Ingress annotations¶
You can add annotations to kubernetes Ingress and Service objects to customize their behavior.
- Annotation keys and values can only be strings. Advanced format should be encoded as below:
- boolean: 'true'
- integer: '42'
- stringList: s1,s2,s3
- stringMap: k1=v1,k2=v2
- json: 'jsonContent'
- Annotations applied to Service have higher priority over annotations applied to Ingress.
Location
column below indicates where that annotation can be applied to. - Annotations that configures LoadBalancer / Listener behaviors have different merge behavior when IngressGroup feature is been used.
MergeBehavior
column below indicates how such annotation will be merged.- Exclusive: such annotation should only be specified on a single Ingress within IngressGroup or specified with same value across all Ingresses within IngressGroup.
- Merge: such annotation can be specified on all Ingresses within IngressGroup, and will be merged together.
Annotations¶
IngressGroup¶
IngressGroup feature enables you to group multiple Ingress resources together. The controller will automatically merge Ingress rules for all Ingresses within IngressGroup and support them with a single ALB. In addition, most annotations defined on an Ingress only apply to the paths defined by that Ingress.
By default, Ingresses don't belong to any IngressGroup, and we treat it as a "implicit IngressGroup" consisting of the Ingress itself.
-
alb.ingress.kubernetes.io/group.name
specifies the group name that this Ingress belongs to.- Ingresses with same
group.name
annotation will form an "explicit IngressGroup". - groupName must consist of lower case alphanumeric characters,
-
or.
, and must start and end with an alphanumeric character. - groupName must be no more than 63 character.
Security Risk
IngressGroup feature should only be used when all Kubernetes users with RBAC permission to create/modify Ingress resources are within trust boundary.
If you turn your Ingress to belong a "explicit IngressGroup" by adding
group.name
annotation, other Kubernetes users may create/modify their Ingresses to belong to the same IngressGroup, and can thus add more rules or overwrite existing rules with higher priority to the ALB for your Ingress.We'll add more fine-grained access-control in future versions.
Rename behavior
The ALB for an IngressGroup is found by searching for an AWS tag
ingress.k8s.aws/stack
tag with the name of the IngressGroup as its value. For an implicit IngressGroup, the value isnamespace/ingressname
.When the groupName of an IngressGroup for an Ingress is changed, the Ingress will be moved to a new IngressGroup and be supported by the ALB for the new IngressGroup. If the ALB for the new IngressGroup doesn't exist, a new ALB will be created.
If an IngressGroup no longer contains any Ingresses, the ALB for that IngressGroup will be deleted and any deletion protection of that ALB will be ignored.
Example
alb.ingress.kubernetes.io/group.name: my-team.awesome-group
- Ingresses with same
-
alb.ingress.kubernetes.io/group.order
specifies the order across all Ingresses within IngressGroup.- You can explicitly denote the order using a number between -1000 and 1000
- The smaller the order, the rule will be evaluated first. All Ingresses without an explicit order setting get order value as 0
- Rules with the same order are sorted lexicographically by the Ingress’s namespace/name.
Example
alb.ingress.kubernetes.io/group.order: '10'
Traffic Listening¶
Traffic Listening can be controlled with the following annotations:
-
alb.ingress.kubernetes.io/listen-ports
specifies the ports that ALB listens on.Merge Behavior
listen-ports
is merged across all Ingresses in IngressGroup.- You can define different listen-ports per Ingress, Ingress rules will only impact the ports defined for that Ingress.
- If same listen-port is defined by multiple Ingress within IngressGroup, Ingress rules will be merged with respect to their group order within IngressGroup.
Default
- defaults to
'[{"HTTP": 80}]'
or'[{"HTTPS": 443}]'
depending on whethercertificate-arn
is specified.
You may not have duplicate load balancer ports defined.
Example
alb.ingress.kubernetes.io/listen-ports: '[{"HTTP": 80}, {"HTTPS": 443}, {"HTTP": 8080}, {"HTTPS": 8443}]'
-
alb.ingress.kubernetes.io/ssl-redirect
enables SSLRedirect and specifies the SSL port that redirects to.Merge Behavior
ssl-redirect
is exclusive across all Ingresses in IngressGroup.- Once defined on a single Ingress, it impacts every Ingress within IngressGroup.
- Once enabled SSLRedirect, every HTTP listener will be configured with a default action which redirects to HTTPS, other rules will be ignored.
- The SSL port that redirects to must exists on LoadBalancer. See alb.ingress.kubernetes.io/listen-ports for the listen ports configuration.
Example
alb.ingress.kubernetes.io/ssl-redirect: '443'
-
alb.ingress.kubernetes.io/ip-address-type
specifies the IP address type of ALB.Example
alb.ingress.kubernetes.io/ip-address-type: ipv4
-
alb.ingress.kubernetes.io/customer-owned-ipv4-pool
specifies the customer-owned IPv4 address pool for ALB on Outpost.This annotation should be treated as immutable. To remove or change coIPv4Pool, you need to recreate Ingress.
Example
alb.ingress.kubernetes.io/customer-owned-ipv4-pool: ipv4pool-coip-xxxxxxxx
Traffic Routing¶
Traffic Routing can be controlled with following annotations:
-
alb.ingress.kubernetes.io/load-balancer-name
specifies the custom name to use for the load balancer. Name longer than 32 characters will be treated as an error.Merge Behavior
name
is exclusive across all Ingresses in an IngressGroup.- Once defined on a single Ingress, it impacts every Ingress within the IngressGroup.
Example
alb.ingress.kubernetes.io/load-balancer-name: custom-name
-
alb.ingress.kubernetes.io/target-type
specifies how to route traffic to pods. You can choose betweeninstance
andip
:-
instance
mode will route traffic to all ec2 instances within cluster on NodePort opened for your service.service must be of type "NodePort" or "LoadBalancer" to use
instance
mode -
ip
mode will route traffic directly to the pod IP.network plugin must use secondary IP addresses on ENI for pod IP to use
ip
mode. e.g.ip
mode is required for sticky sessions to work with Application Load Balancers. The Service type does not matter, when usingip
mode.
Example
alb.ingress.kubernetes.io/target-type: instance
-
-
alb.ingress.kubernetes.io/target-node-labels
specifies which nodes to include in the target group registration forinstance
target type.Example
alb.ingress.kubernetes.io/target-node-labels: label1=value1, label2=value2
-
alb.ingress.kubernetes.io/backend-protocol
specifies the protocol used when route traffic to pods.Example
alb.ingress.kubernetes.io/backend-protocol: HTTPS
-
alb.ingress.kubernetes.io/backend-protocol-version
specifies the application protocol used to route traffic to pods. Only valid when HTTP or HTTPS is used as the backend protocol.Example
- HTTP2
alb.ingress.kubernetes.io/backend-protocol-version: HTTP2
- GRPC
alb.ingress.kubernetes.io/backend-protocol-version: GRPC
- HTTP2
-
alb.ingress.kubernetes.io/subnets
specifies the Availability Zones that the ALB will route traffic to. See Load Balancer subnets for more details.You must specify at least two subnets in different AZs. Either subnetID or subnetName(Name tag on subnets) can be used.
Tip
You can enable subnet auto discovery to avoid specifying this annotation on every Ingress. See Subnet Discovery for instructions.
Example
alb.ingress.kubernetes.io/subnets: subnet-xxxx, mySubnet
-
alb.ingress.kubernetes.io/actions.${action-name}
Provides a method for configuring custom actions on a listener, such as Redirect Actions.The
action-name
in the annotation must match the serviceName in the Ingress rules, and servicePort must beuse-annotation
.use ARN in forward Action
ARN can be used in forward action(both simplified schema and advanced schema), it must be an targetGroup created outside of k8s, typically an targetGroup for legacy application.
use ServiceName/ServicePort in forward Action
ServiceName/ServicePort can be used in forward action(advanced schema only).
Auth related annotations on Service object will only be respected if a single TargetGroup in is used.
Example
- response-503: return fixed 503 response
- redirect-to-eks: redirect to an external url
- forward-single-tg: forward to a single targetGroup [simplified schema]
- forward-multiple-tg: forward to multiple targetGroups with different weights and stickiness config [advanced schema]
apiVersion: networking.k8s.io/v1 kind: Ingress metadata: namespace: default name: ingress annotations: alb.ingress.kubernetes.io/scheme: internet-facing alb.ingress.kubernetes.io/actions.response-503: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"503","messageBody":"503 error text"}} alb.ingress.kubernetes.io/actions.redirect-to-eks: > {"type":"redirect","redirectConfig":{"host":"aws.amazon.com","path":"/eks/","port":"443","protocol":"HTTPS","query":"k=v","statusCode":"HTTP_302"}} alb.ingress.kubernetes.io/actions.forward-single-tg: > {"type":"forward","targetGroupARN": "arn-of-your-target-group"} alb.ingress.kubernetes.io/actions.forward-multiple-tg: > {"type":"forward","forwardConfig":{"targetGroups":[{"serviceName":"service-1","servicePort":"http","weight":20},{"serviceName":"service-2","servicePort":80,"weight":20},{"targetGroupARN":"arn-of-your-non-k8s-target-group","weight":60}],"targetGroupStickinessConfig":{"enabled":true,"durationSeconds":200}}} spec: ingressClassName: alb rules: - http: paths: - path: /503 pathType: Exact backend: service: name: response-503 port: name: use-annotation - path: /eks pathType: Exact backend: service: name: redirect-to-eks port: name: use-annotation - path: /path1 pathType: Exact backend: service: name: forward-single-tg port: name: use-annotation - path: /path2 pathType: Exact backend: service: name: forward-multiple-tg port: name: use-annotation
-
alb.ingress.kubernetes.io/conditions.${conditions-name}
Provides a method for specifying routing conditions in addition to original host/path condition on Ingress spec.The
conditions-name
in the annotation must match the serviceName in the Ingress rules. It can be a either real serviceName or an annotation based action name when servicePort isuse-annotation
.limitations
General ALB limitations applies:
-
Each rule can optionally include up to one of each of the following conditions: host-header, http-request-method, path-pattern, and source-ip. Each rule can also optionally include one or more of each of the following conditions: http-header and query-string.
-
You can specify up to three match evaluations per condition.
-
You can specify up to five match evaluations per rule.
Refer ALB documentation for more details.
Example
- rule-path1:
- Host is www.example.com OR anno.example.com
- Path is /path1
- rule-path2:
- Host is www.example.com
- Path is /path2 OR /anno/path2
- rule-path3:
- Host is www.example.com
- Path is /path3
- Http header HeaderName is HeaderValue1 OR HeaderValue2
- rule-path4:
- Host is www.example.com
- Path is /path4
- Http request method is GET OR HEAD
- rule-path5:
- Host is www.example.com
- Path is /path5
- Query string is paramA:valueA1 OR paramA:valueA2
- rule-path6:
- Host is www.example.com
- Path is /path6
- Source IP is192.168.0.0/16 OR 172.16.0.0/16
- rule-path7:
- Host is www.example.com
- Path is /path7
- Http header HeaderName is HeaderValue
- Query string is paramA:valueA
- Query string is paramB:valueB
apiVersion: networking.k8s.io/v1 kind: Ingress metadata: namespace: default name: ingress annotations: alb.ingress.kubernetes.io/scheme: internet-facing alb.ingress.kubernetes.io/actions.rule-path1: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"200","messageBody":"Host is www.example.com OR anno.example.com"}} alb.ingress.kubernetes.io/conditions.rule-path1: > [{"field":"host-header","hostHeaderConfig":{"values":["anno.example.com"]}}] alb.ingress.kubernetes.io/actions.rule-path2: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"200","messageBody":"Path is /path2 OR /anno/path2"}} alb.ingress.kubernetes.io/conditions.rule-path2: > [{"field":"path-pattern","pathPatternConfig":{"values":["/anno/path2"]}}] alb.ingress.kubernetes.io/actions.rule-path3: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"200","messageBody":"Http header HeaderName is HeaderValue1 OR HeaderValue2"}} alb.ingress.kubernetes.io/conditions.rule-path3: > [{"field":"http-header","httpHeaderConfig":{"httpHeaderName": "HeaderName", "values":["HeaderValue1", "HeaderValue2"]}}] alb.ingress.kubernetes.io/actions.rule-path4: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"200","messageBody":"Http request method is GET OR HEAD"}} alb.ingress.kubernetes.io/conditions.rule-path4: > [{"field":"http-request-method","httpRequestMethodConfig":{"Values":["GET", "HEAD"]}}] alb.ingress.kubernetes.io/actions.rule-path5: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"200","messageBody":"Query string is paramA:valueA1 OR paramA:valueA2"}} alb.ingress.kubernetes.io/conditions.rule-path5: > [{"field":"query-string","queryStringConfig":{"values":[{"key":"paramA","value":"valueA1"},{"key":"paramA","value":"valueA2"}]}}] alb.ingress.kubernetes.io/actions.rule-path6: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"200","messageBody":"Source IP is 192.168.0.0/16 OR 172.16.0.0/16"}} alb.ingress.kubernetes.io/conditions.rule-path6: > [{"field":"source-ip","sourceIpConfig":{"values":["192.168.0.0/16", "172.16.0.0/16"]}}] alb.ingress.kubernetes.io/actions.rule-path7: > {"type":"fixed-response","fixedResponseConfig":{"contentType":"text/plain","statusCode":"200","messageBody":"multiple conditions applies"}} alb.ingress.kubernetes.io/conditions.rule-path7: > [{"field":"http-header","httpHeaderConfig":{"httpHeaderName": "HeaderName", "values":["HeaderValue"]}},{"field":"query-string","queryStringConfig":{"values":[{"key":"paramA","value":"valueA"}]}},{"field":"query-string","queryStringConfig":{"values":[{"key":"paramB","value":"valueB"}]}}] spec: ingressClassName: alb rules: - host: www.example.com http: paths: - path: /path1 pathType: Exact backend: service: name: rule-path1 port: name: use-annotation - path: /path2 pathType: Exact backend: service: name: rule-path2 port: name: use-annotation - path: /path3 pathType: Exact backend: service: name: rule-path3 port: name: use-annotation - path: /path4 pathType: Exact backend: service: name: rule-path4 port: name: use-annotation - path: /path5 pathType: Exact backend: service: name: rule-path5 port: name: use-annotation - path: /path6 pathType: Exact backend: service: name: rule-path6 port: name: use-annotation - path: /path7 pathType: Exact backend: service: name: rule-path7 port: name: use-annotation
Note
If you are using
alb.ingress.kubernetes.io/target-group-attributes
withstickiness.enabled=true
, you should addTargetGroupStickinessConfig
underalb.ingress.kubernetes.io/actions.weighted-routing
Example
apiVersion: networking.k8s.io/v1 kind: Ingress metadata: namespace: default name: ingress annotations: alb.ingress.kubernetes.io/scheme: internet-facing alb.ingress.kubernetes.io/target-type: ip alb.ingress.kubernetes.io/target-group-attributes: stickiness.enabled=true,stickiness.lb_cookie.duration_seconds=60 alb.ingress.kubernetes.io/actions.weighted-routing: | { "type":"forward", "forwardConfig":{ "targetGroups":[ { "serviceName":"service-1", "servicePort":"80", "weight":50 }, { "serviceName":"service-2", "servicePort":"80", "weight":50 } ], "TargetGroupStickinessConfig": { "Enabled": true, "DurationSeconds": 120 } } } spec: ingressClassName: alb rules: - host: www.example.com http: paths: - path: / pathType: Prefix backend: service: name: weighted-routing port: name: use-annotation
-
Access control¶
Access control for LoadBalancer can be controlled with following annotations:
-
alb.ingress.kubernetes.io/scheme
specifies whether your LoadBalancer will be internet facing. See Load balancer scheme in the AWS documentation for more details.Example
alb.ingress.kubernetes.io/scheme: internal
-
alb.ingress.kubernetes.io/inbound-cidrs
specifies the CIDRs that are allowed to access LoadBalancer.Merge Behavior
inbound-cidrs
is merged across all Ingresses in IngressGroup, but is exclusive per listen-port.- the
inbound-cidrs
will only impact the ports defined for that Ingress. - if same listen-port is defined by multiple Ingress within IngressGroup, inbound-cidrs should only be defined on one of the Ingress.
Default
0.0.0.0/0
will be used if the IPAddressType is "ipv4"0.0.0.0/0
and::/0
will be used if the IPAddressType is "dualstack"
this annotation will be ignored if
alb.ingress.kubernetes.io/security-groups
is specified.Example
alb.ingress.kubernetes.io/inbound-cidrs: 10.0.0.0/24
- the
-
alb.ingress.kubernetes.io/security-groups
specifies the securityGroups you want to attach to LoadBalancer.When this annotation is not present, the controller will automatically create one security group, the security group will be attached to the LoadBalancer and allow access from
inbound-cidrs
to thelisten-ports
. Also, the securityGroups for Node/Pod will be modified to allow inbound traffic from this securityGroup.If you specify this annotation, you need to configure the security groups on your Node/Pod to allow inbound traffic from the load balancer. You could also set the
manage-backend-security-group-rules
if you want the controller to manage the access rules.Both name or ID of securityGroups are supported. Name matches a
Name
tag, not thegroupName
attribute.Example
alb.ingress.kubernetes.io/security-groups: sg-xxxx, nameOfSg1, nameOfSg2
-
alb.ingress.kubernetes.io/manage-backend-security-group-rules
specifies whether you want the controller to configure security group rules on Node/Pod for traffic access when you specifysecurity-groups
.This annotation applies only in case you specify the security groups via
security-groups
annotation. If set to true, controller attaches an additional shared backend security group to your load balancer. This backend security group is used in the Node/Pod security group rules.Example
alb.ingress.kubernetes.io/manage-backend-security-group-rules: "true"
Authentication¶
ALB supports authentication with Cognito or OIDC. See Authenticate Users Using an Application Load Balancer for more details.
HTTPS only
Authentication is only supported for HTTPS listeners. See TLS for configuring HTTPS listeners.
-
alb.ingress.kubernetes.io/auth-type
specifies the authentication type on targets.Example
alb.ingress.kubernetes.io/auth-type: cognito
-
alb.ingress.kubernetes.io/auth-idp-cognito
specifies the cognito idp configuration.If you are using Amazon Cognito Domain, the
userPoolDomain
should be set to the domain prefix(my-domain) instead of full domain(https://my-domain.auth.us-west-2.amazoncognito.com)Example
alb.ingress.kubernetes.io/auth-idp-cognito: '{"userPoolARN":"arn:aws:cognito-idp:us-west-2:xxx:userpool/xxx","userPoolClientID":"my-clientID","userPoolDomain":"my-domain"}'
-
alb.ingress.kubernetes.io/auth-idp-oidc
specifies the oidc idp configuration.You need to create an secret within the same namespace as Ingress to hold your OIDC clientID and clientSecret. The format of secret is as below:
apiVersion: v1 kind: Secret metadata: namespace: testcase name: my-k8s-secret data: clientID: base64 of your plain text clientId clientSecret: base64 of your plain text clientSecret
Example
alb.ingress.kubernetes.io/auth-idp-oidc: '{"issuer":"https://example.com","authorizationEndpoint":"https://authorization.example.com","tokenEndpoint":"https://token.example.com","userInfoEndpoint":"https://userinfo.example.com","secretName":"my-k8s-secret"}'
-
alb.ingress.kubernetes.io/auth-on-unauthenticated-request
specifies the behavior if the user is not authenticated.options:
- authenticate: try authenticate with configured IDP.
- deny: return an HTTP 401 Unauthorized error.
- allow: allow the request to be forwarded to the target.
Example
alb.ingress.kubernetes.io/auth-on-unauthenticated-request: authenticate
-
alb.ingress.kubernetes.io/auth-scope
specifies the set of user claims to be requested from the IDP(cognito or oidc), in a space-separated list.options:
- phone
- profile
- openid
- aws.cognito.signin.user.admin
Example
alb.ingress.kubernetes.io/auth-scope: 'email openid'
-
alb.ingress.kubernetes.io/auth-session-cookie
specifies the name of the cookie used to maintain session informationExample
alb.ingress.kubernetes.io/auth-session-cookie: custom-cookie
-
alb.ingress.kubernetes.io/auth-session-timeout
specifies the maximum duration of the authentication session, in secondsExample
alb.ingress.kubernetes.io/auth-session-timeout: '86400'
Health Check¶
Health check on target groups can be controlled with following annotations:
-
alb.ingress.kubernetes.io/healthcheck-protocol
specifies the protocol used when performing health check on targets.Example
alb.ingress.kubernetes.io/healthcheck-protocol: HTTPS
-
alb.ingress.kubernetes.io/healthcheck-port
specifies the port used when performing health check on targets.When using
target-type: instance
with a service of type "NodePort", the healthcheck port can be set totraffic-port
to automatically point to the correct port.Example
- set the healthcheck port to the traffic port
alb.ingress.kubernetes.io/healthcheck-port: traffic-port
- set the healthcheck port to the NodePort(when target-type=instance) or TargetPort(when target-type=ip) of a named port
alb.ingress.kubernetes.io/healthcheck-port: my-port
- set the healthcheck port to 80/tcp
alb.ingress.kubernetes.io/healthcheck-port: '80'
- set the healthcheck port to the traffic port
-
alb.ingress.kubernetes.io/healthcheck-path
specifies the HTTP path when performing health check on targets.Example
- HTTP
alb.ingress.kubernetes.io/healthcheck-path: /ping
- GRPC
alb.ingress.kubernetes.io/healthcheck-path: /package.service/method
- HTTP
-
alb.ingress.kubernetes.io/healthcheck-interval-seconds
specifies the interval(in seconds) between health check of an individual target.Example
alb.ingress.kubernetes.io/healthcheck-interval-seconds: '10'
-
alb.ingress.kubernetes.io/healthcheck-timeout-seconds
specifies the timeout(in seconds) during which no response from a target means a failed health checkExample
alb.ingress.kubernetes.io/healthcheck-timeout-seconds: '8'
-
alb.ingress.kubernetes.io/success-codes
specifies the HTTP or gRPC status code that should be expected when doing health checks against the specified health check path.Example
- use single value
alb.ingress.kubernetes.io/success-codes: '200'
- use multiple values
alb.ingress.kubernetes.io/success-codes: 200,201
- use range of value
alb.ingress.kubernetes.io/success-codes: 200-300
- use gRPC single value
alb.ingress.kubernetes.io/success-codes: '0'
- use gRPC multiple value
alb.ingress.kubernetes.io/success-codes: 0,1
- use gRPC range of value
alb.ingress.kubernetes.io/success-codes: 0-5
- use single value
-
alb.ingress.kubernetes.io/healthy-threshold-count
specifies the consecutive health checks successes required before considering an unhealthy target healthy.Example
alb.ingress.kubernetes.io/healthy-threshold-count: '2'
-
alb.ingress.kubernetes.io/unhealthy-threshold-count
specifies the consecutive health check failures required before considering a target unhealthy.Example
alb.ingress.kubernetes.io/unhealthy-threshold-count: '2'
TLS¶
TLS support can be controlled with the following annotations:
-
alb.ingress.kubernetes.io/certificate-arn
specifies the ARN of one or more certificate managed by AWS Certificate ManagerThe first certificate in the list will be added as default certificate. And remaining certificate will be added to the optional certificate list. See SSL Certificates for more details.
Certificate Discovery
TLS certificates for ALB Listeners can be automatically discovered with hostnames from Ingress resources. See Certificate Discovery for instructions.
Example
- single certificate
alb.ingress.kubernetes.io/certificate-arn: arn:aws:acm:us-west-2:xxxxx:certificate/xxxxxxx
- multiple certificates
alb.ingress.kubernetes.io/certificate-arn: arn:aws:acm:us-west-2:xxxxx:certificate/cert1,arn:aws:acm:us-west-2:xxxxx:certificate/cert2,arn:aws:acm:us-west-2:xxxxx:certificate/cert3
- single certificate
-
alb.ingress.kubernetes.io/ssl-policy
specifies the Security Policy that should be assigned to the ALB, allowing you to control the protocol and ciphers.Example
alb.ingress.kubernetes.io/ssl-policy: ELBSecurityPolicy-TLS-1-1-2017-01
Custom attributes¶
Custom attributes to LoadBalancers and TargetGroups can be controlled with following annotations:
-
alb.ingress.kubernetes.io/load-balancer-attributes
specifies Load Balancer Attributes that should be applied to the ALB.Only attributes defined in the annotation will be updated. To unset any AWS defaults(e.g. Disabling access logs after having them enabled once), the values need to be explicitly set to the original values(
access_logs.s3.enabled=false
) and omitting them is not sufficient.- If
deletion_protection.enabled=true
is in annotation, the controller will not be able to delete the ALB during reconciliation. Once the attribute gets edited todeletion_protection.enabled=false
during reconciliation, the deployer will force delete the resource. - Please note, if the deletion protection is not enabled via annotation (e.g. via AWS console), the controller still deletes the underlying resource.
Example
- enable access log to s3
alb.ingress.kubernetes.io/load-balancer-attributes: access_logs.s3.enabled=true,access_logs.s3.bucket=my-access-log-bucket,access_logs.s3.prefix=my-app
- enable deletion protection
alb.ingress.kubernetes.io/load-balancer-attributes: deletion_protection.enabled=true
- enable invalid header fields removal
alb.ingress.kubernetes.io/load-balancer-attributes: routing.http.drop_invalid_header_fields.enabled=true
- enable http2 support
alb.ingress.kubernetes.io/load-balancer-attributes: routing.http2.enabled=true
- set idle_timeout delay to 600 seconds
alb.ingress.kubernetes.io/load-balancer-attributes: idle_timeout.timeout_seconds=600
- If
-
alb.ingress.kubernetes.io/target-group-attributes
specifies Target Group Attributes which should be applied to Target Groups.Example
- set the slow start duration to 30 seconds (available range is 30-900 seconds)
alb.ingress.kubernetes.io/target-group-attributes: slow_start.duration_seconds=30
- set the deregistration delay to 30 seconds (available range is 0-3600 seconds)
alb.ingress.kubernetes.io/target-group-attributes: deregistration_delay.timeout_seconds=30
- enable sticky sessions (requires
alb.ingress.kubernetes.io/target-type
be set toip
)alb.ingress.kubernetes.io/target-group-attributes: stickiness.enabled=true,stickiness.lb_cookie.duration_seconds=60 alb.ingress.kubernetes.io/target-type: ip
- set load balancing algorithm to least outstanding requests
alb.ingress.kubernetes.io/target-group-attributes: load_balancing.algorithm.type=least_outstanding_requests
- set the slow start duration to 30 seconds (available range is 30-900 seconds)
Resource Tags¶
The AWS Load Balancer Controller automatically applies following tags to the AWS resources (ALB/TargetGroups/SecurityGroups/Listener/ListenerRule) it creates:
elbv2.k8s.aws/cluster: ${clusterName}
ingress.k8s.aws/stack: ${stackID}
ingress.k8s.aws/resource: ${resourceID}
In addition, you can use annotations to specify additional tags
-
alb.ingress.kubernetes.io/tags
specifies additional tags that will be applied to AWS resources created. In case of target group, the controller will merge the tags from the ingress and the backend service giving precedence to the values specified on the service when there is conflict.Example
alb.ingress.kubernetes.io/tags: Environment=dev,Team=test
Addons¶
Note
If waf-acl-arn is specified via the ingress annotations, the controller will make sure the waf-acl is associated to the provisioned ALB with the ingress.
If there is not such annotation, the controller will make sure no waf-acl is associated, so it may remove the existing waf-acl on the ALB provisioned.
If users do not want the controller to manage the waf-acl on the ALBs, they can disable the feature by setting controller command line flags --enable-waf=false
or --enable-wafv2=false
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alb.ingress.kubernetes.io/waf-acl-id
specifies the identifier for the Amazon WAF web ACL.Only Regional WAF is supported.
Example
alb.ingress.kubernetes.io/waf-acl-id: 499e8b99-6671-4614-a86d-adb1810b7fbe
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alb.ingress.kubernetes.io/wafv2-acl-arn
specifies ARN for the Amazon WAFv2 web ACL.Only Regional WAFv2 is supported.
To get the WAFv2 Web ACL ARN from the Console, click the gear icon in the upper right and enable the ARN column.
Example
alb.ingress.kubernetes.io/wafv2-acl-arn: arn:aws:wafv2:us-west-2:xxxxx:regional/webacl/xxxxxxx/3ab78708-85b0-49d3-b4e1-7a9615a6613b
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alb.ingress.kubernetes.io/shield-advanced-protection
turns on / off the AWS Shield Advanced protection for the load balancer.Example
alb.ingress.kubernetes.io/shield-advanced-protection: 'true'