Load
data class LoadBalancerArgs(val accessLogs: Output<LoadBalancerAccessLogsArgs>? = null, val availabilityZones: Output<List<String>>? = null, val connectionDraining: Output<Boolean>? = null, val connectionDrainingTimeout: Output<Int>? = null, val crossZoneLoadBalancing: Output<Boolean>? = null, val desyncMitigationMode: Output<String>? = null, val healthCheck: Output<LoadBalancerHealthCheckArgs>? = null, val idleTimeout: Output<Int>? = null, val instances: Output<List<String>>? = null, val internal: Output<Boolean>? = null, val listeners: Output<List<LoadBalancerListenerArgs>>? = null, val name: Output<String>? = null, val namePrefix: Output<String>? = null, val securityGroups: Output<List<String>>? = null, val sourceSecurityGroup: Output<String>? = null, val subnets: Output<List<String>>? = null, val tags: Output<Map<String, String>>? = null) : ConvertibleToJava<LoadBalancerArgs>
Provides an Elastic Load Balancer resource, also known as a "Classic Load Balancer" after the release of Application/Network Load Balancers.
NOTE on ELB Instances and ELB Attachments: This provider currently provides both a standalone ELB Attachment resource (describing an instance attached to an ELB), and an ELB resource with
instancesdefined in-line. At this time you cannot use an ELB with in-line instances in conjunction with a ELB Attachment resources. Doing so will cause a conflict and will overwrite attachments.
Example Usage
import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";
// Create a new load balancer
const bar = new aws.elb.LoadBalancer("bar", {
name: "foobar-elb",
availabilityZones: [
"us-west-2a",
"us-west-2b",
"us-west-2c",
],
accessLogs: {
bucket: "foo",
bucketPrefix: "bar",
interval: 60,
},
listeners: [
{
instancePort: 8000,
instanceProtocol: "http",
lbPort: 80,
lbProtocol: "http",
},
{
instancePort: 8000,
instanceProtocol: "http",
lbPort: 443,
lbProtocol: "https",
sslCertificateId: "arn:aws:iam::123456789012:server-certificate/certName",
},
],
healthCheck: {
healthyThreshold: 2,
unhealthyThreshold: 2,
timeout: 3,
target: "HTTP:8000/",
interval: 30,
},
instances: [foo.id],
crossZoneLoadBalancing: true,
idleTimeout: 400,
connectionDraining: true,
connectionDrainingTimeout: 400,
tags: {
Name: "foobar-elb",
},
});Content copied to clipboard
import pulumi
import pulumi_aws as aws
# Create a new load balancer
bar = aws.elb.LoadBalancer("bar",
name="foobar-elb",
availability_zones=[
"us-west-2a",
"us-west-2b",
"us-west-2c",
],
access_logs={
"bucket": "foo",
"bucket_prefix": "bar",
"interval": 60,
},
listeners=[
{
"instance_port": 8000,
"instance_protocol": "http",
"lb_port": 80,
"lb_protocol": "http",
},
{
"instance_port": 8000,
"instance_protocol": "http",
"lb_port": 443,
"lb_protocol": "https",
"ssl_certificate_id": "arn:aws:iam::123456789012:server-certificate/certName",
},
],
health_check={
"healthy_threshold": 2,
"unhealthy_threshold": 2,
"timeout": 3,
"target": "HTTP:8000/",
"interval": 30,
},
instances=[foo["id"]],
cross_zone_load_balancing=True,
idle_timeout=400,
connection_draining=True,
connection_draining_timeout=400,
tags={
"Name": "foobar-elb",
})Content copied to clipboard
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;
return await Deployment.RunAsync(() =>
{
// Create a new load balancer
var bar = new Aws.Elb.LoadBalancer("bar", new()
{
Name = "foobar-elb",
AvailabilityZones = new[]
{
"us-west-2a",
"us-west-2b",
"us-west-2c",
},
AccessLogs = new Aws.Elb.Inputs.LoadBalancerAccessLogsArgs
{
Bucket = "foo",
BucketPrefix = "bar",
Interval = 60,
},
Listeners = new[]
{
new Aws.Elb.Inputs.LoadBalancerListenerArgs
{
InstancePort = 8000,
InstanceProtocol = "http",
LbPort = 80,
LbProtocol = "http",
},
new Aws.Elb.Inputs.LoadBalancerListenerArgs
{
InstancePort = 8000,
InstanceProtocol = "http",
LbPort = 443,
LbProtocol = "https",
SslCertificateId = "arn:aws:iam::123456789012:server-certificate/certName",
},
},
HealthCheck = new Aws.Elb.Inputs.LoadBalancerHealthCheckArgs
{
HealthyThreshold = 2,
UnhealthyThreshold = 2,
Timeout = 3,
Target = "HTTP:8000/",
Interval = 30,
},
Instances = new[]
{
foo.Id,
},
CrossZoneLoadBalancing = true,
IdleTimeout = 400,
ConnectionDraining = true,
ConnectionDrainingTimeout = 400,
Tags =
{
{ "Name", "foobar-elb" },
},
});
});Content copied to clipboard
package main
import (
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/elb"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
// Create a new load balancer
_, err := elb.NewLoadBalancer(ctx, "bar", &elb.LoadBalancerArgs{
Name: pulumi.String("foobar-elb"),
AvailabilityZones: pulumi.StringArray{
pulumi.String("us-west-2a"),
pulumi.String("us-west-2b"),
pulumi.String("us-west-2c"),
},
AccessLogs: &elb.LoadBalancerAccessLogsArgs{
Bucket: pulumi.String("foo"),
BucketPrefix: pulumi.String("bar"),
Interval: pulumi.Int(60),
},
Listeners: elb.LoadBalancerListenerArray{
&elb.LoadBalancerListenerArgs{
InstancePort: pulumi.Int(8000),
InstanceProtocol: pulumi.String("http"),
LbPort: pulumi.Int(80),
LbProtocol: pulumi.String("http"),
},
&elb.LoadBalancerListenerArgs{
InstancePort: pulumi.Int(8000),
InstanceProtocol: pulumi.String("http"),
LbPort: pulumi.Int(443),
LbProtocol: pulumi.String("https"),
SslCertificateId: pulumi.String("arn:aws:iam::123456789012:server-certificate/certName"),
},
},
HealthCheck: &elb.LoadBalancerHealthCheckArgs{
HealthyThreshold: pulumi.Int(2),
UnhealthyThreshold: pulumi.Int(2),
Timeout: pulumi.Int(3),
Target: pulumi.String("HTTP:8000/"),
Interval: pulumi.Int(30),
},
Instances: pulumi.StringArray{
foo.Id,
},
CrossZoneLoadBalancing: pulumi.Bool(true),
IdleTimeout: pulumi.Int(400),
ConnectionDraining: pulumi.Bool(true),
ConnectionDrainingTimeout: pulumi.Int(400),
Tags: pulumi.StringMap{
"Name": pulumi.String("foobar-elb"),
},
})
if err != nil {
return err
}
return nil
})
}Content copied to clipboard
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.elb.LoadBalancer;
import com.pulumi.aws.elb.LoadBalancerArgs;
import com.pulumi.aws.elb.inputs.LoadBalancerAccessLogsArgs;
import com.pulumi.aws.elb.inputs.LoadBalancerListenerArgs;
import com.pulumi.aws.elb.inputs.LoadBalancerHealthCheckArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
// Create a new load balancer
var bar = new LoadBalancer("bar", LoadBalancerArgs.builder()
.name("foobar-elb")
.availabilityZones(
"us-west-2a",
"us-west-2b",
"us-west-2c")
.accessLogs(LoadBalancerAccessLogsArgs.builder()
.bucket("foo")
.bucketPrefix("bar")
.interval(60)
.build())
.listeners(
LoadBalancerListenerArgs.builder()
.instancePort(8000)
.instanceProtocol("http")
.lbPort(80)
.lbProtocol("http")
.build(),
LoadBalancerListenerArgs.builder()
.instancePort(8000)
.instanceProtocol("http")
.lbPort(443)
.lbProtocol("https")
.sslCertificateId("arn:aws:iam::123456789012:server-certificate/certName")
.build())
.healthCheck(LoadBalancerHealthCheckArgs.builder()
.healthyThreshold(2)
.unhealthyThreshold(2)
.timeout(3)
.target("HTTP:8000/")
.interval(30)
.build())
.instances(foo.id())
.crossZoneLoadBalancing(true)
.idleTimeout(400)
.connectionDraining(true)
.connectionDrainingTimeout(400)
.tags(Map.of("Name", "foobar-elb"))
.build());
}
}Content copied to clipboard
resources:
# Create a new load balancer
bar:
type: aws:elb:LoadBalancer
properties:
name: foobar-elb
availabilityZones:
- us-west-2a
- us-west-2b
- us-west-2c
accessLogs:
bucket: foo
bucketPrefix: bar
interval: 60
listeners:
- instancePort: 8000
instanceProtocol: http
lbPort: 80
lbProtocol: http
- instancePort: 8000
instanceProtocol: http
lbPort: 443
lbProtocol: https
sslCertificateId: arn:aws:iam::123456789012:server-certificate/certName
healthCheck:
healthyThreshold: 2
unhealthyThreshold: 2
timeout: 3
target: HTTP:8000/
interval: 30
instances:
- ${foo.id}
crossZoneLoadBalancing: true
idleTimeout: 400
connectionDraining: true
connectionDrainingTimeout: 400
tags:
Name: foobar-elbContent copied to clipboard
Note on ECDSA Key Algorithm
If the ARN of the ssl_certificate_id that is pointed to references a certificate that was signed by an ECDSA key, note that ELB only supports the P256 and P384 curves. Using a certificate signed by a key using a different curve could produce the error ERR_SSL_VERSION_OR_CIPHER_MISMATCH in your browser.
Import
Using pulumi import, import ELBs using the name. For example:
$ pulumi import aws:elb/loadBalancer:LoadBalancer bar elb-production-12345Content copied to clipboard
Constructors
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constructor(accessLogs: Output<LoadBalancerAccessLogsArgs>? = null, availabilityZones: Output<List<String>>? = null, connectionDraining: Output<Boolean>? = null, connectionDrainingTimeout: Output<Int>? = null, crossZoneLoadBalancing: Output<Boolean>? = null, desyncMitigationMode: Output<String>? = null, healthCheck: Output<LoadBalancerHealthCheckArgs>? = null, idleTimeout: Output<Int>? = null, instances: Output<List<String>>? = null, internal: Output<Boolean>? = null, listeners: Output<List<LoadBalancerListenerArgs>>? = null, name: Output<String>? = null, namePrefix: Output<String>? = null, securityGroups: Output<List<String>>? = null, sourceSecurityGroup: Output<String>? = null, subnets: Output<List<String>>? = null, tags: Output<Map<String, String>>? = null)
Properties
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An Access Logs block. Access Logs documented below.
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The AZ's to serve traffic in.
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Boolean to enable connection draining. Default: false
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The time in seconds to allow for connections to drain. Default: 300
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Enable cross-zone load balancing. Default: true
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Determines how the load balancer handles requests that might pose a security risk to an application due to HTTP desync. Valid values are monitor, defensive (default), strictest.
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A health_check block. Health Check documented below.
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The time in seconds that the connection is allowed to be idle. Default: 60
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A list of listener blocks. Listeners documented below.
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Creates a unique name beginning with the specified prefix. Conflicts with name.
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A list of security group IDs to assign to the ELB. Only valid if creating an ELB within a VPC
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The name of the security group that you can use as part of your inbound rules for your load balancer's back-end application instances. Use this for Classic or Default VPC only.
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A map of tags to assign to the resource. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level. Exactly one of availability_zones or subnets must be specified: this determines if the ELB exists in a VPC or in EC2-classic.