Janus is an open source, general purpose, WebRTC server designed and developed by Meetecho. This version of the server is tailored for Linux systems, although it can be compiled for, and installed on, MacOS machines as well. Windows is not supported, but if that's a requirement, Janus is known to work in the "Windows Subsystem for Linux" on Windows 10: do NOT trust repos that provide .exe builds of Janus, they are not official and will not be supported.
For some online demos and documentations, make sure you pay the project website a visit!
If you have questions on Janus, or wish to discuss Janus with us and other users, please join our meetecho-janus Google Group. If you encounter bugs, please submit an issue on GitHub: make sure you read the guidelines before opening an issue, though.
To install it, you'll need to satisfy the following dependencies:
- Jansson
- libconfig
- libnice (at least v0.1.16 suggested, master recommended)
- OpenSSL (at least v1.0.1e)
- libsrtp (at least v2.x suggested)
- usrsctp (only needed if you are interested in Data Channels)
- libmicrohttpd (at least v0.9.59; only needed if you are interested in REST support for the Janus API)
- libwebsockets (only needed if you are interested in WebSockets support for the Janus API)
- cmake (only needed if you are interested in WebSockets and/or BoringSSL support, as they make use of it)
- rabbitmq-c (only needed if you are interested in RabbitMQ support for the Janus API or events)
- paho.mqtt.c (only needed if you are interested in MQTT support for the Janus API or events)
- nanomsg (only needed if you are interested in Nanomsg support for the Janus API)
- libcurl (only needed if you are interested in the TURN REST API support)
A couple of plugins depend on a few more libraries:
- Sofia-SIP (only needed for the SIP plugin)
- libopus (only needed for the AudioBridge plugin)
- libogg (needed for the VoiceMail plugin and/or post-processor, and optionally AudioBridge and Streaming plugins)
- libcurl (only needed if you are interested in RTSP support in the Streaming plugin or in the sample Event Handler plugin)
- Lua (only needed for the Lua plugin)
Additionally, you'll need the following libraries and tools:
All of those libraries are usually available on most of the most common distributions. Installing these libraries on a recent Fedora, for instance, is very simple:
yum install libmicrohttpd-devel jansson-devel \
openssl-devel libsrtp-devel sofia-sip-devel glib2-devel \
opus-devel libogg-devel libcurl-devel pkgconfig gengetopt \
libconfig-devel libtool autoconf automake
Notice that you may have to yum install epel-release
as well if you're attempting an installation on a CentOS machine instead.
On Ubuntu or Debian, it would require something like this:
aptitude install libmicrohttpd-dev libjansson-dev \
libssl-dev libsrtp-dev libsofia-sip-ua-dev libglib2.0-dev \
libopus-dev libogg-dev libcurl4-openssl-dev liblua5.3-dev \
libconfig-dev pkg-config gengetopt libtool automake
- Note: please notice that libopus may not be available out of the box on your distro. In that case, you'll have to install it manually.
While libnice
is typically available in most distros as a package, the version available out of the box in Ubuntu is known to cause problems. As such, we always recommend manually compiling and installing the master version of libnice.
To build libnice, you need Python 3, Meson and Ninja:
git clone https://gitlab.freedesktop.org/libnice/libnice
cd libnice
meson --prefix=/usr build && ninja -C build && sudo ninja -C build install
- Note: Make sure you remove the distro version first, or you'll cause conflicts between the installations. In case you want to keep both for some reason, for custom installations of libnice you can also run
pkg-config --cflags --libs nice
to make sure Janus can find the right installation. If that fails, you may need to set thePKG_CONFIG_PATH
environment variable prior to compiling Janus, e.g.,export PKG_CONFIG_PATH=/path/to/libnice/lib/pkgconfig
In case you're interested in compiling the sample Event Handler plugin, you'll need to install the development version of libcurl as well (usually libcurl-devel
on Fedora/CentOS, libcurl4-openssl-dev
on Ubuntu/Debian).
If your distro ships a pre-1.5 version of libsrtp, you'll have to uninstall that version and install 1.5.x, 1.6.x or 2.x manually. In fact, 1.4.x is known to cause several issues with WebRTC. While 1.5.x is supported, we recommend installing 2.x instead Notice that the following steps are for version 2.2.0, but there may be more recent versions available:
wget https://github.com/cisco/libsrtp/archive/v2.2.0.tar.gz
tar xfv v2.2.0.tar.gz
cd libsrtp-2.2.0
./configure --prefix=/usr --enable-openssl
make shared_library && sudo make install
Notice that the --enable-openssl
part is important, as it's needed for AES-GCM support. As an alternative, you can also pass --enable-nss
to have libsrtp use NSS instead of OpenSSL. A failure to configure libsrtp with either might cause undefined references when starting Janus, as we'd be trying to use methods that aren't there.
The Janus configure script autodetects which one you have installed and links to the correct library automatically, choosing 2.x if both are installed. If you want 1.5 or 1.6 to be picked (which is NOT recommended), pass --disable-libsrtp2
when configuring Janus to force it to use the older version instead.
- Note: when installing libsrtp, no matter which version, you may need to pass
--libdir=/usr/lib64
to the configure script if you're installing on a x86_64 distribution.
If you want to make use of BoringSSL instead of OpenSSL (e.g., because you want to take advantage of --enable-dtls-settimeout
), you'll have to manually install it to a specific location. Use the following steps:
git clone https://boringssl.googlesource.com/boringssl
cd boringssl
# Don't barf on errors
sed -i s/" -Werror"//g CMakeLists.txt
# Build
mkdir -p build
cd build
cmake -DCMAKE_CXX_FLAGS="-lrt" ..
make
cd ..
# Install
sudo mkdir -p /opt/boringssl
sudo cp -R include /opt/boringssl/
sudo mkdir -p /opt/boringssl/lib
sudo cp build/ssl/libssl.a /opt/boringssl/lib/
sudo cp build/crypto/libcrypto.a /opt/boringssl/lib/
Once the library is installed, you'll have to pass an additional --enable-boringssl
flag to the configure script, as by default Janus will be built assuming OpenSSL will be used. By default, Janus expects BoringSSL to be installed in /opt/boringssl
-- if it's installed in another location, pass the path to the configure script as such: --enable-boringssl=/path/to/boringssl
If you were using OpenSSL and want to switch to BoringSSL, make sure you also do a make clean
in the Janus folder before compiling with the new BoringSSL support. If you enabled BoringSSL support and also want Janus to detect and react to DTLS timeouts with faster retransmissions, then pass --enable-dtls-settimeout
to the configure script too.
For what concerns usrsctp, which is needed for Data Channels support, it is usually not available in repositories, so if you're interested in them (support is optional) you'll have to install it manually. It is a pretty easy and standard process:
git clone https://github.com/sctplab/usrsctp
cd usrsctp
./bootstrap
./configure --prefix=/usr --disable-programs --disable-inet --disable-inet6
make && sudo make install
- Note: you may need to pass
--libdir=/usr/lib64
to the configure script if you're installing on a x86_64 distribution.
The same applies for libwebsockets, which is needed for the optional WebSockets support. If you're interested in supporting WebSockets to control Janus, as an alternative (or replacement) to the default plain HTTP REST API, you'll have to install it manually:
git clone https://libwebsockets.org/repo/libwebsockets
cd libwebsockets
# If you want the stable version of libwebsockets, uncomment the next line
# git checkout v3.2-stable
mkdir build
cd build
# See https://github.com/meetecho/janus-gateway/issues/732 re: LWS_MAX_SMP
cmake -DLWS_MAX_SMP=1 -DCMAKE_INSTALL_PREFIX:PATH=/usr -DCMAKE_C_FLAGS="-fpic" ..
make && sudo make install
-
Note: if libwebsockets.org is unreachable for any reason, replace the first line with this:
The same applies for Eclipse Paho MQTT C client library, which is needed for the optional MQTT support. If you're interested in integrating MQTT channels as an alternative (or replacement) to HTTP and/or WebSockets to control Janus, or as a carrier of Janus Events, you can install the latest version with the following steps:
git clone https://github.com/eclipse/paho.mqtt.c.git
cd paho.mqtt.c
make && sudo make install
- Note: you may want to set up a different install path for the library, to achieve that, replace the last command by 'sudo prefix=/usr make install'.
In case you're interested in Nanomsg support, you'll need to install the related C library. It is usually available as an easily installable package in pretty much all repositories. The following is an example on how to install it on Ubuntu:
aptitude install libnanomsg-dev
Finally, the same can be said for rabbitmq-c as well, which is needed for the optional RabbitMQ support. In fact, several different versions of the library can be found, and the versions usually available in most distribution repositories are not up-do-date with respect to the current state of the development. As such, if you're interested in integrating RabbitMQ queues as an alternative (or replacement) to HTTP and/or WebSockets to control Janus, you can install the latest version with the following steps:
git clone https://github.com/alanxz/rabbitmq-c
cd rabbitmq-c
git submodule init
git submodule update
mkdir build && cd build
cmake -DCMAKE_INSTALL_PREFIX=/usr ..
make && sudo make install
- Note: you may need to pass
--libdir=/usr/lib64
to the configure script if you're installing on a x86_64 distribution.
To conclude, should you be interested in building the Janus documentation as well, you'll need some additional tools too:
On Fedora:
yum install doxygen graphviz
On Ubuntu/Debian:
aptitude install doxygen graphviz
Once you have installed all the dependencies, get the code:
git clone https://github.com/meetecho/janus-gateway.git
cd janus-gateway
Then just use:
sh autogen.sh
to generate the configure file. After that, configure and compile as usual to start the whole compilation process:
./configure --prefix=/opt/janus
make
make install
Since Janus requires configuration files for both the core and its modules in order to work, you'll probably also want to install the default configuration files to use, which you can do this way:
make configs
Remember to only do this once, or otherwise a subsequent make configs
will overwrite any configuration file you may have modified in the meanwhile.
If you've installed the above libraries but are not interested, for instance, in Data Channels, WebSockets, MQTT and/or RabbitMQ, you can disable them when configuring:
./configure --disable-websockets --disable-data-channels --disable-rabbitmq --disable-mqtt
There are configuration flags for pretty much all external modules and many of the features, so you may want to issue a ./configure --help
to dig through the available options. A summary of what's going to be built will always appear after you do a configure, allowing you to double check if what you need and don't need is there.
If Doxygen and graphviz are available, the process can also build the documentation for you. By default the compilation process will not try to build the documentation, so if you instead prefer to build it, use the --enable-docs
configuration option:
./configure --enable-docs
You can also selectively enable/disable other features (e.g., specific plugins you don't care about, or whether or not you want to build the recordings post-processor). Use the --help option when configuring for more info.
While most of the above instructions will work when compiling Janus on MacOS as well, there are a few aspects to highlight when doing that.
First of all, you can use brew
to install most of the dependencies:
brew install jansson libnice openssl srtp libusrsctp libmicrohttpd \
libwebsockets cmake rabbitmq-c sofia-sip opus libogg curl glib \
libconfig pkg-config gengetopt autoconf automake libtool
For what concerns libwebsockets, though, make sure that the installed version is higher than 2.4.1
, or you might encounter the problems described in this post. If brew
doesn't provide a more recent version, you'll have to install the library manually.
Notice that you may need to provide a custom prefix
and PKG_CONFIG_PATH
when configuring Janus as well, e.g.:
./configure --prefix=/usr/local/janus PKG_CONFIG_PATH=/usr/local/opt/openssl/lib/pkgconfig
Everything else works exactly the same way as on Linux.
To start the server, you can use the janus
executable. There are several things you can configure, either in a configuration file:
<installdir>/etc/janus/janus.jcfg
or on the command line:
<installdir>/bin/janus --help
Usage: janus [OPTIONS]...
-h, --help Print help and exit
-V, --version Print version and exit
-b, --daemon Launch Janus in background as a daemon
(default=off)
-p, --pid-file=path Open the specified PID file when starting Janus
(default=none)
-N, --disable-stdout Disable stdout based logging (default=off)
-L, --log-file=path Log to the specified file (default=stdout only)
-H --cwd-path Working directory for Janus daemon process
(default=/)
-i, --interface=ipaddress Interface to use (will be the public IP)
-P, --plugins-folder=path Plugins folder (default=./plugins)
-C, --config=filename Configuration file to use
-F, --configs-folder=path Configuration files folder (default=./conf)
-c, --cert-pem=filename DTLS certificate
-k, --cert-key=filename DTLS certificate key
-K, --cert-pwd=text DTLS certificate key passphrase (if needed)
-S, --stun-server=filename STUN server(:port) to use, if needed (e.g.,
Janus behind NAT, default=none)
-1, --nat-1-1=ip Public IP to put in all host candidates,
assuming a 1:1 NAT is in place (e.g., Amazon
EC2 instances, default=none)
-2, --keep-private-host When nat-1-1 is used (e.g., Amazon EC2
instances), don't remove the private host,
but keep both to simulate STUN (default=off)
-E, --ice-enforce-list=list Comma-separated list of the only interfaces to
use for ICE gathering; partial strings are
supported (e.g., eth0 or eno1,wlan0,
default=none)
-X, --ice-ignore-list=list Comma-separated list of interfaces or IP
addresses to ignore for ICE gathering;
partial strings are supported (e.g.,
vmnet8,192.168.0.1,10.0.0.1 or
vmnet,192.168., default=vmnet)
-6, --ipv6-candidates Whether to enable IPv6 candidates or not
(experimental) (default=off)
-l, --libnice-debug Whether to enable libnice debugging or not
(default=off)
-f, --full-trickle Do full-trickle instead of half-trickle
(default=off)
-I, --ice-lite Whether to enable the ICE Lite mode or not
(default=off)
-T, --ice-tcp Whether to enable ICE-TCP or not (warning: only
works with ICE Lite)
(default=off)
-Q, --min-nack-queue=number Minimum size of the NACK queue (in ms) per user
for retransmissions, no matter the RTT
-t, --no-media-timer=number Time (in s) that should pass with no media
(audio or video) being received before Janus
notifies you about this
-W, --slowlink-threshold=number
Number of lost packets (per s) that should
trigger a 'slowlink' Janus API event to users
-r, --rtp-port-range=min-max Port range to use for RTP/RTCP (only available
if the installed libnice supports it)
-B, --twcc-period=number How often (in ms) to send TWCC feedback back to
senders, if negotiated (default=200ms)
-n, --server-name=name Public name of this Janus instance
(default=MyJanusInstance)
-s, --session-timeout=number Session timeout value, in seconds (default=60)
-m, --reclaim-session-timeout=number
Reclaim session timeout value, in seconds
(default=0)
-d, --debug-level=1-7 Debug/logging level (0=disable debugging,
7=maximum debug level; default=4)
-D, --debug-timestamps Enable debug/logging timestamps (default=off)
-o, --disable-colors Disable color in the logging (default=off)
-M, --debug-locks Enable debugging of locks/mutexes (very
verbose!) (default=off)
-a, --apisecret=randomstring API secret all requests need to pass in order
to be accepted by Janus (useful when wrapping
Janus API requests in a server, none by
default)
-A, --token-auth Enable token-based authentication for all
requests (default=off)
-e, --event-handlers Enable event handlers (default=off)
-w, --no-webrtc-encryption Disable WebRTC encryption, so no DTLS or SRTP
(only for debugging!) (default=off)
Options passed through the command line have the precedence on those specified in the configuration file. To start the server, simply run:
<installdir>/bin/janus
This will start the server, and have it look at the configuration file.
Make sure you have a look at all of the configuration files, to tailor Janus to your specific needs: each configuration file is documented, so it shouldn't be hard to make changes according to your requirements. The repo comes with some defaults (assuming you issues make configs
after installing the server) that tend to make sense for generic deployments, and also includes some sample configurations for all the plugins (e.g., web servers to listen on, conference rooms to create, streaming mountpoints to make available at startup, etc.).
To test whether it's working correctly, you can use the demos provided with this package in the html
folder: these are exactly the same demos available online on the project website. Just copy the file it contains in a webserver, or use a userspace webserver to serve the files in the html
folder (e.g., with php or python), and open the index.html
page in either Chrome or Firefox. A list of demo pages exploiting the different plugins will be available. Remember to edit the transport/port details in the demo JavaScript files if you changed any transport-related configuration from its defaults. Besides, the demos refer to the pre-configured plugin resources, so if you add some new resources (e.g., a new videoconference) you may have to tweak the demo pages to actually use them.
Janus is thoroughly documented. You can find the current documentation, automatically generated with Doxygen, on the project website.
Any thought, feedback or (hopefully not!) insult is welcome!
Developed by @meetecho