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v2_EN_DeliveryHLS
SRS supports RTMP and HLS, the most popular delivery protocols for the Internet.
RTMP is Adobe RTMP (Realtime Message Protocol), for low latency live streaming, and the standard protocol for Internet encoding, and the best protocol for Flash on PC.
HLS is Apple HLS (HTTP Live Streaming), for both live and VOD streaming over HTTP, and the standard protocol on Apple platforms.
Servers delivering both HLS and RTMP can support all screens. For RTMP, see: RTMP Delivery。
For information comparing RTMP and HLS, read RTMP PK HLS.
For information about how to deploy SRS to support HLS, read Usage: HLS.
The main use scenario of HLS:
- Cross Platform: the default for live streaming to PCs is RTMP, although some libraries can play HLS in Flash right now. Android 3.0+ can play HLS, and iOS has always supported HLS.
- Industrial Strength on Apple platforms: the most stable live streaming protocol for OSX/iOS is HLS, similar to RTMP for Flash on Windows PCs.
- Friendly for CDNs: HLS, since it streams over HTTP, is a CDN-friendly delivery protocol.
- Simple: HLS is an open protocol and there are lots of tools for TS (MPEG transport stream is the container format used by HLS).
In a word, HLS is the best delivery protocol when the user does not care about the latency, for both PC and mobile (Android and iOS).
The table below describes the different protocols for PC and mobile platforms.
Delivery | Platform | Protocol | Inventor | Description |
---|---|---|---|---|
RTMP | Windows/Flash | RTMP | Adobe | RTMP is used to deliver low latency stream over the Internet, especially for Flash in Internet Explorer, and other web browsers, on PC. RTMP allows you to publish streams to servers very stably and for long durations. |
HLS | Apple/ Android |
HTTP | Apple/ |
HLS lantency >= 10s. Android 3+ supports HLS. All Apple platforms support HLS. |
HDS | - | HTTP | Adobe | HDS is a protocol similar to HLS, developed by Adobe. HDS is complex and offers no unique benefits, nonetheless, SRS2 support HDS. |
DASH | - | HTTP | - | Dash (Dynamic Adaptive Streaming over HTTP), developed by the MPEG working group, is similar to HLS. It's a new protocol, and SRS may support it once it's used by many users. |
HLS is an HTTP m3u8 URL, which can be played in Apple's Safari directly. For example:
http://demo.srs.com/live/livestream.m3u8
The m3u8 url must be embedded in HTML5 for Android. For example:
<!-- livestream.html -->
<video width="640" height="360"
autoplay controls autobuffer
src="http://demo.srs.com/live/livestream.m3u8"
type="application/vnd.apple.mpegurl">
</video>
The m3u8 file of HLS is actually a play list. For example:
#EXTM3U
#EXT-X-VERSION:3
#EXT-X-MEDIA-SEQUENCE:64
#EXT-X-TARGETDURATION:12
#EXTINF:11.550
livestream-64.ts
#EXTINF:5.250
livestream-65.ts
#EXTINF:7.700
livestream-66.ts
#EXTINF:6.850
livestream-67.ts
The important data items can be configured in SRS's config file:
- EXT-X-TARGETDURATION: This is calculated by SRS automatically. The EXT-X-TARGETDURATION tag specifies the maximum media segment duration. The EXTINF duration of each media segment in the playlist file, when rounded to the nearest integer, MUST be less than or equal to the target duration. This tag MUST appear once in a media playlist file. It applies to the entire playlist file.
- EXTINF: This is calculated by SRS automatically, and the maximum value is configured by SRS setting
hls_fragment
. The EXTINF tag specifies the duration of a media segment. It applies only to the media segment that follows it, and MUST be followed by a media segment URI. Each media segment MUST be preceded by an EXTINF tag. - Number of ts in m3u8: The
hls_window
, in seconds, specifies how many ts files will be in an m3u8, and SRS will delete the old ts files. - Name of ts filenames: For example,
livestream-67.ts
, SRS will increase the number automatically; the next ts for instance islivestream-68.ts
.
For example, if the hls_fragment
is 10s, and the hls_window
is 60s, then there are 60/10=6 ts files in the m3u8, and the old ts files are automatically deleted by SRS.
The workflow of HLS:
- The encoder, for example, FFMPEG or FMLE, publishes an RTMP stream to SRS, and the codec of that stream must be H.264+AAC (use transcoding to convert other codecs when required).
- SRS demuxes RTMP then remuxes the content into mpegts and writes a ts file, updating the m3u8.
- The client, for example, an iPhone or VLC, accesses the m3u8 provided by any web server, for instance, SRS's embedded HTTP server, or nginx.
Note: SRS only needs you to configure HLS on the vhost, and SRS will create the directory by app name.
The vhost with-hls.vhost.com
in conf/full.conf of SRS is an example of how to configure HLS, which users can copy the hls section from to their vhosts:
vhost __defaultVhost__ {
hls {
# whether the hls is enabled.
# if off, donot write hls(ts and m3u8) when publish.
# default: off
enabled on;
# the hls fragment in seconds, the duration of a piece of ts.
# default: 10
hls_fragment 10;
# the hls m3u8 target duration ratio,
# EXT-X-TARGETDURATION = hls_td_ratio * hls_fragment // init
# EXT-X-TARGETDURATION = max(ts_duration, EXT-X-TARGETDURATION) // for each ts
# @see https://github.com/simple-rtmp-server/srs/issues/304#issuecomment-74000081
# default: 1.5
hls_td_ratio 1.5;
# the audio overflow ratio.
# for pure audio, the duration to reap the segment.
# for example, the hls_fragment is 10s, hsl_aof_ratio is 2.0,
# the segemnt will reap to 20s for pure audio.
# default: 2.0
hls_aof_ratio 2.0;
# the hls window in seconds, the number of ts in m3u8.
# default: 60
hls_window 60;
# the error strategy. canbe:
# ignore, when error ignore and disable hls.
# disconnect, when error disconnect the publish connection.
# continue, when error ignore and continue output hls.
# @see https://github.com/simple-rtmp-server/srs/issues/264
# default: ignore
hls_on_error ignore;
# the hls storage: disk, ram or both.
# disk, to write hls m3u8/ts to disk.
# ram, serve m3u8/ts in memory, which use embeded http server to delivery.
# both, disk and ram.
# default: disk
hls_storage disk;
# the hls output path.
# the m3u8 file is configed by hls_path/hls_m3u8_file, the default is:
# ./objs/nginx/html/[app]/[stream].m3u8
# the ts file is configed by hls_path/hls_ts_file, the default is:
# ./objs/nginx/html/[app]/[stream]-[seq].ts
# @remark the hls_path is compatible with srs v1 config.
# default: ./objs/nginx/html
hls_path ./objs/nginx/html;
# the hls m3u8 file name.
# we supports some variables to generate the filename.
# [vhost], the vhost of stream.
# [app], the app of stream.
# [stream], the stream name of stream.
# default: [app]/[stream].m3u8
hls_m3u8_file [app]/[stream].m3u8;
# the hls ts file name.
# we supports some variables to generate the filename.
# [vhost], the vhost of stream.
# [app], the app of stream.
# [stream], the stream name of stream.
# [2006], replace this const to current year.
# [01], replace this const to current month.
# [02], replace this const to current date.
# [15], replace this const to current hour.
# [04], repleace this const to current minute.
# [05], repleace this const to current second.
# [999], repleace this const to current millisecond.
# [timestamp],replace this const to current UNIX timestamp in ms.
# [seq], the sequence number of ts.
# @see https://github.com/simple-rtmp-server/srs/wiki/v2_EN_DVR#custom-path
# @see https://github.com/simple-rtmp-server/srs/wiki/v2_EN_DeliveryHLS#hls-config
# default: [app]/[stream]-[seq].ts
hls_ts_file [app]/[stream]-[seq].ts;
# the hls entry prefix, which is base url of ts url.
# if specified, the ts path in m3u8 will be like:
# http://your-server/live/livestream-0.ts
# http://your-server/live/livestream-1.ts
# ...
# optional, default to empty string.
hls_entry_prefix http://your-server;
# the hls mount for hls_storage ram,
# which use srs embeded http server to delivery HLS,
# where the mount specifies the HTTP url to mount.
# @see the mount of http_remux.
# @remark the hls_mount must endswith .m3u8.
# default: [vhost]/[app]/[stream].m3u8
hls_mount [vhost]/[app]/[stream].m3u8;
# the default audio codec of hls.
# when codec changed, write the PAT/PMT table, but maybe ok util next ts.
# so user can set the default codec for mp3.
# the available audio codec:
# aac, mp3
# default: aac
hls_acodec aac;
# the default video codec of hls.
# when codec changed, write the PAT/PMT table, but maybe ok util next ts.
# so user can set the default codec for pure audio(without video) to vn.
# the available video codec:
# h264, vn
# default: h264
hls_vcodec h264;
# whether cleanup the old ts files.
# default: on
hls_cleanup on;
# the timeout in seconds to dispose the hls,
# dispose is to remove all hls files, m3u8 and ts files.
# when timeout or server terminate, dispose hls.
# @remark 0 to disable dispose.
# default: 0
hls_dispose 0;
# the max size to notify hls,
# to read max bytes from ts of specified cdn network,
# @remark only used when on_hls_notify is config.
# default: 64
hls_nb_notify 64;
# whether wait keyframe to reap segment,
# if off, reap segment when duration exceed the fragment,
# if on, reap segment when duration exceed and got keyframe.
# default: on
hls_wait_keyframe on;
# on_hls, never config in here, should config in http_hooks.
# for the hls http callback, @see http_hooks.on_hls of vhost hooks.callback.srs.com
# @read https://github.com/simple-rtmp-server/srs/wiki/v2_EN_DeliveryHLS#http-callback
# @read https://github.com/simple-rtmp-server/srs/wiki/v2_EN_DeliveryHLS#http-callback
# on_hls_notify, never config in here, should config in http_hooks.
# we support the variables to generate the notify url:
# [ts_url], replace with the ts url.
# for the hls http callback, @see http_hooks.on_hls_notify of vhost hooks.callback.srs.com
# @read https://github.com/simple-rtmp-server/srs/wiki/v2_EN_DeliveryHLS#on-hls-notify
# @read https://github.com/simple-rtmp-server/srs/wiki/v2_EN_DeliveryHLS#on-hls-notify
}
}
The section hls
is for HLS configuration:
- enabled: Whether to enable HLS, on to enable, off to disable. Default: off.
- hls_fragment: The HLS duration in seconds. The actual duration of ts file is determined by:
TS duration(s) = max(hls_fragment, gop_size)
hls_fragment: The length, in seconds, per ts file, for example, 5s.
gop_size: The stream gop size, for example, the fps is 20, gop is 200frames, then gop_size=gop/fps=10s.
So, the actual ts duration is max(5, 10)=10s, that is why the ts duration is larger than hls_fragment.
- hls_td_ratio: The ratio to calculate the m3u8 EXT-X-TARGETDURATION, read https://github.com/simple-rtmp-server/srs/issues/304#issuecomment-74000081
- hls_aof_ratio: The ratio to determine whether the pure audio should be reap. For example, when hls_fragment is 10s, the hls_aof_ratio is 2.0, for pure audio, reap ts every 10s*2.0=20s.
- hls_window: The total HLS windows size in seconds, the sum of all ts durations in the m3u8. SRS will drop the old ts file in the m3u8 and delete the files from the filesystem. SRS will keep:
hls_window >= sum(each ts duration in m3u8)
- hls_storage: The storage type, can be ram (in memory only), disk (on disk only), both (in memory and on disk). The hls_path must be specified for disk or both; while the hls_mount must be specified for ram or both.
- hls_path: The path to save m3u8 and ts files, where m3u8 and ts files are saved.
- hls_m3u8_file: The filename of the m3u8 file, with variables [vhost], [app] and [stream] available for replacement.
- hls_ts_file: The filename of the ts file, with some variables in dvr variables. And, variable [seq] is the ts seqence number.
For RTMP stream: rtmp://localhost/live/livestream
HLS path:
hls_path /data/nginx/html;
hls_m3u8_file [app]/[stream].m3u8;
hls_ts_file [app]/[stream]-[seq].ts;
SRS will generate the below files:
/data/nginx/html/live/livestream.m3u8
/data/nginx/html/live/livestream-0.ts
/data/nginx/html/live/livestream-1.ts
/data/nginx/html/live/livestream-2.ts
And the HLS URL for playback will be: http://localhost/live/livestream.m3u8
- hls_entry_prefix: the base URL for ts. Optional and defaults to an empty string.
For ts: live/livestream-0.ts
When config: hls_entry_prefix http://your-server;
The ts url generated to: http://your-server/live/livestream-0.ts
- hls_mount: The mount of m3u8/ts ram, refer to
mount
ofhttp_remux
at http_remux - hls_acodec: the default audio codec of hls. When the codec is changed, write the PAT/PMT table, but maybe okay until the next ts. So user can set the default codec for mp3.
- hls_vcodec: the default video codec of hls. When the codec is changed, write the PAT/PMT table, but maybe okay until next ts. So user can set the default codec for pure audio (without video) to vn.
- hls_cleanup: whether to cleanup the expired ts files, which exceed the hls_window.
- hls_dispose: the timeout in seconds to remove all hls files, the m3u8 and ts files. When the server restarts or exceeds this timeout, it removes all the hls files. Defaults to 0, which never cleans up the timeout pieces.
- hls_wait_keyframe: whether reap the ts base on top, that is, reap when got keyframe.
- hls_nb_notify: the maximum number of bytes to read from the notify server.
- on_hls: callback when ts generated.
- on_hls_notify: callback when ts generated, use [ts_url] as a variable, uses GET method. Can be used to push ts files to can network.
For how to deploy SRS to deliver HLS, read Usage: HLS
To configure on_hls
for HTTP hooks, you should configure them in the http_hooks
section, not in the hls section.
Remark: The HLS fault backup can base on this callback, read #351
To configure the on_hls_notify
for pushing ts files to can network, you should configure them in the http_hooks
section, not in the hls section.
SRS support delivering pure audio stream by HLS. The audio codec requires AAC, user must transcode other codecs to AAC, read Usage: Transcode2HLS
For information about dropping video, read Transcode: Disable Stream
There is no special configuration for pure audio for HLS. Please read Usage: HLS
All streams published by forwarding will output HLS when HLS is enabled.
Users should use transcoding to ensure the video codec is H.264 and the audio codec is AAC/MP3, because H.264+AAC/MP3 is required by HLS.
The below transcoding configuration sets the gop to keep ts duration small:
vhost hls.transcode.vhost.com {
transcode {
enabled on;
ffmpeg ./objs/ffmpeg/bin/ffmpeg;
engine hls {
enabled on;
vfilter {
}
vcodec libx264;
vbitrate 500;
vfps 20;
vwidth 768;
vheight 320;
vthreads 2;
vprofile baseline;
vpreset superfast;
vparams {
g 100;
}
acodec libaacplus;
abitrate 45;
asample_rate 44100;
achannels 2;
aparams {
}
output rtmp://127.0.0.1:[port]/[app]?vhost=[vhost]/[stream]_[engine];
}
}
}
The gop is 100/20=5s, where fps specified by vfps is 20, and gop frames specified by g is 100.
SRS does not support HLS multiple bitrates.
http://ossrs.net/hls/live.m3u8
#EXTM3U
#EXT-X-VERSION:3
#EXT-X-ALLOW-CACHE:YES
#EXT-X-TARGETDURATION:13
#EXT-X-MEDIA-SEQUENCE:430
#EXTINF:11.800
news-430.ts
#EXTINF:10.120
news-431.ts
#EXTINF:11.160
news-432.ts
http://ossrs.net/hls/event.m3u8
#EXTM3U
#EXT-X-VERSION:3
#EXT-X-ALLOW-CACHE:YES
#EXT-X-TARGETDURATION:13
#EXT-X-MEDIA-SEQUENCE:430
#EXT-X-PLAYLIST-TYPE:EVENT
#EXTINF:11.800
news-430.ts
#EXTINF:10.120
news-431.ts
#EXTINF:11.160
news-432.ts
#EXTM3U
#EXT-X-VERSION:3
#EXT-X-ALLOW-CACHE:YES
#EXT-X-PLAYLIST-TYPE:VOD
#EXT-X-TARGETDURATION:12
#EXTINF:10.120,
livestream-184.ts
#EXTINF:10.029,
livestream-185.ts
#EXTINF:10.206,
livestream-186.ts
#EXTINF:10.160,
livestream-187.ts
#EXTINF:11.360,
livestream-188.ts
#EXTINF:9.782,
livestream-189.ts
#EXT-X-ENDLIST
#EXTM3U
#EXT-X-VERSION:3
#EXT-X-ALLOW-CACHE:YES
#EXT-X-TARGETDURATION:13
#EXT-X-MEDIA-SEQUENCE:430
#EXT-X-PLAYLIST-TYPE:VOD
#EXTINF:11.800
news-430.ts
#EXTINF:10.120
news-431.ts
#EXT-X-DISCONTINUITY
#EXTINF:11.952
news-430.ts
#EXTINF:12.640
news-431.ts
#EXTINF:11.160
news-432.ts
#EXT-X-DISCONTINUITY
#EXTINF:11.751
news-430.ts
#EXTINF:2.040
news-431.ts
#EXT-X-ENDLIST
SRS supports HLS delivery from RAM, without writing m3u8/ts to disk. Read 136
For an example configuration, refer to conf/ram.hls.conf
:
http_server {
enabled on;
listen 8080;
dir ./objs/nginx/html;
}
vhost __defaultVhost__ {
hls {
enabled on;
hls_fragment 10;
hls_window 60;
hls_storage ram;
hls_mount /[app]/[stream].m3u8;
}
}
Note: The HTTP server must enabled.
For example, if RTMP is published at rtmp://192.168.1.173/live/livestream
, the HLS stream URL will be http://192.168.1.173:8080/live/livestream.m3u8
For information about configuration, read Config
The HLS of SRS1 refers to nginx-rtmp.
SRS2 already rewrites the HLS strictly following the HLS specification.
Winlin 2015.2
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