AWS Native v0.126.0, Sep 30 24

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AWS Native v0.126.0 published on Monday, Sep 30, 2024 by Pulumi

pulumi/pulumi-aws-native

aws-native.elasticloadbalancingv2.getLoadBalancer

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AWS Native v0.126.0 published on Monday, Sep 30, 2024 by Pulumi

pulumi/pulumi-aws-native

Using getLoadBalancer

Two invocation forms are available. The direct form accepts plain arguments and either blocks until the result value is available, or returns a Promise-wrapped result. The output form accepts Input-wrapped arguments and returns an Output-wrapped result.

function getLoadBalancer(args: GetLoadBalancerArgs, opts?: InvokeOptions): Promise<GetLoadBalancerResult>
function getLoadBalancerOutput(args: GetLoadBalancerOutputArgs, opts?: InvokeOptions): Output<GetLoadBalancerResult>

def get_load_balancer(load_balancer_arn: Optional[str] = None,
                      opts: Optional[InvokeOptions] = None) -> GetLoadBalancerResult
def get_load_balancer_output(load_balancer_arn: Optional[pulumi.Input[str]] = None,
                      opts: Optional[InvokeOptions] = None) -> Output[GetLoadBalancerResult]

func LookupLoadBalancer(ctx *Context, args *LookupLoadBalancerArgs, opts ...InvokeOption) (*LookupLoadBalancerResult, error)
func LookupLoadBalancerOutput(ctx *Context, args *LookupLoadBalancerOutputArgs, opts ...InvokeOption) LookupLoadBalancerResultOutput

> Note: This function is named LookupLoadBalancer in the Go SDK.

public static class GetLoadBalancer 
{
    public static Task<GetLoadBalancerResult> InvokeAsync(GetLoadBalancerArgs args, InvokeOptions? opts = null)
    public static Output<GetLoadBalancerResult> Invoke(GetLoadBalancerInvokeArgs args, InvokeOptions? opts = null)
}

public static CompletableFuture<GetLoadBalancerResult> getLoadBalancer(GetLoadBalancerArgs args, InvokeOptions options)
// Output-based functions aren't available in Java yet

fn::invoke:
  function: aws-native:elasticloadbalancingv2:getLoadBalancer
  arguments:
    # arguments dictionary

The following arguments are supported:

LoadBalancerArn string: The Amazon Resource Name (ARN) of the load balancer.

LoadBalancerArn string: The Amazon Resource Name (ARN) of the load balancer.

loadBalancerArn String: The Amazon Resource Name (ARN) of the load balancer.

loadBalancerArn string: The Amazon Resource Name (ARN) of the load balancer.

load_balancer_arn str: The Amazon Resource Name (ARN) of the load balancer.

loadBalancerArn String: The Amazon Resource Name (ARN) of the load balancer.

getLoadBalancer Result

The following output properties are available:

CanonicalHostedZoneId string: The ID of the Amazon Route 53 hosted zone associated with the load balancer. For example, Z2P70J7EXAMPLE .
DnsName string: The DNS name for the load balancer. For example, my-load-balancer-424835706.us-west-2.elb.amazonaws.com .
EnforceSecurityGroupInboundRulesOnPrivateLinkTraffic string: Indicates whether to evaluate inbound security group rules for traffic sent to a Network Load Balancer through privatelink.
IpAddressType string: Note: Internal load balancers must use the ipv4 IP address type. [Application Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses), dualstack (for IPv4 and IPv6 addresses), and dualstack-without-public-ipv4 (for IPv6 only public addresses, with private IPv4 and IPv6 addresses). Note: Application Load Balancer authentication only supports IPv4 addresses when connecting to an Identity Provider (IdP) or Amazon Cognito endpoint. Without a public IPv4 address the load balancer cannot complete the authentication process, resulting in HTTP 500 errors. [Network Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses). You can’t specify dualstack for a load balancer with a UDP or TCP_UDP listener. [Gateway Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses).
LoadBalancerArn string: The Amazon Resource Name (ARN) of the load balancer.
LoadBalancerAttributes List<Pulumi.AwsNative.ElasticLoadBalancingV2.Outputs.LoadBalancerAttribute>: The load balancer attributes.
LoadBalancerFullName string: The full name of the load balancer. For example, app/my-load-balancer/50dc6c495c0c9188 .
LoadBalancerName string: The name of the load balancer. For example, my-load-balancer .
SecurityGroups List<string>: [Application Load Balancers and Network Load Balancers] The IDs of the security groups for the load balancer.
SubnetMappings List<Pulumi.AwsNative.ElasticLoadBalancingV2.Outputs.LoadBalancerSubnetMapping>: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. [Application Load Balancers] You must specify subnets from at least two Availability Zones. You cannot specify Elastic IP addresses for your subnets. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. You can specify one Elastic IP address per subnet if you need static IP addresses for your internet-facing load balancer. For internal load balancers, you can specify one private IP address per subnet from the IPv4 range of the subnet. For internet-facing load balancer, you can specify one IPv6 address per subnet. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones. You cannot specify Elastic IP addresses for your subnets.
Subnets List<string>: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. To specify an Elastic IP address, specify subnet mappings instead of subnets. [Application Load Balancers] You must specify subnets from at least two Availability Zones. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones.
Tags List<Pulumi.AwsNative.Outputs.Tag>: The tags to assign to the load balancer.

CanonicalHostedZoneId string: The ID of the Amazon Route 53 hosted zone associated with the load balancer. For example, Z2P70J7EXAMPLE .
DnsName string: The DNS name for the load balancer. For example, my-load-balancer-424835706.us-west-2.elb.amazonaws.com .
EnforceSecurityGroupInboundRulesOnPrivateLinkTraffic string: Indicates whether to evaluate inbound security group rules for traffic sent to a Network Load Balancer through privatelink.
IpAddressType string: Note: Internal load balancers must use the ipv4 IP address type. [Application Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses), dualstack (for IPv4 and IPv6 addresses), and dualstack-without-public-ipv4 (for IPv6 only public addresses, with private IPv4 and IPv6 addresses). Note: Application Load Balancer authentication only supports IPv4 addresses when connecting to an Identity Provider (IdP) or Amazon Cognito endpoint. Without a public IPv4 address the load balancer cannot complete the authentication process, resulting in HTTP 500 errors. [Network Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses). You can’t specify dualstack for a load balancer with a UDP or TCP_UDP listener. [Gateway Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses).
LoadBalancerArn string: The Amazon Resource Name (ARN) of the load balancer.
LoadBalancerAttributes []LoadBalancerAttribute: The load balancer attributes.
LoadBalancerFullName string: The full name of the load balancer. For example, app/my-load-balancer/50dc6c495c0c9188 .
LoadBalancerName string: The name of the load balancer. For example, my-load-balancer .
SecurityGroups []string: [Application Load Balancers and Network Load Balancers] The IDs of the security groups for the load balancer.
SubnetMappings []LoadBalancerSubnetMapping: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. [Application Load Balancers] You must specify subnets from at least two Availability Zones. You cannot specify Elastic IP addresses for your subnets. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. You can specify one Elastic IP address per subnet if you need static IP addresses for your internet-facing load balancer. For internal load balancers, you can specify one private IP address per subnet from the IPv4 range of the subnet. For internet-facing load balancer, you can specify one IPv6 address per subnet. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones. You cannot specify Elastic IP addresses for your subnets.
Subnets []string: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. To specify an Elastic IP address, specify subnet mappings instead of subnets. [Application Load Balancers] You must specify subnets from at least two Availability Zones. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones.
Tags Tag: The tags to assign to the load balancer.

canonicalHostedZoneId String: The ID of the Amazon Route 53 hosted zone associated with the load balancer. For example, Z2P70J7EXAMPLE .
dnsName String: The DNS name for the load balancer. For example, my-load-balancer-424835706.us-west-2.elb.amazonaws.com .
enforceSecurityGroupInboundRulesOnPrivateLinkTraffic String: Indicates whether to evaluate inbound security group rules for traffic sent to a Network Load Balancer through privatelink.
ipAddressType String: Note: Internal load balancers must use the ipv4 IP address type. [Application Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses), dualstack (for IPv4 and IPv6 addresses), and dualstack-without-public-ipv4 (for IPv6 only public addresses, with private IPv4 and IPv6 addresses). Note: Application Load Balancer authentication only supports IPv4 addresses when connecting to an Identity Provider (IdP) or Amazon Cognito endpoint. Without a public IPv4 address the load balancer cannot complete the authentication process, resulting in HTTP 500 errors. [Network Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses). You can’t specify dualstack for a load balancer with a UDP or TCP_UDP listener. [Gateway Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses).
loadBalancerArn String: The Amazon Resource Name (ARN) of the load balancer.
loadBalancerAttributes List<LoadBalancerAttribute>: The load balancer attributes.
loadBalancerFullName String: The full name of the load balancer. For example, app/my-load-balancer/50dc6c495c0c9188 .
loadBalancerName String: The name of the load balancer. For example, my-load-balancer .
securityGroups List<String>: [Application Load Balancers and Network Load Balancers] The IDs of the security groups for the load balancer.
subnetMappings List<LoadBalancerSubnetMapping>: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. [Application Load Balancers] You must specify subnets from at least two Availability Zones. You cannot specify Elastic IP addresses for your subnets. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. You can specify one Elastic IP address per subnet if you need static IP addresses for your internet-facing load balancer. For internal load balancers, you can specify one private IP address per subnet from the IPv4 range of the subnet. For internet-facing load balancer, you can specify one IPv6 address per subnet. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones. You cannot specify Elastic IP addresses for your subnets.
subnets List<String>: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. To specify an Elastic IP address, specify subnet mappings instead of subnets. [Application Load Balancers] You must specify subnets from at least two Availability Zones. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones.
tags List<Tag>: The tags to assign to the load balancer.

canonicalHostedZoneId string: The ID of the Amazon Route 53 hosted zone associated with the load balancer. For example, Z2P70J7EXAMPLE .
dnsName string: The DNS name for the load balancer. For example, my-load-balancer-424835706.us-west-2.elb.amazonaws.com .
enforceSecurityGroupInboundRulesOnPrivateLinkTraffic string: Indicates whether to evaluate inbound security group rules for traffic sent to a Network Load Balancer through privatelink.
ipAddressType string: Note: Internal load balancers must use the ipv4 IP address type. [Application Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses), dualstack (for IPv4 and IPv6 addresses), and dualstack-without-public-ipv4 (for IPv6 only public addresses, with private IPv4 and IPv6 addresses). Note: Application Load Balancer authentication only supports IPv4 addresses when connecting to an Identity Provider (IdP) or Amazon Cognito endpoint. Without a public IPv4 address the load balancer cannot complete the authentication process, resulting in HTTP 500 errors. [Network Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses). You can’t specify dualstack for a load balancer with a UDP or TCP_UDP listener. [Gateway Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses).
loadBalancerArn string: The Amazon Resource Name (ARN) of the load balancer.
loadBalancerAttributes LoadBalancerAttribute[]: The load balancer attributes.
loadBalancerFullName string: The full name of the load balancer. For example, app/my-load-balancer/50dc6c495c0c9188 .
loadBalancerName string: The name of the load balancer. For example, my-load-balancer .
securityGroups string[]: [Application Load Balancers and Network Load Balancers] The IDs of the security groups for the load balancer.
subnetMappings LoadBalancerSubnetMapping[]: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. [Application Load Balancers] You must specify subnets from at least two Availability Zones. You cannot specify Elastic IP addresses for your subnets. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. You can specify one Elastic IP address per subnet if you need static IP addresses for your internet-facing load balancer. For internal load balancers, you can specify one private IP address per subnet from the IPv4 range of the subnet. For internet-facing load balancer, you can specify one IPv6 address per subnet. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones. You cannot specify Elastic IP addresses for your subnets.
subnets string[]: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. To specify an Elastic IP address, specify subnet mappings instead of subnets. [Application Load Balancers] You must specify subnets from at least two Availability Zones. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones.
tags Tag[]: The tags to assign to the load balancer.

canonical_hosted_zone_id str: The ID of the Amazon Route 53 hosted zone associated with the load balancer. For example, Z2P70J7EXAMPLE .
dns_name str: The DNS name for the load balancer. For example, my-load-balancer-424835706.us-west-2.elb.amazonaws.com .
enforce_security_group_inbound_rules_on_private_link_traffic str: Indicates whether to evaluate inbound security group rules for traffic sent to a Network Load Balancer through privatelink.
ip_address_type str: Note: Internal load balancers must use the ipv4 IP address type. [Application Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses), dualstack (for IPv4 and IPv6 addresses), and dualstack-without-public-ipv4 (for IPv6 only public addresses, with private IPv4 and IPv6 addresses). Note: Application Load Balancer authentication only supports IPv4 addresses when connecting to an Identity Provider (IdP) or Amazon Cognito endpoint. Without a public IPv4 address the load balancer cannot complete the authentication process, resulting in HTTP 500 errors. [Network Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses). You can’t specify dualstack for a load balancer with a UDP or TCP_UDP listener. [Gateway Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses).
load_balancer_arn str: The Amazon Resource Name (ARN) of the load balancer.
load_balancer_attributes Sequence[LoadBalancerAttribute]: The load balancer attributes.
load_balancer_full_name str: The full name of the load balancer. For example, app/my-load-balancer/50dc6c495c0c9188 .
load_balancer_name str: The name of the load balancer. For example, my-load-balancer .
security_groups Sequence[str]: [Application Load Balancers and Network Load Balancers] The IDs of the security groups for the load balancer.
subnet_mappings Sequence[LoadBalancerSubnetMapping]: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. [Application Load Balancers] You must specify subnets from at least two Availability Zones. You cannot specify Elastic IP addresses for your subnets. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. You can specify one Elastic IP address per subnet if you need static IP addresses for your internet-facing load balancer. For internal load balancers, you can specify one private IP address per subnet from the IPv4 range of the subnet. For internet-facing load balancer, you can specify one IPv6 address per subnet. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones. You cannot specify Elastic IP addresses for your subnets.
subnets Sequence[str]: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. To specify an Elastic IP address, specify subnet mappings instead of subnets. [Application Load Balancers] You must specify subnets from at least two Availability Zones. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones.
tags Sequence[root_Tag]: The tags to assign to the load balancer.

canonicalHostedZoneId String: The ID of the Amazon Route 53 hosted zone associated with the load balancer. For example, Z2P70J7EXAMPLE .
dnsName String: The DNS name for the load balancer. For example, my-load-balancer-424835706.us-west-2.elb.amazonaws.com .
enforceSecurityGroupInboundRulesOnPrivateLinkTraffic String: Indicates whether to evaluate inbound security group rules for traffic sent to a Network Load Balancer through privatelink.
ipAddressType String: Note: Internal load balancers must use the ipv4 IP address type. [Application Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses), dualstack (for IPv4 and IPv6 addresses), and dualstack-without-public-ipv4 (for IPv6 only public addresses, with private IPv4 and IPv6 addresses). Note: Application Load Balancer authentication only supports IPv4 addresses when connecting to an Identity Provider (IdP) or Amazon Cognito endpoint. Without a public IPv4 address the load balancer cannot complete the authentication process, resulting in HTTP 500 errors. [Network Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses). You can’t specify dualstack for a load balancer with a UDP or TCP_UDP listener. [Gateway Load Balancers] The IP address type. The possible values are ipv4 (for only IPv4 addresses) and dualstack (for IPv4 and IPv6 addresses).
loadBalancerArn String: The Amazon Resource Name (ARN) of the load balancer.
loadBalancerAttributes List<Property Map>: The load balancer attributes.
loadBalancerFullName String: The full name of the load balancer. For example, app/my-load-balancer/50dc6c495c0c9188 .
loadBalancerName String: The name of the load balancer. For example, my-load-balancer .
securityGroups List<String>: [Application Load Balancers and Network Load Balancers] The IDs of the security groups for the load balancer.
subnetMappings List<Property Map>: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. [Application Load Balancers] You must specify subnets from at least two Availability Zones. You cannot specify Elastic IP addresses for your subnets. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. You can specify one Elastic IP address per subnet if you need static IP addresses for your internet-facing load balancer. For internal load balancers, you can specify one private IP address per subnet from the IPv4 range of the subnet. For internet-facing load balancer, you can specify one IPv6 address per subnet. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones. You cannot specify Elastic IP addresses for your subnets.
subnets List<String>: The IDs of the subnets. You can specify only one subnet per Availability Zone. You must specify either subnets or subnet mappings, but not both. To specify an Elastic IP address, specify subnet mappings instead of subnets. [Application Load Balancers] You must specify subnets from at least two Availability Zones. [Application Load Balancers on Outposts] You must specify one Outpost subnet. [Application Load Balancers on Local Zones] You can specify subnets from one or more Local Zones. [Network Load Balancers] You can specify subnets from one or more Availability Zones. [Gateway Load Balancers] You can specify subnets from one or more Availability Zones.
tags List<Property Map>: The tags to assign to the load balancer.

Supporting Types

LoadBalancerAttribute

Key string

The name of the attribute. The following attributes are supported by all load balancers:

deletion_protection.enabled - Indicates whether deletion protection is enabled. The value is true or false. The default is false.
load_balancing.cross_zone.enabled - Indicates whether cross-zone load balancing is enabled. The possible values are true and false. The default for Network Load Balancers and Gateway Load Balancers is false. The default for Application Load Balancers is true, and cannot be changed.

The following attributes are supported by both Application Load Balancers and Network Load Balancers:

access_logs.s3.enabled - Indicates whether access logs are enabled. The value is true or false. The default is false.
access_logs.s3.bucket - The name of the S3 bucket for the access logs. This attribute is required if access logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
access_logs.s3.prefix - The prefix for the location in the S3 bucket for the access logs.
ipv6.deny_all_igw_traffic - Blocks internet gateway (IGW) access to the load balancer. It is set to false for internet-facing load balancers and true for internal load balancers, preventing unintended access to your internal load balancer through an internet gateway.

The following attributes are supported by only Application Load Balancers:

idle_timeout.timeout_seconds - The idle timeout value, in seconds. The valid range is 1-4000 seconds. The default is 60 seconds.
client_keep_alive.seconds - The client keep alive value, in seconds. The valid range is 60-604800 seconds. The default is 3600 seconds.
connection_logs.s3.enabled - Indicates whether connection logs are enabled. The value is true or false. The default is false.
connection_logs.s3.bucket - The name of the S3 bucket for the connection logs. This attribute is required if connection logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
connection_logs.s3.prefix - The prefix for the location in the S3 bucket for the connection logs.
routing.http.desync_mitigation_mode - Determines how the load balancer handles requests that might pose a security risk to your application. The possible values are monitor, defensive, and strictest. The default is defensive.
routing.http.drop_invalid_header_fields.enabled - Indicates whether HTTP headers with invalid header fields are removed by the load balancer (true) or routed to targets (false). The default is false.
routing.http.preserve_host_header.enabled - Indicates whether the Application Load Balancer should preserve the Host header in the HTTP request and send it to the target without any change. The possible values are true and false. The default is false.
routing.http.x_amzn_tls_version_and_cipher_suite.enabled - Indicates whether the two headers (x-amzn-tls-version and x-amzn-tls-cipher-suite), which contain information about the negotiated TLS version and cipher suite, are added to the client request before sending it to the target. The x-amzn-tls-version header has information about the TLS protocol version negotiated with the client, and the x-amzn-tls-cipher-suite header has information about the cipher suite negotiated with the client. Both headers are in OpenSSL format. The possible values for the attribute are true and false. The default is false.
routing.http.xff_client_port.enabled - Indicates whether the X-Forwarded-For header should preserve the source port that the client used to connect to the load balancer. The possible values are true and false. The default is false.
routing.http.xff_header_processing.mode - Enables you to modify, preserve, or remove the X-Forwarded-For header in the HTTP request before the Application Load Balancer sends the request to the target. The possible values are append, preserve, and remove. The default is append.
If the value is append, the Application Load Balancer adds the client IP address (of the last hop) to the X-Forwarded-For header in the HTTP request before it sends it to targets.
If the value is preserve the Application Load Balancer preserves the X-Forwarded-For header in the HTTP request, and sends it to targets without any change.
If the value is remove, the Application Load Balancer removes the X-Forwarded-For header in the HTTP request before it sends it to targets.
routing.http2.enabled - Indicates whether HTTP/2 is enabled. The possible values are true and false. The default is true. Elastic Load Balancing requires that message header names contain only alphanumeric characters and hyphens.
waf.fail_open.enabled - Indicates whether to allow a WAF-enabled load balancer to route requests to targets if it is unable to forward the request to AWS WAF. The possible values are true and false. The default is false.

The following attributes are supported by only Network Load Balancers:

dns_record.client_routing_policy - Indicates how traffic is distributed among the load balancer Availability Zones. The possible values are availability_zone_affinity with 100 percent zonal affinity, partial_availability_zone_affinity with 85 percent zonal affinity, and any_availability_zone with 0 percent zonal affinity.

Value string

The value of the attribute.

Key string

The name of the attribute. The following attributes are supported by all load balancers:

deletion_protection.enabled - Indicates whether deletion protection is enabled. The value is true or false. The default is false.
load_balancing.cross_zone.enabled - Indicates whether cross-zone load balancing is enabled. The possible values are true and false. The default for Network Load Balancers and Gateway Load Balancers is false. The default for Application Load Balancers is true, and cannot be changed.

The following attributes are supported by both Application Load Balancers and Network Load Balancers:

access_logs.s3.enabled - Indicates whether access logs are enabled. The value is true or false. The default is false.
access_logs.s3.bucket - The name of the S3 bucket for the access logs. This attribute is required if access logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
access_logs.s3.prefix - The prefix for the location in the S3 bucket for the access logs.
ipv6.deny_all_igw_traffic - Blocks internet gateway (IGW) access to the load balancer. It is set to false for internet-facing load balancers and true for internal load balancers, preventing unintended access to your internal load balancer through an internet gateway.

The following attributes are supported by only Application Load Balancers:

idle_timeout.timeout_seconds - The idle timeout value, in seconds. The valid range is 1-4000 seconds. The default is 60 seconds.
client_keep_alive.seconds - The client keep alive value, in seconds. The valid range is 60-604800 seconds. The default is 3600 seconds.
connection_logs.s3.enabled - Indicates whether connection logs are enabled. The value is true or false. The default is false.
connection_logs.s3.bucket - The name of the S3 bucket for the connection logs. This attribute is required if connection logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
connection_logs.s3.prefix - The prefix for the location in the S3 bucket for the connection logs.
routing.http.desync_mitigation_mode - Determines how the load balancer handles requests that might pose a security risk to your application. The possible values are monitor, defensive, and strictest. The default is defensive.
routing.http.drop_invalid_header_fields.enabled - Indicates whether HTTP headers with invalid header fields are removed by the load balancer (true) or routed to targets (false). The default is false.
routing.http.preserve_host_header.enabled - Indicates whether the Application Load Balancer should preserve the Host header in the HTTP request and send it to the target without any change. The possible values are true and false. The default is false.
routing.http.x_amzn_tls_version_and_cipher_suite.enabled - Indicates whether the two headers (x-amzn-tls-version and x-amzn-tls-cipher-suite), which contain information about the negotiated TLS version and cipher suite, are added to the client request before sending it to the target. The x-amzn-tls-version header has information about the TLS protocol version negotiated with the client, and the x-amzn-tls-cipher-suite header has information about the cipher suite negotiated with the client. Both headers are in OpenSSL format. The possible values for the attribute are true and false. The default is false.
routing.http.xff_client_port.enabled - Indicates whether the X-Forwarded-For header should preserve the source port that the client used to connect to the load balancer. The possible values are true and false. The default is false.
routing.http.xff_header_processing.mode - Enables you to modify, preserve, or remove the X-Forwarded-For header in the HTTP request before the Application Load Balancer sends the request to the target. The possible values are append, preserve, and remove. The default is append.
If the value is append, the Application Load Balancer adds the client IP address (of the last hop) to the X-Forwarded-For header in the HTTP request before it sends it to targets.
If the value is preserve the Application Load Balancer preserves the X-Forwarded-For header in the HTTP request, and sends it to targets without any change.
If the value is remove, the Application Load Balancer removes the X-Forwarded-For header in the HTTP request before it sends it to targets.
routing.http2.enabled - Indicates whether HTTP/2 is enabled. The possible values are true and false. The default is true. Elastic Load Balancing requires that message header names contain only alphanumeric characters and hyphens.
waf.fail_open.enabled - Indicates whether to allow a WAF-enabled load balancer to route requests to targets if it is unable to forward the request to AWS WAF. The possible values are true and false. The default is false.

The following attributes are supported by only Network Load Balancers:

dns_record.client_routing_policy - Indicates how traffic is distributed among the load balancer Availability Zones. The possible values are availability_zone_affinity with 100 percent zonal affinity, partial_availability_zone_affinity with 85 percent zonal affinity, and any_availability_zone with 0 percent zonal affinity.

Value string

The value of the attribute.

key String

The name of the attribute. The following attributes are supported by all load balancers:

deletion_protection.enabled - Indicates whether deletion protection is enabled. The value is true or false. The default is false.
load_balancing.cross_zone.enabled - Indicates whether cross-zone load balancing is enabled. The possible values are true and false. The default for Network Load Balancers and Gateway Load Balancers is false. The default for Application Load Balancers is true, and cannot be changed.

The following attributes are supported by both Application Load Balancers and Network Load Balancers:

access_logs.s3.enabled - Indicates whether access logs are enabled. The value is true or false. The default is false.
access_logs.s3.bucket - The name of the S3 bucket for the access logs. This attribute is required if access logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
access_logs.s3.prefix - The prefix for the location in the S3 bucket for the access logs.
ipv6.deny_all_igw_traffic - Blocks internet gateway (IGW) access to the load balancer. It is set to false for internet-facing load balancers and true for internal load balancers, preventing unintended access to your internal load balancer through an internet gateway.

The following attributes are supported by only Application Load Balancers:

idle_timeout.timeout_seconds - The idle timeout value, in seconds. The valid range is 1-4000 seconds. The default is 60 seconds.
client_keep_alive.seconds - The client keep alive value, in seconds. The valid range is 60-604800 seconds. The default is 3600 seconds.
connection_logs.s3.enabled - Indicates whether connection logs are enabled. The value is true or false. The default is false.
connection_logs.s3.bucket - The name of the S3 bucket for the connection logs. This attribute is required if connection logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
connection_logs.s3.prefix - The prefix for the location in the S3 bucket for the connection logs.
routing.http.desync_mitigation_mode - Determines how the load balancer handles requests that might pose a security risk to your application. The possible values are monitor, defensive, and strictest. The default is defensive.
routing.http.drop_invalid_header_fields.enabled - Indicates whether HTTP headers with invalid header fields are removed by the load balancer (true) or routed to targets (false). The default is false.
routing.http.preserve_host_header.enabled - Indicates whether the Application Load Balancer should preserve the Host header in the HTTP request and send it to the target without any change. The possible values are true and false. The default is false.
routing.http.x_amzn_tls_version_and_cipher_suite.enabled - Indicates whether the two headers (x-amzn-tls-version and x-amzn-tls-cipher-suite), which contain information about the negotiated TLS version and cipher suite, are added to the client request before sending it to the target. The x-amzn-tls-version header has information about the TLS protocol version negotiated with the client, and the x-amzn-tls-cipher-suite header has information about the cipher suite negotiated with the client. Both headers are in OpenSSL format. The possible values for the attribute are true and false. The default is false.
routing.http.xff_client_port.enabled - Indicates whether the X-Forwarded-For header should preserve the source port that the client used to connect to the load balancer. The possible values are true and false. The default is false.
routing.http.xff_header_processing.mode - Enables you to modify, preserve, or remove the X-Forwarded-For header in the HTTP request before the Application Load Balancer sends the request to the target. The possible values are append, preserve, and remove. The default is append.
If the value is append, the Application Load Balancer adds the client IP address (of the last hop) to the X-Forwarded-For header in the HTTP request before it sends it to targets.
If the value is preserve the Application Load Balancer preserves the X-Forwarded-For header in the HTTP request, and sends it to targets without any change.
If the value is remove, the Application Load Balancer removes the X-Forwarded-For header in the HTTP request before it sends it to targets.
routing.http2.enabled - Indicates whether HTTP/2 is enabled. The possible values are true and false. The default is true. Elastic Load Balancing requires that message header names contain only alphanumeric characters and hyphens.
waf.fail_open.enabled - Indicates whether to allow a WAF-enabled load balancer to route requests to targets if it is unable to forward the request to AWS WAF. The possible values are true and false. The default is false.

The following attributes are supported by only Network Load Balancers:

dns_record.client_routing_policy - Indicates how traffic is distributed among the load balancer Availability Zones. The possible values are availability_zone_affinity with 100 percent zonal affinity, partial_availability_zone_affinity with 85 percent zonal affinity, and any_availability_zone with 0 percent zonal affinity.

value String

The value of the attribute.

key string

The name of the attribute. The following attributes are supported by all load balancers:

deletion_protection.enabled - Indicates whether deletion protection is enabled. The value is true or false. The default is false.
load_balancing.cross_zone.enabled - Indicates whether cross-zone load balancing is enabled. The possible values are true and false. The default for Network Load Balancers and Gateway Load Balancers is false. The default for Application Load Balancers is true, and cannot be changed.

The following attributes are supported by both Application Load Balancers and Network Load Balancers:

access_logs.s3.enabled - Indicates whether access logs are enabled. The value is true or false. The default is false.
access_logs.s3.bucket - The name of the S3 bucket for the access logs. This attribute is required if access logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
access_logs.s3.prefix - The prefix for the location in the S3 bucket for the access logs.
ipv6.deny_all_igw_traffic - Blocks internet gateway (IGW) access to the load balancer. It is set to false for internet-facing load balancers and true for internal load balancers, preventing unintended access to your internal load balancer through an internet gateway.

The following attributes are supported by only Application Load Balancers:

idle_timeout.timeout_seconds - The idle timeout value, in seconds. The valid range is 1-4000 seconds. The default is 60 seconds.
client_keep_alive.seconds - The client keep alive value, in seconds. The valid range is 60-604800 seconds. The default is 3600 seconds.
connection_logs.s3.enabled - Indicates whether connection logs are enabled. The value is true or false. The default is false.
connection_logs.s3.bucket - The name of the S3 bucket for the connection logs. This attribute is required if connection logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
connection_logs.s3.prefix - The prefix for the location in the S3 bucket for the connection logs.
routing.http.desync_mitigation_mode - Determines how the load balancer handles requests that might pose a security risk to your application. The possible values are monitor, defensive, and strictest. The default is defensive.
routing.http.drop_invalid_header_fields.enabled - Indicates whether HTTP headers with invalid header fields are removed by the load balancer (true) or routed to targets (false). The default is false.
routing.http.preserve_host_header.enabled - Indicates whether the Application Load Balancer should preserve the Host header in the HTTP request and send it to the target without any change. The possible values are true and false. The default is false.
routing.http.x_amzn_tls_version_and_cipher_suite.enabled - Indicates whether the two headers (x-amzn-tls-version and x-amzn-tls-cipher-suite), which contain information about the negotiated TLS version and cipher suite, are added to the client request before sending it to the target. The x-amzn-tls-version header has information about the TLS protocol version negotiated with the client, and the x-amzn-tls-cipher-suite header has information about the cipher suite negotiated with the client. Both headers are in OpenSSL format. The possible values for the attribute are true and false. The default is false.
routing.http.xff_client_port.enabled - Indicates whether the X-Forwarded-For header should preserve the source port that the client used to connect to the load balancer. The possible values are true and false. The default is false.
routing.http.xff_header_processing.mode - Enables you to modify, preserve, or remove the X-Forwarded-For header in the HTTP request before the Application Load Balancer sends the request to the target. The possible values are append, preserve, and remove. The default is append.
If the value is append, the Application Load Balancer adds the client IP address (of the last hop) to the X-Forwarded-For header in the HTTP request before it sends it to targets.
If the value is preserve the Application Load Balancer preserves the X-Forwarded-For header in the HTTP request, and sends it to targets without any change.
If the value is remove, the Application Load Balancer removes the X-Forwarded-For header in the HTTP request before it sends it to targets.
routing.http2.enabled - Indicates whether HTTP/2 is enabled. The possible values are true and false. The default is true. Elastic Load Balancing requires that message header names contain only alphanumeric characters and hyphens.
waf.fail_open.enabled - Indicates whether to allow a WAF-enabled load balancer to route requests to targets if it is unable to forward the request to AWS WAF. The possible values are true and false. The default is false.

The following attributes are supported by only Network Load Balancers:

dns_record.client_routing_policy - Indicates how traffic is distributed among the load balancer Availability Zones. The possible values are availability_zone_affinity with 100 percent zonal affinity, partial_availability_zone_affinity with 85 percent zonal affinity, and any_availability_zone with 0 percent zonal affinity.

value string

The value of the attribute.

key str

The name of the attribute. The following attributes are supported by all load balancers:

deletion_protection.enabled - Indicates whether deletion protection is enabled. The value is true or false. The default is false.
load_balancing.cross_zone.enabled - Indicates whether cross-zone load balancing is enabled. The possible values are true and false. The default for Network Load Balancers and Gateway Load Balancers is false. The default for Application Load Balancers is true, and cannot be changed.

The following attributes are supported by both Application Load Balancers and Network Load Balancers:

access_logs.s3.enabled - Indicates whether access logs are enabled. The value is true or false. The default is false.
access_logs.s3.bucket - The name of the S3 bucket for the access logs. This attribute is required if access logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
access_logs.s3.prefix - The prefix for the location in the S3 bucket for the access logs.
ipv6.deny_all_igw_traffic - Blocks internet gateway (IGW) access to the load balancer. It is set to false for internet-facing load balancers and true for internal load balancers, preventing unintended access to your internal load balancer through an internet gateway.

The following attributes are supported by only Application Load Balancers:

idle_timeout.timeout_seconds - The idle timeout value, in seconds. The valid range is 1-4000 seconds. The default is 60 seconds.
client_keep_alive.seconds - The client keep alive value, in seconds. The valid range is 60-604800 seconds. The default is 3600 seconds.
connection_logs.s3.enabled - Indicates whether connection logs are enabled. The value is true or false. The default is false.
connection_logs.s3.bucket - The name of the S3 bucket for the connection logs. This attribute is required if connection logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
connection_logs.s3.prefix - The prefix for the location in the S3 bucket for the connection logs.
routing.http.desync_mitigation_mode - Determines how the load balancer handles requests that might pose a security risk to your application. The possible values are monitor, defensive, and strictest. The default is defensive.
routing.http.drop_invalid_header_fields.enabled - Indicates whether HTTP headers with invalid header fields are removed by the load balancer (true) or routed to targets (false). The default is false.
routing.http.preserve_host_header.enabled - Indicates whether the Application Load Balancer should preserve the Host header in the HTTP request and send it to the target without any change. The possible values are true and false. The default is false.
routing.http.x_amzn_tls_version_and_cipher_suite.enabled - Indicates whether the two headers (x-amzn-tls-version and x-amzn-tls-cipher-suite), which contain information about the negotiated TLS version and cipher suite, are added to the client request before sending it to the target. The x-amzn-tls-version header has information about the TLS protocol version negotiated with the client, and the x-amzn-tls-cipher-suite header has information about the cipher suite negotiated with the client. Both headers are in OpenSSL format. The possible values for the attribute are true and false. The default is false.
routing.http.xff_client_port.enabled - Indicates whether the X-Forwarded-For header should preserve the source port that the client used to connect to the load balancer. The possible values are true and false. The default is false.
routing.http.xff_header_processing.mode - Enables you to modify, preserve, or remove the X-Forwarded-For header in the HTTP request before the Application Load Balancer sends the request to the target. The possible values are append, preserve, and remove. The default is append.
If the value is append, the Application Load Balancer adds the client IP address (of the last hop) to the X-Forwarded-For header in the HTTP request before it sends it to targets.
If the value is preserve the Application Load Balancer preserves the X-Forwarded-For header in the HTTP request, and sends it to targets without any change.
If the value is remove, the Application Load Balancer removes the X-Forwarded-For header in the HTTP request before it sends it to targets.
routing.http2.enabled - Indicates whether HTTP/2 is enabled. The possible values are true and false. The default is true. Elastic Load Balancing requires that message header names contain only alphanumeric characters and hyphens.
waf.fail_open.enabled - Indicates whether to allow a WAF-enabled load balancer to route requests to targets if it is unable to forward the request to AWS WAF. The possible values are true and false. The default is false.

The following attributes are supported by only Network Load Balancers:

dns_record.client_routing_policy - Indicates how traffic is distributed among the load balancer Availability Zones. The possible values are availability_zone_affinity with 100 percent zonal affinity, partial_availability_zone_affinity with 85 percent zonal affinity, and any_availability_zone with 0 percent zonal affinity.

value str

The value of the attribute.

key String

The name of the attribute. The following attributes are supported by all load balancers:

deletion_protection.enabled - Indicates whether deletion protection is enabled. The value is true or false. The default is false.
load_balancing.cross_zone.enabled - Indicates whether cross-zone load balancing is enabled. The possible values are true and false. The default for Network Load Balancers and Gateway Load Balancers is false. The default for Application Load Balancers is true, and cannot be changed.

The following attributes are supported by both Application Load Balancers and Network Load Balancers:

access_logs.s3.enabled - Indicates whether access logs are enabled. The value is true or false. The default is false.
access_logs.s3.bucket - The name of the S3 bucket for the access logs. This attribute is required if access logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
access_logs.s3.prefix - The prefix for the location in the S3 bucket for the access logs.
ipv6.deny_all_igw_traffic - Blocks internet gateway (IGW) access to the load balancer. It is set to false for internet-facing load balancers and true for internal load balancers, preventing unintended access to your internal load balancer through an internet gateway.

The following attributes are supported by only Application Load Balancers:

idle_timeout.timeout_seconds - The idle timeout value, in seconds. The valid range is 1-4000 seconds. The default is 60 seconds.
client_keep_alive.seconds - The client keep alive value, in seconds. The valid range is 60-604800 seconds. The default is 3600 seconds.
connection_logs.s3.enabled - Indicates whether connection logs are enabled. The value is true or false. The default is false.
connection_logs.s3.bucket - The name of the S3 bucket for the connection logs. This attribute is required if connection logs are enabled. The bucket must exist in the same region as the load balancer and have a bucket policy that grants Elastic Load Balancing permissions to write to the bucket.
connection_logs.s3.prefix - The prefix for the location in the S3 bucket for the connection logs.
routing.http.desync_mitigation_mode - Determines how the load balancer handles requests that might pose a security risk to your application. The possible values are monitor, defensive, and strictest. The default is defensive.
routing.http.drop_invalid_header_fields.enabled - Indicates whether HTTP headers with invalid header fields are removed by the load balancer (true) or routed to targets (false). The default is false.
routing.http.preserve_host_header.enabled - Indicates whether the Application Load Balancer should preserve the Host header in the HTTP request and send it to the target without any change. The possible values are true and false. The default is false.
routing.http.x_amzn_tls_version_and_cipher_suite.enabled - Indicates whether the two headers (x-amzn-tls-version and x-amzn-tls-cipher-suite), which contain information about the negotiated TLS version and cipher suite, are added to the client request before sending it to the target. The x-amzn-tls-version header has information about the TLS protocol version negotiated with the client, and the x-amzn-tls-cipher-suite header has information about the cipher suite negotiated with the client. Both headers are in OpenSSL format. The possible values for the attribute are true and false. The default is false.
routing.http.xff_client_port.enabled - Indicates whether the X-Forwarded-For header should preserve the source port that the client used to connect to the load balancer. The possible values are true and false. The default is false.
routing.http.xff_header_processing.mode - Enables you to modify, preserve, or remove the X-Forwarded-For header in the HTTP request before the Application Load Balancer sends the request to the target. The possible values are append, preserve, and remove. The default is append.
If the value is append, the Application Load Balancer adds the client IP address (of the last hop) to the X-Forwarded-For header in the HTTP request before it sends it to targets.
If the value is preserve the Application Load Balancer preserves the X-Forwarded-For header in the HTTP request, and sends it to targets without any change.
If the value is remove, the Application Load Balancer removes the X-Forwarded-For header in the HTTP request before it sends it to targets.
routing.http2.enabled - Indicates whether HTTP/2 is enabled. The possible values are true and false. The default is true. Elastic Load Balancing requires that message header names contain only alphanumeric characters and hyphens.
waf.fail_open.enabled - Indicates whether to allow a WAF-enabled load balancer to route requests to targets if it is unable to forward the request to AWS WAF. The possible values are true and false. The default is false.

The following attributes are supported by only Network Load Balancers:

dns_record.client_routing_policy - Indicates how traffic is distributed among the load balancer Availability Zones. The possible values are availability_zone_affinity with 100 percent zonal affinity, partial_availability_zone_affinity with 85 percent zonal affinity, and any_availability_zone with 0 percent zonal affinity.

value String

The value of the attribute.

LoadBalancerSubnetMapping

SubnetId string: The ID of the subnet.
AllocationId string: [Network Load Balancers] The allocation ID of the Elastic IP address for an internet-facing load balancer.
IPv6Address string: [Network Load Balancers] The IPv6 address.
PrivateIPv4Address string: [Network Load Balancers] The private IPv4 address for an internal load balancer.

SubnetId string: The ID of the subnet.
AllocationId string: [Network Load Balancers] The allocation ID of the Elastic IP address for an internet-facing load balancer.
IPv6Address string: [Network Load Balancers] The IPv6 address.
PrivateIPv4Address string: [Network Load Balancers] The private IPv4 address for an internal load balancer.

subnetId String: The ID of the subnet.
allocationId String: [Network Load Balancers] The allocation ID of the Elastic IP address for an internet-facing load balancer.
iPv6Address String: [Network Load Balancers] The IPv6 address.
privateIPv4Address String: [Network Load Balancers] The private IPv4 address for an internal load balancer.

subnetId string: The ID of the subnet.
allocationId string: [Network Load Balancers] The allocation ID of the Elastic IP address for an internet-facing load balancer.
iPv6Address string: [Network Load Balancers] The IPv6 address.
privateIPv4Address string: [Network Load Balancers] The private IPv4 address for an internal load balancer.

subnet_id str: The ID of the subnet.
allocation_id str: [Network Load Balancers] The allocation ID of the Elastic IP address for an internet-facing load balancer.
i_pv6_address str: [Network Load Balancers] The IPv6 address.
private_i_pv4_address str: [Network Load Balancers] The private IPv4 address for an internal load balancer.

subnetId String: The ID of the subnet.
allocationId String: [Network Load Balancers] The allocation ID of the Elastic IP address for an internet-facing load balancer.
iPv6Address String: [Network Load Balancers] The IPv6 address.
privateIPv4Address String: [Network Load Balancers] The private IPv4 address for an internal load balancer.

Package Details

Repository: AWS Native pulumi/pulumi-aws-native
License: Apache-2.0

We recommend new projects start with resources from the AWS provider.

AWS Native v0.126.0 published on Monday, Sep 30, 2024 by Pulumi

pulumi/pulumi-aws-native

aws-native.elasticloadbalancingv2.getLoadBalancer

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Using getLoadBalancer

getLoadBalancer Result

Supporting Types

LoadBalancerAttribute

LoadBalancerSubnetMapping

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Package Details

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