See API Reference for a complete list of interfaces available in the hls.js package.
- Getting started
- Fine Tuning
Hls.DefaultConfig get/set
capLevelToPlayerSize
capLevelOnFPSDrop
ignoreDevicePixelRatio
debug
autoStartLoad
startPosition
defaultAudioCodec
initialLiveManifestSize
maxBufferLength
backBufferLength
frontBufferFlushThreshold
maxBufferSize
maxBufferHole
maxStarvationDelay
maxLoadingDelay
lowBufferWatchdogPeriod
(deprecated)highBufferWatchdogPeriod
nudgeOffset
nudgeMaxRetry
maxFragLookUpTolerance
maxMaxBufferLength
liveSyncDurationCount
liveSyncOnStallIncrease
liveMaxLatencyDurationCount
liveSyncDuration
liveMaxLatencyDuration
maxLiveSyncPlaybackRate
liveDurationInfinity
liveBackBufferLength
(deprecated)preferManagedMediaSource
enableWorker
workerPath
enableSoftwareAES
startLevel
fragLoadingTimeOut
/manifestLoadingTimeOut
/levelLoadingTimeOut
(deprecated)fragLoadingMaxRetry
/manifestLoadingMaxRetry
/levelLoadingMaxRetry
(deprecated)fragLoadingMaxRetryTimeout
/manifestLoadingMaxRetryTimeout
/levelLoadingMaxRetryTimeout
(deprecated)fragLoadingRetryDelay
/manifestLoadingRetryDelay
/levelLoadingRetryDelay
(deprecated)fragLoadPolicy
/keyLoadPolicy
/certLoadPolicy
/playlistLoadPolicy
/manifestLoadPolicy
/steeringManifestLoadPolicy
startFragPrefetch
testBandwidth
progressive
lowLatencyMode
fpsDroppedMonitoringPeriod
fpsDroppedMonitoringThreshold
appendErrorMaxRetry
loader
fLoader
pLoader
xhrSetup
fetchSetup
videoPreference
audioPreference
subtitlePreference
abrController
bufferController
capLevelController
fpsController
timelineController
enableDateRangeMetadataCues
enableEmsgMetadataCues
enableID3MetadataCues
enableWebVTT
enableIMSC1
enableCEA708Captions
captionsTextTrack1Label
captionsTextTrack1LanguageCode
captionsTextTrack2Label
captionsTextTrack2LanguageCode
captionsTextTrack3Label
captionsTextTrack3LanguageCode
captionsTextTrack4Label
captionsTextTrack4LanguageCode
renderTextTracksNatively
stretchShortVideoTrack
maxAudioFramesDrift
forceKeyFrameOnDiscontinuity
abrEwmaFastLive
abrEwmaSlowLive
abrEwmaFastVoD
abrEwmaSlowVoD
abrEwmaDefaultEstimate
abrEwmaDefaultEstimateMax
abrBandWidthFactor
abrBandWidthUpFactor
abrMaxWithRealBitrate
minAutoBitrate
emeEnabled
widevineLicenseUrl
(deprecated)licenseXhrSetup
licenseResponseCallback
drmSystems
- `drmSystems[KEY-SYSTEM].generateRequest
drmSystemOptions
requestMediaKeySystemAccessFunc
cmcd
- Video Binding/Unbinding API
- Quality switch Control API
- Version Control
- Network Loading Control API
- Audio Tracks Control API
- Subtitle Tracks Control API
- Live stream API
- Runtime Events
- Creating a Custom Loader
- Errors
- Objects
First include https://cdn.jsdelivr.net/npm/hls.js@1
(or /hls.js
for unminified) in your web page.
<script src="//cdn.jsdelivr.net/npm/hls.js@1"></script>
Invoke the following static method: Hls.isSupported()
to check whether your browser supports MediaSource Extensions with any baseline codecs.
<script src="https://cdn.jsdelivr.net/npm/hls.js@1"></script>
<script>
if (Hls.isSupported()) {
console.log('Hello HLS.js!');
}
</script>
If you want to test for MSE support without testing for baseline codecs, use isMSESupported
:
if (
Hls.isMSESupported() &&
Hls.getMediaSource().isTypeSupported('video/mp4;codecs="av01.0.01M.08"')
) {
console.log('Hello AV1 playback! AVC who?');
}
Let's
- create a
<video>
element - create a new HLS object
- bind video element to this HLS object
<script src="https://cdn.jsdelivr.net/npm/hls.js@1"></script>
<video id="video"></video>
<script>
if (Hls.isSupported()) {
var video = document.getElementById('video');
// If you are using the ESM version of the library (hls.mjs), you
// should specify the "workerPath" config option here if you want
// web workers to be used. Note that bundlers (such as webpack)
// will likely use the ESM version by default.
var hls = new Hls();
// bind them together
hls.attachMedia(video);
// MEDIA_ATTACHED event is fired by hls object once MediaSource is ready
hls.on(Hls.Events.MEDIA_ATTACHED, function () {
console.log('video and hls.js are now bound together !');
});
}
</script>
You need to provide manifest URL as below:
<script src="https://cdn.jsdelivr.net/npm/hls.js@1"></script>
<video id="video"></video>
<script>
if (Hls.isSupported()) {
var video = document.getElementById('video');
var hls = new Hls();
hls.on(Hls.Events.MEDIA_ATTACHED, function () {
console.log('video and hls.js are now bound together !');
});
hls.on(Hls.Events.MANIFEST_PARSED, function (event, data) {
console.log(
'manifest loaded, found ' + data.levels.length + ' quality level',
);
});
hls.loadSource('http://my.streamURL.com/playlist.m3u8');
// bind them together
hls.attachMedia(video);
}
</script>
Video is controlled through HTML <video>
element.
HTMLVideoElement control and events could be used seamlessly.
video.play();
All errors are signalled through a unique single event.
Each error is categorized by an error type, error details, and whether or not is is fatal
:
- Error Types:
Hls.ErrorTypes.NETWORK_ERROR
for network related errorsHls.ErrorTypes.MEDIA_ERROR
for media/video related errorsHls.ErrorTypes.KEY_SYSTEM_ERROR
for EME related errorsHls.ErrorTypes.MUX_ERROR
for demuxing/remuxing related errorsHls.ErrorTypes.OTHER_ERROR
for all other errors
- Error Details:
- refer to Errors details
- Error is
fatal
:false
if error is not fatal, hls.js will try to recover.true
if error is fatal, all attempts to recover have been performed. See LoadPolicies details on how to configure retries.
Full details are described below
See sample code below to listen to errors:
hls.on(Hls.Events.ERROR, function (event, data) {
var errorType = data.type;
var errorDetails = data.details;
var errorFatal = data.fatal;
switch (data.details) {
case Hls.ErrorDetails.FRAG_LOAD_ERROR:
// ....
break;
default:
break;
}
});
hls.js provides means to 'try to' recover fatal media errors, through these methods:
Should be invoked to recover media error.
hls.on(Hls.Events.ERROR, function (event, data) {
if (data.fatal) {
switch (data.type) {
case Hls.ErrorTypes.MEDIA_ERROR:
console.log('fatal media error encountered, try to recover');
hls.recoverMediaError();
break;
case Hls.ErrorTypes.NETWORK_ERROR:
console.error('fatal network error encountered', data);
// All retries and media options have been exhausted.
// Immediately trying to restart loading could cause loop loading.
// Consider modifying loading policies to best fit your asset and network
// conditions (manifestLoadPolicy, playlistLoadPolicy, fragLoadPolicy).
break;
default:
// cannot recover
hls.destroy();
break;
}
}
});
If media error are still raised after calling hls.recoverMediaError()
,
calling this method, could be useful to workaround audio codec mismatch.
the workflow should be:
on First Media Error : call hls.recoverMediaError()
if another Media Error is raised 'quickly' after this first Media Error : first call hls.swapAudioCodec()
, then call hls.recoverMediaError()
.
hls.destroy()
should be called to free used resources and destroy hls context.
Configuration parameters could be provided to hls.js upon instantiation of Hls
object.
var config = {
autoStartLoad: true,
startPosition: -1,
debug: false,
capLevelOnFPSDrop: false,
capLevelToPlayerSize: false,
defaultAudioCodec: undefined,
initialLiveManifestSize: 1,
maxBufferLength: 30,
maxMaxBufferLength: 600,
backBufferLength: Infinity,
frontBufferFlushThreshold: Infinity,
maxBufferSize: 60 * 1000 * 1000,
maxBufferHole: 0.1,
highBufferWatchdogPeriod: 2,
nudgeOffset: 0.1,
nudgeMaxRetry: 3,
maxFragLookUpTolerance: 0.25,
liveSyncDurationCount: 3,
liveSyncOnStallIncrease: 1,
liveMaxLatencyDurationCount: Infinity,
liveDurationInfinity: false,
preferManagedMediaSource: false,
enableWorker: true,
enableSoftwareAES: true,
fragLoadPolicy: {
default: {
maxTimeToFirstByteMs: 9000,
maxLoadTimeMs: 100000,
timeoutRetry: {
maxNumRetry: 2,
retryDelayMs: 0,
maxRetryDelayMs: 0,
},
errorRetry: {
maxNumRetry: 5,
retryDelayMs: 3000,
maxRetryDelayMs: 15000,
backoff: 'linear',
},
},
},
startLevel: undefined,
audioPreference: {
characteristics: 'public.accessibility.describes-video',
},
subtitlePreference: {
lang: 'en-US',
},
startFragPrefetch: false,
testBandwidth: true,
progressive: false,
lowLatencyMode: true,
fpsDroppedMonitoringPeriod: 5000,
fpsDroppedMonitoringThreshold: 0.2,
appendErrorMaxRetry: 3,
loader: customLoader,
fLoader: customFragmentLoader,
pLoader: customPlaylistLoader,
xhrSetup: XMLHttpRequestSetupCallback,
fetchSetup: FetchSetupCallback,
abrController: AbrController,
bufferController: BufferController,
capLevelController: CapLevelController,
fpsController: FPSController,
timelineController: TimelineController,
enableDateRangeMetadataCues: true,
enableEmsgMetadataCues: true,
enableID3MetadataCues: true,
enableWebVTT: true,
enableIMSC1: true,
enableCEA708Captions: true,
stretchShortVideoTrack: false,
maxAudioFramesDrift: 1,
forceKeyFrameOnDiscontinuity: true,
abrEwmaFastLive: 3.0,
abrEwmaSlowLive: 9.0,
abrEwmaFastVoD: 3.0,
abrEwmaSlowVoD: 9.0,
abrEwmaDefaultEstimate: 500000,
abrEwmaDefaultEstimateMax: 5000000,
abrBandWidthFactor: 0.95,
abrBandWidthUpFactor: 0.7,
abrMaxWithRealBitrate: false,
maxStarvationDelay: 4,
maxLoadingDelay: 4,
minAutoBitrate: 0,
emeEnabled: false,
licenseXhrSetup: undefined,
drmSystems: {},
drmSystemOptions: {},
requestMediaKeySystemAccessFunc: requestMediaKeySystemAccess,
cmcd: {
sessionId: uuid(),
contentId: hash(contentURL),
useHeaders: false,
},
};
var hls = new Hls(config);
This getter/setter allows retrieval and override of the Hls default configuration. This configuration will be applied by default to all instances.
(default: false
)
- if set to true, the adaptive algorithm with limit levels usable in auto-quality by the HTML video element dimensions (width and height).
If dimensions between multiple levels are equal, the cap is chosen as the level with the greatest bandwidth.
In some devices, the video element dimensions will be multiplied by the device pixel ratio.
Use
ignoreDevicePixelRatio
for a strict level limitation based on the size of the video element. - if set to false, levels will not be limited. All available levels could be used in auto-quality mode taking only bandwidth into consideration.
(default: false
)
- when set to true, if the number of dropped frames over the period
config.fpsDroppedMonitoringPeriod
exceeds the ratio set byconfig.fpsDroppedMonitoringThreshold
, then the quality level is dropped and capped at this lower level. - when set to false, levels will not be limited. All available levels could be used in auto-quality mode taking only bandwidth into consideration.
(default: false
)
- when set to true, calculations related to player size will ignore browser
devicePixelRatio
. - when set to false, calculations related to player size will respect browser
devicePixelRatio
.
(default: false
)
Setting config.debug = true;
will turn on debug logs on JS console.
A logger object could also be provided for custom logging: config.debug = customLogger;
.
(default: true
)
- if set to true, start level playlist and first fragments will be loaded automatically, after triggering of
Hls.Events.MANIFEST_PARSED
event - if set to false, an explicit API call (
hls.startLoad(startPosition=-1)
) will be needed to start quality level/fragment loading.
(default -1)
- if set to -1, playback will start from initialTime=0 for VoD and according to
liveSyncDuration/liveSyncDurationCount
config params for Live - Otherwise, playback will start from predefined value. (unless stated otherwise in
autoStartLoad=false
mode : in that case startPosition can be overridden usinghls.startLoad(startPosition)
).
(default: undefined
)
If audio codec is not signaled in variant manifest, or if only a stream manifest is provided, hls.js tries to guess audio codec by parsing audio sampling rate in ADTS header. If sampling rate is less or equal than 22050 Hz, then hls.js assumes it is HE-AAC, otherwise it assumes it is AAC-LC. This could result in bad guess, leading to audio decode error, ending up in media error. It is possible to hint default audiocodec to hls.js by configuring this value as below:
mp4a.40.2
(AAC-LC) ormp4a.40.5
(HE-AAC) orundefined
(guess based on sampling rate)
(default 1)
number of segments needed to start a playback of Live stream. Buffering will begin after N chunks are available in the current playlist. If you want playback to begin liveSyncDurationCount
chunks from the live edge at the beginning of a stream, set initialLiveManifestSize
to liveSyncDurationCount
or higher.
(default: 30
seconds)
Maximum buffer length in seconds. If buffer length is/become less than this value, a new fragment will be loaded. This is the guaranteed buffer length hls.js will try to reach, regardless of maxBufferSize.
(default: Infinity
)
The maximum duration of buffered media to keep once it has been played, in seconds. Any video buffered past this duration will be evicted. Infinity
means no restriction on back buffer length; 0
keeps the minimum amount. The minimum amount is equal to the target duration of a segment to ensure that current playback is not interrupted. Keep in mind, the browser can and does evict media from the buffer on its own, so with the Infinity
setting, hls.js will let the browser do what it needs to do. (Ref: the MSE spec under coded frame eviction).
(default: Infinity
)
The maximum duration of buffered media, in seconds, from the play position to keep before evicting non-contiguous forward ranges. A value of Infinity
means no active eviction will take place; This value will always be at least the maxBufferLength
.
(default: 60 MB)
'Minimum' maximum buffer size in bytes. If buffer size upfront is bigger than this value, no fragment will be loaded.
(default: 0.1
seconds)
'Maximum' inter-fragment buffer hole tolerance that hls.js can cope with when searching for the next fragment to load. When switching between quality level, fragments might not be perfectly aligned. This could result in small overlapping or hole in media buffer. This tolerance factor helps cope with this.
(default 4s)
ABR algorithm will always try to choose a quality level that should avoid rebuffering.
In case no quality level with this criteria can be found (lets say for example that buffer length is 1s,
but fetching a fragment at lowest quality is predicted to take around 2s ... ie we can forecast around 1s of rebuffering ...)
then ABR algorithm will try to find a level that should guarantee less than maxStarvationDelay
of buffering.
(default 4s)
max video loading delay used in automatic start level selection : in that mode ABR controller will ensure that video loading time
(ie the time to fetch the first fragment at lowest quality level + the time to fetch the fragment at the appropriate quality level is less than maxLoadingDelay
)
lowBufferWatchdogPeriod
has been deprecated. Use highBufferWatchdogPeriod
instead.
(default 3s)
if media element is expected to play and if currentTime has not moved for more than highBufferWatchdogPeriod
and if there are more than maxBufferHole
seconds buffered upfront, hls.js will jump buffer gaps, or try to nudge playhead to recover playback
(default 0.1s)
In case playback continues to stall after first playhead nudging, currentTime will be nudged evenmore following nudgeOffset to try to restore playback. media.currentTime += (nb nudge retry -1)*nudgeOffset
(default 3)
Max nb of nudge retries before hls.js raise a fatal BUFFER_STALLED_ERROR
(default 0.25s)
This tolerance factor is used during fragment lookup. Instead of checking whether buffered.end is located within [start, end] range, frag lookup will be done by checking within [start-maxFragLookUpTolerance, end-maxFragLookUpTolerance] range.
This tolerance factor is used to cope with situations like:
buffered.end = 9.991
frag[0] : [0,10]
frag[1] : [10,20]
buffered.end
is within frag[0]
range, but as we are close to frag[1]
, frag[1]
should be choosen instead
If maxFragLookUpTolerance = 0.2
, this lookup will be adjusted to
frag[0] : [-0.2,9.8]
frag[1] : [9.8,19.8]
This time, buffered.end
is within frag[1]
range, and frag[1]
will be the next fragment to be loaded, as expected.
(default 600s)
Maximum buffer length in seconds. Hls.js will never exceed this value, even if maxBufferSize
is not reached yet.
hls.js tries to buffer up to a maximum number of bytes (60 MB by default) rather than to buffer up to a maximum nb of seconds. this is to mimic the browser behaviour (the buffer eviction algorithm is starting after the browser detects that video buffer size reaches a limit in bytes)
maxBufferLength
is the minimum guaranteed buffer length that hls.js will try to achieve, even if that value exceeds the amount of bytes 60 MB of memory.
maxMaxBufferLength
acts as a capping value, as if bitrate is really low, you could need more than one hour of buffer to fill 60 MB.
(default: 3
)
edge of live delay, expressed in multiple of EXT-X-TARGETDURATION
.
if set to 3, playback will start from fragment N-3, N being the last fragment of the live playlist.
decreasing this value is likely to cause playback stalls.
(default: 1
)
increment to the calculated hls.targetLatency
on each playback stall, expressed in seconds.
When liveSyncDuration
is specified in config,
hls.targetLatency
is calculated as liveSyncDuration
plus liveSyncOnStallIncrease
multiplied by number of stalls.
Otherwise hls.targetLatency
is calculated as liveSyncDurationCount
multiplied by EXT-X-TARGETDURATION
plus liveSyncOnStallIncrease
multiplied by number of stalls.
Decreasing this value will mean that each stall will have less affect on hls.targetLatency
.
(default: Infinity
)
maximum delay allowed from edge of live, expressed in multiple of EXT-X-TARGETDURATION
.
if set to 10, the player will seek back to liveSyncDurationCount
whenever the next fragment to be loaded is older than N-10, N being the last fragment of the live playlist.
If set, this value must be stricly superior to liveSyncDurationCount
a value too close from liveSyncDurationCount
is likely to cause playback stalls.
(default: undefined
)
Alternative parameter to liveSyncDurationCount
, expressed in seconds vs number of segments.
If defined in the configuration object, liveSyncDuration
will take precedence over the default liveSyncDurationCount
.
You can't define this parameter and either liveSyncDurationCount
or liveMaxLatencyDurationCount
in your configuration object at the same time.
A value too low (inferior to ~3 segment durations) is likely to cause playback stalls.
(default: undefined
)
Alternative parameter to liveMaxLatencyDurationCount
, expressed in seconds vs number of segments.
If defined in the configuration object, liveMaxLatencyDuration
will take precedence over the default liveMaxLatencyDurationCount
.
If set, this value must be stricly superior to liveSyncDuration
which must be defined as well.
You can't define this parameter and either liveSyncDurationCount
or liveMaxLatencyDurationCount
in your configuration object at the same time.
A value too close from liveSyncDuration
is likely to cause playback stalls.
(default: 1
min: 1
max: 2
)
When set to a value greater than 1
, the latency-controller will adjust video.playbackRate
up to maxLiveSyncPlaybackRate
to catch up to target latency in a live stream. hls.targetLatency
is based on liveSyncDuration|Count
or manifest PART-|HOLD-BACK.
Defaults to 1
, which disables playback rate adjustment. Set maxLiveSyncPlaybackRate
to a value greater than 1
to enable playback rate adjustment at the live edge.
(default: false
)
Override current Media Source duration to Infinity
for a live broadcast.
Useful, if you are building a player which relies on native UI capabilities in modern browsers.
If you want to have a native Live UI in environments like iOS Safari, Safari, Android Google Chrome, etc. set this value to true
.
liveBackBufferLength
has been deprecated. Use backBufferLength
instead.
(default true
)
HLS.js uses the Managed Media Source API (ManagedMediaSource
global) instead of the MediaSource
global by default when present. Setting this to false
will only use ManagedMediaSource
when MediaSource
is undefined.
(default: true
)
Enable WebWorker (if available on browser) for TS demuxing/MP4 remuxing, to improve performance and avoid lag/frame drops.
(default: null
)
Provide a path to hls.worker.js as an alternative to injecting the worker based on the iife library wrapper function. When workerPath
is defined as a string, the transmuxer interface will initialize a WebWorker using the resolved workerPath
URL.
When using the ESM version of the library (hls.mjs), this option is required in order for web workers to be used.
(default: true
)
Enable to use JavaScript version AES decryption for fallback of WebCrypto API.
(default: undefined
)
When set, use this level as the default hls.startLevel
. Keep in mind that the startLevel
set with the API takes precedence over config.startLevel configuration parameter. startLevel
should be set to value between 0 and the maximum index of hls.levels
.
(default: 20000ms for fragment / 10000ms for level and manifest)
x-LoadingTimeOut settings have been deprecated. Use one of the LoadPolicy settings instead.
(default: 6
/ 1
/ 4
)
x-LoadingMaxRetry settings have been deprecated. Use one of the LoadPolicy settings instead.
fragLoadingMaxRetryTimeout
/ manifestLoadingMaxRetryTimeout
/ levelLoadingMaxRetryTimeout
(deprecated)
(default: 64000
ms)
x-LoadingMaxRetryTimeout settings have been deprecated. Use one of the LoadPolicy settings instead.
Maximum frag/manifest/key retry timeout (in milliseconds).
This value is used as capping value for exponential grow of loading retry delays
, i.e. the retry delay can not be bigger than this value, but overall time will be based on the overall number of retries.
(default: 1000
ms)
x-LoadingRetryDelay settings have been deprecated. Use one of the LoadPolicy settings instead.
Initial delay between XMLHttpRequest
error and first load retry (in ms).
Any I/O error will trigger retries every 500ms,1s,2s,4s,8s, ... capped to fragLoadingMaxRetryTimeout
/ manifestLoadingMaxRetryTimeout
/ levelLoadingMaxRetryTimeout
value (exponential backoff).
fragLoadPolicy
/ keyLoadPolicy
/ certLoadPolicy
/ playlistLoadPolicy
/ manifestLoadPolicy
/ steeringManifestLoadPolicy
LoadPolicies specify the default settings for request timeouts and the timing and number of retries after a request error or timeout for a particular type of asset.
manifestLoadPolicy
: TheLoadPolicy
for Multivariant Playlist requestsplaylistLoadPolicy
: TheLoadPolicy
for Media Playlist requestsfragLoadPolicy
: TheLoadPolicy
for Segment and Part* requestskeyLoadPolicy
: TheLoadPolicy
for Key requestscertLoadPolicy
: TheLoadPolicy
for License Server certificate requestssteeringManifestLoadPolicy
: TheLoadPolicy
for Content Steering manifest requests
*Some timeout settings are adjusted for Low-Latency Part requests based on Part duration or target.
Each LoadPolicy
contains a set of contexts. The default
property is the only context supported at this time. It contains the LoaderConfig
for that asset type. Future releases may include support for other policy contexts besides default
.
HLS.js config defines the following default policies. Each can be overridden on player instantiation in the user configuration:
manifestLoadPolicy: {
default: {
maxTimeToFirstByteMs: Infinity,
maxLoadTimeMs: 20000,
timeoutRetry: {
maxNumRetry: 2,
retryDelayMs: 0,
maxRetryDelayMs: 0,
},
errorRetry: {
maxNumRetry: 1,
retryDelayMs: 1000,
maxRetryDelayMs: 8000,
},
},
},
playlistLoadPolicy: {
default: {
maxTimeToFirstByteMs: 10000,
maxLoadTimeMs: 20000,
timeoutRetry: {
maxNumRetry: 2,
retryDelayMs: 0,
maxRetryDelayMs: 0,
},
errorRetry: {
maxNumRetry: 2,
retryDelayMs: 1000,
maxRetryDelayMs: 8000,
},
},
},
fragLoadPolicy: {
default: {
maxTimeToFirstByteMs: 10000,
maxLoadTimeMs: 120000,
timeoutRetry: {
maxNumRetry: 4,
retryDelayMs: 0,
maxRetryDelayMs: 0,
},
errorRetry: {
maxNumRetry: 6,
retryDelayMs: 1000,
maxRetryDelayMs: 8000,
},
},
},
keyLoadPolicy: {
default: {
maxTimeToFirstByteMs: 8000,
maxLoadTimeMs: 20000,
timeoutRetry: {
maxNumRetry: 1,
retryDelayMs: 1000,
maxRetryDelayMs: 20000,
backoff: 'linear',
},
errorRetry: {
maxNumRetry: 8,
retryDelayMs: 1000,
maxRetryDelayMs: 20000,
backoff: 'linear',
},
},
},
certLoadPolicy: {
default: {
maxTimeToFirstByteMs: 8000,
maxLoadTimeMs: 20000,
timeoutRetry: null,
errorRetry: null,
},
},
steeringManifestLoadPolicy: {
default: {
maxTimeToFirstByteMs: 10000,
maxLoadTimeMs: 20000,
timeoutRetry: {
maxNumRetry: 2,
retryDelayMs: 0,
maxRetryDelayMs: 0,
},
errorRetry: {
maxNumRetry: 1,
retryDelayMs: 1000,
maxRetryDelayMs: 8000,
},
}
}
Each LoaderConfig
has the following properties:
Maximum time-to-first-byte in milliseconds. If no bytes or readyState change happens in this time, a network timeout error will be triggered for the asset.
Non-finite values and 0 will be ignored, resulting in only a single maxLoadTimeMs
timeout timer for the entire request.
Maximum time to load the asset in milliseconds. If the request is not completed in time, a network timeout error will be triggered for the asset.
Retry rules for timeout errors. Specifying null results in no retries after a timeout error for the asset type.
Retry rules for network I/O errors. Specifying null results in no retries after a timeout error for the asset type.
Each RetryConfig
has the following properties:
Maximum number of retries. After an error, the request will be retried this many times before other recovery measures are taken. For example, after having retried a segment or playlist request this number of times*, if it continues to error, the player will try switching to another level or fall back to another Pathway to recover playback.
When no valid recovery options are available, the error will escalate to fatal, and the player will stop loading all media and asset types.
*Requests resulting in a stall may trigger a level switch before all retries are performed.
The time to wait before performing a retry in milliseconds. Delays are added to prevent the player from overloading servers having trouble responding to requests.
Retry delay = 2^retryCount _ retryDelayMs (exponential) or retryCount _ retryDelayMs (linear)
Maximum delay between retries in milliseconds. With each retry, the delay is increased up to maxRetryDelayMs
.
Used to determine retry backoff duration: Retry delay = 2^retryCount * retryDelayMs (exponential).
(default: internal shouldRetry function, type: (retryConfig: RetryConfig | null | undefined, retryCount: number, isTimeout: boolean, httpStatus: number | undefined,retry: boolean) => boolean
)
Override default shouldRetry check
(default: false
)
Start prefetching start fragment although media not attached yet.
(default: true
)
You must also set startLevel = -1
for this to have any impact. Otherwise, hls.js will load the first level in the manifest and start playback from there. If you do set startLevel = -1
, a fragment of the lowest level will be downloaded to establish a bandwidth estimate before selecting the first auto-level.
Disable this test if you'd like to provide your own estimate or use the default abrEwmaDefaultEstimate
.
(default: false
)
Enable streaming segment data with fetch loader (experimental).
(default: true
)
Enable Low-Latency HLS part playlist and segment loading, and start live streams at playlist PART-HOLD-BACK rather than HOLD-BACK.
(default: 5000)
The period used by the default fpsController
to observe fpsDroppedMonitoringThreshold
.
(default: 0.2)
The ratio of frames dropped to frames elapsed within fpsDroppedMonitoringPeriod
needed for the default fpsController
to emit an FPS_DROP
event.
(default: 3
)
Max number of sourceBuffer.appendBuffer()
retry upon error.
Such error could happen in loop with UHD streams, when internal buffer is full. (Quota Exceeding Error will be triggered). In that case we need to wait for the browser to evict some data before being able to append buffer correctly.
(default: standard XMLHttpRequest
-based URL loader)
Override standard URL loader by a custom one. Use composition and wrap internal implementation which could be exported by Hls.DefaultConfig.loader
.
Could be useful for P2P or stubbing (testing).
Use this, if you want to overwrite both the fragment and the playlist loader.
Note: If fLoader
or pLoader
are used, they overwrite loader
!
var customLoader = function () {
/**
* Calling load() will start retrieving content located at given URL (HTTP GET).
*
* @param {object} context - loader context
* @param {string} context.url - target URL
* @param {string} context.responseType - loader response type (arraybuffer or default response type for playlist)
* @param {number} [context.rangeStart] - start byte range offset
* @param {number} [context.rangeEnd] - end byte range offset
* @param {Boolean} [context.progressData] - true if onProgress should report partial chunk of loaded content
* @param {object} config - loader config params
* @param {number} config.maxRetry - Max number of load retries
* @param {number} config.timeout - Timeout after which `onTimeOut` callback will be triggered (if loading is still not finished after that delay)
* @param {number} config.retryDelay - Delay between an I/O error and following connection retry (ms). This to avoid spamming the server
* @param {number} config.maxRetryDelay - max connection retry delay (ms)
* @param {object} callbacks - loader callbacks
* @param {onSuccessCallback} callbacks.onSuccess - Callback triggered upon successful loading of URL.
* @param {onProgressCallback} callbacks.onProgress - Callback triggered while loading is in progress.
* @param {onErrorCallback} callbacks.onError - Callback triggered if any I/O error is met while loading fragment.
* @param {onTimeoutCallback} callbacks.onTimeout - Callback triggered if loading is still not finished after a certain duration.
@callback onSuccessCallback
@param response {object} - response data
@param response.url {string} - response URL (which might have been redirected)
@param response.data {string/arraybuffer/sharedarraybuffer} - response data (reponse type should be as per context.responseType)
@param stats {LoadStats} - loading stats
@param stats.aborted {boolean} - must be set to true once the request has been aborted
@param stats.loaded {number} - nb of loaded bytes
@param stats.total {number} - total nb of bytes
@param stats.retry {number} - number of retries performed
@param stats.chunkCount {number} - number of chunk progress events
@param stats.bwEstimate {number} - download bandwidth in bits/s
@param stats.loading { start: 0, first: 0, end: 0 }
@param stats.parsing { start: 0, end: 0 }
@param stats.buffering { start: 0, first: 0, end: 0 }
@param context {object} - loader context
@param networkDetails {object} - loader network details (the xhr for default loaders)
@callback onProgressCallback
@param stats {LoadStats} - loading stats
@param context {object} - loader context
@param data {string/arraybuffer/sharedarraybuffer} - onProgress data (should be defined only if context.progressData === true)
@param networkDetails {object} - loader network details (the xhr for default loaders)
@callback onErrorCallback
@param error {object} - error data
@param error.code {number} - error status code
@param error.text {string} - error description
@param context {object} - loader context
@param networkDetails {object} - loader network details (the xhr for default loaders)
@callback onTimeoutCallback
@param stats {LoadStats} - loading stats
@param context {object} - loader context
*/
this.load = function (context, config, callbacks) {};
/** Abort any loading in progress. */
this.abort = function () {};
/** Destroy loading context. */
this.destroy = function () {};
};
(default: undefined
)
This enables the manipulation of the fragment loader.
Note: This will overwrite the default loader
, as well as your own loader function (see above).
var customFragmentLoader = function () {
// See `loader` for details.
};
(default: undefined
)
This enables the manipulation of the playlist loader.
Note: This will overwrite the default loader
, as well as your own loader function (see above).
var customPlaylistLoader = function () {
// See `loader` for details.
};
if you want to just make slight adjustments to existing loader implementation, you can also eventually override it, see an example below :
// special playlist post processing function
function process(playlist) {
return playlist;
}
class pLoader extends Hls.DefaultConfig.loader {
constructor(config) {
super(config);
var load = this.load.bind(this);
this.load = function (context, config, callbacks) {
if (context.type == 'manifest') {
var onSuccess = callbacks.onSuccess;
callbacks.onSuccess = function (response, stats, context) {
response.data = process(response.data);
onSuccess(response, stats, context);
};
}
load(context, config, callbacks);
};
}
}
var hls = new Hls({
pLoader: pLoader,
});
(default: undefined
)
XMLHttpRequest
customization callback for default XHR based loader.
xhrSetup
should be a function with two arguments (xhr: XMLHttpRequest, url: string)
.
If xhrSetup
is specified, the default loader will invoke it before calling xhr.send()
.
This allows users to easily modify the XMLHttpRequest
instance before sending a request.
Optionally, a Promise can be returned to wait before the request is sent.
Note that xhr.open()
should be called in xhrSetup
if the callback modifies the XMLHttpRequest
instance in ways that require it to be opened first. If xhrSetup
throws,
the error will be caught, and xhrSetup
will be called a second time after opening a GET
request.
var config = {
xhrSetup: function (xhr, url) {
xhr.withCredentials = true; // do send cookies
},
};
(default: undefined
)
Fetch
customization callback for Fetch based loader.
Parameter should be a function with two arguments (context
and Request Init Params
).
If fetchSetup
is specified and Fetch loader is used, fetchSetup
will be triggered to instantiate Request Object.
This allows user to easily tweak Fetch loader. See example below.
var config = {
fetchSetup: function (context, initParams) {
// Always send cookies, even for cross-origin calls.
initParams.credentials = 'include';
return new Request(context.url, initParams);
},
};
(default undefined
)
These settings determine whether HDR video should be selected before SDR video. Which VIDEO-RANGE values are allowed, and in what order of priority can also be specified.
Format { preferHDR: boolean, allowedVideoRanges: ('SDR' | 'PQ' | 'HLG')[] }
- Allow all video ranges if
allowedVideoRanges
is unspecified. - If
preferHDR
is defined, use the value to filterallowedVideoRanges
. - Else check window for HDR support and set
preferHDR
to the result.
When preferHDR
is set, skip checking if the window supports HDR and instead use the value provided to determine level selection preference via dynamic range. A value of preferHDR === true
will attempt to use HDR levels before selecting from SDR levels.
allowedVideoRanges
can restrict playback to a limited set of VIDEO-RANGE transfer functions and set their priority for selection. For example, to ignore all HDR variants, set allowedVideoRanges
to ['SDR']
. Or, to ignore all HLG variants, set allowedVideoRanges
to ['SDR', 'PQ']
. To prioritize PQ variants over HLG, set allowedVideoRanges
to ['SDR', 'HLG', 'PQ']
.
(default: undefined
)
Set a preference used to find and select the best matching audio track on start. The selection can influence starting level selection based on the audio group(s) available to match the preference. audioPreference
accepts a value of an audio track object (MediaPlaylist), AudioSelectionOption (track fields to match), or undefined. If not set or set to a value of undefined
, HLS.js will auto select a default track on start.
(default: undefined
)
Set a preference used to find and select the best matching subtitle track on start. subtitlePreference
accepts a value of a subtitle track object (MediaPlaylist), SubtitleSelectionOption (track fields to match), or undefined. If not set or set to a value of undefined
, HLS.js will not enable subtitles unless there is a default or forced option.
(default: internal ABR controller)
Customized Adaptive Bitrate Streaming Controller.
Parameter should be a class providing a getter/setter and a destroy()
method:
- get/set
nextAutoLevel
: return next auto-quality level/force next auto-quality level that should be returned (currently used for emergency switch down) destroy()
: should clean-up all used resources
For hls.bandwidthEstimate()
to return an estimate from your custom controller, it will also need to satisfy abrController.bwEstimator.getEstimate()
.
(default: internal buffer controller)
Customized buffer controller.
A class in charge of managing SourceBuffers.
(default: internal cap level controller)
Customized level capping controller.
A class in charge of setting hls.autoLevelCapping
to limit ABR level selection based on player size.
Enable the default cap level controller by setting capLevelToPlayerSize
to true
.
(default: internal fps controller)
Customized fps controller.
A class in charge of monitoring frame rate, that emits FPS_DROP
events when frames dropped exceeds configured threshold.
Enable the default fps controller by setting capLevelOnFPSDrop
to true
.
(default: internal track timeline controller)
Customized text track synchronization controller.
Parameter should be a class with a destroy()
method:
destroy()
: should clean-up all used resources
(default: true
)
whether or not to add, update, and remove cues from the metadata TextTrack for EXT-X-DATERANGE playlist tags
parameter should be a boolean
(default: true
)
whether or not to add, update, and remove cues from the metadata TextTrack for ID3 Timed Metadata found in CMAF Event Message (emsg) boxes
parameter should be a boolean
(default: true
)
whether or not to add, update, and remove cues from the metadata TextTrack for ID3 Timed Metadata found in audio and MPEG-TS containers
parameter should be a boolean
(default: true
)
whether or not to enable WebVTT captions on HLS
parameter should be a boolean
(default: true
)
whether or not to enable IMSC1 captions on HLS
parameter should be a boolean
(default: true
)
whether or not to enable CEA-708 captions
parameter should be a boolean
(default: English
)
Label for the text track generated for CEA-708 captions track 1. This is how it will appear in the browser's native menu for subtitles and captions.
parameter should be a string
(default: en
)
RFC 3066 language code for the text track generated for CEA-708 captions track 1.
parameter should be a string
(default: Spanish
)
Label for the text track generated for CEA-708 captions track 2. This is how it will appear in the browser's native menu for subtitles and captions.
parameter should be a string
(default: es
)
RFC 3066 language code for the text track generated for CEA-708 captions track 2.
parameter should be a string
(default: Unknown CC
)
Label for the text track generated for CEA-708 captions track 3. This is how it will appear in the browser's native menu for subtitles and captions.
parameter should be a string
(default: ``)
RFC 3066 language code for the text track generated for CEA-708 captions track 3.
parameter should be a string
(default: Unknown CC
)
Label for the text track generated for CEA-708 captions track 4. This is how it will appear in the browser's native menu for subtitles and captions.
parameter should be a string
(default: ``)
RFC 3066 language code for the text track generated for CEA-708 captions track 4.
parameter should be a string
(default: true
)
Whether or not render captions natively using the HTMLMediaElement's TextTracks. Disable native captions rendering
when you want to handle rending of track and track cues using Hls.Events.NON_NATIVE_TEXT_TRACKS_FOUND
and Hls.Events.CUES_PARSED
events.
parameter should be a boolean
(default: false
)
If a segment's video track is shorter than its audio track by > maxBufferHole
, extend the final video frame's duration to match the audio track's duration.
This helps playback continue in certain cases that might otherwise get stuck.
parameter should be a boolean
(default: 1
)
Browsers are really strict about audio frames timings. They usually play audio frames one after the other, regardless of the timestamps advertised in the fmp4. If audio timestamps are not consistent (consecutive audio frames too close or too far from each other), audio will easily drift. hls.js is restamping audio frames so that the distance between consecutive audio frame remains constant. if the distance is larger than the max allowed drift, hls.js will either
- drop the next audio frame if distance is too small (if next audio frame timestamp is smaller than expected time stamp - max allowed drift)
- insert silent frames if distance is too big (next audio frame timestamp is bigger than expected timestamp + max allowed drift)
parameter should be an integer representing the max number of audio frames allowed to drift. keep in mind that one audio frame is 1024 audio samples (if using AAC), at 44.1 kHz, it gives 1024/44100 = 23ms
(default: true
)
Whether or not to force having a key frame in the first AVC sample after a discontinuity. If set to true, after a discontinuity, the AVC samples without any key frame will be dropped until finding one that contains a key frame. If set to false, all AVC samples will be kept, which can help avoid holes in the stream. Setting this parameter to false can also generate decoding weirdness when switching level or seeking.
parameter should be a boolean
(default: 3.0
)
Fast bitrate Exponential moving average half-life, used to compute average bitrate for Live streams. Half of the estimate is based on the last abrEwmaFastLive seconds of sample history. Each of the sample is weighted by the fragment loading duration.
parameter should be a float greater than 0
(default: 9.0
)
Slow bitrate Exponential moving average half-life, used to compute average bitrate for Live streams. Half of the estimate is based on the last abrEwmaSlowLive seconds of sample history. Each of the sample is weighted by the fragment loading duration.
parameter should be a float greater than abrEwmaFastLive
(default: 3.0
)
Fast bitrate Exponential moving average half-life, used to compute average bitrate for VoD streams. Half of the estimate is based on the last abrEwmaFastVoD seconds of sample history. Each of the sample is weighted by the fragment loading duration.
parameter should be a float greater than 0
(default: 9.0
)
Slow bitrate Exponential moving average half-life, used to compute average bitrate for VoD streams. Half of the estimate is based on the last abrEwmaSlowVoD seconds of sample history. Each of the sample is weighted by the fragment loading duration.
parameter should be a float greater than abrEwmaFastVoD
(default: 500000
)
Default bandwidth estimate in bits/s prior to collecting fragment bandwidth samples.
(default: 5000000
)
Limits value of updated bandwidth estimate taken from first variant found in multivariant playlist on start.
(default: 0.95
)
Scale factor to be applied against measured bandwidth average, to determine whether we can stay on current or lower quality level.
If abrBandWidthFactor * bandwidth average > level.bitrate
then ABR can switch to that level providing that it is equal or less than current level.
(default: 0.7
)
Scale factor to be applied against measured bandwidth average, to determine whether we can switch up to a higher quality level.
If abrBandWidthUpFactor * bandwidth average > level.bitrate
then ABR can switch up to that quality level.
(default: false
)
max bitrate used in ABR by avg measured bitrate
i.e. if bitrate signaled in variant manifest for a given level is 2Mb/s but average bitrate measured on this level is 2.5Mb/s,
then if config value is set to true
, ABR will use 2.5 Mb/s for this quality level.
(default: 0
)
Return the capping/min bandwidth value that could be used by automatic level selection algorithm. Useful when browser or tab of the browser is not in the focus and bandwidth drops
(default: false
)
Set to true
to enable DRM key system access and license retrieval.
(default: undefined
)
widevineLicenseUrl
has been deprecated. Use drmSystems['com.widevine.alpha'].licenseUrl
instead.
(default: undefined
, type (xhr: XMLHttpRequest, url: string, keyContext: MediaKeySessionContext, licenseChallenge: Uint8Array) => void | Uint8Array | Promise<Uint8Array | void>
)
A pre-processor function for modifying license requests. The license request URL, request headers, and payload can all be modified prior to sending the license request, based on operating conditions, the current key-session, and key-system.
var config = {
licenseXhrSetup: function (xhr, url, keyContext, licenseChallenge) {
let payload = licenseChallenge;
// Send cookies with request
xhr.withCredentials = true;
// Call open to change the method (default is POST), modify the url, or set request headers
xhr.open('POST', url, true);
// call xhr.setRequestHeader after xhr.open otherwise licenseXhrSetup will throw and be called a second time after HLS.js call xhr.open
if (keyContext.keySystem === 'com.apple.fps') {
xhr.setRequestHeader('Content-Type', 'application/json');
payload = JSON.stringify({
keyData: base64Encode(keyContext.decryptdata?.keyId),
licenseChallenge: base64Encode(licenseChallenge),
});
} else {
xhr.setRequestHeader('Content-Type', 'application/octet-stream');
}
// Return the desired payload or a Promise<Uint8Array>.
// Not returning a value, or returning `undefined` or` Promise<void>` will result in the `licenseChallenge` being used.
return fetchDRMToken(this.authData).then((result) => {
xhr.setRequestHeader('token', token);
return payload;
});
},
};
(default: undefined
, type (xhr: XMLHttpRequest, url: string, keyContext: MediaKeySessionContext) => data: ArrayBuffer
)
A post-processor function for modifying the license response before passing it to the key-session (MediaKeySession.update
).
var config = {
licenseResponseCallback: function (xhr, url, keyContext) {
const keySystem = keyContext.keySystem;
const response = xhr.response;
if (keyContext.keySystem === 'com.apple.fps') {
try {
const responseObject = JSON.parse(
new TextDecoder().decode(response).trim();
);
const keyResponse = responseObject['fairplay-streaming-response']['streaming-keys'][0];
return base64Decode(keyResponse.ckc);
} catch (error) {
console.error(error);
}
}
return response;
}
(default: {}
)
Define license settings for given key-systems according to your own DRM provider. Ex:
drmSystems: {
'com.apple.fps': {
licenseUrl: 'https://your-fps-license-server/path',
serverCertificateUrl: 'https://your-fps-license-server/certificate/path',
},
'com.widevine.alpha': {
licenseUrl: 'https://your-widevine-license-server/path'
}
}
Supported key-systems include 'com.apple.fps', 'com.microsoft.playready', 'com.widevine.alpha', and 'org.w3.clearkey'. Mapping to other values in key-system access requests can be done by customizing requestMediaKeySystemAccessFunc
.
When loading content with DRM Keys, the player will only request access
to key-systems for the Session Keys or Playlist Keys for which there are
also key-systems defined in drmSystems
.
(default: undefined
, type (initDataType: string, initData: ArrayBuffer | null, keyContext: MediaKeySessionContext) => { initDataType: string; initData: ArrayBuffer | null } | undefined
)
Used to map initData or generate initData for playlist keys before
MediaKeySession generateRequest
is called.
(default: {}
)
Define optional MediaKeySystemConfiguration
arguments to be passed to requestMediaKeySystemAccess
. Ex:
{
audioRobustness: 'SW_SECURE_CRYPTO',
videoRobustness: 'SW_SECURE_CRYPTO',
audioEncryptionScheme: null,
videoEncryptionScheme: null,
persistentState: 'not-allowed';
distinctiveIdentifier: 'not-allowed';
sessionTypes: ['temporary'];
sessionType: 'temporary';
}
With the default argument, ''
will be specified for each option (i.e. no specific robustness required).
(default: A function that returns the result of window.navigator.requestMediaKeySystemAccess.bind(window.navigator)
or null
)
Allows for the customization of window.navigator.requestMediaKeySystemAccess
. This can be used to map key-system access request to from a supported value to a custom one:
var hls new Hls({
requestMediaKeySystemAccessFunc: (keySystem, supportedConfigurations) => {
if (keySystem === 'com.microsoft.playready') {
keySystem = 'com.microsoft.playready.recommendation';
}
return navigator.requestMediaKeySystemAccess(keySystem, supportedConfigurations);
}
});
When the cmcd
object is defined, Common Media Client Data (CMCD)
data will be passed on all media requests (manifests, playlists, a/v segments, timed text). It's configuration values are:
sessionId
: The CMCD session id. One will be automatically generated if none is provided.contentId
: The CMCD content id.useHeaders
: Send CMCD data in request headers instead of as query args. Defaults tofalse
.includeKeys
: An optional array of CMCD keys. When present, only these CMCD fields will be included with each each request.
Calling this method will:
- bind videoElement and hls instance,
- create MediaSource and set it as video source
- once MediaSource object is successfully created, MEDIA_ATTACHED event will be fired.
Calling this method will:
- unbind VideoElement from hls instance,
- signal the end of the stream on MediaSource
- reset video source (
video.src = ''
)
- get: Return the bound videoElement from the hls instance
By default, hls.js handles quality switch automatically, using heuristics based on fragment loading bitrate and quality level bandwidth exposed in the variant manifest. It is also possible to manually control quality switch using below API.
- get: Return array of available quality levels.
- get: Return current playback quality level.
- set: Trigger an immediate quality level switch to new quality level. This will abort the current fragment request if any, flush the whole buffer, and fetch fragment matching with current position and requested quality level.
Set to -1
for automatic level selection.
- get: Return next playback quality level (playback quality level for next buffered fragment). Return
-1
if next fragment not buffered yet. - set: Trigger a quality level switch for next fragment. This could eventually flush already buffered next fragment.
Set to -1
for automatic level selection.
- get: return last loaded fragment quality level.
- set: set quality level for next loaded fragment.
Set to -1
for automatic level selection.
- get: Return quality level that will be used to load next fragment.
- set: Force quality level for next loaded fragment. Quality level will be forced only for that fragment.
After a fragment at this quality level has been loaded,
hls.loadLevel
will prevail.
- get: First level index (index of the first Variant appearing in the Multivariant Playlist).
- get: Return quality level that will be used to load the first fragment when not overridden by
startLevel
.
- get/set: Start level index (level of first fragment that will be played back).
- if not overridden by user: first level appearing in manifest will be used as start level.
- if -1: automatic start level selection, playback will start from level matching download bandwidth (determined from download of first segment).
Default value is hls.firstLevel
.
- get: Tell whether auto level selection is enabled or not.
- get/set: Capping/max level value that could be used by ABR Controller.
Default value is -1
(no level capping).
- get/set: The maximum HDCP-LEVEL allowed to be selected by auto level selection. Must be a valid HDCP-LEVEL value ('NONE', 'TYPE-0', 'TYPE-1', 'TYPE-2'), or null (default).
hls.maxHdcpLevel
is automatically set to the next lowest value when aKEY_SYSTEM_STATUS_OUTPUT_RESTRICTED
error occurs. To prevent manual selection of levels with specific HDCP-LEVEL attribute values, usehls.removeLevel()
onMANIFEST_LOADED
or on error.
Default value is null (no level capping based on HDCP-LEVEL)
- get: Enables or disables level capping. If disabled after previously enabled,
nextLevelSwitch
will be immediately called. - set: Whether level capping is enabled.
Default value is set via capLevelToPlayerSize
in config.
get: Returns the current bandwidth estimate in bits/s, if available. Otherwise, NaN
is returned.
set: Reset EwmaBandWidthEstimator
using the value set as the new default estimate. This will update the value of config.abrEwmaDefaultEstimate
.
Remove a level from the list of loaded levels. This can be used to remove a rendition or playlist url that errors frequently from the list of levels that a user or hls.js can choose from.
Modifying the levels this way will result in a Hls.Events.LEVELS_UPDATED
event being triggered.
Static getter: return hls.js dist version number.
By default, hls.js will automatically start loading quality level playlists, and fragments after Hls.Events.MANIFEST_PARSED
event has been triggered.
However, if config.autoStartLoad
is set to false
, then hls.startLoad()
needs to be called to manually start playlist and fragments loading.
Start/restart playlist/fragment loading. this is only effective if MANIFEST_PARSED event has been triggered.
startPosition is the initial position in the playlist. If startPosition is not set to -1, it allows to override default startPosition to the one you want (it will bypass hls.config.liveSync* config params for Live for example, so that user can start playback from whatever position)
stop playlist/fragment loading. could be resumed later on by calling hls.startLoad()
get : string of current HLS asset passed to hls.loadSource()
, otherwise null
Find and select the best matching audio track, making a level switch when a Group change is necessary. Updates hls.config.audioPreference
. Returns the selected track or null when no matching track is found.
get : array of all supported audio tracks found in the Multivariant Playlist
get : array of supported audio tracks in the active audio group ID
get/set : index of selected audio track in hls.audioTracks
Find and select the best matching subtitle track, making a level switch when a Group change is necessary. Updates hls.config.subtitlePreference
. Returns the selected track or null when no matching track is found.
get : array of all subtitle tracks found in the Multivariant Playlist
get : array of subtitle tracks in the active subtitle group ID
get/set : index of selected subtitle track in hls.subtitleTracks
. Returns -1 if no track is visible. Set to -1 to disable all subtitle tracks.
(default: true
)
get/set : if set to true the active subtitle track mode will be set to showing
and the browser will display the active subtitles. If set to false, the mode will be set to hidden
.
get : position of live sync point (ie edge of live position minus safety delay defined by hls.config.liveSyncDuration
).
If playback stalls outside the sliding window, or latency exceeds liveMaxLatencyDuration
hls.js will seek ahead to
liveSyncPosition
to get back in sync with the stream stream.
get : estimated position (in seconds) of live edge (ie edge of live playlist plus time sync playlist advanced) returns 0 before first playlist is loaded
get : maximum distance from the edge before the player seeks forward to hls.liveSyncPosition
configured using liveMaxLatencyDurationCount
(multiple of target duration) or liveMaxLatencyDuration
returns 0 before first playlist is loaded
get/set : target distance from the edge as calculated by the latency controller
When liveSyncDuration
is specified in config,
targetLatency
is calculated as liveSyncDuration
plus liveSyncOnStallIncrease
multiplied by number of stalls.
Otherwise targetLatency
is calculated as liveSyncDurationCount
multiplied by EXT-X-TARGETDURATION
plus liveSyncOnStallIncrease
multiplied by number of stalls.
Setting targetLatency
resets number of stalls to 0
and sets liveSyncDuration
to the new value.
Note: if the initial config specified liveSyncDurationCount
rather than liveSyncDuration
,
setting targetLatency
will assign a new value to liveSyncDuration
. This value will be used to calculate
targetLatency
from now on and liveSyncDurationCount
will be ignored.
get : the rate at which the edge of the current live playlist is advancing or 1 if there is none
get: the datetime value relative to media.currentTime for the active level Program Date Time if present
hls.js fires a bunch of events, that could be registered and unregistered as below:
function onLevelLoaded(event, data) {
var level_duration = data.details.totalduration;
}
// subscribe event
hls.on(Hls.Events.LEVEL_LOADED, onLevelLoaded);
// unsubscribe event
hls.off(Hls.Events.LEVEL_LOADED, onLevelLoaded);
// subscribe for a single event call only
hls.once(Hls.Events.LEVEL_LOADED, onLevelLoaded);
Full list of Events is available below:
Hls.Events.MEDIA_ATTACHING
- fired before MediaSource is attaching to media element- data: { media }
Hls.Events.MEDIA_ATTACHED
- fired when MediaSource has been successfully attached to media element- data: { media }
Hls.Events.MEDIA_DETACHING
- fired before detaching MediaSource from media element- data: { }
Hls.Events.MEDIA_DETACHED
- fired when MediaSource has been detached from media element- data: { }
Hls.Events.BUFFER_RESET
- fired when we buffer is going to be reset- data: { }
Hls.Events.BUFFER_CODECS
- fired when we know about the codecs that we need buffers for to push into- data: { audio? :
[Track]
, video? :[Track]
}
- data: { audio? :
Hls.Events.BUFFER_CREATED
- fired when sourcebuffers have been created- data: { tracks : { audio? :
[Track]
, video? :[Track]
, audiovideo?:[Track]
} } interface Track { id: 'audio' | 'main', buffer?: SourceBuffer, container: string, codec?: string, initSegment?: Uint8Array, levelCodec?: string, metadata?: any }
- data: { tracks : { audio? :
Hls.Events.BUFFER_APPENDING
- fired when we append a segment to the buffer- data: { parent, type, frag, part, chunkMeta, data }
Hls.Events.BUFFER_APPENDED
- fired when we are done with appending a media segment to the buffer- data: { parent : playlist type triggered
BUFFER_APPENDING
, type, frag, part, chunkMeta, timeRanges : { video?: TimeRange, audio?: TimeRange, audiovideo?: TimeRange } }
- data: { parent : playlist type triggered
Hls.Events.BUFFER_EOS
- fired when the stream is finished and we want to notify the media buffer that there will be no more data- data: { type: SourceBufferName }
Hls.Events.BUFFER_FLUSHING
- fired when the media buffer should be flushed- data: { startOffset, endOffset, type: SourceBufferName }
Hls.Events.BUFFER_FLUSHED
- fired when the media buffer has been flushed- data: { type: SourceBufferName }
Hls.Events.BACK_BUFFER_REACHED
- fired when the back buffer is reached as defined by the backBufferLength config option- data: { bufferEnd: number }
Hls.Events.MANIFEST_LOADING
- fired to signal that a manifest loading starts- data: { url : manifestURL }
Hls.Events.MANIFEST_LOADED
- fired after manifest has been loaded- data: { levels : [available quality levels], audioTracks : [available audio tracks], captions? [available closed-captions media], subtitles?: [available subtitle tracks], url : manifestURL, stats : [LoaderStats], sessionData: [parsed #EXT-X-SESSION-DATA], networkDetails: [Loader specific object for debugging (XMLHttpRequest or fetch Response)]}
Hls.Events.MANIFEST_PARSED
- fired after manifest has been parsed- data: { levels : [ available quality levels ], firstLevel : index of first quality level appearing in Manifest, audioTracks, subtitleTracks, stats, audio: boolean, video: boolean, altAudio: boolean }
Hls.Events.STEERING_MANIFEST_LOADED
- fired when the Content Steering Manifest is loaded- data: {
url
: steering manifest URL,steeringManifest
: SteeringManifest object } }
- data: {
Hls.Events.LEVEL_SWITCHING
- fired when a level switch is requested- data: {
level
and Level object properties (please see below for more information) }
- data: {
Hls.Events.LEVEL_SWITCHED
- fired when a level switch is effective- data: { level : id of new level }
Hls.Events.LEVEL_LOADING
- fired when a level playlist is requested (unless it is the only media playlist loaded viahls.loadSource()
)- data: { url : level URL, level : id of level being loaded, deliveryDirectives: LL-HLS delivery directives or
null
when blocking reload is not supported }
- data: { url : level URL, level : id of level being loaded, deliveryDirectives: LL-HLS delivery directives or
Hls.Events.LEVEL_LOADED
- fired when a level playlist loading finishes- data: { details : LevelDetails, level : id of loaded level, stats : [LoadStats] }
Hls.Events.LEVEL_UPDATED
- fired when a level's details have been updated based on previous details, after it has been loaded- data: { details : LevelDetails, level : id of updated level }
Hls.Events.LEVEL_PTS_UPDATED
- fired when a level's PTS information has been updated after parsing a fragment- data: { details : LevelDetails, level : id of updated level, drift: PTS drift observed when parsing last fragment, type, start, end }
Hls.Events.LEVELS_UPDATED
- fired when a level is removed after callingremoveLevel()
- data: { levels : [ available quality levels ] }
Hls.Events.AUDIO_TRACKS_UPDATED
- fired to notify that audio track lists has been updated- data: { audioTracks : audioTracks }
Hls.Events.AUDIO_TRACK_SWITCHING
- fired when an audio track switching is requested- data: { id : audio track id, type : playlist type ('AUDIO' | 'main'), url : audio track URL }
Hls.Events.AUDIO_TRACK_SWITCHED
- fired when an audio track switch actually occurs- data: { id : audio track id }
Hls.Events.AUDIO_TRACK_LOADING
- fired when an audio track loading starts- data: { url : audio track URL, id : audio track id }
Hls.Events.AUDIO_TRACK_LOADED
- fired when an audio track loading finishes- data: { details : LevelDetails, id : audio track id, stats : [LoadStats] }
Hls.Events.SUBTITLE_TRACKS_UPDATED
- fired to notify that subtitle track lists has been updated- data: { subtitleTracks : subtitleTracks }
Hls.Events.SUBTITLE_TRACK_SWITCH
- fired when a subtitle track switch occurs- data: { id : subtitle track id, type? : playlist type ('SUBTITLES' | 'CLOSED-CAPTIONS'), url? : subtitle track URL }
Hls.Events.SUBTITLE_TRACK_LOADING
- fired when a subtitle track loading starts- data: { url : audio track URL, id : audio track id }
Hls.Events.SUBTITLE_TRACK_LOADED
- fired when a subtitle track loading finishes- data: { details : LevelDetails, id : subtitle track id, stats : [LoadStats] }
Hls.Events.SUBTITLE_FRAG_PROCESSED
- fired when a subtitle fragment has been processed- data: { success : boolean, frag : [the processed fragment object], error?: [error parsing subtitles if any] }
Hls.Events.INIT_PTS_FOUND
- fired when the first timestamp is found- data: { d : demuxer id, initPTS: initPTS, timescale: timescale, frag : fragment object }
Hls.Events.FRAG_LOADING
- fired when a fragment loading starts- data: { frag : fragment object, targetBufferTime: number | null [The unbuffered time that we expect to buffer with this fragment] }
Hls.Events.FRAG_LOAD_PROGRESS
- [deprecated]Hls.Events.FRAG_LOAD_EMERGENCY_ABORTED
- Identifier for fragment load aborting for emergency switch down- data: { frag : fragment object }
Hls.Events.FRAG_LOADED
- fired when a fragment loading is completed- data: { frag : fragment object, payload : fragment payload, stats : [LoadStats]}
Hls.Events.FRAG_DECRYPTED
- fired when a fragment decryption is completed- data: { id : demuxer id, frag : fragment object, payload : fragment payload, stats : { tstart, tdecrypt}}
Hls.Events.FRAG_PARSING_INIT_SEGMENT
- fired when Init Segment has been extracted from fragment- data: { id: demuxer id, frag : fragment object, moov : moov MP4 box, codecs : codecs found while parsing fragment }
Hls.Events.FRAG_PARSING_USERDATA
- fired when parsing sei text is completed- data: { id : demuxer id, frag: fragment object, samples : [ sei samples pes ], details: LevelDetails }
Hls.Events.FRAG_PARSING_METADATA
- fired when parsing ID3 is completed- data: { id: demuxer id, frag : fragment object, samples : [ ID3 pes - pts and dts timestamp are relative, values are in seconds], details: LevelDetails }
Hls.Events.FRAG_PARSING_DATA
- [deprecated]Hls.Events.FRAG_PARSED
- fired when fragment parsing is completed- data: { frag : fragment object, partIndex }
Hls.Events.FRAG_BUFFERED
- fired when fragment remuxed MP4 boxes have all been appended into SourceBuffer- data: { id: demuxer id, frag : fragment object, stats : [LoadStats] }
Hls.Events.FRAG_CHANGED
- fired when fragment matching with current video position is changing- data: { id : demuxer id, frag : fragment object }
Hls.Events.FPS_DROP
- triggered when FPS drop in last monitoring period is higher than given threshold- data: { curentDropped : nb of dropped frames in last monitoring period, currentDecoded : nb of decoded frames in last monitoring period, totalDroppedFrames : total dropped frames on this video element }
Hls.Events.FPS_DROP_LEVEL_CAPPING
- triggered when FPS drop triggers auto level capping- data: { level: suggested new auto level capping by fps controller, droppedLevel : level has too many dropped frames and will be restricted }
Hls.Events.ERROR
- Identifier for an error event- data: { type : error type, details : error details, fatal : is error fatal or not, other error specific data }
Hls.Events.DESTROYING
- fired when hls.js instance starts destroying. Different fromMEDIA_DETACHED
as one could want to detach and reattach a video to the instance of hls.js to handle mid-rolls for example- data: { }
Hls.Events.KEY_LOADING
- fired when a decryption key loading starts- data: { frag : fragment object }
Hls.Events.KEY_LOADED
- fired when a decryption key loading is completed- data: { frag : fragment object }
Hls.Events.STREAM_STATE_TRANSITION
- [deprecated]Hls.Events.NON_NATIVE_TEXT_TRACKS_FOUND
- WhenrenderTextTracksNatively
isfalse
, this event will fire when a new captions or subtitle track is found, in the place of adding a TextTrack to the video element.- data: { tracks: Array<{ label, kind, default, subtitleTrack }> }
Hls.Events.CUES_PARSED
- WhenrenderTextTracksNatively
isfalse
, this event will fire when new captions or subtitle cues are parsed.- data: { type, cues, track } }
You can use the internal loader definition for your own implementation via the static getter Hls.DefaultConfig.loader
.
Example:
let myHls = new Hls({
pLoader: function (config) {
let loader = new Hls.DefaultConfig.loader(config);
Object.defineProperties(this, {
stats: {
get: () => loader.stats,
},
context: {
get: () => loader.context,
},
});
this.abort = () => loader.abort();
this.destroy = () => loader.destroy();
this.load = (context, config, callbacks) => {
let { type, url } = context;
if (type === 'manifest') {
console.log(`Manifest ${url} will be loaded.`);
}
loader.load(context, config, callbacks);
};
},
});
Alternatively, environments that support ES6 classes can extends the loader directly:
import Hls from 'hls.js';
let myHls = new Hls({
pLoader: class CustomLoader extends Hls.DefaultConfig.loader {
load(context, config, callbacks) {
let { type, url } = context;
// Custom behavior
super.load(context, config, callbacks);
}
},
});
Full list of errors is described below:
Hls.ErrorDetails.MANIFEST_LOAD_ERROR
- raised when manifest loading fails because of a network error- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.MANIFEST_LOAD_ERROR
, fatal :true
, url : manifest URL, response : { code: error code, text: error text }, loader : URL loader }
- data: { type :
Hls.ErrorDetails.MANIFEST_LOAD_TIMEOUT
- raised when manifest loading fails because of a timeout- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.MANIFEST_LOAD_TIMEOUT
, fatal :true
, url : manifest URL, loader : URL loader }
- data: { type :
Hls.ErrorDetails.MANIFEST_PARSING_ERROR
- raised when manifest parsing failed to find proper content- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.MANIFEST_PARSING_ERROR
, fatal :true
, url : manifest URL, reason : parsing error reason }
- data: { type :
Hls.ErrorDetails.LEVEL_EMPTY_ERROR
- raised when loaded level contains no fragments (applies to levels and audio and subtitle tracks)- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.LEVEL_EMPTY_ERROR
, url: playlist URL, reason: error reason, level: index of the bad level or undefined, parent: PlaylistLevelType }
- data: { type :
Hls.ErrorDetails.LEVEL_LOAD_ERROR
- raised when level loading fails because of a network error- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.LEVEL_LOAD_ERROR
, fatal :true
, url : level URL, response : { code: error code, text: error text }, loader : URL loader }
- data: { type :
Hls.ErrorDetails.LEVEL_LOAD_TIMEOUT
- raised when level loading fails because of a timeout- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.LEVEL_LOAD_TIMEOUT
, fatal :false
, url : level URL, loader : URL loader }
- data: { type :
Hls.ErrorDetails.LEVEL_PARSING_ERROR
- raised when playlist parsing failed or found invalid content (applies to levels and audio and subtitle tracks)- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.LEVEL_PARSING_ERROR
, fatal :false
, url : level URL, error: Error, parent: PlaylistLevelType }
- data: { type :
Hls.ErrorDetails.AUDIO_TRACK_LOAD_ERROR
- raised when audio playlist loading fails because of a network error- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.AUDIO_TRACK_LOAD_ERROR
, fatal :false
, url : audio URL, response : { code: error code, text: error text }, loader : URL loader }
- data: { type :
Hls.ErrorDetails.AUDIO_TRACK_LOAD_TIMEOUT
- raised when audio playlist loading fails because of a timeout- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.AUDIO_TRACK_LOAD_TIMEOUT
, fatal :false
, url : audio URL, loader : URL loader }
- data: { type :
Hls.ErrorDetails.SUBTITLE_LOAD_ERROR
- raised when subtitle playlist loading fails because of a network error- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.SUBTITLE_LOAD_ERROR
, fatal :false
, url, response : { code: error code, text: error text }, loader : URL loader }
- data: { type :
Hls.ErrorDetails.SUBTITLE_TRACK_LOAD_TIMEOUT
- raised when subtitle playlist loading fails because of a timeout- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.SUBTITLE_TRACK_LOAD_TIMEOUT
, fatal :false
, url, loader : URL loader }
- data: { type :
Hls.ErrorDetails.FRAG_LOAD_ERROR
- raised when fragment loading fails because of a network error- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.FRAG_LOAD_ERROR
, fatal :true
orfalse
, frag : fragment object, response : { code: error code, text: error text } }
- data: { type :
Hls.ErrorDetails.FRAG_LOAD_TIMEOUT
- raised when fragment loading fails because of a timeout- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.FRAG_LOAD_TIMEOUT
, fatal :true
orfalse
, frag : fragment object }
- data: { type :
Hls.ErrorDetails.KEY_LOAD_ERROR
- raised when decrypt key loading fails because of a network error- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.KEY_LOAD_ERROR
, fatal :false
, frag : fragment object, response : { code: error code, text: error text } }
- data: { type :
Hls.ErrorDetails.KEY_LOAD_TIMEOUT
- raised when decrypt key loading fails because of a timeout- data: { type :
NETWORK_ERROR
, details :Hls.ErrorDetails.KEY_LOAD_TIMEOUT
, fatal :true
, frag : fragment object }
- data: { type :
Hls.ErrorDetails.MANIFEST_INCOMPATIBLE_CODECS_ERROR
- raised when manifest only contains quality level with codecs incompatible with MediaSource Engine.- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.MANIFEST_INCOMPATIBLE_CODECS_ERROR
, fatal :true
, url : manifest URL }
- data: { type :
Hls.ErrorDetails.FRAG_DECRYPT_ERROR
- raised when fragment decryption fails- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.FRAG_DECRYPT_ERROR
, fatal :true
, reason : failure reason }
- data: { type :
Hls.ErrorDetails.FRAG_PARSING_ERROR
- raised when fragment parsing fails- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.FRAG_PARSING_ERROR
, fatal :true
orfalse
, reason : failure reason }
- data: { type :
Hls.ErrorDetails.FRAG_GAP
- raised when segment loading is skipped because a fragment with a GAP tag or part with GAP=YES attribute was encountered- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.FRAG_GAP
, fatal :false
, frag : fragment object, part? : part object (if any) }
- data: { type :
Hls.ErrorDetails.BUFFER_ADD_CODEC_ERROR
- raised when MediaSource fails to add new sourceBuffer- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_ADD_CODEC_ERROR
, fatal :false
, error : error raised by MediaSource, mimeType: mimeType on which the failure happened }
- data: { type :
Hls.ErrorDetails.BUFFER_INCOMPATIBLE_CODECS_ERROR
- raised when no MediaSource(s) could be created based on track codec(s)- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_INCOMPATIBLE_CODECS_ERROR
, fatal :true
, reason : failure reason }
- data: { type :
Hls.ErrorDetails.BUFFER_APPEND_ERROR
- raised when exception is raised while calling buffer append- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_APPEND_ERROR
, fatal :true
orfalse
, parent : parent stream controller }
- data: { type :
Hls.ErrorDetails.BUFFER_APPENDING_ERROR
- raised when exception is raised during buffer appending- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_APPENDING_ERROR
, fatal :false
}
- data: { type :
Hls.ErrorDetails.BUFFER_STALLED_ERROR
- raised when playback is stuck because buffer is running out of data- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_STALLED_ERROR
, fatal :true
orfalse
, buffer : buffer length (optional) }
- data: { type :
Hls.ErrorDetails.BUFFER_FULL_ERROR
- raised when no data can be appended anymore in media buffer because it is full. this error is recovered by reducing the max buffer length.- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_FULL_ERROR
, fatal :false
}
- data: { type :
Hls.ErrorDetails.BUFFER_SEEK_OVER_HOLE
- raised after hls.js seeks over a buffer hole to unstuck the playback,- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_SEEK_OVER_HOLE
, fatal :false
, hole : hole duration }
- data: { type :
Hls.ErrorDetails.BUFFER_NUDGE_ON_STALL
- raised when playback is stuck although currentTime is in a buffered area- data: { type :
MEDIA_ERROR
, details :Hls.ErrorDetails.BUFFER_NUDGE_ON_STALL
, fatal :true
|false
} - Not fatal for the first few nudges, but if we reach
config.nudgeMaxRetry
attempts and the player is still stalled, thenBUFFER_NUDGE_ON_STALL
is fatal
- data: { type :
Hls.ErrorDetails.REMUX_ALLOC_ERROR
- raised when memory allocation fails during remuxing- data: { type :
MUX_ERROR
, details :Hls.ErrorDetails.REMUX_ALLOC_ERROR
, fatal :false
, bytes : mdat size, reason : failure reason }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_NO_KEYS
- EME catch-all error- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_NO_KEYS
, fatal :true
, error: Error }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_NO_ACCESS
- EME MediaKeyFuncrequestMediaKeySystemAccess(keySystem, supportedConfigurations)
failed to access key-system- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_NO_ACCESS
, fatal :true
, error: Error }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_NO_SESSION
- MediaKeySessiongenerateRequest(initDataType, initData)
failed- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_NO_SESSION
, fatal :false
, error: Error }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_NO_CONFIGURED_LICENSE
- Player configuration is missingdrmSystems
key-system license options- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_NO_CONFIGURED_LICENSE
, fatal :false
}
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_LICENSE_REQUEST_FAILED
- Key-system license request failed (fails on first status 4xx, or after 3 tries (EMEController MAX_LICENSE_REQUEST_FAILURES))- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_LICENSE_REQUEST_FAILED
, fatal :true
, networkDetails: XMLHttpRequest }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_SERVER_CERTIFICATE_REQUEST_FAILED
- Key-system certificate request failed- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_SERVER_CERTIFICATE_REQUEST_FAILED
, fatal :true
, networkDetails: XMLHttpRequest }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_SERVER_CERTIFICATE_UPDATE_FAILED
-MediaKeys.setServerCertificate(certificateData)
failed- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_SERVER_CERTIFICATE_UPDATE_FAILED
, fatal :true
, error: Error }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_SESSION_UPDATE_FAILED
- MediaKeySessionupdate(licenseResponse|acknowledged)
failed- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_SESSION_UPDATE_FAILED
, fatal :true
, error: Error }
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_STATUS_OUTPUT_RESTRICTED
- HDCP level output restricted for key-session- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_STATUS_OUTPUT_RESTRICTED
, fatal :false
}
- data: { type :
Hls.ErrorDetails.KEY_SYSTEM_STATUS_INTERNAL_ERROR
- key-session status changed to "internal-error"- data: { type :
KEY_SYSTEM_ERROR
, details :Hls.ErrorDetails.KEY_SYSTEM_STATUS_INTERNAL_ERROR
, fatal :true
}
- data: { type :
Hls.ErrorDetails.LEVEL_SWITCH_ERROR
- raised when level switching fails- data: { type :
OTHER_ERROR
, details :Hls.ErrorDetails.LEVEL_SWITCH_ERROR
, fatal :false
, level : failed level index, reason : failure reason }
- data: { type :
Hls.ErrorDetails.INTERNAL_EXCEPTION
- raised when an exception occurs in an internal hls.js event handler- data: { type :
OTHER_ERROR
, details :Hls.ErrorDetails.INTERNAL_EXCEPTION
, fatal :true
orfalse
, event : event object or string, err : { message : error message } }
- data: { type :
Hls.ErrorDetails.UNKNOWN
- Uncategorized error
A Level
object represents a given quality level.
It contains quality level related info, retrieved from manifest, such as:
- level bitrate
- used codecs
- video width/height
- level name
- level URL
See sample Level
object below:
{
audioCodec: "mp4a.40.2"
audioGroupIds: <string[]> | undefined,
bitrate: 3000000,
codecSet: "avc1,mp4a",
details: <LevelDetails> | undefined
fragmentError: 0,
frameRate: 30,
height: 720,
loadError: 0
name: "720p",
realBitrate: 0,
supportedPromise: undefined,
supportedResult: {supported: true, configurations: <MediaDecodingConfiguration[]>, decodingInfoResults: <MediaCapabilitiesDecodingInfo[]>}
textGroupIds: <string[]> | undefined,
unknownCodecs: [],
url: [ "http://levelURL.com", "http://levelURLfailover.com" ],
videoCodec: "avc1.66.30",
width: 1280,
attrs: <AttrList>,
audioGroupId: undefined,
averageBitrate: 2962000,
codecs: "avc1.66.30,mp4a.40.2",
maxBitrate: 3000000,
pathwayId: ".",
score: 0,
textGroupId: "subs",
uri: "http://levelURL.com",
urlId: 0,
videoRange: "SDR"
}
url
is an array that might contains several items if failover/redundant streams are found in the manifest.
A LevelDetails
object contains level details retrieved after level playlist parsing, they are specified below:
- protocol version
- playlist type
- start sequence number
- end sequence number
- level total duration
- level fragment target duration
- array of fragments info
- is this level a live playlist or not?
See sample object below, available after corresponding LEVEL_LOADED
event has been fired:
{
version: 3,
type: 'VOD', // null if EXT-X-PLAYLIST-TYPE not present
startSN: 0,
endSN: 50,
totalduration: 510,
targetduration: 10,
fragments: Array(51),
live: false
}
The Fragment
object contains fragment related info, such as:
- fragment URL
- fragment duration
- fragment sequence number
- fragment start offset
- level identifier
See sample object below:
{
duration: 10,
level: 3,
cc: 0
sn: 35,
start: 30,
url: 'http://fragURL.com'
}