autoneg
provides simple custom integration between GKE and Google Cloud Load Balancing (both external and internal).
autoneg
is a GKE-specific Kubernetes controller which works in conjunction with the GKE Network Endpoint Group (NEG)
controller to manage integration between your Kubernetes service endpoints and GCLB backend services.
GKE users may wish to register NEG backends from multiple clusters into the same backend service, or may wish to
orchestrate advanced deployment strategies in a custom or centralized fashion, or offer the same service via protected
public endpoint and more lax internal endpoint. autoneg
can enable those use cases.
autoneg
depends on the GKE NEG controller to manage the lifecycle of NEGs corresponding to your GKE services.
autoneg
will associate those NEGs as backends to the GCLB backend service named in the autoneg
configuration.
Since autoneg
depends explicitly on the GKE NEG controller, it
also inherits the same scope. autoneg
only takes action based on a Kubernetes service
which has been annotated with autoneg
configuration, and does not make any changes corresponding to pods or deployments. Only
changes to the service will cause any action by autoneg
.
On deleting the Service object, autoneg
will deregister NEGs from the specified backend service, and the GKE
NEG controller will then delete the NEGs.
In your Kubernetes service, two annotations are required in your service definition:
cloud.google.com/neg
enables the GKE NEG controller; specify as standalone NEGscontroller.autoneg.dev/neg
specifies name and other configuration- Previous version used
anthos.cft.dev/autoneg
as annotation and it's still supported, but deprecated and will be removed in subsequent releases.
- Previous version used
metadata:
annotations:
cloud.google.com/neg: '{"exposed_ports": {"80":{},"443":{}}}'
controller.autoneg.dev/neg: '{"backend_services":{"80":[{"name":"http-be","max_rate_per_endpoint":100}],"443":[{"name":"https-be","max_connections_per_endpoint":1000}]}}
# For L7 ILB (regional) backends
# controller.autoneg.dev/neg: '{"backend_services":{"80":[{"name":"http-be","region":"europe-west4","max_rate_per_endpoint":100}],"443":[{"name":"https-be","region":"europe-west4","max_connections_per_endpoint":1000}]}}
Once configured, autoneg
will detect the NEGs that are created by the GKE NEG controller, and register them with the backend
service specified in the autoneg
configuration annotation.
Only the NEGs created by the GKE NEG controller will be added or removed from your backend service. This mechanism should be safe to use across multiple clusters.
By default, autoneg
will initialize the capacityScaler
to 1, which means that the new backend will receive a proportional volume
of traffic according to the maximum rate or connections per endpoint configuration. You can customize this default by supplying
the initial_capacity
variable, which may be useful to steer traffic in blue/green deployment scenarios. The capacityScaler
mechanism can be used to manage traffic shifting in such uses cases as deployment or failover.
Specify options to configure the backends representing the NEGs that will be associated with the backend service. Options can be referenced in the backends
section of the REST resource definition. Only options listed here are available in autoneg
.
name
: optional. The name of the backend service to register backends with.- If
--enable-custom-service-names
flag (defaults totrue
) is set tofalse
, thename
values specified in newautoneg
annotations would be invalidated and fall back to the template generated names. - The default name value for old
anthos.cft.dev/autoneg
annotation is service name. - Note that
name
is optional here and defaults to a value generated followingdefault-backendservice-name
.
- If
region
: optional. Used to specify that this is a regional backend service.max_rate_per_endpoint
: required/optional. Integer representing the maximum rate a pod can handle. Pick either rate or connection.max_connections_per_endpoint
: required/optional. Integer representing the maximum amount of connections a pod can handle. Pick either rate or connection.initial_capacity
: optional. Integer configuring the initial capacityScaler, expressed as a percentage between 0 and 100. If set to 0, the backend service will not receive any traffic until an operator or other service adjusts the capacity scaler setting. Please note that unless you have existing backends in a backend service, you cannot setinitial_capacity
to zero (at least some backends have to higher than zero value).capacity_scaler
: optional. Autoneg manages the capacity scaler setting if this and thecontroller.autoneg.dev/sync: '{"capacity_scaler":true}'
annotation is set on the service. Please note updatingcapacityScaler
setting out of band (eg. viagcloud
) won't be overridden until you change thecapacity_scaler
(or other value) in the service configuration.
The controller parameters can be customized via changing the controller deployment.
--enable-custom-service-names
: optional. Enables defining the backend service name in theautoneg
annotation. If set tofalse
(via--enable-custom-service-names=false
), thename
option will be ignored in theautoneg
annotation and the backend service name will be determined viadefault-backendservice-name
(see below).--default-backendservice-name
: optional. Sets the backend service name if it's not specified or if--enable-customer-service-names
is set to false. The template defaults to{name}-{port}
. It can containnamespace
,name
,port
andhash
and the non-hash values will be truncated evenly if the full name is longer than 63 characters.<hash>
is generated using full lengthnamespace
,name
andport
to avoid name collisions when truncated.--max-rate-per-endpoint
: optional. Sets a default value for max-rate-per-endpoint that can be overridden by user config. Defaults to 0.--max-connections-per-endpoint
: optional. Same as above but for connections.--always-reconcile
: optional. Makes it possible to reconcile periodically even if the status annotations don't change. Defaults to false.--reconcile-period
: optional. Sets a reconciliation duration if always-reconcile mode is on. Defaults to 10 hours.
As autoneg
is accessing GCP APIs, you must ensure that the controller has authorization to call those APIs.
To follow the principle of least privilege, it is recommended that you configure your cluster with
Workload Identity to limit
permissions to a GCP service account that autoneg
operates under.
If you choose not to use Workload Identity,
you will need to create your GKE cluster with the "cloud-platform" scope.
- Since the GKE cluster will require IAM permissions to manipulate the backend services in the project,
users may be able to register their services into any available backend service in the project. You
can enforce the allowed backends by disabling
--enable-custom-service-names
and customizing the backend service name template.
First, set up the GCP resources necessary to support Workload Identity, run the script:
PROJECT_ID=myproject deploy/workload_identity.sh
If you are using Shared VPC, ensure that the autoneg-system
service account has the compute.networkUser
role in the Shared VPC host project:
gcloud projects add-iam-policy-binding \
--role roles/compute.networkUser \
--member "serviceAccount:autoneg-system@${PROJECT_ID}.iam.gserviceaccount.com" \
${HOST_PROJECT_ID}
Lastly, on each cluster in your project where you'd like to install autoneg
(version v1.1.0
), run these two commands:
kubectl apply -f deploy/autoneg.yaml
kubectl annotate sa -n autoneg-system autoneg-controller-manager \
iam.gke.io/gcp-service-account=autoneg-system@${PROJECT_ID}.iam.gserviceaccount.com
This will create all the Kubernetes resources required to support autoneg
and annotate the default service account in the autoneg-system
namespace to associate a GCP service account using Workload Identity.
You can use the Terraform module in terraform/autoneg
to deploy Autoneg in a GKE cluster of your choice.
An end-to-end example is provided in the terraform/test
directory as well (simply set your project_id
).
Example:
provider "google" {
}
provider "kubernetes" {
cluster_ca_certificate = "..."
host = "..."
token = "..."
}
module "autoneg" {
source = "github.com/GoogleCloudPlatform/gke-autoneg-controller//terraform/autoneg"
project_id = "your-project-id"
# NOTE: You may need to build your own image if you rely on features merged between releases, and do
# not wish to use the `latest` image.
controller_image = "ghcr.io/googlecloudplatform/gke-autoneg-controller/gke-autoneg-controller:v1.1.0"
}
A Helm chart is also provided in deploy/chart
and via
https://googlecloudplatform.github.io/gke-autoneg-controller/
repository.
To deploy via command line, simply run:
# helm install -n autoneg-system --create-namespace --set 'createNamespace=false' autoneg deploy/chart/
You can also use it with Terraform like this:
module "autoneg" {
source = "github.com/GoogleCloudPlatform/gke-autoneg-controller//terraform/gcp?ref=master"
project_id = module.project.project_id
service_account_id = "autoneg"
workload_identity = {
namespace = "autoneg-system"
service_account = "autoneg-controller-manager"
}
# To add shared VPC configuration, also set shared_vpc variable
}
resource "helm_release" "autoneg" {
name = "autoneg"
chart = "autoneg-controller-manager"
repository = "https://googlecloudplatform.github.io/gke-autoneg-controller/"
namespace = "autoneg-system"
create_namespace = true
set {
name = "createNamespace"
value = false
}
set {
name = "serviceAccount.annotations.iam\\.gke\\.io/gcp-service-account"
value = module.autoneg.service_account_email
}
set {
name = "serviceAccount.automountServiceAccountToken"
value = true
}
}
autoneg
is based on Kubebuilder, and as such, you can customize and
deploy autoneg
according to the Kubebuilder "Run It On the Cluster" section of the
Quick Start. autoneg
does not define
a CRD, so you can skip any Kubebuilder steps involving CRDs.
The included deploy/autoneg.yaml
is the default output of Kubebuilder's make deploy
step,
coupled with a public image.
Do keep in mind the additional configuration to enable Workload Identity.