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OpenSSF Scorecard

K8s-dqlite: Dqlite Backend for Kubernetes

This project is a drop in replacement for etcd on Kubernetes.

If you're looking for a lightweight, distributed, and in-memory database to replace etcd in your K8s cluster, Dqlite might be the solution for you.

Key Features

  • Distributed SQlite: Uses Dqlite as the backend
  • In-memory: Efficient and fast
  • High Availability: Built-in high availabilty with Raft
  • Minimal operations: Designed to be almost zero ops

Building

k8s-dqlite links with Dqlite. To build the project, you can create static and dynamic binaries:

Static Build (Recommended)

make static
./bin/static/k8s-dqlite --help

Dynamic Build

If you prefer dynamic binaries (which require Dqlite shared libraries and dependencies to be present during runtime), use the following commands:

make dynamic
./bin/dynamic/k8s-dqlite --help

Installing

  1. Prepare a directory containing the necessary configuration files:
  • init.yaml with Address: <host_IP>:<port_used_by_dqlite>
  • cluster.crt and cluster.key pair.
  1. Use the following script to generate the required files:
mkdir -p /var/data/
IP="127.0.0.1"
PORT="29001"
DNS=$(/bin/hostname)

# Create init.yaml with the Dqlite listening address
echo "Address: $IP:$PORT" > /var/data/init.yaml
mkdir -p /var/tmp/

# Find the csr-dqlite.conf.template in the project
cp /config/csr-dqlite.conf.template /var/tmp/csr-dqlite.conf
sed -i 's/HOSTNAME/'"${DNS}"'/g' /var/tmp/csr-dqlite.conf
sed -i 's/HOSTIP/'"${IP}"'/g' /var/tmp/csr-dqlite.conf
openssl req -x509 -newkey rsa:4096 -sha256 -days 3650 -nodes -keyout /var/data/cluster.key -out ${SNAP_DATA}/var/data/cluster.crt -subj "/CN=k8s" -config /var/tmp/csr-dqlite.conf -extensions v3_ext
chmod -R o-rwX /var/data
  1. Start k8s-dqlite by running the following command:
k8s-dqlite --storage-dir=/var/data/

By default, k8s-dqlite listens for connections from the Kubernetes API server at tcp://127.0.0.1:12379. To change the address, use the --listen option.

Configuring the API server

To point the API server to k8s-dqlite use the following arguments:

# Endpoint k8s-dqlite listens at
--etcd-servers="http://<IP>:<PORT>"
# By default --etcd-servers="http://127.0.0.1:12379"

# Point to the cluster key pair
--etcd-certfile=/data/cluster.crt
--etcd-keyfile=/var/data/cluster.key

# If you are using the snap comment in these lines
#--etcd-certfile=/var/snap/k8s-dqlite/current/var/data/cluster.crt
#--etcd-keyfile=/var/snap/k8s-dqlite/current/var/data/cluster.key

Highly Available Dqlite

K8s-dqlite supports high availability by using the Raft protocol to achieve consensus through an elected leader. Below are the steps to set up a highly available Dqlite cluster with three nodes.

Steps

  1. On the main node, verify that k8s-dqlite is listening on the correct IP address and port. You can check this by running:
sudo ss -tuln | grep <the ip of the main node>:29001

If k8s-dqlite is listening correctly, you should see an output indicating that it's bound to the node's IP and port.

  1. On each joining node, prepare the environment:
    • Backup the Dqlite data directory (/var/data).
    • Remove the existing the Dqlite data directory.
  2. Copy the cluster.crt and cluster.key from the main node and place it into the joining node's /var/data.
  3. Create the init.yaml file with the following content
Cluster:
- <the ip of the main node>:29001
Address: <ip of the joining node>:29001
  1. Start the k8s-dqlite process on the joining node:
k8s-dqlite --storage-dir=/var/data/
  1. On the main node, verify that the joining node is connected to the Dqlite cluster.
dqlite -s file:///var/data/cluster.yaml -c /var/data/cluster.crt -k /var/data/cluster.key -f json k8s .cluster
  1. Repeat steps 2–6 for any additional nodes you wish to join to the cluster.