Table of Contents
ElasticLoadBalancing.
Client
¶A low-level client representing Elastic Load Balancing
A load balancer can distribute incoming traffic across your EC2 instances. This enables you to increase the availability of your application. The load balancer also monitors the health of its registered instances and ensures that it routes traffic only to healthy instances. You configure your load balancer to accept incoming traffic by specifying one or more listeners, which are configured with a protocol and port number for connections from clients to the load balancer and a protocol and port number for connections from the load balancer to the instances.
Elastic Load Balancing supports three types of load balancers: Application Load Balancers, Network Load Balancers, and Classic Load Balancers. You can select a load balancer based on your application needs. For more information, see the Elastic Load Balancing User Guide.
This reference covers the 2012-06-01 API, which supports Classic Load Balancers. The 2015-12-01 API supports Application Load Balancers and Network Load Balancers.
To get started, create a load balancer with one or more listeners using CreateLoadBalancer. Register your instances with the load balancer using RegisterInstancesWithLoadBalancer.
All Elastic Load Balancing operations are idempotent , which means that they complete at most one time. If you repeat an operation, it succeeds with a 200 OK response code.
import boto3
client = boto3.client('elb')
These are the available methods:
add_tags()
apply_security_groups_to_load_balancer()
attach_load_balancer_to_subnets()
can_paginate()
close()
configure_health_check()
create_app_cookie_stickiness_policy()
create_lb_cookie_stickiness_policy()
create_load_balancer()
create_load_balancer_listeners()
create_load_balancer_policy()
delete_load_balancer()
delete_load_balancer_listeners()
delete_load_balancer_policy()
deregister_instances_from_load_balancer()
describe_account_limits()
describe_instance_health()
describe_load_balancer_attributes()
describe_load_balancer_policies()
describe_load_balancer_policy_types()
describe_load_balancers()
describe_tags()
detach_load_balancer_from_subnets()
disable_availability_zones_for_load_balancer()
enable_availability_zones_for_load_balancer()
get_paginator()
get_waiter()
modify_load_balancer_attributes()
register_instances_with_load_balancer()
remove_tags()
set_load_balancer_listener_ssl_certificate()
set_load_balancer_policies_for_backend_server()
set_load_balancer_policies_of_listener()
Adds the specified tags to the specified load balancer. Each load balancer can have a maximum of 10 tags.
Each tag consists of a key and an optional value. If a tag with the same key is already associated with the load balancer, AddTags
updates its value.
For more information, see Tag Your Classic Load Balancer in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.add_tags(
LoadBalancerNames=[
'string',
],
Tags=[
{
'Key': 'string',
'Value': 'string'
},
]
)
[REQUIRED]
The name of the load balancer. You can specify one load balancer only.
[REQUIRED]
The tags.
Information about a tag.
The key of the tag.
The value of the tag.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of AddTags.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.TooManyTagsException
ElasticLoadBalancing.Client.exceptions.DuplicateTagKeysException
Examples
This example adds two tags to the specified load balancer.
response = client.add_tags(
LoadBalancerNames=[
'my-load-balancer',
],
Tags=[
{
'Key': 'project',
'Value': 'lima',
},
{
'Key': 'department',
'Value': 'digital-media',
},
],
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
apply_security_groups_to_load_balancer
(**kwargs)¶Associates one or more security groups with your load balancer in a virtual private cloud (VPC). The specified security groups override the previously associated security groups.
For more information, see Security Groups for Load Balancers in a VPC in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.apply_security_groups_to_load_balancer(
LoadBalancerName='string',
SecurityGroups=[
'string',
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The IDs of the security groups to associate with the load balancer. Note that you cannot specify the name of the security group.
dict
Response Syntax
{
'SecurityGroups': [
'string',
]
}
Response Structure
(dict) --
Contains the output of ApplySecurityGroupsToLoadBalancer.
SecurityGroups (list) --
The IDs of the security groups associated with the load balancer.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
ElasticLoadBalancing.Client.exceptions.InvalidSecurityGroupException
Examples
This example associates a security group with the specified load balancer in a VPC.
response = client.apply_security_groups_to_load_balancer(
LoadBalancerName='my-load-balancer',
SecurityGroups=[
'sg-fc448899',
],
)
print(response)
Expected Output:
{
'SecurityGroups': [
'sg-fc448899',
],
'ResponseMetadata': {
'...': '...',
},
}
attach_load_balancer_to_subnets
(**kwargs)¶Adds one or more subnets to the set of configured subnets for the specified load balancer.
The load balancer evenly distributes requests across all registered subnets. For more information, see Add or Remove Subnets for Your Load Balancer in a VPC in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.attach_load_balancer_to_subnets(
LoadBalancerName='string',
Subnets=[
'string',
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The IDs of the subnets to add. You can add only one subnet per Availability Zone.
dict
Response Syntax
{
'Subnets': [
'string',
]
}
Response Structure
(dict) --
Contains the output of AttachLoadBalancerToSubnets.
Subnets (list) --
The IDs of the subnets attached to the load balancer.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
ElasticLoadBalancing.Client.exceptions.SubnetNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidSubnetException
Examples
This example adds the specified subnet to the set of configured subnets for the specified load balancer.
response = client.attach_load_balancer_to_subnets(
LoadBalancerName='my-load-balancer',
Subnets=[
'subnet-0ecac448',
],
)
print(response)
Expected Output:
{
'Subnets': [
'subnet-15aaab61',
'subnet-0ecac448',
],
'ResponseMetadata': {
'...': '...',
},
}
can_paginate
(operation_name)¶Check if an operation can be paginated.
create_foo
, and you'd normally invoke the
operation as client.create_foo(**kwargs)
, if the
create_foo
operation can be paginated, you can use the
call client.get_paginator("create_foo")
.True
if the operation can be paginated,
False
otherwise.close
()¶Closes underlying endpoint connections.
configure_health_check
(**kwargs)¶Specifies the health check settings to use when evaluating the health state of your EC2 instances.
For more information, see Configure Health Checks for Your Load Balancer in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.configure_health_check(
LoadBalancerName='string',
HealthCheck={
'Target': 'string',
'Interval': 123,
'Timeout': 123,
'UnhealthyThreshold': 123,
'HealthyThreshold': 123
}
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The configuration information.
The instance being checked. The protocol is either TCP, HTTP, HTTPS, or SSL. The range of valid ports is one (1) through 65535.
TCP is the default, specified as a TCP: port pair, for example "TCP:5000". In this case, a health check simply attempts to open a TCP connection to the instance on the specified port. Failure to connect within the configured timeout is considered unhealthy.
SSL is also specified as SSL: port pair, for example, SSL:5000.
For HTTP/HTTPS, you must include a ping path in the string. HTTP is specified as a HTTP:port;/;PathToPing; grouping, for example "HTTP:80/weather/us/wa/seattle". In this case, a HTTP GET request is issued to the instance on the given port and path. Any answer other than "200 OK" within the timeout period is considered unhealthy.
The total length of the HTTP ping target must be 1024 16-bit Unicode characters or less.
The approximate interval, in seconds, between health checks of an individual instance.
The amount of time, in seconds, during which no response means a failed health check.
This value must be less than the Interval
value.
The number of consecutive health check failures required before moving the instance to the Unhealthy
state.
The number of consecutive health checks successes required before moving the instance to the Healthy
state.
dict
Response Syntax
{
'HealthCheck': {
'Target': 'string',
'Interval': 123,
'Timeout': 123,
'UnhealthyThreshold': 123,
'HealthyThreshold': 123
}
}
Response Structure
(dict) --
Contains the output of ConfigureHealthCheck.
HealthCheck (dict) --
The updated health check.
Target (string) --
The instance being checked. The protocol is either TCP, HTTP, HTTPS, or SSL. The range of valid ports is one (1) through 65535.
TCP is the default, specified as a TCP: port pair, for example "TCP:5000". In this case, a health check simply attempts to open a TCP connection to the instance on the specified port. Failure to connect within the configured timeout is considered unhealthy.
SSL is also specified as SSL: port pair, for example, SSL:5000.
For HTTP/HTTPS, you must include a ping path in the string. HTTP is specified as a HTTP:port;/;PathToPing; grouping, for example "HTTP:80/weather/us/wa/seattle". In this case, a HTTP GET request is issued to the instance on the given port and path. Any answer other than "200 OK" within the timeout period is considered unhealthy.
The total length of the HTTP ping target must be 1024 16-bit Unicode characters or less.
Interval (integer) --
The approximate interval, in seconds, between health checks of an individual instance.
Timeout (integer) --
The amount of time, in seconds, during which no response means a failed health check.
This value must be less than the Interval
value.
UnhealthyThreshold (integer) --
The number of consecutive health check failures required before moving the instance to the Unhealthy
state.
HealthyThreshold (integer) --
The number of consecutive health checks successes required before moving the instance to the Healthy
state.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
Examples
This example specifies the health check settings used to evaluate the health of your backend EC2 instances.
response = client.configure_health_check(
HealthCheck={
'HealthyThreshold': 2,
'Interval': 30,
'Target': 'HTTP:80/png',
'Timeout': 3,
'UnhealthyThreshold': 2,
},
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'HealthCheck': {
'HealthyThreshold': 2,
'Interval': 30,
'Target': 'HTTP:80/png',
'Timeout': 3,
'UnhealthyThreshold': 2,
},
'ResponseMetadata': {
'...': '...',
},
}
Generates a stickiness policy with sticky session lifetimes that follow that of an application-generated cookie. This policy can be associated only with HTTP/HTTPS listeners.
This policy is similar to the policy created by CreateLBCookieStickinessPolicy, except that the lifetime of the special Elastic Load Balancing cookie, AWSELB
, follows the lifetime of the application-generated cookie specified in the policy configuration. The load balancer only inserts a new stickiness cookie when the application response includes a new application cookie.
If the application cookie is explicitly removed or expires, the session stops being sticky until a new application cookie is issued.
For more information, see Application-Controlled Session Stickiness in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.create_app_cookie_stickiness_policy(
LoadBalancerName='string',
PolicyName='string',
CookieName='string'
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The name of the policy being created. Policy names must consist of alphanumeric characters and dashes (-). This name must be unique within the set of policies for this load balancer.
[REQUIRED]
The name of the application cookie used for stickiness.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output for CreateAppCookieStickinessPolicy.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.DuplicatePolicyNameException
ElasticLoadBalancing.Client.exceptions.TooManyPoliciesException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example generates a stickiness policy that follows the sticky session lifetimes of the application-generated cookie.
response = client.create_app_cookie_stickiness_policy(
CookieName='my-app-cookie',
LoadBalancerName='my-load-balancer',
PolicyName='my-app-cookie-policy',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
Generates a stickiness policy with sticky session lifetimes controlled by the lifetime of the browser (user-agent) or a specified expiration period. This policy can be associated only with HTTP/HTTPS listeners.
When a load balancer implements this policy, the load balancer uses a special cookie to track the instance for each request. When the load balancer receives a request, it first checks to see if this cookie is present in the request. If so, the load balancer sends the request to the application server specified in the cookie. If not, the load balancer sends the request to a server that is chosen based on the existing load-balancing algorithm.
A cookie is inserted into the response for binding subsequent requests from the same user to that server. The validity of the cookie is based on the cookie expiration time, which is specified in the policy configuration.
For more information, see Duration-Based Session Stickiness in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.create_lb_cookie_stickiness_policy(
LoadBalancerName='string',
PolicyName='string',
CookieExpirationPeriod=123
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The name of the policy being created. Policy names must consist of alphanumeric characters and dashes (-). This name must be unique within the set of policies for this load balancer.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output for CreateLBCookieStickinessPolicy.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.DuplicatePolicyNameException
ElasticLoadBalancing.Client.exceptions.TooManyPoliciesException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example generates a stickiness policy with sticky session lifetimes controlled by the specified expiration period.
response = client.create_lb_cookie_stickiness_policy(
CookieExpirationPeriod=60,
LoadBalancerName='my-load-balancer',
PolicyName='my-duration-cookie-policy',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
create_load_balancer
(**kwargs)¶Creates a Classic Load Balancer.
You can add listeners, security groups, subnets, and tags when you create your load balancer, or you can add them later using CreateLoadBalancerListeners, ApplySecurityGroupsToLoadBalancer, AttachLoadBalancerToSubnets, and AddTags.
To describe your current load balancers, see DescribeLoadBalancers. When you are finished with a load balancer, you can delete it using DeleteLoadBalancer.
You can create up to 20 load balancers per region per account. You can request an increase for the number of load balancers for your account. For more information, see Limits for Your Classic Load Balancer in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.create_load_balancer(
LoadBalancerName='string',
Listeners=[
{
'Protocol': 'string',
'LoadBalancerPort': 123,
'InstanceProtocol': 'string',
'InstancePort': 123,
'SSLCertificateId': 'string'
},
],
AvailabilityZones=[
'string',
],
Subnets=[
'string',
],
SecurityGroups=[
'string',
],
Scheme='string',
Tags=[
{
'Key': 'string',
'Value': 'string'
},
]
)
[REQUIRED]
The name of the load balancer.
This name must be unique within your set of load balancers for the region, must have a maximum of 32 characters, must contain only alphanumeric characters or hyphens, and cannot begin or end with a hyphen.
[REQUIRED]
The listeners.
For more information, see Listeners for Your Classic Load Balancer in the Classic Load Balancers Guide .
Information about a listener.
For information about the protocols and the ports supported by Elastic Load Balancing, see Listeners for Your Classic Load Balancer in the Classic Load Balancers Guide .
The load balancer transport protocol to use for routing: HTTP, HTTPS, TCP, or SSL.
The port on which the load balancer is listening. On EC2-VPC, you can specify any port from the range 1-65535. On EC2-Classic, you can specify any port from the following list: 25, 80, 443, 465, 587, 1024-65535.
The protocol to use for routing traffic to instances: HTTP, HTTPS, TCP, or SSL.
If the front-end protocol is TCP or SSL, the back-end protocol must be TCP or SSL. If the front-end protocol is HTTP or HTTPS, the back-end protocol must be HTTP or HTTPS.
If there is another listener with the same InstancePort
whose InstanceProtocol
is secure, (HTTPS or SSL), the listener's InstanceProtocol
must also be secure.
If there is another listener with the same InstancePort
whose InstanceProtocol
is HTTP or TCP, the listener's InstanceProtocol
must be HTTP or TCP.
The port on which the instance is listening.
The Amazon Resource Name (ARN) of the server certificate.
One or more Availability Zones from the same region as the load balancer.
You must specify at least one Availability Zone.
You can add more Availability Zones after you create the load balancer using EnableAvailabilityZonesForLoadBalancer.
The IDs of the subnets in your VPC to attach to the load balancer. Specify one subnet per Availability Zone specified in AvailabilityZones
.
The IDs of the security groups to assign to the load balancer.
The type of a load balancer. Valid only for load balancers in a VPC.
By default, Elastic Load Balancing creates an Internet-facing load balancer with a DNS name that resolves to public IP addresses. For more information about Internet-facing and Internal load balancers, see Load Balancer Scheme in the Elastic Load Balancing User Guide .
Specify internal
to create a load balancer with a DNS name that resolves to private IP addresses.
A list of tags to assign to the load balancer.
For more information about tagging your load balancer, see Tag Your Classic Load Balancer in the Classic Load Balancers Guide .
Information about a tag.
The key of the tag.
The value of the tag.
dict
Response Syntax
{
'DNSName': 'string'
}
Response Structure
(dict) --
Contains the output for CreateLoadBalancer.
DNSName (string) --
The DNS name of the load balancer.
Exceptions
ElasticLoadBalancing.Client.exceptions.DuplicateAccessPointNameException
ElasticLoadBalancing.Client.exceptions.TooManyAccessPointsException
ElasticLoadBalancing.Client.exceptions.CertificateNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
ElasticLoadBalancing.Client.exceptions.SubnetNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidSubnetException
ElasticLoadBalancing.Client.exceptions.InvalidSecurityGroupException
ElasticLoadBalancing.Client.exceptions.InvalidSchemeException
ElasticLoadBalancing.Client.exceptions.TooManyTagsException
ElasticLoadBalancing.Client.exceptions.DuplicateTagKeysException
ElasticLoadBalancing.Client.exceptions.UnsupportedProtocolException
ElasticLoadBalancing.Client.exceptions.OperationNotPermittedException
Examples
This example creates a load balancer with an HTTP listener in a VPC.
response = client.create_load_balancer(
Listeners=[
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 80,
'Protocol': 'HTTP',
},
],
LoadBalancerName='my-load-balancer',
SecurityGroups=[
'sg-a61988c3',
],
Subnets=[
'subnet-15aaab61',
],
)
print(response)
Expected Output:
{
'DNSName': 'my-load-balancer-1234567890.us-west-2.elb.amazonaws.com',
'ResponseMetadata': {
'...': '...',
},
}
This example creates a load balancer with an HTTP listener in EC2-Classic.
response = client.create_load_balancer(
AvailabilityZones=[
'us-west-2a',
],
Listeners=[
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 80,
'Protocol': 'HTTP',
},
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'DNSName': 'my-load-balancer-123456789.us-west-2.elb.amazonaws.com',
'ResponseMetadata': {
'...': '...',
},
}
This example creates a load balancer with an HTTPS listener in a VPC.
response = client.create_load_balancer(
Listeners=[
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 80,
'Protocol': 'HTTP',
},
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 443,
'Protocol': 'HTTPS',
'SSLCertificateId': 'arn:aws:iam::123456789012:server-certificate/my-server-cert',
},
],
LoadBalancerName='my-load-balancer',
SecurityGroups=[
'sg-a61988c3',
],
Subnets=[
'subnet-15aaab61',
],
)
print(response)
Expected Output:
{
'DNSName': 'my-load-balancer-1234567890.us-west-2.elb.amazonaws.com',
'ResponseMetadata': {
'...': '...',
},
}
This example creates a load balancer with an HTTPS listener in EC2-Classic.
response = client.create_load_balancer(
AvailabilityZones=[
'us-west-2a',
],
Listeners=[
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 80,
'Protocol': 'HTTP',
},
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 443,
'Protocol': 'HTTPS',
'SSLCertificateId': 'arn:aws:iam::123456789012:server-certificate/my-server-cert',
},
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'DNSName': 'my-load-balancer-123456789.us-west-2.elb.amazonaws.com',
'ResponseMetadata': {
'...': '...',
},
}
This example creates an internal load balancer with an HTTP listener in a VPC.
response = client.create_load_balancer(
Listeners=[
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 80,
'Protocol': 'HTTP',
},
],
LoadBalancerName='my-load-balancer',
Scheme='internal',
SecurityGroups=[
'sg-a61988c3',
],
Subnets=[
'subnet-15aaab61',
],
)
print(response)
Expected Output:
{
'DNSName': 'internal-my-load-balancer-123456789.us-west-2.elb.amazonaws.com',
'ResponseMetadata': {
'...': '...',
},
}
create_load_balancer_listeners
(**kwargs)¶Creates one or more listeners for the specified load balancer. If a listener with the specified port does not already exist, it is created; otherwise, the properties of the new listener must match the properties of the existing listener.
For more information, see Listeners for Your Classic Load Balancer in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.create_load_balancer_listeners(
LoadBalancerName='string',
Listeners=[
{
'Protocol': 'string',
'LoadBalancerPort': 123,
'InstanceProtocol': 'string',
'InstancePort': 123,
'SSLCertificateId': 'string'
},
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The listeners.
Information about a listener.
For information about the protocols and the ports supported by Elastic Load Balancing, see Listeners for Your Classic Load Balancer in the Classic Load Balancers Guide .
The load balancer transport protocol to use for routing: HTTP, HTTPS, TCP, or SSL.
The port on which the load balancer is listening. On EC2-VPC, you can specify any port from the range 1-65535. On EC2-Classic, you can specify any port from the following list: 25, 80, 443, 465, 587, 1024-65535.
The protocol to use for routing traffic to instances: HTTP, HTTPS, TCP, or SSL.
If the front-end protocol is TCP or SSL, the back-end protocol must be TCP or SSL. If the front-end protocol is HTTP or HTTPS, the back-end protocol must be HTTP or HTTPS.
If there is another listener with the same InstancePort
whose InstanceProtocol
is secure, (HTTPS or SSL), the listener's InstanceProtocol
must also be secure.
If there is another listener with the same InstancePort
whose InstanceProtocol
is HTTP or TCP, the listener's InstanceProtocol
must be HTTP or TCP.
The port on which the instance is listening.
The Amazon Resource Name (ARN) of the server certificate.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the parameters for CreateLoadBalancerListener.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.DuplicateListenerException
ElasticLoadBalancing.Client.exceptions.CertificateNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
ElasticLoadBalancing.Client.exceptions.UnsupportedProtocolException
Examples
This example creates a listener for your load balancer at port 80 using the HTTP protocol.
response = client.create_load_balancer_listeners(
Listeners=[
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 80,
'Protocol': 'HTTP',
},
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
This example creates a listener for your load balancer at port 443 using the HTTPS protocol.
response = client.create_load_balancer_listeners(
Listeners=[
{
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 443,
'Protocol': 'HTTPS',
'SSLCertificateId': 'arn:aws:iam::123456789012:server-certificate/my-server-cert',
},
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
create_load_balancer_policy
(**kwargs)¶Creates a policy with the specified attributes for the specified load balancer.
Policies are settings that are saved for your load balancer and that can be applied to the listener or the application server, depending on the policy type.
See also: AWS API Documentation
Request Syntax
response = client.create_load_balancer_policy(
LoadBalancerName='string',
PolicyName='string',
PolicyTypeName='string',
PolicyAttributes=[
{
'AttributeName': 'string',
'AttributeValue': 'string'
},
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The name of the load balancer policy to be created. This name must be unique within the set of policies for this load balancer.
[REQUIRED]
The name of the base policy type. To get the list of policy types, use DescribeLoadBalancerPolicyTypes.
The policy attributes.
Information about a policy attribute.
The name of the attribute.
The value of the attribute.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of CreateLoadBalancerPolicy.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.PolicyTypeNotFoundException
ElasticLoadBalancing.Client.exceptions.DuplicatePolicyNameException
ElasticLoadBalancing.Client.exceptions.TooManyPoliciesException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example creates a policy that enables Proxy Protocol on the specified load balancer.
response = client.create_load_balancer_policy(
LoadBalancerName='my-load-balancer',
PolicyAttributes=[
{
'AttributeName': 'ProxyProtocol',
'AttributeValue': 'true',
},
],
PolicyName='my-ProxyProtocol-policy',
PolicyTypeName='ProxyProtocolPolicyType',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
This example creates a public key policy.
response = client.create_load_balancer_policy(
LoadBalancerName='my-load-balancer',
PolicyAttributes=[
{
'AttributeName': 'PublicKey',
'AttributeValue': 'MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAwAYUjnfyEyXr1pxjhFWBpMlggUcqoi3kl+dS74kj//c6x7ROtusUaeQCTgIUkayttRDWchuqo1pHC1u+n5xxXnBBe2ejbb2WRsKIQ5rXEeixsjFpFsojpSQKkzhVGI6mJVZBJDVKSHmswnwLBdofLhzvllpovBPTHe+o4haAWvDBALJU0pkSI1FecPHcs2hwxf14zHoXy1e2k36A64nXW43wtfx5qcVSIxtCEOjnYRg7RPvybaGfQ+v6Iaxb/+7J5kEvZhTFQId+bSiJImF1FSUT1W1xwzBZPUbcUkkXDj45vC2s3Z8E+Lk7a3uZhvsQHLZnrfuWjBWGWvZ/MhZYgEXAMPLE',
},
],
PolicyName='my-PublicKey-policy',
PolicyTypeName='PublicKeyPolicyType',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
This example creates a backend server authentication policy that enables authentication on your backend instance using a public key policy.
response = client.create_load_balancer_policy(
LoadBalancerName='my-load-balancer',
PolicyAttributes=[
{
'AttributeName': 'PublicKeyPolicyName',
'AttributeValue': 'my-PublicKey-policy',
},
],
PolicyName='my-authentication-policy',
PolicyTypeName='BackendServerAuthenticationPolicyType',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
delete_load_balancer
(**kwargs)¶Deletes the specified load balancer.
If you are attempting to recreate a load balancer, you must reconfigure all settings. The DNS name associated with a deleted load balancer are no longer usable. The name and associated DNS record of the deleted load balancer no longer exist and traffic sent to any of its IP addresses is no longer delivered to your instances.
If the load balancer does not exist or has already been deleted, the call to DeleteLoadBalancer
still succeeds.
See also: AWS API Documentation
Request Syntax
response = client.delete_load_balancer(
LoadBalancerName='string'
)
[REQUIRED]
The name of the load balancer.
{}
Response Structure
Contains the output of DeleteLoadBalancer.
Examples
This example deletes the specified load balancer.
response = client.delete_load_balancer(
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
delete_load_balancer_listeners
(**kwargs)¶Deletes the specified listeners from the specified load balancer.
See also: AWS API Documentation
Request Syntax
response = client.delete_load_balancer_listeners(
LoadBalancerName='string',
LoadBalancerPorts=[
123,
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The client port numbers of the listeners.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of DeleteLoadBalancerListeners.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
Examples
This example deletes the listener for the specified port from the specified load balancer.
response = client.delete_load_balancer_listeners(
LoadBalancerName='my-load-balancer',
LoadBalancerPorts=[
80,
],
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
delete_load_balancer_policy
(**kwargs)¶Deletes the specified policy from the specified load balancer. This policy must not be enabled for any listeners.
See also: AWS API Documentation
Request Syntax
response = client.delete_load_balancer_policy(
LoadBalancerName='string',
PolicyName='string'
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The name of the policy.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of DeleteLoadBalancerPolicy.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example deletes the specified policy from the specified load balancer. The policy must not be enabled on any listener.
response = client.delete_load_balancer_policy(
LoadBalancerName='my-load-balancer',
PolicyName='my-duration-cookie-policy',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
deregister_instances_from_load_balancer
(**kwargs)¶Deregisters the specified instances from the specified load balancer. After the instance is deregistered, it no longer receives traffic from the load balancer.
You can use DescribeLoadBalancers to verify that the instance is deregistered from the load balancer.
For more information, see Register or De-Register EC2 Instances in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.deregister_instances_from_load_balancer(
LoadBalancerName='string',
Instances=[
{
'InstanceId': 'string'
},
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The IDs of the instances.
The ID of an EC2 instance.
The instance ID.
dict
Response Syntax
{
'Instances': [
{
'InstanceId': 'string'
},
]
}
Response Structure
(dict) --
Contains the output of DeregisterInstancesFromLoadBalancer.
Instances (list) --
The remaining instances registered with the load balancer.
(dict) --
The ID of an EC2 instance.
InstanceId (string) --
The instance ID.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidEndPointException
Examples
This example deregisters the specified instance from the specified load balancer.
response = client.deregister_instances_from_load_balancer(
Instances=[
{
'InstanceId': 'i-d6f6fae3',
},
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'Instances': [
{
'InstanceId': 'i-207d9717',
},
{
'InstanceId': 'i-afefb49b',
},
],
'ResponseMetadata': {
'...': '...',
},
}
describe_account_limits
(**kwargs)¶Describes the current Elastic Load Balancing resource limits for your AWS account.
For more information, see Limits for Your Classic Load Balancer in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.describe_account_limits(
Marker='string',
PageSize=123
)
dict
Response Syntax
{
'Limits': [
{
'Name': 'string',
'Max': 'string'
},
],
'NextMarker': 'string'
}
Response Structure
(dict) --
Limits (list) --
Information about the limits.
(dict) --
Information about an Elastic Load Balancing resource limit for your AWS account.
Name (string) --
The name of the limit. The possible values are:
Max (string) --
The maximum value of the limit.
NextMarker (string) --
The marker to use when requesting the next set of results. If there are no additional results, the string is empty.
describe_instance_health
(**kwargs)¶Describes the state of the specified instances with respect to the specified load balancer. If no instances are specified, the call describes the state of all instances that are currently registered with the load balancer. If instances are specified, their state is returned even if they are no longer registered with the load balancer. The state of terminated instances is not returned.
See also: AWS API Documentation
Request Syntax
response = client.describe_instance_health(
LoadBalancerName='string',
Instances=[
{
'InstanceId': 'string'
},
]
)
[REQUIRED]
The name of the load balancer.
The IDs of the instances.
The ID of an EC2 instance.
The instance ID.
dict
Response Syntax
{
'InstanceStates': [
{
'InstanceId': 'string',
'State': 'string',
'ReasonCode': 'string',
'Description': 'string'
},
]
}
Response Structure
(dict) --
Contains the output for DescribeInstanceHealth.
InstanceStates (list) --
Information about the health of the instances.
(dict) --
Information about the state of an EC2 instance.
InstanceId (string) --
The ID of the instance.
State (string) --
The current state of the instance.
Valid values: InService
| OutOfService
| Unknown
ReasonCode (string) --
Information about the cause of OutOfService
instances. Specifically, whether the cause is Elastic Load Balancing or the instance.
Valid values: ELB
| Instance
| N/A
Description (string) --
A description of the instance state. This string can contain one or more of the following messages.
N/A
A transient error occurred. Please try again later.
Instance has failed at least the UnhealthyThreshold number of health checks consecutively.
Instance has not passed the configured HealthyThreshold number of health checks consecutively.
Instance registration is still in progress.
Instance is in the EC2 Availability Zone for which LoadBalancer is not configured to route traffic to.
Instance is not currently registered with the LoadBalancer.
Instance deregistration currently in progress.
Disable Availability Zone is currently in progress.
Instance is in pending state.
Instance is in stopped state.
Instance is in terminated state.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidEndPointException
Examples
This example describes the health of the instances for the specified load balancer.
response = client.describe_instance_health(
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'InstanceStates': [
{
'Description': 'N/A',
'InstanceId': 'i-207d9717',
'ReasonCode': 'N/A',
'State': 'InService',
},
{
'Description': 'N/A',
'InstanceId': 'i-afefb49b',
'ReasonCode': 'N/A',
'State': 'InService',
},
],
'ResponseMetadata': {
'...': '...',
},
}
describe_load_balancer_attributes
(**kwargs)¶Describes the attributes for the specified load balancer.
See also: AWS API Documentation
Request Syntax
response = client.describe_load_balancer_attributes(
LoadBalancerName='string'
)
[REQUIRED]
The name of the load balancer.
{
'LoadBalancerAttributes': {
'CrossZoneLoadBalancing': {
'Enabled': True|False
},
'AccessLog': {
'Enabled': True|False,
'S3BucketName': 'string',
'EmitInterval': 123,
'S3BucketPrefix': 'string'
},
'ConnectionDraining': {
'Enabled': True|False,
'Timeout': 123
},
'ConnectionSettings': {
'IdleTimeout': 123
},
'AdditionalAttributes': [
{
'Key': 'string',
'Value': 'string'
},
]
}
}
Response Structure
Contains the output of DescribeLoadBalancerAttributes.
Information about the load balancer attributes.
If enabled, the load balancer routes the request traffic evenly across all instances regardless of the Availability Zones.
For more information, see Configure Cross-Zone Load Balancing in the Classic Load Balancers Guide .
Specifies whether cross-zone load balancing is enabled for the load balancer.
If enabled, the load balancer captures detailed information of all requests and delivers the information to the Amazon S3 bucket that you specify.
For more information, see Enable Access Logs in the Classic Load Balancers Guide .
Specifies whether access logs are enabled for the load balancer.
The name of the Amazon S3 bucket where the access logs are stored.
The interval for publishing the access logs. You can specify an interval of either 5 minutes or 60 minutes.
Default: 60 minutes
The logical hierarchy you created for your Amazon S3 bucket, for example my-bucket-prefix/prod
. If the prefix is not provided, the log is placed at the root level of the bucket.
If enabled, the load balancer allows existing requests to complete before the load balancer shifts traffic away from a deregistered or unhealthy instance.
For more information, see Configure Connection Draining in the Classic Load Balancers Guide .
Specifies whether connection draining is enabled for the load balancer.
The maximum time, in seconds, to keep the existing connections open before deregistering the instances.
If enabled, the load balancer allows the connections to remain idle (no data is sent over the connection) for the specified duration.
By default, Elastic Load Balancing maintains a 60-second idle connection timeout for both front-end and back-end connections of your load balancer. For more information, see Configure Idle Connection Timeout in the Classic Load Balancers Guide .
The time, in seconds, that the connection is allowed to be idle (no data has been sent over the connection) before it is closed by the load balancer.
Any additional attributes.
Information about additional load balancer attributes.
The name of the attribute.
The following attribute is supported.
elb.http.desyncmitigationmode
- 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
.This value of the attribute.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.LoadBalancerAttributeNotFoundException
Examples
This example describes the attributes of the specified load balancer.
response = client.describe_load_balancer_attributes(
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'LoadBalancerAttributes': {
'AccessLog': {
'Enabled': False,
},
'ConnectionDraining': {
'Enabled': False,
'Timeout': 300,
},
'ConnectionSettings': {
'IdleTimeout': 60,
},
'CrossZoneLoadBalancing': {
'Enabled': False,
},
},
'ResponseMetadata': {
'...': '...',
},
}
describe_load_balancer_policies
(**kwargs)¶Describes the specified policies.
If you specify a load balancer name, the action returns the descriptions of all policies created for the load balancer. If you specify a policy name associated with your load balancer, the action returns the description of that policy. If you don't specify a load balancer name, the action returns descriptions of the specified sample policies, or descriptions of all sample policies. The names of the sample policies have the ELBSample-
prefix.
See also: AWS API Documentation
Request Syntax
response = client.describe_load_balancer_policies(
LoadBalancerName='string',
PolicyNames=[
'string',
]
)
The names of the policies.
dict
Response Syntax
{
'PolicyDescriptions': [
{
'PolicyName': 'string',
'PolicyTypeName': 'string',
'PolicyAttributeDescriptions': [
{
'AttributeName': 'string',
'AttributeValue': 'string'
},
]
},
]
}
Response Structure
(dict) --
Contains the output of DescribeLoadBalancerPolicies.
PolicyDescriptions (list) --
Information about the policies.
(dict) --
Information about a policy.
PolicyName (string) --
The name of the policy.
PolicyTypeName (string) --
The name of the policy type.
PolicyAttributeDescriptions (list) --
The policy attributes.
(dict) --
Information about a policy attribute.
AttributeName (string) --
The name of the attribute.
AttributeValue (string) --
The value of the attribute.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.PolicyNotFoundException
Examples
This example describes the specified policy associated with the specified load balancer.
response = client.describe_load_balancer_policies(
LoadBalancerName='my-load-balancer',
PolicyNames=[
'my-authentication-policy',
],
)
print(response)
Expected Output:
{
'PolicyDescriptions': [
{
'PolicyAttributeDescriptions': [
{
'AttributeName': 'PublicKeyPolicyName',
'AttributeValue': 'my-PublicKey-policy',
},
],
'PolicyName': 'my-authentication-policy',
'PolicyTypeName': 'BackendServerAuthenticationPolicyType',
},
],
'ResponseMetadata': {
'...': '...',
},
}
describe_load_balancer_policy_types
(**kwargs)¶Describes the specified load balancer policy types or all load balancer policy types.
The description of each type indicates how it can be used. For example, some policies can be used only with layer 7 listeners, some policies can be used only with layer 4 listeners, and some policies can be used only with your EC2 instances.
You can use CreateLoadBalancerPolicy to create a policy configuration for any of these policy types. Then, depending on the policy type, use either SetLoadBalancerPoliciesOfListener or SetLoadBalancerPoliciesForBackendServer to set the policy.
See also: AWS API Documentation
Request Syntax
response = client.describe_load_balancer_policy_types(
PolicyTypeNames=[
'string',
]
)
The names of the policy types. If no names are specified, describes all policy types defined by Elastic Load Balancing.
{
'PolicyTypeDescriptions': [
{
'PolicyTypeName': 'string',
'Description': 'string',
'PolicyAttributeTypeDescriptions': [
{
'AttributeName': 'string',
'AttributeType': 'string',
'Description': 'string',
'DefaultValue': 'string',
'Cardinality': 'string'
},
]
},
]
}
Response Structure
Contains the output of DescribeLoadBalancerPolicyTypes.
Information about the policy types.
Information about a policy type.
The name of the policy type.
A description of the policy type.
The description of the policy attributes associated with the policies defined by Elastic Load Balancing.
Information about a policy attribute type.
The name of the attribute.
The type of the attribute. For example, Boolean
or Integer
.
A description of the attribute.
The default value of the attribute, if applicable.
The cardinality of the attribute.
Valid values:
Exceptions
ElasticLoadBalancing.Client.exceptions.PolicyTypeNotFoundException
Examples
This example describes the specified load balancer policy type.
response = client.describe_load_balancer_policy_types(
PolicyTypeNames=[
'ProxyProtocolPolicyType',
],
)
print(response)
Expected Output:
{
'PolicyTypeDescriptions': [
{
'Description': 'Policy that controls whether to include the IP address and port of the originating request for TCP messages. This policy operates on TCP listeners only.',
'PolicyAttributeTypeDescriptions': [
{
'AttributeName': 'ProxyProtocol',
'AttributeType': 'Boolean',
'Cardinality': 'ONE',
},
],
'PolicyTypeName': 'ProxyProtocolPolicyType',
},
],
'ResponseMetadata': {
'...': '...',
},
}
describe_load_balancers
(**kwargs)¶Describes the specified the load balancers. If no load balancers are specified, the call describes all of your load balancers.
See also: AWS API Documentation
Request Syntax
response = client.describe_load_balancers(
LoadBalancerNames=[
'string',
],
Marker='string',
PageSize=123
)
The names of the load balancers.
dict
Response Syntax
{
'LoadBalancerDescriptions': [
{
'LoadBalancerName': 'string',
'DNSName': 'string',
'CanonicalHostedZoneName': 'string',
'CanonicalHostedZoneNameID': 'string',
'ListenerDescriptions': [
{
'Listener': {
'Protocol': 'string',
'LoadBalancerPort': 123,
'InstanceProtocol': 'string',
'InstancePort': 123,
'SSLCertificateId': 'string'
},
'PolicyNames': [
'string',
]
},
],
'Policies': {
'AppCookieStickinessPolicies': [
{
'PolicyName': 'string',
'CookieName': 'string'
},
],
'LBCookieStickinessPolicies': [
{
'PolicyName': 'string',
'CookieExpirationPeriod': 123
},
],
'OtherPolicies': [
'string',
]
},
'BackendServerDescriptions': [
{
'InstancePort': 123,
'PolicyNames': [
'string',
]
},
],
'AvailabilityZones': [
'string',
],
'Subnets': [
'string',
],
'VPCId': 'string',
'Instances': [
{
'InstanceId': 'string'
},
],
'HealthCheck': {
'Target': 'string',
'Interval': 123,
'Timeout': 123,
'UnhealthyThreshold': 123,
'HealthyThreshold': 123
},
'SourceSecurityGroup': {
'OwnerAlias': 'string',
'GroupName': 'string'
},
'SecurityGroups': [
'string',
],
'CreatedTime': datetime(2015, 1, 1),
'Scheme': 'string'
},
],
'NextMarker': 'string'
}
Response Structure
(dict) --
Contains the parameters for DescribeLoadBalancers.
LoadBalancerDescriptions (list) --
Information about the load balancers.
(dict) --
Information about a load balancer.
LoadBalancerName (string) --
The name of the load balancer.
DNSName (string) --
The DNS name of the load balancer.
CanonicalHostedZoneName (string) --
The DNS name of the load balancer.
For more information, see Configure a Custom Domain Name in the Classic Load Balancers Guide .
CanonicalHostedZoneNameID (string) --
The ID of the Amazon Route 53 hosted zone for the load balancer.
ListenerDescriptions (list) --
The listeners for the load balancer.
(dict) --
The policies enabled for a listener.
Listener (dict) --
The listener.
Protocol (string) --
The load balancer transport protocol to use for routing: HTTP, HTTPS, TCP, or SSL.
LoadBalancerPort (integer) --
The port on which the load balancer is listening. On EC2-VPC, you can specify any port from the range 1-65535. On EC2-Classic, you can specify any port from the following list: 25, 80, 443, 465, 587, 1024-65535.
InstanceProtocol (string) --
The protocol to use for routing traffic to instances: HTTP, HTTPS, TCP, or SSL.
If the front-end protocol is TCP or SSL, the back-end protocol must be TCP or SSL. If the front-end protocol is HTTP or HTTPS, the back-end protocol must be HTTP or HTTPS.
If there is another listener with the same InstancePort
whose InstanceProtocol
is secure, (HTTPS or SSL), the listener's InstanceProtocol
must also be secure.
If there is another listener with the same InstancePort
whose InstanceProtocol
is HTTP or TCP, the listener's InstanceProtocol
must be HTTP or TCP.
InstancePort (integer) --
The port on which the instance is listening.
SSLCertificateId (string) --
The Amazon Resource Name (ARN) of the server certificate.
PolicyNames (list) --
The policies. If there are no policies enabled, the list is empty.
Policies (dict) --
The policies defined for the load balancer.
AppCookieStickinessPolicies (list) --
The stickiness policies created using CreateAppCookieStickinessPolicy.
(dict) --
Information about a policy for application-controlled session stickiness.
PolicyName (string) --
The mnemonic name for the policy being created. The name must be unique within a set of policies for this load balancer.
CookieName (string) --
The name of the application cookie used for stickiness.
LBCookieStickinessPolicies (list) --
The stickiness policies created using CreateLBCookieStickinessPolicy.
(dict) --
Information about a policy for duration-based session stickiness.
PolicyName (string) --
The name of the policy. This name must be unique within the set of policies for this load balancer.
CookieExpirationPeriod (integer) --
The time period, in seconds, after which the cookie should be considered stale. If this parameter is not specified, the stickiness session lasts for the duration of the browser session.
OtherPolicies (list) --
The policies other than the stickiness policies.
BackendServerDescriptions (list) --
Information about your EC2 instances.
(dict) --
Information about the configuration of an EC2 instance.
InstancePort (integer) --
The port on which the EC2 instance is listening.
PolicyNames (list) --
The names of the policies enabled for the EC2 instance.
AvailabilityZones (list) --
The Availability Zones for the load balancer.
Subnets (list) --
The IDs of the subnets for the load balancer.
VPCId (string) --
The ID of the VPC for the load balancer.
Instances (list) --
The IDs of the instances for the load balancer.
(dict) --
The ID of an EC2 instance.
InstanceId (string) --
The instance ID.
HealthCheck (dict) --
Information about the health checks conducted on the load balancer.
Target (string) --
The instance being checked. The protocol is either TCP, HTTP, HTTPS, or SSL. The range of valid ports is one (1) through 65535.
TCP is the default, specified as a TCP: port pair, for example "TCP:5000". In this case, a health check simply attempts to open a TCP connection to the instance on the specified port. Failure to connect within the configured timeout is considered unhealthy.
SSL is also specified as SSL: port pair, for example, SSL:5000.
For HTTP/HTTPS, you must include a ping path in the string. HTTP is specified as a HTTP:port;/;PathToPing; grouping, for example "HTTP:80/weather/us/wa/seattle". In this case, a HTTP GET request is issued to the instance on the given port and path. Any answer other than "200 OK" within the timeout period is considered unhealthy.
The total length of the HTTP ping target must be 1024 16-bit Unicode characters or less.
Interval (integer) --
The approximate interval, in seconds, between health checks of an individual instance.
Timeout (integer) --
The amount of time, in seconds, during which no response means a failed health check.
This value must be less than the Interval
value.
UnhealthyThreshold (integer) --
The number of consecutive health check failures required before moving the instance to the Unhealthy
state.
HealthyThreshold (integer) --
The number of consecutive health checks successes required before moving the instance to the Healthy
state.
SourceSecurityGroup (dict) --
The security group for the load balancer, which you can use as part of your inbound rules for your registered instances. To only allow traffic from load balancers, add a security group rule that specifies this source security group as the inbound source.
OwnerAlias (string) --
The owner of the security group.
GroupName (string) --
The name of the security group.
SecurityGroups (list) --
The security groups for the load balancer. Valid only for load balancers in a VPC.
CreatedTime (datetime) --
The date and time the load balancer was created.
Scheme (string) --
The type of load balancer. Valid only for load balancers in a VPC.
If Scheme
is internet-facing
, the load balancer has a public DNS name that resolves to a public IP address.
If Scheme
is internal
, the load balancer has a public DNS name that resolves to a private IP address.
NextMarker (string) --
The marker to use when requesting the next set of results. If there are no additional results, the string is empty.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.DependencyThrottleException
Examples
This example describes the specified load balancer.
response = client.describe_load_balancers(
LoadBalancerNames=[
'my-load-balancer',
],
)
print(response)
Expected Output:
{
'LoadBalancerDescriptions': [
{
'AvailabilityZones': [
'us-west-2a',
],
'BackendServerDescriptions': [
{
'InstancePort': 80,
'PolicyNames': [
'my-ProxyProtocol-policy',
],
},
],
'CanonicalHostedZoneName': 'my-load-balancer-1234567890.us-west-2.elb.amazonaws.com',
'CanonicalHostedZoneNameID': 'Z3DZXE0EXAMPLE',
'CreatedTime': datetime(2015, 3, 19, 3, 24, 2, 3, 78, 0),
'DNSName': 'my-load-balancer-1234567890.us-west-2.elb.amazonaws.com',
'HealthCheck': {
'HealthyThreshold': 2,
'Interval': 30,
'Target': 'HTTP:80/png',
'Timeout': 3,
'UnhealthyThreshold': 2,
},
'Instances': [
{
'InstanceId': 'i-207d9717',
},
{
'InstanceId': 'i-afefb49b',
},
],
'ListenerDescriptions': [
{
'Listener': {
'InstancePort': 80,
'InstanceProtocol': 'HTTP',
'LoadBalancerPort': 80,
'Protocol': 'HTTP',
},
'PolicyNames': [
],
},
{
'Listener': {
'InstancePort': 443,
'InstanceProtocol': 'HTTPS',
'LoadBalancerPort': 443,
'Protocol': 'HTTPS',
'SSLCertificateId': 'arn:aws:iam::123456789012:server-certificate/my-server-cert',
},
'PolicyNames': [
'ELBSecurityPolicy-2015-03',
],
},
],
'LoadBalancerName': 'my-load-balancer',
'Policies': {
'AppCookieStickinessPolicies': [
],
'LBCookieStickinessPolicies': [
{
'CookieExpirationPeriod': 60,
'PolicyName': 'my-duration-cookie-policy',
},
],
'OtherPolicies': [
'my-PublicKey-policy',
'my-authentication-policy',
'my-SSLNegotiation-policy',
'my-ProxyProtocol-policy',
'ELBSecurityPolicy-2015-03',
],
},
'Scheme': 'internet-facing',
'SecurityGroups': [
'sg-a61988c3',
],
'SourceSecurityGroup': {
'GroupName': 'my-elb-sg',
'OwnerAlias': '123456789012',
},
'Subnets': [
'subnet-15aaab61',
],
'VPCId': 'vpc-a01106c2',
},
],
'ResponseMetadata': {
'...': '...',
},
}
Describes the tags associated with the specified load balancers.
See also: AWS API Documentation
Request Syntax
response = client.describe_tags(
LoadBalancerNames=[
'string',
]
)
[REQUIRED]
The names of the load balancers.
{
'TagDescriptions': [
{
'LoadBalancerName': 'string',
'Tags': [
{
'Key': 'string',
'Value': 'string'
},
]
},
]
}
Response Structure
Contains the output for DescribeTags.
Information about the tags.
The tags associated with a load balancer.
The name of the load balancer.
The tags.
Information about a tag.
The key of the tag.
The value of the tag.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
Examples
This example describes the tags for the specified load balancer.
response = client.describe_tags(
LoadBalancerNames=[
'my-load-balancer',
],
)
print(response)
Expected Output:
{
'TagDescriptions': [
{
'LoadBalancerName': 'my-load-balancer',
'Tags': [
{
'Key': 'project',
'Value': 'lima',
},
{
'Key': 'department',
'Value': 'digital-media',
},
],
},
],
'ResponseMetadata': {
'...': '...',
},
}
detach_load_balancer_from_subnets
(**kwargs)¶Removes the specified subnets from the set of configured subnets for the load balancer.
After a subnet is removed, all EC2 instances registered with the load balancer in the removed subnet go into the OutOfService
state. Then, the load balancer balances the traffic among the remaining routable subnets.
See also: AWS API Documentation
Request Syntax
response = client.detach_load_balancer_from_subnets(
LoadBalancerName='string',
Subnets=[
'string',
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The IDs of the subnets.
dict
Response Syntax
{
'Subnets': [
'string',
]
}
Response Structure
(dict) --
Contains the output of DetachLoadBalancerFromSubnets.
Subnets (list) --
The IDs of the remaining subnets for the load balancer.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example detaches the specified load balancer from the specified subnet.
response = client.detach_load_balancer_from_subnets(
LoadBalancerName='my-load-balancer',
Subnets=[
'subnet-0ecac448',
],
)
print(response)
Expected Output:
{
'Subnets': [
'subnet-15aaab61',
],
'ResponseMetadata': {
'...': '...',
},
}
disable_availability_zones_for_load_balancer
(**kwargs)¶Removes the specified Availability Zones from the set of Availability Zones for the specified load balancer in EC2-Classic or a default VPC.
For load balancers in a non-default VPC, use DetachLoadBalancerFromSubnets.
There must be at least one Availability Zone registered with a load balancer at all times. After an Availability Zone is removed, all instances registered with the load balancer that are in the removed Availability Zone go into the OutOfService
state. Then, the load balancer attempts to equally balance the traffic among its remaining Availability Zones.
For more information, see Add or Remove Availability Zones in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.disable_availability_zones_for_load_balancer(
LoadBalancerName='string',
AvailabilityZones=[
'string',
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The Availability Zones.
dict
Response Syntax
{
'AvailabilityZones': [
'string',
]
}
Response Structure
(dict) --
Contains the output for DisableAvailabilityZonesForLoadBalancer.
AvailabilityZones (list) --
The remaining Availability Zones for the load balancer.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example removes the specified Availability Zone from the set of Availability Zones for the specified load balancer.
response = client.disable_availability_zones_for_load_balancer(
AvailabilityZones=[
'us-west-2a',
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'AvailabilityZones': [
'us-west-2b',
],
'ResponseMetadata': {
'...': '...',
},
}
enable_availability_zones_for_load_balancer
(**kwargs)¶Adds the specified Availability Zones to the set of Availability Zones for the specified load balancer in EC2-Classic or a default VPC.
For load balancers in a non-default VPC, use AttachLoadBalancerToSubnets.
The load balancer evenly distributes requests across all its registered Availability Zones that contain instances. For more information, see Add or Remove Availability Zones in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.enable_availability_zones_for_load_balancer(
LoadBalancerName='string',
AvailabilityZones=[
'string',
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The Availability Zones. These must be in the same region as the load balancer.
dict
Response Syntax
{
'AvailabilityZones': [
'string',
]
}
Response Structure
(dict) --
Contains the output of EnableAvailabilityZonesForLoadBalancer.
AvailabilityZones (list) --
The updated list of Availability Zones for the load balancer.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
Examples
This example adds the specified Availability Zone to the specified load balancer.
response = client.enable_availability_zones_for_load_balancer(
AvailabilityZones=[
'us-west-2b',
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'AvailabilityZones': [
'us-west-2a',
'us-west-2b',
],
'ResponseMetadata': {
'...': '...',
},
}
get_paginator
(operation_name)¶Create a paginator for an operation.
create_foo
, and you'd normally invoke the
operation as client.create_foo(**kwargs)
, if the
create_foo
operation can be paginated, you can use the
call client.get_paginator("create_foo")
.client.can_paginate
method to
check if an operation is pageable.get_waiter
(waiter_name)¶Returns an object that can wait for some condition.
modify_load_balancer_attributes
(**kwargs)¶Modifies the attributes of the specified load balancer.
You can modify the load balancer attributes, such as AccessLogs
, ConnectionDraining
, and CrossZoneLoadBalancing
by either enabling or disabling them. Or, you can modify the load balancer attribute ConnectionSettings
by specifying an idle connection timeout value for your load balancer.
For more information, see the following in the Classic Load Balancers Guide :
See also: AWS API Documentation
Request Syntax
response = client.modify_load_balancer_attributes(
LoadBalancerName='string',
LoadBalancerAttributes={
'CrossZoneLoadBalancing': {
'Enabled': True|False
},
'AccessLog': {
'Enabled': True|False,
'S3BucketName': 'string',
'EmitInterval': 123,
'S3BucketPrefix': 'string'
},
'ConnectionDraining': {
'Enabled': True|False,
'Timeout': 123
},
'ConnectionSettings': {
'IdleTimeout': 123
},
'AdditionalAttributes': [
{
'Key': 'string',
'Value': 'string'
},
]
}
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The attributes for the load balancer.
If enabled, the load balancer routes the request traffic evenly across all instances regardless of the Availability Zones.
For more information, see Configure Cross-Zone Load Balancing in the Classic Load Balancers Guide .
Specifies whether cross-zone load balancing is enabled for the load balancer.
If enabled, the load balancer captures detailed information of all requests and delivers the information to the Amazon S3 bucket that you specify.
For more information, see Enable Access Logs in the Classic Load Balancers Guide .
Specifies whether access logs are enabled for the load balancer.
The name of the Amazon S3 bucket where the access logs are stored.
The interval for publishing the access logs. You can specify an interval of either 5 minutes or 60 minutes.
Default: 60 minutes
The logical hierarchy you created for your Amazon S3 bucket, for example my-bucket-prefix/prod
. If the prefix is not provided, the log is placed at the root level of the bucket.
If enabled, the load balancer allows existing requests to complete before the load balancer shifts traffic away from a deregistered or unhealthy instance.
For more information, see Configure Connection Draining in the Classic Load Balancers Guide .
Specifies whether connection draining is enabled for the load balancer.
The maximum time, in seconds, to keep the existing connections open before deregistering the instances.
If enabled, the load balancer allows the connections to remain idle (no data is sent over the connection) for the specified duration.
By default, Elastic Load Balancing maintains a 60-second idle connection timeout for both front-end and back-end connections of your load balancer. For more information, see Configure Idle Connection Timeout in the Classic Load Balancers Guide .
The time, in seconds, that the connection is allowed to be idle (no data has been sent over the connection) before it is closed by the load balancer.
Any additional attributes.
Information about additional load balancer attributes.
The name of the attribute.
The following attribute is supported.
elb.http.desyncmitigationmode
- 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
.This value of the attribute.
dict
Response Syntax
{
'LoadBalancerName': 'string',
'LoadBalancerAttributes': {
'CrossZoneLoadBalancing': {
'Enabled': True|False
},
'AccessLog': {
'Enabled': True|False,
'S3BucketName': 'string',
'EmitInterval': 123,
'S3BucketPrefix': 'string'
},
'ConnectionDraining': {
'Enabled': True|False,
'Timeout': 123
},
'ConnectionSettings': {
'IdleTimeout': 123
},
'AdditionalAttributes': [
{
'Key': 'string',
'Value': 'string'
},
]
}
}
Response Structure
(dict) --
Contains the output of ModifyLoadBalancerAttributes.
LoadBalancerName (string) --
The name of the load balancer.
LoadBalancerAttributes (dict) --
Information about the load balancer attributes.
CrossZoneLoadBalancing (dict) --
If enabled, the load balancer routes the request traffic evenly across all instances regardless of the Availability Zones.
For more information, see Configure Cross-Zone Load Balancing in the Classic Load Balancers Guide .
Enabled (boolean) --
Specifies whether cross-zone load balancing is enabled for the load balancer.
AccessLog (dict) --
If enabled, the load balancer captures detailed information of all requests and delivers the information to the Amazon S3 bucket that you specify.
For more information, see Enable Access Logs in the Classic Load Balancers Guide .
Enabled (boolean) --
Specifies whether access logs are enabled for the load balancer.
S3BucketName (string) --
The name of the Amazon S3 bucket where the access logs are stored.
EmitInterval (integer) --
The interval for publishing the access logs. You can specify an interval of either 5 minutes or 60 minutes.
Default: 60 minutes
S3BucketPrefix (string) --
The logical hierarchy you created for your Amazon S3 bucket, for example my-bucket-prefix/prod
. If the prefix is not provided, the log is placed at the root level of the bucket.
ConnectionDraining (dict) --
If enabled, the load balancer allows existing requests to complete before the load balancer shifts traffic away from a deregistered or unhealthy instance.
For more information, see Configure Connection Draining in the Classic Load Balancers Guide .
Enabled (boolean) --
Specifies whether connection draining is enabled for the load balancer.
Timeout (integer) --
The maximum time, in seconds, to keep the existing connections open before deregistering the instances.
ConnectionSettings (dict) --
If enabled, the load balancer allows the connections to remain idle (no data is sent over the connection) for the specified duration.
By default, Elastic Load Balancing maintains a 60-second idle connection timeout for both front-end and back-end connections of your load balancer. For more information, see Configure Idle Connection Timeout in the Classic Load Balancers Guide .
IdleTimeout (integer) --
The time, in seconds, that the connection is allowed to be idle (no data has been sent over the connection) before it is closed by the load balancer.
AdditionalAttributes (list) --
Any additional attributes.
(dict) --
Information about additional load balancer attributes.
Key (string) --
The name of the attribute.
The following attribute is supported.
elb.http.desyncmitigationmode
- 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
.Value (string) --
This value of the attribute.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.LoadBalancerAttributeNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example enables cross-zone load balancing for the specified load balancer.
response = client.modify_load_balancer_attributes(
LoadBalancerAttributes={
'CrossZoneLoadBalancing': {
'Enabled': True,
},
},
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'LoadBalancerAttributes': {
'CrossZoneLoadBalancing': {
'Enabled': True,
},
},
'LoadBalancerName': 'my-load-balancer',
'ResponseMetadata': {
'...': '...',
},
}
This example enables connection draining for the specified load balancer.
response = client.modify_load_balancer_attributes(
LoadBalancerAttributes={
'ConnectionDraining': {
'Enabled': True,
'Timeout': 300,
},
},
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'LoadBalancerAttributes': {
'ConnectionDraining': {
'Enabled': True,
'Timeout': 300,
},
},
'LoadBalancerName': 'my-load-balancer',
'ResponseMetadata': {
'...': '...',
},
}
register_instances_with_load_balancer
(**kwargs)¶Adds the specified instances to the specified load balancer.
The instance must be a running instance in the same network as the load balancer (EC2-Classic or the same VPC). If you have EC2-Classic instances and a load balancer in a VPC with ClassicLink enabled, you can link the EC2-Classic instances to that VPC and then register the linked EC2-Classic instances with the load balancer in the VPC.
Note that RegisterInstanceWithLoadBalancer
completes when the request has been registered. Instance registration takes a little time to complete. To check the state of the registered instances, use DescribeLoadBalancers or DescribeInstanceHealth.
After the instance is registered, it starts receiving traffic and requests from the load balancer. Any instance that is not in one of the Availability Zones registered for the load balancer is moved to the OutOfService
state. If an Availability Zone is added to the load balancer later, any instances registered with the load balancer move to the InService
state.
To deregister instances from a load balancer, use DeregisterInstancesFromLoadBalancer.
For more information, see Register or De-Register EC2 Instances in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.register_instances_with_load_balancer(
LoadBalancerName='string',
Instances=[
{
'InstanceId': 'string'
},
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The IDs of the instances.
The ID of an EC2 instance.
The instance ID.
dict
Response Syntax
{
'Instances': [
{
'InstanceId': 'string'
},
]
}
Response Structure
(dict) --
Contains the output of RegisterInstancesWithLoadBalancer.
Instances (list) --
The updated list of instances for the load balancer.
(dict) --
The ID of an EC2 instance.
InstanceId (string) --
The instance ID.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidEndPointException
Examples
This example registers the specified instance with the specified load balancer.
response = client.register_instances_with_load_balancer(
Instances=[
{
'InstanceId': 'i-d6f6fae3',
},
],
LoadBalancerName='my-load-balancer',
)
print(response)
Expected Output:
{
'Instances': [
{
'InstanceId': 'i-d6f6fae3',
},
{
'InstanceId': 'i-207d9717',
},
{
'InstanceId': 'i-afefb49b',
},
],
'ResponseMetadata': {
'...': '...',
},
}
Removes one or more tags from the specified load balancer.
See also: AWS API Documentation
Request Syntax
response = client.remove_tags(
LoadBalancerNames=[
'string',
],
Tags=[
{
'Key': 'string'
},
]
)
[REQUIRED]
The name of the load balancer. You can specify a maximum of one load balancer name.
[REQUIRED]
The list of tag keys to remove.
The key of a tag.
The name of the key.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of RemoveTags.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
Examples
This example removes the specified tag from the specified load balancer.
response = client.remove_tags(
LoadBalancerNames=[
'my-load-balancer',
],
Tags=[
{
'Key': 'project',
},
],
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
set_load_balancer_listener_ssl_certificate
(**kwargs)¶Sets the certificate that terminates the specified listener's SSL connections. The specified certificate replaces any prior certificate that was used on the same load balancer and port.
For more information about updating your SSL certificate, see Replace the SSL Certificate for Your Load Balancer in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.set_load_balancer_listener_ssl_certificate(
LoadBalancerName='string',
LoadBalancerPort=123,
SSLCertificateId='string'
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The port that uses the specified SSL certificate.
[REQUIRED]
The Amazon Resource Name (ARN) of the SSL certificate.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of SetLoadBalancerListenerSSLCertificate.
Exceptions
ElasticLoadBalancing.Client.exceptions.CertificateNotFoundException
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.ListenerNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
ElasticLoadBalancing.Client.exceptions.UnsupportedProtocolException
Examples
This example replaces the existing SSL certificate for the specified HTTPS listener.
response = client.set_load_balancer_listener_ssl_certificate(
LoadBalancerName='my-load-balancer',
LoadBalancerPort=443,
SSLCertificateId='arn:aws:iam::123456789012:server-certificate/new-server-cert',
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
set_load_balancer_policies_for_backend_server
(**kwargs)¶Replaces the set of policies associated with the specified port on which the EC2 instance is listening with a new set of policies. At this time, only the back-end server authentication policy type can be applied to the instance ports; this policy type is composed of multiple public key policies.
Each time you use SetLoadBalancerPoliciesForBackendServer
to enable the policies, use the PolicyNames
parameter to list the policies that you want to enable.
You can use DescribeLoadBalancers or DescribeLoadBalancerPolicies to verify that the policy is associated with the EC2 instance.
For more information about enabling back-end instance authentication, see Configure Back-end Instance Authentication in the Classic Load Balancers Guide . For more information about Proxy Protocol, see Configure Proxy Protocol Support in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.set_load_balancer_policies_for_backend_server(
LoadBalancerName='string',
InstancePort=123,
PolicyNames=[
'string',
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The port number associated with the EC2 instance.
[REQUIRED]
The names of the policies. If the list is empty, then all current polices are removed from the EC2 instance.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of SetLoadBalancerPoliciesForBackendServer.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.PolicyNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example replaces the policies that are currently associated with the specified port.
response = client.set_load_balancer_policies_for_backend_server(
InstancePort=80,
LoadBalancerName='my-load-balancer',
PolicyNames=[
'my-ProxyProtocol-policy',
],
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
set_load_balancer_policies_of_listener
(**kwargs)¶Replaces the current set of policies for the specified load balancer port with the specified set of policies.
To enable back-end server authentication, use SetLoadBalancerPoliciesForBackendServer.
For more information about setting policies, see Update the SSL Negotiation Configuration, Duration-Based Session Stickiness, and Application-Controlled Session Stickiness in the Classic Load Balancers Guide .
See also: AWS API Documentation
Request Syntax
response = client.set_load_balancer_policies_of_listener(
LoadBalancerName='string',
LoadBalancerPort=123,
PolicyNames=[
'string',
]
)
[REQUIRED]
The name of the load balancer.
[REQUIRED]
The external port of the load balancer.
[REQUIRED]
The names of the policies. This list must include all policies to be enabled. If you omit a policy that is currently enabled, it is disabled. If the list is empty, all current policies are disabled.
dict
Response Syntax
{}
Response Structure
(dict) --
Contains the output of SetLoadBalancePoliciesOfListener.
Exceptions
ElasticLoadBalancing.Client.exceptions.AccessPointNotFoundException
ElasticLoadBalancing.Client.exceptions.PolicyNotFoundException
ElasticLoadBalancing.Client.exceptions.ListenerNotFoundException
ElasticLoadBalancing.Client.exceptions.InvalidConfigurationRequestException
Examples
This example replaces the policies that are currently associated with the specified listener.
response = client.set_load_balancer_policies_of_listener(
LoadBalancerName='my-load-balancer',
LoadBalancerPort=80,
PolicyNames=[
'my-SSLNegotiation-policy',
],
)
print(response)
Expected Output:
{
'ResponseMetadata': {
'...': '...',
},
}
The available paginators are:
ElasticLoadBalancing.Paginator.DescribeAccountLimits
ElasticLoadBalancing.Paginator.DescribeLoadBalancers
ElasticLoadBalancing.Paginator.
DescribeAccountLimits
¶paginator = client.get_paginator('describe_account_limits')
paginate
(**kwargs)¶Creates an iterator that will paginate through responses from ElasticLoadBalancing.Client.describe_account_limits()
.
See also: AWS API Documentation
Request Syntax
response_iterator = paginator.paginate(
PaginationConfig={
'MaxItems': 123,
'PageSize': 123,
'StartingToken': 'string'
}
)
A dictionary that provides parameters to control pagination.
The total number of items to return. If the total number of items available is more than the value specified in max-items then a NextToken
will be provided in the output that you can use to resume pagination.
The size of each page.
A token to specify where to start paginating. This is the NextToken
from a previous response.
{
'Limits': [
{
'Name': 'string',
'Max': 'string'
},
],
'NextToken': 'string'
}
Response Structure
Information about the limits.
Information about an Elastic Load Balancing resource limit for your AWS account.
The name of the limit. The possible values are:
The maximum value of the limit.
A token to resume pagination.
ElasticLoadBalancing.Paginator.
DescribeLoadBalancers
¶paginator = client.get_paginator('describe_load_balancers')
paginate
(**kwargs)¶Creates an iterator that will paginate through responses from ElasticLoadBalancing.Client.describe_load_balancers()
.
See also: AWS API Documentation
Request Syntax
response_iterator = paginator.paginate(
LoadBalancerNames=[
'string',
],
PaginationConfig={
'MaxItems': 123,
'PageSize': 123,
'StartingToken': 'string'
}
)
The names of the load balancers.
A dictionary that provides parameters to control pagination.
The total number of items to return. If the total number of items available is more than the value specified in max-items then a NextToken
will be provided in the output that you can use to resume pagination.
The size of each page.
A token to specify where to start paginating. This is the NextToken
from a previous response.
dict
Response Syntax
{
'LoadBalancerDescriptions': [
{
'LoadBalancerName': 'string',
'DNSName': 'string',
'CanonicalHostedZoneName': 'string',
'CanonicalHostedZoneNameID': 'string',
'ListenerDescriptions': [
{
'Listener': {
'Protocol': 'string',
'LoadBalancerPort': 123,
'InstanceProtocol': 'string',
'InstancePort': 123,
'SSLCertificateId': 'string'
},
'PolicyNames': [
'string',
]
},
],
'Policies': {
'AppCookieStickinessPolicies': [
{
'PolicyName': 'string',
'CookieName': 'string'
},
],
'LBCookieStickinessPolicies': [
{
'PolicyName': 'string',
'CookieExpirationPeriod': 123
},
],
'OtherPolicies': [
'string',
]
},
'BackendServerDescriptions': [
{
'InstancePort': 123,
'PolicyNames': [
'string',
]
},
],
'AvailabilityZones': [
'string',
],
'Subnets': [
'string',
],
'VPCId': 'string',
'Instances': [
{
'InstanceId': 'string'
},
],
'HealthCheck': {
'Target': 'string',
'Interval': 123,
'Timeout': 123,
'UnhealthyThreshold': 123,
'HealthyThreshold': 123
},
'SourceSecurityGroup': {
'OwnerAlias': 'string',
'GroupName': 'string'
},
'SecurityGroups': [
'string',
],
'CreatedTime': datetime(2015, 1, 1),
'Scheme': 'string'
},
],
'NextToken': 'string'
}
Response Structure
(dict) --
Contains the parameters for DescribeLoadBalancers.
LoadBalancerDescriptions (list) --
Information about the load balancers.
(dict) --
Information about a load balancer.
LoadBalancerName (string) --
The name of the load balancer.
DNSName (string) --
The DNS name of the load balancer.
CanonicalHostedZoneName (string) --
The DNS name of the load balancer.
For more information, see Configure a Custom Domain Name in the Classic Load Balancers Guide .
CanonicalHostedZoneNameID (string) --
The ID of the Amazon Route 53 hosted zone for the load balancer.
ListenerDescriptions (list) --
The listeners for the load balancer.
(dict) --
The policies enabled for a listener.
Listener (dict) --
The listener.
Protocol (string) --
The load balancer transport protocol to use for routing: HTTP, HTTPS, TCP, or SSL.
LoadBalancerPort (integer) --
The port on which the load balancer is listening. On EC2-VPC, you can specify any port from the range 1-65535. On EC2-Classic, you can specify any port from the following list: 25, 80, 443, 465, 587, 1024-65535.
InstanceProtocol (string) --
The protocol to use for routing traffic to instances: HTTP, HTTPS, TCP, or SSL.
If the front-end protocol is TCP or SSL, the back-end protocol must be TCP or SSL. If the front-end protocol is HTTP or HTTPS, the back-end protocol must be HTTP or HTTPS.
If there is another listener with the same InstancePort
whose InstanceProtocol
is secure, (HTTPS or SSL), the listener's InstanceProtocol
must also be secure.
If there is another listener with the same InstancePort
whose InstanceProtocol
is HTTP or TCP, the listener's InstanceProtocol
must be HTTP or TCP.
InstancePort (integer) --
The port on which the instance is listening.
SSLCertificateId (string) --
The Amazon Resource Name (ARN) of the server certificate.
PolicyNames (list) --
The policies. If there are no policies enabled, the list is empty.
Policies (dict) --
The policies defined for the load balancer.
AppCookieStickinessPolicies (list) --
The stickiness policies created using CreateAppCookieStickinessPolicy.
(dict) --
Information about a policy for application-controlled session stickiness.
PolicyName (string) --
The mnemonic name for the policy being created. The name must be unique within a set of policies for this load balancer.
CookieName (string) --
The name of the application cookie used for stickiness.
LBCookieStickinessPolicies (list) --
The stickiness policies created using CreateLBCookieStickinessPolicy.
(dict) --
Information about a policy for duration-based session stickiness.
PolicyName (string) --
The name of the policy. This name must be unique within the set of policies for this load balancer.
CookieExpirationPeriod (integer) --
The time period, in seconds, after which the cookie should be considered stale. If this parameter is not specified, the stickiness session lasts for the duration of the browser session.
OtherPolicies (list) --
The policies other than the stickiness policies.
BackendServerDescriptions (list) --
Information about your EC2 instances.
(dict) --
Information about the configuration of an EC2 instance.
InstancePort (integer) --
The port on which the EC2 instance is listening.
PolicyNames (list) --
The names of the policies enabled for the EC2 instance.
AvailabilityZones (list) --
The Availability Zones for the load balancer.
Subnets (list) --
The IDs of the subnets for the load balancer.
VPCId (string) --
The ID of the VPC for the load balancer.
Instances (list) --
The IDs of the instances for the load balancer.
(dict) --
The ID of an EC2 instance.
InstanceId (string) --
The instance ID.
HealthCheck (dict) --
Information about the health checks conducted on the load balancer.
Target (string) --
The instance being checked. The protocol is either TCP, HTTP, HTTPS, or SSL. The range of valid ports is one (1) through 65535.
TCP is the default, specified as a TCP: port pair, for example "TCP:5000". In this case, a health check simply attempts to open a TCP connection to the instance on the specified port. Failure to connect within the configured timeout is considered unhealthy.
SSL is also specified as SSL: port pair, for example, SSL:5000.
For HTTP/HTTPS, you must include a ping path in the string. HTTP is specified as a HTTP:port;/;PathToPing; grouping, for example "HTTP:80/weather/us/wa/seattle". In this case, a HTTP GET request is issued to the instance on the given port and path. Any answer other than "200 OK" within the timeout period is considered unhealthy.
The total length of the HTTP ping target must be 1024 16-bit Unicode characters or less.
Interval (integer) --
The approximate interval, in seconds, between health checks of an individual instance.
Timeout (integer) --
The amount of time, in seconds, during which no response means a failed health check.
This value must be less than the Interval
value.
UnhealthyThreshold (integer) --
The number of consecutive health check failures required before moving the instance to the Unhealthy
state.
HealthyThreshold (integer) --
The number of consecutive health checks successes required before moving the instance to the Healthy
state.
SourceSecurityGroup (dict) --
The security group for the load balancer, which you can use as part of your inbound rules for your registered instances. To only allow traffic from load balancers, add a security group rule that specifies this source security group as the inbound source.
OwnerAlias (string) --
The owner of the security group.
GroupName (string) --
The name of the security group.
SecurityGroups (list) --
The security groups for the load balancer. Valid only for load balancers in a VPC.
CreatedTime (datetime) --
The date and time the load balancer was created.
Scheme (string) --
The type of load balancer. Valid only for load balancers in a VPC.
If Scheme
is internet-facing
, the load balancer has a public DNS name that resolves to a public IP address.
If Scheme
is internal
, the load balancer has a public DNS name that resolves to a private IP address.
NextToken (string) --
A token to resume pagination.
The available waiters are:
ElasticLoadBalancing.Waiter.AnyInstanceInService
ElasticLoadBalancing.Waiter.InstanceDeregistered
ElasticLoadBalancing.Waiter.InstanceInService
ElasticLoadBalancing.Waiter.
AnyInstanceInService
¶waiter = client.get_waiter('any_instance_in_service')
wait
(**kwargs)¶Polls ElasticLoadBalancing.Client.describe_instance_health()
every 15 seconds until a successful state is reached. An error is returned after 40 failed checks.
See also: AWS API Documentation
Request Syntax
waiter.wait(
LoadBalancerName='string',
Instances=[
{
'InstanceId': 'string'
},
],
WaiterConfig={
'Delay': 123,
'MaxAttempts': 123
}
)
[REQUIRED]
The name of the load balancer.
The IDs of the instances.
The ID of an EC2 instance.
The instance ID.
A dictionary that provides parameters to control waiting behavior.
The amount of time in seconds to wait between attempts. Default: 15
The maximum number of attempts to be made. Default: 40
None
ElasticLoadBalancing.Waiter.
InstanceDeregistered
¶waiter = client.get_waiter('instance_deregistered')
wait
(**kwargs)¶Polls ElasticLoadBalancing.Client.describe_instance_health()
every 15 seconds until a successful state is reached. An error is returned after 40 failed checks.
See also: AWS API Documentation
Request Syntax
waiter.wait(
LoadBalancerName='string',
Instances=[
{
'InstanceId': 'string'
},
],
WaiterConfig={
'Delay': 123,
'MaxAttempts': 123
}
)
[REQUIRED]
The name of the load balancer.
The IDs of the instances.
The ID of an EC2 instance.
The instance ID.
A dictionary that provides parameters to control waiting behavior.
The amount of time in seconds to wait between attempts. Default: 15
The maximum number of attempts to be made. Default: 40
None
ElasticLoadBalancing.Waiter.
InstanceInService
¶waiter = client.get_waiter('instance_in_service')
wait
(**kwargs)¶Polls ElasticLoadBalancing.Client.describe_instance_health()
every 15 seconds until a successful state is reached. An error is returned after 40 failed checks.
See also: AWS API Documentation
Request Syntax
waiter.wait(
LoadBalancerName='string',
Instances=[
{
'InstanceId': 'string'
},
],
WaiterConfig={
'Delay': 123,
'MaxAttempts': 123
}
)
[REQUIRED]
The name of the load balancer.
The IDs of the instances.
The ID of an EC2 instance.
The instance ID.
A dictionary that provides parameters to control waiting behavior.
The amount of time in seconds to wait between attempts. Default: 15
The maximum number of attempts to be made. Default: 40
None