The following starts a Bedrock Dedicated Server running a default version and exposing the default UDP port:
docker run -d -it -e EULA=TRUE -p 19132:19132/udp itzg/minecraft-bedrock-server
NOTE: if you plan on running a server for a longer amount of time it is highly recommended using a management layer such as Docker Compose or Kubernetes to allow for incremental reconfiguration and image upgrades.
With the VERSION
variable set to LATEST
, which is the default, then the Bedrock server can be upgraded by restarting the container. At every startup, the container checks for the latest version and upgrades, if needed.
For Minecraft Java Edition you'll need to use this image instead:
EULA
(no default) : must be set toTRUE
to accept the Minecraft End User License AgreementVERSION
(LATEST
) : can be set to a specific server version or the following special values can be used:LATEST
: determines the latest version and can be used to auto-upgrade on container startPREVIOUS
: uses the previously maintained major version. Useful when the mobile app is gradually being upgraded across devices1.11
: the latest version of 1.111.12
: the latest version of 1.121.13
: the latest version of 1.131.14
: the latest version of 1.141.16
: the latest version of 1.16- otherwise any specific server version can be provided to allow for temporary bug avoidance, etc
UID
(default derived from/data
owner) : can be set to a specific user ID to run the bedrock server processGID
(default derived from/data
owner) : can be set to a specific group ID to run the bedrock server processPACKAGE_BACKUP_KEEP
(2
) : how many package backups to keep
The following environment variables will set the equivalent property in server.properties
, where each is described here.
SERVER_NAME
SERVER_PORT
SERVER_PORT_V6
GAMEMODE
DIFFICULTY
LEVEL_TYPE
ALLOW_CHEATS
MAX_PLAYERS
ONLINE_MODE
WHITE_LIST
VIEW_DISTANCE
TICK_DISTANCE
PLAYER_IDLE_TIMEOUT
MAX_THREADS
LEVEL_NAME
LEVEL_SEED
DEFAULT_PLAYER_PERMISSION_LEVEL
TEXTUREPACK_REQUIRED
SERVER_AUTHORITATIVE_MOVEMENT
PLAYER_MOVEMENT_SCORE_THRESHOLD
PLAYER_MOVEMENT_DISTANCE_THRESHOLD
PLAYER_MOVEMENT_DURATION_THRESHOLD_IN_MS
CORRECT_PLAYER_MOVEMENT
For example, to configure a flat, creative server instead of the default use:
docker run -d -it --name bds-flat-creative \
-e EULA=TRUE -e LEVEL_TYPE=flat -e GAMEMODE=creative \
-p 19132:19132/udp itzg/minecraft-bedrock-server
- UDP 19132 : the Bedrock server port.
NOTE that you must append
/udp
when exposing the port, such as-p 19132:19132/udp
/data
: the location where the downloaded server is expanded and ran. Also contains the configuration properties fileserver.properties
You can create a named volume
and use it as:
docker volume create mc-volume
docker run -d -it --name mc-server -e EULA=TRUE -p 19132:19132/udp -v mc-volume:/data itzg/minecraft-bedrock-server
If you're using a named volume and want the bedrock process to run as a non-root user then you will need to pre-create the volume and chown
it to the desired user.
For example, if you want the bedrock server to run with user ID 1000 and group ID 1000, then create and chown the volume named "bedrock" using:
docker run --rm -v bedrock:/data alpine chown 1000:1000 /data
If using docker run
then simply reference that volume "bedrock" in the -v
argument. If using a compose file, declare the volume as an external using this type of declaration:
volumes:
bedrock:
external:
name: bedrock
When running the container on your LAN, you can find and connect to the dedicated server in the "LAN Games" part of the "Friends" tab, such as:
The Bedrock Dedicated Server requires permissions be defined with XUIDs. There are various tools to look these up online and they are also printed to the log when a player joins. There are 3 levels of permissions and 3 options to configure each group:
OPS
is used to define operators on the server.
-e OPS "1234567890,0987654321"
MEMBERS
is used to define the members on the server.
-e MEMBERS "1234567890,0987654321"
VISITORS
is used to define visitors on the server.
-e VISITORS "1234567890,0987654321"
There are two ways to handle a whitelist. The first is to set the WHITE_LIST
environment variable to true and map in a whitelist.json that is custom-crafted to the container. The other is to use the WHITE_LIST_USERS
environment variable to list users that should be whitelisted. This list is player names. The server will look up the names and add in the XUID to match the player.
-e WHITE_LIST_USERS="player1,player2,player3"
Starting with 1.16.230.50,
ALLOW_LIST
,ALLOW_LIST_USERS
, and the fileallowlist.json
will be used instead.
Also known as behavior or resource packs, in order to add mods into your server you can follow these steps, tested with OPS (One Player Sleep) and bedrocktweaks
- Install the mcpack or mcaddon on the client side first, just to make it easier to copy the files to the server, for Windows 10 files should be located on
C:\Users\USER\AppData\Local\Packages\Microsoft.MinecraftUWP_*\LocalState\games\com.mojang
. - Copy over the folders of the mods from either behavior_packs or resource_packs into the server's volume.
If you want to install them without using a client you should be able to unzip the mods directly into the server's volume, .mcaddon should go into behavior_packs and .mcpack into resource_packs. Both .mcaddon and .mcpack are actually renamed .zip files.
- On the server's volume we will need to edit
valid_known_packs.json
, you can just copy and paste the definition of another pack and replace path, uuid and version with the mod being installed, uuid and version can be found on the mod behavior or resource _packs/mod/manifest.json, path is the path to the mod's folder.
{
"file_system" : "RawPath",
"path" : "behavior_packs/Foxy'sOneP",
"uuid" : "5f51f7b7-85dc-44da-a3ef-a48d8414e4d5",
"version" : "3.0.0"
}
- Lastly create on the server's volume
worlds/$level-name/world_behavior_packs.json
, you'll need to add an entry for each mod like on the previous manifest.json, we only need the uuid now called pack_id and the version replacing dots with commas and double quotes with [ ].
You can also create a
worlds/$level-name/world_resource_packs.json
but I have seen that putting both resource and behavior packs inside the same json works just fine
[
{
"pack_id" : "5f51f7b7-85dc-44da-a3ef-a48d8414e4d5",
"version" : [ 3, 0, 0 ]
}
]
- Restart the server and the mods should be enabled now! when connecting you will get a prompt asking if you want to "Download & Join" or just "Join", You need to Download & Join if you want to actually see the new resource pack added to the server. This prompt is exclusive to resource packs as these alter how minecraft looks while behavior packs alter how minecraft functions and don't need to be downloaded or installed on the client side.
If you want to force the resource pack on all clients, there's an option
texturepack-required=false
inserver.properties
that should be changed totrue
. Resource packs can be deleted by going into Settings > Storage > Cached Data, then selecting the pack and clicking on the trash can.
For more information FoxyNoTail did a video explaining the same on a server running on Windows.
For more information about managing Bedrock Dedicated Servers in general, check out this Reddit post.
Assuming you started container with stdin and tty enabled (such as using -it
), you can attach to the container's console by its name or ID using:
docker attach CONTAINER_NAME_OR_ID
While attached, you can execute any server-side commands, such as op'ing your player to be admin:
op YOUR_XBOX_USERNAME
When finished, detach from the server console using Ctrl-p, Ctrl-q
The examples directory contains an example Docker compose file that declares:
- a service running the bedrock server container and exposing UDP port 19132
- a volume to be attached to the service
The service configuration includes some examples of configuring the server properties via environment variables:
environment:
EULA: "TRUE"
GAMEMODE: survival
DIFFICULTY: normal
From with in the examples
directory, you can deploy the composition by using:
docker-compose up -d
You can follow the logs using:
docker-compose logs -f bds
The examples directory contains an example Kubernetes manifest file that declares:
- a peristent volume claim (using default storage class)
- a pod deployment that uses the declared PVC
- a service of type LoadBalancer
The pod deployment includes some examples of configuring the server properties via environment variables:
env:
- name: EULA
value: "TRUE"
- name: GAMEMODE
value: survival
- name: DIFFICULTY
value: normal
The file is deploy-able as-is on most clusters, but has been confirmed on Docker for Desktop and Google Kubernetes Engine:
kubectl apply -f examples/kubernetes.yml
You can follow the logs of the deployment using:
kubectl logs -f deployment/bds
- kaiede/minecraft-bedrock-backup image by @Kaiede
- ghcr.io/edward3h/mc-webhook by @edward3h
- Minecraft Bedrock Server Bridge by @macchie