linuxserver/jellyfin¶
Jellyfin is a Free Software Media System that puts you in control of managing and streaming your media. It is an alternative to the proprietary Emby and Plex, to provide media from a dedicated server to end-user devices via multiple apps. Jellyfin is descended from Emby's 3.5.2 release and ported to the .NET Core framework to enable full cross-platform support. There are no strings attached, no premium licenses or features, and no hidden agendas: just a team who want to build something better and work together to achieve it.
Supported Architectures¶
We utilise the docker manifest for multi-platform awareness. More information is available from docker here and our announcement here.
Simply pulling lscr.io/linuxserver/jellyfin:latest
should retrieve the correct image for your arch, but you can also pull specific arch images via tags.
The architectures supported by this image are:
Architecture | Available | Tag |
---|---|---|
x86-64 | ✅ | amd64-<version tag> |
arm64 | ✅ | arm64v8-<version tag> |
armhf | ❌ |
Version Tags¶
This image provides various versions that are available via tags. Please read the descriptions carefully and exercise caution when using unstable or development tags.
Tag | Available | Description |
---|---|---|
latest | ✅ | Stable Jellyfin releases |
nightly | ✅ | Nightly Jellyfin releases |
Application Setup¶
Webui can be found at http://<your-ip>:8096
More information can be found on the official documentation here.
Hardware Acceleration Enhancements¶
This section lists the enhancements we have made for hardware acceleration in this image specifically.
Intel¶
To enable the OpenCL based DV, HDR10 and HLG tone-mapping, please refer to the OpenCL-Intel mod from here:
https://mods.linuxserver.io/?mod=jellyfin
OpenMAX (Raspberry Pi)¶
Hardware acceleration users for Raspberry Pi MMAL/OpenMAX will need to mount their /dev/vcsm
and /dev/vchiq
video devices inside of the container and their system OpenMax libs by passing the following options when running or creating the container:
V4L2 (Raspberry Pi)¶
Hardware acceleration users for Raspberry Pi V4L2 will need to mount their /dev/video1X
devices inside of the container by passing the following options when running or creating the container:
--device=/dev/video10:/dev/video10
--device=/dev/video11:/dev/video11
--device=/dev/video12:/dev/video12
Hardware Acceleration¶
Many desktop applications need access to a GPU to function properly and even some Desktop Environments have compositor effects that will not function without a GPU. However this is not a hard requirement and all base images will function without a video device mounted into the container.
Intel/ATI/AMD¶
To leverage hardware acceleration you will need to mount /dev/dri video device inside of the container.
We will automatically ensure the abc user inside of the container has the proper permissions to access this device.
Nvidia¶
Hardware acceleration users for Nvidia will need to install the container runtime provided by Nvidia on their host, instructions can be found here: https://github.com/NVIDIA/nvidia-container-toolkit
We automatically add the necessary environment variable that will utilise all the features available on a GPU on the host. Once nvidia-container-toolkit is installed on your host you will need to re/create the docker container with the nvidia container runtime --runtime=nvidia
and add an environment variable -e NVIDIA_VISIBLE_DEVICES=all
(can also be set to a specific gpu's UUID, this can be discovered by running nvidia-smi --query-gpu=gpu_name,gpu_uuid --format=csv
). NVIDIA automatically mounts the GPU and drivers from your host into the container.
Arm Devices¶
Best effort is made to install tools to allow mounting in /dev/dri on Arm devices. In most cases if /dev/dri exists on the host it should just work. If running a Raspberry Pi 4 be sure to enable dtoverlay=vc4-fkms-v3d
in your usercfg.txt.
Usage¶
To help you get started creating a container from this image you can either use docker-compose or the docker cli.
docker-compose (recommended, click here for more info)¶
---
services:
jellyfin:
image: lscr.io/linuxserver/jellyfin:latest
container_name: jellyfin
environment:
- PUID=1000
- PGID=1000
- TZ=Etc/UTC
- JELLYFIN_PublishedServerUrl=192.168.0.5 #optional
volumes:
- /path/to/library:/config
- /path/to/tvseries:/data/tvshows
- /path/to/movies:/data/movies
ports:
- 8096:8096
- 8920:8920 #optional
- 7359:7359/udp #optional
- 1900:1900/udp #optional
restart: unless-stopped
docker cli (click here for more info)¶
docker run -d \
--name=jellyfin \
-e PUID=1000 \
-e PGID=1000 \
-e TZ=Etc/UTC \
-e JELLYFIN_PublishedServerUrl=192.168.0.5 `#optional` \
-p 8096:8096 \
-p 8920:8920 `#optional` \
-p 7359:7359/udp `#optional` \
-p 1900:1900/udp `#optional` \
-v /path/to/library:/config \
-v /path/to/tvseries:/data/tvshows \
-v /path/to/movies:/data/movies \
--restart unless-stopped \
lscr.io/linuxserver/jellyfin:latest
Parameters¶
Containers are configured using parameters passed at runtime (such as those above). These parameters are separated by a colon and indicate <external>:<internal>
respectively. For example, -p 8080:80
would expose port 80
from inside the container to be accessible from the host's IP on port 8080
outside the container.
Ports (-p
)¶
Parameter | Function |
---|---|
8096 | Http webUI. |
8920 | Optional - Https webUI (you need to set up your own certificate). |
7359/udp | Optional - Allows clients to discover Jellyfin on the local network. |
1900/udp | Optional - Service discovery used by DNLA and clients. |
Environment Variables (-e
)¶
Env | Function |
---|---|
PUID=1000 | for UserID - see below for explanation |
PGID=1000 | for GroupID - see below for explanation |
TZ=Etc/UTC | specify a timezone to use, see this list. |
JELLYFIN_PublishedServerUrl=192.168.0.5 | Set the autodiscovery response domain or IP address. |
Volume Mappings (-v
)¶
Volume | Function |
---|---|
/config | Jellyfin data storage location. This can grow very large, 50gb+ is likely for a large collection. |
/data/tvshows | Media goes here. Add as many as needed e.g. /data/movies , /data/tv , etc. |
/data/movies | Media goes here. Add as many as needed e.g. /data/movies , /data/tv , etc. |
Miscellaneous Options¶
Parameter | Function |
---|---|
Environment variables from files (Docker secrets)¶
You can set any environment variable from a file by using a special prepend FILE__
.
As an example:
Will set the environment variable MYVAR
based on the contents of the /run/secrets/mysecretvariable
file.
Umask for running applications¶
For all of our images we provide the ability to override the default umask settings for services started within the containers using the optional -e UMASK=022
setting. Keep in mind umask is not chmod it subtracts from permissions based on it's value it does not add. Please read up here before asking for support.
Optional Parameters¶
The official documentation for ports has additional ports that can provide auto discovery.
Service Discovery (1900/udp
) - Since client auto-discover would break if this option were configurable, you cannot change this in the settings at this time. DLNA also uses this port and is required to be in the local subnet.
Client Discovery (7359/udp
) - Allows clients to discover Jellyfin on the local network. A broadcast message to this port with "Who is Jellyfin Server?" will get a JSON response that includes the server address, ID, and name.
The official documentation for environmentals has additional environmentals that can provide additional configurability such as migrating to the native Jellyfin image.
User / Group Identifiers¶
When using volumes (-v
flags), permissions issues can arise between the host OS and the container, we avoid this issue by allowing you to specify the user PUID
and group PGID
.
Ensure any volume directories on the host are owned by the same user you specify and any permissions issues will vanish like magic.
In this instance PUID=1000
and PGID=1000
, to find yours use id your_user
as below:
Example output:
Docker Mods¶
We publish various Docker Mods to enable additional functionality within the containers. The list of Mods available for this image (if any) as well as universal mods that can be applied to any one of our images can be accessed via the dynamic badges above.
Support Info¶
-
Shell access whilst the container is running:
-
To monitor the logs of the container in realtime:
-
Container version number:
-
Image version number:
Updating Info¶
Most of our images are static, versioned, and require an image update and container recreation to update the app inside. With some exceptions (noted in the relevant readme.md), we do not recommend or support updating apps inside the container. Please consult the Application Setup section above to see if it is recommended for the image.
Below are the instructions for updating containers:
Via Docker Compose¶
-
Update images:
-
All images:
-
Single image:
-
-
Update containers:
-
All containers:
-
Single container:
-
-
You can also remove the old dangling images:
Via Docker Run¶
-
Update the image:
-
Stop the running container:
-
Delete the container:
-
Recreate a new container with the same docker run parameters as instructed above (if mapped correctly to a host folder, your
/config
folder and settings will be preserved) -
You can also remove the old dangling images:
Image Update Notifications - Diun (Docker Image Update Notifier)¶
Tip
We recommend Diun for update notifications. Other tools that automatically update containers unattended are not recommended or supported.
Building locally¶
If you want to make local modifications to these images for development purposes or just to customize the logic:
git clone https://github.com/linuxserver/docker-jellyfin.git
cd docker-jellyfin
docker build \
--no-cache \
--pull \
-t lscr.io/linuxserver/jellyfin:latest .
The ARM variants can be built on x86_64 hardware using multiarch/qemu-user-static
Once registered you can define the dockerfile to use with -f Dockerfile.aarch64
.
Versions¶
- 01.05.24: - Increase verbosity of device permissions fixing.
- 12.02.24: - Use universal hardware acceleration blurb.
- 12.09.23: - Take ownership of plugin directories.
- 04.07.23: - Deprecate armhf. As announced here
- 07.12.22: - Rebase master to Jammy, migrate to s6v3.
- 11.06.22: - Switch to upstream repo's ffmpeg5 build.
- 05.01.22: - Specify Intel iHD driver versions to avoid mismatched libva errors.
- 25.12.21: - Fix video device group perms error message.
- 10.12.21: - Rework readme, disable template sync.
- 22.09.21: - Pull only the server, web and ffmpeg packages instead of the wrapper.
- 23.06.21: - Add log message if device permissions are incorrect. Pin jellyfin dependency versions to prevent upstream apt repo issues. Deprecate the
bionic
tag. - 21.05.21: - Add nvidia.icd file to fix missing tonemapping using Nvidia HW.
- 20.01.21: - Add Jellyfin Binary Environmentals
- 20.01.21: - Deprecate
UMASK_SET
in favor of UMASK in baseimage, see above for more information. - 23.11.20: - Rebase to Focal, branch off Bionic.
- 22.07.20: - Ingest releases from Jellyfin repo.
- 28.04.20: - Replace MMAL/OMX dependency device
/dev/vc-mem
with/dev/vcsm
as the former was not sufficient for raspbian. - 11.04.20: - Enable hw decode (mmal) on Raspberry Pi, update readme instructions, add donation info, create missing default transcodes folder.
- 11.03.20: - Add Pi V4L2 support, remove optional transcode mapping (location is selected in the gui, defaults to path under
/config
). - 30.01.20: - Add nightly tag.
- 09.01.20: - Add Pi OpenMax support.
- 02.10.19: - Improve permission fixing for render & dvb devices.
- 31.07.19: - Add AMD drivers for vaapi support on x86.
- 13.06.19: - Add Intel drivers for vaapi support on x86.
- 07.06.19: - Initial release.