README ¶
Kubernetes Cloud Controller Manager for Linode
The purpose of the CCM
The Linode Cloud Controller Manager (CCM) creates a fully supported Kubernetes experience on Linode.
- Load balancers, Linode NodeBalancers, are automatically deployed when a Kubernetes Service of type "LoadBalancer" is deployed. This is the most reliable way to allow services running in your cluster to be reachable from the Internet.
- Linode hostnames and network addresses (private/public IPs) are automatically associated with their corresponding Kubernetes resources, forming the basis for a variety of Kubernetes features.
- Nodes resources are put into the correct state when Linodes are shut down, allowing pods to be appropriately rescheduled.
- Nodes are annotated with the Linode region, which is the basis for scheduling based on failure domains.
Kubernetes Supported Versions
Kubernetes 1.9+
Usage
LoadBalancer Services
Kubernetes Services of type LoadBalancer
will be served through a Linode NodeBalancer by default which the Cloud Controller Manager will provision on demand.
For general feature and usage notes, refer to the Getting Started with Linode NodeBalancers guide.
Using IP Sharing instead of NodeBalancers
Alternatively, the Linode CCM can integrate with Cilium's BGP Control Plane to perform load-balancing via IP sharing on labeled Nodes. This option does not create a backing NodeBalancer and instead provisions a new IP on an ip-holder Nanode to share for the desired region. See Shared IP LoadBalancing.
Annotations
The Linode CCM accepts several annotations which affect the properties of the underlying NodeBalancer deployment.
All the Service annotation names listed below have been shortened for readability. The values, such as http
, are case-sensitive.
Each Service annotation MUST be prefixed with:
service.beta.kubernetes.io/linode-loadbalancer-
Annotation (Suffix) | Values | Default | Description |
---|---|---|---|
throttle |
0 -20 (0 to disable) |
0 |
Client Connection Throttle, which limits the number of subsequent new connections per second from the same client IP |
default-protocol |
tcp , http , https |
tcp |
This annotation is used to specify the default protocol for Linode NodeBalancer. |
default-proxy-protocol |
none , v1 , v2 |
none |
Specifies whether to use a version of Proxy Protocol on the underlying NodeBalancer. |
port-* |
json (e.g. { "tls-secret-name": "prod-app-tls", "protocol": "https", "proxy-protocol": "v2"} ) |
Specifies port specific NodeBalancer configuration. See Port Specific Configuration. * is the port being configured, e.g. linode-loadbalancer-port-443 |
|
check-type |
none , connection , http , http_body |
The type of health check to perform against back-ends to ensure they are serving requests | |
check-path |
string | The URL path to check on each back-end during health checks | |
check-body |
string | Text which must be present in the response body to pass the NodeBalancer health check | |
check-interval |
int | Duration, in seconds, to wait between health checks | |
check-timeout |
int (1-30) | Duration, in seconds, to wait for a health check to succeed before considering it a failure | |
check-attempts |
int (1-30) | Number of health check failures necessary to remove a back-end from the service | |
check-passive |
bool | false |
When true , 5xx status codes will cause the health check to fail |
preserve |
bool | false |
When true , deleting a LoadBalancer service does not delete the underlying NodeBalancer. This will also prevent deletion of the former LoadBalancer when another one is specified with the nodebalancer-id annotation. |
nodebalancer-id |
string | The ID of the NodeBalancer to front the service. When not specified, a new NodeBalancer will be created. This can be configured on service creation or patching | |
hostname-only-ingress |
bool | false |
When true , the LoadBalancerStatus for the service will only contain the Hostname. This is useful for bypassing kube-proxy's rerouting of in-cluster requests originally intended for the external LoadBalancer to the service's constituent pod IPs. |
tags |
string | A comma seperated list of tags to be applied to the createad NodeBalancer instance | |
firewall-id |
string | An existing Cloud Firewall ID to be attached to the NodeBalancer instance. See Firewalls. | |
firewall-acl |
string | The Firewall rules to be applied to the NodeBalancer. Adding this annotation creates a new CCM managed Linode CloudFirewall instance. See Firewalls. |
Deprecated Annotations
These annotations are deprecated, and will be removed in a future release.
Annotation (Suffix) | Values | Default | Description | Scheduled Removal |
---|---|---|---|---|
proxy-protcol |
none , v1 , v2 |
none |
Specifies whether to use a version of Proxy Protocol on the underlying NodeBalancer | Q4 2021 |
Annotation bool values
For annotations with bool value types, "1"
, "t"
, "T"
, "True"
, "true"
and "True"
are valid string representations of true
. Any other values will be interpreted as false. For more details, see strconv.ParseBool.
Port Specific Configuration
These configuration options can be specified via the port-*
annotation, encoded in JSON.
Key | Values | Default | Description |
---|---|---|---|
protocol |
tcp , http , https |
tcp |
Specifies protocol of the NodeBalancer port. Overwrites default-protocol . |
proxy-protocol |
none , v1 , v2 |
none |
Specifies whether to use a version of Proxy Protocol on the underlying NodeBalancer. Overwrites default-proxy-protocol . |
tls-secret-name |
string | Specifies a secret to use for TLS. The secret type should be kubernetes.io/tls . |
Shared IP Load-Balancing
NOTE: This feature requires contacting Customer Support to enable provisioning additional IPs.
Services of type: LoadBalancer
can receive an external IP not backed by a NodeBalancer if --bgp-node-selector
is set on the Linode CCM and --load-balancer-type
is set to cilium-bgp
.
If you plan to run multiple clusters within a single API Region, setting --ip-holder-suffix
on the Linode CCM to a unique value per cluster will create an ip-holder nanode for each cluster that is created within that API Region (ex. linode-ccm-ip-holder-<region>-<ip-holder-suffix>
).
If you do not set --ip-holder-suffix
on the Linode CCM, it will use the following naming convention for the ip-holder nanode (ex. linode-ccm-ip-holder-<region>
).
This feature requires the Kubernetes cluster to be using Cilium as the CNI with the bgp-control-plane
feature enabled.
apiVersion: apps/v1
kind: DaemonSet
metadata:
name: ccm-linode
namespace: kube-system
spec:
template:
spec:
containers:
- image: linode/linode-cloud-controller-manager:latest
name: ccm-linode
env:
- name: LINODE_URL
value: https://api.linode.com/v4
args:
- --bgp-node-selector=cilium-bgp-peering=true
- --load-balancer-type=cilium-bgp
- --ip-holder-suffix=myclustername1
...
sharedIPLoadBalancing:
loadBalancerType: cilium-bgp
bgpNodeSelector: cilium-bgp-peering=true
ipHolderSuffix: myclustername1
Firewalls
Firewall rules can be applied to the CCM Managed NodeBalancers in two distinct ways.
To use this feature, ensure that the linode api token used with the ccm has the add_firewalls
grant.
The CCM accepts firewall ACLs in json form. The ACL can either be an allowList
or a denyList
. Supplying both is not supported. Supplying neither is not supported. The allowList
sets up a CloudFirewall that ACCEPT
s traffic only from the specified IPs/CIDRs and DROP
s everything else. The denyList
sets up a CloudFirewall that DROP
s traffic only from the specified IPs/CIDRs and ACCEPT
s everything else. Ports are automatically inferred from the service configuration.
See Firewall rules for more details on how to specify the IPs/CIDRs
Example usage of an ACL to allow traffic from a specific set of addresses
kind: Service
apiVersion: v1
metadata:
name: https-lb
annotations:
service.beta.kubernetes.io/linode-loadbalancer-firewall-acl: |
{
"allowList": {
"ipv4": ["192.166.0.0/16", "172.23.41.0/24"],
"ipv6": ["2001:DB8::/128"]
}
}
spec:
type: LoadBalancer
selector:
app: nginx-https-example
ports:
- name: http
protocol: TCP
port: 80
targetPort: http
- name: https
protocol: TCP
port: 443
targetPort: https
Users can create CloudFirewall instances, supply their own rules and attach them to the NodeBalancer. To do so, set the
service.beta.kubernetes.io/linode-loadbalancer-firewall-id
annotation to the ID of the cloud firewall. The CCM does not manage the lifecycle of the CloudFirewall Instance in this case. Users are responsible for ensuring the policies are correct.
Note
If the user supplies a firewall-id, and later switches to using an ACL, the CCM will take over the CloudFirewall Instance. To avoid this, delete the service, and re-create it so the original CloudFirewall is left undisturbed.
Routes
When running k8s clusters within VPC, node specific podCIDRs need to be allowed on the VPC interface. Linode CCM comes with route-controller functionality which can be enabled for automatically adding/deleting routes on VPC interfaces. When installing CCM with helm, make sure to specify routeController settings.
routeController:
vpcNames: <comma separated names of VPCs managed by CCM>
clusterCIDR: 10.0.0.0/8
configureCloudRoutes: true
Nodes
Kubernetes Nodes can be configured with the following annotations.
Each Node annotation MUST be prefixed with:
node.k8s.linode.com/
Key | Values | Default | Description |
---|---|---|---|
private-ip |
IPv4 |
none |
Specifies the Linode Private IP overriding default detection of the Node InternalIP. When using a VLAN or VPC, the Node InternalIP may not be a Linode Private IP as required for NodeBalancers and should be specified. |
Example usage
kind: Service
apiVersion: v1
metadata:
name: https-lb
annotations:
service.beta.kubernetes.io/linode-loadbalancer-throttle: "4"
service.beta.kubernetes.io/linode-loadbalancer-default-protocol: "http"
service.beta.kubernetes.io/linode-loadbalancer-port-443: |
{
"tls-secret-name": "example-secret",
"protocol": "https"
}
spec:
type: LoadBalancer
selector:
app: nginx-https-example
ports:
- name: http
protocol: TCP
port: 80
targetPort: http
- name: https
protocol: TCP
port: 443
targetPort: https
---
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-https-deployment
spec:
replicas: 2
selector:
matchLabels:
app: nginx-https-example
template:
metadata:
labels:
app: nginx-https-example
spec:
containers:
- name: nginx
image: nginx
ports:
- name: http
containerPort: 80
protocol: TCP
- name: https
containerPort: 80
protocol: TCP
See more in the examples directory
Why stickiness
and algorithm
annotations don't exist
As kube-proxy will simply double-hop the traffic to a random backend Pod anyway, it doesn't matter which backend Node traffic is forwarded-to for the sake of session stickiness. These annotations are not necessary to implement session stickiness, as kube-proxy will simply double-hop the packets to a random backend Pod. It would not make a difference to set a backend Node that would receive the network traffic in an attempt to set session stickiness.
How to use sessionAffinity
In Kubernetes, sessionAffinity refers to a mechanism that allows a client always to be redirected to the same pod when the client hits a service.
To enable sessionAffinity service.spec.sessionAffinity
field must be set to ClientIP
as the following service yaml:
apiVersion: v1
kind: Service
metadata:
name: wordpress-lsmnl-wordpress
namespace: wordpress-lsmnl
labels:
app: wordpress-lsmnl-wordpress
spec:
type: LoadBalancer
selector:
app: wordpress-lsmnl-wordpress
sessionAffinity: ClientIP
The max session sticky time can be set by setting the field service.spec.sessionAffinityConfig.clientIP.timeoutSeconds
as below:
sessionAffinityConfig:
clientIP:
timeoutSeconds: 100
Additional environment variables
To tweak CCM based on needs, one can overwrite the default values set for caches and requests by setting appropriate environment variables when applying the manifest or helm chart.
Environment Variable | Default | Description |
---|---|---|
LINODE_INSTANCE_CACHE_TTL |
15 |
Default timeout of instance cache in seconds |
LINODE_ROUTES_CACHE_TTL_SECONDS |
60 |
Default timeout of route cache in seconds |
LINODE_REQUEST_TIMEOUT_SECONDS |
120 |
Default timeout in seconds for http requests to linode API |
LINODE_EXTERNAL_SUBNET |
Mark private network as external. Example - 172.24.0.0/16 |
Generating a Manifest for Deployment
Use the script located at ./deploy/generate-manifest.sh
to generate a self-contained deployment manifest for the Linode CCM. Two arguments are required.
The first argument must be a Linode APIv4 Personal Access Token with all permissions. (https://cloud.linode.com/profile/tokens)
The second argument must be a Linode region. (https://api.linode.com/v4/regions)
Example:
./deploy/generate-manifest.sh $LINODE_API_TOKEN us-east
This will create a file ccm-linode.yaml
which you can use to deploy the CCM.
kubectl apply -f ccm-linode.yaml
Note: Your kubelets, controller-manager, and apiserver must be started with --cloud-provider=external
as noted in the following documentation.
Deployment Through Helm Chart
LINODE_API_TOKEN must be a Linode APIv4 Personal Access Token with all permissions.
REGION must be a Linode region.
Install the ccm-linode repo
helm repo add ccm-linode https://linode.github.io/linode-cloud-controller-manager/
helm repo update ccm-linode
To deploy ccm-linode. Run the following command:
export VERSION=v0.4.8
export LINODE_API_TOKEN=<linodeapitoken>
export REGION=<linoderegion>
helm install ccm-linode --set apiToken=$LINODE_API_TOKEN,region=$REGION ccm-linode/ccm-linode
See helm install for command documentation.
To uninstall ccm-linode from kubernetes cluster. Run the following command:
helm uninstall ccm-linode
See helm uninstall for command documentation.
To upgrade when new changes are made to the helm chart. Run the following command:
export VERSION=v0.4.8
export LINODE_API_TOKEN=<linodeapitoken>
export REGION=<linoderegion>
helm upgrade ccm-linode --install --set apiToken=$LINODE_API_TOKEN,region=$REGION ccm-linode/ccm-linode
See helm upgrade for command documentation.
Configurations
There are other variables that can be set to a different value. For list of all the modifiable variables/values, take a look at './deploy/chart/values.yaml'.
Values can be set/overrided by using the '--set var=value,...' flag or by passing in a custom-values.yaml using '-f custom-values.yaml'.
Recommendation: Use custom-values.yaml to override the variables to avoid any errors with template rendering
Upstream Documentation Including Deployment Instructions
Kubernetes Cloud Controller Manager.
Upstream Developer Documentation
Developing a Cloud Controller Manager.
Development Guide
Building the Linode Cloud Controller Manager
Some of the Linode Cloud Controller Manager development helper scripts rely on a fairly up-to-date GNU tools environment, so most recent Linux distros should work just fine out-of-the-box.
Setup Go
The Linode Cloud Controller Manager is written in Google's Go programming language. Currently, the Linode Cloud Controller Manager is developed and tested on Go 1.8.3. If you haven't set up a Go development environment, please follow these instructions to install Go.
On macOS, Homebrew has a nice package
brew install golang
Download Source
go get github.com/linode/linode-cloud-controller-manager
cd $(go env GOPATH)/src/github.com/linode/linode-cloud-controller-manager
Install Dev tools
To install various dev tools for Pharm Controller Manager, run the following command:
./hack/builddeps.sh
Build Binary
Use the following Make targets to build and run a local binary
$ make build
$ make run
# You can also run the binary directly to pass additional args
$ dist/linode-cloud-controller-manager
Dependency management
Linode Cloud Controller Manager uses Go Modules to manage dependencies. If you want to update/add dependencies, run:
go mod tidy
Building Docker images
To build and push a Docker image, use the following make targets.
# Set the repo/image:tag with the TAG environment variable
# Then run the docker-build make target
$ IMG=linode/linode-cloud-controller-manager:canary make docker-build
# Push Image
$ IMG=linode/linode-cloud-controller-manager:canary make docker-push
Then, to run the image
docker run -ti linode/linode-cloud-controller-manager:canary
Contribution Guidelines
Want to improve the linode-cloud-controller-manager? Please start here.
Join the Kubernetes Community
For general help or discussion, join us in #linode on the Kubernetes Slack. To sign up, use the Kubernetes Slack inviter.
Documentation ¶
There is no documentation for this package.
Directories ¶
Path | Synopsis |
---|---|
linode/client/mocks
Package mocks is a generated GoMock package.
|
Package mocks is a generated GoMock package. |
Package sentry implements logic for using Sentry for error reporting.
|
Package sentry implements logic for using Sentry for error reporting. |