14 KiB
Routes Minecraft client connections to backend servers based upon the requested server address.
Usage
-api-binding host:port
The host:port bound for servicing API requests (env API_BINDING)
-auto-scale-up
Increase Kubernetes StatefulSet Replicas (only) from 0 to 1 on respective backend servers when accessed (env AUTO_SCALE_UP)
-connection-rate-limit int
Max number of connections to allow per second (env CONNECTION_RATE_LIMIT) (default 1)
-cpu-profile string
Enables CPU profiling and writes to given path (env CPU_PROFILE)
-debug
Enable debug logs (env DEBUG)
-default string
host:port of a default Minecraft server to use when mapping not found (env DEFAULT)
-docker-refresh-interval int
Refresh interval in seconds for the Docker Swarm integration (env DOCKER_REFRESH_INTERVAL) (default 15)
-docker-timeout int
Timeout configuration in seconds for the Docker Swarm integration (env DOCKER_TIMEOUT)
-in-docker-swarm
Use in-swarm Docker config (env IN_DOCKER_SWARM)
-in-kube-cluster
Use in-cluster Kubernetes config (env IN_KUBE_CLUSTER)
-kube-config string
The path to a Kubernetes configuration file (env KUBE_CONFIG)
-mapping value
Comma-separated or repeated mappings of externalHostname=host:port (env MAPPING)
-metrics-backend string
Backend to use for metrics exposure/publishing: discard,expvar,influxdb (env METRICS_BACKEND) (default "discard")
-metrics-backend-config-influxdb-addr string
(env METRICS_BACKEND_CONFIG_INFLUXDB_ADDR)
-metrics-backend-config-influxdb-database string
(env METRICS_BACKEND_CONFIG_INFLUXDB_DATABASE)
-metrics-backend-config-influxdb-interval duration
(env METRICS_BACKEND_CONFIG_INFLUXDB_INTERVAL) (default 1m0s)
-metrics-backend-config-influxdb-password string
(env METRICS_BACKEND_CONFIG_INFLUXDB_PASSWORD)
-metrics-backend-config-influxdb-retention-policy string
(env METRICS_BACKEND_CONFIG_INFLUXDB_RETENTION_POLICY)
-metrics-backend-config-influxdb-tags value
any extra tags to be included with all reported metrics (env METRICS_BACKEND_CONFIG_INFLUXDB_TAGS)
-metrics-backend-config-influxdb-username string
(env METRICS_BACKEND_CONFIG_INFLUXDB_USERNAME)
-ngrok-token string
If set, an ngrok tunnel will be established. It is HIGHLY recommended to pass as an environment variable. (env NGROK_TOKEN)
-port port
The port bound to listen for Minecraft client connections (env PORT) (default 25565)
-receive-proxy-protocol
Receive PROXY protocol from backend servers, by default trusts every proxy header that it receives, combine with -trusted-proxies to specify a list of trusted proxies (env RECEIVE_PROXY_PROTOCOL)
-routes-config string
Name or full path to routes config file (env ROUTES_CONFIG)
-simplify-srv
Simplify fully qualified SRV records for mapping (env SIMPLIFY_SRV)
-trusted-proxies value
Comma delimited list of CIDR notation IP blocks to trust when receiving PROXY protocol (env TRUSTED_PROXIES)
-use-proxy-protocol
Send PROXY protocol to backend servers (env USE_PROXY_PROTOCOL)
-version
Output version and exit (env VERSION)
Docker Multi-Architecture Image
The multi-architecture image published at Docker Hub supports amd64, arm64, and arm32v6 (i.e. RaspberryPi).
Docker Compose Usage
The diagram below shows how this docker-compose.yml
configures two Minecraft server services named vanilla
and forge
, which also become the internal network aliases. Notice those services don't need their ports exposed since the internal networking allows for the inter-container access.
version: "3.8"
services:
vanilla:
image: itzg/minecraft-server
environment:
EULA: "TRUE"
forge:
image: itzg/minecraft-server
environment:
EULA: "TRUE"
TYPE: FORGE
router:
image: ${MC_ROUTER_IMAGE:-itzg/mc-router}
depends_on:
- forge
- vanilla
environment:
MAPPING: |
vanilla.example.com=vanilla:25565
forge.example.com=forge:25565
ports:
- "25565:25565"
The router
service is only one of the services that needs to exposed on the external network. The MAPPING
declares how the hostname users will enter into their Minecraft client will map to the internal services.
To test out this example, add these two entries to my "hosts" file:
127.0.0.1 vanilla.example.com
127.0.0.1 forge.example.com
Routing Configuration
The routing configuration allows routing via a config file rather than a command.
You need to set -routes-config
or ROUTES_CONFIG
env variable.
The following shows a JSON file for routes config, where default-server
can also be null
or omitted:
{
"default-server": "vanilla:25565",
"mappings": {
"vanilla.example.com": "vanilla:25565",
"forge.example.com": "forge:25565"
}
}
Kubernetes Usage
Using Kubernetes Service auto-discovery
When running mc-router
as a Kubernetes Pod and you pass the --in-kube-cluster
command-line argument, then it will automatically watch for any services annotated with
mc-router.itzg.me/externalServerName
: The value of the annotation will be registered as the external hostname Minecraft clients would used to connect to the routed service. The service's clusterIP and target port are used as the routed backend. You can use more hostnames by splitting them with comma.mc-router.itzg.me/defaultServer
: The service's clusterIP and target port are used as the default if no otherexternalServiceName
annotations applies.
For example, start mc-router
's container spec with
image: itzg/mc-router
name: mc-router
args: ["--in-kube-cluster"]
and configure the backend minecraft server's service with the annotation:
apiVersion: v1
kind: Service
metadata:
name: mc-forge
annotations:
"mc-router.itzg.me/externalServerName": "external.host.name"
you can use multiple host names:
apiVersion: v1
kind: Service
metadata:
name: mc-forge
annotations:
"mc-router.itzg.me/externalServerName": "external.host.name,other.host.name"
mc-router will pick the service port named either minecraft
or mc-router
. If neither port names exist, it will use port value 25565.
Example Kubernetes deployment
- Declares an
mc-router
service that exposes a node port 25565 - Declares a service account with access to watch and list services
- Declares
--in-kube-cluster
in themc-router
container arguments - Two "backend" Minecraft servers are declared each with an
"mc-router.itzg.me/externalServerName"
annotation that declares their external server name(s)
kubectl apply -f https://raw.githubusercontent.com/itzg/mc-router/master/docs/k8s-example-auto.yaml
Notes
- This deployment assumes two persistent volume claims:
mc-stable
andmc-snapshot
- I extended the allowed node port range by adding
--service-node-port-range=25000-32767
to/etc/kubernetes/manifests/kube-apiserver.yaml
Auto Scale Up
The -auto-scale-up
flag argument makes the router "wake up" any stopped backend servers, by changing replicas: 0
to replicas: 1
.
This requires using kind: StatefulSet
instead of kind: Service
for the Minecraft backend servers.
It also requires the ClusterRole
to permit get
+ update
for statefulsets
& statefulsets/scale
,
e.g. like this (or some equivalent more fine-grained one to only watch/list services+statefulsets, and only get+update scale):
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
name: services-watcher
rules:
- apiGroups: [""]
resources: ["services"]
verbs: ["watch","list"]
- apiGroups: ["apps"]
resources: ["statefulsets", "statefulsets/scale"]
verbs: ["watch","list","get","update"]
Docker Swarm Usage
Using Docker Swarm Service auto-discovery
When running mc-router
in a Docker Swarm environment you can pass the --in-docker-swarm
command-line argument and it will poll the Docker API periodically to find all the running
services for minecraft instances. To enable discovery you have to set the mc-router.host
label on the service. These are the labels scanned:
mc-router.host
: Used to configure the hostname the Minecraft clients would use to connect to the server. The service endpoint will be used as the routed backend. You can use more than one hostname by splitting it with a comma.mc-router.port
: This value must be set to the port the Minecraft server is listening on. The default value is 25565.mc-router.default
: Set this to a truthy value to make this server the deafult backend. Please note thatmc-router.host
is still required to be set.mc-router.network
: Specify the network you are using for the router if multiple are present in the service. You can either use the network ID, it's full name or an alias.
Example Docker Swarm deployment
Refer to this example docker-compose.yml to see how to
configure two different Minecraft servers and a mc-router
instance. Notice how you don't
have to expose the Minecraft instances ports, but all the containers are required to be in
the same network.
REST API
-
GET /routes
(withAccept: application/json
)Retrieves the currently configured routes
-
POST /routes
(withContent-Type: application/json
)Registers a route given a JSON body structured like:
{ "serverAddress": "CLIENT REQUESTED SERVER ADDRESS", "backend": "HOST:PORT" }
-
POST /defaultRoute
(withContent-Type: application/json
)Registers a default route to the given backend. JSON body is structured as:
{ "backend": "HOST:PORT" }
-
DELETE /routes/{serverAddress}
Deletes an existing route for the given
serverAddress
ngrok
mc-router has built-in support to run as an ngrok agent. To enable this support, pass an ngrok authtoken to the command-line argument or environment variable, shown above.
Ngrok Quick Start
Create/access an ngrok account and allocate an agent authtoken from the dashboard.
In a new directory, create a file called .env
with the allocated token
NGROK_TOKEN=...
In the same directory, create the following compose file:
version: "3.8"
services:
mc:
image: itzg/minecraft-server
environment:
EULA: true
volumes:
- mc-data:/data
# No port mapping since mc-router connects over compose network
router:
image: itzg/mc-router
environment:
DEFAULT: mc:25565
NGROK_TOKEN: ${NGROK_TOKEN}
# No port mapping needed since it routes through ngrok tunnel
volumes:
mc-data: {}
Start the compose project:
docker compose up -d
Grab the mc-router logs using:
docker compose logs router
From those logs, locate the ngrokUrl
parameter from the "Listening" info log message, such as tcp://8.tcp.ngrok.io:99999
.
In the Minecraft client, the server address will be the part after the "tcp://" prefix, such as 8.tcp.ngrok.io:99999
.
Development
Building locally with Docker
docker build -t mc-router .
Build locally without Docker
After installing Go and doing a go mod download
to install all required prerequisites, just like the Dockerfile does, you can:
make test # go test -v ./...
go build ./cmd/mc-router/
Skaffold
For "in-cluster development" it's convenient to use https://skaffold.dev. Any changes to Go source code will trigger a go build, new container image pushed to registry with a new tag, and refresh in Kubernetes with the image tag used in the deployment transparently updated to the new tag and thus new pod created pulling new images, as configured by skaffold.yaml:
skaffold dev
When using Google Cloud (GCP), first create a Docker Artifact Registry,
then add the Artifact Registry Reader Role to the Compute Engine default service account of your GKE clusterService
Account (to avoid error like "container mc-router is waiting to start: ...-docker.pkg.dev/... can't be pulled"),
then use e.g. gcloud auth configure-docker europe-docker.pkg.dev
or equivalent one time (to create a ~/.docker/config.json
),
and then use e.g. --default-repo=europe-docker.pkg.dev/YOUR-PROJECT/YOUR-ARTIFACT-REGISTRY
option for skaffold dev
.
Performing snapshot release with Docker
docker run -it --rm \
-v ${PWD}:/build -w /build \
-v /var/run/docker.sock:/var/run/docker.sock \
goreleaser/goreleaser \
release --snapshot --rm-dist