OvenMediaEngine supports the Docker image from AirenSoft's Docker Hub (airensoft/ovenmediaengine) repository. After installing Docker, you can simply run the following command:
You can set the following environment variables.
OvenMediaEngine can work with a variety of open-sources and libraries. First, install them on your clean Linux machine as described below. We think that OME can support most Linux packages, but the tested platforms we use are Ubuntu 18+, Fedora 28+, and CentOS 7+.
If the prerequisites.sh script fails, proceed with the manual installation.
You can build the OvenMediaEngine source using the following command:
In addition, we recommend that you permanently set environment variables as follows.
if systemctl start ovenmediaengine
fails in Fedora, SELinux may be the cause. See Check SELinux section of Troubleshooting.
The default configuration uses the following ports, so you need to open it in your firewall settings.
You can open firewall ports as in the following example:
You can live streaming using live encoders such as OBS, XSplit, and OvenStreamEncoder. Please set the RTMP URL as below:
rtmp://<Server IP>[:<RTMP Port>]/<Application name>/<Stream name>
The meanings of each item are as follows:
<Server IP>
: IP address or domain of the OvenMediaEngine server.
<RTMP Port>
: You can use <Port>
of <Provider>
in the above Server.xml
file. With the default configuration, the RTMP default port (1935) is used. Also, by setting the default port, you can omit the port.
<Application name>
: This value corresponds to <Name>
of <Application>
in conf/Server.xml
. If you use the default configuration, you can use the app
.
<Stream name>
: Name of the stream you defined.
After you enter the above RTMP URL into the encoder and start publishing, you will have an environment in which the player can view the live stream.
OvenLiveKit is a transmission SDK. So, you can easily add broadcast transmission functions to your apps using this SDK. And OvenStreamEncoder is a sample app that shows you can make and use it with OvenLiveKit. You can use it by searching OvenStreamEncoder in Google Play.
OvenStreamEncoder supports the mode that implements the streaming of the screen recorded by a camera and another that performs the streaming of the current screen by capturing it.
So, select the mode along with the broadcasting concept you want and proceed with the optimum setting by pressing the Setting icon at this right upper position.
After broadcast setting, return to the original screen, press the URL button at right upper, and input RTMP URL and Stream Key to transmitting.
If all preparation is ready, begin the broadcast by pressing the Recording button at the center bottom.
Also, we ran tests to see how well OvenStreamEnocder is optimized for OvenMediaEngine. If you are interested, click HERE to check.
The server address in OBS needs to use <Application name>
generated in Server.xml
. If you use the default configuration, the app is already created and ready to use.
Install OBS on your PC and run it.
Click "File" in the top menu, then click "Settings" (or press "Settings" on the lower right).
Select the "Stream" tab and enter your stream information.
Go to the "Output" tab.
Set the following entries.
For lower latency, we recommend using the Hardware Encoder as follows: "NVENC" provides a Low-Latency preset. It's also important to set "MAX B-frame = 0" to reduce latency.
If Hardware Encoder isn't installed on your PC, it's recommended to set x264 as follows: We highly recommend setting "bframes = 0" to reduce latency. Then set the "threads" option to 8 or less. Chrome doesn't handle more than 10 Nal Units. The best way to avoid this is to set "thread = 8".
We recommend checking "Enable new networking code" and "Low latency mode" on Network in Advanced Settings as follows:
We have prepared a test player so that you can easily check if OvenMediaEngine is working properly. Please see the chapter on Test Player for more information.
Please note that WebRTC Signalling URL is similar to the RTMP URL and consists of the following:
ws://<Server IP>:[<Signalling Port>/<Application name>/<Output Stream name>[?transport=tcp]
<Server IP>
: IP address or domain of the OvenMediaEngine server.
<Signalling Port>
: You can use the value of <Signalling><ListenPort>
in Server.xml
above. If you use the default configuration, the WebRTC Signalling default port (3333) is used.
<Application name>
: This value corresponds to <Name>
of <Application>
in conf/Server.xml
. If you use the default configuration, you can use the app
.
<Output Stream name>
: You have to use an output stream name for streaming. If you use the default configuration, an output stream named <Stream Name>
is automatically generated when the stream is input.
?transport=tcp
: You can use this query string to play through webrtc over tcp. Useful in environments with severe packet loss.
As of version 0.10.4, the default output stream name has been changed from <Input Stream Name>_o to <Input Stream Name>, and has been updated to use the input stream name as the output stream name for convenience.
If you use the default configuration, the RTMP publishing URL is rtmp://192.168.0.1:1935/app/stream
Then the WebRTC URL will bews://192.168.0.1:3333/app/stream
In addition,
WebRTC over TCP URL will be ws://192.168.0.1:3333/app/stream?transport=tcp
HLS streaming URL will behttp://192.168.0.1:8080/app/stream/playlist.m3u8
MPEG-DASH streaming URL will behttp://192.168.0.1:8080/app/stream/manifest.mpd
Low-Latency MPEG-DASH streaming URL will be http://192.168.0.1:8080/app/stream/manifest_ll.mpd
If you want to build OvenPlayer in your environment, see OvenPlayer QuickStart.
Env
Default Value
OME_ORIGIN_PORT
9000
OME_RTMP_PROV_PORT
1935
OME_SRT_PROV_PORT
9999/udp
OME_MPEGTS_PROV_PORT
4000-4005/udp
OME_HLS_PUB_PORT
8080
OME_DASH_PUB_PORT
8080
OME_TCP_RELAY_ADDRESS
*:3478
OME_ICE_CANDIDATES
*:10006-10010/udp
OME_SIGNALLING_PORT
3333
Port
Purpose
1935/TCP
RTMP Input
9999/UDP
SRT Input
4000-4005/UDP
MPEG-2 TS Input
9000/TCP
Origin Server (OVT)
80/TCP
HLS & MPEG-Dash Streaming
3333/TCP
WebRTC Signalling (both ingest and streaming)
3478/TCP
WebRTC TCP relay (TURN Server, both ingest and streaming)
10000 - 10010/UDP
WebRTC Ice candidate (both ingest and streaming)