reject ( makeError ( 'InvalidStateError' ,
'Can not call createAnswer in signalingState ' + pc . signalingState ) ) ;
}
var sdp$1 = sdp . writeSessionBoilerplate ( pc . _sdpSessionId ,
pc . _sdpSessionVersion ++ ) ;
if ( pc . usingBundle ) {
sdp$1 += 'a=group:BUNDLE ' + pc . transceivers . map ( function ( t ) {
return t . mid ;
} ) . join ( ' ' ) + '\r\n' ;
}
sdp$1 += 'a=ice-options:trickle\r\n' ;
var mediaSectionsInOffer = sdp . getMediaSections (
pc . _remoteDescription . sdp ) . length ;
pc . transceivers . forEach ( function ( transceiver , sdpMLineIndex ) {
if ( sdpMLineIndex + 1 > mediaSectionsInOffer ) {
return ;
}
if ( transceiver . rejected ) {
if ( transceiver . kind === 'application' ) {
if ( transceiver . protocol === 'DTLS/SCTP' ) { // legacy fmt
sdp$1 += 'm=application 0 DTLS/SCTP 5000\r\n' ;
} else {
sdp$1 += 'm=application 0 ' + transceiver . protocol +
' webrtc-datachannel\r\n' ;
}
} else if ( transceiver . kind === 'audio' ) {
sdp$1 += 'm=audio 0 UDP/TLS/RTP/SAVPF 0\r\n' +
'a=rtpmap:0 PCMU/8000\r\n' ;
} else if ( transceiver . kind === 'video' ) {
sdp$1 += 'm=video 0 UDP/TLS/RTP/SAVPF 120\r\n' +
'a=rtpmap:120 VP8/90000\r\n' ;
}
sdp$1 += 'c=IN IP4 0.0.0.0\r\n' +
'a=inactive\r\n' +
'a=mid:' + transceiver . mid + '\r\n' ;
return ;
}
// FIXME: look at direction.
if ( transceiver . stream ) {
var localTrack ;
if ( transceiver . kind === 'audio' ) {
localTrack = transceiver . stream . getAudioTracks ( ) [ 0 ] ;
} else if ( transceiver . kind === 'video' ) {
localTrack = transceiver . stream . getVideoTracks ( ) [ 0 ] ;
}
if ( localTrack ) {
// add RTX
if ( edgeVersion >= 15019 && transceiver . kind === 'video' &&
! transceiver . sendEncodingParameters [ 0 ] . rtx ) {
transceiver . sendEncodingParameters [ 0 ] . rtx = {
ssrc : transceiver . sendEncodingParameters [ 0 ] . ssrc + 1
} ;
}
}
}
// Calculate intersection of capabilities.
var commonCapabilities = getCommonCapabilities (
transceiver . localCapabilities ,
transceiver . remoteCapabilities ) ;
var hasRtx = commonCapabilities . codecs . filter ( function ( c ) {
return c . name . toLowerCase ( ) === 'rtx' ;
} ) . length ;
if ( ! hasRtx && transceiver . sendEncodingParameters [ 0 ] . rtx ) {
delete transceiver . sendEncodingParameters [ 0 ] . rtx ;
}
sdp$1 += writeMediaSection ( transceiver , commonCapabilities ,
'answer' , transceiver . stream , pc . _dtlsRole ) ;
if ( transceiver . rtcpParameters &&
transceiver . rtcpParameters . reducedSize ) {
sdp$1 += 'a=rtcp-rsize\r\n' ;
}
} ) ;
var desc = new window . RTCSessionDescription ( {
type : 'answer' ,
sdp : sdp$1
} ) ;
return Promise . resolve ( desc ) ;
} ;
RTCPeerConnection . prototype . addIceCandidate = function ( candidate ) {
var pc = this ;
var sections ;
if ( candidate && ! ( candidate . sdpMLineIndex !== undefined ||
candidate . sdpMid ) ) {
return Promise . reject ( new TypeError ( 'sdpMLineIndex or sdpMid required' ) ) ;
}
// TODO: needs to go into ops queue.
return new Promise ( function ( resolve , reject ) {
if ( ! pc . _remoteDescription ) {
return reject ( makeError ( 'InvalidStateError' ,
'Can not add ICE candidate without a remote description' ) ) ;
} else if ( ! candidate || candidate . candidate === '' ) {
for ( var j = 0 ; j < pc . transceivers . length ; j ++ ) {
if ( pc . transceivers [ j ] . rejected ) {
continue ;
}
pc . transceivers [ j ] . iceTransport . addRemoteCandidate ( { } ) ;
sections = sdp . getMediaSections ( pc . _remoteDescription . sdp ) ;
sections [ j ] += 'a=end-of-candidates\r\n' ;
pc . _remoteDescription . sdp =
sdp . getDescription ( pc . _remoteDescription . sdp ) +
sections . join ( '' ) ;
if ( pc . usingBundle ) {
break ;
}
}
} else {
var sdpMLineIndex = candidate . sdpMLineIndex ;
if ( candidate . sdpMid ) {
for ( var i = 0 ; i < pc . transceivers . length ; i ++ ) {
if ( pc . transceivers [ i ] . mid === candidate . sdpMid ) {
sdpMLineIndex = i ;
break ;
}
}
}
var transceiver = pc . transceivers [ sdpMLineIndex ] ;
if ( transceiver ) {
if ( transceiver . rejected ) {
return resolve ( ) ;
}
var cand = Object . keys ( candidate . candidate ) . length > 0 ?
sdp . parseCandidate ( candidate . candidate ) : { } ;
// Ignore Chrome's invalid candidates since Edge does not like them.
if ( cand . protocol === 'tcp' && ( cand . port === 0 || cand . port === 9 ) ) {
return resolve ( ) ;
}
// Ignore RTCP candidates, we assume RTCP-MUX.
if ( cand . component && cand . component !== 1 ) {
return resolve ( ) ;
}
// when using bundle, avoid adding candidates to the wrong
// ice transport. And avoid adding candidates added in the SDP.
if ( sdpMLineIndex === 0 || ( sdpMLineIndex > 0 &&
transceiver . iceTransport !== pc . transceivers [ 0 ] . iceTransport ) ) {
if ( ! maybeAddCandidate ( transceiver . iceTransport , cand ) ) {
return reject ( makeError ( 'OperationError' ,
'Can not add ICE candidate' ) ) ;
}
}
// update the remoteDescription.
var candidateString = candidate . candidate . trim ( ) ;
if ( candidateString . indexOf ( 'a=' ) === 0 ) {
candidateString = candidateString . substr ( 2 ) ;
}
sections = sdp . getMediaSections ( pc . _remoteDescription . sdp ) ;
sections [ sdpMLineIndex ] += 'a=' +
( cand . type ? candidateString : 'end-of-candidates' )
+ '\r\n' ;
pc . _remoteDescription . sdp =
sdp . getDescription ( pc . _remoteDescription . sdp ) +
sections . join ( '' ) ;
} else {
return reject ( makeError ( 'OperationError' ,
'Can not add ICE candidate' ) ) ;
}
}
resolve ( ) ;
} ) ;
} ;
RTCPeerConnection . prototype . getStats = function ( selector ) {
if ( selector && selector instanceof window . MediaStreamTrack ) {
var senderOrReceiver = null ;
this . transceivers . forEach ( function ( transceiver ) {
if ( transceiver . rtpSender &&
transceiver . rtpSender . track === selector ) {
senderOrReceiver = transceiver . rtpSender ;
} else if ( transceiver . rtpReceiver &&
transceiver . rtpReceiver . track === selector ) {
senderOrReceiver = transceiver . rtpReceiver ;
}
} ) ;
if ( ! senderOrReceiver ) {
throw makeError ( 'InvalidAccessError' , 'Invalid selector.' ) ;
}
return senderOrReceiver . getStats ( ) ;
}
var promises = [ ] ;
this . transceivers . forEach ( function ( transceiver ) {
[ 'rtpSender' , 'rtpReceiver' , 'iceGatherer' , 'iceTransport' ,
'dtlsTransport' ] . forEach ( function ( method ) {
if ( transceiver [ method ] ) {
promises . push ( transceiver [ method ] . getStats ( ) ) ;
}
} ) ;
} ) ;
return Promise . all ( promises ) . then ( function ( allStats ) {
var results = new Map ( ) ;
allStats . forEach ( function ( stats ) {
stats . forEach ( function ( stat ) {
results . set ( stat . id , stat ) ;
} ) ;
} ) ;
return results ;
} ) ;
} ;
// fix low-level stat names and return Map instead of object.
var ortcObjects = [ 'RTCRtpSender' , 'RTCRtpReceiver' , 'RTCIceGatherer' ,
'RTCIceTransport' , 'RTCDtlsTransport' ] ;
ortcObjects . forEach ( function ( ortcObjectName ) {
var obj = window [ ortcObjectName ] ;
if ( obj && obj . prototype && obj . prototype . getStats ) {
var nativeGetstats = obj . prototype . getStats ;
obj . prototype . getStats = function ( ) {
return nativeGetstats . apply ( this )
. then ( function ( nativeStats ) {
var mapStats = new Map ( ) ;
Object . keys ( nativeStats ) . forEach ( function ( id ) {
nativeStats [ id ] . type = fixStatsType ( nativeStats [ id ] ) ;
mapStats . set ( id , nativeStats [ id ] ) ;
} ) ;
return mapStats ;
} ) ;
} ;
}
} ) ;
// legacy callback shims. Should be moved to adapter.js some days.
var methods = [ 'createOffer' , 'createAnswer' ] ;
methods . forEach ( function ( method ) {
var nativeMethod = RTCPeerConnection . prototype [ method ] ;
RTCPeerConnection . prototype [ method ] = function ( ) {
var args = arguments ;
if ( typeof args [ 0 ] === 'function' ||
typeof args [ 1 ] === 'function' ) { // legacy
return nativeMethod . apply ( this , [ arguments [ 2 ] ] )
. then ( function ( description ) {
if ( typeof args [ 0 ] === 'function' ) {
args [ 0 ] . apply ( null , [ description ] ) ;
}
} , function ( error ) {
if ( typeof args [ 1 ] === 'function' ) {
args [ 1 ] . apply ( null , [ error ] ) ;
}
} ) ;
}
return nativeMethod . apply ( this , arguments ) ;
} ;
} ) ;
methods = [ 'setLocalDescription' , 'setRemoteDescription' , 'addIceCandidate' ] ;
methods . forEach ( function ( method ) {
var nativeMethod = RTCPeerConnection . prototype [ method ] ;
RTCPeerConnection . prototype [ method ] = function ( ) {
var args = arguments ;
if ( typeof args [ 1 ] === 'function' ||
typeof args [ 2 ] === 'function' ) { // legacy
return nativeMethod . apply ( this , arguments )
. then ( function ( ) {
if ( typeof args [ 1 ] === 'function' ) {
args [ 1 ] . apply ( null ) ;
}
} , function ( error ) {
if ( typeof args [ 2 ] === 'function' ) {
args [ 2 ] . apply ( null , [ error ] ) ;
}
} ) ;
}
return nativeMethod . apply ( this , arguments ) ;
} ;
} ) ;
// getStats is special. It doesn't have a spec legacy method yet we support
// getStats(something, cb) without error callbacks.
[ 'getStats' ] . forEach ( function ( method ) {
var nativeMethod = RTCPeerConnection . prototype [ method ] ;
RTCPeerConnection . prototype [ method ] = function ( ) {
var args = arguments ;
if ( typeof args [ 1 ] === 'function' ) {
return nativeMethod . apply ( this , arguments )
. then ( function ( ) {
if ( typeof args [ 1 ] === 'function' ) {
args [ 1 ] . apply ( null ) ;
}
} ) ;
}
return nativeMethod . apply ( this , arguments ) ;
} ;
} ) ;
return RTCPeerConnection ;
} ;
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimGetUserMedia$2 ( window ) {
const navigator = window && window . navigator ;
const shimError _ = function ( e ) {
return {
name : { PermissionDeniedError : 'NotAllowedError' } [ e . name ] || e . name ,
message : e . message ,
constraint : e . constraint ,
toString ( ) {
return this . name ;
}
} ;
} ;
// getUserMedia error shim.
const origGetUserMedia = navigator . mediaDevices . getUserMedia .
bind ( navigator . mediaDevices ) ;
navigator . mediaDevices . getUserMedia = function ( c ) {
return origGetUserMedia ( c ) . catch ( e => Promise . reject ( shimError _ ( e ) ) ) ;
} ;
}
/ *
* Copyright ( c ) 2018 The adapter . js project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimGetDisplayMedia$1 ( window ) {
if ( ! ( 'getDisplayMedia' in window . navigator ) ) {
return ;
}
if ( ! ( window . navigator . mediaDevices ) ) {
return ;
}
if ( window . navigator . mediaDevices &&
'getDisplayMedia' in window . navigator . mediaDevices ) {
return ;
}
window . navigator . mediaDevices . getDisplayMedia =
window . navigator . getDisplayMedia . bind ( window . navigator ) ;
}
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimPeerConnection$1 ( window , browserDetails ) {
if ( window . RTCIceGatherer ) {
if ( ! window . RTCIceCandidate ) {
window . RTCIceCandidate = function RTCIceCandidate ( args ) {
return args ;
} ;
}
if ( ! window . RTCSessionDescription ) {
window . RTCSessionDescription = function RTCSessionDescription ( args ) {
return args ;
} ;
}
// this adds an additional event listener to MediaStrackTrack that signals
// when a tracks enabled property was changed. Workaround for a bug in
// addStream, see below. No longer required in 15025+
if ( browserDetails . version < 15025 ) {
const origMSTEnabled = Object . getOwnPropertyDescriptor (
window . MediaStreamTrack . prototype , 'enabled' ) ;
Object . defineProperty ( window . MediaStreamTrack . prototype , 'enabled' , {
set ( value ) {
origMSTEnabled . set . call ( this , value ) ;
const ev = new Event ( 'enabled' ) ;
ev . enabled = value ;
this . dispatchEvent ( ev ) ;
}
} ) ;
}
}
// ORTC defines the DTMF sender a bit different.
// https://github.com/w3c/ortc/issues/714
if ( window . RTCRtpSender && ! ( 'dtmf' in window . RTCRtpSender . prototype ) ) {
Object . defineProperty ( window . RTCRtpSender . prototype , 'dtmf' , {
get ( ) {
if ( this . _dtmf === undefined ) {
if ( this . track . kind === 'audio' ) {
this . _dtmf = new window . RTCDtmfSender ( this ) ;
} else if ( this . track . kind === 'video' ) {
this . _dtmf = null ;
}
}
return this . _dtmf ;
}
} ) ;
}
// Edge currently only implements the RTCDtmfSender, not the
// RTCDTMFSender alias. See http://draft.ortc.org/#rtcdtmfsender2*
if ( window . RTCDtmfSender && ! window . RTCDTMFSender ) {
window . RTCDTMFSender = window . RTCDtmfSender ;
}
const RTCPeerConnectionShim = rtcpeerconnection ( window ,
browserDetails . version ) ;
window . RTCPeerConnection = function RTCPeerConnection ( config ) {
if ( config && config . iceServers ) {
config . iceServers = filterIceServers$1 ( config . iceServers ,
browserDetails . version ) ;
log$1 ( 'ICE servers after filtering:' , config . iceServers ) ;
}
return new RTCPeerConnectionShim ( config ) ;
} ;
window . RTCPeerConnection . prototype = RTCPeerConnectionShim . prototype ;
}
function shimReplaceTrack ( window ) {
// ORTC has replaceTrack -- https://github.com/w3c/ortc/issues/614
if ( window . RTCRtpSender &&
! ( 'replaceTrack' in window . RTCRtpSender . prototype ) ) {
window . RTCRtpSender . prototype . replaceTrack =
window . RTCRtpSender . prototype . setTrack ;
}
}
var edgeShim = /*#__PURE__*/ Object . freeze ( {
_ _proto _ _ : null ,
shimPeerConnection : shimPeerConnection$1 ,
shimReplaceTrack : shimReplaceTrack ,
shimGetUserMedia : shimGetUserMedia$2 ,
shimGetDisplayMedia : shimGetDisplayMedia$1
} ) ;
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimGetUserMedia$1 ( window , browserDetails ) {
const navigator = window && window . navigator ;
const MediaStreamTrack = window && window . MediaStreamTrack ;
navigator . getUserMedia = function ( constraints , onSuccess , onError ) {
// Replace Firefox 44+'s deprecation warning with unprefixed version.
deprecated ( 'navigator.getUserMedia' ,
'navigator.mediaDevices.getUserMedia' ) ;
navigator . mediaDevices . getUserMedia ( constraints ) . then ( onSuccess , onError ) ;
} ;
if ( ! ( browserDetails . version > 55 &&
'autoGainControl' in navigator . mediaDevices . getSupportedConstraints ( ) ) ) {
const remap = function ( obj , a , b ) {
if ( a in obj && ! ( b in obj ) ) {
obj [ b ] = obj [ a ] ;
delete obj [ a ] ;
}
} ;
const nativeGetUserMedia = navigator . mediaDevices . getUserMedia .
bind ( navigator . mediaDevices ) ;
navigator . mediaDevices . getUserMedia = function ( c ) {
if ( typeof c === 'object' && typeof c . audio === 'object' ) {
c = JSON . parse ( JSON . stringify ( c ) ) ;
remap ( c . audio , 'autoGainControl' , 'mozAutoGainControl' ) ;
remap ( c . audio , 'noiseSuppression' , 'mozNoiseSuppression' ) ;
}
return nativeGetUserMedia ( c ) ;
} ;
if ( MediaStreamTrack && MediaStreamTrack . prototype . getSettings ) {
const nativeGetSettings = MediaStreamTrack . prototype . getSettings ;
MediaStreamTrack . prototype . getSettings = function ( ) {
const obj = nativeGetSettings . apply ( this , arguments ) ;
remap ( obj , 'mozAutoGainControl' , 'autoGainControl' ) ;
remap ( obj , 'mozNoiseSuppression' , 'noiseSuppression' ) ;
return obj ;
} ;
}
if ( MediaStreamTrack && MediaStreamTrack . prototype . applyConstraints ) {
const nativeApplyConstraints =
MediaStreamTrack . prototype . applyConstraints ;
MediaStreamTrack . prototype . applyConstraints = function ( c ) {
if ( this . kind === 'audio' && typeof c === 'object' ) {
c = JSON . parse ( JSON . stringify ( c ) ) ;
remap ( c , 'autoGainControl' , 'mozAutoGainControl' ) ;
remap ( c , 'noiseSuppression' , 'mozNoiseSuppression' ) ;
}
return nativeApplyConstraints . apply ( this , [ c ] ) ;
} ;
}
}
}
/ *
* Copyright ( c ) 2018 The adapter . js project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimGetDisplayMedia ( window , preferredMediaSource ) {
if ( window . navigator . mediaDevices &&
'getDisplayMedia' in window . navigator . mediaDevices ) {
return ;
}
if ( ! ( window . navigator . mediaDevices ) ) {
return ;
}
window . navigator . mediaDevices . getDisplayMedia =
function getDisplayMedia ( constraints ) {
if ( ! ( constraints && constraints . video ) ) {
const err = new DOMException ( 'getDisplayMedia without video ' +
'constraints is undefined' ) ;
err . name = 'NotFoundError' ;
// from https://heycam.github.io/webidl/#idl-DOMException-error-names
err . code = 8 ;
return Promise . reject ( err ) ;
}
if ( constraints . video === true ) {
constraints . video = { mediaSource : preferredMediaSource } ;
} else {
constraints . video . mediaSource = preferredMediaSource ;
}
return window . navigator . mediaDevices . getUserMedia ( constraints ) ;
} ;
}
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimOnTrack ( window ) {
if ( typeof window === 'object' && window . RTCTrackEvent &&
( 'receiver' in window . RTCTrackEvent . prototype ) &&
! ( 'transceiver' in window . RTCTrackEvent . prototype ) ) {
Object . defineProperty ( window . RTCTrackEvent . prototype , 'transceiver' , {
get ( ) {
return { receiver : this . receiver } ;
}
} ) ;
}
}
function shimPeerConnection ( window , browserDetails ) {
if ( typeof window !== 'object' ||
! ( window . RTCPeerConnection || window . mozRTCPeerConnection ) ) {
return ; // probably media.peerconnection.enabled=false in about:config
}
if ( ! window . RTCPeerConnection && window . mozRTCPeerConnection ) {
// very basic support for old versions.
window . RTCPeerConnection = window . mozRTCPeerConnection ;
}
if ( browserDetails . version < 53 ) {
// shim away need for obsolete RTCIceCandidate/RTCSessionDescription.
[ 'setLocalDescription' , 'setRemoteDescription' , 'addIceCandidate' ]
. forEach ( function ( method ) {
const nativeMethod = window . RTCPeerConnection . prototype [ method ] ;
const methodObj = { [ method ] ( ) {
arguments [ 0 ] = new ( ( method === 'addIceCandidate' ) ?
window . RTCIceCandidate :
window . RTCSessionDescription ) ( arguments [ 0 ] ) ;
return nativeMethod . apply ( this , arguments ) ;
} } ;
window . RTCPeerConnection . prototype [ method ] = methodObj [ method ] ;
} ) ;
}
const modernStatsTypes = {
inboundrtp : 'inbound-rtp' ,
outboundrtp : 'outbound-rtp' ,
candidatepair : 'candidate-pair' ,
localcandidate : 'local-candidate' ,
remotecandidate : 'remote-candidate'
} ;
const nativeGetStats = window . RTCPeerConnection . prototype . getStats ;
window . RTCPeerConnection . prototype . getStats = function getStats ( ) {
const [ selector , onSucc , onErr ] = arguments ;
return nativeGetStats . apply ( this , [ selector || null ] )
. then ( stats => {
if ( browserDetails . version < 53 && ! onSucc ) {
// Shim only promise getStats with spec-hyphens in type names
// Leave callback version alone; misc old uses of forEach before Map
try {
stats . forEach ( stat => {
stat . type = modernStatsTypes [ stat . type ] || stat . type ;
} ) ;
} catch ( e ) {
if ( e . name !== 'TypeError' ) {
throw e ;
}
// Avoid TypeError: "type" is read-only, in old versions. 34-43ish
stats . forEach ( ( stat , i ) => {
stats . set ( i , Object . assign ( { } , stat , {
type : modernStatsTypes [ stat . type ] || stat . type
} ) ) ;
} ) ;
}
}
return stats ;
} )
. then ( onSucc , onErr ) ;
} ;
}
function shimSenderGetStats ( window ) {
if ( ! ( typeof window === 'object' && window . RTCPeerConnection &&
window . RTCRtpSender ) ) {
return ;
}
if ( window . RTCRtpSender && 'getStats' in window . RTCRtpSender . prototype ) {
return ;
}
const origGetSenders = window . RTCPeerConnection . prototype . getSenders ;
if ( origGetSenders ) {
window . RTCPeerConnection . prototype . getSenders = function getSenders ( ) {
const senders = origGetSenders . apply ( this , [ ] ) ;
senders . forEach ( sender => sender . _pc = this ) ;
return senders ;
} ;
}
const origAddTrack = window . RTCPeerConnection . prototype . addTrack ;
if ( origAddTrack ) {
window . RTCPeerConnection . prototype . addTrack = function addTrack ( ) {
const sender = origAddTrack . apply ( this , arguments ) ;
sender . _pc = this ;
return sender ;
} ;
}
window . RTCRtpSender . prototype . getStats = function getStats ( ) {
return this . track ? this . _pc . getStats ( this . track ) :
Promise . resolve ( new Map ( ) ) ;
} ;
}
function shimReceiverGetStats ( window ) {
if ( ! ( typeof window === 'object' && window . RTCPeerConnection &&
window . RTCRtpSender ) ) {
return ;
}
if ( window . RTCRtpSender && 'getStats' in window . RTCRtpReceiver . prototype ) {
return ;
}
const origGetReceivers = window . RTCPeerConnection . prototype . getReceivers ;
if ( origGetReceivers ) {
window . RTCPeerConnection . prototype . getReceivers = function getReceivers ( ) {
const receivers = origGetReceivers . apply ( this , [ ] ) ;
receivers . forEach ( receiver => receiver . _pc = this ) ;
return receivers ;
} ;
}
wrapPeerConnectionEvent ( window , 'track' , e => {
e . receiver . _pc = e . srcElement ;
return e ;
} ) ;
window . RTCRtpReceiver . prototype . getStats = function getStats ( ) {
return this . _pc . getStats ( this . track ) ;
} ;
}
function shimRemoveStream ( window ) {
if ( ! window . RTCPeerConnection ||
'removeStream' in window . RTCPeerConnection . prototype ) {
return ;
}
window . RTCPeerConnection . prototype . removeStream =
function removeStream ( stream ) {
deprecated ( 'removeStream' , 'removeTrack' ) ;
this . getSenders ( ) . forEach ( sender => {
if ( sender . track && stream . getTracks ( ) . includes ( sender . track ) ) {
this . removeTrack ( sender ) ;
}
} ) ;
} ;
}
function shimRTCDataChannel ( window ) {
// rename DataChannel to RTCDataChannel (native fix in FF60):
// https://bugzilla.mozilla.org/show_bug.cgi?id=1173851
if ( window . DataChannel && ! window . RTCDataChannel ) {
window . RTCDataChannel = window . DataChannel ;
}
}
function shimAddTransceiver ( window ) {
// https://github.com/webrtcHacks/adapter/issues/998#issuecomment-516921647
// Firefox ignores the init sendEncodings options passed to addTransceiver
// https://bugzilla.mozilla.org/show_bug.cgi?id=1396918
if ( ! ( typeof window === 'object' && window . RTCPeerConnection ) ) {
return ;
}
const origAddTransceiver = window . RTCPeerConnection . prototype . addTransceiver ;
if ( origAddTransceiver ) {
window . RTCPeerConnection . prototype . addTransceiver =
function addTransceiver ( ) {
this . setParametersPromises = [ ] ;
const initParameters = arguments [ 1 ] ;
const shouldPerformCheck = initParameters &&
'sendEncodings' in initParameters ;
if ( shouldPerformCheck ) {
// If sendEncodings params are provided, validate grammar
initParameters . sendEncodings . forEach ( ( encodingParam ) => {
if ( 'rid' in encodingParam ) {
const ridRegex = /^[a-z0-9]{0,16}$/i ;
if ( ! ridRegex . test ( encodingParam . rid ) ) {
throw new TypeError ( 'Invalid RID value provided.' ) ;
}
}
if ( 'scaleResolutionDownBy' in encodingParam ) {
if ( ! ( parseFloat ( encodingParam . scaleResolutionDownBy ) >= 1.0 ) ) {
throw new RangeError ( 'scale_resolution_down_by must be >= 1.0' ) ;
}
}
if ( 'maxFramerate' in encodingParam ) {
if ( ! ( parseFloat ( encodingParam . maxFramerate ) >= 0 ) ) {
throw new RangeError ( 'max_framerate must be >= 0.0' ) ;
}
}
} ) ;
}
const transceiver = origAddTransceiver . apply ( this , arguments ) ;
if ( shouldPerformCheck ) {
// Check if the init options were applied. If not we do this in an
// asynchronous way and save the promise reference in a global object.
// This is an ugly hack, but at the same time is way more robust than
// checking the sender parameters before and after the createOffer
// Also note that after the createoffer we are not 100% sure that
// the params were asynchronously applied so we might miss the
// opportunity to recreate offer.
const { sender } = transceiver ;
const params = sender . getParameters ( ) ;
if ( ! ( 'encodings' in params ) ||
// Avoid being fooled by patched getParameters() below.
( params . encodings . length === 1 &&
Object . keys ( params . encodings [ 0 ] ) . length === 0 ) ) {
params . encodings = initParameters . sendEncodings ;
sender . sendEncodings = initParameters . sendEncodings ;
this . setParametersPromises . push ( sender . setParameters ( params )
. then ( ( ) => {
delete sender . sendEncodings ;
} ) . catch ( ( ) => {
delete sender . sendEncodings ;
} )
) ;
}
}
return transceiver ;
} ;
}
}
function shimGetParameters ( window ) {
if ( ! ( typeof window === 'object' && window . RTCRtpSender ) ) {
return ;
}
const origGetParameters = window . RTCRtpSender . prototype . getParameters ;
if ( origGetParameters ) {
window . RTCRtpSender . prototype . getParameters =
function getParameters ( ) {
const params = origGetParameters . apply ( this , arguments ) ;
if ( ! ( 'encodings' in params ) ) {
params . encodings = [ ] . concat ( this . sendEncodings || [ { } ] ) ;
}
return params ;
} ;
}
}
function shimCreateOffer ( window ) {
// https://github.com/webrtcHacks/adapter/issues/998#issuecomment-516921647
// Firefox ignores the init sendEncodings options passed to addTransceiver
// https://bugzilla.mozilla.org/show_bug.cgi?id=1396918
if ( ! ( typeof window === 'object' && window . RTCPeerConnection ) ) {
return ;
}
const origCreateOffer = window . RTCPeerConnection . prototype . createOffer ;
window . RTCPeerConnection . prototype . createOffer = function createOffer ( ) {
if ( this . setParametersPromises && this . setParametersPromises . length ) {
return Promise . all ( this . setParametersPromises )
. then ( ( ) => {
return origCreateOffer . apply ( this , arguments ) ;
} )
. finally ( ( ) => {
this . setParametersPromises = [ ] ;
} ) ;
}
return origCreateOffer . apply ( this , arguments ) ;
} ;
}
function shimCreateAnswer ( window ) {
// https://github.com/webrtcHacks/adapter/issues/998#issuecomment-516921647
// Firefox ignores the init sendEncodings options passed to addTransceiver
// https://bugzilla.mozilla.org/show_bug.cgi?id=1396918
if ( ! ( typeof window === 'object' && window . RTCPeerConnection ) ) {
return ;
}
const origCreateAnswer = window . RTCPeerConnection . prototype . createAnswer ;
window . RTCPeerConnection . prototype . createAnswer = function createAnswer ( ) {
if ( this . setParametersPromises && this . setParametersPromises . length ) {
return Promise . all ( this . setParametersPromises )
. then ( ( ) => {
return origCreateAnswer . apply ( this , arguments ) ;
} )
. finally ( ( ) => {
this . setParametersPromises = [ ] ;
} ) ;
}
return origCreateAnswer . apply ( this , arguments ) ;
} ;
}
var firefoxShim = /*#__PURE__*/ Object . freeze ( {
_ _proto _ _ : null ,
shimOnTrack : shimOnTrack ,
shimPeerConnection : shimPeerConnection ,
shimSenderGetStats : shimSenderGetStats ,
shimReceiverGetStats : shimReceiverGetStats ,
shimRemoveStream : shimRemoveStream ,
shimRTCDataChannel : shimRTCDataChannel ,
shimAddTransceiver : shimAddTransceiver ,
shimGetParameters : shimGetParameters ,
shimCreateOffer : shimCreateOffer ,
shimCreateAnswer : shimCreateAnswer ,
shimGetUserMedia : shimGetUserMedia$1 ,
shimGetDisplayMedia : shimGetDisplayMedia
} ) ;
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimLocalStreamsAPI ( window ) {
if ( typeof window !== 'object' || ! window . RTCPeerConnection ) {
return ;
}
if ( ! ( 'getLocalStreams' in window . RTCPeerConnection . prototype ) ) {
window . RTCPeerConnection . prototype . getLocalStreams =
function getLocalStreams ( ) {
if ( ! this . _localStreams ) {
this . _localStreams = [ ] ;
}
return this . _localStreams ;
} ;
}
if ( ! ( 'addStream' in window . RTCPeerConnection . prototype ) ) {
const _addTrack = window . RTCPeerConnection . prototype . addTrack ;
window . RTCPeerConnection . prototype . addStream = function addStream ( stream ) {
if ( ! this . _localStreams ) {
this . _localStreams = [ ] ;
}
if ( ! this . _localStreams . includes ( stream ) ) {
this . _localStreams . push ( stream ) ;
}
// Try to emulate Chrome's behaviour of adding in audio-video order.
// Safari orders by track id.
stream . getAudioTracks ( ) . forEach ( track => _addTrack . call ( this , track ,
stream ) ) ;
stream . getVideoTracks ( ) . forEach ( track => _addTrack . call ( this , track ,
stream ) ) ;
} ;
window . RTCPeerConnection . prototype . addTrack =
function addTrack ( track , ... streams ) {
if ( streams ) {
streams . forEach ( ( stream ) => {
if ( ! this . _localStreams ) {
this . _localStreams = [ stream ] ;
} else if ( ! this . _localStreams . includes ( stream ) ) {
this . _localStreams . push ( stream ) ;
}
} ) ;
}
return _addTrack . apply ( this , arguments ) ;
} ;
}
if ( ! ( 'removeStream' in window . RTCPeerConnection . prototype ) ) {
window . RTCPeerConnection . prototype . removeStream =
function removeStream ( stream ) {
if ( ! this . _localStreams ) {
this . _localStreams = [ ] ;
}
const index = this . _localStreams . indexOf ( stream ) ;
if ( index === - 1 ) {
return ;
}
this . _localStreams . splice ( index , 1 ) ;
const tracks = stream . getTracks ( ) ;
this . getSenders ( ) . forEach ( sender => {
if ( tracks . includes ( sender . track ) ) {
this . removeTrack ( sender ) ;
}
} ) ;
} ;
}
}
function shimRemoteStreamsAPI ( window ) {
if ( typeof window !== 'object' || ! window . RTCPeerConnection ) {
return ;
}
if ( ! ( 'getRemoteStreams' in window . RTCPeerConnection . prototype ) ) {
window . RTCPeerConnection . prototype . getRemoteStreams =
function getRemoteStreams ( ) {
return this . _remoteStreams ? this . _remoteStreams : [ ] ;
} ;
}
if ( ! ( 'onaddstream' in window . RTCPeerConnection . prototype ) ) {
Object . defineProperty ( window . RTCPeerConnection . prototype , 'onaddstream' , {
get ( ) {
return this . _onaddstream ;
} ,
set ( f ) {
if ( this . _onaddstream ) {
this . removeEventListener ( 'addstream' , this . _onaddstream ) ;
this . removeEventListener ( 'track' , this . _onaddstreampoly ) ;
}
this . addEventListener ( 'addstream' , this . _onaddstream = f ) ;
this . addEventListener ( 'track' , this . _onaddstreampoly = ( e ) => {
e . streams . forEach ( stream => {
if ( ! this . _remoteStreams ) {
this . _remoteStreams = [ ] ;
}
if ( this . _remoteStreams . includes ( stream ) ) {
return ;
}
this . _remoteStreams . push ( stream ) ;
const event = new Event ( 'addstream' ) ;
event . stream = stream ;
this . dispatchEvent ( event ) ;
} ) ;
} ) ;
}
} ) ;
const origSetRemoteDescription =
window . RTCPeerConnection . prototype . setRemoteDescription ;
window . RTCPeerConnection . prototype . setRemoteDescription =
function setRemoteDescription ( ) {
const pc = this ;
if ( ! this . _onaddstreampoly ) {
this . addEventListener ( 'track' , this . _onaddstreampoly = function ( e ) {
e . streams . forEach ( stream => {
if ( ! pc . _remoteStreams ) {
pc . _remoteStreams = [ ] ;
}
if ( pc . _remoteStreams . indexOf ( stream ) >= 0 ) {
return ;
}
pc . _remoteStreams . push ( stream ) ;
const event = new Event ( 'addstream' ) ;
event . stream = stream ;
pc . dispatchEvent ( event ) ;
} ) ;
} ) ;
}
return origSetRemoteDescription . apply ( pc , arguments ) ;
} ;
}
}
function shimCallbacksAPI ( window ) {
if ( typeof window !== 'object' || ! window . RTCPeerConnection ) {
return ;
}
const prototype = window . RTCPeerConnection . prototype ;
const origCreateOffer = prototype . createOffer ;
const origCreateAnswer = prototype . createAnswer ;
const setLocalDescription = prototype . setLocalDescription ;
const setRemoteDescription = prototype . setRemoteDescription ;
const addIceCandidate = prototype . addIceCandidate ;
prototype . createOffer =
function createOffer ( successCallback , failureCallback ) {
const options = ( arguments . length >= 2 ) ? arguments [ 2 ] : arguments [ 0 ] ;
const promise = origCreateOffer . apply ( this , [ options ] ) ;
if ( ! failureCallback ) {
return promise ;
}
promise . then ( successCallback , failureCallback ) ;
return Promise . resolve ( ) ;
} ;
prototype . createAnswer =
function createAnswer ( successCallback , failureCallback ) {
const options = ( arguments . length >= 2 ) ? arguments [ 2 ] : arguments [ 0 ] ;
const promise = origCreateAnswer . apply ( this , [ options ] ) ;
if ( ! failureCallback ) {
return promise ;
}
promise . then ( successCallback , failureCallback ) ;
return Promise . resolve ( ) ;
} ;
let withCallback = function ( description , successCallback , failureCallback ) {
const promise = setLocalDescription . apply ( this , [ description ] ) ;
if ( ! failureCallback ) {
return promise ;
}
promise . then ( successCallback , failureCallback ) ;
return Promise . resolve ( ) ;
} ;
prototype . setLocalDescription = withCallback ;
withCallback = function ( description , successCallback , failureCallback ) {
const promise = setRemoteDescription . apply ( this , [ description ] ) ;
if ( ! failureCallback ) {
return promise ;
}
promise . then ( successCallback , failureCallback ) ;
return Promise . resolve ( ) ;
} ;
prototype . setRemoteDescription = withCallback ;
withCallback = function ( candidate , successCallback , failureCallback ) {
const promise = addIceCandidate . apply ( this , [ candidate ] ) ;
if ( ! failureCallback ) {
return promise ;
}
promise . then ( successCallback , failureCallback ) ;
return Promise . resolve ( ) ;
} ;
prototype . addIceCandidate = withCallback ;
}
function shimGetUserMedia ( window ) {
const navigator = window && window . navigator ;
if ( navigator . mediaDevices && navigator . mediaDevices . getUserMedia ) {
// shim not needed in Safari 12.1
const mediaDevices = navigator . mediaDevices ;
const _getUserMedia = mediaDevices . getUserMedia . bind ( mediaDevices ) ;
navigator . mediaDevices . getUserMedia = ( constraints ) => {
return _getUserMedia ( shimConstraints ( constraints ) ) ;
} ;
}
if ( ! navigator . getUserMedia && navigator . mediaDevices &&
navigator . mediaDevices . getUserMedia ) {
navigator . getUserMedia = function getUserMedia ( constraints , cb , errcb ) {
navigator . mediaDevices . getUserMedia ( constraints )
. then ( cb , errcb ) ;
} . bind ( navigator ) ;
}
}
function shimConstraints ( constraints ) {
if ( constraints && constraints . video !== undefined ) {
return Object . assign ( { } ,
constraints ,
{ video : compactObject ( constraints . video ) }
) ;
}
return constraints ;
}
function shimRTCIceServerUrls ( window ) {
if ( ! window . RTCPeerConnection ) {
return ;
}
// migrate from non-spec RTCIceServer.url to RTCIceServer.urls
const OrigPeerConnection = window . RTCPeerConnection ;
window . RTCPeerConnection =
function RTCPeerConnection ( pcConfig , pcConstraints ) {
if ( pcConfig && pcConfig . iceServers ) {
const newIceServers = [ ] ;
for ( let i = 0 ; i < pcConfig . iceServers . length ; i ++ ) {
let server = pcConfig . iceServers [ i ] ;
if ( ! server . hasOwnProperty ( 'urls' ) &&
server . hasOwnProperty ( 'url' ) ) {
deprecated ( 'RTCIceServer.url' , 'RTCIceServer.urls' ) ;
server = JSON . parse ( JSON . stringify ( server ) ) ;
server . urls = server . url ;
delete server . url ;
newIceServers . push ( server ) ;
} else {
newIceServers . push ( pcConfig . iceServers [ i ] ) ;
}
}
pcConfig . iceServers = newIceServers ;
}
return new OrigPeerConnection ( pcConfig , pcConstraints ) ;
} ;
window . RTCPeerConnection . prototype = OrigPeerConnection . prototype ;
// wrap static methods. Currently just generateCertificate.
if ( 'generateCertificate' in OrigPeerConnection ) {
Object . defineProperty ( window . RTCPeerConnection , 'generateCertificate' , {
get ( ) {
return OrigPeerConnection . generateCertificate ;
}
} ) ;
}
}
function shimTrackEventTransceiver ( window ) {
// Add event.transceiver member over deprecated event.receiver
if ( typeof window === 'object' && window . RTCTrackEvent &&
'receiver' in window . RTCTrackEvent . prototype &&
! ( 'transceiver' in window . RTCTrackEvent . prototype ) ) {
Object . defineProperty ( window . RTCTrackEvent . prototype , 'transceiver' , {
get ( ) {
return { receiver : this . receiver } ;
}
} ) ;
}
}
function shimCreateOfferLegacy ( window ) {
const origCreateOffer = window . RTCPeerConnection . prototype . createOffer ;
window . RTCPeerConnection . prototype . createOffer =
function createOffer ( offerOptions ) {
if ( offerOptions ) {
if ( typeof offerOptions . offerToReceiveAudio !== 'undefined' ) {
// support bit values
offerOptions . offerToReceiveAudio =
! ! offerOptions . offerToReceiveAudio ;
}
const audioTransceiver = this . getTransceivers ( ) . find ( transceiver =>
transceiver . receiver . track . kind === 'audio' ) ;
if ( offerOptions . offerToReceiveAudio === false && audioTransceiver ) {
if ( audioTransceiver . direction === 'sendrecv' ) {
if ( audioTransceiver . setDirection ) {
audioTransceiver . setDirection ( 'sendonly' ) ;
} else {
audioTransceiver . direction = 'sendonly' ;
}
} else if ( audioTransceiver . direction === 'recvonly' ) {
if ( audioTransceiver . setDirection ) {
audioTransceiver . setDirection ( 'inactive' ) ;
} else {
audioTransceiver . direction = 'inactive' ;
}
}
} else if ( offerOptions . offerToReceiveAudio === true &&
! audioTransceiver ) {
this . addTransceiver ( 'audio' ) ;
}
if ( typeof offerOptions . offerToReceiveVideo !== 'undefined' ) {
// support bit values
offerOptions . offerToReceiveVideo =
! ! offerOptions . offerToReceiveVideo ;
}
const videoTransceiver = this . getTransceivers ( ) . find ( transceiver =>
transceiver . receiver . track . kind === 'video' ) ;
if ( offerOptions . offerToReceiveVideo === false && videoTransceiver ) {
if ( videoTransceiver . direction === 'sendrecv' ) {
if ( videoTransceiver . setDirection ) {
videoTransceiver . setDirection ( 'sendonly' ) ;
} else {
videoTransceiver . direction = 'sendonly' ;
}
} else if ( videoTransceiver . direction === 'recvonly' ) {
if ( videoTransceiver . setDirection ) {
videoTransceiver . setDirection ( 'inactive' ) ;
} else {
videoTransceiver . direction = 'inactive' ;
}
}
} else if ( offerOptions . offerToReceiveVideo === true &&
! videoTransceiver ) {
this . addTransceiver ( 'video' ) ;
}
}
return origCreateOffer . apply ( this , arguments ) ;
} ;
}
function shimAudioContext ( window ) {
if ( typeof window !== 'object' || window . AudioContext ) {
return ;
}
window . AudioContext = window . webkitAudioContext ;
}
var safariShim = /*#__PURE__*/ Object . freeze ( {
_ _proto _ _ : null ,
shimLocalStreamsAPI : shimLocalStreamsAPI ,
shimRemoteStreamsAPI : shimRemoteStreamsAPI ,
shimCallbacksAPI : shimCallbacksAPI ,
shimGetUserMedia : shimGetUserMedia ,
shimConstraints : shimConstraints ,
shimRTCIceServerUrls : shimRTCIceServerUrls ,
shimTrackEventTransceiver : shimTrackEventTransceiver ,
shimCreateOfferLegacy : shimCreateOfferLegacy ,
shimAudioContext : shimAudioContext
} ) ;
/ *
* Copyright ( c ) 2017 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
function shimRTCIceCandidate ( window ) {
// foundation is arbitrarily chosen as an indicator for full support for
// https://w3c.github.io/webrtc-pc/#rtcicecandidate-interface
if ( ! window . RTCIceCandidate || ( window . RTCIceCandidate && 'foundation' in
window . RTCIceCandidate . prototype ) ) {
return ;
}
const NativeRTCIceCandidate = window . RTCIceCandidate ;
window . RTCIceCandidate = function RTCIceCandidate ( args ) {
// Remove the a= which shouldn't be part of the candidate string.
if ( typeof args === 'object' && args . candidate &&
args . candidate . indexOf ( 'a=' ) === 0 ) {
args = JSON . parse ( JSON . stringify ( args ) ) ;
args . candidate = args . candidate . substr ( 2 ) ;
}
if ( args . candidate && args . candidate . length ) {
// Augment the native candidate with the parsed fields.
const nativeCandidate = new NativeRTCIceCandidate ( args ) ;
const parsedCandidate = sdp . parseCandidate ( args . candidate ) ;
const augmentedCandidate = Object . assign ( nativeCandidate ,
parsedCandidate ) ;
// Add a serializer that does not serialize the extra attributes.
augmentedCandidate . toJSON = function toJSON ( ) {
return {
candidate : augmentedCandidate . candidate ,
sdpMid : augmentedCandidate . sdpMid ,
sdpMLineIndex : augmentedCandidate . sdpMLineIndex ,
usernameFragment : augmentedCandidate . usernameFragment ,
} ;
} ;
return augmentedCandidate ;
}
return new NativeRTCIceCandidate ( args ) ;
} ;
window . RTCIceCandidate . prototype = NativeRTCIceCandidate . prototype ;
// Hook up the augmented candidate in onicecandidate and
// addEventListener('icecandidate', ...)
wrapPeerConnectionEvent ( window , 'icecandidate' , e => {
if ( e . candidate ) {
Object . defineProperty ( e , 'candidate' , {
value : new window . RTCIceCandidate ( e . candidate ) ,
writable : 'false'
} ) ;
}
return e ;
} ) ;
}
function shimMaxMessageSize ( window , browserDetails ) {
if ( ! window . RTCPeerConnection ) {
return ;
}
if ( ! ( 'sctp' in window . RTCPeerConnection . prototype ) ) {
Object . defineProperty ( window . RTCPeerConnection . prototype , 'sctp' , {
get ( ) {
return typeof this . _sctp === 'undefined' ? null : this . _sctp ;
}
} ) ;
}
const sctpInDescription = function ( description ) {
if ( ! description || ! description . sdp ) {
return false ;
}
const sections = sdp . splitSections ( description . sdp ) ;
sections . shift ( ) ;
return sections . some ( mediaSection => {
const mLine = sdp . parseMLine ( mediaSection ) ;
return mLine && mLine . kind === 'application'
&& mLine . protocol . indexOf ( 'SCTP' ) !== - 1 ;
} ) ;
} ;
const getRemoteFirefoxVersion = function ( description ) {
// TODO: Is there a better solution for detecting Firefox?
const match = description . sdp . match ( /mozilla...THIS_IS_SDPARTA-(\d+)/ ) ;
if ( match === null || match . length < 2 ) {
return - 1 ;
}
const version = parseInt ( match [ 1 ] , 10 ) ;
// Test for NaN (yes, this is ugly)
return version !== version ? - 1 : version ;
} ;
const getCanSendMaxMessageSize = function ( remoteIsFirefox ) {
// Every implementation we know can send at least 64 KiB.
// Note: Although Chrome is technically able to send up to 256 KiB, the
// data does not reach the other peer reliably.
// See: https://bugs.chromium.org/p/webrtc/issues/detail?id=8419
let canSendMaxMessageSize = 65536 ;
if ( browserDetails . browser === 'firefox' ) {
if ( browserDetails . version < 57 ) {
if ( remoteIsFirefox === - 1 ) {
// FF < 57 will send in 16 KiB chunks using the deprecated PPID
// fragmentation.
canSendMaxMessageSize = 16384 ;
} else {
// However, other FF (and RAWRTC) can reassemble PPID-fragmented
// messages. Thus, supporting ~2 GiB when sending.
canSendMaxMessageSize = 2147483637 ;
}
} else if ( browserDetails . version < 60 ) {
// Currently, all FF >= 57 will reset the remote maximum message size
// to the default value when a data channel is created at a later
// stage. :(
// See: https://bugzilla.mozilla.org/show_bug.cgi?id=1426831
canSendMaxMessageSize =
browserDetails . version === 57 ? 65535 : 65536 ;
} else {
// FF >= 60 supports sending ~2 GiB
canSendMaxMessageSize = 2147483637 ;
}
}
return canSendMaxMessageSize ;
} ;
const getMaxMessageSize = function ( description , remoteIsFirefox ) {
// Note: 65536 bytes is the default value from the SDP spec. Also,
// every implementation we know supports receiving 65536 bytes.
let maxMessageSize = 65536 ;
// FF 57 has a slightly incorrect default remote max message size, so
// we need to adjust it here to avoid a failure when sending.
// See: https://bugzilla.mozilla.org/show_bug.cgi?id=1425697
if ( browserDetails . browser === 'firefox'
&& browserDetails . version === 57 ) {
maxMessageSize = 65535 ;
}
const match = sdp . matchPrefix ( description . sdp ,
'a=max-message-size:' ) ;
if ( match . length > 0 ) {
maxMessageSize = parseInt ( match [ 0 ] . substr ( 19 ) , 10 ) ;
} else if ( browserDetails . browser === 'firefox' &&
remoteIsFirefox !== - 1 ) {
// If the maximum message size is not present in the remote SDP and
// both local and remote are Firefox, the remote peer can receive
// ~2 GiB.
maxMessageSize = 2147483637 ;
}
return maxMessageSize ;
} ;
const origSetRemoteDescription =
window . RTCPeerConnection . prototype . setRemoteDescription ;
window . RTCPeerConnection . prototype . setRemoteDescription =
function setRemoteDescription ( ) {
this . _sctp = null ;
// Chrome decided to not expose .sctp in plan-b mode.
// As usual, adapter.js has to do an 'ugly worakaround'
// to cover up the mess.
if ( browserDetails . browser === 'chrome' && browserDetails . version >= 76 ) {
const { sdpSemantics } = this . getConfiguration ( ) ;
if ( sdpSemantics === 'plan-b' ) {
Object . defineProperty ( this , 'sctp' , {
get ( ) {
return typeof this . _sctp === 'undefined' ? null : this . _sctp ;
} ,
enumerable : true ,
configurable : true ,
} ) ;
}
}
if ( sctpInDescription ( arguments [ 0 ] ) ) {
// Check if the remote is FF.
const isFirefox = getRemoteFirefoxVersion ( arguments [ 0 ] ) ;
// Get the maximum message size the local peer is capable of sending
const canSendMMS = getCanSendMaxMessageSize ( isFirefox ) ;
// Get the maximum message size of the remote peer.
const remoteMMS = getMaxMessageSize ( arguments [ 0 ] , isFirefox ) ;
// Determine final maximum message size
let maxMessageSize ;
if ( canSendMMS === 0 && remoteMMS === 0 ) {
maxMessageSize = Number . POSITIVE _INFINITY ;
} else if ( canSendMMS === 0 || remoteMMS === 0 ) {
maxMessageSize = Math . max ( canSendMMS , remoteMMS ) ;
} else {
maxMessageSize = Math . min ( canSendMMS , remoteMMS ) ;
}
// Create a dummy RTCSctpTransport object and the 'maxMessageSize'
// attribute.
const sctp = { } ;
Object . defineProperty ( sctp , 'maxMessageSize' , {
get ( ) {
return maxMessageSize ;
}
} ) ;
this . _sctp = sctp ;
}
return origSetRemoteDescription . apply ( this , arguments ) ;
} ;
}
function shimSendThrowTypeError ( window ) {
if ( ! ( window . RTCPeerConnection &&
'createDataChannel' in window . RTCPeerConnection . prototype ) ) {
return ;
}
// Note: Although Firefox >= 57 has a native implementation, the maximum
// message size can be reset for all data channels at a later stage.
// See: https://bugzilla.mozilla.org/show_bug.cgi?id=1426831
function wrapDcSend ( dc , pc ) {
const origDataChannelSend = dc . send ;
dc . send = function send ( ) {
const data = arguments [ 0 ] ;
const length = data . length || data . size || data . byteLength ;
if ( dc . readyState === 'open' &&
pc . sctp && length > pc . sctp . maxMessageSize ) {
throw new TypeError ( 'Message too large (can send a maximum of ' +
pc . sctp . maxMessageSize + ' bytes)' ) ;
}
return origDataChannelSend . apply ( dc , arguments ) ;
} ;
}
const origCreateDataChannel =
window . RTCPeerConnection . prototype . createDataChannel ;
window . RTCPeerConnection . prototype . createDataChannel =
function createDataChannel ( ) {
const dataChannel = origCreateDataChannel . apply ( this , arguments ) ;
wrapDcSend ( dataChannel , this ) ;
return dataChannel ;
} ;
wrapPeerConnectionEvent ( window , 'datachannel' , e => {
wrapDcSend ( e . channel , e . target ) ;
return e ;
} ) ;
}
/ * s h i m s R T C C o n n e c t i o n S t a t e b y p r e t e n d i n g i t i s t h e s a m e a s i c e C o n n e c t i o n S t a t e .
* See https : //bugs.chromium.org/p/webrtc/issues/detail?id=6145#c12
* for why this is a valid hack in Chrome . In Firefox it is slightly incorrect
* since DTLS failures would be hidden . See
* https : //bugzilla.mozilla.org/show_bug.cgi?id=1265827
* for the Firefox tracking bug .
* /
function shimConnectionState ( window ) {
if ( ! window . RTCPeerConnection ||
'connectionState' in window . RTCPeerConnection . prototype ) {
return ;
}
const proto = window . RTCPeerConnection . prototype ;
Object . defineProperty ( proto , 'connectionState' , {
get ( ) {
return {
completed : 'connected' ,
checking : 'connecting'
} [ this . iceConnectionState ] || this . iceConnectionState ;
} ,
enumerable : true ,
configurable : true
} ) ;
Object . defineProperty ( proto , 'onconnectionstatechange' , {
get ( ) {
return this . _onconnectionstatechange || null ;
} ,
set ( cb ) {
if ( this . _onconnectionstatechange ) {
this . removeEventListener ( 'connectionstatechange' ,
this . _onconnectionstatechange ) ;
delete this . _onconnectionstatechange ;
}
if ( cb ) {
this . addEventListener ( 'connectionstatechange' ,
this . _onconnectionstatechange = cb ) ;
}
} ,
enumerable : true ,
configurable : true
} ) ;
[ 'setLocalDescription' , 'setRemoteDescription' ] . forEach ( ( method ) => {
const origMethod = proto [ method ] ;
proto [ method ] = function ( ) {
if ( ! this . _connectionstatechangepoly ) {
this . _connectionstatechangepoly = e => {
const pc = e . target ;
if ( pc . _lastConnectionState !== pc . connectionState ) {
pc . _lastConnectionState = pc . connectionState ;
const newEvent = new Event ( 'connectionstatechange' , e ) ;
pc . dispatchEvent ( newEvent ) ;
}
return e ;
} ;
this . addEventListener ( 'iceconnectionstatechange' ,
this . _connectionstatechangepoly ) ;
}
return origMethod . apply ( this , arguments ) ;
} ;
} ) ;
}
function removeExtmapAllowMixed ( window , browserDetails ) {
/* remove a=extmap-allow-mixed for webrtc.org < M71 */
if ( ! window . RTCPeerConnection ) {
return ;
}
if ( browserDetails . browser === 'chrome' && browserDetails . version >= 71 ) {
return ;
}
if ( browserDetails . browser === 'safari' && browserDetails . version >= 605 ) {
return ;
}
const nativeSRD = window . RTCPeerConnection . prototype . setRemoteDescription ;
window . RTCPeerConnection . prototype . setRemoteDescription =
function setRemoteDescription ( desc ) {
if ( desc && desc . sdp && desc . sdp . indexOf ( '\na=extmap-allow-mixed' ) !== - 1 ) {
const sdp = desc . sdp . split ( '\n' ) . filter ( ( line ) => {
return line . trim ( ) !== 'a=extmap-allow-mixed' ;
} ) . join ( '\n' ) ;
// Safari enforces read-only-ness of RTCSessionDescription fields.
if ( window . RTCSessionDescription &&
desc instanceof window . RTCSessionDescription ) {
arguments [ 0 ] = new window . RTCSessionDescription ( {
type : desc . type ,
sdp ,
} ) ;
} else {
desc . sdp = sdp ;
}
}
return nativeSRD . apply ( this , arguments ) ;
} ;
}
function shimAddIceCandidateNullOrEmpty ( window , browserDetails ) {
// Support for addIceCandidate(null or undefined)
// as well as addIceCandidate({candidate: "", ...})
// https://bugs.chromium.org/p/chromium/issues/detail?id=978582
// Note: must be called before other polyfills which change the signature.
if ( ! ( window . RTCPeerConnection && window . RTCPeerConnection . prototype ) ) {
return ;
}
const nativeAddIceCandidate =
window . RTCPeerConnection . prototype . addIceCandidate ;
if ( ! nativeAddIceCandidate || nativeAddIceCandidate . length === 0 ) {
return ;
}
window . RTCPeerConnection . prototype . addIceCandidate =
function addIceCandidate ( ) {
if ( ! arguments [ 0 ] ) {
if ( arguments [ 1 ] ) {
arguments [ 1 ] . apply ( null ) ;
}
return Promise . resolve ( ) ;
}
// Firefox 68+ emits and processes {candidate: "", ...}, ignore
// in older versions.
// Native support for ignoring exists for Chrome M77+.
// Safari ignores as well, exact version unknown but works in the same
// version that also ignores addIceCandidate(null).
if ( ( ( browserDetails . browser === 'chrome' && browserDetails . version < 78 )
|| ( browserDetails . browser === 'firefox'
&& browserDetails . version < 68 )
|| ( browserDetails . browser === 'safari' ) )
&& arguments [ 0 ] && arguments [ 0 ] . candidate === '' ) {
return Promise . resolve ( ) ;
}
return nativeAddIceCandidate . apply ( this , arguments ) ;
} ;
}
var commonShim = /*#__PURE__*/ Object . freeze ( {
_ _proto _ _ : null ,
shimRTCIceCandidate : shimRTCIceCandidate ,
shimMaxMessageSize : shimMaxMessageSize ,
shimSendThrowTypeError : shimSendThrowTypeError ,
shimConnectionState : shimConnectionState ,
removeExtmapAllowMixed : removeExtmapAllowMixed ,
shimAddIceCandidateNullOrEmpty : shimAddIceCandidateNullOrEmpty
} ) ;
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
// Shimming starts here.
function adapterFactory ( { window } = { } , options = {
shimChrome : true ,
shimFirefox : true ,
shimEdge : true ,
shimSafari : true ,
} ) {
// Utils.
const logging = log$1 ;
const browserDetails = detectBrowser ( window ) ;
const adapter = {
browserDetails ,
commonShim ,
extractVersion : extractVersion ,
disableLog : disableLog ,
disableWarnings : disableWarnings
} ;
// Shim browser if found.
switch ( browserDetails . browser ) {
case 'chrome' :
if ( ! chromeShim || ! shimPeerConnection$2 ||
! options . shimChrome ) {
logging ( 'Chrome shim is not included in this adapter release.' ) ;
return adapter ;
}
if ( browserDetails . version === null ) {
logging ( 'Chrome shim can not determine version, not shimming.' ) ;
return adapter ;
}
logging ( 'adapter.js shimming chrome.' ) ;
// Export to the adapter global object visible in the browser.
adapter . browserShim = chromeShim ;
// Must be called before shimPeerConnection.
shimAddIceCandidateNullOrEmpty ( window , browserDetails ) ;
shimGetUserMedia$3 ( window , browserDetails ) ;
shimMediaStream ( window ) ;
shimPeerConnection$2 ( window , browserDetails ) ;
shimOnTrack$1 ( window ) ;
shimAddTrackRemoveTrack ( window , browserDetails ) ;
shimGetSendersWithDtmf ( window ) ;
shimGetStats ( window ) ;
shimSenderReceiverGetStats ( window ) ;
fixNegotiationNeeded ( window , browserDetails ) ;
shimRTCIceCandidate ( window ) ;
shimConnectionState ( window ) ;
shimMaxMessageSize ( window , browserDetails ) ;
shimSendThrowTypeError ( window ) ;
removeExtmapAllowMixed ( window , browserDetails ) ;
break ;
case 'firefox' :
if ( ! firefoxShim || ! shimPeerConnection ||
! options . shimFirefox ) {
logging ( 'Firefox shim is not included in this adapter release.' ) ;
return adapter ;
}
logging ( 'adapter.js shimming firefox.' ) ;
// Export to the adapter global object visible in the browser.
adapter . browserShim = firefoxShim ;
// Must be called before shimPeerConnection.
shimAddIceCandidateNullOrEmpty ( window , browserDetails ) ;
shimGetUserMedia$1 ( window , browserDetails ) ;
shimPeerConnection ( window , browserDetails ) ;
shimOnTrack ( window ) ;
shimRemoveStream ( window ) ;
shimSenderGetStats ( window ) ;
shimReceiverGetStats ( window ) ;
shimRTCDataChannel ( window ) ;
shimAddTransceiver ( window ) ;
shimGetParameters ( window ) ;
shimCreateOffer ( window ) ;
shimCreateAnswer ( window ) ;
shimRTCIceCandidate ( window ) ;
shimConnectionState ( window ) ;
shimMaxMessageSize ( window , browserDetails ) ;
shimSendThrowTypeError ( window ) ;
break ;
case 'edge' :
if ( ! edgeShim || ! shimPeerConnection$1 || ! options . shimEdge ) {
logging ( 'MS edge shim is not included in this adapter release.' ) ;
return adapter ;
}
logging ( 'adapter.js shimming edge.' ) ;
// Export to the adapter global object visible in the browser.
adapter . browserShim = edgeShim ;
shimGetUserMedia$2 ( window ) ;
shimGetDisplayMedia$1 ( window ) ;
shimPeerConnection$1 ( window , browserDetails ) ;
shimReplaceTrack ( window ) ;
// the edge shim implements the full RTCIceCandidate object.
shimMaxMessageSize ( window , browserDetails ) ;
shimSendThrowTypeError ( window ) ;
break ;
case 'safari' :
if ( ! safariShim || ! options . shimSafari ) {
logging ( 'Safari shim is not included in this adapter release.' ) ;
return adapter ;
}
logging ( 'adapter.js shimming safari.' ) ;
// Export to the adapter global object visible in the browser.
adapter . browserShim = safariShim ;
// Must be called before shimCallbackAPI.
shimAddIceCandidateNullOrEmpty ( window , browserDetails ) ;
shimRTCIceServerUrls ( window ) ;
shimCreateOfferLegacy ( window ) ;
shimCallbacksAPI ( window ) ;
shimLocalStreamsAPI ( window ) ;
shimRemoteStreamsAPI ( window ) ;
shimTrackEventTransceiver ( window ) ;
shimGetUserMedia ( window ) ;
shimAudioContext ( window ) ;
shimRTCIceCandidate ( window ) ;
shimMaxMessageSize ( window , browserDetails ) ;
shimSendThrowTypeError ( window ) ;
removeExtmapAllowMixed ( window , browserDetails ) ;
break ;
default :
logging ( 'Unsupported browser!' ) ;
break ;
}
return adapter ;
}
/ *
* Copyright ( c ) 2016 The WebRTC project authors . All Rights Reserved .
*
* Use of this source code is governed by a BSD - style license
* that can be found in the LICENSE file in the root of the source
* tree .
* /
adapterFactory ( { window : typeof window === 'undefined' ? undefined : window } ) ;
/ * *
* @ class AudioTrackConstraints
* @ classDesc Constraints for creating an audio MediaStreamTrack .
* @ memberof Owt . Base
* @ constructor
* @ param { Owt . Base . AudioSourceInfo } source Source info of this audio track .
* /
class AudioTrackConstraints {
// eslint-disable-next-line require-jsdoc
constructor ( source ) {
if ( ! Object . values ( AudioSourceInfo ) . some ( v => v === source ) ) {
throw new TypeError ( 'Invalid source.' ) ;
}
/ * *
* @ member { string } source
* @ memberof Owt . Base . AudioTrackConstraints
* @ desc Values could be "mic" , "screen-cast" , "file" or "mixed" .
* @ instance
* /
this . source = source ;
/ * *
* @ member { string } deviceId
* @ memberof Owt . Base . AudioTrackConstraints
* @ desc Do not provide deviceId if source is not "mic" .
* @ instance
* @ see https : //w3c.github.io/mediacapture-main/#def-constraint-deviceId
* /
this . deviceId = undefined ;
}
}
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/ * *
* @ class VideoTrackConstraints
* @ classDesc Constraints for creating a video MediaStreamTrack .
* @ memberof Owt . Base
* @ constructor
* @ param { Owt . Base . VideoSourceInfo } source Source info of this video track .
* /
class VideoTrackConstraints {
// eslint-disable-next-line require-jsdoc
constructor ( source ) {
if ( ! Object . values ( VideoSourceInfo ) . some ( v => v === source ) ) {
throw new TypeError ( 'Invalid source.' ) ;
}
/ * *
* @ member { string } source
* @ memberof Owt . Base . VideoTrackConstraints
* @ desc Values could be "camera" , "screen-cast" , "file" or "mixed" .
* @ instance
* /
this . source = source ;
/ * *
* @ member { string } deviceId
* @ memberof Owt . Base . VideoTrackConstraints
* @ desc Do not provide deviceId if source is not "camera" .
* @ instance
* @ see https : //w3c.github.io/mediacapture-main/#def-constraint-deviceId
* /
this . deviceId = undefined ;
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/ * *
* @ member { Owt . Base . Resolution } resolution
* @ memberof Owt . Base . VideoTrackConstraints
* @ instance
* /
this . resolution = undefined ;
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/ * *
* @ member { number } frameRate
* @ memberof Owt . Base . VideoTrackConstraints
* @ instance
* /
this . frameRate = undefined ;
}
}
/ * *
* @ class StreamConstraints
* @ classDesc Constraints for creating a MediaStream from screen mic and camera .
* @ memberof Owt . Base
* @ constructor
* @ param { ? Owt . Base . AudioTrackConstraints } audioConstraints
* @ param { ? Owt . Base . VideoTrackConstraints } videoConstraints
* /
class StreamConstraints {
// eslint-disable-next-line require-jsdoc
constructor ( audioConstraints = false , videoConstraints = false ) {
/ * *
* @ member { Owt . Base . MediaStreamTrackDeviceConstraintsForAudio } audio
* @ memberof Owt . Base . MediaStreamDeviceConstraints
* @ instance
* /
this . audio = audioConstraints ;
/ * *
* @ member { Owt . Base . MediaStreamTrackDeviceConstraintsForVideo } Video
* @ memberof Owt . Base . MediaStreamDeviceConstraints
* @ instance
* /
this . video = videoConstraints ;
}
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}
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// eslint-disable-next-line require-jsdoc
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function isVideoConstrainsForScreenCast ( constraints ) {
return typeof constraints . video === 'object' && constraints . video . source === VideoSourceInfo . SCREENCAST ;
}
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/ * *
* @ class MediaStreamFactory
* @ classDesc A factory to create MediaStream . You can also create MediaStream by yourself .
* @ memberof Owt . Base
* /
class MediaStreamFactory {
/ * *
* @ function createMediaStream
* @ static
* @ desc Create a MediaStream with given constraints . If you want to create a MediaStream for screen cast , please make sure both audio and video ' s source are "screen-cast" .
* @ memberof Owt . Base . MediaStreamFactory
* @ return { Promise < MediaStream , Error > } Return a promise that is resolved when stream is successfully created , or rejected if one of the following error happened :
* - One or more parameters cannot be satisfied .
* - Specified device is busy .
* - Cannot obtain necessary permission or operation is canceled by user .
* - Video source is screen cast , while audio source is not .
* - Audio source is screen cast , while video source is disabled .
* @ param { Owt . Base . StreamConstraints } constraints
* /
static createMediaStream ( constraints ) {
if ( typeof constraints !== 'object' || ! constraints . audio && ! constraints . video ) {
return Promise . reject ( new TypeError ( 'Invalid constrains' ) ) ;
}
if ( ! isVideoConstrainsForScreenCast ( constraints ) && typeof constraints . audio === 'object' && constraints . audio . source === AudioSourceInfo . SCREENCAST ) {
return Promise . reject ( new TypeError ( 'Cannot share screen without video.' ) ) ;
}
if ( isVideoConstrainsForScreenCast ( constraints ) && ! isChrome ( ) && ! isFirefox ( ) ) {
return Promise . reject ( new TypeError ( 'Screen sharing only supports Chrome and Firefox.' ) ) ;
}
if ( isVideoConstrainsForScreenCast ( constraints ) && typeof constraints . audio === 'object' && constraints . audio . source !== AudioSourceInfo . SCREENCAST ) {
return Promise . reject ( new TypeError ( 'Cannot capture video from screen cast while capture audio from' + ' other source.' ) ) ;
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}
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// Check and convert constraints.
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if ( ! constraints . audio && ! constraints . video ) {
return Promise . reject ( new TypeError ( 'At least one of audio and video must be requested.' ) ) ;
}
const mediaConstraints = Object . create ( { } ) ;
if ( typeof constraints . audio === 'object' && constraints . audio . source === AudioSourceInfo . MIC ) {
mediaConstraints . audio = Object . create ( { } ) ;
if ( isEdge ( ) ) {
mediaConstraints . audio . deviceId = constraints . audio . deviceId ;
} else {
mediaConstraints . audio . deviceId = {
exact : constraints . audio . deviceId
} ;
}
} else {
if ( constraints . audio . source === AudioSourceInfo . SCREENCAST ) {
mediaConstraints . audio = true ;
} else {
mediaConstraints . audio = constraints . audio ;
}
}
if ( typeof constraints . video === 'object' ) {
mediaConstraints . video = Object . create ( { } ) ;
if ( typeof constraints . video . frameRate === 'number' ) {
mediaConstraints . video . frameRate = constraints . video . frameRate ;
}
if ( constraints . video . resolution && constraints . video . resolution . width && constraints . video . resolution . height ) {
if ( constraints . video . source === VideoSourceInfo . SCREENCAST ) {
mediaConstraints . video . width = constraints . video . resolution . width ;
mediaConstraints . video . height = constraints . video . resolution . height ;
} else {
mediaConstraints . video . width = Object . create ( { } ) ;
mediaConstraints . video . width . exact = constraints . video . resolution . width ;
mediaConstraints . video . height = Object . create ( { } ) ;
mediaConstraints . video . height . exact = constraints . video . resolution . height ;
}
}
if ( typeof constraints . video . deviceId === 'string' ) {
mediaConstraints . video . deviceId = {
exact : constraints . video . deviceId
} ;
}
if ( isFirefox ( ) && constraints . video . source === VideoSourceInfo . SCREENCAST ) {
mediaConstraints . video . mediaSource = 'screen' ;
}
} else {
mediaConstraints . video = constraints . video ;
}
if ( isVideoConstrainsForScreenCast ( constraints ) ) {
return navigator . mediaDevices . getDisplayMedia ( mediaConstraints ) ;
} else {
return navigator . mediaDevices . getUserMedia ( mediaConstraints ) ;
}
}
}
// Copyright (C) <2018> Intel Corporation
var media = /*#__PURE__*/ Object . freeze ( {
_ _proto _ _ : null ,
AudioTrackConstraints : AudioTrackConstraints ,
VideoTrackConstraints : VideoTrackConstraints ,
StreamConstraints : StreamConstraints ,
MediaStreamFactory : MediaStreamFactory ,
AudioSourceInfo : AudioSourceInfo ,
VideoSourceInfo : VideoSourceInfo ,
TrackKind : TrackKind ,
Resolution : Resolution
} ) ;
let logger ;
let errorLogger ;
function setLogger ( ) {
/*eslint-disable */
logger = console . log ;
errorLogger = console . error ;
/*eslint-enable */
}
function log ( message , ... optionalParams ) {
if ( logger ) {
logger ( message , ... optionalParams ) ;
}
}
function error ( message , ... optionalParams ) {
if ( errorLogger ) {
errorLogger ( message , ... optionalParams ) ;
}
}
class Event$1 {
constructor ( type ) {
this . listener = { } ;
this . type = type | '' ;
}
on ( event , fn ) {
if ( ! this . listener [ event ] ) {
this . listener [ event ] = [ ] ;
}
this . listener [ event ] . push ( fn ) ;
return true ;
}
off ( event , fn ) {
if ( this . listener [ event ] ) {
var index = this . listener [ event ] . indexOf ( fn ) ;
if ( index > - 1 ) {
this . listener [ event ] . splice ( index , 1 ) ;
}
return true ;
}
return false ;
}
offAll ( ) {
this . listener = { } ;
}
dispatch ( event , data ) {
if ( this . listener [ event ] ) {
this . listener [ event ] . map ( each => {
each . apply ( null , [ data ] ) ;
} ) ;
return true ;
}
return false ;
}
}
var bind = function bind ( fn , thisArg ) {
return function wrap ( ) {
var args = new Array ( arguments . length ) ;
for ( var i = 0 ; i < args . length ; i ++ ) {
args [ i ] = arguments [ i ] ;
}
return fn . apply ( thisArg , args ) ;
} ;
} ;
// utils is a library of generic helper functions non-specific to axios
var toString = Object . prototype . toString ;
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// eslint-disable-next-line func-names
var kindOf = ( function ( cache ) {
// eslint-disable-next-line func-names
return function ( thing ) {
var str = toString . call ( thing ) ;
return cache [ str ] || ( cache [ str ] = str . slice ( 8 , - 1 ) . toLowerCase ( ) ) ;
} ;
} ) ( Object . create ( null ) ) ;
function kindOfTest ( type ) {
type = type . toLowerCase ( ) ;
return function isKindOf ( thing ) {
return kindOf ( thing ) === type ;
} ;
}
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/ * *
* Determine if a value is an Array
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is an Array , otherwise false
* /
function isArray ( val ) {
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return Array . isArray ( val ) ;
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}
/ * *
* Determine if a value is undefined
*
* @ param { Object } val The value to test
* @ returns { boolean } True if the value is undefined , otherwise false
* /
function isUndefined ( val ) {
return typeof val === 'undefined' ;
}
/ * *
* Determine if a value is a Buffer
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is a Buffer , otherwise false
* /
function isBuffer ( val ) {
return val !== null && ! isUndefined ( val ) && val . constructor !== null && ! isUndefined ( val . constructor )
&& typeof val . constructor . isBuffer === 'function' && val . constructor . isBuffer ( val ) ;
}
/ * *
* Determine if a value is an ArrayBuffer
*
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* @ function
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* @ param { Object } val The value to test
* @ returns { boolean } True if value is an ArrayBuffer , otherwise false
* /
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var isArrayBuffer = kindOfTest ( 'ArrayBuffer' ) ;
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/ * *
* Determine if a value is a view on an ArrayBuffer
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is a view on an ArrayBuffer , otherwise false
* /
function isArrayBufferView ( val ) {
var result ;
if ( ( typeof ArrayBuffer !== 'undefined' ) && ( ArrayBuffer . isView ) ) {
result = ArrayBuffer . isView ( val ) ;
} else {
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result = ( val ) && ( val . buffer ) && ( isArrayBuffer ( val . buffer ) ) ;
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}
return result ;
}
/ * *
* Determine if a value is a String
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is a String , otherwise false
* /
function isString ( val ) {
return typeof val === 'string' ;
}
/ * *
* Determine if a value is a Number
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is a Number , otherwise false
* /
function isNumber ( val ) {
return typeof val === 'number' ;
}
/ * *
* Determine if a value is an Object
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is an Object , otherwise false
* /
function isObject ( val ) {
return val !== null && typeof val === 'object' ;
}
/ * *
* Determine if a value is a plain Object
*
* @ param { Object } val The value to test
* @ return { boolean } True if value is a plain Object , otherwise false
* /
function isPlainObject ( val ) {
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if ( kindOf ( val ) !== 'object' ) {
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return false ;
}
var prototype = Object . getPrototypeOf ( val ) ;
return prototype === null || prototype === Object . prototype ;
}
/ * *
* Determine if a value is a Date
*
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* @ function
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* @ param { Object } val The value to test
* @ returns { boolean } True if value is a Date , otherwise false
* /
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var isDate = kindOfTest ( 'Date' ) ;
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/ * *
* Determine if a value is a File
*
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* @ function
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* @ param { Object } val The value to test
* @ returns { boolean } True if value is a File , otherwise false
* /
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var isFile = kindOfTest ( 'File' ) ;
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/ * *
* Determine if a value is a Blob
*
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* @ function
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* @ param { Object } val The value to test
* @ returns { boolean } True if value is a Blob , otherwise false
* /
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var isBlob = kindOfTest ( 'Blob' ) ;
/ * *
* Determine if a value is a FileList
*
* @ function
* @ param { Object } val The value to test
* @ returns { boolean } True if value is a File , otherwise false
* /
var isFileList = kindOfTest ( 'FileList' ) ;
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/ * *
* Determine if a value is a Function
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is a Function , otherwise false
* /
function isFunction ( val ) {
return toString . call ( val ) === '[object Function]' ;
}
/ * *
* Determine if a value is a Stream
*
* @ param { Object } val The value to test
* @ returns { boolean } True if value is a Stream , otherwise false
* /
function isStream ( val ) {
return isObject ( val ) && isFunction ( val . pipe ) ;
}
/ * *
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* Determine if a value is a FormData
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*
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* @ param { Object } thing The value to test
* @ returns { boolean } True if value is an FormData , otherwise false
* /
function isFormData ( thing ) {
var pattern = '[object FormData]' ;
return thing && (
( typeof FormData === 'function' && thing instanceof FormData ) ||
toString . call ( thing ) === pattern ||
( isFunction ( thing . toString ) && thing . toString ( ) === pattern )
) ;
}
/ * *
* Determine if a value is a URLSearchParams object
* @ function
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* @ param { Object } val The value to test
* @ returns { boolean } True if value is a URLSearchParams object , otherwise false
* /
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var isURLSearchParams = kindOfTest ( 'URLSearchParams' ) ;
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/ * *
* Trim excess whitespace off the beginning and end of a string
*
* @ param { String } str The String to trim
* @ returns { String } The String freed of excess whitespace
* /
function trim ( str ) {
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return str . trim ? str . trim ( ) : str . replace ( /^\s+|\s+$/g , '' ) ;
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}
/ * *
* Determine if we ' re running in a standard browser environment
*
* This allows axios to run in a web worker , and react - native .
* Both environments support XMLHttpRequest , but not fully standard globals .
*
* web workers :
* typeof window - > undefined
* typeof document - > undefined
*
* react - native :
* navigator . product - > 'ReactNative'
* nativescript
* navigator . product - > 'NativeScript' or 'NS'
* /
function isStandardBrowserEnv ( ) {
if ( typeof navigator !== 'undefined' && ( navigator . product === 'ReactNative' ||
navigator . product === 'NativeScript' ||
navigator . product === 'NS' ) ) {
return false ;
}
return (
typeof window !== 'undefined' &&
typeof document !== 'undefined'
) ;
}
/ * *
* Iterate over an Array or an Object invoking a function for each item .
*
* If ` obj ` is an Array callback will be called passing
* the value , index , and complete array for each item .
*
* If 'obj' is an Object callback will be called passing
* the value , key , and complete object for each property .
*
* @ param { Object | Array } obj The object to iterate
* @ param { Function } fn The callback to invoke for each item
* /
function forEach ( obj , fn ) {
// Don't bother if no value provided
if ( obj === null || typeof obj === 'undefined' ) {
return ;
}
// Force an array if not already something iterable
if ( typeof obj !== 'object' ) {
/*eslint no-param-reassign:0*/
obj = [ obj ] ;
}
if ( isArray ( obj ) ) {
// Iterate over array values
for ( var i = 0 , l = obj . length ; i < l ; i ++ ) {
fn . call ( null , obj [ i ] , i , obj ) ;
}
} else {
// Iterate over object keys
for ( var key in obj ) {
if ( Object . prototype . hasOwnProperty . call ( obj , key ) ) {
fn . call ( null , obj [ key ] , key , obj ) ;
}
}
}
}
/ * *
* Accepts varargs expecting each argument to be an object , then
* immutably merges the properties of each object and returns result .
*
* When multiple objects contain the same key the later object in
* the arguments list will take precedence .
*
* Example :
*
* ` ` ` js
* var result = merge ( { foo : 123 } , { foo : 456 } ) ;
* console . log ( result . foo ) ; // outputs 456
* ` ` `
*
* @ param { Object } obj1 Object to merge
* @ returns { Object } Result of all merge properties
* /
function merge ( /* obj1, obj2, obj3, ... */ ) {
var result = { } ;
function assignValue ( val , key ) {
if ( isPlainObject ( result [ key ] ) && isPlainObject ( val ) ) {
result [ key ] = merge ( result [ key ] , val ) ;
} else if ( isPlainObject ( val ) ) {
result [ key ] = merge ( { } , val ) ;
} else if ( isArray ( val ) ) {
result [ key ] = val . slice ( ) ;
} else {
result [ key ] = val ;
}
}
for ( var i = 0 , l = arguments . length ; i < l ; i ++ ) {
forEach ( arguments [ i ] , assignValue ) ;
}
return result ;
}
/ * *
* Extends object a by mutably adding to it the properties of object b .
*
* @ param { Object } a The object to be extended
* @ param { Object } b The object to copy properties from
* @ param { Object } thisArg The object to bind function to
* @ return { Object } The resulting value of object a
* /
function extend ( a , b , thisArg ) {
forEach ( b , function assignValue ( val , key ) {
if ( thisArg && typeof val === 'function' ) {
a [ key ] = bind ( val , thisArg ) ;
} else {
a [ key ] = val ;
}
} ) ;
return a ;
}
/ * *
* Remove byte order marker . This catches EF BB BF ( the UTF - 8 BOM )
*
* @ param { string } content with BOM
* @ return { string } content value without BOM
* /
function stripBOM ( content ) {
if ( content . charCodeAt ( 0 ) === 0xFEFF ) {
content = content . slice ( 1 ) ;
}
return content ;
}
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/ * *
* Inherit the prototype methods from one constructor into another
* @ param { function } constructor
* @ param { function } superConstructor
* @ param { object } [ props ]
* @ param { object } [ descriptors ]
* /
function inherits ( constructor , superConstructor , props , descriptors ) {
constructor . prototype = Object . create ( superConstructor . prototype , descriptors ) ;
constructor . prototype . constructor = constructor ;
props && Object . assign ( constructor . prototype , props ) ;
}
/ * *
* Resolve object with deep prototype chain to a flat object
* @ param { Object } sourceObj source object
* @ param { Object } [ destObj ]
* @ param { Function } [ filter ]
* @ returns { Object }
* /
function toFlatObject ( sourceObj , destObj , filter ) {
var props ;
var i ;
var prop ;
var merged = { } ;
destObj = destObj || { } ;
do {
props = Object . getOwnPropertyNames ( sourceObj ) ;
i = props . length ;
while ( i -- > 0 ) {
prop = props [ i ] ;
if ( ! merged [ prop ] ) {
destObj [ prop ] = sourceObj [ prop ] ;
merged [ prop ] = true ;
}
}
sourceObj = Object . getPrototypeOf ( sourceObj ) ;
} while ( sourceObj && ( ! filter || filter ( sourceObj , destObj ) ) && sourceObj !== Object . prototype ) ;
return destObj ;
}
/ *
* determines whether a string ends with the characters of a specified string
* @ param { String } str
* @ param { String } searchString
* @ param { Number } [ position = 0 ]
* @ returns { boolean }
* /
function endsWith ( str , searchString , position ) {
str = String ( str ) ;
if ( position === undefined || position > str . length ) {
position = str . length ;
}
position -= searchString . length ;
var lastIndex = str . indexOf ( searchString , position ) ;
return lastIndex !== - 1 && lastIndex === position ;
}
/ * *
* Returns new array from array like object
* @ param { * } [ thing ]
* @ returns { Array }
* /
function toArray ( thing ) {
if ( ! thing ) return null ;
var i = thing . length ;
if ( isUndefined ( i ) ) return null ;
var arr = new Array ( i ) ;
while ( i -- > 0 ) {
arr [ i ] = thing [ i ] ;
}
return arr ;
}
// eslint-disable-next-line func-names
var isTypedArray = ( function ( TypedArray ) {
// eslint-disable-next-line func-names
return function ( thing ) {
return TypedArray && thing instanceof TypedArray ;
} ;
} ) ( typeof Uint8Array !== 'undefined' && Object . getPrototypeOf ( Uint8Array ) ) ;
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var utils = {
isArray : isArray ,
isArrayBuffer : isArrayBuffer ,
isBuffer : isBuffer ,
isFormData : isFormData ,
isArrayBufferView : isArrayBufferView ,
isString : isString ,
isNumber : isNumber ,
isObject : isObject ,
isPlainObject : isPlainObject ,
isUndefined : isUndefined ,
isDate : isDate ,
isFile : isFile ,
isBlob : isBlob ,
isFunction : isFunction ,
isStream : isStream ,
isURLSearchParams : isURLSearchParams ,
isStandardBrowserEnv : isStandardBrowserEnv ,
forEach : forEach ,
merge : merge ,
extend : extend ,
trim : trim ,
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stripBOM : stripBOM ,
inherits : inherits ,
toFlatObject : toFlatObject ,
kindOf : kindOf ,
kindOfTest : kindOfTest ,
endsWith : endsWith ,
toArray : toArray ,
isTypedArray : isTypedArray ,
isFileList : isFileList
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} ;
function encode ( val ) {
return encodeURIComponent ( val ) .
replace ( /%3A/gi , ':' ) .
replace ( /%24/g , '$' ) .
replace ( /%2C/gi , ',' ) .
replace ( /%20/g , '+' ) .
replace ( /%5B/gi , '[' ) .
replace ( /%5D/gi , ']' ) ;
}
/ * *
* Build a URL by appending params to the end
*
* @ param { string } url The base of the url ( e . g . , http : //www.google.com)
* @ param { object } [ params ] The params to be appended
* @ returns { string } The formatted url
* /
var buildURL = function buildURL ( url , params , paramsSerializer ) {
/*eslint no-param-reassign:0*/
if ( ! params ) {
return url ;
}
var serializedParams ;
if ( paramsSerializer ) {
serializedParams = paramsSerializer ( params ) ;
} else if ( utils . isURLSearchParams ( params ) ) {
serializedParams = params . toString ( ) ;
} else {
var parts = [ ] ;
utils . forEach ( params , function serialize ( val , key ) {
if ( val === null || typeof val === 'undefined' ) {
return ;
}
if ( utils . isArray ( val ) ) {
key = key + '[]' ;
} else {
val = [ val ] ;
}
utils . forEach ( val , function parseValue ( v ) {
if ( utils . isDate ( v ) ) {
v = v . toISOString ( ) ;
} else if ( utils . isObject ( v ) ) {
v = JSON . stringify ( v ) ;
}
parts . push ( encode ( key ) + '=' + encode ( v ) ) ;
} ) ;
} ) ;
serializedParams = parts . join ( '&' ) ;
}
if ( serializedParams ) {
var hashmarkIndex = url . indexOf ( '#' ) ;
if ( hashmarkIndex !== - 1 ) {
url = url . slice ( 0 , hashmarkIndex ) ;
}
url += ( url . indexOf ( '?' ) === - 1 ? '?' : '&' ) + serializedParams ;
}
return url ;
} ;
function InterceptorManager ( ) {
this . handlers = [ ] ;
}
/ * *
* Add a new interceptor to the stack
*
* @ param { Function } fulfilled The function to handle ` then ` for a ` Promise `
* @ param { Function } rejected The function to handle ` reject ` for a ` Promise `
*
* @ return { Number } An ID used to remove interceptor later
* /
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InterceptorManager . prototype . use = function use ( fulfilled , rejected , options ) {
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this . handlers . push ( {
fulfilled : fulfilled ,
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rejected : rejected ,
synchronous : options ? options . synchronous : false ,
runWhen : options ? options . runWhen : null
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} ) ;
return this . handlers . length - 1 ;
} ;
/ * *
* Remove an interceptor from the stack
*
* @ param { Number } id The ID that was returned by ` use `
* /
InterceptorManager . prototype . eject = function eject ( id ) {
if ( this . handlers [ id ] ) {
this . handlers [ id ] = null ;
}
} ;
/ * *
* Iterate over all the registered interceptors
*
* This method is particularly useful for skipping over any
* interceptors that may have become ` null ` calling ` eject ` .
*
* @ param { Function } fn The function to call for each interceptor
* /
InterceptorManager . prototype . forEach = function forEach ( fn ) {
utils . forEach ( this . handlers , function forEachHandler ( h ) {
if ( h !== null ) {
fn ( h ) ;
}
} ) ;
} ;
var InterceptorManager _1 = InterceptorManager ;
var normalizeHeaderName = function normalizeHeaderName ( headers , normalizedName ) {
utils . forEach ( headers , function processHeader ( value , name ) {
if ( name !== normalizedName && name . toUpperCase ( ) === normalizedName . toUpperCase ( ) ) {
headers [ normalizedName ] = value ;
delete headers [ name ] ;
}
} ) ;
} ;
/ * *
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* Create an Error with the specified message , config , error code , request and response .
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*
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* @ param { string } message The error message .
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* @ param { string } [ code ] The error code ( for example , 'ECONNABORTED' ) .
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* @ param { Object } [ config ] The config .
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* @ param { Object } [ request ] The request .
* @ param { Object } [ response ] The response .
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* @ returns { Error } The created error .
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* /
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function AxiosError ( message , code , config , request , response ) {
Error . call ( this ) ;
this . message = message ;
this . name = 'AxiosError' ;
code && ( this . code = code ) ;
config && ( this . config = config ) ;
request && ( this . request = request ) ;
response && ( this . response = response ) ;
}
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utils . inherits ( AxiosError , Error , {
toJSON : function toJSON ( ) {
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return {
// Standard
message : this . message ,
name : this . name ,
// Microsoft
description : this . description ,
number : this . number ,
// Mozilla
fileName : this . fileName ,
lineNumber : this . lineNumber ,
columnNumber : this . columnNumber ,
stack : this . stack ,
// Axios
config : this . config ,
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code : this . code ,
status : this . response && this . response . status ? this . response . status : null
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} ;
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}
} ) ;
var prototype = AxiosError . prototype ;
var descriptors = { } ;
[
'ERR_BAD_OPTION_VALUE' ,
'ERR_BAD_OPTION' ,
'ECONNABORTED' ,
'ETIMEDOUT' ,
'ERR_NETWORK' ,
'ERR_FR_TOO_MANY_REDIRECTS' ,
'ERR_DEPRECATED' ,
'ERR_BAD_RESPONSE' ,
'ERR_BAD_REQUEST' ,
'ERR_CANCELED'
// eslint-disable-next-line func-names
] . forEach ( function ( code ) {
descriptors [ code ] = { value : code } ;
} ) ;
Object . defineProperties ( AxiosError , descriptors ) ;
Object . defineProperty ( prototype , 'isAxiosError' , { value : true } ) ;
// eslint-disable-next-line func-names
AxiosError . from = function ( error , code , config , request , response , customProps ) {
var axiosError = Object . create ( prototype ) ;
utils . toFlatObject ( error , axiosError , function filter ( obj ) {
return obj !== Error . prototype ;
} ) ;
AxiosError . call ( axiosError , error . message , code , config , request , response ) ;
axiosError . name = error . name ;
customProps && Object . assign ( axiosError , customProps ) ;
return axiosError ;
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} ;
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var AxiosError _1 = AxiosError ;
var transitional = {
silentJSONParsing : true ,
forcedJSONParsing : true ,
clarifyTimeoutError : false
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} ;
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/ * *
* Convert a data object to FormData
* @ param { Object } obj
* @ param { ? Object } [ formData ]
* @ returns { Object }
* * /
function toFormData ( obj , formData ) {
// eslint-disable-next-line no-param-reassign
formData = formData || new FormData ( ) ;
var stack = [ ] ;
function convertValue ( value ) {
if ( value === null ) return '' ;
if ( utils . isDate ( value ) ) {
return value . toISOString ( ) ;
}
if ( utils . isArrayBuffer ( value ) || utils . isTypedArray ( value ) ) {
return typeof Blob === 'function' ? new Blob ( [ value ] ) : Buffer . from ( value ) ;
}
return value ;
}
function build ( data , parentKey ) {
if ( utils . isPlainObject ( data ) || utils . isArray ( data ) ) {
if ( stack . indexOf ( data ) !== - 1 ) {
throw Error ( 'Circular reference detected in ' + parentKey ) ;
}
stack . push ( data ) ;
utils . forEach ( data , function each ( value , key ) {
if ( utils . isUndefined ( value ) ) return ;
var fullKey = parentKey ? parentKey + '.' + key : key ;
var arr ;
if ( value && ! parentKey && typeof value === 'object' ) {
if ( utils . endsWith ( key , '{}' ) ) {
// eslint-disable-next-line no-param-reassign
value = JSON . stringify ( value ) ;
} else if ( utils . endsWith ( key , '[]' ) && ( arr = utils . toArray ( value ) ) ) {
// eslint-disable-next-line func-names
arr . forEach ( function ( el ) {
! utils . isUndefined ( el ) && formData . append ( fullKey , convertValue ( el ) ) ;
} ) ;
return ;
}
}
build ( value , fullKey ) ;
} ) ;
stack . pop ( ) ;
} else {
formData . append ( parentKey , convertValue ( data ) ) ;
}
}
build ( obj ) ;
return formData ;
}
var toFormData _1 = toFormData ;
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/ * *
* Resolve or reject a Promise based on response status .
*
* @ param { Function } resolve A function that resolves the promise .
* @ param { Function } reject A function that rejects the promise .
* @ param { object } response The response .
* /
var settle = function settle ( resolve , reject , response ) {
var validateStatus = response . config . validateStatus ;
if ( ! response . status || ! validateStatus || validateStatus ( response . status ) ) {
resolve ( response ) ;
} else {
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reject ( new AxiosError _1 (
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'Request failed with status code ' + response . status ,
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[ AxiosError _1 . ERR _BAD _REQUEST , AxiosError _1 . ERR _BAD _RESPONSE ] [ Math . floor ( response . status / 100 ) - 4 ] ,
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response . config ,
response . request ,
response
) ) ;
}
} ;
var cookies = (
utils . isStandardBrowserEnv ( ) ?
// Standard browser envs support document.cookie
( function standardBrowserEnv ( ) {
return {
write : function write ( name , value , expires , path , domain , secure ) {
var cookie = [ ] ;
cookie . push ( name + '=' + encodeURIComponent ( value ) ) ;
if ( utils . isNumber ( expires ) ) {
cookie . push ( 'expires=' + new Date ( expires ) . toGMTString ( ) ) ;
}
if ( utils . isString ( path ) ) {
cookie . push ( 'path=' + path ) ;
}
if ( utils . isString ( domain ) ) {
cookie . push ( 'domain=' + domain ) ;
}
if ( secure === true ) {
cookie . push ( 'secure' ) ;
}
document . cookie = cookie . join ( '; ' ) ;
} ,
read : function read ( name ) {
var match = document . cookie . match ( new RegExp ( '(^|;\\s*)(' + name + ')=([^;]*)' ) ) ;
return ( match ? decodeURIComponent ( match [ 3 ] ) : null ) ;
} ,
remove : function remove ( name ) {
this . write ( name , '' , Date . now ( ) - 86400000 ) ;
}
} ;
} ) ( ) :
// Non standard browser env (web workers, react-native) lack needed support.
( function nonStandardBrowserEnv ( ) {
return {
write : function write ( ) { } ,
read : function read ( ) { return null ; } ,
remove : function remove ( ) { }
} ;
} ) ( )
) ;
/ * *
* Determines whether the specified URL is absolute
*
* @ param { string } url The URL to test
* @ returns { boolean } True if the specified URL is absolute , otherwise false
* /
var isAbsoluteURL = function isAbsoluteURL ( url ) {
// A URL is considered absolute if it begins with "<scheme>://" or "//" (protocol-relative URL).
// RFC 3986 defines scheme name as a sequence of characters beginning with a letter and followed
// by any combination of letters, digits, plus, period, or hyphen.
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return /^([a-z][a-z\d+\-.]*:)?\/\//i . test ( url ) ;
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} ;
/ * *
* Creates a new URL by combining the specified URLs
*
* @ param { string } baseURL The base URL
* @ param { string } relativeURL The relative URL
* @ returns { string } The combined URL
* /
var combineURLs = function combineURLs ( baseURL , relativeURL ) {
return relativeURL
? baseURL . replace ( /\/+$/ , '' ) + '/' + relativeURL . replace ( /^\/+/ , '' )
: baseURL ;
} ;
/ * *
* Creates a new URL by combining the baseURL with the requestedURL ,
* only when the requestedURL is not already an absolute URL .
* If the requestURL is absolute , this function returns the requestedURL untouched .
*
* @ param { string } baseURL The base URL
* @ param { string } requestedURL Absolute or relative URL to combine
* @ returns { string } The combined full path
* /
var buildFullPath = function buildFullPath ( baseURL , requestedURL ) {
if ( baseURL && ! isAbsoluteURL ( requestedURL ) ) {
return combineURLs ( baseURL , requestedURL ) ;
}
return requestedURL ;
} ;
// Headers whose duplicates are ignored by node
// c.f. https://nodejs.org/api/http.html#http_message_headers
var ignoreDuplicateOf = [
'age' , 'authorization' , 'content-length' , 'content-type' , 'etag' ,
'expires' , 'from' , 'host' , 'if-modified-since' , 'if-unmodified-since' ,
'last-modified' , 'location' , 'max-forwards' , 'proxy-authorization' ,
'referer' , 'retry-after' , 'user-agent'
] ;
/ * *
* Parse headers into an object
*
* ` ` `
* Date : Wed , 27 Aug 2014 08 : 58 : 49 GMT
* Content - Type : application / json
* Connection : keep - alive
* Transfer - Encoding : chunked
* ` ` `
*
* @ param { String } headers Headers needing to be parsed
* @ returns { Object } Headers parsed into an object
* /
var parseHeaders = function parseHeaders ( headers ) {
var parsed = { } ;
var key ;
var val ;
var i ;
if ( ! headers ) { return parsed ; }
utils . forEach ( headers . split ( '\n' ) , function parser ( line ) {
i = line . indexOf ( ':' ) ;
key = utils . trim ( line . substr ( 0 , i ) ) . toLowerCase ( ) ;
val = utils . trim ( line . substr ( i + 1 ) ) ;
if ( key ) {
if ( parsed [ key ] && ignoreDuplicateOf . indexOf ( key ) >= 0 ) {
return ;
}
if ( key === 'set-cookie' ) {
parsed [ key ] = ( parsed [ key ] ? parsed [ key ] : [ ] ) . concat ( [ val ] ) ;
} else {
parsed [ key ] = parsed [ key ] ? parsed [ key ] + ', ' + val : val ;
}
}
} ) ;
return parsed ;
} ;
var isURLSameOrigin = (
utils . isStandardBrowserEnv ( ) ?
// Standard browser envs have full support of the APIs needed to test
// whether the request URL is of the same origin as current location.
( function standardBrowserEnv ( ) {
var msie = /(msie|trident)/i . test ( navigator . userAgent ) ;
var urlParsingNode = document . createElement ( 'a' ) ;
var originURL ;
/ * *
* Parse a URL to discover it ' s components
*
* @ param { String } url The URL to be parsed
* @ returns { Object }
* /
function resolveURL ( url ) {
var href = url ;
if ( msie ) {
// IE needs attribute set twice to normalize properties
urlParsingNode . setAttribute ( 'href' , href ) ;
href = urlParsingNode . href ;
}
urlParsingNode . setAttribute ( 'href' , href ) ;
// urlParsingNode provides the UrlUtils interface - http://url.spec.whatwg.org/#urlutils
return {
href : urlParsingNode . href ,
protocol : urlParsingNode . protocol ? urlParsingNode . protocol . replace ( /:$/ , '' ) : '' ,
host : urlParsingNode . host ,
search : urlParsingNode . search ? urlParsingNode . search . replace ( /^\?/ , '' ) : '' ,
hash : urlParsingNode . hash ? urlParsingNode . hash . replace ( /^#/ , '' ) : '' ,
hostname : urlParsingNode . hostname ,
port : urlParsingNode . port ,
pathname : ( urlParsingNode . pathname . charAt ( 0 ) === '/' ) ?
urlParsingNode . pathname :
'/' + urlParsingNode . pathname
} ;
}
originURL = resolveURL ( window . location . href ) ;
/ * *
* Determine if a URL shares the same origin as the current location
*
* @ param { String } requestURL The URL to test
* @ returns { boolean } True if URL shares the same origin , otherwise false
* /
return function isURLSameOrigin ( requestURL ) {
var parsed = ( utils . isString ( requestURL ) ) ? resolveURL ( requestURL ) : requestURL ;
return ( parsed . protocol === originURL . protocol &&
parsed . host === originURL . host ) ;
} ;
} ) ( ) :
// Non standard browser envs (web workers, react-native) lack needed support.
( function nonStandardBrowserEnv ( ) {
return function isURLSameOrigin ( ) {
return true ;
} ;
} ) ( )
) ;
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/ * *
* A ` CanceledError ` is an object that is thrown when an operation is canceled .
*
* @ class
* @ param { string = } message The message .
* /
function CanceledError ( message ) {
// eslint-disable-next-line no-eq-null,eqeqeq
AxiosError _1 . call ( this , message == null ? 'canceled' : message , AxiosError _1 . ERR _CANCELED ) ;
this . name = 'CanceledError' ;
}
utils . inherits ( CanceledError , AxiosError _1 , {
_ _CANCEL _ _ : true
} ) ;
var CanceledError _1 = CanceledError ;
var parseProtocol = function parseProtocol ( url ) {
var match = /^([-+\w]{1,25})(:?\/\/|:)/ . exec ( url ) ;
return match && match [ 1 ] || '' ;
} ;
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var xhr = function xhrAdapter ( config ) {
return new Promise ( function dispatchXhrRequest ( resolve , reject ) {
var requestData = config . data ;
var requestHeaders = config . headers ;
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var responseType = config . responseType ;
var onCanceled ;
function done ( ) {
if ( config . cancelToken ) {
config . cancelToken . unsubscribe ( onCanceled ) ;
}
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if ( config . signal ) {
config . signal . removeEventListener ( 'abort' , onCanceled ) ;
}
}
if ( utils . isFormData ( requestData ) && utils . isStandardBrowserEnv ( ) ) {
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delete requestHeaders [ 'Content-Type' ] ; // Let the browser set it
}
var request = new XMLHttpRequest ( ) ;
// HTTP basic authentication
if ( config . auth ) {
var username = config . auth . username || '' ;
var password = config . auth . password ? unescape ( encodeURIComponent ( config . auth . password ) ) : '' ;
requestHeaders . Authorization = 'Basic ' + btoa ( username + ':' + password ) ;
}
var fullPath = buildFullPath ( config . baseURL , config . url ) ;
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request . open ( config . method . toUpperCase ( ) , buildURL ( fullPath , config . params , config . paramsSerializer ) , true ) ;
// Set the request timeout in MS
request . timeout = config . timeout ;
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function onloadend ( ) {
if ( ! request ) {
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return ;
}
// Prepare the response
var responseHeaders = 'getAllResponseHeaders' in request ? parseHeaders ( request . getAllResponseHeaders ( ) ) : null ;
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var responseData = ! responseType || responseType === 'text' || responseType === 'json' ?
request . responseText : request . response ;
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var response = {
data : responseData ,
status : request . status ,
statusText : request . statusText ,
headers : responseHeaders ,
config : config ,
request : request
} ;
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settle ( function _resolve ( value ) {
resolve ( value ) ;
done ( ) ;
} , function _reject ( err ) {
reject ( err ) ;
done ( ) ;
} , response ) ;
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// Clean up request
request = null ;
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}
if ( 'onloadend' in request ) {
// Use onloadend if available
request . onloadend = onloadend ;
} else {
// Listen for ready state to emulate onloadend
request . onreadystatechange = function handleLoad ( ) {
if ( ! request || request . readyState !== 4 ) {
return ;
}
// The request errored out and we didn't get a response, this will be
// handled by onerror instead
// With one exception: request that using file: protocol, most browsers
// will return status as 0 even though it's a successful request
if ( request . status === 0 && ! ( request . responseURL && request . responseURL . indexOf ( 'file:' ) === 0 ) ) {
return ;
}
// readystate handler is calling before onerror or ontimeout handlers,
// so we should call onloadend on the next 'tick'
setTimeout ( onloadend ) ;
} ;
}
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// Handle browser request cancellation (as opposed to a manual cancellation)
request . onabort = function handleAbort ( ) {
if ( ! request ) {
return ;
}
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reject ( new AxiosError _1 ( 'Request aborted' , AxiosError _1 . ECONNABORTED , config , request ) ) ;
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// Clean up request
request = null ;
} ;
// Handle low level network errors
request . onerror = function handleError ( ) {
// Real errors are hidden from us by the browser
// onerror should only fire if it's a network error
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reject ( new AxiosError _1 ( 'Network Error' , AxiosError _1 . ERR _NETWORK , config , request , request ) ) ;
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// Clean up request
request = null ;
} ;
// Handle timeout
request . ontimeout = function handleTimeout ( ) {
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var timeoutErrorMessage = config . timeout ? 'timeout of ' + config . timeout + 'ms exceeded' : 'timeout exceeded' ;
var transitional$1 = config . transitional || transitional ;
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if ( config . timeoutErrorMessage ) {
timeoutErrorMessage = config . timeoutErrorMessage ;
}
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reject ( new AxiosError _1 (
timeoutErrorMessage ,
transitional$1 . clarifyTimeoutError ? AxiosError _1 . ETIMEDOUT : AxiosError _1 . ECONNABORTED ,
config ,
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request ) ) ;
// Clean up request
request = null ;
} ;
// Add xsrf header
// This is only done if running in a standard browser environment.
// Specifically not if we're in a web worker, or react-native.
if ( utils . isStandardBrowserEnv ( ) ) {
// Add xsrf header
var xsrfValue = ( config . withCredentials || isURLSameOrigin ( fullPath ) ) && config . xsrfCookieName ?
cookies . read ( config . xsrfCookieName ) :
undefined ;
if ( xsrfValue ) {
requestHeaders [ config . xsrfHeaderName ] = xsrfValue ;
}
}
// Add headers to the request
if ( 'setRequestHeader' in request ) {
utils . forEach ( requestHeaders , function setRequestHeader ( val , key ) {
if ( typeof requestData === 'undefined' && key . toLowerCase ( ) === 'content-type' ) {
// Remove Content-Type if data is undefined
delete requestHeaders [ key ] ;
} else {
// Otherwise add header to the request
request . setRequestHeader ( key , val ) ;
}
} ) ;
}
// Add withCredentials to request if needed
if ( ! utils . isUndefined ( config . withCredentials ) ) {
request . withCredentials = ! ! config . withCredentials ;
}
// Add responseType to request if needed
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if ( responseType && responseType !== 'json' ) {
request . responseType = config . responseType ;
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}
// Handle progress if needed
if ( typeof config . onDownloadProgress === 'function' ) {
request . addEventListener ( 'progress' , config . onDownloadProgress ) ;
}
// Not all browsers support upload events
if ( typeof config . onUploadProgress === 'function' && request . upload ) {
request . upload . addEventListener ( 'progress' , config . onUploadProgress ) ;
}
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if ( config . cancelToken || config . signal ) {
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// Handle cancellation
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// eslint-disable-next-line func-names
onCanceled = function ( cancel ) {
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if ( ! request ) {
return ;
}
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reject ( ! cancel || ( cancel && cancel . type ) ? new CanceledError _1 ( ) : cancel ) ;
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request . abort ( ) ;
request = null ;
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} ;
config . cancelToken && config . cancelToken . subscribe ( onCanceled ) ;
if ( config . signal ) {
config . signal . aborted ? onCanceled ( ) : config . signal . addEventListener ( 'abort' , onCanceled ) ;
}
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}
if ( ! requestData ) {
requestData = null ;
}
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var protocol = parseProtocol ( fullPath ) ;
if ( protocol && [ 'http' , 'https' , 'file' ] . indexOf ( protocol ) === - 1 ) {
reject ( new AxiosError _1 ( 'Unsupported protocol ' + protocol + ':' , AxiosError _1 . ERR _BAD _REQUEST , config ) ) ;
return ;
}
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// Send the request
request . send ( requestData ) ;
} ) ;
} ;
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// eslint-disable-next-line strict
var _null = null ;
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var DEFAULT _CONTENT _TYPE = {
'Content-Type' : 'application/x-www-form-urlencoded'
} ;
function setContentTypeIfUnset ( headers , value ) {
if ( ! utils . isUndefined ( headers ) && utils . isUndefined ( headers [ 'Content-Type' ] ) ) {
headers [ 'Content-Type' ] = value ;
}
}
function getDefaultAdapter ( ) {
var adapter ;
if ( typeof XMLHttpRequest !== 'undefined' ) {
// For browsers use XHR adapter
adapter = xhr ;
} else if ( typeof process !== 'undefined' && Object . prototype . toString . call ( process ) === '[object process]' ) {
// For node use HTTP adapter
adapter = xhr ;
}
return adapter ;
}
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function stringifySafely ( rawValue , parser , encoder ) {
if ( utils . isString ( rawValue ) ) {
try {
( parser || JSON . parse ) ( rawValue ) ;
return utils . trim ( rawValue ) ;
} catch ( e ) {
if ( e . name !== 'SyntaxError' ) {
throw e ;
}
}
}
return ( encoder || JSON . stringify ) ( rawValue ) ;
}
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var defaults = {
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transitional : transitional ,
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adapter : getDefaultAdapter ( ) ,
transformRequest : [ function transformRequest ( data , headers ) {
normalizeHeaderName ( headers , 'Accept' ) ;
normalizeHeaderName ( headers , 'Content-Type' ) ;
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if ( utils . isFormData ( data ) ||
utils . isArrayBuffer ( data ) ||
utils . isBuffer ( data ) ||
utils . isStream ( data ) ||
utils . isFile ( data ) ||
utils . isBlob ( data )
) {
return data ;
}
if ( utils . isArrayBufferView ( data ) ) {
return data . buffer ;
}
if ( utils . isURLSearchParams ( data ) ) {
setContentTypeIfUnset ( headers , 'application/x-www-form-urlencoded;charset=utf-8' ) ;
return data . toString ( ) ;
}
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var isObjectPayload = utils . isObject ( data ) ;
var contentType = headers && headers [ 'Content-Type' ] ;
var isFileList ;
if ( ( isFileList = utils . isFileList ( data ) ) || ( isObjectPayload && contentType === 'multipart/form-data' ) ) {
var _FormData = this . env && this . env . FormData ;
return toFormData _1 ( isFileList ? { 'files[]' : data } : data , _FormData && new _FormData ( ) ) ;
} else if ( isObjectPayload || contentType === 'application/json' ) {
setContentTypeIfUnset ( headers , 'application/json' ) ;
return stringifySafely ( data ) ;
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}
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return data ;
} ] ,
transformResponse : [ function transformResponse ( data ) {
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var transitional = this . transitional || defaults . transitional ;
var silentJSONParsing = transitional && transitional . silentJSONParsing ;
var forcedJSONParsing = transitional && transitional . forcedJSONParsing ;
var strictJSONParsing = ! silentJSONParsing && this . responseType === 'json' ;
if ( strictJSONParsing || ( forcedJSONParsing && utils . isString ( data ) && data . length ) ) {
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try {
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return JSON . parse ( data ) ;
} catch ( e ) {
if ( strictJSONParsing ) {
if ( e . name === 'SyntaxError' ) {
throw AxiosError _1 . from ( e , AxiosError _1 . ERR _BAD _RESPONSE , this , null , this . response ) ;
}
throw e ;
}
}
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}
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return data ;
} ] ,
/ * *
* A timeout in milliseconds to abort a request . If set to 0 ( default ) a
* timeout is not created .
* /
timeout : 0 ,
xsrfCookieName : 'XSRF-TOKEN' ,
xsrfHeaderName : 'X-XSRF-TOKEN' ,
maxContentLength : - 1 ,
maxBodyLength : - 1 ,
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env : {
FormData : _null
} ,
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validateStatus : function validateStatus ( status ) {
return status >= 200 && status < 300 ;
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} ,
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headers : {
common : {
'Accept' : 'application/json, text/plain, */*'
}
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}
} ;
utils . forEach ( [ 'delete' , 'get' , 'head' ] , function forEachMethodNoData ( method ) {
defaults . headers [ method ] = { } ;
} ) ;
utils . forEach ( [ 'post' , 'put' , 'patch' ] , function forEachMethodWithData ( method ) {
defaults . headers [ method ] = utils . merge ( DEFAULT _CONTENT _TYPE ) ;
} ) ;
var defaults _1 = defaults ;
/ * *
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* Transform the data for a request or a response
*
* @ param { Object | String } data The data to be transformed
* @ param { Array } headers The headers for the request or response
* @ param { Array | Function } fns A single function or Array of functions
* @ returns { * } The resulting transformed data
* /
var transformData = function transformData ( data , headers , fns ) {
var context = this || defaults _1 ;
/*eslint no-param-reassign:0*/
utils . forEach ( fns , function transform ( fn ) {
data = fn . call ( context , data , headers ) ;
} ) ;
return data ;
} ;
var isCancel = function isCancel ( value ) {
return ! ! ( value && value . _ _CANCEL _ _ ) ;
} ;
/ * *
* Throws a ` CanceledError ` if cancellation has been requested .
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* /
function throwIfCancellationRequested ( config ) {
if ( config . cancelToken ) {
config . cancelToken . throwIfRequested ( ) ;
}
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if ( config . signal && config . signal . aborted ) {
throw new CanceledError _1 ( ) ;
}
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}
/ * *
* Dispatch a request to the server using the configured adapter .
*
* @ param { object } config The config that is to be used for the request
* @ returns { Promise } The Promise to be fulfilled
* /
var dispatchRequest = function dispatchRequest ( config ) {
throwIfCancellationRequested ( config ) ;
// Ensure headers exist
config . headers = config . headers || { } ;
// Transform request data
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config . data = transformData . call (
config ,
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config . data ,
config . headers ,
config . transformRequest
) ;
// Flatten headers
config . headers = utils . merge (
config . headers . common || { } ,
config . headers [ config . method ] || { } ,
config . headers
) ;
utils . forEach (
[ 'delete' , 'get' , 'head' , 'post' , 'put' , 'patch' , 'common' ] ,
function cleanHeaderConfig ( method ) {
delete config . headers [ method ] ;
}
) ;
var adapter = config . adapter || defaults _1 . adapter ;
return adapter ( config ) . then ( function onAdapterResolution ( response ) {
throwIfCancellationRequested ( config ) ;
// Transform response data
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response . data = transformData . call (
config ,
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response . data ,
response . headers ,
config . transformResponse
) ;
return response ;
} , function onAdapterRejection ( reason ) {
if ( ! isCancel ( reason ) ) {
throwIfCancellationRequested ( config ) ;
// Transform response data
if ( reason && reason . response ) {
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reason . response . data = transformData . call (
config ,
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reason . response . data ,
reason . response . headers ,
config . transformResponse
) ;
}
}
return Promise . reject ( reason ) ;
} ) ;
} ;
/ * *
* Config - specific merge - function which creates a new config - object
* by merging two configuration objects together .
*
* @ param { Object } config1
* @ param { Object } config2
* @ returns { Object } New object resulting from merging config2 to config1
* /
var mergeConfig = function mergeConfig ( config1 , config2 ) {
// eslint-disable-next-line no-param-reassign
config2 = config2 || { } ;
var config = { } ;
function getMergedValue ( target , source ) {
if ( utils . isPlainObject ( target ) && utils . isPlainObject ( source ) ) {
return utils . merge ( target , source ) ;
} else if ( utils . isPlainObject ( source ) ) {
return utils . merge ( { } , source ) ;
} else if ( utils . isArray ( source ) ) {
return source . slice ( ) ;
}
return source ;
}
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// eslint-disable-next-line consistent-return
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function mergeDeepProperties ( prop ) {
if ( ! utils . isUndefined ( config2 [ prop ] ) ) {
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return getMergedValue ( config1 [ prop ] , config2 [ prop ] ) ;
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} else if ( ! utils . isUndefined ( config1 [ prop ] ) ) {
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return getMergedValue ( undefined , config1 [ prop ] ) ;
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}
}
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// eslint-disable-next-line consistent-return
function valueFromConfig2 ( prop ) {
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if ( ! utils . isUndefined ( config2 [ prop ] ) ) {
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return getMergedValue ( undefined , config2 [ prop ] ) ;
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}
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}
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// eslint-disable-next-line consistent-return
function defaultToConfig2 ( prop ) {
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if ( ! utils . isUndefined ( config2 [ prop ] ) ) {
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return getMergedValue ( undefined , config2 [ prop ] ) ;
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} else if ( ! utils . isUndefined ( config1 [ prop ] ) ) {
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return getMergedValue ( undefined , config1 [ prop ] ) ;
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}
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}
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// eslint-disable-next-line consistent-return
function mergeDirectKeys ( prop ) {
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if ( prop in config2 ) {
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return getMergedValue ( config1 [ prop ] , config2 [ prop ] ) ;
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} else if ( prop in config1 ) {
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return getMergedValue ( undefined , config1 [ prop ] ) ;
}
}
var mergeMap = {
'url' : valueFromConfig2 ,
'method' : valueFromConfig2 ,
'data' : valueFromConfig2 ,
'baseURL' : defaultToConfig2 ,
'transformRequest' : defaultToConfig2 ,
'transformResponse' : defaultToConfig2 ,
'paramsSerializer' : defaultToConfig2 ,
'timeout' : defaultToConfig2 ,
'timeoutMessage' : defaultToConfig2 ,
'withCredentials' : defaultToConfig2 ,
'adapter' : defaultToConfig2 ,
'responseType' : defaultToConfig2 ,
'xsrfCookieName' : defaultToConfig2 ,
'xsrfHeaderName' : defaultToConfig2 ,
'onUploadProgress' : defaultToConfig2 ,
'onDownloadProgress' : defaultToConfig2 ,
'decompress' : defaultToConfig2 ,
'maxContentLength' : defaultToConfig2 ,
'maxBodyLength' : defaultToConfig2 ,
'beforeRedirect' : defaultToConfig2 ,
'transport' : defaultToConfig2 ,
'httpAgent' : defaultToConfig2 ,
'httpsAgent' : defaultToConfig2 ,
'cancelToken' : defaultToConfig2 ,
'socketPath' : defaultToConfig2 ,
'responseEncoding' : defaultToConfig2 ,
'validateStatus' : mergeDirectKeys
} ;
utils . forEach ( Object . keys ( config1 ) . concat ( Object . keys ( config2 ) ) , function computeConfigValue ( prop ) {
var merge = mergeMap [ prop ] || mergeDeepProperties ;
var configValue = merge ( prop ) ;
( utils . isUndefined ( configValue ) && merge !== mergeDirectKeys ) || ( config [ prop ] = configValue ) ;
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} ) ;
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return config ;
} ;
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var data = {
"version" : "0.27.2"
} ;
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var VERSION = data . version ;
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var validators$1 = { } ;
// eslint-disable-next-line func-names
[ 'object' , 'boolean' , 'number' , 'function' , 'string' , 'symbol' ] . forEach ( function ( type , i ) {
validators$1 [ type ] = function validator ( thing ) {
return typeof thing === type || 'a' + ( i < 1 ? 'n ' : ' ' ) + type ;
} ;
} ) ;
var deprecatedWarnings = { } ;
/ * *
* Transitional option validator
* @ param { function | boolean ? } validator - set to false if the transitional option has been removed
* @ param { string ? } version - deprecated version / removed since version
* @ param { string ? } message - some message with additional info
* @ returns { function }
* /
validators$1 . transitional = function transitional ( validator , version , message ) {
function formatMessage ( opt , desc ) {
return '[Axios v' + VERSION + '] Transitional option \'' + opt + '\'' + desc + ( message ? '. ' + message : '' ) ;
}
// eslint-disable-next-line func-names
return function ( value , opt , opts ) {
if ( validator === false ) {
throw new AxiosError _1 (
formatMessage ( opt , ' has been removed' + ( version ? ' in ' + version : '' ) ) ,
AxiosError _1 . ERR _DEPRECATED
) ;
}
if ( version && ! deprecatedWarnings [ opt ] ) {
deprecatedWarnings [ opt ] = true ;
// eslint-disable-next-line no-console
console . warn (
formatMessage (
opt ,
' has been deprecated since v' + version + ' and will be removed in the near future'
)
) ;
}
return validator ? validator ( value , opt , opts ) : true ;
} ;
} ;
/ * *
* Assert object ' s properties type
* @ param { object } options
* @ param { object } schema
* @ param { boolean ? } allowUnknown
* /
function assertOptions ( options , schema , allowUnknown ) {
if ( typeof options !== 'object' ) {
throw new AxiosError _1 ( 'options must be an object' , AxiosError _1 . ERR _BAD _OPTION _VALUE ) ;
}
var keys = Object . keys ( options ) ;
var i = keys . length ;
while ( i -- > 0 ) {
var opt = keys [ i ] ;
var validator = schema [ opt ] ;
if ( validator ) {
var value = options [ opt ] ;
var result = value === undefined || validator ( value , opt , options ) ;
if ( result !== true ) {
throw new AxiosError _1 ( 'option ' + opt + ' must be ' + result , AxiosError _1 . ERR _BAD _OPTION _VALUE ) ;
}
continue ;
}
if ( allowUnknown !== true ) {
throw new AxiosError _1 ( 'Unknown option ' + opt , AxiosError _1 . ERR _BAD _OPTION ) ;
}
}
}
var validator = {
assertOptions : assertOptions ,
validators : validators$1
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} ;
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var validators = validator . validators ;
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/ * *
* Create a new instance of Axios
*
* @ param { Object } instanceConfig The default config for the instance
* /
function Axios ( instanceConfig ) {
this . defaults = instanceConfig ;
this . interceptors = {
request : new InterceptorManager _1 ( ) ,
response : new InterceptorManager _1 ( )
} ;
}
/ * *
* Dispatch a request
*
* @ param { Object } config The config specific for this request ( merged with this . defaults )
* /
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Axios . prototype . request = function request ( configOrUrl , config ) {
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/*eslint no-param-reassign:0*/
// Allow for axios('example/url'[, config]) a la fetch API
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if ( typeof configOrUrl === 'string' ) {
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config = config || { } ;
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config . url = configOrUrl ;
} else {
config = configOrUrl || { } ;
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}
config = mergeConfig ( this . defaults , config ) ;
// Set config.method
if ( config . method ) {
config . method = config . method . toLowerCase ( ) ;
} else if ( this . defaults . method ) {
config . method = this . defaults . method . toLowerCase ( ) ;
} else {
config . method = 'get' ;
}
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var transitional = config . transitional ;
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if ( transitional !== undefined ) {
validator . assertOptions ( transitional , {
silentJSONParsing : validators . transitional ( validators . boolean ) ,
forcedJSONParsing : validators . transitional ( validators . boolean ) ,
clarifyTimeoutError : validators . transitional ( validators . boolean )
} , false ) ;
}
// filter out skipped interceptors
var requestInterceptorChain = [ ] ;
var synchronousRequestInterceptors = true ;
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this . interceptors . request . forEach ( function unshiftRequestInterceptors ( interceptor ) {
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if ( typeof interceptor . runWhen === 'function' && interceptor . runWhen ( config ) === false ) {
return ;
}
synchronousRequestInterceptors = synchronousRequestInterceptors && interceptor . synchronous ;
requestInterceptorChain . unshift ( interceptor . fulfilled , interceptor . rejected ) ;
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} ) ;
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var responseInterceptorChain = [ ] ;
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this . interceptors . response . forEach ( function pushResponseInterceptors ( interceptor ) {
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responseInterceptorChain . push ( interceptor . fulfilled , interceptor . rejected ) ;
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} ) ;
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var promise ;
if ( ! synchronousRequestInterceptors ) {
var chain = [ dispatchRequest , undefined ] ;
Array . prototype . unshift . apply ( chain , requestInterceptorChain ) ;
chain = chain . concat ( responseInterceptorChain ) ;
promise = Promise . resolve ( config ) ;
while ( chain . length ) {
promise = promise . then ( chain . shift ( ) , chain . shift ( ) ) ;
}
return promise ;
}
var newConfig = config ;
while ( requestInterceptorChain . length ) {
var onFulfilled = requestInterceptorChain . shift ( ) ;
var onRejected = requestInterceptorChain . shift ( ) ;
try {
newConfig = onFulfilled ( newConfig ) ;
} catch ( error ) {
onRejected ( error ) ;
break ;
}
}
try {
promise = dispatchRequest ( newConfig ) ;
} catch ( error ) {
return Promise . reject ( error ) ;
}
while ( responseInterceptorChain . length ) {
promise = promise . then ( responseInterceptorChain . shift ( ) , responseInterceptorChain . shift ( ) ) ;
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}
return promise ;
} ;
Axios . prototype . getUri = function getUri ( config ) {
config = mergeConfig ( this . defaults , config ) ;
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var fullPath = buildFullPath ( config . baseURL , config . url ) ;
return buildURL ( fullPath , config . params , config . paramsSerializer ) ;
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} ;
// Provide aliases for supported request methods
utils . forEach ( [ 'delete' , 'get' , 'head' , 'options' ] , function forEachMethodNoData ( method ) {
/*eslint func-names:0*/
Axios . prototype [ method ] = function ( url , config ) {
return this . request ( mergeConfig ( config || { } , {
method : method ,
url : url ,
data : ( config || { } ) . data
} ) ) ;
} ;
} ) ;
utils . forEach ( [ 'post' , 'put' , 'patch' ] , function forEachMethodWithData ( method ) {
/*eslint func-names:0*/
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function generateHTTPMethod ( isForm ) {
return function httpMethod ( url , data , config ) {
return this . request ( mergeConfig ( config || { } , {
method : method ,
headers : isForm ? {
'Content-Type' : 'multipart/form-data'
} : { } ,
url : url ,
data : data
} ) ) ;
} ;
}
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Axios . prototype [ method ] = generateHTTPMethod ( ) ;
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Axios . prototype [ method + 'Form' ] = generateHTTPMethod ( true ) ;
} ) ;
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var Axios _1 = Axios ;
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/ * *
* A ` CancelToken ` is an object that can be used to request cancellation of an operation .
*
* @ class
* @ param { Function } executor The executor function .
* /
function CancelToken ( executor ) {
if ( typeof executor !== 'function' ) {
throw new TypeError ( 'executor must be a function.' ) ;
}
var resolvePromise ;
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this . promise = new Promise ( function promiseExecutor ( resolve ) {
resolvePromise = resolve ;
} ) ;
var token = this ;
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// eslint-disable-next-line func-names
this . promise . then ( function ( cancel ) {
if ( ! token . _listeners ) return ;
var i ;
var l = token . _listeners . length ;
for ( i = 0 ; i < l ; i ++ ) {
token . _listeners [ i ] ( cancel ) ;
}
token . _listeners = null ;
} ) ;
// eslint-disable-next-line func-names
this . promise . then = function ( onfulfilled ) {
var _resolve ;
// eslint-disable-next-line func-names
var promise = new Promise ( function ( resolve ) {
token . subscribe ( resolve ) ;
_resolve = resolve ;
} ) . then ( onfulfilled ) ;
promise . cancel = function reject ( ) {
token . unsubscribe ( _resolve ) ;
} ;
return promise ;
} ;
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executor ( function cancel ( message ) {
if ( token . reason ) {
// Cancellation has already been requested
return ;
}
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token . reason = new CanceledError _1 ( message ) ;
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resolvePromise ( token . reason ) ;
} ) ;
}
/ * *
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* Throws a ` CanceledError ` if cancellation has been requested .
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* /
CancelToken . prototype . throwIfRequested = function throwIfRequested ( ) {
if ( this . reason ) {
throw this . reason ;
}
} ;
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/ * *
* Subscribe to the cancel signal
* /
CancelToken . prototype . subscribe = function subscribe ( listener ) {
if ( this . reason ) {
listener ( this . reason ) ;
return ;
}
if ( this . _listeners ) {
this . _listeners . push ( listener ) ;
} else {
this . _listeners = [ listener ] ;
}
} ;
/ * *
* Unsubscribe from the cancel signal
* /
CancelToken . prototype . unsubscribe = function unsubscribe ( listener ) {
if ( ! this . _listeners ) {
return ;
}
var index = this . _listeners . indexOf ( listener ) ;
if ( index !== - 1 ) {
this . _listeners . splice ( index , 1 ) ;
}
} ;
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/ * *
* Returns an object that contains a new ` CancelToken ` and a function that , when called ,
* cancels the ` CancelToken ` .
* /
CancelToken . source = function source ( ) {
var cancel ;
var token = new CancelToken ( function executor ( c ) {
cancel = c ;
} ) ;
return {
token : token ,
cancel : cancel
} ;
} ;
var CancelToken _1 = CancelToken ;
/ * *
* Syntactic sugar for invoking a function and expanding an array for arguments .
*
* Common use case would be to use ` Function.prototype.apply ` .
*
* ` ` ` js
* function f ( x , y , z ) { }
* var args = [ 1 , 2 , 3 ] ;
* f . apply ( null , args ) ;
* ` ` `
*
* With ` spread ` this example can be re - written .
*
* ` ` ` js
* spread ( function ( x , y , z ) { } ) ( [ 1 , 2 , 3 ] ) ;
* ` ` `
*
* @ param { Function } callback
* @ returns { Function }
* /
var spread = function spread ( callback ) {
return function wrap ( arr ) {
return callback . apply ( null , arr ) ;
} ;
} ;
/ * *
* Determines whether the payload is an error thrown by Axios
*
* @ param { * } payload The value to test
* @ returns { boolean } True if the payload is an error thrown by Axios , otherwise false
* /
var isAxiosError = function isAxiosError ( payload ) {
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return utils . isObject ( payload ) && ( payload . isAxiosError === true ) ;
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} ;
/ * *
* Create an instance of Axios
*
* @ param { Object } defaultConfig The default config for the instance
* @ return { Axios } A new instance of Axios
* /
function createInstance ( defaultConfig ) {
var context = new Axios _1 ( defaultConfig ) ;
var instance = bind ( Axios _1 . prototype . request , context ) ;
// Copy axios.prototype to instance
utils . extend ( instance , Axios _1 . prototype , context ) ;
// Copy context to instance
utils . extend ( instance , context ) ;
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// Factory for creating new instances
instance . create = function create ( instanceConfig ) {
return createInstance ( mergeConfig ( defaultConfig , instanceConfig ) ) ;
} ;
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return instance ;
}
// Create the default instance to be exported
var axios$1 = createInstance ( defaults _1 ) ;
// Expose Axios class to allow class inheritance
axios$1 . Axios = Axios _1 ;
// Expose Cancel & CancelToken
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axios$1 . CanceledError = CanceledError _1 ;
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axios$1 . CancelToken = CancelToken _1 ;
axios$1 . isCancel = isCancel ;
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axios$1 . VERSION = data . version ;
axios$1 . toFormData = toFormData _1 ;
// Expose AxiosError class
axios$1 . AxiosError = AxiosError _1 ;
// alias for CanceledError for backward compatibility
axios$1 . Cancel = axios$1 . CanceledError ;
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// Expose all/spread
axios$1 . all = function all ( promises ) {
return Promise . all ( promises ) ;
} ;
axios$1 . spread = spread ;
// Expose isAxiosError
axios$1 . isAxiosError = isAxiosError ;
var axios _1 = axios$1 ;
// Allow use of default import syntax in TypeScript
var _default = axios$1 ;
axios _1 . default = _default ;
var axios = axios _1 ;
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/ * !
* @ overview es6 - promise - a tiny implementation of Promises / A + .
* @ copyright Copyright ( c ) 2014 Yehuda Katz , Tom Dale , Stefan Penner and contributors ( Conversion to ES6 API by Jake Archibald )
* @ license Licensed under MIT license
* See https : //raw.githubusercontent.com/stefanpenner/es6-promise/master/LICENSE
* @ version v4 . 2.8 + 1e68 dce6
* /
var es6Promise = createCommonjsModule ( function ( module , exports ) {
( function ( global , factory ) {
module . exports = factory ( ) ;
} ( commonjsGlobal , ( function ( ) {
function objectOrFunction ( x ) {
var type = typeof x ;
return x !== null && ( type === 'object' || type === 'function' ) ;
}
function isFunction ( x ) {
return typeof x === 'function' ;
}
var _isArray = void 0 ;
if ( Array . isArray ) {
_isArray = Array . isArray ;
} else {
_isArray = function ( x ) {
return Object . prototype . toString . call ( x ) === '[object Array]' ;
} ;
}
var isArray = _isArray ;
var len = 0 ;
var vertxNext = void 0 ;
var customSchedulerFn = void 0 ;
var asap = function asap ( callback , arg ) {
queue [ len ] = callback ;
queue [ len + 1 ] = arg ;
len += 2 ;
if ( len === 2 ) {
// If len is 2, that means that we need to schedule an async flush.
// If additional callbacks are queued before the queue is flushed, they
// will be processed by this flush that we are scheduling.
if ( customSchedulerFn ) {
customSchedulerFn ( flush ) ;
} else {
scheduleFlush ( ) ;
}
}
} ;
function setScheduler ( scheduleFn ) {
customSchedulerFn = scheduleFn ;
}
function setAsap ( asapFn ) {
asap = asapFn ;
}
var browserWindow = typeof window !== 'undefined' ? window : undefined ;
var browserGlobal = browserWindow || { } ;
var BrowserMutationObserver = browserGlobal . MutationObserver || browserGlobal . WebKitMutationObserver ;
var isNode = typeof self === 'undefined' && typeof process !== 'undefined' && { } . toString . call ( process ) === '[object process]' ;
// test for web worker but not in IE10
var isWorker = typeof Uint8ClampedArray !== 'undefined' && typeof importScripts !== 'undefined' && typeof MessageChannel !== 'undefined' ;
// node
function useNextTick ( ) {
// node version 0.10.x displays a deprecation warning when nextTick is used recursively
// see https://github.com/cujojs/when/issues/410 for details
return function ( ) {
return process . nextTick ( flush ) ;
} ;
}
// vertx
function useVertxTimer ( ) {
if ( typeof vertxNext !== 'undefined' ) {
return function ( ) {
vertxNext ( flush ) ;
} ;
}
return useSetTimeout ( ) ;
}
function useMutationObserver ( ) {
var iterations = 0 ;
var observer = new BrowserMutationObserver ( flush ) ;
var node = document . createTextNode ( '' ) ;
observer . observe ( node , { characterData : true } ) ;
return function ( ) {
node . data = iterations = ++ iterations % 2 ;
} ;
}
// web worker
function useMessageChannel ( ) {
var channel = new MessageChannel ( ) ;
channel . port1 . onmessage = flush ;
return function ( ) {
return channel . port2 . postMessage ( 0 ) ;
} ;
}
function useSetTimeout ( ) {
// Store setTimeout reference so es6-promise will be unaffected by
// other code modifying setTimeout (like sinon.useFakeTimers())
var globalSetTimeout = setTimeout ;
return function ( ) {
return globalSetTimeout ( flush , 1 ) ;
} ;
}
var queue = new Array ( 1000 ) ;
function flush ( ) {
for ( var i = 0 ; i < len ; i += 2 ) {
var callback = queue [ i ] ;
var arg = queue [ i + 1 ] ;
callback ( arg ) ;
queue [ i ] = undefined ;
queue [ i + 1 ] = undefined ;
}
len = 0 ;
}
function attemptVertx ( ) {
try {
var vertx = Function ( 'return this' ) ( ) . require ( 'vertx' ) ;
vertxNext = vertx . runOnLoop || vertx . runOnContext ;
return useVertxTimer ( ) ;
} catch ( e ) {
return useSetTimeout ( ) ;
}
}
var scheduleFlush = void 0 ;
// Decide what async method to use to triggering processing of queued callbacks:
if ( isNode ) {
scheduleFlush = useNextTick ( ) ;
} else if ( BrowserMutationObserver ) {
scheduleFlush = useMutationObserver ( ) ;
} else if ( isWorker ) {
scheduleFlush = useMessageChannel ( ) ;
} else if ( browserWindow === undefined && typeof commonjsRequire === 'function' ) {
scheduleFlush = attemptVertx ( ) ;
} else {
scheduleFlush = useSetTimeout ( ) ;
}
function then ( onFulfillment , onRejection ) {
var parent = this ;
var child = new this . constructor ( noop ) ;
if ( child [ PROMISE _ID ] === undefined ) {
makePromise ( child ) ;
}
var _state = parent . _state ;
if ( _state ) {
var callback = arguments [ _state - 1 ] ;
asap ( function ( ) {
return invokeCallback ( _state , child , callback , parent . _result ) ;
} ) ;
} else {
subscribe ( parent , child , onFulfillment , onRejection ) ;
}
return child ;
}
/ * *
` Promise.resolve ` returns a promise that will become resolved with the
passed ` value ` . It is shorthand for the following :
` ` ` javascript
let promise = new Promise ( function ( resolve , reject ) {
resolve ( 1 ) ;
} ) ;
promise . then ( function ( value ) {
// value === 1
} ) ;
` ` `
Instead of writing the above , your code now simply becomes the following :
` ` ` javascript
let promise = Promise . resolve ( 1 ) ;
promise . then ( function ( value ) {
// value === 1
} ) ;
` ` `
@ method resolve
@ static
@ param { Any } value value that the returned promise will be resolved with
Useful for tooling .
@ return { Promise } a promise that will become fulfilled with the given
` value `
* /
function resolve$1 ( object ) {
/*jshint validthis:true */
var Constructor = this ;
if ( object && typeof object === 'object' && object . constructor === Constructor ) {
return object ;
}
var promise = new Constructor ( noop ) ;
resolve ( promise , object ) ;
return promise ;
}
var PROMISE _ID = Math . random ( ) . toString ( 36 ) . substring ( 2 ) ;
function noop ( ) { }
var PENDING = void 0 ;
var FULFILLED = 1 ;
var REJECTED = 2 ;
function selfFulfillment ( ) {
return new TypeError ( "You cannot resolve a promise with itself" ) ;
}
function cannotReturnOwn ( ) {
return new TypeError ( 'A promises callback cannot return that same promise.' ) ;
}
function tryThen ( then$$1 , value , fulfillmentHandler , rejectionHandler ) {
try {
then$$1 . call ( value , fulfillmentHandler , rejectionHandler ) ;
} catch ( e ) {
return e ;
}
}
function handleForeignThenable ( promise , thenable , then$$1 ) {
asap ( function ( promise ) {
var sealed = false ;
var error = tryThen ( then$$1 , thenable , function ( value ) {
if ( sealed ) {
return ;
}
sealed = true ;
if ( thenable !== value ) {
resolve ( promise , value ) ;
} else {
fulfill ( promise , value ) ;
}
} , function ( reason ) {
if ( sealed ) {
return ;
}
sealed = true ;
reject ( promise , reason ) ;
} , 'Settle: ' + ( promise . _label || ' unknown promise' ) ) ;
if ( ! sealed && error ) {
sealed = true ;
reject ( promise , error ) ;
}
} , promise ) ;
}
function handleOwnThenable ( promise , thenable ) {
if ( thenable . _state === FULFILLED ) {
fulfill ( promise , thenable . _result ) ;
} else if ( thenable . _state === REJECTED ) {
reject ( promise , thenable . _result ) ;
} else {
subscribe ( thenable , undefined , function ( value ) {
return resolve ( promise , value ) ;
} , function ( reason ) {
return reject ( promise , reason ) ;
} ) ;
}
}
function handleMaybeThenable ( promise , maybeThenable , then$$1 ) {
if ( maybeThenable . constructor === promise . constructor && then$$1 === then && maybeThenable . constructor . resolve === resolve$1 ) {
handleOwnThenable ( promise , maybeThenable ) ;
} else {
if ( then$$1 === undefined ) {
fulfill ( promise , maybeThenable ) ;
} else if ( isFunction ( then$$1 ) ) {
handleForeignThenable ( promise , maybeThenable , then$$1 ) ;
} else {
fulfill ( promise , maybeThenable ) ;
}
}
}
function resolve ( promise , value ) {
if ( promise === value ) {
reject ( promise , selfFulfillment ( ) ) ;
} else if ( objectOrFunction ( value ) ) {
var then$$1 = void 0 ;
try {
then$$1 = value . then ;
} catch ( error ) {
reject ( promise , error ) ;
return ;
}
handleMaybeThenable ( promise , value , then$$1 ) ;
} else {
fulfill ( promise , value ) ;
}
}
function publishRejection ( promise ) {
if ( promise . _onerror ) {
promise . _onerror ( promise . _result ) ;
}
publish ( promise ) ;
}
function fulfill ( promise , value ) {
if ( promise . _state !== PENDING ) {
return ;
}
promise . _result = value ;
promise . _state = FULFILLED ;
if ( promise . _subscribers . length !== 0 ) {
asap ( publish , promise ) ;
}
}
function reject ( promise , reason ) {
if ( promise . _state !== PENDING ) {
return ;
}
promise . _state = REJECTED ;
promise . _result = reason ;
asap ( publishRejection , promise ) ;
}
function subscribe ( parent , child , onFulfillment , onRejection ) {
var _subscribers = parent . _subscribers ;
var length = _subscribers . length ;
parent . _onerror = null ;
_subscribers [ length ] = child ;
_subscribers [ length + FULFILLED ] = onFulfillment ;
_subscribers [ length + REJECTED ] = onRejection ;
if ( length === 0 && parent . _state ) {
asap ( publish , parent ) ;
}
}
function publish ( promise ) {
var subscribers = promise . _subscribers ;
var settled = promise . _state ;
if ( subscribers . length === 0 ) {
return ;
}
var child = void 0 ,
callback = void 0 ,
detail = promise . _result ;
for ( var i = 0 ; i < subscribers . length ; i += 3 ) {
child = subscribers [ i ] ;
callback = subscribers [ i + settled ] ;
if ( child ) {
invokeCallback ( settled , child , callback , detail ) ;
} else {
callback ( detail ) ;
}
}
promise . _subscribers . length = 0 ;
}
function invokeCallback ( settled , promise , callback , detail ) {
var hasCallback = isFunction ( callback ) ,
value = void 0 ,
error = void 0 ,
succeeded = true ;
if ( hasCallback ) {
try {
value = callback ( detail ) ;
} catch ( e ) {
succeeded = false ;
error = e ;
}
if ( promise === value ) {
reject ( promise , cannotReturnOwn ( ) ) ;
return ;
}
} else {
value = detail ;
}
if ( promise . _state !== PENDING ) ; else if ( hasCallback && succeeded ) {
resolve ( promise , value ) ;
} else if ( succeeded === false ) {
reject ( promise , error ) ;
} else if ( settled === FULFILLED ) {
fulfill ( promise , value ) ;
} else if ( settled === REJECTED ) {
reject ( promise , value ) ;
}
}
function initializePromise ( promise , resolver ) {
try {
resolver ( function resolvePromise ( value ) {
resolve ( promise , value ) ;
} , function rejectPromise ( reason ) {
reject ( promise , reason ) ;
} ) ;
} catch ( e ) {
reject ( promise , e ) ;
}
}
var id = 0 ;
function nextId ( ) {
return id ++ ;
}
function makePromise ( promise ) {
promise [ PROMISE _ID ] = id ++ ;
promise . _state = undefined ;
promise . _result = undefined ;
promise . _subscribers = [ ] ;
}
function validationError ( ) {
return new Error ( 'Array Methods must be provided an Array' ) ;
}
var Enumerator = function ( ) {
function Enumerator ( Constructor , input ) {
this . _instanceConstructor = Constructor ;
this . promise = new Constructor ( noop ) ;
if ( ! this . promise [ PROMISE _ID ] ) {
makePromise ( this . promise ) ;
}
if ( isArray ( input ) ) {
this . length = input . length ;
this . _remaining = input . length ;
this . _result = new Array ( this . length ) ;
if ( this . length === 0 ) {
fulfill ( this . promise , this . _result ) ;
} else {
this . length = this . length || 0 ;
this . _enumerate ( input ) ;
if ( this . _remaining === 0 ) {
fulfill ( this . promise , this . _result ) ;
}
}
} else {
reject ( this . promise , validationError ( ) ) ;
}
}
Enumerator . prototype . _enumerate = function _enumerate ( input ) {
for ( var i = 0 ; this . _state === PENDING && i < input . length ; i ++ ) {
this . _eachEntry ( input [ i ] , i ) ;
}
} ;
Enumerator . prototype . _eachEntry = function _eachEntry ( entry , i ) {
var c = this . _instanceConstructor ;
var resolve$$1 = c . resolve ;
if ( resolve$$1 === resolve$1 ) {
var _then = void 0 ;
var error = void 0 ;
var didError = false ;
try {
_then = entry . then ;
} catch ( e ) {
didError = true ;
error = e ;
}
if ( _then === then && entry . _state !== PENDING ) {
this . _settledAt ( entry . _state , i , entry . _result ) ;
} else if ( typeof _then !== 'function' ) {
this . _remaining -- ;
this . _result [ i ] = entry ;
} else if ( c === Promise $1 ) {
var promise = new c ( noop ) ;
if ( didError ) {
reject ( promise , error ) ;
} else {
handleMaybeThenable ( promise , entry , _then ) ;
}
this . _willSettleAt ( promise , i ) ;
} else {
this . _willSettleAt ( new c ( function ( resolve$$1 ) {
return resolve$$1 ( entry ) ;
} ) , i ) ;
}
} else {
this . _willSettleAt ( resolve$$1 ( entry ) , i ) ;
}
} ;
Enumerator . prototype . _settledAt = function _settledAt ( state , i , value ) {
var promise = this . promise ;
if ( promise . _state === PENDING ) {
this . _remaining -- ;
if ( state === REJECTED ) {
reject ( promise , value ) ;
} else {
this . _result [ i ] = value ;
}
}
if ( this . _remaining === 0 ) {
fulfill ( promise , this . _result ) ;
}
} ;
Enumerator . prototype . _willSettleAt = function _willSettleAt ( promise , i ) {
var enumerator = this ;
subscribe ( promise , undefined , function ( value ) {
return enumerator . _settledAt ( FULFILLED , i , value ) ;
} , function ( reason ) {
return enumerator . _settledAt ( REJECTED , i , reason ) ;
} ) ;
} ;
return Enumerator ;
} ( ) ;
/ * *
` Promise.all ` accepts an array of promises , and returns a new promise which
is fulfilled with an array of fulfillment values for the passed promises , or
rejected with the reason of the first passed promise to be rejected . It casts all
elements of the passed iterable to promises as it runs this algorithm .
Example :
` ` ` javascript
let promise1 = resolve ( 1 ) ;
let promise2 = resolve ( 2 ) ;
let promise3 = resolve ( 3 ) ;
let promises = [ promise1 , promise2 , promise3 ] ;
Promise . all ( promises ) . then ( function ( array ) {
// The array here would be [ 1, 2, 3 ];
} ) ;
` ` `
If any of the ` promises ` given to ` all ` are rejected , the first promise
that is rejected will be given as an argument to the returned promises ' s
rejection handler . For example :
Example :
` ` ` javascript
let promise1 = resolve ( 1 ) ;
let promise2 = reject ( new Error ( "2" ) ) ;
let promise3 = reject ( new Error ( "3" ) ) ;
let promises = [ promise1 , promise2 , promise3 ] ;
Promise . all ( promises ) . then ( function ( array ) {
// Code here never runs because there are rejected promises!
} , function ( error ) {
// error.message === "2"
} ) ;
` ` `
@ method all
@ static
@ param { Array } entries array of promises
@ param { String } label optional string for labeling the promise .
Useful for tooling .
@ return { Promise } promise that is fulfilled when all ` promises ` have been
fulfilled , or rejected if any of them become rejected .
@ static
* /
function all ( entries ) {
return new Enumerator ( this , entries ) . promise ;
}
/ * *
` Promise.race ` returns a new promise which is settled in the same way as the
first passed promise to settle .
Example :
` ` ` javascript
let promise1 = new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
resolve ( 'promise 1' ) ;
} , 200 ) ;
} ) ;
let promise2 = new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
resolve ( 'promise 2' ) ;
} , 100 ) ;
} ) ;
Promise . race ( [ promise1 , promise2 ] ) . then ( function ( result ) {
// result === 'promise 2' because it was resolved before promise1
// was resolved.
} ) ;
` ` `
` Promise.race ` is deterministic in that only the state of the first
settled promise matters . For example , even if other promises given to the
` promises ` array argument are resolved , but the first settled promise has
become rejected before the other promises became fulfilled , the returned
promise will become rejected :
` ` ` javascript
let promise1 = new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
resolve ( 'promise 1' ) ;
} , 200 ) ;
} ) ;
let promise2 = new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
reject ( new Error ( 'promise 2' ) ) ;
} , 100 ) ;
} ) ;
Promise . race ( [ promise1 , promise2 ] ) . then ( function ( result ) {
// Code here never runs
} , function ( reason ) {
// reason.message === 'promise 2' because promise 2 became rejected before
// promise 1 became fulfilled
} ) ;
` ` `
An example real - world use case is implementing timeouts :
` ` ` javascript
Promise . race ( [ ajax ( 'foo.json' ) , timeout ( 5000 ) ] )
` ` `
@ method race
@ static
@ param { Array } promises array of promises to observe
Useful for tooling .
@ return { Promise } a promise which settles in the same way as the first passed
promise to settle .
* /
function race ( entries ) {
/*jshint validthis:true */
var Constructor = this ;
if ( ! isArray ( entries ) ) {
return new Constructor ( function ( _ , reject ) {
return reject ( new TypeError ( 'You must pass an array to race.' ) ) ;
} ) ;
} else {
return new Constructor ( function ( resolve , reject ) {
var length = entries . length ;
for ( var i = 0 ; i < length ; i ++ ) {
Constructor . resolve ( entries [ i ] ) . then ( resolve , reject ) ;
}
} ) ;
}
}
/ * *
` Promise.reject ` returns a promise rejected with the passed ` reason ` .
It is shorthand for the following :
` ` ` javascript
let promise = new Promise ( function ( resolve , reject ) {
reject ( new Error ( 'WHOOPS' ) ) ;
} ) ;
promise . then ( function ( value ) {
// Code here doesn't run because the promise is rejected!
} , function ( reason ) {
// reason.message === 'WHOOPS'
} ) ;
` ` `
Instead of writing the above , your code now simply becomes the following :
` ` ` javascript
let promise = Promise . reject ( new Error ( 'WHOOPS' ) ) ;
promise . then ( function ( value ) {
// Code here doesn't run because the promise is rejected!
} , function ( reason ) {
// reason.message === 'WHOOPS'
} ) ;
` ` `
@ method reject
@ static
@ param { Any } reason value that the returned promise will be rejected with .
Useful for tooling .
@ return { Promise } a promise rejected with the given ` reason ` .
* /
function reject$1 ( reason ) {
/*jshint validthis:true */
var Constructor = this ;
var promise = new Constructor ( noop ) ;
reject ( promise , reason ) ;
return promise ;
}
function needsResolver ( ) {
throw new TypeError ( 'You must pass a resolver function as the first argument to the promise constructor' ) ;
}
function needsNew ( ) {
throw new TypeError ( "Failed to construct 'Promise': Please use the 'new' operator, this object constructor cannot be called as a function." ) ;
}
/ * *
Promise objects represent the eventual result of an asynchronous operation . The
primary way of interacting with a promise is through its ` then ` method , which
registers callbacks to receive either a promise ' s eventual value or the reason
why the promise cannot be fulfilled .
Terminology
-- -- -- -- -- -
- ` promise ` is an object or function with a ` then ` method whose behavior conforms to this specification .
- ` thenable ` is an object or function that defines a ` then ` method .
- ` value ` is any legal JavaScript value ( including undefined , a thenable , or a promise ) .
- ` exception ` is a value that is thrown using the throw statement .
- ` reason ` is a value that indicates why a promise was rejected .
- ` settled ` the final resting state of a promise , fulfilled or rejected .
A promise can be in one of three states : pending , fulfilled , or rejected .
Promises that are fulfilled have a fulfillment value and are in the fulfilled
state . Promises that are rejected have a rejection reason and are in the
rejected state . A fulfillment value is never a thenable .
Promises can also be said to * resolve * a value . If this value is also a
promise , then the original promise 's settled state will match the value' s
settled state . So a promise that * resolves * a promise that rejects will
itself reject , and a promise that * resolves * a promise that fulfills will
itself fulfill .
Basic Usage :
-- -- -- -- -- --
` ` ` js
let promise = new Promise ( function ( resolve , reject ) {
// on success
resolve ( value ) ;
// on failure
reject ( reason ) ;
} ) ;
promise . then ( function ( value ) {
// on fulfillment
} , function ( reason ) {
// on rejection
} ) ;
` ` `
Advanced Usage :
-- -- -- -- -- -- -- -
Promises shine when abstracting away asynchronous interactions such as
` XMLHttpRequest ` s .
` ` ` js
function getJSON ( url ) {
return new Promise ( function ( resolve , reject ) {
let xhr = new XMLHttpRequest ( ) ;
xhr . open ( 'GET' , url ) ;
xhr . onreadystatechange = handler ;
xhr . responseType = 'json' ;
xhr . setRequestHeader ( 'Accept' , 'application/json' ) ;
xhr . send ( ) ;
function handler ( ) {
if ( this . readyState === this . DONE ) {
if ( this . status === 200 ) {
resolve ( this . response ) ;
} else {
reject ( new Error ( 'getJSON: `' + url + '` failed with status: [' + this . status + ']' ) ) ;
}
}
} ;
} ) ;
}
getJSON ( '/posts.json' ) . then ( function ( json ) {
// on fulfillment
} , function ( reason ) {
// on rejection
} ) ;
` ` `
Unlike callbacks , promises are great composable primitives .
` ` ` js
Promise . all ( [
getJSON ( '/posts' ) ,
getJSON ( '/comments' )
] ) . then ( function ( values ) {
values [ 0 ] // => postsJSON
values [ 1 ] // => commentsJSON
return values ;
} ) ;
` ` `
@ class Promise
@ param { Function } resolver
Useful for tooling .
@ constructor
* /
var Promise $1 = function ( ) {
function Promise ( resolver ) {
this [ PROMISE _ID ] = nextId ( ) ;
this . _result = this . _state = undefined ;
this . _subscribers = [ ] ;
if ( noop !== resolver ) {
typeof resolver !== 'function' && needsResolver ( ) ;
this instanceof Promise ? initializePromise ( this , resolver ) : needsNew ( ) ;
}
}
/ * *
The primary way of interacting with a promise is through its ` then ` method ,
which registers callbacks to receive either a promise ' s eventual value or the
reason why the promise cannot be fulfilled .
` ` ` js
findUser ( ) . then ( function ( user ) {
// user is available
} , function ( reason ) {
// user is unavailable, and you are given the reason why
} ) ;
` ` `
Chaining
-- -- -- --
The return value of ` then ` is itself a promise . This second , 'downstream'
promise is resolved with the return value of the first promise ' s fulfillment
or rejection handler , or rejected if the handler throws an exception .
` ` ` js
findUser ( ) . then ( function ( user ) {
return user . name ;
} , function ( reason ) {
return 'default name' ;
} ) . then ( function ( userName ) {
// If `findUser` fulfilled, `userName` will be the user's name, otherwise it
// will be `'default name'`
} ) ;
findUser ( ) . then ( function ( user ) {
throw new Error ( 'Found user, but still unhappy' ) ;
} , function ( reason ) {
throw new Error ( '`findUser` rejected and we' re unhappy ' ) ;
} ) . then ( function ( value ) {
// never reached
} , function ( reason ) {
// if `findUser` fulfilled, `reason` will be 'Found user, but still unhappy'.
// If `findUser` rejected, `reason` will be '`findUser` rejected and we're unhappy'.
} ) ;
` ` `
If the downstream promise does not specify a rejection handler , rejection reasons will be propagated further downstream .
` ` ` js
findUser ( ) . then ( function ( user ) {
throw new PedagogicalException ( 'Upstream error' ) ;
} ) . then ( function ( value ) {
// never reached
} ) . then ( function ( value ) {
// never reached
} , function ( reason ) {
// The `PedgagocialException` is propagated all the way down to here
} ) ;
` ` `
Assimilation
-- -- -- -- -- --
Sometimes the value you want to propagate to a downstream promise can only be
retrieved asynchronously . This can be achieved by returning a promise in the
fulfillment or rejection handler . The downstream promise will then be pending
until the returned promise is settled . This is called * assimilation * .
` ` ` js
findUser ( ) . then ( function ( user ) {
return findCommentsByAuthor ( user ) ;
} ) . then ( function ( comments ) {
// The user's comments are now available
} ) ;
` ` `
If the assimliated promise rejects , then the downstream promise will also reject .
` ` ` js
findUser ( ) . then ( function ( user ) {
return findCommentsByAuthor ( user ) ;
} ) . then ( function ( comments ) {
// If `findCommentsByAuthor` fulfills, we'll have the value here
} , function ( reason ) {
// If `findCommentsByAuthor` rejects, we'll have the reason here
} ) ;
` ` `
Simple Example
-- -- -- -- -- -- --
Synchronous Example
` ` ` javascript
let result ;
try {
result = findResult ( ) ;
// success
} catch ( reason ) {
// failure
}
` ` `
Errback Example
` ` ` js
findResult ( function ( result , err ) {
if ( err ) {
// failure
} else {
// success
}
} ) ;
` ` `
Promise Example ;
` ` ` javascript
findResult ( ) . then ( function ( result ) {
// success
} , function ( reason ) {
// failure
} ) ;
` ` `
Advanced Example
-- -- -- -- -- -- --
Synchronous Example
` ` ` javascript
let author , books ;
try {
author = findAuthor ( ) ;
books = findBooksByAuthor ( author ) ;
// success
} catch ( reason ) {
// failure
}
` ` `
Errback Example
` ` ` js
function foundBooks ( books ) {
}
function failure ( reason ) {
}
findAuthor ( function ( author , err ) {
if ( err ) {
failure ( err ) ;
// failure
} else {
try {
findBoooksByAuthor ( author , function ( books , err ) {
if ( err ) {
failure ( err ) ;
} else {
try {
foundBooks ( books ) ;
} catch ( reason ) {
failure ( reason ) ;
}
}
} ) ;
} catch ( error ) {
failure ( err ) ;
}
// success
}
} ) ;
` ` `
Promise Example ;
` ` ` javascript
findAuthor ( ) .
then ( findBooksByAuthor ) .
then ( function ( books ) {
// found books
} ) . catch ( function ( reason ) {
// something went wrong
} ) ;
` ` `
@ method then
@ param { Function } onFulfilled
@ param { Function } onRejected
Useful for tooling .
@ return { Promise }
* /
/ * *
` catch ` is simply sugar for ` then(undefined, onRejection) ` which makes it the same
as the catch block of a try / c a t c h s t a t e m e n t .
` ` ` js
function findAuthor ( ) {
throw new Error ( 'couldn' t find that author ' ) ;
}
// synchronous
try {
findAuthor ( ) ;
} catch ( reason ) {
// something went wrong
}
// async with promises
findAuthor ( ) . catch ( function ( reason ) {
// something went wrong
} ) ;
` ` `
@ method catch
@ param { Function } onRejection
Useful for tooling .
@ return { Promise }
* /
Promise . prototype . catch = function _catch ( onRejection ) {
return this . then ( null , onRejection ) ;
} ;
/ * *
` finally ` will be invoked regardless of the promise ' s fate just as native
try / c a t c h / f i n a l l y b e h a v e s
Synchronous example :
` ` ` js
findAuthor ( ) {
if ( Math . random ( ) > 0.5 ) {
throw new Error ( ) ;
}
return new Author ( ) ;
}
try {
return findAuthor ( ) ; // succeed or fail
} catch ( error ) {
return findOtherAuther ( ) ;
} finally {
// always runs
// doesn't affect the return value
}
` ` `
Asynchronous example :
` ` ` js
findAuthor ( ) . catch ( function ( reason ) {
return findOtherAuther ( ) ;
} ) . finally ( function ( ) {
// author was either found, or not
} ) ;
` ` `
@ method finally
@ param { Function } callback
@ return { Promise }
* /
Promise . prototype . finally = function _finally ( callback ) {
var promise = this ;
var constructor = promise . constructor ;
if ( isFunction ( callback ) ) {
return promise . then ( function ( value ) {
return constructor . resolve ( callback ( ) ) . then ( function ( ) {
return value ;
} ) ;
} , function ( reason ) {
return constructor . resolve ( callback ( ) ) . then ( function ( ) {
throw reason ;
} ) ;
} ) ;
}
return promise . then ( callback , callback ) ;
} ;
return Promise ;
} ( ) ;
Promise $1 . prototype . then = then ;
Promise $1 . all = all ;
Promise $1 . race = race ;
Promise $1 . resolve = resolve$1 ;
Promise $1 . reject = reject$1 ;
Promise $1 . _setScheduler = setScheduler ;
Promise $1 . _setAsap = setAsap ;
Promise $1 . _asap = asap ;
/*global self*/
function polyfill ( ) {
var local = void 0 ;
if ( typeof commonjsGlobal !== 'undefined' ) {
local = commonjsGlobal ;
} else if ( typeof self !== 'undefined' ) {
local = self ;
} else {
try {
local = Function ( 'return this' ) ( ) ;
} catch ( e ) {
throw new Error ( 'polyfill failed because global object is unavailable in this environment' ) ;
}
}
var P = local . Promise ;
if ( P ) {
var promiseToString = null ;
try {
promiseToString = Object . prototype . toString . call ( P . resolve ( ) ) ;
} catch ( e ) {
// silently ignored
}
if ( promiseToString === '[object Promise]' && ! P . cast ) {
return ;
}
}
local . Promise = Promise $1 ;
}
// Strange compat..
Promise $1 . polyfill = polyfill ;
Promise $1 . Promise = Promise $1 ;
return Promise $1 ;
} ) ) ) ;
} ) ;
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class RTCEndpoint extends Event$1 {
constructor ( options ) {
super ( 'RTCPusherPlayer' ) ;
this . TAG = '[RTCPusherPlayer]' ;
let defaults = {
element : '' ,
// html video element
debug : false ,
// if output debug log
zlmsdpUrl : '' ,
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simulcast : false ,
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useCamera : true ,
audioEnable : true ,
videoEnable : true ,
recvOnly : false ,
resolution : {
w : 0 ,
h : 0
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} ,
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usedatachannel : false ,
videoId : '' ,
audioId : ''
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} ;
this . options = Object . assign ( { } , defaults , options ) ;
if ( this . options . debug ) {
setLogger ( ) ;
}
this . e = {
onicecandidate : this . _onIceCandidate . bind ( this ) ,
ontrack : this . _onTrack . bind ( this ) ,
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onicecandidateerror : this . _onIceCandidateError . bind ( this ) ,
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onconnectionstatechange : this . _onconnectionstatechange . bind ( this ) ,
ondatachannelopen : this . _onDataChannelOpen . bind ( this ) ,
ondatachannelmsg : this . _onDataChannelMsg . bind ( this ) ,
ondatachannelerr : this . _onDataChannelErr . bind ( this ) ,
ondatachannelclose : this . _onDataChannelClose . bind ( this )
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} ;
this . _remoteStream = null ;
this . _localStream = null ;
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this . _tracks = [ ] ;
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this . pc = new RTCPeerConnection ( null ) ;
this . pc . onicecandidate = this . e . onicecandidate ;
this . pc . onicecandidateerror = this . e . onicecandidateerror ;
this . pc . ontrack = this . e . ontrack ;
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this . pc . onconnectionstatechange = this . e . onconnectionstatechange ;
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this . datachannel = null ;
if ( this . options . usedatachannel ) {
this . datachannel = this . pc . createDataChannel ( 'chat' ) ;
this . datachannel . onclose = this . e . ondatachannelclose ;
this . datachannel . onerror = this . e . ondatachannelerr ;
this . datachannel . onmessage = this . e . ondatachannelmsg ;
this . datachannel . onopen = this . e . ondatachannelopen ;
}
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if ( ! this . options . recvOnly && ( this . options . audioEnable || this . options . videoEnable ) ) this . start ( ) ; else this . receive ( ) ;
}
receive ( ) {
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//debug.error(this.TAG,'this not implement');
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const AudioTransceiverInit = {
direction : 'recvonly' ,
sendEncodings : [ ]
} ;
const VideoTransceiverInit = {
direction : 'recvonly' ,
sendEncodings : [ ]
} ;
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if ( this . options . videoEnable ) {
this . pc . addTransceiver ( 'video' , VideoTransceiverInit ) ;
}
if ( this . options . audioEnable ) {
this . pc . addTransceiver ( 'audio' , AudioTransceiverInit ) ;
}
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this . pc . createOffer ( ) . then ( desc => {
log ( this . TAG , 'offer:' , desc . sdp ) ;
this . pc . setLocalDescription ( desc ) . then ( ( ) => {
axios ( {
method : 'post' ,
url : this . options . zlmsdpUrl ,
responseType : 'json' ,
data : desc . sdp ,
headers : {
'Content-Type' : 'text/plain;charset=utf-8'
}
} ) . then ( response => {
let ret = response . data ; //JSON.parse(response.data);
if ( ret . code != 0 ) {
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// mean failed for offer/anwser exchange
this . dispatch ( Events$1 . WEBRTC _OFFER _ANWSER _EXCHANGE _FAILED , ret ) ;
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return ;
}
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let anwser = { } ;
anwser . sdp = ret . sdp ;
anwser . type = 'answer' ;
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log ( this . TAG , 'answer:' , ret . sdp ) ;
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this . pc . setRemoteDescription ( anwser ) . then ( ( ) => {
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log ( this . TAG , 'set remote sucess' ) ;
} ) . catch ( e => {
error ( this . TAG , e ) ;
} ) ;
} ) ;
} ) ;
} ) . catch ( e => {
error ( this . TAG , e ) ;
} ) ;
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}
start ( ) {
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let videoConstraints = false ;
let audioConstraints = false ;
if ( this . options . useCamera ) {
if ( this . options . videoEnable ) videoConstraints = new VideoTrackConstraints ( VideoSourceInfo . CAMERA ) ;
if ( this . options . audioEnable ) audioConstraints = new AudioTrackConstraints ( AudioSourceInfo . MIC ) ;
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if ( typeof videoConstraints == 'object' && this . options . videoId != '' ) {
videoConstraints . deviceId = this . options . videoId ;
}
if ( typeof audioConstraints == 'object' && this . options . audioId != '' ) {
audioConstraints . deviceId = this . options . audioId ;
}
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} else {
if ( this . options . videoEnable ) {
videoConstraints = new VideoTrackConstraints ( VideoSourceInfo . SCREENCAST ) ;
if ( this . options . audioEnable ) audioConstraints = new AudioTrackConstraints ( AudioSourceInfo . SCREENCAST ) ;
} else {
if ( this . options . audioEnable ) audioConstraints = new AudioTrackConstraints ( AudioSourceInfo . MIC ) ; else {
// error shared display media not only audio
error ( this . TAG , 'error paramter' ) ;
}
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if ( typeof audioConstraints == 'object' && this . options . audioId != '' ) {
audioConstraints . deviceId = this . options . audioId ;
}
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}
}
if ( this . options . resolution . w != 0 && this . options . resolution . h != 0 && typeof videoConstraints == 'object' ) {
videoConstraints . resolution = new Resolution ( this . options . resolution . w , this . options . resolution . h ) ;
}
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MediaStreamFactory . createMediaStream ( new StreamConstraints ( audioConstraints , videoConstraints ) ) . then ( stream => {
this . _localStream = stream ;
this . dispatch ( Events$1 . WEBRTC _ON _LOCAL _STREAM , stream ) ;
const AudioTransceiverInit = {
direction : 'sendrecv' ,
sendEncodings : [ ]
} ;
const VideoTransceiverInit = {
direction : 'sendrecv' ,
sendEncodings : [ ]
} ;
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if ( this . options . simulcast && stream . getVideoTracks ( ) . length > 0 ) {
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VideoTransceiverInit . sendEncodings = [ {
rid : 'h' ,
active : true ,
maxBitrate : 1000000
} , {
rid : 'm' ,
active : true ,
maxBitrate : 500000 ,
scaleResolutionDownBy : 2
} , {
rid : 'l' ,
active : true ,
maxBitrate : 200000 ,
scaleResolutionDownBy : 4
} ] ;
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}
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if ( this . options . audioEnable ) {
if ( stream . getAudioTracks ( ) . length > 0 ) {
this . pc . addTransceiver ( stream . getAudioTracks ( ) [ 0 ] , AudioTransceiverInit ) ;
} else {
AudioTransceiverInit . direction = 'recvonly' ;
this . pc . addTransceiver ( 'audio' , AudioTransceiverInit ) ;
}
}
if ( this . options . videoEnable ) {
if ( stream . getVideoTracks ( ) . length > 0 ) {
this . pc . addTransceiver ( stream . getVideoTracks ( ) [ 0 ] , VideoTransceiverInit ) ;
} else {
VideoTransceiverInit . direction = 'recvonly' ;
this . pc . addTransceiver ( 'video' , VideoTransceiverInit ) ;
}
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}
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/ *
stream . getTracks ( ) . forEach ( ( track , idx ) => {
debug . log ( this . TAG , track ) ;
this . pc . addTrack ( track ) ;
} ) ;
* /
this . pc . createOffer ( ) . then ( desc => {
log ( this . TAG , 'offer:' , desc . sdp ) ;
this . pc . setLocalDescription ( desc ) . then ( ( ) => {
axios ( {
method : 'post' ,
url : this . options . zlmsdpUrl ,
responseType : 'json' ,
data : desc . sdp ,
headers : {
'Content-Type' : 'text/plain;charset=utf-8'
}
} ) . then ( response => {
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let ret = response . data ; //JSON.parse(response.data);
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if ( ret . code != 0 ) {
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// mean failed for offer/anwser exchange
this . dispatch ( Events$1 . WEBRTC _OFFER _ANWSER _EXCHANGE _FAILED , ret ) ;
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return ;
}
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let anwser = { } ;
anwser . sdp = ret . sdp ;
anwser . type = 'answer' ;
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log ( this . TAG , 'answer:' , ret . sdp ) ;
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this . pc . setRemoteDescription ( anwser ) . then ( ( ) => {
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log ( this . TAG , 'set remote sucess' ) ;
} ) . catch ( e => {
error ( this . TAG , e ) ;
} ) ;
} ) ;
} ) ;
} ) . catch ( e => {
error ( this . TAG , e ) ;
} ) ;
} ) . catch ( e => {
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this . dispatch ( Events$1 . CAPTURE _STREAM _FAILED ) ;
//debug.error(this.TAG,e);
} ) ;
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//const offerOptions = {};
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/ *
if ( typeof this . pc . addTransceiver === 'function' ) {
// |direction| seems not working on Safari.
this . pc . addTransceiver ( 'audio' , { direction : 'recvonly' } ) ;
this . pc . addTransceiver ( 'video' , { direction : 'recvonly' } ) ;
} else {
offerOptions . offerToReceiveAudio = true ;
offerOptions . offerToReceiveVideo = true ;
}
* /
}
_onIceCandidate ( event ) {
if ( event . candidate ) {
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log ( this . TAG , 'Remote ICE candidate: \n ' + event . candidate . candidate ) ;
// Send the candidate to the remote peer
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}
}
_onTrack ( event ) {
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this . _tracks . push ( event . track ) ;
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if ( this . options . element && event . streams && event . streams . length > 0 ) {
this . options . element . srcObject = event . streams [ 0 ] ;
this . _remoteStream = event . streams [ 0 ] ;
this . dispatch ( Events$1 . WEBRTC _ON _REMOTE _STREAMS , event ) ;
} else {
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if ( this . pc . getReceivers ( ) . length == this . _tracks . length ) {
log ( this . TAG , 'play remote stream ' ) ;
this . _remoteStream = new MediaStream ( this . _tracks ) ;
this . options . element . srcObject = this . _remoteStream ;
} else {
error ( this . TAG , 'wait stream track finish' ) ;
}
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}
}
_onIceCandidateError ( event ) {
this . dispatch ( Events$1 . WEBRTC _ICE _CANDIDATE _ERROR , event ) ;
}
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_onconnectionstatechange ( event ) {
this . dispatch ( Events$1 . WEBRTC _ON _CONNECTION _STATE _CHANGE , this . pc . connectionState ) ;
}
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_onDataChannelOpen ( event ) {
log ( this . TAG , 'ondatachannel open:' , event ) ;
this . dispatch ( Events$1 . WEBRTC _ON _DATA _CHANNEL _OPEN , event ) ;
}
_onDataChannelMsg ( event ) {
log ( this . TAG , 'ondatachannel msg:' , event ) ;
this . dispatch ( Events$1 . WEBRTC _ON _DATA _CHANNEL _MSG , event ) ;
}
_onDataChannelErr ( event ) {
log ( this . TAG , 'ondatachannel err:' , event ) ;
this . dispatch ( Events$1 . WEBRTC _ON _DATA _CHANNEL _ERR , event ) ;
}
_onDataChannelClose ( event ) {
log ( this . TAG , 'ondatachannel close:' , event ) ;
this . dispatch ( Events$1 . WEBRTC _ON _DATA _CHANNEL _CLOSE , event ) ;
}
sendMsg ( data ) {
if ( this . datachannel != null ) {
this . datachannel . send ( data ) ;
} else {
error ( this . TAG , 'data channel is null' ) ;
}
}
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switchVideo ( useCamera , deviceId ) {
let videoConstraints = false ;
if ( useCamera ) {
videoConstraints = new VideoTrackConstraints ( VideoSourceInfo . CAMERA ) ;
videoConstraints . deviceId = deviceId ;
} else {
videoConstraints = new VideoTrackConstraints ( VideoSourceInfo . SCREENCAST ) ;
}
return MediaStreamFactory . createMediaStream ( new StreamConstraints ( false , videoConstraints ) ) . then ( stream => {
const videosender = this . pc . getSenders ( ) . find ( e => e . track . kind === 'video' ) ;
if ( videosender != null && stream . getVideoTracks ( ) . length > 0 ) {
this . _localStream . removeTrack ( videosender . track ) ;
this . _localStream . addTrack ( stream . getVideoTracks ( ) [ 0 ] ) ;
// stream change
this . dispatch ( Events$1 . WEBRTC _ON _LOCAL _STREAM , this . _localStream ) ;
return videosender . replaceTrack ( stream . getVideoTracks ( ) [ 0 ] ) ;
}
return es6Promise . Promise . reject ( 'video not exist or deviceid not vaild' ) ;
} ) ;
}
switcAudio ( useMic , deviceId ) {
let audioConstraints = false ;
if ( useMic ) {
audioConstraints = new AudioTrackConstraints ( AudioSourceInfo . MIC ) ;
audioConstraints . deviceId = deviceId ;
} else {
audioConstraints = new AudioTrackConstraints ( AudioSourceInfo . SCREENCAST ) ;
}
return MediaStreamFactory . createMediaStream ( new StreamConstraints ( audioConstraints , false ) ) . then ( stream => {
const audiosender = this . pc . getSenders ( ) . find ( e => e . track . kind === 'audio' ) ;
if ( audiosender != null && stream . getAudioTracks ( ) . length > 0 ) {
this . _localStream . removeTrack ( audiosender . track ) ;
this . _localStream . addTrack ( stream . getAudioTracks ( ) [ 0 ] ) ;
// stream change
this . dispatch ( Events$1 . WEBRTC _ON _LOCAL _STREAM , this . _localStream ) ;
return audiosender . replaceTrack ( stream . getAudioTracks ( ) [ 0 ] ) ;
}
return es6Promise . Promise . reject ( 'audio not exist or deviceid not vaild' ) ;
} ) ;
}
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closeDataChannel ( ) {
if ( this . datachannel ) {
this . datachannel . close ( ) ;
this . datachannel = null ;
}
}
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close ( ) {
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this . closeDataChannel ( ) ;
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if ( this . pc ) {
this . pc . close ( ) ;
this . pc = null ;
}
if ( this . options ) {
this . options = null ;
}
if ( this . _localStream ) {
this . _localStream . getTracks ( ) . forEach ( ( track , idx ) => {
track . stop ( ) ;
} ) ;
}
if ( this . _remoteStream ) {
this . _remoteStream . getTracks ( ) . forEach ( ( track , idx ) => {
track . stop ( ) ;
} ) ;
}
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this . _tracks . forEach ( ( track , idx ) => {
track . stop ( ) ;
} ) ;
this . _tracks = [ ] ;
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}
get remoteStream ( ) {
return this . _remoteStream ;
}
get localStream ( ) {
return this . _localStream ;
}
}
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const quickScan = [ {
'label' : '4K(UHD)' ,
'width' : 3840 ,
'height' : 2160
} , {
'label' : '1080p(FHD)' ,
'width' : 1920 ,
'height' : 1080
} , {
'label' : 'UXGA' ,
'width' : 1600 ,
'height' : 1200 ,
'ratio' : '4:3'
} , {
'label' : '720p(HD)' ,
'width' : 1280 ,
'height' : 720
} , {
'label' : 'SVGA' ,
'width' : 800 ,
'height' : 600
} , {
'label' : 'VGA' ,
'width' : 640 ,
'height' : 480
} , {
'label' : '360p(nHD)' ,
'width' : 640 ,
'height' : 360
} , {
'label' : 'CIF' ,
'width' : 352 ,
'height' : 288
} , {
'label' : 'QVGA' ,
'width' : 320 ,
'height' : 240
} , {
'label' : 'QCIF' ,
'width' : 176 ,
'height' : 144
} , {
'label' : 'QQVGA' ,
'width' : 160 ,
'height' : 120
} ] ;
function GetSupportCameraResolutions$1 ( ) {
return new Promise ( function ( resolve , reject ) {
let resolutions = [ ] ;
let ok = 0 ;
let err = 0 ;
for ( let i = 0 ; i < quickScan . length ; ++ i ) {
let videoConstraints = new VideoTrackConstraints ( VideoSourceInfo . CAMERA ) ;
videoConstraints . resolution = new Resolution ( quickScan [ i ] . width , quickScan [ i ] . height ) ;
MediaStreamFactory . createMediaStream ( new StreamConstraints ( false , videoConstraints ) ) . then ( stream => {
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stream . getVideoTracks ( ) . forEach ( track => track . stop ( ) ) ;
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resolutions . push ( quickScan [ i ] ) ;
ok ++ ;
if ( ok + err == quickScan . length ) {
resolve ( resolutions ) ;
}
} ) . catch ( e => {
err ++ ;
if ( ok + err == quickScan . length ) {
resolve ( resolutions ) ;
}
} ) ;
}
} ) ;
}
function GetAllScanResolution$1 ( ) {
return quickScan ;
}
function isSupportResolution$1 ( w , h ) {
return new Promise ( function ( resolve , reject ) {
let videoConstraints = new VideoTrackConstraints ( VideoSourceInfo . CAMERA ) ;
videoConstraints . resolution = new Resolution ( w , h ) ;
MediaStreamFactory . createMediaStream ( new StreamConstraints ( false , videoConstraints ) ) . then ( stream => {
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stream . getVideoTracks ( ) . forEach ( track => track . stop ( ) ) ;
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resolve ( ) ;
} ) . catch ( e => {
reject ( e ) ;
} ) ;
} ) ;
}
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function GetAllMediaDevice$1 ( ) {
return new Promise ( function ( resolve , reject ) {
if ( typeof navigator . mediaDevices != 'object' || typeof navigator . mediaDevices . enumerateDevices != 'function' ) {
reject ( 'enumerateDevices() not supported.' ) ;
} else {
// List cameras and microphones.
navigator . mediaDevices . enumerateDevices ( ) . then ( devices => {
resolve ( devices ) ;
} ) . catch ( err => {
reject ( ` ${ err . name } : ${ err . message } ` ) ;
} ) ;
}
} ) ;
}
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console . log ( 'build date:' , BUILD _DATE ) ;
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console . log ( 'version:' , VERSION$1 ) ;
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const Events = Events$1 ;
const Media = media ;
const Endpoint = RTCEndpoint ;
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const GetSupportCameraResolutions = GetSupportCameraResolutions$1 ;
const GetAllScanResolution = GetAllScanResolution$1 ;
const isSupportResolution = isSupportResolution$1 ;
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const GetAllMediaDevice = GetAllMediaDevice$1 ;
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exports . Endpoint = Endpoint ;
exports . Events = Events ;
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exports . GetAllMediaDevice = GetAllMediaDevice ;
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exports . GetAllScanResolution = GetAllScanResolution ;
exports . GetSupportCameraResolutions = GetSupportCameraResolutions ;
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exports . Media = Media ;
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exports . isSupportResolution = isSupportResolution ;
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Object . defineProperty ( exports , '__esModule' , { value : true } ) ;
return exports ;
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} ) ( { } ) ;
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//# sourceMappingURL=ZLMRTCClient.js.map