QuakeKube is a Kubernetes-ified version of QuakeJS that runs a dedicated Quake 3 server in a Kubernetes Deployment, and then allow clients to connect via QuakeJS in the browser.
Deploy the example manifest:
$ kubectl apply -f https://raw.githubusercontent.com/criticalstack/quake-kube/master/example.yaml
Start an instance of Kubernetes locally using cinder (or kind):
$ cinder create cluster
Deploy the example manifest:
$ kubectl apply -f example.yaml
Finally, navigate to https://$(cinder get ip):30001
in the browser.
QuakeKube makes use of ioquake for the Quake 3 dedicated server, and QuakeJS, a port of ioquake to javascript using Emscripten, to provide an in-browser game client.
The client/server protocol of Quake 3 uses UDP to synchronize game state. Browsers do not natively support sending UDP packets so QuakeJS wraps the client and dedicated server net code in websockets, allowing the browser-based clients to send messages and enable multiplayer for other clients. This ends up preventing the browser client from using any other Quake 3 dedicated server. In order to use other Quake 3 dedicated servers, a proxy handles websocket traffic coming from browser clients and translates that into UDP to the backend. This gives the flexibility of being able to talk to other existing Quake 3 servers, but also allows using ioquake (instead of the javascript translation of it), which uses considerably less CPU and memory.
QuakeKube also uses a cool trick with cmux to multiplex the client and websocket traffic into the same connection. Having all the traffic go through the same address makes routing a client to its backend much easier (since it can just use its document.location.host
).
The Quake 3 dedicated server requires an End-User License Agreement be agreed to by the user before distributing the Quake 3 demo files that are used (maps, textures, etc). To ensure that the installer is aware of, and agrees to, this EULA, the flag --agree-eula
must be passed to q3 server
at runtime. This flag is not set by default in the container image and is therefore required for the dedicated server to pass the prompt for EULA. The example.yaml manifest demonstrates usage of this flag to agree to the EULA.
The server and maps are configured via ConfigMap that is mounted to the container:
apiVersion: v1
kind: ConfigMap
metadata:
name: quake3-server-config
data:
config.yaml: |
fragLimit: 25
timeLimit: 15m
game:
motd: "Welcome to Critical Stack"
type: FreeForAll
forceRespawn: false
inactivity: 10m
quadFactor: 3
weaponRespawn: 3
server:
hostname: "quakekube"
maxClients: 12
password: "changeme"
maps:
- name: q3dm7
type: FreeForAll
- name: q3dm17
type: FreeForAll
- name: q3wctf1
type: CaptureTheFlag
captureLimit: 8
- name: q3tourney2
type: Tournament
- name: q3wctf3
type: CaptureTheFlag
captureLimit: 8
- name: ztn3tourney1
type: Tournament
The time limit and frag limit can be specified with each map (it will change it for subsequent maps in the list):
- name: q3dm17
type: FreeForAll
fragLimit: 30
timeLimit: 30
Capture limit for CTF maps can also be configured:
- name: q3wctf3
type: CaptureTheFlag
captureLimit: 8
Any commands not captured by the config yaml can be specified in the commands
section:
commands:
- seta g_inactivity 600
- seta sv_timeout 120
Bots can be added individually to map rotations using the commands
section of the config:
commands:
- addbot crash 1
- addbot sarge 2
The addbot
server command requires the name of the bot and skill level (crash and sarge are a couple of the built-in bots).
Another way to add bots is by setting a minimum number of players to allow the server to add bots up to a certain value (removed when human players join):
bot:
minPlayers: 8
game:
singlePlayerSkill: 2
singlePlayerSkill
can be used to set the skill level of the automatically added bots (2 is the default skill level).
A password should be set for the server to allow remote administration and is found in the server configuration settings:
server:
password: "changeme"
This will allow clients to use \rcon changeme <cmd>
to remotely administrate the server. To create a password that must be provided by clients to connect:
game:
password: "letmein"
This will add an additional dialog to the in-browser client to accept the password. It will only appear if the server indicates it needs a password.
The content server hosts a small upload app to allow uploading pk3
or zip
files containing maps. The content server in the example.yaml shares a volume with the game server, effectively "side-loading" the map content, however, in the future the game server will introspect into the maps and make sure that it can fulfill the users map configuration before starting.
The easiest way to develop quake-kube is building the binary locally with make
and running it directly. This only requires that you have the ioq3ded
binary in your path:
$ bin/q3 server -c config.yaml --assets-dir $HOME/.q3a --agree-eula
Container images are being cross-compiled with Docker Buildx so it can run on hardware with different architectures and operating systems. Currently, it is building for linux/amd64
and linux/arm64
. While not specifically compiling to the macOS platform (darwin/amd64
) QuakeKube should also work on macOS and maybe even Windows. This is due to the fact that they both use a linux VM to provide container support.
Docker Buildx uses QEMU to virtualize non-native platforms, which has unfortunately had long-running issues running the Go compiler:
This issue is circumvented by ensuring that the Go compiler does not run across multiple hardware threads, which is why the affinity is being limited in the Dockerfile.
- inolen/quakejs - The really awesome QuakeJS project that makes this possible.
- ioquake/ioq3 - The community supported version of Quake 3 used by QuakeJS. It is licensed under the GPLv2.
- begleysm/quakejs - Information in the README.md (very helpful) was used as a guide, as well as, some forked assets of this project (which came from quakejs-web originally) were used.
- joz3d.net - Useful information about configuration values.