72f5107979
Signed-off-by: Lucas Servén Marín <lserven@gmail.com>
185 lines
7.5 KiB
Markdown
185 lines
7.5 KiB
Markdown
<p align="center"><img src="./kilo.svg" width="150" /></p>
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# Kilo
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Kilo is a multi-cloud network overlay built on WireGuard and designed for Kubernetes.
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[![Build Status](https://travis-ci.org/squat/kilo.svg?branch=master)](https://travis-ci.org/squat/kilo)
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[![Go Report Card](https://goreportcard.com/badge/github.com/squat/kilo)](https://goreportcard.com/report/github.com/squat/kilo)
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## Overview
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Kilo connects nodes in a cluster by providing an encrypted layer 3 network that can span across data centers and public clouds.
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By allowing pools of nodes in different locations to communicate securely, Kilo enables the operation of multi-cloud clusters.
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Kilo's design allows clients to VPN to a cluster in order to securely access services running on the cluster.
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In addition to creating multi-cloud clusters, Kilo enables the creation of multi-cluster services, i.e. services that span across different Kubernetes clusters.
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## How it works
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Kilo uses [WireGuard](https://www.wireguard.com/), a performant and secure VPN, to create a mesh between the different nodes in a cluster.
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The Kilo agent, `kg`, runs on every node in the cluster, setting up the public and private keys for the VPN as well as the necessary rules to route packets between locations.
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Kilo can operate both as a complete, independent networking provider as well as an add-on complimenting the cluster-networking solution currently installed on a cluster.
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This means that if a cluster uses, for example, Flannel for networking, Kilo can be installed on top to enable pools of nodes in different locations to join; Kilo will take care of the network between locations, while Flannel will take care of the network within locations.
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## Installing on Kubernetes
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Kilo can be installed on any Kubernetes cluster either pre- or post-bring-up.
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### Step 1: install WireGuard
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Kilo requires the WireGuard kernel module on all nodes in the cluster.
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For most Linux distributions, this can be installed using the system package manager.
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For Container Linux, WireGuard can be easily installed using a DaemonSet:
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```shell
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kubectl apply -f https://raw.githubusercontent.com/squat/modulus/master/wireguard/daemonset.yaml
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```
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### Step 2: open WireGuard port
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The nodes in the mesh will require an open UDP port in order to communicate.
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By default, Kilo uses UDP port 51820.
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### Step 3: specify topology
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By default, Kilo creates a mesh between the different logical locations in the cluster, e.g. data-centers, cloud providers, etc.
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For this, Kilo needs to know which groups of nodes are in each location.
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If the cluster does not automatically set the [topology.kubernetes.io/region](https://kubernetes.io/docs/reference/kubernetes-api/labels-annotations-taints/#topologykubernetesioregion) node label, then the [kilo.squat.ai/location](./docs/annotations.md#location) annotation can be used.
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For example, the following snippet could be used to annotate all nodes with `GCP` in the name:
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```shell
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for node in $(kubectl get nodes | grep -i gcp | awk '{print $1}'); do kubectl annotate node $node kilo.squat.ai/location="gcp"; done
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```
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Kilo allows the topology of the encrypted network to be completely customized.
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[See the topology docs for more details](./docs/topology.md).
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### Step 4: ensure nodes have public IP
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At least one node in each location must have an IP address that is routable from the other locations.
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If the locations are in different clouds or private networks, then this must be a public IP address.
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If this IP address is not automatically configured on the node's Ethernet device, it can be manually specified using the [kilo.squat.ai/force-endpoint](./docs/annotations.md#force-endpoint) annotation.
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### Step 5: install Kilo!
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Kilo can be installed by deploying a DaemonSet to the cluster.
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To run Kilo on kubeadm:
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```shell
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kubectl apply -f https://raw.githubusercontent.com/squat/kilo/master/manifests/kilo-kubeadm.yaml
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```
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To run Kilo on bootkube:
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```shell
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kubectl apply -f https://raw.githubusercontent.com/squat/kilo/master/manifests/kilo-bootkube.yaml
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```
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To run Kilo on Typhoon:
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```shell
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kubectl apply -f https://raw.githubusercontent.com/squat/kilo/master/manifests/kilo-typhoon.yaml
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```
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To run Kilo on k3s:
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```shell
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kubectl apply -f https://raw.githubusercontent.com/squat/kilo/master/manifests/kilo-k3s.yaml
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```
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## Add-on Mode
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Administrators of existing clusters who do not want to swap out the existing networking solution can run Kilo in add-on mode.
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In this mode, Kilo will add advanced features to the cluster, such as VPN and multi-cluster services, while delegating CNI management and local networking to the cluster's current networking provider.
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Kilo currently supports running on top of Flannel.
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For example, to run Kilo on a Typhoon cluster running Flannel:
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```shell
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kubectl apply -f https://raw.githubusercontent.com/squat/kilo/master/manifests/kilo-typhoon-flannel.yaml
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```
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[See the manifests directory for more examples](https://github.com/squat/kilo/tree/master/manifests).
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## VPN
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Kilo also enables peers outside of a Kubernetes cluster to connect to the VPN, allowing cluster applications to securely access external services and permitting developers and support to securely debug cluster resources.
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In order to declare a peer, start by defining a Kilo peer resource:
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```shell
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cat <<'EOF' | kubectl apply -f -
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apiVersion: kilo.squat.ai/v1alpha1
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kind: Peer
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metadata:
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name: squat
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spec:
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allowedIPs:
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- 10.5.0.1/32
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publicKey: GY5aT1N9dTR/nJnT1N2f4ClZWVj0jOAld0r8ysWLyjg=
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persistentKeepalive: 10
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EOF
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```
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This configuration can then be applied to a local WireGuard interface, e.g. `wg0`, to give it access to the cluster with the help of the `kgctl` tool:
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```shell
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kgctl showconf peer squat > peer.ini
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sudo wg setconf wg0 peer.ini
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```
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[See the VPN docs for more details](./docs/vpn.md).
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## Multi-cluster Services
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A logical application of Kilo's VPN is to connect two different Kubernetes clusters.
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This allows workloads running in one cluster to access services running in another.
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For example, if `cluster1` is running a Kubernetes Service that we need to access from Pods running in `cluster2`, we could do the following:
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```shell
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# Register the nodes in cluster1 as peers of cluster2.
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for n in $(kubectl --kubeconfig $KUBECONFIG1 get no -o name | cut -d'/' -f2); do
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kgctl --kubeconfig $KUBECONFIG1 showconf node $n --as-peer -o yaml --allowed-ips $SERVICECIDR1 | kubectl --kubeconfig $KUBECONFIG2 apply -f -
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done
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# Register the nodes in cluster2 as peers of cluster1.
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for n in $(kubectl --kubeconfig $KUBECONFIG2 get no -o name | cut -d'/' -f2); do
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kgctl --kubeconfig $KUBECONFIG2 showconf node $n --as-peer -o yaml --allowed-ips $SERVICECIDR2 | kubectl --kubeconfig $KUBECONFIG1 apply -f -
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done
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# Create a Service in cluster2 to mirror the Service in cluster1.
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cat <<'EOF' | kubectl --kubeconfig $KUBECONFIG2 apply -f -
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apiVersion: v1
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kind: Service
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metadata:
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name: important-service
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spec:
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ports:
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- port: 80
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---
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apiVersion: v1
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kind: Endpoints
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metadata:
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name: important-service
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subsets:
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- addresses:
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- ip: $CLUSTERIP # The cluster IP of the important service on cluster1.
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ports:
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- port: 80
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EOF
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```
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Now, `important-service` can be used on `cluster2` just like any other Kubernetes Service.
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[See the multi-cluster services docs for more details](./docs/multi-cluster-services.md).
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## Analysis
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The topology and configuration of a Kilo network can be analyzed using the [`kgctl` command line tool](./docs/kgctl.md).
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For example, the `graph` command can be used to generate a graph of the network in Graphviz format:
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```shell
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kgctl graph | circo -Tsvg > cluster.svg
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```
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<img src="./docs/graphs/location.svg" />
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