Amazon Elastic Load Balancing V2 Construct Library
---AWS CDK v1 has reached End-of-Support on 2023-06-01. This package is no longer being updated, and users should migrate to AWS CDK v2.
For more information on how to migrate, see the Migrating to AWS CDK v2 guide.
The @aws-cdk/aws-elasticloadbalancingv2
package provides constructs for
configuring application and network load balancers.
For more information, see the AWS documentation for Application Load Balancers and Network Load Balancers.
Defining an Application Load Balancer
You define an application load balancer by creating an instance of
ApplicationLoadBalancer
, adding a Listener to the load balancer
and adding Targets to the Listener:
from aws_cdk.aws_autoscaling import AutoScalingGroup
# asg: AutoScalingGroup
# vpc: ec2.Vpc
# Create the load balancer in a VPC. 'internetFacing' is 'false'
# by default, which creates an internal load balancer.
lb = elbv2.ApplicationLoadBalancer(self, "LB",
vpc=vpc,
internet_facing=True
)
# Add a listener and open up the load balancer's security group
# to the world.
listener = lb.add_listener("Listener",
port=80,
# 'open: true' is the default, you can leave it out if you want. Set it
# to 'false' and use `listener.connections` if you want to be selective
# about who can access the load balancer.
open=True
)
# Create an AutoScaling group and add it as a load balancing
# target to the listener.
listener.add_targets("ApplicationFleet",
port=8080,
targets=[asg]
)
The security groups of the load balancer and the target are automatically updated to allow the network traffic.
One (or more) security groups can be associated with the load balancer; if a security group isn’t provided, one will be automatically created.
# vpc: ec2.Vpc
security_group1 = ec2.SecurityGroup(self, "SecurityGroup1", vpc=vpc)
lb = elbv2.ApplicationLoadBalancer(self, "LB",
vpc=vpc,
internet_facing=True,
security_group=security_group1
)
security_group2 = ec2.SecurityGroup(self, "SecurityGroup2", vpc=vpc)
lb.add_security_group(security_group2)
Conditions
It’s possible to route traffic to targets based on conditions in the incoming
HTTP request. For example, the following will route requests to the indicated
AutoScalingGroup only if the requested host in the request is either for
example.com/ok
or example.com/path
:
# listener: elbv2.ApplicationListener
# asg: autoscaling.AutoScalingGroup
listener.add_targets("Example.Com Fleet",
priority=10,
conditions=[
elbv2.ListenerCondition.host_headers(["example.com"]),
elbv2.ListenerCondition.path_patterns(["/ok", "/path"])
],
port=8080,
targets=[asg]
)
A target with a condition contains either pathPatterns
or hostHeader
, or
both. If both are specified, both conditions must be met for the requests to
be routed to the given target. priority
is a required field when you add
targets with conditions. The lowest number wins.
Every listener must have at least one target without conditions, which is where all requests that didn’t match any of the conditions will be sent.
Convenience methods and more complex Actions
Routing traffic from a Load Balancer to a Target involves the following steps:
Create a Target Group, register the Target into the Target Group
Add an Action to the Listener which forwards traffic to the Target Group.
A new listener can be added to the Load Balancer by calling addListener()
.
Listeners that have been added to the load balancer can be listed using the
listeners
property. Note that the listeners
property will throw an Error
for imported or looked up Load Balancers.
Various methods on the Listener
take care of this work for you to a greater
or lesser extent:
addTargets()
performs both steps: automatically creates a Target Group and the required Action.addTargetGroups()
gives you more control: you create the Target Group (or Target Groups) yourself and the method creates Action that routes traffic to the Target Groups.addAction()
gives you full control: you supply the Action and wire it up to the Target Groups yourself (or access one of the other ELB routing features).
Using addAction()
gives you access to some of the features of an Elastic Load
Balancer that the other two convenience methods don’t:
Routing stickiness: use
ListenerAction.forward()
and supply astickinessDuration
to make sure requests are routed to the same target group for a given duration.Weighted Target Groups: use
ListenerAction.weightedForward()
to give different weights to different target groups.Fixed Responses: use
ListenerAction.fixedResponse()
to serve a static response (ALB only).Redirects: use
ListenerAction.redirect()
to serve an HTTP redirect response (ALB only).Authentication: use
ListenerAction.authenticateOidc()
to perform OpenID authentication before serving a request (see the@aws-cdk/aws-elasticloadbalancingv2-actions
package for direct authentication integration with Cognito) (ALB only).
Here’s an example of serving a fixed response at the /ok
URL:
# listener: elbv2.ApplicationListener
listener.add_action("Fixed",
priority=10,
conditions=[
elbv2.ListenerCondition.path_patterns(["/ok"])
],
action=elbv2.ListenerAction.fixed_response(200,
content_type=elbv2.ContentType.TEXT_PLAIN,
message_body="OK"
)
)
Here’s an example of using OIDC authentication before forwarding to a TargetGroup:
# listener: elbv2.ApplicationListener
# my_target_group: elbv2.ApplicationTargetGroup
listener.add_action("DefaultAction",
action=elbv2.ListenerAction.authenticate_oidc(
authorization_endpoint="https://example.com/openid",
# Other OIDC properties here
client_id="...",
client_secret=SecretValue.secrets_manager("..."),
issuer="...",
token_endpoint="...",
user_info_endpoint="...",
# Next
next=elbv2.ListenerAction.forward([my_target_group])
)
)
If you just want to redirect all incoming traffic on one port to another port, you can use the following code:
# lb: elbv2.ApplicationLoadBalancer
lb.add_redirect(
source_protocol=elbv2.ApplicationProtocol.HTTPS,
source_port=8443,
target_protocol=elbv2.ApplicationProtocol.HTTP,
target_port=8080
)
If you do not provide any options for this method, it redirects HTTP port 80 to HTTPS port 443.
By default all ingress traffic will be allowed on the source port. If you want to be more selective with your
ingress rules then set open: false
and use the listener’s connections
object to selectively grant access to the listener.
Defining a Network Load Balancer
Network Load Balancers are defined in a similar way to Application Load Balancers:
# vpc: ec2.Vpc
# asg: autoscaling.AutoScalingGroup
# Create the load balancer in a VPC. 'internetFacing' is 'false'
# by default, which creates an internal load balancer.
lb = elbv2.NetworkLoadBalancer(self, "LB",
vpc=vpc,
internet_facing=True
)
# Add a listener on a particular port.
listener = lb.add_listener("Listener",
port=443
)
# Add targets on a particular port.
listener.add_targets("AppFleet",
port=443,
targets=[asg]
)
One thing to keep in mind is that network load balancers do not have security groups, and no automatic security group configuration is done for you. You will have to configure the security groups of the target yourself to allow traffic by clients and/or load balancer instances, depending on your target types. See Target Groups for your Network Load Balancers and Register targets with your Target Group for more information.
Targets and Target Groups
Application and Network Load Balancers organize load balancing targets in Target
Groups. If you add your balancing targets (such as AutoScalingGroups, ECS
services or individual instances) to your listener directly, the appropriate
TargetGroup
will be automatically created for you.
If you need more control over the Target Groups created, create an instance of
ApplicationTargetGroup
or NetworkTargetGroup
, add the members you desire,
and add it to the listener by calling addTargetGroups
instead of addTargets
.
addTargets()
will always return the Target Group it just created for you:
# listener: elbv2.NetworkListener
# asg1: autoscaling.AutoScalingGroup
# asg2: autoscaling.AutoScalingGroup
group = listener.add_targets("AppFleet",
port=443,
targets=[asg1]
)
group.add_target(asg2)
Sticky sessions for your Application Load Balancer
By default, an Application Load Balancer routes each request independently to a registered target based on the chosen load-balancing algorithm. However, you can use the sticky session feature (also known as session affinity) to enable the load balancer to bind a user’s session to a specific target. This ensures that all requests from the user during the session are sent to the same target. This feature is useful for servers that maintain state information in order to provide a continuous experience to clients. To use sticky sessions, the client must support cookies.
Application Load Balancers support both duration-based cookies (lb_cookie
) and application-based cookies (app_cookie
). The key to managing sticky sessions is determining how long your load balancer should consistently route the user’s request to the same target. Sticky sessions are enabled at the target group level. You can use a combination of duration-based stickiness, application-based stickiness, and no stickiness across all of your target groups.
# vpc: ec2.Vpc
# Target group with duration-based stickiness with load-balancer generated cookie
tg1 = elbv2.ApplicationTargetGroup(self, "TG1",
target_type=elbv2.TargetType.INSTANCE,
port=80,
stickiness_cookie_duration=Duration.minutes(5),
vpc=vpc
)
# Target group with application-based stickiness
tg2 = elbv2.ApplicationTargetGroup(self, "TG2",
target_type=elbv2.TargetType.INSTANCE,
port=80,
stickiness_cookie_duration=Duration.minutes(5),
stickiness_cookie_name="MyDeliciousCookie",
vpc=vpc
)
For more information see: https://docs.aws.amazon.com/elasticloadbalancing/latest/application/sticky-sessions.html#application-based-stickiness
Setting the target group protocol version
By default, Application Load Balancers send requests to targets using HTTP/1.1. You can use the protocol version to send requests to targets using HTTP/2 or gRPC.
# vpc: ec2.Vpc
tg = elbv2.ApplicationTargetGroup(self, "TG",
target_type=elbv2.TargetType.IP,
port=50051,
protocol=elbv2.ApplicationProtocol.HTTP,
protocol_version=elbv2.ApplicationProtocolVersion.GRPC,
health_check=elbv2.HealthCheck(
enabled=True,
healthy_grpc_codes="0-99"
),
vpc=vpc
)
Using Lambda Targets
To use a Lambda Function as a target, use the integration class in the
@aws-cdk/aws-elasticloadbalancingv2-targets
package:
import aws_cdk.aws_lambda as lambda_
import aws_cdk.aws_elasticloadbalancingv2_targets as targets
# lambda_function: lambda.Function
# lb: elbv2.ApplicationLoadBalancer
listener = lb.add_listener("Listener", port=80)
listener.add_targets("Targets",
targets=[targets.LambdaTarget(lambda_function)],
# For Lambda Targets, you need to explicitly enable health checks if you
# want them.
health_check=elbv2.HealthCheck(
enabled=True
)
)
Only a single Lambda function can be added to a single listener rule.
Using Application Load Balancer Targets
To use a single application load balancer as a target for the network load balancer, use the integration class in the
@aws-cdk/aws-elasticloadbalancingv2-targets
package:
import aws_cdk.aws_elasticloadbalancingv2_targets as targets
import aws_cdk.aws_ecs as ecs
import aws_cdk.aws_ecs_patterns as patterns
# vpc: ec2.Vpc
task = ecs.FargateTaskDefinition(self, "Task", cpu=256, memory_limit_mi_b=512)
task.add_container("nginx",
image=ecs.ContainerImage.from_registry("public.ecr.aws/nginx/nginx:latest"),
port_mappings=[ecs.PortMapping(container_port=80)]
)
svc = patterns.ApplicationLoadBalancedFargateService(self, "Service",
vpc=vpc,
task_definition=task,
public_load_balancer=False
)
nlb = elbv2.NetworkLoadBalancer(self, "Nlb",
vpc=vpc,
cross_zone_enabled=True,
internet_facing=True
)
listener = nlb.add_listener("listener", port=80)
listener.add_targets("Targets",
targets=[targets.AlbTarget(svc.load_balancer, 80)],
port=80
)
CfnOutput(self, "NlbEndpoint", value=f"http://{nlb.loadBalancerDnsName}")
Only the network load balancer is allowed to add the application load balancer as the target.
Configuring Health Checks
Health checks are configured upon creation of a target group:
# listener: elbv2.ApplicationListener
# asg: autoscaling.AutoScalingGroup
listener.add_targets("AppFleet",
port=8080,
targets=[asg],
health_check=elbv2.HealthCheck(
path="/ping",
interval=Duration.minutes(1)
)
)
The health check can also be configured after creation by calling
configureHealthCheck()
on the created object.
No attempts are made to configure security groups for the port you’re configuring a health check for, but if the health check is on the same port you’re routing traffic to, the security group already allows the traffic. If not, you will have to configure the security groups appropriately:
# lb: elbv2.ApplicationLoadBalancer
# listener: elbv2.ApplicationListener
# asg: autoscaling.AutoScalingGroup
listener.add_targets("AppFleet",
port=8080,
targets=[asg],
health_check=elbv2.HealthCheck(
port="8088"
)
)
asg.connections.allow_from(lb, ec2.Port.tcp(8088))
Using a Load Balancer from a different Stack
If you want to put your Load Balancer and the Targets it is load balancing to in
different stacks, you may not be able to use the convenience methods
loadBalancer.addListener()
and listener.addTargets()
.
The reason is that these methods will create resources in the same Stack as the
object they’re called on, which may lead to cyclic references between stacks.
Instead, you will have to create an ApplicationListener
in the target stack,
or an empty TargetGroup
in the load balancer stack that you attach your
service to.
For an example of the alternatives while load balancing to an ECS service, see the ecs/cross-stack-load-balancer example.
Protocol for Load Balancer Targets
Constructs that want to be a load balancer target should implement
IApplicationLoadBalancerTarget
and/or INetworkLoadBalancerTarget
, and
provide an implementation for the function attachToXxxTargetGroup()
, which can
call functions on the load balancer and should return metadata about the
load balancing target:
class MyTarget(elbv2.IApplicationLoadBalancerTarget):
def attach_to_application_target_group(self, target_group):
# If we need to add security group rules
# targetGroup.registerConnectable(...);
return elbv2.LoadBalancerTargetProps(
target_type=elbv2.TargetType.IP,
target_json={"id": "1.2.3.4", "port": 8080}
)
targetType
should be one of Instance
or Ip
. If the target can be
directly added to the target group, targetJson
should contain the id
of
the target (either instance ID or IP address depending on the type) and
optionally a port
or availabilityZone
override.
Application load balancer targets can call registerConnectable()
on the
target group to register themselves for addition to the load balancer’s security
group rules.
If your load balancer target requires that the TargetGroup has been
associated with a LoadBalancer before registration can happen (such as is the
case for ECS Services for example), take a resource dependency on
targetGroup.loadBalancerAttached
as follows:
# resource: Resource
# target_group: elbv2.ApplicationTargetGroup
# Make sure that the listener has been created, and so the TargetGroup
# has been associated with the LoadBalancer, before 'resource' is created.
Node.of(resource).add_dependency(target_group.load_balancer_attached)
Looking up Load Balancers and Listeners
You may look up load balancers and load balancer listeners by using one of the following lookup methods:
ApplicationLoadBalancer.fromlookup(options)
- Look up an application load balancer.ApplicationListener.fromLookup(options)
- Look up an application load balancer listener.NetworkLoadBalancer.fromLookup(options)
- Look up a network load balancer.NetworkListener.fromLookup(options)
- Look up a network load balancer listener.
Load Balancer lookup options
You may look up a load balancer by ARN or by associated tags. When you look a load balancer up by ARN, that load balancer will be returned unless CDK detects that the load balancer is of the wrong type. When you look up a load balancer by tags, CDK will return the load balancer matching all specified tags. If more than one load balancer matches, CDK will throw an error requesting that you provide more specific criteria.
Look up a Application Load Balancer by ARN
load_balancer = elbv2.ApplicationLoadBalancer.from_lookup(self, "ALB",
load_balancer_arn="arn:aws:elasticloadbalancing:us-east-2:123456789012:loadbalancer/app/my-load-balancer/1234567890123456"
)
Look up an Application Load Balancer by tags
load_balancer = elbv2.ApplicationLoadBalancer.from_lookup(self, "ALB",
load_balancer_tags={
# Finds a load balancer matching all tags.
"some": "tag",
"someother": "tag"
}
)
Load Balancer Listener lookup options
You may look up a load balancer listener by the following criteria:
Associated load balancer ARN
Associated load balancer tags
Listener ARN
Listener port
Listener protocol
The lookup method will return the matching listener. If more than one listener matches, CDK will throw an error requesting that you specify additional criteria.
Look up a Listener by associated Load Balancer, Port, and Protocol
listener = elbv2.ApplicationListener.from_lookup(self, "ALBListener",
load_balancer_arn="arn:aws:elasticloadbalancing:us-east-2:123456789012:loadbalancer/app/my-load-balancer/1234567890123456",
listener_protocol=elbv2.ApplicationProtocol.HTTPS,
listener_port=443
)
Look up a Listener by associated Load Balancer Tag, Port, and Protocol
listener = elbv2.ApplicationListener.from_lookup(self, "ALBListener",
load_balancer_tags={
"Cluster": "MyClusterName"
},
listener_protocol=elbv2.ApplicationProtocol.HTTPS,
listener_port=443
)
Look up a Network Listener by associated Load Balancer Tag, Port, and Protocol
listener = elbv2.NetworkListener.from_lookup(self, "ALBListener",
load_balancer_tags={
"Cluster": "MyClusterName"
},
listener_protocol=elbv2.Protocol.TCP,
listener_port=12345
)