External Load Balancer Operator
The LBConfig Operator, manages the configuration of External Load Balancer instances (on third-party equipment via it's API) and creates VIPs and IP Pools with Monitors for a set of OpenShift or Kubernetes nodes like Master-nodes (Control-Plane), Infra nodes (where the Routers or Ingress controllers are located) or based on it's roles and/or labels.
The operator dynamically handles creating, updating or deleting the IPs of the pools in the Load Balancer based on the Node IPs for each role or label. On every change of the operator configuration (CRDs) or addition/change/removal or cluster Nodes, the operator updates the Load Balancer properly.
The objective is to have a modular architecture allowing pluggable backends for different load balancer providers.
To use the operator, you will need a Kubernetes cluster to run against. You can use KIND to get a local cluster for testing, or run against a remote cluster.
Note: Your controller will automatically use the current context in your kubeconfig file (~/.kube/config
) (i.e. whatever cluster kubectl cluster-info
shows).
Quick demo:
Who is it for
The main users for this operator is enterprise deployments or clusters composed of multiple nodes having an external load-balancer providing the balancing and high-availability to access the cluster in both API and Application levels.
High level architecture
Using the Operator
Deploy the Operator to your cluster
Apply the operator manifest into the cluster:
kubectl apply -f https://github.com/carlosedp/lbconfig-operator/raw/v0.5.0/manifests/deploy.yaml
This creates the operator Namespace, CRD and deployment using the latest container version. The container image is built for amd64
, arm64
, ppc64le
and s390x
architectures.
Create ExternalLoadBalancer Instances
Create the instances for each Load Balancer instance you need (for example one for Master Nodes and another for the Infra Nodes). If installing on OpenShift or Kubernetes with OLM (or in a different namespace), adjust the sample YAMLs to match the created namespace.
The provider vendor
field can be (case-sensitive):
F5_BigIP
- Tested on F5 BigIP version 15
Citrix_ADC
- Tested on Citrix ADC (Netscaler) version 13
HAProxy
- HAProxy with Dataplane API. (Docs)
Dummy
- Dummy backend used for testing to only print log messages on operations
Create the secret holding the Load Balancer API user and password:
oc create secret generic f5-creds --from-literal=username=admin --from-literal=password=admin123 --namespace lbconfig-operator-system
After creating the CR, kubectl get
output shows each ExternalLoadBalancer instance details:
Sample CRDs and Available Fields
Master Nodes using a Citrix ADC LB:
apiVersion: lb.lbconfig.carlosedp.com/v1
kind: ExternalLoadBalancer
metadata:
name: externalloadbalancer-master-sample
namespace: lbconfig-operator-system
spec:
vip: "192.168.1.40"
type: "master"
ports:
- 6443
monitor:
path: "/healthz"
port: 6443
monitortype: "https"
provider:
vendor: Citrix_ADC
host: "https://192.168.1.36"
port: 443
creds: netscaler-creds
validatecerts: false
Infra Nodes using a F5 BigIP LB:
apiVersion: lb.lbconfig.carlosedp.com/v1
kind: ExternalLoadBalancer
metadata:
name: externalloadbalancer-infra-sample
namespace: lbconfig-operator-system
spec:
vip: "192.168.1.45"
type: "infra"
ports:
- 80
- 443
monitor:
path: "/healthz"
port: 1936
monitortype: http
provider:
vendor: F5_BigIP
host: "https://192.168.1.35"
port: 443
creds: f5-creds
partition: "Common"
validatecerts: false
To choose the nodes which will be part of the server pool, you can set either type
or nodelabels
fields. The yaml field type: "master"
or type: "infra"
selects nodes with the role label "node-role.kubernetes.io/master"
and "node-role.kubernetes.io/infra"
respectively. If the field nodelabels
array is used instead, the operator will use nodes which match all labels.
If you have in your cluster Infra-Nodes for different roles (for example Infra-nodes dedicated for OpenShift Data Foundation), don't use type: "infra"
config as the Load Balancer will point to all nodes with that label. Instead use the nodelabels:
syntax as below specifying the correct labels for the nodes that have the routers/ingress controllers. The listed labels follow an "AND" rule.
Clusters with sharded routers or using arbitrary labels to determine where the Ingress Controllers run can be configured like:
spec:
vip: "10.0.0.6"
ports:
- 80
nodelabels:
"node.kubernetes.io/ingress-controller": "production"
"kubernetes.io/region": "DC1"
...
Please check the additional documentation for more information like tracing, adding new providers, development, release and more.
Disclaimers
- The operator does not check if the requested configuration (names, IPs) already exists and/or conflicts with existing configuration in the Load Balancer. The user is responsible for these checks before deployment;
- I am not responsible if the operator changes/deletes existing configuration on the Load Balancer if existing names are already configured.
- The operator creates the entries(Pools, VIPs, Monitors) in the provided Load Balancer with the
name
of the instance configured in the CustomResource prefixed with the type. Eg. For a CR with name externalloadbalancer-master-sample
, the operator creates a server pool named Pool-externalloadbalancer-master-sample-6443
(suffixed with the port), a monitor named Monitor-externalloadbalancer-master-sample
and a VIP named VIP-externalloadbalancer-master-sample-6443
(suffixed with the port).