# WARNING ABOUT GENERATED CODE
#
# This file is generated. See the contributing guide for more information:
# https://github.com/aws/aws-sdk-ruby/blob/master/CONTRIBUTING.md
#
# WARNING ABOUT GENERATED CODE
require 'seahorse/client/plugins/content_length.rb'
require 'aws-sdk-core/plugins/credentials_configuration.rb'
require 'aws-sdk-core/plugins/logging.rb'
require 'aws-sdk-core/plugins/param_converter.rb'
require 'aws-sdk-core/plugins/param_validator.rb'
require 'aws-sdk-core/plugins/user_agent.rb'
require 'aws-sdk-core/plugins/helpful_socket_errors.rb'
require 'aws-sdk-core/plugins/retry_errors.rb'
require 'aws-sdk-core/plugins/global_configuration.rb'
require 'aws-sdk-core/plugins/regional_endpoint.rb'
require 'aws-sdk-core/plugins/response_paging.rb'
require 'aws-sdk-core/plugins/stub_responses.rb'
require 'aws-sdk-core/plugins/idempotency_token.rb'
require 'aws-sdk-core/plugins/jsonvalue_converter.rb'
require 'aws-sdk-core/plugins/signature_v4.rb'
require 'aws-sdk-core/plugins/protocols/rest_xml.rb'
require 'aws-sdk-route53/plugins/id_fix.rb'
Aws::Plugins::GlobalConfiguration.add_identifier(:route53)
module Aws::Route53
class Client < Seahorse::Client::Base
include Aws::ClientStubs
@identifier = :route53
set_api(ClientApi::API)
add_plugin(Seahorse::Client::Plugins::ContentLength)
add_plugin(Aws::Plugins::CredentialsConfiguration)
add_plugin(Aws::Plugins::Logging)
add_plugin(Aws::Plugins::ParamConverter)
add_plugin(Aws::Plugins::ParamValidator)
add_plugin(Aws::Plugins::UserAgent)
add_plugin(Aws::Plugins::HelpfulSocketErrors)
add_plugin(Aws::Plugins::RetryErrors)
add_plugin(Aws::Plugins::GlobalConfiguration)
add_plugin(Aws::Plugins::RegionalEndpoint)
add_plugin(Aws::Plugins::ResponsePaging)
add_plugin(Aws::Plugins::StubResponses)
add_plugin(Aws::Plugins::IdempotencyToken)
add_plugin(Aws::Plugins::JsonvalueConverter)
add_plugin(Aws::Plugins::SignatureV4)
add_plugin(Aws::Plugins::Protocols::RestXml)
add_plugin(Aws::Route53::Plugins::IdFix)
# @option options [required, Aws::CredentialProvider] :credentials
# Your AWS credentials. This can be an instance of any one of the
# following classes:
#
# * `Aws::Credentials` - Used for configuring static, non-refreshing
# credentials.
#
# * `Aws::InstanceProfileCredentials` - Used for loading credentials
# from an EC2 IMDS on an EC2 instance.
#
# * `Aws::SharedCredentials` - Used for loading credentials from a
# shared file, such as `~/.aws/config`.
#
# * `Aws::AssumeRoleCredentials` - Used when you need to assume a role.
#
# When `:credentials` are not configured directly, the following
# locations will be searched for credentials:
#
# * `Aws.config[:credentials]`
# * The `:access_key_id`, `:secret_access_key`, and `:session_token` options.
# * ENV['AWS_ACCESS_KEY_ID'], ENV['AWS_SECRET_ACCESS_KEY']
# * `~/.aws/credentials`
# * `~/.aws/config`
# * EC2 IMDS instance profile - When used by default, the timeouts are
# very aggressive. Construct and pass an instance of
# `Aws::InstanceProfileCredentails` to enable retries and extended
# timeouts.
#
# @option options [required, String] :region
# The AWS region to connect to. The configured `:region` is
# used to determine the service `:endpoint`. When not passed,
# a default `:region` is search for in the following locations:
#
# * `Aws.config[:region]`
# * `ENV['AWS_REGION']`
# * `ENV['AMAZON_REGION']`
# * `ENV['AWS_DEFAULT_REGION']`
# * `~/.aws/credentials`
# * `~/.aws/config`
#
# @option options [String] :access_key_id
#
# @option options [Boolean] :convert_params (true)
# When `true`, an attempt is made to coerce request parameters into
# the required types.
#
# @option options [String] :endpoint
# The client endpoint is normally constructed from the `:region`
# option. You should only configure an `:endpoint` when connecting
# to test endpoints. This should be avalid HTTP(S) URI.
#
# @option options [Aws::Log::Formatter] :log_formatter (Aws::Log::Formatter.default)
# The log formatter.
#
# @option options [Symbol] :log_level (:info)
# The log level to send messages to the `:logger` at.
#
# @option options [Logger] :logger
# The Logger instance to send log messages to. If this option
# is not set, logging will be disabled.
#
# @option options [String] :profile ("default")
# Used when loading credentials from the shared credentials file
# at HOME/.aws/credentials. When not specified, 'default' is used.
#
# @option options [Integer] :retry_limit (3)
# The maximum number of times to retry failed requests. Only
# ~ 500 level server errors and certain ~ 400 level client errors
# are retried. Generally, these are throttling errors, data
# checksum errors, networking errors, timeout errors and auth
# errors from expired credentials.
#
# @option options [String] :secret_access_key
#
# @option options [String] :session_token
#
# @option options [Boolean] :stub_responses (false)
# Causes the client to return stubbed responses. By default
# fake responses are generated and returned. You can specify
# the response data to return or errors to raise by calling
# {ClientStubs#stub_responses}. See {ClientStubs} for more information.
#
# ** Please note ** When response stubbing is enabled, no HTTP
# requests are made, and retries are disabled.
#
# @option options [Boolean] :validate_params (true)
# When `true`, request parameters are validated before
# sending the request.
#
def initialize(*args)
super
end
# @!group API Operations
# Associates an Amazon VPC with a private hosted zone.
#
# To perform the association, the VPC and the private hosted zone must
# already exist. You can't convert a public hosted zone into a private
# hosted zone.
#
# If you want to associate a VPC that was created by using one AWS
# account with a private hosted zone that was created by using a
# different account, the AWS account that created the private hosted
# zone must first submit a `CreateVPCAssociationAuthorization` request.
# Then the account that created the VPC must submit an
# `AssociateVPCWithHostedZone` request.
#
#
#
# @option params [required, String] :hosted_zone_id
# The ID of the private hosted zone that you want to associate an Amazon
# VPC with.
#
# Note that you can't associate a VPC with a hosted zone that doesn't
# have an existing VPC association.
#
# @option params [required, Types::VPC] :vpc
# A complex type that contains information about the VPC that you want
# to associate with a private hosted zone.
#
# @option params [String] :comment
# *Optional:* A comment about the association request.
#
# @return [Types::AssociateVPCWithHostedZoneResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::AssociateVPCWithHostedZoneResponse#change_info #change_info} => Types::ChangeInfo
#
#
# @example Example: To associate a VPC with a hosted zone
#
# # The following example associates the VPC with ID vpc-1a2b3c4d with the hosted zone with ID Z3M3LMPEXAMPLE.
#
# resp = client.associate_vpc_with_hosted_zone({
# comment: "",
# hosted_zone_id: "Z3M3LMPEXAMPLE",
# vpc: {
# vpc_id: "vpc-1a2b3c4d",
# vpc_region: "us-east-2",
# },
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "",
# id: "/change/C3HC6WDB2UANE2",
# status: "INSYNC",
# submitted_at: Time.parse("2017-01-31T01:36:41.958Z"),
# },
# }
#
# @example Request syntax with placeholder values
#
# resp = client.associate_vpc_with_hosted_zone({
# hosted_zone_id: "ResourceId", # required
# vpc: { # required
# vpc_region: "us-east-1", # accepts us-east-1, us-east-2, us-west-1, us-west-2, eu-west-1, eu-west-2, eu-central-1, ap-southeast-1, ap-southeast-2, ap-south-1, ap-northeast-1, ap-northeast-2, sa-east-1, ca-central-1, cn-north-1
# vpc_id: "VPCId",
# },
# comment: "AssociateVPCComment",
# })
#
# @example Response structure
#
# resp.change_info.id #=> String
# resp.change_info.status #=> String, one of "PENDING", "INSYNC"
# resp.change_info.submitted_at #=> Time
# resp.change_info.comment #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/AssociateVPCWithHostedZone AWS API Documentation
#
# @overload associate_vpc_with_hosted_zone(params = {})
# @param [Hash] params ({})
def associate_vpc_with_hosted_zone(params = {}, options = {})
req = build_request(:associate_vpc_with_hosted_zone, params)
req.send_request(options)
end
# Creates, changes, or deletes a resource record set, which contains
# authoritative DNS information for a specified domain name or subdomain
# name. For example, you can use `ChangeResourceRecordSets` to create a
# resource record set that routes traffic for test.example.com to a web
# server that has an IP address of 192.0.2.44.
#
# **Change Batches and Transactional Changes**
#
# The request body must include a document with a
# `ChangeResourceRecordSetsRequest` element. The request body contains a
# list of change items, known as a change batch. Change batches are
# considered transactional changes. When using the Amazon Route 53 API
# to change resource record sets, Amazon Route 53 either makes all or
# none of the changes in a change batch request. This ensures that
# Amazon Route 53 never partially implements the intended changes to the
# resource record sets in a hosted zone.
#
# For example, a change batch request that deletes the `CNAME` record
# for www.example.com and creates an alias resource record set for
# www.example.com. Amazon Route 53 deletes the first resource record set
# and creates the second resource record set in a single operation. If
# either the `DELETE` or the `CREATE` action fails, then both changes
# (plus any other changes in the batch) fail, and the original `CNAME`
# record continues to exist.
#
# Due to the nature of transactional changes, you can't delete the same
# resource record set more than once in a single change batch. If you
# attempt to delete the same change batch more than once, Amazon Route
# 53 returns an `InvalidChangeBatch` error.
#
# **Traffic Flow**
#
# To create resource record sets for complex routing configurations, use
# either the traffic flow visual editor in the Amazon Route 53 console
# or the API actions for traffic policies and traffic policy instances.
# Save the configuration as a traffic policy, then associate the traffic
# policy with one or more domain names (such as example.com) or
# subdomain names (such as www.example.com), in the same hosted zone or
# in multiple hosted zones. You can roll back the updates if the new
# configuration isn't performing as expected. For more information, see
# [Using Traffic Flow to Route DNS Traffic][1] in the *Amazon Route 53
# Developer Guide*.
#
# **Create, Delete, and Upsert**
#
# Use `ChangeResourceRecordsSetsRequest` to perform the following
# actions:
#
# * `CREATE`\: Creates a resource record set that has the specified
# values.
#
# * `DELETE`\: Deletes an existing resource record set that has the
# specified values.
#
# * `UPSERT`\: If a resource record set does not already exist, AWS
# creates it. If a resource set does exist, Amazon Route 53 updates it
# with the values in the request.
#
# **Syntaxes for Creating, Updating, and Deleting Resource Record Sets**
#
# The syntax for a request depends on the type of resource record set
# that you want to create, delete, or update, such as weighted, alias,
# or failover. The XML elements in your request must appear in the order
# listed in the syntax.
#
# For an example for each type of resource record set, see "Examples."
#
# Don't refer to the syntax in the "Parameter Syntax" section, which
# includes all of the elements for every kind of resource record set
# that you can create, delete, or update by using
# `ChangeResourceRecordSets`.
#
# **Change Propagation to Amazon Route 53 DNS Servers**
#
# When you submit a `ChangeResourceRecordSets` request, Amazon Route 53
# propagates your changes to all of the Amazon Route 53 authoritative
# DNS servers. While your changes are propagating, `GetChange` returns a
# status of `PENDING`. When propagation is complete, `GetChange` returns
# a status of `INSYNC`. Changes generally propagate to all Amazon Route
# 53 name servers within 60 seconds. For more information, see
# GetChange.
#
# **Limits on ChangeResourceRecordSets Requests**
#
# For information about the limits on a `ChangeResourceRecordSets`
# request, see [Limits][2] in the *Amazon Route 53 Developer Guide*.
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/traffic-flow.html
# [2]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/DNSLimitations.html
#
# @option params [required, String] :hosted_zone_id
# The ID of the hosted zone that contains the resource record sets that
# you want to change.
#
# @option params [required, Types::ChangeBatch] :change_batch
# A complex type that contains an optional comment and the `Changes`
# element.
#
# @return [Types::ChangeResourceRecordSetsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ChangeResourceRecordSetsResponse#change_info #change_info} => Types::ChangeInfo
#
#
# @example Example: To create a basic resource record set
#
# # The following example creates a resource record set that routes Internet traffic to a resource with an IP address of 192.0.2.44.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.44",
# },
# ],
# ttl: 60,
# type: "A",
# },
# },
# ],
# comment: "Web server for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE",
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "Web server for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create weighted resource record sets
#
# # The following example creates two weighted resource record sets. The resource with a Weight of 100 will get 1/3rd of traffic (100/100+200), and the other resource will get the rest of the traffic for example.com.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# health_check_id: "abcdef11-2222-3333-4444-555555fedcba",
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.44",
# },
# ],
# set_identifier: "Seattle data center",
# ttl: 60,
# type: "A",
# weight: 100,
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# health_check_id: "abcdef66-7777-8888-9999-000000fedcba",
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.45",
# },
# ],
# set_identifier: "Portland data center",
# ttl: 60,
# type: "A",
# weight: 200,
# },
# },
# ],
# comment: "Web servers for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE",
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "Web servers for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create an alias resource record set
#
# # The following example creates an alias resource record set that routes traffic to a CloudFront distribution.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "d123rk29d0stfj.cloudfront.net",
# evaluate_target_health: false,
# hosted_zone_id: "Z2FDTNDATAQYW2",
# },
# name: "example.com",
# type: "A",
# },
# },
# ],
# comment: "CloudFront distribution for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE", # Depends on the type of resource that you want to route traffic to
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "CloudFront distribution for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create weighted alias resource record sets
#
# # The following example creates two weighted alias resource record sets that route traffic to ELB load balancers. The resource with a Weight of 100 will get 1/3rd of traffic (100/100+200), and the other resource will get the rest of the traffic for example.com.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-123456789.us-east-2.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z3AADJGX6KTTL2",
# },
# name: "example.com",
# set_identifier: "Ohio region",
# type: "A",
# weight: 100,
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-987654321.us-west-2.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z1H1FL5HABSF5",
# },
# name: "example.com",
# set_identifier: "Oregon region",
# type: "A",
# weight: 200,
# },
# },
# ],
# comment: "ELB load balancers for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE", # Depends on the type of resource that you want to route traffic to
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "ELB load balancers for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create latency resource record sets
#
# # The following example creates two latency resource record sets that route traffic to EC2 instances. Traffic for example.com is routed either to the Ohio region or the Oregon region, depending on the latency between the user and those regions.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# health_check_id: "abcdef11-2222-3333-4444-555555fedcba",
# name: "example.com",
# region: "us-east-2",
# resource_records: [
# {
# value: "192.0.2.44",
# },
# ],
# set_identifier: "Ohio region",
# ttl: 60,
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# health_check_id: "abcdef66-7777-8888-9999-000000fedcba",
# name: "example.com",
# region: "us-west-2",
# resource_records: [
# {
# value: "192.0.2.45",
# },
# ],
# set_identifier: "Oregon region",
# ttl: 60,
# type: "A",
# },
# },
# ],
# comment: "EC2 instances for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE",
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "EC2 instances for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create latency alias resource record sets
#
# # The following example creates two latency alias resource record sets that route traffic for example.com to ELB load balancers. Requests are routed either to the Ohio region or the Oregon region, depending on the latency between the user and those regions.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-123456789.us-east-2.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z3AADJGX6KTTL2",
# },
# name: "example.com",
# region: "us-east-2",
# set_identifier: "Ohio region",
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-987654321.us-west-2.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z1H1FL5HABSF5",
# },
# name: "example.com",
# region: "us-west-2",
# set_identifier: "Oregon region",
# type: "A",
# },
# },
# ],
# comment: "ELB load balancers for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE", # Depends on the type of resource that you want to route traffic to
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "ELB load balancers for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create failover resource record sets
#
# # The following example creates primary and secondary failover resource record sets that route traffic to EC2 instances. Traffic is generally routed to the primary resource, in the Ohio region. If that resource is unavailable, traffic is routed to the secondary resource, in the Oregon region.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# failover: "PRIMARY",
# health_check_id: "abcdef11-2222-3333-4444-555555fedcba",
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.44",
# },
# ],
# set_identifier: "Ohio region",
# ttl: 60,
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# failover: "SECONDARY",
# health_check_id: "abcdef66-7777-8888-9999-000000fedcba",
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.45",
# },
# ],
# set_identifier: "Oregon region",
# ttl: 60,
# type: "A",
# },
# },
# ],
# comment: "Failover configuration for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE",
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "Failover configuration for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create failover alias resource record sets
#
# # The following example creates primary and secondary failover alias resource record sets that route traffic to ELB load balancers. Traffic is generally routed to the primary resource, in the Ohio region. If that resource is unavailable, traffic is routed to the secondary resource, in the Oregon region.
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-123456789.us-east-2.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z3AADJGX6KTTL2",
# },
# failover: "PRIMARY",
# name: "example.com",
# set_identifier: "Ohio region",
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-987654321.us-west-2.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z1H1FL5HABSF5",
# },
# failover: "SECONDARY",
# name: "example.com",
# set_identifier: "Oregon region",
# type: "A",
# },
# },
# ],
# comment: "Failover alias configuration for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE", # Depends on the type of resource that you want to route traffic to
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "Failover alias configuration for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create geolocation resource record sets
#
# # The following example creates four geolocation resource record sets that use IPv4 addresses to route traffic to resources such as web servers running on EC2 instances. Traffic is routed to one of four IP addresses, for North America (NA), for South America (SA), for Europe (EU), and for all other locations (*).
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# geo_location: {
# continent_code: "NA",
# },
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.44",
# },
# ],
# set_identifier: "North America",
# ttl: 60,
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# geo_location: {
# continent_code: "SA",
# },
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.45",
# },
# ],
# set_identifier: "South America",
# ttl: 60,
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# geo_location: {
# continent_code: "EU",
# },
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.46",
# },
# ],
# set_identifier: "Europe",
# ttl: 60,
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# geo_location: {
# country_code: "*",
# },
# name: "example.com",
# resource_records: [
# {
# value: "192.0.2.47",
# },
# ],
# set_identifier: "Other locations",
# ttl: 60,
# type: "A",
# },
# },
# ],
# comment: "Geolocation configuration for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE",
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "Geolocation configuration for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Example: To create geolocation alias resource record sets
#
# # The following example creates four geolocation alias resource record sets that route traffic to ELB load balancers. Traffic is routed to one of four IP addresses, for North America (NA), for South America (SA), for Europe (EU), and for all other locations (*).
#
# resp = client.change_resource_record_sets({
# change_batch: {
# changes: [
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-123456789.us-east-2.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z3AADJGX6KTTL2",
# },
# geo_location: {
# continent_code: "NA",
# },
# name: "example.com",
# set_identifier: "North America",
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-234567890.sa-east-1.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z2P70J7HTTTPLU",
# },
# geo_location: {
# continent_code: "SA",
# },
# name: "example.com",
# set_identifier: "South America",
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-234567890.eu-central-1.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z215JYRZR1TBD5",
# },
# geo_location: {
# continent_code: "EU",
# },
# name: "example.com",
# set_identifier: "Europe",
# type: "A",
# },
# },
# {
# action: "CREATE",
# resource_record_set: {
# alias_target: {
# dns_name: "example-com-234567890.ap-southeast-1.elb.amazonaws.com ",
# evaluate_target_health: true,
# hosted_zone_id: "Z1LMS91P8CMLE5",
# },
# geo_location: {
# country_code: "*",
# },
# name: "example.com",
# set_identifier: "Other locations",
# type: "A",
# },
# },
# ],
# comment: "Geolocation alias configuration for example.com",
# },
# hosted_zone_id: "Z3M3LMPEXAMPLE", # Depends on the type of resource that you want to route traffic to
# })
#
# resp.to_h outputs the following:
# {
# change_info: {
# comment: "Geolocation alias configuration for example.com",
# id: "/change/C2682N5HXP0BZ4",
# status: "PENDING",
# submitted_at: Time.parse("2017-02-10T01:36:41.958Z"),
# },
# }
#
# @example Request syntax with placeholder values
#
# resp = client.change_resource_record_sets({
# hosted_zone_id: "ResourceId", # required
# change_batch: { # required
# comment: "ResourceDescription",
# changes: [ # required
# {
# action: "CREATE", # required, accepts CREATE, DELETE, UPSERT
# resource_record_set: { # required
# name: "DNSName", # required
# type: "SOA", # required, accepts SOA, A, TXT, NS, CNAME, MX, NAPTR, PTR, SRV, SPF, AAAA, CAA
# set_identifier: "ResourceRecordSetIdentifier",
# weight: 1,
# region: "us-east-1", # accepts us-east-1, us-east-2, us-west-1, us-west-2, ca-central-1, eu-west-1, eu-west-2, eu-central-1, ap-southeast-1, ap-southeast-2, ap-northeast-1, ap-northeast-2, sa-east-1, cn-north-1, ap-south-1
# geo_location: {
# continent_code: "GeoLocationContinentCode",
# country_code: "GeoLocationCountryCode",
# subdivision_code: "GeoLocationSubdivisionCode",
# },
# failover: "PRIMARY", # accepts PRIMARY, SECONDARY
# multi_value_answer: false,
# ttl: 1,
# resource_records: [
# {
# value: "RData", # required
# },
# ],
# alias_target: {
# hosted_zone_id: "ResourceId", # required
# dns_name: "DNSName", # required
# evaluate_target_health: false, # required
# },
# health_check_id: "HealthCheckId",
# traffic_policy_instance_id: "TrafficPolicyInstanceId",
# },
# },
# ],
# },
# })
#
# @example Response structure
#
# resp.change_info.id #=> String
# resp.change_info.status #=> String, one of "PENDING", "INSYNC"
# resp.change_info.submitted_at #=> Time
# resp.change_info.comment #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ChangeResourceRecordSets AWS API Documentation
#
# @overload change_resource_record_sets(params = {})
# @param [Hash] params ({})
def change_resource_record_sets(params = {}, options = {})
req = build_request(:change_resource_record_sets, params)
req.send_request(options)
end
# Adds, edits, or deletes tags for a health check or a hosted zone.
#
# For information about using tags for cost allocation, see [Using Cost
# Allocation Tags][1] in the *AWS Billing and Cost Management User
# Guide*.
#
#
#
# [1]: http://docs.aws.amazon.com/awsaccountbilling/latest/aboutv2/cost-alloc-tags.html
#
# @option params [required, String] :resource_type
# The type of the resource.
#
# * The resource type for health checks is `healthcheck`.
#
# * The resource type for hosted zones is `hostedzone`.
#
# @option params [required, String] :resource_id
# The ID of the resource for which you want to add, change, or delete
# tags.
#
# @option params [Array] :add_tags
# A complex type that contains a list of the tags that you want to add
# to the specified health check or hosted zone and/or the tags that you
# want to edit `Value` for.
#
# You can add a maximum of 10 tags to a health check or a hosted zone.
#
# @option params [Array] :remove_tag_keys
# A complex type that contains a list of the tags that you want to
# delete from the specified health check or hosted zone. You can specify
# up to 10 keys.
#
# @return [Struct] Returns an empty {Seahorse::Client::Response response}.
#
#
# @example Example: To add or remove tags from a hosted zone or health check
#
# # The following example adds two tags and removes one tag from the hosted zone with ID Z3M3LMPEXAMPLE.
#
# resp = client.change_tags_for_resource({
# add_tags: [
# {
# key: "apex",
# value: "3874",
# },
# {
# key: "acme",
# value: "4938",
# },
# ],
# remove_tag_keys: [
# "Nadir",
# ],
# resource_id: "Z3M3LMPEXAMPLE",
# resource_type: "hostedzone", # Valid values are healthcheck and hostedzone.
# })
#
# resp.to_h outputs the following:
# {
# }
#
# @example Request syntax with placeholder values
#
# resp = client.change_tags_for_resource({
# resource_type: "healthcheck", # required, accepts healthcheck, hostedzone
# resource_id: "TagResourceId", # required
# add_tags: [
# {
# key: "TagKey",
# value: "TagValue",
# },
# ],
# remove_tag_keys: ["TagKey"],
# })
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ChangeTagsForResource AWS API Documentation
#
# @overload change_tags_for_resource(params = {})
# @param [Hash] params ({})
def change_tags_for_resource(params = {}, options = {})
req = build_request(:change_tags_for_resource, params)
req.send_request(options)
end
# Creates a new health check.
#
# For information about adding health checks to resource record sets,
# see ResourceRecordSet$HealthCheckId in ChangeResourceRecordSets.
#
# **ELB Load Balancers**
#
# If you're registering EC2 instances with an Elastic Load Balancing
# (ELB) load balancer, do not create Amazon Route 53 health checks for
# the EC2 instances. When you register an EC2 instance with a load
# balancer, you configure settings for an ELB health check, which
# performs a similar function to an Amazon Route 53 health check.
#
# **Private Hosted Zones**
#
# You can associate health checks with failover resource record sets in
# a private hosted zone. Note the following:
#
# * Amazon Route 53 health checkers are outside the VPC. To check the
# health of an endpoint within a VPC by IP address, you must assign a
# public IP address to the instance in the VPC.
#
# * You can configure a health checker to check the health of an
# external resource that the instance relies on, such as a database
# server.
#
# * You can create a CloudWatch metric, associate an alarm with the
# metric, and then create a health check that is based on the state of
# the alarm. For example, you might create a CloudWatch metric that
# checks the status of the Amazon EC2 `StatusCheckFailed` metric, add
# an alarm to the metric, and then create a health check that is based
# on the state of the alarm. For information about creating CloudWatch
# metrics and alarms by using the CloudWatch console, see the [Amazon
# CloudWatch User Guide][1].
#
#
#
# [1]: http://docs.aws.amazon.com/AmazonCloudWatch/latest/DeveloperGuide/WhatIsCloudWatch.html
#
# @option params [required, String] :caller_reference
# A unique string that identifies the request and that allows you to
# retry a failed `CreateHealthCheck` request without the risk of
# creating two identical health checks:
#
# * If you send a `CreateHealthCheck` request with the same
# `CallerReference` and settings as a previous request, and if the
# health check doesn't exist, Amazon Route 53 creates the health
# check. If the health check does exist, Amazon Route 53 returns the
# settings for the existing health check.
#
# * If you send a `CreateHealthCheck` request with the same
# `CallerReference` as a deleted health check, regardless of the
# settings, Amazon Route 53 returns a `HealthCheckAlreadyExists`
# error.
#
# * If you send a `CreateHealthCheck` request with the same
# `CallerReference` as an existing health check but with different
# settings, Amazon Route 53 returns a `HealthCheckAlreadyExists`
# error.
#
# * If you send a `CreateHealthCheck` request with a unique
# `CallerReference` but settings identical to an existing health
# check, Amazon Route 53 creates the health check.
#
# @option params [required, Types::HealthCheckConfig] :health_check_config
# A complex type that contains the response to a `CreateHealthCheck`
# request.
#
# @return [Types::CreateHealthCheckResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::CreateHealthCheckResponse#health_check #health_check} => Types::HealthCheck
# * {Types::CreateHealthCheckResponse#location #location} => String
#
# @example Request syntax with placeholder values
#
# resp = client.create_health_check({
# caller_reference: "HealthCheckNonce", # required
# health_check_config: { # required
# ip_address: "IPAddress",
# port: 1,
# type: "HTTP", # required, accepts HTTP, HTTPS, HTTP_STR_MATCH, HTTPS_STR_MATCH, TCP, CALCULATED, CLOUDWATCH_METRIC
# resource_path: "ResourcePath",
# fully_qualified_domain_name: "FullyQualifiedDomainName",
# search_string: "SearchString",
# request_interval: 1,
# failure_threshold: 1,
# measure_latency: false,
# inverted: false,
# health_threshold: 1,
# child_health_checks: ["HealthCheckId"],
# enable_sni: false,
# regions: ["us-east-1"], # accepts us-east-1, us-west-1, us-west-2, eu-west-1, ap-southeast-1, ap-southeast-2, ap-northeast-1, sa-east-1
# alarm_identifier: {
# region: "us-east-1", # required, accepts us-east-1, us-east-2, us-west-1, us-west-2, ca-central-1, eu-central-1, eu-west-1, eu-west-2, ap-south-1, ap-southeast-1, ap-southeast-2, ap-northeast-1, ap-northeast-2, sa-east-1
# name: "AlarmName", # required
# },
# insufficient_data_health_status: "Healthy", # accepts Healthy, Unhealthy, LastKnownStatus
# },
# })
#
# @example Response structure
#
# resp.health_check.id #=> String
# resp.health_check.caller_reference #=> String
# resp.health_check.health_check_config.ip_address #=> String
# resp.health_check.health_check_config.port #=> Integer
# resp.health_check.health_check_config.type #=> String, one of "HTTP", "HTTPS", "HTTP_STR_MATCH", "HTTPS_STR_MATCH", "TCP", "CALCULATED", "CLOUDWATCH_METRIC"
# resp.health_check.health_check_config.resource_path #=> String
# resp.health_check.health_check_config.fully_qualified_domain_name #=> String
# resp.health_check.health_check_config.search_string #=> String
# resp.health_check.health_check_config.request_interval #=> Integer
# resp.health_check.health_check_config.failure_threshold #=> Integer
# resp.health_check.health_check_config.measure_latency #=> Boolean
# resp.health_check.health_check_config.inverted #=> Boolean
# resp.health_check.health_check_config.health_threshold #=> Integer
# resp.health_check.health_check_config.child_health_checks #=> Array
# resp.health_check.health_check_config.child_health_checks[0] #=> String
# resp.health_check.health_check_config.enable_sni #=> Boolean
# resp.health_check.health_check_config.regions #=> Array
# resp.health_check.health_check_config.regions[0] #=> String, one of "us-east-1", "us-west-1", "us-west-2", "eu-west-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "sa-east-1"
# resp.health_check.health_check_config.alarm_identifier.region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "ca-central-1", "eu-central-1", "eu-west-1", "eu-west-2", "ap-south-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "ap-northeast-2", "sa-east-1"
# resp.health_check.health_check_config.alarm_identifier.name #=> String
# resp.health_check.health_check_config.insufficient_data_health_status #=> String, one of "Healthy", "Unhealthy", "LastKnownStatus"
# resp.health_check.health_check_version #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.evaluation_periods #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.threshold #=> Float
# resp.health_check.cloud_watch_alarm_configuration.comparison_operator #=> String, one of "GreaterThanOrEqualToThreshold", "GreaterThanThreshold", "LessThanThreshold", "LessThanOrEqualToThreshold"
# resp.health_check.cloud_watch_alarm_configuration.period #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.metric_name #=> String
# resp.health_check.cloud_watch_alarm_configuration.namespace #=> String
# resp.health_check.cloud_watch_alarm_configuration.statistic #=> String, one of "Average", "Sum", "SampleCount", "Maximum", "Minimum"
# resp.health_check.cloud_watch_alarm_configuration.dimensions #=> Array
# resp.health_check.cloud_watch_alarm_configuration.dimensions[0].name #=> String
# resp.health_check.cloud_watch_alarm_configuration.dimensions[0].value #=> String
# resp.location #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/CreateHealthCheck AWS API Documentation
#
# @overload create_health_check(params = {})
# @param [Hash] params ({})
def create_health_check(params = {}, options = {})
req = build_request(:create_health_check, params)
req.send_request(options)
end
# Creates a new public hosted zone, which you use to specify how the
# Domain Name System (DNS) routes traffic on the Internet for a domain,
# such as example.com, and its subdomains.
#
# You can't convert a public hosted zones to a private hosted zone or
# vice versa. Instead, you must create a new hosted zone with the same
# name and create new resource record sets.
#
# For more information about charges for hosted zones, see [Amazon Route
# 53 Pricing][1].
#
# Note the following:
#
# * You can't create a hosted zone for a top-level domain (TLD).
#
# * Amazon Route 53 automatically creates a default SOA record and four
# NS records for the zone. For more information about SOA and NS
# records, see [NS and SOA Records that Amazon Route 53 Creates for a
# Hosted Zone][2] in the *Amazon Route 53 Developer Guide*.
#
# If you want to use the same name servers for multiple hosted zones,
# you can optionally associate a reusable delegation set with the
# hosted zone. See the `DelegationSetId` element.
#
# * If your domain is registered with a registrar other than Amazon
# Route 53, you must update the name servers with your registrar to
# make Amazon Route 53 your DNS service. For more information, see
# [Configuring Amazon Route 53 as your DNS Service][3] in the *Amazon
# Route 53 Developer Guide*.
#
# When you submit a `CreateHostedZone` request, the initial status of
# the hosted zone is `PENDING`. This means that the NS and SOA records
# are not yet available on all Amazon Route 53 DNS servers. When the NS
# and SOA records are available, the status of the zone changes to
# `INSYNC`.
#
#
#
# [1]: http://aws.amazon.com/route53/pricing/
# [2]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/SOA-NSrecords.html
# [3]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/creating-migrating.html
#
# @option params [required, String] :name
# The name of the domain. For resource record types that include a
# domain name, specify a fully qualified domain name, for example,
# *www.example.com*. The trailing dot is optional; Amazon Route 53
# assumes that the domain name is fully qualified. This means that
# Amazon Route 53 treats *www.example.com* (without a trailing dot) and
# *www.example.com.* (with a trailing dot) as identical.
#
# If you're creating a public hosted zone, this is the name you have
# registered with your DNS registrar. If your domain name is registered
# with a registrar other than Amazon Route 53, change the name servers
# for your domain to the set of `NameServers` that `CreateHostedZone`
# returns in `DelegationSet`.
#
# @option params [Types::VPC] :vpc
# (Private hosted zones only) A complex type that contains information
# about the Amazon VPC that you're associating with this hosted zone.
#
# You can specify only one Amazon VPC when you create a private hosted
# zone. To associate additional Amazon VPCs with the hosted zone, use
# AssociateVPCWithHostedZone after you create a hosted zone.
#
# @option params [required, String] :caller_reference
# A unique string that identifies the request and that allows failed
# `CreateHostedZone` requests to be retried without the risk of
# executing the operation twice. You must use a unique `CallerReference`
# string every time you submit a `CreateHostedZone` request.
# `CallerReference` can be any unique string, for example, a date/time
# stamp.
#
# @option params [Types::HostedZoneConfig] :hosted_zone_config
# (Optional) A complex type that contains the following optional values:
#
# * For public and private hosted zones, an optional comment
#
# * For private hosted zones, an optional `PrivateZone` element
#
# If you don't specify a comment or the `PrivateZone` element, omit
# `HostedZoneConfig` and the other elements.
#
# @option params [String] :delegation_set_id
# If you want to associate a reusable delegation set with this hosted
# zone, the ID that Amazon Route 53 assigned to the reusable delegation
# set when you created it. For more information about reusable
# delegation sets, see CreateReusableDelegationSet.
#
# @return [Types::CreateHostedZoneResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::CreateHostedZoneResponse#hosted_zone #hosted_zone} => Types::HostedZone
# * {Types::CreateHostedZoneResponse#change_info #change_info} => Types::ChangeInfo
# * {Types::CreateHostedZoneResponse#delegation_set #delegation_set} => Types::DelegationSet
# * {Types::CreateHostedZoneResponse#vpc #vpc} => Types::VPC
# * {Types::CreateHostedZoneResponse#location #location} => String
#
# @example Request syntax with placeholder values
#
# resp = client.create_hosted_zone({
# name: "DNSName", # required
# vpc: {
# vpc_region: "us-east-1", # accepts us-east-1, us-east-2, us-west-1, us-west-2, eu-west-1, eu-west-2, eu-central-1, ap-southeast-1, ap-southeast-2, ap-south-1, ap-northeast-1, ap-northeast-2, sa-east-1, ca-central-1, cn-north-1
# vpc_id: "VPCId",
# },
# caller_reference: "Nonce", # required
# hosted_zone_config: {
# comment: "ResourceDescription",
# private_zone: false,
# },
# delegation_set_id: "ResourceId",
# })
#
# @example Response structure
#
# resp.hosted_zone.id #=> String
# resp.hosted_zone.name #=> String
# resp.hosted_zone.caller_reference #=> String
# resp.hosted_zone.config.comment #=> String
# resp.hosted_zone.config.private_zone #=> Boolean
# resp.hosted_zone.resource_record_set_count #=> Integer
# resp.change_info.id #=> String
# resp.change_info.status #=> String, one of "PENDING", "INSYNC"
# resp.change_info.submitted_at #=> Time
# resp.change_info.comment #=> String
# resp.delegation_set.id #=> String
# resp.delegation_set.caller_reference #=> String
# resp.delegation_set.name_servers #=> Array
# resp.delegation_set.name_servers[0] #=> String
# resp.vpc.vpc_region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "eu-west-1", "eu-west-2", "eu-central-1", "ap-southeast-1", "ap-southeast-2", "ap-south-1", "ap-northeast-1", "ap-northeast-2", "sa-east-1", "ca-central-1", "cn-north-1"
# resp.vpc.vpc_id #=> String
# resp.location #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/CreateHostedZone AWS API Documentation
#
# @overload create_hosted_zone(params = {})
# @param [Hash] params ({})
def create_hosted_zone(params = {}, options = {})
req = build_request(:create_hosted_zone, params)
req.send_request(options)
end
# Creates a delegation set (a group of four name servers) that can be
# reused by multiple hosted zones. If a hosted zoned ID is specified,
# `CreateReusableDelegationSet` marks the delegation set associated with
# that zone as reusable
#
# A reusable delegation set can't be associated with a private hosted
# zone.
#
#
#
# For information on how to use a reusable delegation set to configure
# white label name servers, see [Configuring White Label Name
# Servers][1].
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/white-label-name-servers.html
#
# @option params [required, String] :caller_reference
# A unique string that identifies the request, and that allows you to
# retry failed `CreateReusableDelegationSet` requests without the risk
# of executing the operation twice. You must use a unique
# `CallerReference` string every time you submit a
# `CreateReusableDelegationSet` request. `CallerReference` can be any
# unique string, for example a date/time stamp.
#
# @option params [String] :hosted_zone_id
# If you want to mark the delegation set for an existing hosted zone as
# reusable, the ID for that hosted zone.
#
# @return [Types::CreateReusableDelegationSetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::CreateReusableDelegationSetResponse#delegation_set #delegation_set} => Types::DelegationSet
# * {Types::CreateReusableDelegationSetResponse#location #location} => String
#
# @example Request syntax with placeholder values
#
# resp = client.create_reusable_delegation_set({
# caller_reference: "Nonce", # required
# hosted_zone_id: "ResourceId",
# })
#
# @example Response structure
#
# resp.delegation_set.id #=> String
# resp.delegation_set.caller_reference #=> String
# resp.delegation_set.name_servers #=> Array
# resp.delegation_set.name_servers[0] #=> String
# resp.location #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/CreateReusableDelegationSet AWS API Documentation
#
# @overload create_reusable_delegation_set(params = {})
# @param [Hash] params ({})
def create_reusable_delegation_set(params = {}, options = {})
req = build_request(:create_reusable_delegation_set, params)
req.send_request(options)
end
# Creates a traffic policy, which you use to create multiple DNS
# resource record sets for one domain name (such as example.com) or one
# subdomain name (such as www.example.com).
#
# @option params [required, String] :name
# The name of the traffic policy.
#
# @option params [required, String] :document
# The definition of this traffic policy in JSON format. For more
# information, see [Traffic Policy Document Format][1].
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/APIReference/api-policies-traffic-policy-document-format.html
#
# @option params [String] :comment
# (Optional) Any comments that you want to include about the traffic
# policy.
#
# @return [Types::CreateTrafficPolicyResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::CreateTrafficPolicyResponse#traffic_policy #traffic_policy} => Types::TrafficPolicy
# * {Types::CreateTrafficPolicyResponse#location #location} => String
#
# @example Request syntax with placeholder values
#
# resp = client.create_traffic_policy({
# name: "TrafficPolicyName", # required
# document: "TrafficPolicyDocument", # required
# comment: "TrafficPolicyComment",
# })
#
# @example Response structure
#
# resp.traffic_policy.id #=> String
# resp.traffic_policy.version #=> Integer
# resp.traffic_policy.name #=> String
# resp.traffic_policy.type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.traffic_policy.document #=> String
# resp.traffic_policy.comment #=> String
# resp.location #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/CreateTrafficPolicy AWS API Documentation
#
# @overload create_traffic_policy(params = {})
# @param [Hash] params ({})
def create_traffic_policy(params = {}, options = {})
req = build_request(:create_traffic_policy, params)
req.send_request(options)
end
# Creates resource record sets in a specified hosted zone based on the
# settings in a specified traffic policy version. In addition,
# `CreateTrafficPolicyInstance` associates the resource record sets with
# a specified domain name (such as example.com) or subdomain name (such
# as www.example.com). Amazon Route 53 responds to DNS queries for the
# domain or subdomain name by using the resource record sets that
# `CreateTrafficPolicyInstance` created.
#
# @option params [required, String] :hosted_zone_id
# The ID of the hosted zone in which you want Amazon Route 53 to create
# resource record sets by using the configuration in a traffic policy.
#
# @option params [required, String] :name
# The domain name (such as example.com) or subdomain name (such as
# www.example.com) for which Amazon Route 53 responds to DNS queries by
# using the resource record sets that Amazon Route 53 creates for this
# traffic policy instance.
#
# @option params [required, Integer] :ttl
# (Optional) The TTL that you want Amazon Route 53 to assign to all of
# the resource record sets that it creates in the specified hosted zone.
#
# @option params [required, String] :traffic_policy_id
# The ID of the traffic policy that you want to use to create resource
# record sets in the specified hosted zone.
#
# @option params [required, Integer] :traffic_policy_version
# The version of the traffic policy that you want to use to create
# resource record sets in the specified hosted zone.
#
# @return [Types::CreateTrafficPolicyInstanceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::CreateTrafficPolicyInstanceResponse#traffic_policy_instance #traffic_policy_instance} => Types::TrafficPolicyInstance
# * {Types::CreateTrafficPolicyInstanceResponse#location #location} => String
#
# @example Request syntax with placeholder values
#
# resp = client.create_traffic_policy_instance({
# hosted_zone_id: "ResourceId", # required
# name: "DNSName", # required
# ttl: 1, # required
# traffic_policy_id: "TrafficPolicyId", # required
# traffic_policy_version: 1, # required
# })
#
# @example Response structure
#
# resp.traffic_policy_instance.id #=> String
# resp.traffic_policy_instance.hosted_zone_id #=> String
# resp.traffic_policy_instance.name #=> String
# resp.traffic_policy_instance.ttl #=> Integer
# resp.traffic_policy_instance.state #=> String
# resp.traffic_policy_instance.message #=> String
# resp.traffic_policy_instance.traffic_policy_id #=> String
# resp.traffic_policy_instance.traffic_policy_version #=> Integer
# resp.traffic_policy_instance.traffic_policy_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.location #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/CreateTrafficPolicyInstance AWS API Documentation
#
# @overload create_traffic_policy_instance(params = {})
# @param [Hash] params ({})
def create_traffic_policy_instance(params = {}, options = {})
req = build_request(:create_traffic_policy_instance, params)
req.send_request(options)
end
# Creates a new version of an existing traffic policy. When you create a
# new version of a traffic policy, you specify the ID of the traffic
# policy that you want to update and a JSON-formatted document that
# describes the new version. You use traffic policies to create multiple
# DNS resource record sets for one domain name (such as example.com) or
# one subdomain name (such as www.example.com). You can create a maximum
# of 1000 versions of a traffic policy. If you reach the limit and need
# to create another version, you'll need to start a new traffic policy.
#
# @option params [required, String] :id
# The ID of the traffic policy for which you want to create a new
# version.
#
# @option params [required, String] :document
# The definition of this version of the traffic policy, in JSON format.
# You specified the JSON in the `CreateTrafficPolicyVersion` request.
# For more information about the JSON format, see CreateTrafficPolicy.
#
# @option params [String] :comment
# The comment that you specified in the `CreateTrafficPolicyVersion`
# request, if any.
#
# @return [Types::CreateTrafficPolicyVersionResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::CreateTrafficPolicyVersionResponse#traffic_policy #traffic_policy} => Types::TrafficPolicy
# * {Types::CreateTrafficPolicyVersionResponse#location #location} => String
#
# @example Request syntax with placeholder values
#
# resp = client.create_traffic_policy_version({
# id: "TrafficPolicyId", # required
# document: "TrafficPolicyDocument", # required
# comment: "TrafficPolicyComment",
# })
#
# @example Response structure
#
# resp.traffic_policy.id #=> String
# resp.traffic_policy.version #=> Integer
# resp.traffic_policy.name #=> String
# resp.traffic_policy.type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.traffic_policy.document #=> String
# resp.traffic_policy.comment #=> String
# resp.location #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/CreateTrafficPolicyVersion AWS API Documentation
#
# @overload create_traffic_policy_version(params = {})
# @param [Hash] params ({})
def create_traffic_policy_version(params = {}, options = {})
req = build_request(:create_traffic_policy_version, params)
req.send_request(options)
end
# Authorizes the AWS account that created a specified VPC to submit an
# `AssociateVPCWithHostedZone` request to associate the VPC with a
# specified hosted zone that was created by a different account. To
# submit a `CreateVPCAssociationAuthorization` request, you must use the
# account that created the hosted zone. After you authorize the
# association, use the account that created the VPC to submit an
# `AssociateVPCWithHostedZone` request.
#
# If you want to associate multiple VPCs that you created by using one
# account with a hosted zone that you created by using a different
# account, you must submit one authorization request for each VPC.
#
#
#
# @option params [required, String] :hosted_zone_id
# The ID of the private hosted zone that you want to authorize
# associating a VPC with.
#
# @option params [required, Types::VPC] :vpc
# A complex type that contains the VPC ID and region for the VPC that
# you want to authorize associating with your hosted zone.
#
# @return [Types::CreateVPCAssociationAuthorizationResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::CreateVPCAssociationAuthorizationResponse#hosted_zone_id #hosted_zone_id} => String
# * {Types::CreateVPCAssociationAuthorizationResponse#vpc #vpc} => Types::VPC
#
# @example Request syntax with placeholder values
#
# resp = client.create_vpc_association_authorization({
# hosted_zone_id: "ResourceId", # required
# vpc: { # required
# vpc_region: "us-east-1", # accepts us-east-1, us-east-2, us-west-1, us-west-2, eu-west-1, eu-west-2, eu-central-1, ap-southeast-1, ap-southeast-2, ap-south-1, ap-northeast-1, ap-northeast-2, sa-east-1, ca-central-1, cn-north-1
# vpc_id: "VPCId",
# },
# })
#
# @example Response structure
#
# resp.hosted_zone_id #=> String
# resp.vpc.vpc_region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "eu-west-1", "eu-west-2", "eu-central-1", "ap-southeast-1", "ap-southeast-2", "ap-south-1", "ap-northeast-1", "ap-northeast-2", "sa-east-1", "ca-central-1", "cn-north-1"
# resp.vpc.vpc_id #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/CreateVPCAssociationAuthorization AWS API Documentation
#
# @overload create_vpc_association_authorization(params = {})
# @param [Hash] params ({})
def create_vpc_association_authorization(params = {}, options = {})
req = build_request(:create_vpc_association_authorization, params)
req.send_request(options)
end
# Deletes a health check.
#
# Amazon Route 53 does not prevent you from deleting a health check even
# if the health check is associated with one or more resource record
# sets. If you delete a health check and you don't update the
# associated resource record sets, the future status of the health check
# can't be predicted and may change. This will affect the routing of
# DNS queries for your DNS failover configuration. For more information,
# see [Replacing and Deleting Health Checks][1] in the *Amazon Route 53
# Developer Guide*.
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/health-checks-creating-deleting.html#health-checks-deleting.html
#
# @option params [required, String] :health_check_id
# The ID of the health check that you want to delete.
#
# @return [Struct] Returns an empty {Seahorse::Client::Response response}.
#
# @example Request syntax with placeholder values
#
# resp = client.delete_health_check({
# health_check_id: "HealthCheckId", # required
# })
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/DeleteHealthCheck AWS API Documentation
#
# @overload delete_health_check(params = {})
# @param [Hash] params ({})
def delete_health_check(params = {}, options = {})
req = build_request(:delete_health_check, params)
req.send_request(options)
end
# Deletes a hosted zone.
#
# If the name servers for the hosted zone are associated with a domain
# and if you want to make the domain unavailable on the Internet, we
# recommend that you delete the name servers from the domain to prevent
# future DNS queries from possibly being misrouted. If the domain is
# registered with Amazon Route 53, see `UpdateDomainNameservers`. If the
# domain is registered with another registrar, use the method provided
# by the registrar to delete name servers for the domain.
#
# Some domain registries don't allow you to remove all of the name
# servers for a domain. If the registry for your domain requires one or
# more name servers, we recommend that you delete the hosted zone only
# if you transfer DNS service to another service provider, and you
# replace the name servers for the domain with name servers from the new
# provider.
#
# You can delete a hosted zone only if it contains only the default SOA
# record and NS resource record sets. If the hosted zone contains other
# resource record sets, you must delete them before you can delete the
# hosted zone. If you try to delete a hosted zone that contains other
# resource record sets, the request fails, and Amazon Route 53 returns a
# `HostedZoneNotEmpty` error. For information about deleting records
# from your hosted zone, see ChangeResourceRecordSets.
#
# To verify that the hosted zone has been deleted, do one of the
# following:
#
# * Use the `GetHostedZone` action to request information about the
# hosted zone.
#
# * Use the `ListHostedZones` action to get a list of the hosted zones
# associated with the current AWS account.
#
# @option params [required, String] :id
# The ID of the hosted zone you want to delete.
#
# @return [Types::DeleteHostedZoneResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::DeleteHostedZoneResponse#change_info #change_info} => Types::ChangeInfo
#
# @example Request syntax with placeholder values
#
# resp = client.delete_hosted_zone({
# id: "ResourceId", # required
# })
#
# @example Response structure
#
# resp.change_info.id #=> String
# resp.change_info.status #=> String, one of "PENDING", "INSYNC"
# resp.change_info.submitted_at #=> Time
# resp.change_info.comment #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/DeleteHostedZone AWS API Documentation
#
# @overload delete_hosted_zone(params = {})
# @param [Hash] params ({})
def delete_hosted_zone(params = {}, options = {})
req = build_request(:delete_hosted_zone, params)
req.send_request(options)
end
# Deletes a reusable delegation set.
#
# You can delete a reusable delegation set only if it isn't associated
# with any hosted zones.
#
# To verify that the reusable delegation set is not associated with any
# hosted zones, submit a GetReusableDelegationSet request and specify
# the ID of the reusable delegation set that you want to delete.
#
# @option params [required, String] :id
# The ID of the reusable delegation set that you want to delete.
#
# @return [Struct] Returns an empty {Seahorse::Client::Response response}.
#
# @example Request syntax with placeholder values
#
# resp = client.delete_reusable_delegation_set({
# id: "ResourceId", # required
# })
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/DeleteReusableDelegationSet AWS API Documentation
#
# @overload delete_reusable_delegation_set(params = {})
# @param [Hash] params ({})
def delete_reusable_delegation_set(params = {}, options = {})
req = build_request(:delete_reusable_delegation_set, params)
req.send_request(options)
end
# Deletes a traffic policy.
#
# @option params [required, String] :id
# The ID of the traffic policy that you want to delete.
#
# @option params [required, Integer] :version
# The version number of the traffic policy that you want to delete.
#
# @return [Struct] Returns an empty {Seahorse::Client::Response response}.
#
# @example Request syntax with placeholder values
#
# resp = client.delete_traffic_policy({
# id: "TrafficPolicyId", # required
# version: 1, # required
# })
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/DeleteTrafficPolicy AWS API Documentation
#
# @overload delete_traffic_policy(params = {})
# @param [Hash] params ({})
def delete_traffic_policy(params = {}, options = {})
req = build_request(:delete_traffic_policy, params)
req.send_request(options)
end
# Deletes a traffic policy instance and all of the resource record sets
# that Amazon Route 53 created when you created the instance.
#
# In the Amazon Route 53 console, traffic policy instances are known as
# policy records.
#
#
#
# @option params [required, String] :id
# The ID of the traffic policy instance that you want to delete.
#
# When you delete a traffic policy instance, Amazon Route 53 also
# deletes all of the resource record sets that were created when you
# created the traffic policy instance.
#
# @return [Struct] Returns an empty {Seahorse::Client::Response response}.
#
# @example Request syntax with placeholder values
#
# resp = client.delete_traffic_policy_instance({
# id: "TrafficPolicyInstanceId", # required
# })
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/DeleteTrafficPolicyInstance AWS API Documentation
#
# @overload delete_traffic_policy_instance(params = {})
# @param [Hash] params ({})
def delete_traffic_policy_instance(params = {}, options = {})
req = build_request(:delete_traffic_policy_instance, params)
req.send_request(options)
end
# Removes authorization to submit an `AssociateVPCWithHostedZone`
# request to associate a specified VPC with a hosted zone that was
# created by a different account. You must use the account that created
# the hosted zone to submit a `DeleteVPCAssociationAuthorization`
# request.
#
# Sending this request only prevents the AWS account that created the
# VPC from associating the VPC with the Amazon Route 53 hosted zone in
# the future. If the VPC is already associated with the hosted zone,
# `DeleteVPCAssociationAuthorization` won't disassociate the VPC from
# the hosted zone. If you want to delete an existing association, use
# `DisassociateVPCFromHostedZone`.
#
# @option params [required, String] :hosted_zone_id
# When removing authorization to associate a VPC that was created by one
# AWS account with a hosted zone that was created with a different AWS
# account, the ID of the hosted zone.
#
# @option params [required, Types::VPC] :vpc
# When removing authorization to associate a VPC that was created by one
# AWS account with a hosted zone that was created with a different AWS
# account, a complex type that includes the ID and region of the VPC.
#
# @return [Struct] Returns an empty {Seahorse::Client::Response response}.
#
# @example Request syntax with placeholder values
#
# resp = client.delete_vpc_association_authorization({
# hosted_zone_id: "ResourceId", # required
# vpc: { # required
# vpc_region: "us-east-1", # accepts us-east-1, us-east-2, us-west-1, us-west-2, eu-west-1, eu-west-2, eu-central-1, ap-southeast-1, ap-southeast-2, ap-south-1, ap-northeast-1, ap-northeast-2, sa-east-1, ca-central-1, cn-north-1
# vpc_id: "VPCId",
# },
# })
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/DeleteVPCAssociationAuthorization AWS API Documentation
#
# @overload delete_vpc_association_authorization(params = {})
# @param [Hash] params ({})
def delete_vpc_association_authorization(params = {}, options = {})
req = build_request(:delete_vpc_association_authorization, params)
req.send_request(options)
end
# Disassociates a VPC from a Amazon Route 53 private hosted zone.
#
# You can't disassociate the last VPC from a private hosted zone.
#
#
#
# You can't disassociate a VPC from a private hosted zone when only one
# VPC is associated with the hosted zone. You also can't convert a
# private hosted zone into a public hosted zone.
#
# @option params [required, String] :hosted_zone_id
# The ID of the private hosted zone that you want to disassociate a VPC
# from.
#
# @option params [required, Types::VPC] :vpc
# A complex type that contains information about the VPC that you're
# disassociating from the specified hosted zone.
#
# @option params [String] :comment
# *Optional:* A comment about the disassociation request.
#
# @return [Types::DisassociateVPCFromHostedZoneResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::DisassociateVPCFromHostedZoneResponse#change_info #change_info} => Types::ChangeInfo
#
# @example Request syntax with placeholder values
#
# resp = client.disassociate_vpc_from_hosted_zone({
# hosted_zone_id: "ResourceId", # required
# vpc: { # required
# vpc_region: "us-east-1", # accepts us-east-1, us-east-2, us-west-1, us-west-2, eu-west-1, eu-west-2, eu-central-1, ap-southeast-1, ap-southeast-2, ap-south-1, ap-northeast-1, ap-northeast-2, sa-east-1, ca-central-1, cn-north-1
# vpc_id: "VPCId",
# },
# comment: "DisassociateVPCComment",
# })
#
# @example Response structure
#
# resp.change_info.id #=> String
# resp.change_info.status #=> String, one of "PENDING", "INSYNC"
# resp.change_info.submitted_at #=> Time
# resp.change_info.comment #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/DisassociateVPCFromHostedZone AWS API Documentation
#
# @overload disassociate_vpc_from_hosted_zone(params = {})
# @param [Hash] params ({})
def disassociate_vpc_from_hosted_zone(params = {}, options = {})
req = build_request(:disassociate_vpc_from_hosted_zone, params)
req.send_request(options)
end
# Returns the current status of a change batch request. The status is
# one of the following values:
#
# * `PENDING` indicates that the changes in this request have not
# propagated to all Amazon Route 53 DNS servers. This is the initial
# status of all change batch requests.
#
# * `INSYNC` indicates that the changes have propagated to all Amazon
# Route 53 DNS servers.
#
# @option params [required, String] :id
# The ID of the change batch request. The value that you specify here is
# the value that `ChangeResourceRecordSets` returned in the `Id` element
# when you submitted the request.
#
# @return [Types::GetChangeResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetChangeResponse#change_info #change_info} => Types::ChangeInfo
#
# @example Request syntax with placeholder values
#
# resp = client.get_change({
# id: "ResourceId", # required
# })
#
# @example Response structure
#
# resp.change_info.id #=> String
# resp.change_info.status #=> String, one of "PENDING", "INSYNC"
# resp.change_info.submitted_at #=> Time
# resp.change_info.comment #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetChange AWS API Documentation
#
# @overload get_change(params = {})
# @param [Hash] params ({})
def get_change(params = {}, options = {})
req = build_request(:get_change, params)
req.send_request(options)
end
# `GetCheckerIpRanges` still works, but we recommend that you download
# ip-ranges.json, which includes IP address ranges for all AWS services.
# For more information, see [IP Address Ranges of Amazon Route 53
# Servers][1] in the *Amazon Route 53 Developer Guide*.
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/route-53-ip-addresses.html
#
# @return [Types::GetCheckerIpRangesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetCheckerIpRangesResponse#checker_ip_ranges #checker_ip_ranges} => Array<String>
#
# @example Response structure
#
# resp.checker_ip_ranges #=> Array
# resp.checker_ip_ranges[0] #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetCheckerIpRanges AWS API Documentation
#
# @overload get_checker_ip_ranges(params = {})
# @param [Hash] params ({})
def get_checker_ip_ranges(params = {}, options = {})
req = build_request(:get_checker_ip_ranges, params)
req.send_request(options)
end
# Gets information about whether a specified geographic location is
# supported for Amazon Route 53 geolocation resource record sets.
#
# Use the following syntax to determine whether a continent is supported
# for geolocation:
#
# `GET /2013-04-01/geolocation?ContinentCode=two-letter abbreviation for
# a continent `
#
# Use the following syntax to determine whether a country is supported
# for geolocation:
#
# `GET /2013-04-01/geolocation?CountryCode=two-character country code `
#
# Use the following syntax to determine whether a subdivision of a
# country is supported for geolocation:
#
# `GET /2013-04-01/geolocation?CountryCode=two-character country
# code&SubdivisionCode=subdivision code `
#
# @option params [String] :continent_code
# Amazon Route 53 supports the following continent codes:
#
# * **AF**\: Africa
#
# * **AN**\: Antarctica
#
# * **AS**\: Asia
#
# * **EU**\: Europe
#
# * **OC**\: Oceania
#
# * **NA**\: North America
#
# * **SA**\: South America
#
# @option params [String] :country_code
# Amazon Route 53 uses the two-letter country codes that are specified
# in [ISO standard 3166-1 alpha-2][1].
#
#
#
# [1]: https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2
#
# @option params [String] :subdivision_code
# Amazon Route 53 uses the one- to three-letter subdivision codes that
# are specified in [ISO standard 3166-1 alpha-2][1]. Amazon Route 53
# doesn't support subdivision codes for all countries. If you specify
# `SubdivisionCode`, you must also specify `CountryCode`.
#
#
#
# [1]: https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2
#
# @return [Types::GetGeoLocationResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetGeoLocationResponse#geo_location_details #geo_location_details} => Types::GeoLocationDetails
#
# @example Request syntax with placeholder values
#
# resp = client.get_geo_location({
# continent_code: "GeoLocationContinentCode",
# country_code: "GeoLocationCountryCode",
# subdivision_code: "GeoLocationSubdivisionCode",
# })
#
# @example Response structure
#
# resp.geo_location_details.continent_code #=> String
# resp.geo_location_details.continent_name #=> String
# resp.geo_location_details.country_code #=> String
# resp.geo_location_details.country_name #=> String
# resp.geo_location_details.subdivision_code #=> String
# resp.geo_location_details.subdivision_name #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetGeoLocation AWS API Documentation
#
# @overload get_geo_location(params = {})
# @param [Hash] params ({})
def get_geo_location(params = {}, options = {})
req = build_request(:get_geo_location, params)
req.send_request(options)
end
# Gets information about a specified health check.
#
# @option params [required, String] :health_check_id
# The identifier that Amazon Route 53 assigned to the health check when
# you created it. When you add or update a resource record set, you use
# this value to specify which health check to use. The value can be up
# to 64 characters long.
#
# @return [Types::GetHealthCheckResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetHealthCheckResponse#health_check #health_check} => Types::HealthCheck
#
# @example Request syntax with placeholder values
#
# resp = client.get_health_check({
# health_check_id: "HealthCheckId", # required
# })
#
# @example Response structure
#
# resp.health_check.id #=> String
# resp.health_check.caller_reference #=> String
# resp.health_check.health_check_config.ip_address #=> String
# resp.health_check.health_check_config.port #=> Integer
# resp.health_check.health_check_config.type #=> String, one of "HTTP", "HTTPS", "HTTP_STR_MATCH", "HTTPS_STR_MATCH", "TCP", "CALCULATED", "CLOUDWATCH_METRIC"
# resp.health_check.health_check_config.resource_path #=> String
# resp.health_check.health_check_config.fully_qualified_domain_name #=> String
# resp.health_check.health_check_config.search_string #=> String
# resp.health_check.health_check_config.request_interval #=> Integer
# resp.health_check.health_check_config.failure_threshold #=> Integer
# resp.health_check.health_check_config.measure_latency #=> Boolean
# resp.health_check.health_check_config.inverted #=> Boolean
# resp.health_check.health_check_config.health_threshold #=> Integer
# resp.health_check.health_check_config.child_health_checks #=> Array
# resp.health_check.health_check_config.child_health_checks[0] #=> String
# resp.health_check.health_check_config.enable_sni #=> Boolean
# resp.health_check.health_check_config.regions #=> Array
# resp.health_check.health_check_config.regions[0] #=> String, one of "us-east-1", "us-west-1", "us-west-2", "eu-west-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "sa-east-1"
# resp.health_check.health_check_config.alarm_identifier.region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "ca-central-1", "eu-central-1", "eu-west-1", "eu-west-2", "ap-south-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "ap-northeast-2", "sa-east-1"
# resp.health_check.health_check_config.alarm_identifier.name #=> String
# resp.health_check.health_check_config.insufficient_data_health_status #=> String, one of "Healthy", "Unhealthy", "LastKnownStatus"
# resp.health_check.health_check_version #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.evaluation_periods #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.threshold #=> Float
# resp.health_check.cloud_watch_alarm_configuration.comparison_operator #=> String, one of "GreaterThanOrEqualToThreshold", "GreaterThanThreshold", "LessThanThreshold", "LessThanOrEqualToThreshold"
# resp.health_check.cloud_watch_alarm_configuration.period #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.metric_name #=> String
# resp.health_check.cloud_watch_alarm_configuration.namespace #=> String
# resp.health_check.cloud_watch_alarm_configuration.statistic #=> String, one of "Average", "Sum", "SampleCount", "Maximum", "Minimum"
# resp.health_check.cloud_watch_alarm_configuration.dimensions #=> Array
# resp.health_check.cloud_watch_alarm_configuration.dimensions[0].name #=> String
# resp.health_check.cloud_watch_alarm_configuration.dimensions[0].value #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetHealthCheck AWS API Documentation
#
# @overload get_health_check(params = {})
# @param [Hash] params ({})
def get_health_check(params = {}, options = {})
req = build_request(:get_health_check, params)
req.send_request(options)
end
# Retrieves the number of health checks that are associated with the
# current AWS account.
#
# @return [Types::GetHealthCheckCountResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetHealthCheckCountResponse#health_check_count #health_check_count} => Integer
#
# @example Response structure
#
# resp.health_check_count #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetHealthCheckCount AWS API Documentation
#
# @overload get_health_check_count(params = {})
# @param [Hash] params ({})
def get_health_check_count(params = {}, options = {})
req = build_request(:get_health_check_count, params)
req.send_request(options)
end
# Gets the reason that a specified health check failed most recently.
#
# @option params [required, String] :health_check_id
# The ID for the health check for which you want the last failure
# reason. When you created the health check, `CreateHealthCheck`
# returned the ID in the response, in the `HealthCheckId` element.
#
# @return [Types::GetHealthCheckLastFailureReasonResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetHealthCheckLastFailureReasonResponse#health_check_observations #health_check_observations} => Array<Types::HealthCheckObservation>
#
# @example Request syntax with placeholder values
#
# resp = client.get_health_check_last_failure_reason({
# health_check_id: "HealthCheckId", # required
# })
#
# @example Response structure
#
# resp.health_check_observations #=> Array
# resp.health_check_observations[0].region #=> String, one of "us-east-1", "us-west-1", "us-west-2", "eu-west-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "sa-east-1"
# resp.health_check_observations[0].ip_address #=> String
# resp.health_check_observations[0].status_report.status #=> String
# resp.health_check_observations[0].status_report.checked_time #=> Time
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetHealthCheckLastFailureReason AWS API Documentation
#
# @overload get_health_check_last_failure_reason(params = {})
# @param [Hash] params ({})
def get_health_check_last_failure_reason(params = {}, options = {})
req = build_request(:get_health_check_last_failure_reason, params)
req.send_request(options)
end
# Gets status of a specified health check.
#
# @option params [required, String] :health_check_id
# The ID for the health check that you want the current status for. When
# you created the health check, `CreateHealthCheck` returned the ID in
# the response, in the `HealthCheckId` element.
#
# If you want to check the status of a calculated health check, you must
# use the Amazon Route 53 console or the CloudWatch console. You can't
# use `GetHealthCheckStatus` to get the status of a calculated health
# check.
#
#
#
# @return [Types::GetHealthCheckStatusResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetHealthCheckStatusResponse#health_check_observations #health_check_observations} => Array<Types::HealthCheckObservation>
#
# @example Request syntax with placeholder values
#
# resp = client.get_health_check_status({
# health_check_id: "HealthCheckId", # required
# })
#
# @example Response structure
#
# resp.health_check_observations #=> Array
# resp.health_check_observations[0].region #=> String, one of "us-east-1", "us-west-1", "us-west-2", "eu-west-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "sa-east-1"
# resp.health_check_observations[0].ip_address #=> String
# resp.health_check_observations[0].status_report.status #=> String
# resp.health_check_observations[0].status_report.checked_time #=> Time
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetHealthCheckStatus AWS API Documentation
#
# @overload get_health_check_status(params = {})
# @param [Hash] params ({})
def get_health_check_status(params = {}, options = {})
req = build_request(:get_health_check_status, params)
req.send_request(options)
end
# Gets information about a specified hosted zone including the four name
# servers assigned to the hosted zone.
#
# @option params [required, String] :id
# The ID of the hosted zone that you want to get information about.
#
# @return [Types::GetHostedZoneResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetHostedZoneResponse#hosted_zone #hosted_zone} => Types::HostedZone
# * {Types::GetHostedZoneResponse#delegation_set #delegation_set} => Types::DelegationSet
# * {Types::GetHostedZoneResponse#vp_cs #vp_cs} => Array<Types::VPC>
#
#
# @example Example: To get information about a hosted zone
#
# # The following example gets information about the Z3M3LMPEXAMPLE hosted zone.
#
# resp = client.get_hosted_zone({
# id: "Z3M3LMPEXAMPLE",
# })
#
# resp.to_h outputs the following:
# {
# delegation_set: {
# name_servers: [
# "ns-2048.awsdns-64.com",
# "ns-2049.awsdns-65.net",
# "ns-2050.awsdns-66.org",
# "ns-2051.awsdns-67.co.uk",
# ],
# },
# hosted_zone: {
# caller_reference: "C741617D-04E4-F8DE-B9D7-0D150FC61C2E",
# config: {
# private_zone: false,
# },
# id: "/hostedzone/Z3M3LMPEXAMPLE",
# name: "myawsbucket.com.",
# resource_record_set_count: 8,
# },
# }
#
# @example Request syntax with placeholder values
#
# resp = client.get_hosted_zone({
# id: "ResourceId", # required
# })
#
# @example Response structure
#
# resp.hosted_zone.id #=> String
# resp.hosted_zone.name #=> String
# resp.hosted_zone.caller_reference #=> String
# resp.hosted_zone.config.comment #=> String
# resp.hosted_zone.config.private_zone #=> Boolean
# resp.hosted_zone.resource_record_set_count #=> Integer
# resp.delegation_set.id #=> String
# resp.delegation_set.caller_reference #=> String
# resp.delegation_set.name_servers #=> Array
# resp.delegation_set.name_servers[0] #=> String
# resp.vp_cs #=> Array
# resp.vp_cs[0].vpc_region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "eu-west-1", "eu-west-2", "eu-central-1", "ap-southeast-1", "ap-southeast-2", "ap-south-1", "ap-northeast-1", "ap-northeast-2", "sa-east-1", "ca-central-1", "cn-north-1"
# resp.vp_cs[0].vpc_id #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetHostedZone AWS API Documentation
#
# @overload get_hosted_zone(params = {})
# @param [Hash] params ({})
def get_hosted_zone(params = {}, options = {})
req = build_request(:get_hosted_zone, params)
req.send_request(options)
end
# Retrieves the number of hosted zones that are associated with the
# current AWS account.
#
# @return [Types::GetHostedZoneCountResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetHostedZoneCountResponse#hosted_zone_count #hosted_zone_count} => Integer
#
# @example Response structure
#
# resp.hosted_zone_count #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetHostedZoneCount AWS API Documentation
#
# @overload get_hosted_zone_count(params = {})
# @param [Hash] params ({})
def get_hosted_zone_count(params = {}, options = {})
req = build_request(:get_hosted_zone_count, params)
req.send_request(options)
end
# Retrieves information about a specified reusable delegation set,
# including the four name servers that are assigned to the delegation
# set.
#
# @option params [required, String] :id
# The ID of the reusable delegation set that you want to get a list of
# name servers for.
#
# @return [Types::GetReusableDelegationSetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetReusableDelegationSetResponse#delegation_set #delegation_set} => Types::DelegationSet
#
# @example Request syntax with placeholder values
#
# resp = client.get_reusable_delegation_set({
# id: "ResourceId", # required
# })
#
# @example Response structure
#
# resp.delegation_set.id #=> String
# resp.delegation_set.caller_reference #=> String
# resp.delegation_set.name_servers #=> Array
# resp.delegation_set.name_servers[0] #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetReusableDelegationSet AWS API Documentation
#
# @overload get_reusable_delegation_set(params = {})
# @param [Hash] params ({})
def get_reusable_delegation_set(params = {}, options = {})
req = build_request(:get_reusable_delegation_set, params)
req.send_request(options)
end
# Gets information about a specific traffic policy version.
#
# @option params [required, String] :id
# The ID of the traffic policy that you want to get information about.
#
# @option params [required, Integer] :version
# The version number of the traffic policy that you want to get
# information about.
#
# @return [Types::GetTrafficPolicyResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetTrafficPolicyResponse#traffic_policy #traffic_policy} => Types::TrafficPolicy
#
# @example Request syntax with placeholder values
#
# resp = client.get_traffic_policy({
# id: "TrafficPolicyId", # required
# version: 1, # required
# })
#
# @example Response structure
#
# resp.traffic_policy.id #=> String
# resp.traffic_policy.version #=> Integer
# resp.traffic_policy.name #=> String
# resp.traffic_policy.type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.traffic_policy.document #=> String
# resp.traffic_policy.comment #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetTrafficPolicy AWS API Documentation
#
# @overload get_traffic_policy(params = {})
# @param [Hash] params ({})
def get_traffic_policy(params = {}, options = {})
req = build_request(:get_traffic_policy, params)
req.send_request(options)
end
# Gets information about a specified traffic policy instance.
#
# After you submit a `CreateTrafficPolicyInstance` or an
# `UpdateTrafficPolicyInstance` request, there's a brief delay while
# Amazon Route 53 creates the resource record sets that are specified in
# the traffic policy definition. For more information, see the `State`
# response element.
#
#
#
# In the Amazon Route 53 console, traffic policy instances are known as
# policy records.
#
#
#
# @option params [required, String] :id
# The ID of the traffic policy instance that you want to get information
# about.
#
# @return [Types::GetTrafficPolicyInstanceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetTrafficPolicyInstanceResponse#traffic_policy_instance #traffic_policy_instance} => Types::TrafficPolicyInstance
#
# @example Request syntax with placeholder values
#
# resp = client.get_traffic_policy_instance({
# id: "TrafficPolicyInstanceId", # required
# })
#
# @example Response structure
#
# resp.traffic_policy_instance.id #=> String
# resp.traffic_policy_instance.hosted_zone_id #=> String
# resp.traffic_policy_instance.name #=> String
# resp.traffic_policy_instance.ttl #=> Integer
# resp.traffic_policy_instance.state #=> String
# resp.traffic_policy_instance.message #=> String
# resp.traffic_policy_instance.traffic_policy_id #=> String
# resp.traffic_policy_instance.traffic_policy_version #=> Integer
# resp.traffic_policy_instance.traffic_policy_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetTrafficPolicyInstance AWS API Documentation
#
# @overload get_traffic_policy_instance(params = {})
# @param [Hash] params ({})
def get_traffic_policy_instance(params = {}, options = {})
req = build_request(:get_traffic_policy_instance, params)
req.send_request(options)
end
# Gets the number of traffic policy instances that are associated with
# the current AWS account.
#
# @return [Types::GetTrafficPolicyInstanceCountResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetTrafficPolicyInstanceCountResponse#traffic_policy_instance_count #traffic_policy_instance_count} => Integer
#
# @example Response structure
#
# resp.traffic_policy_instance_count #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/GetTrafficPolicyInstanceCount AWS API Documentation
#
# @overload get_traffic_policy_instance_count(params = {})
# @param [Hash] params ({})
def get_traffic_policy_instance_count(params = {}, options = {})
req = build_request(:get_traffic_policy_instance_count, params)
req.send_request(options)
end
# Retrieves a list of supported geo locations.
#
# Countries are listed first, and continents are listed last. If Amazon
# Route 53 supports subdivisions for a country (for example, states or
# provinces), the subdivisions for that country are listed in
# alphabetical order immediately after the corresponding country.
#
# @option params [String] :start_continent_code
# The code for the continent with which you want to start listing
# locations that Amazon Route 53 supports for geolocation. If Amazon
# Route 53 has already returned a page or more of results, if
# `IsTruncated` is true, and if `NextContinentCode` from the previous
# response has a value, enter that value in `StartContinentCode` to
# return the next page of results.
#
# Include `StartContinentCode` only if you want to list continents.
# Don't include `StartContinentCode` when you're listing countries or
# countries with their subdivisions.
#
# @option params [String] :start_country_code
# The code for the country with which you want to start listing
# locations that Amazon Route 53 supports for geolocation. If Amazon
# Route 53 has already returned a page or more of results, if
# `IsTruncated` is `true`, and if `NextCountryCode` from the previous
# response has a value, enter that value in `StartCountryCode` to return
# the next page of results.
#
# Amazon Route 53 uses the two-letter country codes that are specified
# in [ISO standard 3166-1 alpha-2][1].
#
#
#
# [1]: https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2
#
# @option params [String] :start_subdivision_code
# The code for the subdivision (for example, state or province) with
# which you want to start listing locations that Amazon Route 53
# supports for geolocation. If Amazon Route 53 has already returned a
# page or more of results, if `IsTruncated` is `true`, and if
# `NextSubdivisionCode` from the previous response has a value, enter
# that value in `StartSubdivisionCode` to return the next page of
# results.
#
# To list subdivisions of a country, you must include both
# `StartCountryCode` and `StartSubdivisionCode`.
#
# @option params [Integer] :max_items
# (Optional) The maximum number of geolocations to be included in the
# response body for this request. If more than `MaxItems` geolocations
# remain to be listed, then the value of the `IsTruncated` element in
# the response is `true`.
#
# @return [Types::ListGeoLocationsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListGeoLocationsResponse#geo_location_details_list #geo_location_details_list} => Array<Types::GeoLocationDetails>
# * {Types::ListGeoLocationsResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListGeoLocationsResponse#next_continent_code #next_continent_code} => String
# * {Types::ListGeoLocationsResponse#next_country_code #next_country_code} => String
# * {Types::ListGeoLocationsResponse#next_subdivision_code #next_subdivision_code} => String
# * {Types::ListGeoLocationsResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_geo_locations({
# start_continent_code: "GeoLocationContinentCode",
# start_country_code: "GeoLocationCountryCode",
# start_subdivision_code: "GeoLocationSubdivisionCode",
# max_items: 1,
# })
#
# @example Response structure
#
# resp.geo_location_details_list #=> Array
# resp.geo_location_details_list[0].continent_code #=> String
# resp.geo_location_details_list[0].continent_name #=> String
# resp.geo_location_details_list[0].country_code #=> String
# resp.geo_location_details_list[0].country_name #=> String
# resp.geo_location_details_list[0].subdivision_code #=> String
# resp.geo_location_details_list[0].subdivision_name #=> String
# resp.is_truncated #=> Boolean
# resp.next_continent_code #=> String
# resp.next_country_code #=> String
# resp.next_subdivision_code #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListGeoLocations AWS API Documentation
#
# @overload list_geo_locations(params = {})
# @param [Hash] params ({})
def list_geo_locations(params = {}, options = {})
req = build_request(:list_geo_locations, params)
req.send_request(options)
end
# Retrieve a list of the health checks that are associated with the
# current AWS account.
#
# @option params [String] :marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more health checks. To get another group, submit another
# `ListHealthChecks` request.
#
# For the value of `marker`, specify the value of `NextMarker` from the
# previous response, which is the ID of the first health check that
# Amazon Route 53 will return if you submit another request.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more health checks to get.
#
# @option params [Integer] :max_items
# The maximum number of health checks that you want `ListHealthChecks`
# to return in response to the current request. Amazon Route 53 returns
# a maximum of 100 items. If you set `MaxItems` to a value greater than
# 100, Amazon Route 53 returns only the first 100 health checks.
#
# @return [Types::ListHealthChecksResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListHealthChecksResponse#health_checks #health_checks} => Array<Types::HealthCheck>
# * {Types::ListHealthChecksResponse#marker #marker} => String
# * {Types::ListHealthChecksResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListHealthChecksResponse#next_marker #next_marker} => String
# * {Types::ListHealthChecksResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_health_checks({
# marker: "PageMarker",
# max_items: 1,
# })
#
# @example Response structure
#
# resp.health_checks #=> Array
# resp.health_checks[0].id #=> String
# resp.health_checks[0].caller_reference #=> String
# resp.health_checks[0].health_check_config.ip_address #=> String
# resp.health_checks[0].health_check_config.port #=> Integer
# resp.health_checks[0].health_check_config.type #=> String, one of "HTTP", "HTTPS", "HTTP_STR_MATCH", "HTTPS_STR_MATCH", "TCP", "CALCULATED", "CLOUDWATCH_METRIC"
# resp.health_checks[0].health_check_config.resource_path #=> String
# resp.health_checks[0].health_check_config.fully_qualified_domain_name #=> String
# resp.health_checks[0].health_check_config.search_string #=> String
# resp.health_checks[0].health_check_config.request_interval #=> Integer
# resp.health_checks[0].health_check_config.failure_threshold #=> Integer
# resp.health_checks[0].health_check_config.measure_latency #=> Boolean
# resp.health_checks[0].health_check_config.inverted #=> Boolean
# resp.health_checks[0].health_check_config.health_threshold #=> Integer
# resp.health_checks[0].health_check_config.child_health_checks #=> Array
# resp.health_checks[0].health_check_config.child_health_checks[0] #=> String
# resp.health_checks[0].health_check_config.enable_sni #=> Boolean
# resp.health_checks[0].health_check_config.regions #=> Array
# resp.health_checks[0].health_check_config.regions[0] #=> String, one of "us-east-1", "us-west-1", "us-west-2", "eu-west-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "sa-east-1"
# resp.health_checks[0].health_check_config.alarm_identifier.region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "ca-central-1", "eu-central-1", "eu-west-1", "eu-west-2", "ap-south-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "ap-northeast-2", "sa-east-1"
# resp.health_checks[0].health_check_config.alarm_identifier.name #=> String
# resp.health_checks[0].health_check_config.insufficient_data_health_status #=> String, one of "Healthy", "Unhealthy", "LastKnownStatus"
# resp.health_checks[0].health_check_version #=> Integer
# resp.health_checks[0].cloud_watch_alarm_configuration.evaluation_periods #=> Integer
# resp.health_checks[0].cloud_watch_alarm_configuration.threshold #=> Float
# resp.health_checks[0].cloud_watch_alarm_configuration.comparison_operator #=> String, one of "GreaterThanOrEqualToThreshold", "GreaterThanThreshold", "LessThanThreshold", "LessThanOrEqualToThreshold"
# resp.health_checks[0].cloud_watch_alarm_configuration.period #=> Integer
# resp.health_checks[0].cloud_watch_alarm_configuration.metric_name #=> String
# resp.health_checks[0].cloud_watch_alarm_configuration.namespace #=> String
# resp.health_checks[0].cloud_watch_alarm_configuration.statistic #=> String, one of "Average", "Sum", "SampleCount", "Maximum", "Minimum"
# resp.health_checks[0].cloud_watch_alarm_configuration.dimensions #=> Array
# resp.health_checks[0].cloud_watch_alarm_configuration.dimensions[0].name #=> String
# resp.health_checks[0].cloud_watch_alarm_configuration.dimensions[0].value #=> String
# resp.marker #=> String
# resp.is_truncated #=> Boolean
# resp.next_marker #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListHealthChecks AWS API Documentation
#
# @overload list_health_checks(params = {})
# @param [Hash] params ({})
def list_health_checks(params = {}, options = {})
req = build_request(:list_health_checks, params)
req.send_request(options)
end
# Retrieves a list of the public and private hosted zones that are
# associated with the current AWS account. The response includes a
# `HostedZones` child element for each hosted zone.
#
# Amazon Route 53 returns a maximum of 100 items in each response. If
# you have a lot of hosted zones, you can use the `maxitems` parameter
# to list them in groups of up to 100.
#
# @option params [String] :marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more hosted zones. To get more hosted zones, submit another
# `ListHostedZones` request.
#
# For the value of `marker`, specify the value of `NextMarker` from the
# previous response, which is the ID of the first hosted zone that
# Amazon Route 53 will return if you submit another request.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more hosted zones to get.
#
# @option params [Integer] :max_items
# (Optional) The maximum number of hosted zones that you want Amazon
# Route 53 to return. If you have more than `maxitems` hosted zones, the
# value of `IsTruncated` in the response is `true`, and the value of
# `NextMarker` is the hosted zone ID of the first hosted zone that
# Amazon Route 53 will return if you submit another request.
#
# @option params [String] :delegation_set_id
# If you're using reusable delegation sets and you want to list all of
# the hosted zones that are associated with a reusable delegation set,
# specify the ID of that reusable delegation set.
#
# @return [Types::ListHostedZonesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListHostedZonesResponse#hosted_zones #hosted_zones} => Array<Types::HostedZone>
# * {Types::ListHostedZonesResponse#marker #marker} => String
# * {Types::ListHostedZonesResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListHostedZonesResponse#next_marker #next_marker} => String
# * {Types::ListHostedZonesResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_hosted_zones({
# marker: "PageMarker",
# max_items: 1,
# delegation_set_id: "ResourceId",
# })
#
# @example Response structure
#
# resp.hosted_zones #=> Array
# resp.hosted_zones[0].id #=> String
# resp.hosted_zones[0].name #=> String
# resp.hosted_zones[0].caller_reference #=> String
# resp.hosted_zones[0].config.comment #=> String
# resp.hosted_zones[0].config.private_zone #=> Boolean
# resp.hosted_zones[0].resource_record_set_count #=> Integer
# resp.marker #=> String
# resp.is_truncated #=> Boolean
# resp.next_marker #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListHostedZones AWS API Documentation
#
# @overload list_hosted_zones(params = {})
# @param [Hash] params ({})
def list_hosted_zones(params = {}, options = {})
req = build_request(:list_hosted_zones, params)
req.send_request(options)
end
# Retrieves a list of your hosted zones in lexicographic order. The
# response includes a `HostedZones` child element for each hosted zone
# created by the current AWS account.
#
# `ListHostedZonesByName` sorts hosted zones by name with the labels
# reversed. For example:
#
# `com.example.www.`
#
# Note the trailing dot, which can change the sort order in some
# circumstances.
#
# If the domain name includes escape characters or Punycode,
# `ListHostedZonesByName` alphabetizes the domain name using the escaped
# or Punycoded value, which is the format that Amazon Route 53 saves in
# its database. For example, to create a hosted zone for exämple.com,
# you specify ex\\344mple.com for the domain name.
# `ListHostedZonesByName` alphabetizes it as:
#
# `com.ex\344mple.`
#
# The labels are reversed and alphabetized using the escaped value. For
# more information about valid domain name formats, including
# internationalized domain names, see [DNS Domain Name Format][1] in the
# *Amazon Route 53 Developer Guide*.
#
# Amazon Route 53 returns up to 100 items in each response. If you have
# a lot of hosted zones, use the `MaxItems` parameter to list them in
# groups of up to 100. The response includes values that help navigate
# from one group of `MaxItems` hosted zones to the next:
#
# * The `DNSName` and `HostedZoneId` elements in the response contain
# the values, if any, specified for the `dnsname` and `hostedzoneid`
# parameters in the request that produced the current response.
#
# * The `MaxItems` element in the response contains the value, if any,
# that you specified for the `maxitems` parameter in the request that
# produced the current response.
#
# * If the value of `IsTruncated` in the response is true, there are
# more hosted zones associated with the current AWS account.
#
# If `IsTruncated` is false, this response includes the last hosted
# zone that is associated with the current account. The `NextDNSName`
# element and `NextHostedZoneId` elements are omitted from the
# response.
#
# * The `NextDNSName` and `NextHostedZoneId` elements in the response
# contain the domain name and the hosted zone ID of the next hosted
# zone that is associated with the current AWS account. If you want to
# list more hosted zones, make another call to
# `ListHostedZonesByName`, and specify the value of `NextDNSName` and
# `NextHostedZoneId` in the `dnsname` and `hostedzoneid` parameters,
# respectively.
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/DomainNameFormat.html
#
# @option params [String] :dns_name
# (Optional) For your first request to `ListHostedZonesByName`, include
# the `dnsname` parameter only if you want to specify the name of the
# first hosted zone in the response. If you don't include the `dnsname`
# parameter, Amazon Route 53 returns all of the hosted zones that were
# created by the current AWS account, in ASCII order. For subsequent
# requests, include both `dnsname` and `hostedzoneid` parameters. For
# `dnsname`, specify the value of `NextDNSName` from the previous
# response.
#
# @option params [String] :hosted_zone_id
# (Optional) For your first request to `ListHostedZonesByName`, do not
# include the `hostedzoneid` parameter.
#
# If you have more hosted zones than the value of `maxitems`,
# `ListHostedZonesByName` returns only the first `maxitems` hosted
# zones. To get the next group of `maxitems` hosted zones, submit
# another request to `ListHostedZonesByName` and include both `dnsname`
# and `hostedzoneid` parameters. For the value of `hostedzoneid`,
# specify the value of the `NextHostedZoneId` element from the previous
# response.
#
# @option params [Integer] :max_items
# The maximum number of hosted zones to be included in the response body
# for this request. If you have more than `maxitems` hosted zones, then
# the value of the `IsTruncated` element in the response is true, and
# the values of `NextDNSName` and `NextHostedZoneId` specify the first
# hosted zone in the next group of `maxitems` hosted zones.
#
# @return [Types::ListHostedZonesByNameResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListHostedZonesByNameResponse#hosted_zones #hosted_zones} => Array<Types::HostedZone>
# * {Types::ListHostedZonesByNameResponse#dns_name #dns_name} => String
# * {Types::ListHostedZonesByNameResponse#hosted_zone_id #hosted_zone_id} => String
# * {Types::ListHostedZonesByNameResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListHostedZonesByNameResponse#next_dns_name #next_dns_name} => String
# * {Types::ListHostedZonesByNameResponse#next_hosted_zone_id #next_hosted_zone_id} => String
# * {Types::ListHostedZonesByNameResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_hosted_zones_by_name({
# dns_name: "DNSName",
# hosted_zone_id: "ResourceId",
# max_items: 1,
# })
#
# @example Response structure
#
# resp.hosted_zones #=> Array
# resp.hosted_zones[0].id #=> String
# resp.hosted_zones[0].name #=> String
# resp.hosted_zones[0].caller_reference #=> String
# resp.hosted_zones[0].config.comment #=> String
# resp.hosted_zones[0].config.private_zone #=> Boolean
# resp.hosted_zones[0].resource_record_set_count #=> Integer
# resp.dns_name #=> String
# resp.hosted_zone_id #=> String
# resp.is_truncated #=> Boolean
# resp.next_dns_name #=> String
# resp.next_hosted_zone_id #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListHostedZonesByName AWS API Documentation
#
# @overload list_hosted_zones_by_name(params = {})
# @param [Hash] params ({})
def list_hosted_zones_by_name(params = {}, options = {})
req = build_request(:list_hosted_zones_by_name, params)
req.send_request(options)
end
# Lists the resource record sets in a specified hosted zone.
#
# `ListResourceRecordSets` returns up to 100 resource record sets at a
# time in ASCII order, beginning at a position specified by the `name`
# and `type` elements. The action sorts results first by DNS name with
# the labels reversed, for example:
#
# `com.example.www.`
#
# Note the trailing dot, which can change the sort order in some
# circumstances.
#
# When multiple records have the same DNS name, the action sorts results
# by the record type.
#
# You can use the name and type elements to adjust the beginning
# position of the list of resource record sets returned:
#
# If you do not specify Name or Type
#
# : The results begin with the first resource record set that the hosted
# zone contains.
#
# If you specify Name but not Type
#
# : The results begin with the first resource record set in the list
# whose name is greater than or equal to `Name`.
#
# If you specify Type but not Name
#
# : Amazon Route 53 returns the `InvalidInput` error.
#
# If you specify both Name and Type
#
# : The results begin with the first resource record set in the list
# whose name is greater than or equal to `Name`, and whose type is
# greater than or equal to `Type`.
#
# This action returns the most current version of the records. This
# includes records that are `PENDING`, and that are not yet available on
# all Amazon Route 53 DNS servers.
#
# To ensure that you get an accurate listing of the resource record sets
# for a hosted zone at a point in time, do not submit a
# `ChangeResourceRecordSets` request while you're paging through the
# results of a `ListResourceRecordSets` request. If you do, some pages
# may display results without the latest changes while other pages
# display results with the latest changes.
#
# @option params [required, String] :hosted_zone_id
# The ID of the hosted zone that contains the resource record sets that
# you want to list.
#
# @option params [String] :start_record_name
# The first name in the lexicographic ordering of resource record sets
# that you want to list.
#
# @option params [String] :start_record_type
# The type of resource record set to begin the record listing from.
#
# Valid values for basic resource record sets: `A` \| `AAAA` \| `CAA` \|
# `CNAME` \| `MX` \| `NAPTR` \| `NS` \| `PTR` \| `SOA` \| `SPF` \| `SRV`
# \| `TXT`
#
# Values for weighted, latency, geo, and failover resource record sets:
# `A` \| `AAAA` \| `CAA` \| `CNAME` \| `MX` \| `NAPTR` \| `PTR` \| `SPF`
# \| `SRV` \| `TXT`
#
# Values for alias resource record sets:
#
# * **CloudFront distribution**\: A or AAAA
#
# * **Elastic Beanstalk environment that has a regionalized
# subdomain**\: A
#
# * **ELB load balancer**\: A \| AAAA
#
# * **Amazon S3 bucket**\: A
#
# * **Another resource record set in this hosted zone:** The type of the
# resource record set that the alias references.
#
# Constraint: Specifying `type` without specifying `name` returns an
# `InvalidInput` error.
#
# @option params [String] :start_record_identifier
# *Weighted resource record sets only:* If results were truncated for a
# given DNS name and type, specify the value of `NextRecordIdentifier`
# from the previous response to get the next resource record set that
# has the current DNS name and type.
#
# @option params [Integer] :max_items
# (Optional) The maximum number of resource records sets to include in
# the response body for this request. If the response includes more than
# `maxitems` resource record sets, the value of the `IsTruncated`
# element in the response is `true`, and the values of the
# `NextRecordName` and `NextRecordType` elements in the response
# identify the first resource record set in the next group of `maxitems`
# resource record sets.
#
# @return [Types::ListResourceRecordSetsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListResourceRecordSetsResponse#resource_record_sets #resource_record_sets} => Array<Types::ResourceRecordSet>
# * {Types::ListResourceRecordSetsResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListResourceRecordSetsResponse#next_record_name #next_record_name} => String
# * {Types::ListResourceRecordSetsResponse#next_record_type #next_record_type} => String
# * {Types::ListResourceRecordSetsResponse#next_record_identifier #next_record_identifier} => String
# * {Types::ListResourceRecordSetsResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_resource_record_sets({
# hosted_zone_id: "ResourceId", # required
# start_record_name: "DNSName",
# start_record_type: "SOA", # accepts SOA, A, TXT, NS, CNAME, MX, NAPTR, PTR, SRV, SPF, AAAA, CAA
# start_record_identifier: "ResourceRecordSetIdentifier",
# max_items: 1,
# })
#
# @example Response structure
#
# resp.resource_record_sets #=> Array
# resp.resource_record_sets[0].name #=> String
# resp.resource_record_sets[0].type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.resource_record_sets[0].set_identifier #=> String
# resp.resource_record_sets[0].weight #=> Integer
# resp.resource_record_sets[0].region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "ca-central-1", "eu-west-1", "eu-west-2", "eu-central-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "ap-northeast-2", "sa-east-1", "cn-north-1", "ap-south-1"
# resp.resource_record_sets[0].geo_location.continent_code #=> String
# resp.resource_record_sets[0].geo_location.country_code #=> String
# resp.resource_record_sets[0].geo_location.subdivision_code #=> String
# resp.resource_record_sets[0].failover #=> String, one of "PRIMARY", "SECONDARY"
# resp.resource_record_sets[0].multi_value_answer #=> Boolean
# resp.resource_record_sets[0].ttl #=> Integer
# resp.resource_record_sets[0].resource_records #=> Array
# resp.resource_record_sets[0].resource_records[0].value #=> String
# resp.resource_record_sets[0].alias_target.hosted_zone_id #=> String
# resp.resource_record_sets[0].alias_target.dns_name #=> String
# resp.resource_record_sets[0].alias_target.evaluate_target_health #=> Boolean
# resp.resource_record_sets[0].health_check_id #=> String
# resp.resource_record_sets[0].traffic_policy_instance_id #=> String
# resp.is_truncated #=> Boolean
# resp.next_record_name #=> String
# resp.next_record_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.next_record_identifier #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListResourceRecordSets AWS API Documentation
#
# @overload list_resource_record_sets(params = {})
# @param [Hash] params ({})
def list_resource_record_sets(params = {}, options = {})
req = build_request(:list_resource_record_sets, params)
req.send_request(options)
end
# Retrieves a list of the reusable delegation sets that are associated
# with the current AWS account.
#
# @option params [String] :marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more reusable delegation sets. To get another group, submit
# another `ListReusableDelegationSets` request.
#
# For the value of `marker`, specify the value of `NextMarker` from the
# previous response, which is the ID of the first reusable delegation
# set that Amazon Route 53 will return if you submit another request.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more reusable delegation sets to get.
#
# @option params [Integer] :max_items
# The number of reusable delegation sets that you want Amazon Route 53
# to return in the response to this request. If you specify a value
# greater than 100, Amazon Route 53 returns only the first 100 reusable
# delegation sets.
#
# @return [Types::ListReusableDelegationSetsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListReusableDelegationSetsResponse#delegation_sets #delegation_sets} => Array<Types::DelegationSet>
# * {Types::ListReusableDelegationSetsResponse#marker #marker} => String
# * {Types::ListReusableDelegationSetsResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListReusableDelegationSetsResponse#next_marker #next_marker} => String
# * {Types::ListReusableDelegationSetsResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_reusable_delegation_sets({
# marker: "PageMarker",
# max_items: 1,
# })
#
# @example Response structure
#
# resp.delegation_sets #=> Array
# resp.delegation_sets[0].id #=> String
# resp.delegation_sets[0].caller_reference #=> String
# resp.delegation_sets[0].name_servers #=> Array
# resp.delegation_sets[0].name_servers[0] #=> String
# resp.marker #=> String
# resp.is_truncated #=> Boolean
# resp.next_marker #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListReusableDelegationSets AWS API Documentation
#
# @overload list_reusable_delegation_sets(params = {})
# @param [Hash] params ({})
def list_reusable_delegation_sets(params = {}, options = {})
req = build_request(:list_reusable_delegation_sets, params)
req.send_request(options)
end
# Lists tags for one health check or hosted zone.
#
# For information about using tags for cost allocation, see [Using Cost
# Allocation Tags][1] in the *AWS Billing and Cost Management User
# Guide*.
#
#
#
# [1]: http://docs.aws.amazon.com/awsaccountbilling/latest/aboutv2/cost-alloc-tags.html
#
# @option params [required, String] :resource_type
# The type of the resource.
#
# * The resource type for health checks is `healthcheck`.
#
# * The resource type for hosted zones is `hostedzone`.
#
# @option params [required, String] :resource_id
# The ID of the resource for which you want to retrieve tags.
#
# @return [Types::ListTagsForResourceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListTagsForResourceResponse#resource_tag_set #resource_tag_set} => Types::ResourceTagSet
#
# @example Request syntax with placeholder values
#
# resp = client.list_tags_for_resource({
# resource_type: "healthcheck", # required, accepts healthcheck, hostedzone
# resource_id: "TagResourceId", # required
# })
#
# @example Response structure
#
# resp.resource_tag_set.resource_type #=> String, one of "healthcheck", "hostedzone"
# resp.resource_tag_set.resource_id #=> String
# resp.resource_tag_set.tags #=> Array
# resp.resource_tag_set.tags[0].key #=> String
# resp.resource_tag_set.tags[0].value #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListTagsForResource AWS API Documentation
#
# @overload list_tags_for_resource(params = {})
# @param [Hash] params ({})
def list_tags_for_resource(params = {}, options = {})
req = build_request(:list_tags_for_resource, params)
req.send_request(options)
end
# Lists tags for up to 10 health checks or hosted zones.
#
# For information about using tags for cost allocation, see [Using Cost
# Allocation Tags][1] in the *AWS Billing and Cost Management User
# Guide*.
#
#
#
# [1]: http://docs.aws.amazon.com/awsaccountbilling/latest/aboutv2/cost-alloc-tags.html
#
# @option params [required, String] :resource_type
# The type of the resources.
#
# * The resource type for health checks is `healthcheck`.
#
# * The resource type for hosted zones is `hostedzone`.
#
# @option params [required, Array] :resource_ids
# A complex type that contains the ResourceId element for each resource
# for which you want to get a list of tags.
#
# @return [Types::ListTagsForResourcesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListTagsForResourcesResponse#resource_tag_sets #resource_tag_sets} => Array<Types::ResourceTagSet>
#
# @example Request syntax with placeholder values
#
# resp = client.list_tags_for_resources({
# resource_type: "healthcheck", # required, accepts healthcheck, hostedzone
# resource_ids: ["TagResourceId"], # required
# })
#
# @example Response structure
#
# resp.resource_tag_sets #=> Array
# resp.resource_tag_sets[0].resource_type #=> String, one of "healthcheck", "hostedzone"
# resp.resource_tag_sets[0].resource_id #=> String
# resp.resource_tag_sets[0].tags #=> Array
# resp.resource_tag_sets[0].tags[0].key #=> String
# resp.resource_tag_sets[0].tags[0].value #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListTagsForResources AWS API Documentation
#
# @overload list_tags_for_resources(params = {})
# @param [Hash] params ({})
def list_tags_for_resources(params = {}, options = {})
req = build_request(:list_tags_for_resources, params)
req.send_request(options)
end
# Gets information about the latest version for every traffic policy
# that is associated with the current AWS account. Policies are listed
# in the order in which they were created.
#
# @option params [String] :traffic_policy_id_marker
# (Conditional) For your first request to `ListTrafficPolicies`, don't
# include the `TrafficPolicyIdMarker` parameter.
#
# If you have more traffic policies than the value of `MaxItems`,
# `ListTrafficPolicies` returns only the first `MaxItems` traffic
# policies. To get the next group of policies, submit another request to
# `ListTrafficPolicies`. For the value of `TrafficPolicyIdMarker`,
# specify the value of `TrafficPolicyIdMarker` that was returned in the
# previous response.
#
# @option params [Integer] :max_items
# (Optional) The maximum number of traffic policies that you want Amazon
# Route 53 to return in response to this request. If you have more than
# `MaxItems` traffic policies, the value of `IsTruncated` in the
# response is `true`, and the value of `TrafficPolicyIdMarker` is the ID
# of the first traffic policy that Amazon Route 53 will return if you
# submit another request.
#
# @return [Types::ListTrafficPoliciesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListTrafficPoliciesResponse#traffic_policy_summaries #traffic_policy_summaries} => Array<Types::TrafficPolicySummary>
# * {Types::ListTrafficPoliciesResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListTrafficPoliciesResponse#traffic_policy_id_marker #traffic_policy_id_marker} => String
# * {Types::ListTrafficPoliciesResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_traffic_policies({
# traffic_policy_id_marker: "TrafficPolicyId",
# max_items: 1,
# })
#
# @example Response structure
#
# resp.traffic_policy_summaries #=> Array
# resp.traffic_policy_summaries[0].id #=> String
# resp.traffic_policy_summaries[0].name #=> String
# resp.traffic_policy_summaries[0].type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.traffic_policy_summaries[0].latest_version #=> Integer
# resp.traffic_policy_summaries[0].traffic_policy_count #=> Integer
# resp.is_truncated #=> Boolean
# resp.traffic_policy_id_marker #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListTrafficPolicies AWS API Documentation
#
# @overload list_traffic_policies(params = {})
# @param [Hash] params ({})
def list_traffic_policies(params = {}, options = {})
req = build_request(:list_traffic_policies, params)
req.send_request(options)
end
# Gets information about the traffic policy instances that you created
# by using the current AWS account.
#
# After you submit an `UpdateTrafficPolicyInstance` request, there's a
# brief delay while Amazon Route 53 creates the resource record sets
# that are specified in the traffic policy definition. For more
# information, see the `State` response element.
#
#
#
# Amazon Route 53 returns a maximum of 100 items in each response. If
# you have a lot of traffic policy instances, you can use the `MaxItems`
# parameter to list them in groups of up to 100.
#
# @option params [String] :hosted_zone_id_marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstances` request. For
# the value of `HostedZoneId`, specify the value of `HostedZoneIdMarker`
# from the previous response, which is the hosted zone ID of the first
# traffic policy instance in the next group of traffic policy instances.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [String] :traffic_policy_instance_name_marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstances` request. For
# the value of `trafficpolicyinstancename`, specify the value of
# `TrafficPolicyInstanceNameMarker` from the previous response, which is
# the name of the first traffic policy instance in the next group of
# traffic policy instances.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [String] :traffic_policy_instance_type_marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstances` request. For
# the value of `trafficpolicyinstancetype`, specify the value of
# `TrafficPolicyInstanceTypeMarker` from the previous response, which is
# the type of the first traffic policy instance in the next group of
# traffic policy instances.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [Integer] :max_items
# The maximum number of traffic policy instances that you want Amazon
# Route 53 to return in response to a `ListTrafficPolicyInstances`
# request. If you have more than `MaxItems` traffic policy instances,
# the value of the `IsTruncated` element in the response is `true`, and
# the values of `HostedZoneIdMarker`, `TrafficPolicyInstanceNameMarker`,
# and `TrafficPolicyInstanceTypeMarker` represent the first traffic
# policy instance in the next group of `MaxItems` traffic policy
# instances.
#
# @return [Types::ListTrafficPolicyInstancesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListTrafficPolicyInstancesResponse#traffic_policy_instances #traffic_policy_instances} => Array<Types::TrafficPolicyInstance>
# * {Types::ListTrafficPolicyInstancesResponse#hosted_zone_id_marker #hosted_zone_id_marker} => String
# * {Types::ListTrafficPolicyInstancesResponse#traffic_policy_instance_name_marker #traffic_policy_instance_name_marker} => String
# * {Types::ListTrafficPolicyInstancesResponse#traffic_policy_instance_type_marker #traffic_policy_instance_type_marker} => String
# * {Types::ListTrafficPolicyInstancesResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListTrafficPolicyInstancesResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_traffic_policy_instances({
# hosted_zone_id_marker: "ResourceId",
# traffic_policy_instance_name_marker: "DNSName",
# traffic_policy_instance_type_marker: "SOA", # accepts SOA, A, TXT, NS, CNAME, MX, NAPTR, PTR, SRV, SPF, AAAA, CAA
# max_items: 1,
# })
#
# @example Response structure
#
# resp.traffic_policy_instances #=> Array
# resp.traffic_policy_instances[0].id #=> String
# resp.traffic_policy_instances[0].hosted_zone_id #=> String
# resp.traffic_policy_instances[0].name #=> String
# resp.traffic_policy_instances[0].ttl #=> Integer
# resp.traffic_policy_instances[0].state #=> String
# resp.traffic_policy_instances[0].message #=> String
# resp.traffic_policy_instances[0].traffic_policy_id #=> String
# resp.traffic_policy_instances[0].traffic_policy_version #=> Integer
# resp.traffic_policy_instances[0].traffic_policy_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.hosted_zone_id_marker #=> String
# resp.traffic_policy_instance_name_marker #=> String
# resp.traffic_policy_instance_type_marker #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.is_truncated #=> Boolean
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListTrafficPolicyInstances AWS API Documentation
#
# @overload list_traffic_policy_instances(params = {})
# @param [Hash] params ({})
def list_traffic_policy_instances(params = {}, options = {})
req = build_request(:list_traffic_policy_instances, params)
req.send_request(options)
end
# Gets information about the traffic policy instances that you created
# in a specified hosted zone.
#
# After you submit a `CreateTrafficPolicyInstance` or an
# `UpdateTrafficPolicyInstance` request, there's a brief delay while
# Amazon Route 53 creates the resource record sets that are specified in
# the traffic policy definition. For more information, see the `State`
# response element.
#
#
#
# Amazon Route 53 returns a maximum of 100 items in each response. If
# you have a lot of traffic policy instances, you can use the `MaxItems`
# parameter to list them in groups of up to 100.
#
# @option params [required, String] :hosted_zone_id
# The ID of the hosted zone that you want to list traffic policy
# instances for.
#
# @option params [String] :traffic_policy_instance_name_marker
# If the value of `IsTruncated` in the previous response is true, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstances` request. For
# the value of `trafficpolicyinstancename`, specify the value of
# `TrafficPolicyInstanceNameMarker` from the previous response, which is
# the name of the first traffic policy instance in the next group of
# traffic policy instances.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [String] :traffic_policy_instance_type_marker
# If the value of `IsTruncated` in the previous response is true, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstances` request. For
# the value of `trafficpolicyinstancetype`, specify the value of
# `TrafficPolicyInstanceTypeMarker` from the previous response, which is
# the type of the first traffic policy instance in the next group of
# traffic policy instances.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [Integer] :max_items
# The maximum number of traffic policy instances to be included in the
# response body for this request. If you have more than `MaxItems`
# traffic policy instances, the value of the `IsTruncated` element in
# the response is `true`, and the values of `HostedZoneIdMarker`,
# `TrafficPolicyInstanceNameMarker`, and
# `TrafficPolicyInstanceTypeMarker` represent the first traffic policy
# instance that Amazon Route 53 will return if you submit another
# request.
#
# @return [Types::ListTrafficPolicyInstancesByHostedZoneResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListTrafficPolicyInstancesByHostedZoneResponse#traffic_policy_instances #traffic_policy_instances} => Array<Types::TrafficPolicyInstance>
# * {Types::ListTrafficPolicyInstancesByHostedZoneResponse#traffic_policy_instance_name_marker #traffic_policy_instance_name_marker} => String
# * {Types::ListTrafficPolicyInstancesByHostedZoneResponse#traffic_policy_instance_type_marker #traffic_policy_instance_type_marker} => String
# * {Types::ListTrafficPolicyInstancesByHostedZoneResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListTrafficPolicyInstancesByHostedZoneResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_traffic_policy_instances_by_hosted_zone({
# hosted_zone_id: "ResourceId", # required
# traffic_policy_instance_name_marker: "DNSName",
# traffic_policy_instance_type_marker: "SOA", # accepts SOA, A, TXT, NS, CNAME, MX, NAPTR, PTR, SRV, SPF, AAAA, CAA
# max_items: 1,
# })
#
# @example Response structure
#
# resp.traffic_policy_instances #=> Array
# resp.traffic_policy_instances[0].id #=> String
# resp.traffic_policy_instances[0].hosted_zone_id #=> String
# resp.traffic_policy_instances[0].name #=> String
# resp.traffic_policy_instances[0].ttl #=> Integer
# resp.traffic_policy_instances[0].state #=> String
# resp.traffic_policy_instances[0].message #=> String
# resp.traffic_policy_instances[0].traffic_policy_id #=> String
# resp.traffic_policy_instances[0].traffic_policy_version #=> Integer
# resp.traffic_policy_instances[0].traffic_policy_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.traffic_policy_instance_name_marker #=> String
# resp.traffic_policy_instance_type_marker #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.is_truncated #=> Boolean
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListTrafficPolicyInstancesByHostedZone AWS API Documentation
#
# @overload list_traffic_policy_instances_by_hosted_zone(params = {})
# @param [Hash] params ({})
def list_traffic_policy_instances_by_hosted_zone(params = {}, options = {})
req = build_request(:list_traffic_policy_instances_by_hosted_zone, params)
req.send_request(options)
end
# Gets information about the traffic policy instances that you created
# by using a specify traffic policy version.
#
# After you submit a `CreateTrafficPolicyInstance` or an
# `UpdateTrafficPolicyInstance` request, there's a brief delay while
# Amazon Route 53 creates the resource record sets that are specified in
# the traffic policy definition. For more information, see the `State`
# response element.
#
#
#
# Amazon Route 53 returns a maximum of 100 items in each response. If
# you have a lot of traffic policy instances, you can use the `MaxItems`
# parameter to list them in groups of up to 100.
#
# @option params [required, String] :traffic_policy_id
# The ID of the traffic policy for which you want to list traffic policy
# instances.
#
# @option params [required, Integer] :traffic_policy_version
# The version of the traffic policy for which you want to list traffic
# policy instances. The version must be associated with the traffic
# policy that is specified by `TrafficPolicyId`.
#
# @option params [String] :hosted_zone_id_marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstancesByPolicy`
# request.
#
# For the value of `hostedzoneid`, specify the value of
# `HostedZoneIdMarker` from the previous response, which is the hosted
# zone ID of the first traffic policy instance that Amazon Route 53 will
# return if you submit another request.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [String] :traffic_policy_instance_name_marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstancesByPolicy`
# request.
#
# For the value of `trafficpolicyinstancename`, specify the value of
# `TrafficPolicyInstanceNameMarker` from the previous response, which is
# the name of the first traffic policy instance that Amazon Route 53
# will return if you submit another request.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [String] :traffic_policy_instance_type_marker
# If the value of `IsTruncated` in the previous response was `true`, you
# have more traffic policy instances. To get more traffic policy
# instances, submit another `ListTrafficPolicyInstancesByPolicy`
# request.
#
# For the value of `trafficpolicyinstancetype`, specify the value of
# `TrafficPolicyInstanceTypeMarker` from the previous response, which is
# the name of the first traffic policy instance that Amazon Route 53
# will return if you submit another request.
#
# If the value of `IsTruncated` in the previous response was `false`,
# there are no more traffic policy instances to get.
#
# @option params [Integer] :max_items
# The maximum number of traffic policy instances to be included in the
# response body for this request. If you have more than `MaxItems`
# traffic policy instances, the value of the `IsTruncated` element in
# the response is `true`, and the values of `HostedZoneIdMarker`,
# `TrafficPolicyInstanceNameMarker`, and
# `TrafficPolicyInstanceTypeMarker` represent the first traffic policy
# instance that Amazon Route 53 will return if you submit another
# request.
#
# @return [Types::ListTrafficPolicyInstancesByPolicyResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListTrafficPolicyInstancesByPolicyResponse#traffic_policy_instances #traffic_policy_instances} => Array<Types::TrafficPolicyInstance>
# * {Types::ListTrafficPolicyInstancesByPolicyResponse#hosted_zone_id_marker #hosted_zone_id_marker} => String
# * {Types::ListTrafficPolicyInstancesByPolicyResponse#traffic_policy_instance_name_marker #traffic_policy_instance_name_marker} => String
# * {Types::ListTrafficPolicyInstancesByPolicyResponse#traffic_policy_instance_type_marker #traffic_policy_instance_type_marker} => String
# * {Types::ListTrafficPolicyInstancesByPolicyResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListTrafficPolicyInstancesByPolicyResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_traffic_policy_instances_by_policy({
# traffic_policy_id: "TrafficPolicyId", # required
# traffic_policy_version: 1, # required
# hosted_zone_id_marker: "ResourceId",
# traffic_policy_instance_name_marker: "DNSName",
# traffic_policy_instance_type_marker: "SOA", # accepts SOA, A, TXT, NS, CNAME, MX, NAPTR, PTR, SRV, SPF, AAAA, CAA
# max_items: 1,
# })
#
# @example Response structure
#
# resp.traffic_policy_instances #=> Array
# resp.traffic_policy_instances[0].id #=> String
# resp.traffic_policy_instances[0].hosted_zone_id #=> String
# resp.traffic_policy_instances[0].name #=> String
# resp.traffic_policy_instances[0].ttl #=> Integer
# resp.traffic_policy_instances[0].state #=> String
# resp.traffic_policy_instances[0].message #=> String
# resp.traffic_policy_instances[0].traffic_policy_id #=> String
# resp.traffic_policy_instances[0].traffic_policy_version #=> Integer
# resp.traffic_policy_instances[0].traffic_policy_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.hosted_zone_id_marker #=> String
# resp.traffic_policy_instance_name_marker #=> String
# resp.traffic_policy_instance_type_marker #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.is_truncated #=> Boolean
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListTrafficPolicyInstancesByPolicy AWS API Documentation
#
# @overload list_traffic_policy_instances_by_policy(params = {})
# @param [Hash] params ({})
def list_traffic_policy_instances_by_policy(params = {}, options = {})
req = build_request(:list_traffic_policy_instances_by_policy, params)
req.send_request(options)
end
# Gets information about all of the versions for a specified traffic
# policy.
#
# Traffic policy versions are listed in numerical order by
# `VersionNumber`.
#
# @option params [required, String] :id
# Specify the value of `Id` of the traffic policy for which you want to
# list all versions.
#
# @option params [String] :traffic_policy_version_marker
# For your first request to `ListTrafficPolicyVersions`, don't include
# the `TrafficPolicyVersionMarker` parameter.
#
# If you have more traffic policy versions than the value of `MaxItems`,
# `ListTrafficPolicyVersions` returns only the first group of `MaxItems`
# versions. To get more traffic policy versions, submit another
# `ListTrafficPolicyVersions` request. For the value of
# `TrafficPolicyVersionMarker`, specify the value of
# `TrafficPolicyVersionMarker` in the previous response.
#
# @option params [Integer] :max_items
# The maximum number of traffic policy versions that you want Amazon
# Route 53 to include in the response body for this request. If the
# specified traffic policy has more than `MaxItems` versions, the value
# of `IsTruncated` in the response is `true`, and the value of the
# `TrafficPolicyVersionMarker` element is the ID of the first version
# that Amazon Route 53 will return if you submit another request.
#
# @return [Types::ListTrafficPolicyVersionsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListTrafficPolicyVersionsResponse#traffic_policies #traffic_policies} => Array<Types::TrafficPolicy>
# * {Types::ListTrafficPolicyVersionsResponse#is_truncated #is_truncated} => Boolean
# * {Types::ListTrafficPolicyVersionsResponse#traffic_policy_version_marker #traffic_policy_version_marker} => String
# * {Types::ListTrafficPolicyVersionsResponse#max_items #max_items} => Integer
#
# @example Request syntax with placeholder values
#
# resp = client.list_traffic_policy_versions({
# id: "TrafficPolicyId", # required
# traffic_policy_version_marker: "TrafficPolicyVersionMarker",
# max_items: 1,
# })
#
# @example Response structure
#
# resp.traffic_policies #=> Array
# resp.traffic_policies[0].id #=> String
# resp.traffic_policies[0].version #=> Integer
# resp.traffic_policies[0].name #=> String
# resp.traffic_policies[0].type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.traffic_policies[0].document #=> String
# resp.traffic_policies[0].comment #=> String
# resp.is_truncated #=> Boolean
# resp.traffic_policy_version_marker #=> String
# resp.max_items #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListTrafficPolicyVersions AWS API Documentation
#
# @overload list_traffic_policy_versions(params = {})
# @param [Hash] params ({})
def list_traffic_policy_versions(params = {}, options = {})
req = build_request(:list_traffic_policy_versions, params)
req.send_request(options)
end
# Gets a list of the VPCs that were created by other accounts and that
# can be associated with a specified hosted zone because you've
# submitted one or more `CreateVPCAssociationAuthorization` requests.
#
# The response includes a `VPCs` element with a `VPC` child element for
# each VPC that can be associated with the hosted zone.
#
# @option params [required, String] :hosted_zone_id
# The ID of the hosted zone for which you want a list of VPCs that can
# be associated with the hosted zone.
#
# @option params [String] :next_token
# *Optional*\: If a response includes a `NextToken` element, there are
# more VPCs that can be associated with the specified hosted zone. To
# get the next page of results, submit another request, and include the
# value of `NextToken` from the response in the `nexttoken` parameter in
# another `ListVPCAssociationAuthorizations` request.
#
# @option params [String] :max_results
# *Optional*\: An integer that specifies the maximum number of VPCs that
# you want Amazon Route 53 to return. If you don't specify a value for
# `MaxResults`, Amazon Route 53 returns up to 50 VPCs per page.
#
# @return [Types::ListVPCAssociationAuthorizationsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListVPCAssociationAuthorizationsResponse#hosted_zone_id #hosted_zone_id} => String
# * {Types::ListVPCAssociationAuthorizationsResponse#next_token #next_token} => String
# * {Types::ListVPCAssociationAuthorizationsResponse#vp_cs #vp_cs} => Array<Types::VPC>
#
# @example Request syntax with placeholder values
#
# resp = client.list_vpc_association_authorizations({
# hosted_zone_id: "ResourceId", # required
# next_token: "PaginationToken",
# max_results: "MaxResults",
# })
#
# @example Response structure
#
# resp.hosted_zone_id #=> String
# resp.next_token #=> String
# resp.vp_cs #=> Array
# resp.vp_cs[0].vpc_region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "eu-west-1", "eu-west-2", "eu-central-1", "ap-southeast-1", "ap-southeast-2", "ap-south-1", "ap-northeast-1", "ap-northeast-2", "sa-east-1", "ca-central-1", "cn-north-1"
# resp.vp_cs[0].vpc_id #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/ListVPCAssociationAuthorizations AWS API Documentation
#
# @overload list_vpc_association_authorizations(params = {})
# @param [Hash] params ({})
def list_vpc_association_authorizations(params = {}, options = {})
req = build_request(:list_vpc_association_authorizations, params)
req.send_request(options)
end
# Gets the value that Amazon Route 53 returns in response to a DNS
# request for a specified record name and type. You can optionally
# specify the IP address of a DNS resolver, an EDNS0 client subnet IP
# address, and a subnet mask.
#
# @option params [required, String] :hosted_zone_id
# The ID of the hosted zone that you want Amazon Route 53 to simulate a
# query for.
#
# @option params [required, String] :record_name
# The name of the resource record set that you want Amazon Route 53 to
# simulate a query for.
#
# @option params [required, String] :record_type
# The type of the resource record set.
#
# @option params [String] :resolver_ip
# If you want to simulate a request from a specific DNS resolver,
# specify the IP address for that resolver. If you omit this value,
# `TestDnsAnswer` uses the IP address of a DNS resolver in the AWS US
# East (N. Virginia) Region (`us-east-1`).
#
# @option params [String] :edns0_client_subnet_ip
# If the resolver that you specified for resolverip supports EDNS0,
# specify the IPv4 or IPv6 address of a client in the applicable
# location, for example, `192.0.2.44` or `2001:db8:85a3::8a2e:370:7334`.
#
# @option params [String] :edns0_client_subnet_mask
# If you specify an IP address for `edns0clientsubnetip`, you can
# optionally specify the number of bits of the IP address that you want
# the checking tool to include in the DNS query. For example, if you
# specify `192.0.2.44` for `edns0clientsubnetip` and `24` for
# `edns0clientsubnetmask`, the checking tool will simulate a request
# from 192.0.2.0/24. The default value is 24 bits for IPv4 addresses and
# 64 bits for IPv6 addresses.
#
# @return [Types::TestDNSAnswerResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::TestDNSAnswerResponse#nameserver #nameserver} => String
# * {Types::TestDNSAnswerResponse#record_name #record_name} => String
# * {Types::TestDNSAnswerResponse#record_type #record_type} => String
# * {Types::TestDNSAnswerResponse#record_data #record_data} => Array<String>
# * {Types::TestDNSAnswerResponse#response_code #response_code} => String
# * {Types::TestDNSAnswerResponse#protocol #protocol} => String
#
# @example Request syntax with placeholder values
#
# resp = client.test_dns_answer({
# hosted_zone_id: "ResourceId", # required
# record_name: "DNSName", # required
# record_type: "SOA", # required, accepts SOA, A, TXT, NS, CNAME, MX, NAPTR, PTR, SRV, SPF, AAAA, CAA
# resolver_ip: "IPAddress",
# edns0_client_subnet_ip: "IPAddress",
# edns0_client_subnet_mask: "SubnetMask",
# })
#
# @example Response structure
#
# resp.nameserver #=> String
# resp.record_name #=> String
# resp.record_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.record_data #=> Array
# resp.record_data[0] #=> String
# resp.response_code #=> String
# resp.protocol #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/TestDNSAnswer AWS API Documentation
#
# @overload test_dns_answer(params = {})
# @param [Hash] params ({})
def test_dns_answer(params = {}, options = {})
req = build_request(:test_dns_answer, params)
req.send_request(options)
end
# Updates an existing health check. Note that some values can't be
# updated.
#
# For more information about updating health checks, see [Creating,
# Updating, and Deleting Health Checks][1] in the *Amazon Route 53
# Developer Guide*.
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/health-checks-creating-deleting.html
#
# @option params [required, String] :health_check_id
# The ID for the health check for which you want detailed information.
# When you created the health check, `CreateHealthCheck` returned the ID
# in the response, in the `HealthCheckId` element.
#
# @option params [Integer] :health_check_version
# A sequential counter that Amazon Route 53 sets to `1` when you create
# a health check and increments by 1 each time you update settings for
# the health check.
#
# We recommend that you use `GetHealthCheck` or `ListHealthChecks` to
# get the current value of `HealthCheckVersion` for the health check
# that you want to update, and that you include that value in your
# `UpdateHealthCheck` request. This prevents Amazon Route 53 from
# overwriting an intervening update:
#
# * If the value in the `UpdateHealthCheck` request matches the value of
# `HealthCheckVersion` in the health check, Amazon Route 53 updates
# the health check with the new settings.
#
# * If the value of `HealthCheckVersion` in the health check is greater,
# the health check was changed after you got the version number.
# Amazon Route 53 does not update the health check, and it returns a
# `HealthCheckVersionMismatch` error.
#
# @option params [String] :ip_address
# The IPv4 or IPv6 IP address for the endpoint that you want Amazon
# Route 53 to perform health checks on. If you don't specify a value
# for `IPAddress`, Amazon Route 53 sends a DNS request to resolve the
# domain name that you specify in `FullyQualifiedDomainName` at the
# interval that you specify in `RequestInterval`. Using an IP address
# that is returned by DNS, Amazon Route 53 then checks the health of the
# endpoint.
#
# Use one of the following formats for the value of `IPAddress`\:
#
# * **IPv4 address**\: four values between 0 and 255, separated by
# periods (.), for example, `192.0.2.44`.
#
# * **IPv6 address**\: eight groups of four hexadecimal values,
# separated by colons (:), for example,
# `2001:0db8:85a3:0000:0000:abcd:0001:2345`. You can also shorten IPv6
# addresses as described in RFC 5952, for example,
# `2001:db8:85a3::abcd:1:2345`.
#
# If the endpoint is an EC2 instance, we recommend that you create an
# Elastic IP address, associate it with your EC2 instance, and specify
# the Elastic IP address for `IPAddress`. This ensures that the IP
# address of your instance never changes. For more information, see the
# applicable documentation:
#
# * Linux: [Elastic IP Addresses (EIP)][1] in the *Amazon EC2 User Guide
# for Linux Instances*
#
# * Windows: [Elastic IP Addresses (EIP)][2] in the *Amazon EC2 User
# Guide for Windows Instances*
#
# If a health check already has a value for `IPAddress`, you can change
# the value. However, you can't update an existing health check to add
# or remove the value of `IPAddress`.
#
#
#
# For more information, see
# UpdateHealthCheckRequest$FullyQualifiedDomainName.
#
# Constraints: Amazon Route 53 can't check the health of endpoints for
# which the IP address is in local, private, non-routable, or multicast
# ranges. For more information about IP addresses for which you can't
# create health checks, see the following documents:
#
# * [RFC 5735, Special Use IPv4 Addresses][3]
#
# * [RFC 6598, IANA-Reserved IPv4 Prefix for Shared Address Space][4]
#
# * [RFC 5156, Special-Use IPv6 Addresses][5]
#
#
#
# [1]: http://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html
# [2]: http://docs.aws.amazon.com/AWSEC2/latest/WindowsGuide/elastic-ip-addresses-eip.html
# [3]: https://tools.ietf.org/html/rfc5735
# [4]: https://tools.ietf.org/html/rfc6598
# [5]: https://tools.ietf.org/html/rfc5156
#
# @option params [Integer] :port
# The port on the endpoint on which you want Amazon Route 53 to perform
# health checks.
#
# @option params [String] :resource_path
# The path that you want Amazon Route 53 to request when performing
# health checks. The path can be any value for which your endpoint will
# return an HTTP status code of 2xx or 3xx when the endpoint is healthy,
# for example the file /docs/route53-health-check.html.
#
# Specify this value only if you want to change it.
#
# @option params [String] :fully_qualified_domain_name
# Amazon Route 53 behavior depends on whether you specify a value for
# `IPAddress`.
#
# If a health check already has a value for `IPAddress`, you can change
# the value. However, you can't update an existing health check to add
# or remove the value of `IPAddress`.
#
#
#
# **If you specify a value for** `IPAddress`\:
#
# Amazon Route 53 sends health check requests to the specified IPv4 or
# IPv6 address and passes the value of `FullyQualifiedDomainName` in the
# `Host` header for all health checks except TCP health checks. This is
# typically the fully qualified DNS name of the endpoint on which you
# want Amazon Route 53 to perform health checks.
#
# When Amazon Route 53 checks the health of an endpoint, here is how it
# constructs the `Host` header:
#
# * If you specify a value of `80` for `Port` and `HTTP` or
# `HTTP_STR_MATCH` for `Type`, Amazon Route 53 passes the value of
# `FullyQualifiedDomainName` to the endpoint in the `Host` header.
#
# * If you specify a value of `443` for `Port` and `HTTPS` or
# `HTTPS_STR_MATCH` for `Type`, Amazon Route 53 passes the value of
# `FullyQualifiedDomainName` to the endpoint in the `Host` header.
#
# * If you specify another value for `Port` and any value except `TCP`
# for `Type`, Amazon Route 53 passes
# FullyQualifiedDomainName\:Port to the
# endpoint in the `Host` header.
#
# If you don't specify a value for `FullyQualifiedDomainName`, Amazon
# Route 53 substitutes the value of `IPAddress` in the `Host` header in
# each of the above cases.
#
# **If you don't specify a value for** `IPAddress`\:
#
# If you don't specify a value for `IPAddress`, Amazon Route 53 sends a
# DNS request to the domain that you specify in
# `FullyQualifiedDomainName` at the interval you specify in
# `RequestInterval`. Using an IPv4 address that is returned by DNS,
# Amazon Route 53 then checks the health of the endpoint.
#
# If you don't specify a value for `IPAddress`, Amazon Route 53 uses
# only IPv4 to send health checks to the endpoint. If there's no
# resource record set with a type of A for the name that you specify for
# `FullyQualifiedDomainName`, the health check fails with a "DNS
# resolution failed" error.
#
#
#
# If you want to check the health of weighted, latency, or failover
# resource record sets and you choose to specify the endpoint only by
# `FullyQualifiedDomainName`, we recommend that you create a separate
# health check for each endpoint. For example, create a health check for
# each HTTP server that is serving content for www.example.com. For the
# value of `FullyQualifiedDomainName`, specify the domain name of the
# server (such as `us-east-2-www.example.com`), not the name of the
# resource record sets (www.example.com).
#
# In this configuration, if the value of `FullyQualifiedDomainName`
# matches the name of the resource record sets and you then associate
# the health check with those resource record sets, health check results
# will be unpredictable.
#
# In addition, if the value of `Type` is `HTTP`, `HTTPS`,
# `HTTP_STR_MATCH`, or `HTTPS_STR_MATCH`, Amazon Route 53 passes the
# value of `FullyQualifiedDomainName` in the `Host` header, as it does
# when you specify a value for `IPAddress`. If the value of `Type` is
# `TCP`, Amazon Route 53 doesn't pass a `Host` header.
#
# @option params [String] :search_string
# If the value of `Type` is `HTTP_STR_MATCH` or `HTTP_STR_MATCH`, the
# string that you want Amazon Route 53 to search for in the response
# body from the specified resource. If the string appears in the
# response body, Amazon Route 53 considers the resource healthy. (You
# can't change the value of `Type` when you update a health check.)
#
# @option params [Integer] :failure_threshold
# The number of consecutive health checks that an endpoint must pass or
# fail for Amazon Route 53 to change the current status of the endpoint
# from unhealthy to healthy or vice versa. For more information, see
# [How Amazon Route 53 Determines Whether an Endpoint Is Healthy][1] in
# the *Amazon Route 53 Developer Guide*.
#
# If you don't specify a value for `FailureThreshold`, the default
# value is three health checks.
#
#
#
# [1]: http://docs.aws.amazon.com/Route53/latest/DeveloperGuide/dns-failover-determining-health-of-endpoints.html
#
# @option params [Boolean] :inverted
# Specify whether you want Amazon Route 53 to invert the status of a
# health check, for example, to consider a health check unhealthy when
# it otherwise would be considered healthy.
#
# @option params [Integer] :health_threshold
# The number of child health checks that are associated with a
# `CALCULATED` health that Amazon Route 53 must consider healthy for the
# `CALCULATED` health check to be considered healthy. To specify the
# child health checks that you want to associate with a `CALCULATED`
# health check, use the `ChildHealthChecks` and `ChildHealthCheck`
# elements.
#
# Note the following:
#
# * If you specify a number greater than the number of child health
# checks, Amazon Route 53 always considers this health check to be
# unhealthy.
#
# * If you specify `0`, Amazon Route 53 always considers this health
# check to be healthy.
#
# @option params [Array] :child_health_checks
# A complex type that contains one `ChildHealthCheck` element for each
# health check that you want to associate with a `CALCULATED` health
# check.
#
# @option params [Boolean] :enable_sni
# Specify whether you want Amazon Route 53 to send the value of
# `FullyQualifiedDomainName` to the endpoint in the `client_hello`
# message during `TLS` negotiation. This allows the endpoint to respond
# to `HTTPS` health check requests with the applicable SSL/TLS
# certificate.
#
# Some endpoints require that HTTPS requests include the host name in
# the `client_hello` message. If you don't enable SNI, the status of
# the health check will be SSL alert `handshake_failure`. A health check
# can also have that status for other reasons. If SNI is enabled and
# you're still getting the error, check the SSL/TLS configuration on
# your endpoint and confirm that your certificate is valid.
#
# The SSL/TLS certificate on your endpoint includes a domain name in the
# `Common Name` field and possibly several more in the `Subject
# Alternative Names` field. One of the domain names in the certificate
# should match the value that you specify for
# `FullyQualifiedDomainName`. If the endpoint responds to the
# `client_hello` message with a certificate that does not include the
# domain name that you specified in `FullyQualifiedDomainName`, a health
# checker will retry the handshake. In the second attempt, the health
# checker will omit `FullyQualifiedDomainName` from the `client_hello`
# message.
#
# @option params [Array] :regions
# A complex type that contains one `Region` element for each region that
# you want Amazon Route 53 health checkers to check the specified
# endpoint from.
#
# @option params [Types::AlarmIdentifier] :alarm_identifier
# A complex type that identifies the CloudWatch alarm that you want
# Amazon Route 53 health checkers to use to determine whether this
# health check is healthy.
#
# @option params [String] :insufficient_data_health_status
# When CloudWatch has insufficient data about the metric to determine
# the alarm state, the status that you want Amazon Route 53 to assign to
# the health check:
#
# * `Healthy`\: Amazon Route 53 considers the health check to be
# healthy.
#
# * `Unhealthy`\: Amazon Route 53 considers the health check to be
# unhealthy.
#
# * `LastKnownStatus`\: Amazon Route 53 uses the status of the health
# check from the last time CloudWatch had sufficient data to determine
# the alarm state. For new health checks that have no last known
# status, the default status for the health check is healthy.
#
# @return [Types::UpdateHealthCheckResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::UpdateHealthCheckResponse#health_check #health_check} => Types::HealthCheck
#
# @example Request syntax with placeholder values
#
# resp = client.update_health_check({
# health_check_id: "HealthCheckId", # required
# health_check_version: 1,
# ip_address: "IPAddress",
# port: 1,
# resource_path: "ResourcePath",
# fully_qualified_domain_name: "FullyQualifiedDomainName",
# search_string: "SearchString",
# failure_threshold: 1,
# inverted: false,
# health_threshold: 1,
# child_health_checks: ["HealthCheckId"],
# enable_sni: false,
# regions: ["us-east-1"], # accepts us-east-1, us-west-1, us-west-2, eu-west-1, ap-southeast-1, ap-southeast-2, ap-northeast-1, sa-east-1
# alarm_identifier: {
# region: "us-east-1", # required, accepts us-east-1, us-east-2, us-west-1, us-west-2, ca-central-1, eu-central-1, eu-west-1, eu-west-2, ap-south-1, ap-southeast-1, ap-southeast-2, ap-northeast-1, ap-northeast-2, sa-east-1
# name: "AlarmName", # required
# },
# insufficient_data_health_status: "Healthy", # accepts Healthy, Unhealthy, LastKnownStatus
# })
#
# @example Response structure
#
# resp.health_check.id #=> String
# resp.health_check.caller_reference #=> String
# resp.health_check.health_check_config.ip_address #=> String
# resp.health_check.health_check_config.port #=> Integer
# resp.health_check.health_check_config.type #=> String, one of "HTTP", "HTTPS", "HTTP_STR_MATCH", "HTTPS_STR_MATCH", "TCP", "CALCULATED", "CLOUDWATCH_METRIC"
# resp.health_check.health_check_config.resource_path #=> String
# resp.health_check.health_check_config.fully_qualified_domain_name #=> String
# resp.health_check.health_check_config.search_string #=> String
# resp.health_check.health_check_config.request_interval #=> Integer
# resp.health_check.health_check_config.failure_threshold #=> Integer
# resp.health_check.health_check_config.measure_latency #=> Boolean
# resp.health_check.health_check_config.inverted #=> Boolean
# resp.health_check.health_check_config.health_threshold #=> Integer
# resp.health_check.health_check_config.child_health_checks #=> Array
# resp.health_check.health_check_config.child_health_checks[0] #=> String
# resp.health_check.health_check_config.enable_sni #=> Boolean
# resp.health_check.health_check_config.regions #=> Array
# resp.health_check.health_check_config.regions[0] #=> String, one of "us-east-1", "us-west-1", "us-west-2", "eu-west-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "sa-east-1"
# resp.health_check.health_check_config.alarm_identifier.region #=> String, one of "us-east-1", "us-east-2", "us-west-1", "us-west-2", "ca-central-1", "eu-central-1", "eu-west-1", "eu-west-2", "ap-south-1", "ap-southeast-1", "ap-southeast-2", "ap-northeast-1", "ap-northeast-2", "sa-east-1"
# resp.health_check.health_check_config.alarm_identifier.name #=> String
# resp.health_check.health_check_config.insufficient_data_health_status #=> String, one of "Healthy", "Unhealthy", "LastKnownStatus"
# resp.health_check.health_check_version #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.evaluation_periods #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.threshold #=> Float
# resp.health_check.cloud_watch_alarm_configuration.comparison_operator #=> String, one of "GreaterThanOrEqualToThreshold", "GreaterThanThreshold", "LessThanThreshold", "LessThanOrEqualToThreshold"
# resp.health_check.cloud_watch_alarm_configuration.period #=> Integer
# resp.health_check.cloud_watch_alarm_configuration.metric_name #=> String
# resp.health_check.cloud_watch_alarm_configuration.namespace #=> String
# resp.health_check.cloud_watch_alarm_configuration.statistic #=> String, one of "Average", "Sum", "SampleCount", "Maximum", "Minimum"
# resp.health_check.cloud_watch_alarm_configuration.dimensions #=> Array
# resp.health_check.cloud_watch_alarm_configuration.dimensions[0].name #=> String
# resp.health_check.cloud_watch_alarm_configuration.dimensions[0].value #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/UpdateHealthCheck AWS API Documentation
#
# @overload update_health_check(params = {})
# @param [Hash] params ({})
def update_health_check(params = {}, options = {})
req = build_request(:update_health_check, params)
req.send_request(options)
end
# Updates the comment for a specified hosted zone.
#
# @option params [required, String] :id
# The ID for the hosted zone that you want to update the comment for.
#
# @option params [String] :comment
# The new comment for the hosted zone. If you don't specify a value for
# `Comment`, Amazon Route 53 deletes the existing value of the `Comment`
# element, if any.
#
# @return [Types::UpdateHostedZoneCommentResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::UpdateHostedZoneCommentResponse#hosted_zone #hosted_zone} => Types::HostedZone
#
# @example Request syntax with placeholder values
#
# resp = client.update_hosted_zone_comment({
# id: "ResourceId", # required
# comment: "ResourceDescription",
# })
#
# @example Response structure
#
# resp.hosted_zone.id #=> String
# resp.hosted_zone.name #=> String
# resp.hosted_zone.caller_reference #=> String
# resp.hosted_zone.config.comment #=> String
# resp.hosted_zone.config.private_zone #=> Boolean
# resp.hosted_zone.resource_record_set_count #=> Integer
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/UpdateHostedZoneComment AWS API Documentation
#
# @overload update_hosted_zone_comment(params = {})
# @param [Hash] params ({})
def update_hosted_zone_comment(params = {}, options = {})
req = build_request(:update_hosted_zone_comment, params)
req.send_request(options)
end
# Updates the comment for a specified traffic policy version.
#
# @option params [required, String] :id
# The value of `Id` for the traffic policy that you want to update the
# comment for.
#
# @option params [required, Integer] :version
# The value of `Version` for the traffic policy that you want to update
# the comment for.
#
# @option params [required, String] :comment
# The new comment for the specified traffic policy and version.
#
# @return [Types::UpdateTrafficPolicyCommentResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::UpdateTrafficPolicyCommentResponse#traffic_policy #traffic_policy} => Types::TrafficPolicy
#
# @example Request syntax with placeholder values
#
# resp = client.update_traffic_policy_comment({
# id: "TrafficPolicyId", # required
# version: 1, # required
# comment: "TrafficPolicyComment", # required
# })
#
# @example Response structure
#
# resp.traffic_policy.id #=> String
# resp.traffic_policy.version #=> Integer
# resp.traffic_policy.name #=> String
# resp.traffic_policy.type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
# resp.traffic_policy.document #=> String
# resp.traffic_policy.comment #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/UpdateTrafficPolicyComment AWS API Documentation
#
# @overload update_traffic_policy_comment(params = {})
# @param [Hash] params ({})
def update_traffic_policy_comment(params = {}, options = {})
req = build_request(:update_traffic_policy_comment, params)
req.send_request(options)
end
# Updates the resource record sets in a specified hosted zone that were
# created based on the settings in a specified traffic policy version.
#
# When you update a traffic policy instance, Amazon Route 53 continues
# to respond to DNS queries for the root resource record set name (such
# as example.com) while it replaces one group of resource record sets
# with another. Amazon Route 53 performs the following operations:
#
# 1. Amazon Route 53 creates a new group of resource record sets based
# on the specified traffic policy. This is true regardless of how
# significant the differences are between the existing resource
# record sets and the new resource record sets.
#
# 2. When all of the new resource record sets have been created, Amazon
# Route 53 starts to respond to DNS queries for the root resource
# record set name (such as example.com) by using the new resource
# record sets.
#
# 3. Amazon Route 53 deletes the old group of resource record sets that
# are associated with the root resource record set name.
#
# @option params [required, String] :id
# The ID of the traffic policy instance that you want to update.
#
# @option params [required, Integer] :ttl
# The TTL that you want Amazon Route 53 to assign to all of the updated
# resource record sets.
#
# @option params [required, String] :traffic_policy_id
# The ID of the traffic policy that you want Amazon Route 53 to use to
# update resource record sets for the specified traffic policy instance.
#
# @option params [required, Integer] :traffic_policy_version
# The version of the traffic policy that you want Amazon Route 53 to use
# to update resource record sets for the specified traffic policy
# instance.
#
# @return [Types::UpdateTrafficPolicyInstanceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::UpdateTrafficPolicyInstanceResponse#traffic_policy_instance #traffic_policy_instance} => Types::TrafficPolicyInstance
#
# @example Request syntax with placeholder values
#
# resp = client.update_traffic_policy_instance({
# id: "TrafficPolicyInstanceId", # required
# ttl: 1, # required
# traffic_policy_id: "TrafficPolicyId", # required
# traffic_policy_version: 1, # required
# })
#
# @example Response structure
#
# resp.traffic_policy_instance.id #=> String
# resp.traffic_policy_instance.hosted_zone_id #=> String
# resp.traffic_policy_instance.name #=> String
# resp.traffic_policy_instance.ttl #=> Integer
# resp.traffic_policy_instance.state #=> String
# resp.traffic_policy_instance.message #=> String
# resp.traffic_policy_instance.traffic_policy_id #=> String
# resp.traffic_policy_instance.traffic_policy_version #=> Integer
# resp.traffic_policy_instance.traffic_policy_type #=> String, one of "SOA", "A", "TXT", "NS", "CNAME", "MX", "NAPTR", "PTR", "SRV", "SPF", "AAAA", "CAA"
#
# @see http://docs.aws.amazon.com/goto/WebAPI/route53-2013-04-01/UpdateTrafficPolicyInstance AWS API Documentation
#
# @overload update_traffic_policy_instance(params = {})
# @param [Hash] params ({})
def update_traffic_policy_instance(params = {}, options = {})
req = build_request(:update_traffic_policy_instance, params)
req.send_request(options)
end
# @!endgroup
# @param params ({})
# @api private
def build_request(operation_name, params = {})
handlers = @handlers.for(operation_name)
context = Seahorse::Client::RequestContext.new(
operation_name: operation_name,
operation: config.api.operation(operation_name),
client: self,
params: params,
config: config)
context[:gem_name] = 'aws-sdk-route53'
context[:gem_version] = '1.0.0.rc15'
Seahorse::Client::Request.new(handlers, context)
end
# Polls an API operation until a resource enters a desired state.
#
# ## Basic Usage
#
# A waiter will call an API operation until:
#
# * It is successful
# * It enters a terminal state
# * It makes the maximum number of attempts
#
# In between attempts, the waiter will sleep.
#
# # polls in a loop, sleeping between attempts
# client.waiter_until(waiter_name, params)
#
# ## Configuration
#
# You can configure the maximum number of polling attempts, and the
# delay (in seconds) between each polling attempt. You can pass
# configuration as the final arguments hash.
#
# # poll for ~25 seconds
# client.wait_until(waiter_name, params, {
# max_attempts: 5,
# delay: 5,
# })
#
# ## Callbacks
#
# You can be notified before each polling attempt and before each
# delay. If you throw `:success` or `:failure` from these callbacks,
# it will terminate the waiter.
#
# started_at = Time.now
# client.wait_until(waiter_name, params, {
#
# # disable max attempts
# max_attempts: nil,
#
# # poll for 1 hour, instead of a number of attempts
# before_wait: -> (attempts, response) do
# throw :failure if Time.now - started_at > 3600
# end
# })
#
# ## Handling Errors
#
# When a waiter is unsuccessful, it will raise an error.
# All of the failure errors extend from
# {Aws::Waiters::Errors::WaiterFailed}.
#
# begin
# client.wait_until(...)
# rescue Aws::Waiters::Errors::WaiterFailed
# # resource did not enter the desired state in time
# end
#
# ## Valid Waiters
#
# The following table lists the valid waiter names, the operations they call,
# and the default `:delay` and `:max_attempts` values.
#
# | waiter_name | params | :delay | :max_attempts |
# | ---------------------------- | ------------- | -------- | ------------- |
# | resource_record_sets_changed | {#get_change} | 30 | 60 |
#
# @raise [Errors::FailureStateError] Raised when the waiter terminates
# because the waiter has entered a state that it will not transition
# out of, preventing success.
#
# @raise [Errors::TooManyAttemptsError] Raised when the configured
# maximum number of attempts have been made, and the waiter is not
# yet successful.
#
# @raise [Errors::UnexpectedError] Raised when an error is encounted
# while polling for a resource that is not expected.
#
# @raise [Errors::NoSuchWaiterError] Raised when you request to wait
# for an unknown state.
#
# @return [Boolean] Returns `true` if the waiter was successful.
# @param [Symbol] waiter_name
# @param [Hash] params ({})
# @param [Hash] options ({})
# @option options [Integer] :max_attempts
# @option options [Integer] :delay
# @option options [Proc] :before_attempt
# @option options [Proc] :before_wait
def wait_until(waiter_name, params = {}, options = {})
w = waiter(waiter_name, options)
yield(w.waiter) if block_given? # deprecated
w.wait(params)
end
# @api private
# @deprecated
def waiter_names
waiters.keys
end
private
# @param [Symbol] waiter_name
# @param [Hash] options ({})
def waiter(waiter_name, options = {})
waiter_class = waiters[waiter_name]
if waiter_class
waiter_class.new(options.merge(client: self))
else
raise Aws::Waiters::Errors::NoSuchWaiterError.new(waiter_name, waiters.keys)
end
end
def waiters
{
resource_record_sets_changed: Waiters::ResourceRecordSetsChanged
}
end
class << self
# @api private
attr_reader :identifier
# @api private
def errors_module
Errors
end
end
end
end