This page describes how to configure bundled load balancing for Google Distributed Cloud. Google Distributed Cloud deploys Layer 4 load balancers that run on either a dedicated pool of worker nodes or on the same nodes as the control plane.
See Overview of load balancers for examples of load-balancing topologies available in Google Distributed Cloud.
Requirements
- All load balancer nodes must be in the same Layer 2 subnet.
- All VIPs must be in the load balancer nodes subnet and be routable through the subnet's gateway.
- The gateway of the load balancer subnet must listen to gratuitous ARP messages and forward ARP packets to the load balancer nodes.
Configuration fields
Edit the cluster.spec.loadBalancer
section of the cluster configuration file
to configure bundled load balancing. For information about cluster
configuration files and examples of valid configurations. see one of the
following pages:
loadBalancer.mode
This value must be bundled
to enable bundled load balancing.
loadBalancer.ports.controlPlaneLBPort
This value specifies the destination port to be used for traffic sent to the Kubernetes control plane (the Kubernetes API servers).
loadBalancer.vips.controlPlaneVIP
This value specifies the destination IP address to be used for traffic sent to
the Kubernetes control plane (the Kubernetes API servers). This IP address must
be in the same Layer 2 subnet as the nodes running load balancers. Do not list
this address in the [address pools](#address-pools)
section of the
configuration file.
loadBalancer.vips.ingressVIP
This value specifies the IP address to be used for Services behind the load balancer for ingress traffic. This field is not allowed in admin cluster configuration files. This address must be listed in the address pools section of the configuration.
loadBalancer.addressPools
This section of the configuration contains one or more address pools specified in this format:
- name: pool-name
avoidBuggyIPs: boolean
manualAssign: boolean
addresses:
- ip-range
- ip-range
- name: The name of the address pool, pool-name, for your own organizational purposes.
- avoidBuggyIPs: (Optional)
true
orfalse
. Iftrue
, the pool omits IP addresses ending in.0
and.255
. Some network hardware drops traffic to these special addresses. You can omit this field, its default value isfalse
. - manualAssign: (Optional).
true
orfalse
. Iftrue
, addresses in this pool are not automatically assigned to Kubernetes Services. Iftrue
, an IP address in this pool is used only when it is specified explicitly by a service. You can omit this field, its default value is false. - addresses A list of one or more nonoverlapping IP address ranges.
ip-range can be specified in either CIDR notation (like
198.51.100.0/24
) or range notation (like198.51.100.0-198.51.100.10
, with no spaces around the dash).
The IP address ranges in the addresses
list must not overlap and must be in
the same subnet as the nodes running load balancers.
loadBalancer.nodePoolSpec
This section of the configuration specifies a list of nodes to run load
balancers on. Load balancer nodes can run regular workloads by default; there is
no special taint on those nodes. The example below shows a node pool with two
nodes. The first node, 1.2.3.4
, uses the k8sIP
field to specify the node's
IP address in the cluster. The 1.2.3.4
address is only used for SSH access.
nodePoolSpec:
nodes:
- address: 1.2.3.4
k8sIP: 10.0.0.32
- address: 10.0.0.33
All nodes in the load balancer node pool must be in the same Layer 2 subnet as the
load balancer VIPs configured in the
loadBalancer.addressPools
section of the configuration file.
If a node has a k8sIP
configured, only that address needs to be in the same Layer 2
subnet as the other load balancer VIPs.
If nodePoolSpec
is not set, the bundled load balancers run on the control
plane nodes. We recommend you run load balancers on separate node pools if
possible.
Control plane load balancing
The control plane load balancer serves the control plane virtual IP address (VIP). Google Distributed Cloud runs Keepalived and HAProxy as Kubernetes static pods on the load-balancer nodes to announce the control plane VIP. Keepalived uses the Virtual Router Redundancy Protocol (VRRP) on the load balancer nodes for high availability.
Data plane load balancing
The data plane load balancer is for all Kubernetes Services of type
LoadBalancer
.
Google Distributed Cloud uses MetalLB
running in Layer 2 mode for data plane load balancing. Data plane load balancing can
only be configured through Google Distributed Cloud, do not modify MetalLB's ConfigMap
directly. You can use all MetalLB features including
IP address sharing across Services.
See the MetalLB documentation for feature information.
MetalLB runs a speaker Pod on each node using a daemonset, using memberlist for high availability. There is a MetalLB dedicated load balancer node for each Kubernetes Service, rather than one for the entire cluster. This way traffic is distributed across load balancer nodes if there are multiple Services.
The data plane load balancers can run on either the control plane nodes or on a subset of worker nodes. Bundling data plane load balancers on the control plane nodes increases utilization of the control plane nodes. However, bundling on the control plane nodes also increases the risk of overloading the control plane and increases the risk profile of confidential information on the control plane, such as SSH keys.
Preserving client source IP address
The LoadBalancer
Service created with the bundled Layer 2 load balancing
solution uses the default Cluster
setting for the external traffic policy.
This setting, spec.externalTrafficPolicy: Cluster
, routes external traffic to
cluster-wide endpoints, but it also obscures the client source IP address.
The following sections describe how to configure your cluster to preserve the client source IP address.
NodePort
Services
Kubernetes does source network address translation (NAT) for NodePort
Services. To retain the client source IP addresses, set
service.spec.externalTrafficPolicy
to Local
. Kubernetes won't perform source
NAT anymore, but you must make sure there are pods running exactly on the node
IP you picked.
LoadBalancer
Services
When using externalTrafficPolicy: Local
in your LoadBalancer
Services, set
your application pods to run exactly on the load balancer nodes. Add the
following nodeSelector
to your application pods to make this change:
apiVersion: v1
kind: Pod
...
spec:
nodeSelector:
baremetal.cluster.gke.io/lbnode: "true"
...
Ingress
If your applications are HTTP services, you can achieve client IP visibility by configuring ingress components:
Open the
istio-ingress
Service for editing:kubectl edit service -n gke-system istio-ingress
Add
externalTrafficPolicy: Local
to thespec
, save and exit the editor.apiVersion: v1 kind: Service ... spec: ... externalTrafficPolicy: Local
Open the
istio-ingress
Deployment for editing:kubectl edit deployment -n gke-system istio-ingress
Add the following
nodeSelector
to the Deployment, save and exit the editor.apiVersion: apps/v1 kind: Deployment ... spec: ... template: ... spec: ... nodeSelector: baremetal.cluster.gke.io/lbnode: "true" ...
Now, all of your services behind Ingress see a X-Forwarded-For
header with the
client IP, like the following example:
X-Forwarded-For: 21.0.104.4