Amazon EKS Concepts: Difference between revisions
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===Additional Configuration=== | ===Additional Configuration=== | ||
Additional configuration elements can also be specified as annotations: | Additional configuration elements can also be specified as annotations: | ||
<syntaxhighlight lang='yaml'> | <syntaxhighlight lang='yaml'> | ||
metadata: | metadata: | ||
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annotations: | annotations: | ||
service.beta.kubernetes.io/aws-load-balancer-security-groups: 'sg-00000000000000000' | service.beta.kubernetes.io/aws-load-balancer-security-groups: 'sg-00000000000000000' | ||
</syntaxhighlight> | </syntaxhighlight> | ||
Also see: {{Internal|Kubernetes_Service_Concepts#EKS|Kubernetes Service Concepts}} {{Internal|AWS_Elastic_Load_Balancing_Concepts#Network_Load_Balancer_and_EKS|AWS Elastic Load Balancing Concepts | Network Load Balancer}} | Also see: {{Internal|Kubernetes_Service_Concepts#EKS|Kubernetes Service Concepts}} {{Internal|AWS_Elastic_Load_Balancing_Concepts#Network_Load_Balancer_and_EKS|AWS Elastic Load Balancing Concepts | Network Load Balancer}} | ||
Revision as of 01:37, 25 February 2021
Internal
Overview
EKS Cluster
Control Plane
EKS Worker Node
EKS Worker Node IAM Role
Amazon EKS-optimized AMI
Worker Node Group
A worker node group is a named EKS management entity that facilitates creation and management of EC2 instance-based Kubernetes worker nodes. There could be managed node groups and self-managed node groups. When the EKS cluster is created, the operator has the option to create on or more node groups. The node groups created this way are managed node groups. An EKS cluster can use more than one node group.
Node Group Name
Managed Node Group
Managed node groups are worker node groups created by default during the provisioning of an EKs cluster.
The main characteristic of a managed node group is that it abstracts out the creation and management of individual EC2 instances. The user does not need to concern themselves with creation of individual EC2 VMs, but only indicate the type and how many are needed. The EC2 instances created by a managed node group are based on EKS-optimized AMIs. When the nodes are updated or terminated, the pods running on them are gracefully drained, in such a way to ensure that the applications stay available. The updates respect the pod disruption budgets.
Each managed node group has a one-to-one association with an EC2 Auto-Scaling group, and all nodes provisioned by the group are automatically made part of the EC2 Auto-Scaling group, so the nodes managed by a group can autoscale: the nodes launched as part of a group are automatically tagged for auto-discovery by the Kuberenetes Cluster Autoscaler. The associated auto-scaling group name can be retrieved from the managed group configuration.
The nodes managed by a group can run across multiple availability zones.
The node group can be used to apply Kubernetes labels to nodes.
When a managed node group is created, the subnets to attach nodes to must be specified. Managed nodes can be launched both in public and private subnets.
When the managed node group is created, a capacity type, which could be either On-Demand or Spot, must be selected.
Self-Managed Node Group
Contains self-managed worker nodes. The node group name can be used later to identity the Auto Scaling node group that is created for these worker nodes.
Node Group Operations
Autoscaling
Autoscaling is implemented in EKS using node groups, which in turn use EC2 auto scaling groups. The node groups can be created and associated with the EKS instance via the AWS console, when the EKS instance is created.
If you are running a stateful application across multiple availability zones that is backed by EBS volumes and using the cluster autoscaler, you should configure multiple node groups, each scoped to a single availability zone, and you should enable the --balance-simiar-node-groups feature.
Cluster Autoscaler
Horizontal Pod Autoscaler
Vertical Pod Autoscaler
Cluster Service Role
The cluster service role allows the Kubernetes control plane to manage AWS resources. The cluster service role is different from the role needed to manage computes nodes, which can be created independently. It contains an "AmazonEKSClusterPolicy" policy. The cluster service role is needed when creating the EKS cluster.
Creation procedure:
Cluster Compute Role
The compute role is an IAM role compute nodes use to operate under. It can be determined from the AWS console by going to EC2, then to a specific node, then looking up "IAM Role" for that node. Also if node groups are used, the IAM role is associated with the node group.
Cluster Endpoint
AWS Infrastructure Requirements
TODO: Topology diagram
Cluster VPC
Subnets
Security Groups
See EKS Security Groups below.
EKS Platform Versions and Kubernetes Versions
Amazon EKS platform version.
Integration with ECR
Logging
Control Plane Logging
SLA
aws-iam-authenticator
Page 17.
aws-iam-authenticator Operations
.kube/config Configuration
AWS documentation refers to the Kubernetes configuration file as "kubeconfig".
EKS Security
API Server User Management and Access Control
When an EKS cluster is created, the IAM entity (user or role) that creates the cluster is automatically granted "system:master" permissions in the cluster's RBAC configuration. Where?. Additional IAM users and roles can be added after cluster creation by editing the aws-auth ConfigMap. For more details on how kubectl picks up the caller identity, see Connect to an EKS Cluster with kubectl.
aws-auth ConfigMap
The "aws-auth" ConfigMap is initially created to allow the nodes to join the cluster. It is created only after the cluster is configured with nodes.
kubectl -n kube-system -o yaml get cm aws-auth
apiVersion: v1
kind: ConfigMap
metadata:
name: aws-auth
namespace: kube-system
data:
mapRoles: |
- groups:
- system:bootstrappers
- system:nodes
rolearn: arn:aws:iam::999999999999:role/playground-eks-compute-role
username: system:node:{{EC2PrivateDNSName}}
However, the same ConfigMap can be used used to add RBAC access to IAM users and roles, as described below:
IAM Role
See Cluster Service Role.
EKS IAM Permissions
These are technically "actions", but they are commonly referred to as "permissions", which implies that the action is part of a formal permission construct associated with the entity requiring it.
- eks:DescribeCluster
Pod Security Policy
Also see:
By default, the PodSecurityPolicy admission controller is enabled, but a fully permissive security policy with no restrictions, named "eks.privileged" is applied. The permission to "use" "eks.privileged" is imparted by the "eks:podsecuritypolicy:privileged" ClusterRole:
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
name: eks:podsecuritypolicy:privileged
rules:
- apiGroups:
- policy
resourceNames:
- eks.privileged
resources:
- podsecuritypolicies
verbs:
- use
The "eks:podsecuritypolicy:privileged" ClusterRole is bound by the "eks:podsecuritypolicy:authenticated" ClusterRoleBinding to all members of the "system:authenticated" Group, which results in the fact that any authenticated identity can use it.
Bearer Tokens
Webhook Token Authentication
EKS supports natively bearer tokens via webhook token authentication. For more details see:
EKS Security Groups
TODO:
https://docs.aws.amazon.com/eks/latest/userguide/sec-group-reqs.html
These are the security groups to apply to the EKS-managed Elastic Network Interfaces that are created in the worker subnets.
Use the security group created by the CloudFormation stack <cluster-name>-*-ControlPlaneSecurityGroup-*
If reusing infrastructure from an existing EKS cluster, get them from Networking → Cluster Security Group
Cluster Security Group
The cluster security group is ?.
The cluster security group is automatically created during the EKS cluster creation process, and its name is similar to "eks-cluster-sg-<cluster-name>-1234". For an existing cluster, the cluster security group can be retrieved by navigating to the cluster page in AWS console, then Configuration → Networking → Cluster Security Group, or by executing:
aws eks describe-cluster --name <cluster-name> --query cluster.resourcesVpcConfig.clusterSecurityGroupId
The cluster security group is automatically updated with NLB-generated access rules.
The cluster security group may get into an invalid state, due to automated and manual operations, and symptoms include node groups nodes not being able to join the cluster.
Additional Security Groups
Additional security groups are ?
Additional security groups can be specified during the EKS cluster creation process via the AWS console.
The additional security groups can be retrieved by navigating to the cluster page in AWS console, then Configuration → Networking → Additional Security Groups.
EKS Security Groups Operations
Load Balancing and Ingress
Using an Ingress
Using a NLB
A dedicated NLB instance can be deployed per LoadBalancer service if the service is annotated with the "service.beta.kubernetes.io/aws-load-balancer-type" annotation with the value set to "nlb".
metadata:
name: my-service
annotations:
service.beta.kubernetes.io/aws-load-balancer-type: 'nlb'
The NLB is created upon service deployment, and destroyed upon service removal. The name of the load balancer becomes part of the automatically provisioned DNS name, so the NLB can be identified by getting the service DNS name with kubectl get svc
, extracting the first part of the name, which comes before the first dash, and using that ID to look up the load balancer in the AWS EC2 console.
The load balancer will create an AWS ELB listener for each service port exposed by the EKS LoadBalancer service, where the listener port matches the service port. The load balancer listener will have s single forward rule to a dynamically created target group, which includes all the Kubernetes nodes that are part of the cluster. The target group's target port matches the corresponding NodePort service port, which is the same on all Kubernetes nodes.
When a request arrives to the publicly exposed port of the NLB listener, the load balancer forwards it to the target group. The target group randomly picks up a Kubernetes node from the group, and forwards the invocation to the Kubernetes node's NodePort service. The NodePort service forwards the invocation to its associated ClusterIP service, which in turn forwards the request to a random pod from its pool. More details in NodePort Service section.
If we want to expose a service, for example, only on port 443, we need to declare only port 443 in the LoadBalancer service definition.
If the Service's .spec.externalTrafficPolicy
is set to "Cluster", the client's IP address is not propagated to the end Pods. For more details see Node/Pod Relationship and Client IP Preservation.
Kubernetes Node Security Group Dynamic Configuration
To allow client traffic to reach instances behind an NLB, the nodes' security groups are modified with the following inbound rules:
- "Health Check" rule. TCP on the NodePort ports (
.spec.healthCheckNodePort
for.spec.externalTrafficPolicy
= Local), for the VPC CIDR. The rule is annotated with "kubernetes.io/rule/nlb/health=<loadBalancerName>" - Client traffic rule. TCP on the NodePort ports, for the
.spec.loadBalancerSourceRanges
(defaults to 0.0.0.0/0) IP range. The rule is annotated with "kubernetes.io/rule/nlb/client=<loadBalancerName>" - "MTU Discovery" rule. ICMP on ports 3 and 4, for
.spec.loadBalancerSourceRanges
(defaults to 0.0.0.0/0) IP range. The rule is annotated with "kubernetes.io/rule/nlb/mtu=<loadBalancerName>"
TLS Support
Add the following annotation on the LoadBalancer service:
metadata:
name: my-service
annotations:
service.beta.kubernetes.io/aws-load-balancer-ssl-cert: arn:aws:acm:us-east-1:123456789012:certificate/12345678-1234-1234-1234-123456789012
service.beta.kubernetes.io/aws-load-balancer-backend-protocol: (https|http|ssl|tcp)
aws-load-balancer-ssl-cert
aws-load-balancer-backend-protocol
This annotation specifies the protocol supported by the pod. For "https" and "ssl", the load balancer expects the pod to authenticate itself over an encrypted connection using a certificate.
"http" and "https" selects layer 7 proxying: the ELB terminates the connection with the user, parses headers, and injects the X-Forwarded-For header with the user's IP address (pods only see the IP address of the ELB at the other end of its connection) when forwarding requests.
"tcp" and "ssl" selects layer 7: the ELB forwards traffic without modifying the headers.
In a mixed-use environment where some ports are secured and others are left unencrypted, you can use the following annotations:
metadata:
name: my-service
annotations:
service.beta.kubernetes.io/aws-load-balancer-backend-protocol: http
service.beta.kubernetes.io/aws-load-balancer-ssl-ports: "443,8443"
In the above example, if the Service contained three ports, 80, 443, and 8443, then 443 and 8443 would use the SSL certificate, but 80 would just be proxied HTTP.
Predefined AWS SSL policies.
Testing
If correctly deployed, the SSL certificate is reported in the AWS EC2 Console → Load Balancer → search → Listeners → SSL Certificate.
The service must be accessed within the DNS domain the certificate was released for, otherwise the browser will warn NET::ERR_CERT_COMMON_NAME_INVALID
Additional Configuration
Additional configuration elements can also be specified as annotations:
metadata:
name: my-service
annotations:
service.beta.kubernetes.io/aws-load-balancer-security-groups: 'sg-00000000000000000'
Also see:
NLB Idiosyncrasies
It seems that a LoadBalancer deployment causes updating Kubernetes nodes' security group. Rules area added, and if too many rules are added, the LoadBalancer deployment fails with:
Warning CreatingLoadBalancerFailed 17m service-controller Error creating load balancer (will retry): failed to ensure load balancer for service xx/xxxxx: error authorizing security group ingress: "RulesPerSecurityGroupLimitExceeded: The maximum number of rules per security group has been reached.\n\tstatus code: 400, request id: a4fc17a6-8803-4fb4-ac78-ee0db99030e0"
The solution was to locate a node → Security → Security groups → pick the SG with "kubernetes.io/rule/nlb/" rules, and delete inbound "kubernetes.io/rule/nlb/" rules.