# 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 module Aws::RDS class DBSnapshot extend Aws::Deprecations # @overload def initialize(instance_id, snapshot_id, options = {}) # @param [String] instance_id # @param [String] snapshot_id # @option options [Client] :client # @overload def initialize(options = {}) # @option options [required, String] :instance_id # @option options [required, String] :snapshot_id # @option options [Client] :client def initialize(*args) options = Hash === args.last ? args.pop.dup : {} @instance_id = extract_instance_id(args, options) @snapshot_id = extract_snapshot_id(args, options) @data = options.delete(:data) @client = options.delete(:client) || Client.new(options) end # @!group Read-Only Attributes # @return [String] def instance_id @instance_id end alias :db_instance_identifier :instance_id # @return [String] def snapshot_id @snapshot_id end alias :db_snapshot_identifier :snapshot_id # Provides the time when the snapshot was taken, in Universal # Coordinated Time (UTC). # @return [Time] def snapshot_create_time data[:snapshot_create_time] end # Specifies the name of the database engine. # @return [String] def engine data[:engine] end # Specifies the allocated storage size in gibibytes (GiB). # @return [Integer] def allocated_storage data[:allocated_storage] end # Specifies the status of this DB snapshot. # @return [String] def status data[:status] end # Specifies the port that the database engine was listening on at the # time of the snapshot. # @return [Integer] def port data[:port] end # Specifies the name of the Availability Zone the DB instance was # located in at the time of the DB snapshot. # @return [String] def availability_zone data[:availability_zone] end # Provides the VPC ID associated with the DB snapshot. # @return [String] def vpc_id data[:vpc_id] end # Specifies the time when the snapshot was taken, in Universal # Coordinated Time (UTC). # @return [Time] def instance_create_time data[:instance_create_time] end # Provides the master username for the DB snapshot. # @return [String] def master_username data[:master_username] end # Specifies the version of the database engine. # @return [String] def engine_version data[:engine_version] end # License model information for the restored DB instance. # @return [String] def license_model data[:license_model] end # Provides the type of the DB snapshot. # @return [String] def snapshot_type data[:snapshot_type] end # Specifies the Provisioned IOPS (I/O operations per second) value of # the DB instance at the time of the snapshot. # @return [Integer] def iops data[:iops] end # Provides the option group name for the DB snapshot. # @return [String] def option_group_name data[:option_group_name] end # The percentage of the estimated data that has been transferred. # @return [Integer] def percent_progress data[:percent_progress] end # The AWS Region that the DB snapshot was created in or copied from. # @return [String] def source_region data[:source_region] end # The DB snapshot Amazon Resource Name (ARN) that the DB snapshot was # copied from. It only has value in case of cross-customer or # cross-region copy. # @return [String] def source_db_snapshot_identifier data[:source_db_snapshot_identifier] end # Specifies the storage type associated with DB snapshot. # @return [String] def storage_type data[:storage_type] end # The ARN from the key store with which to associate the instance for # TDE encryption. # @return [String] def tde_credential_arn data[:tde_credential_arn] end # Specifies whether the DB snapshot is encrypted. # @return [Boolean] def encrypted data[:encrypted] end # If `Encrypted` is true, the AWS KMS key identifier for the encrypted # DB snapshot. # @return [String] def kms_key_id data[:kms_key_id] end # The Amazon Resource Name (ARN) for the DB snapshot. # @return [String] def db_snapshot_arn data[:db_snapshot_arn] end # The time zone of the DB snapshot. In most cases, the `Timezone` # element is empty. `Timezone` content appears only for snapshots taken # from Microsoft SQL Server DB instances that were created with a time # zone specified. # @return [String] def timezone data[:timezone] end # True if mapping of AWS Identity and Access Management (IAM) accounts # to database accounts is enabled, and otherwise false. # @return [Boolean] def iam_database_authentication_enabled data[:iam_database_authentication_enabled] end # @!endgroup # @return [Client] def client @client end # Loads, or reloads {#data} for the current {DBSnapshot}. # Returns `self` making it possible to chain methods. # # db_snapshot.reload.data # # @return [self] def load resp = @client.describe_db_snapshots(db_snapshot_identifier: @snapshot_id) @data = resp.db_snapshots[0] self end alias :reload :load # @return [Types::DBSnapshot] # Returns the data for this {DBSnapshot}. Calls # {Client#describe_db_snapshots} if {#data_loaded?} is `false`. def data load unless @data @data end # @return [Boolean] # Returns `true` if this resource is loaded. Accessing attributes or # {#data} on an unloaded resource will trigger a call to {#load}. def data_loaded? !!@data end # @deprecated Use [Aws::RDS::Client] #wait_until instead # # Waiter polls an API operation until a resource enters a desired # state. # # @note The waiting operation is performed on a copy. The original resource remains unchanged # # ## Basic Usage # # Waiter will polls until it is successful, it fails by # entering a terminal state, or until a maximum number of attempts # are made. # # # polls in a loop until condition is true # resource.wait_until(options) {|resource| condition} # # ## Example # # instance.wait_until(max_attempts:10, delay:5) {|instance| instance.state.name == 'running' } # # ## Configuration # # You can configure the maximum number of polling attempts, and the # delay (in seconds) between each polling attempt. The waiting condition is set # by passing a block to {#wait_until}: # # # poll for ~25 seconds # resource.wait_until(max_attempts:5,delay:5) {|resource|...} # # ## 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 # # poll for 1 hour, instead of a number of attempts # proc = Proc.new do |attempts, response| # throw :failure if Time.now - started_at > 3600 # end # # # disable max attempts # instance.wait_until(before_wait:proc, max_attempts:nil) {...} # # ## Handling Errors # # When a waiter is successful, it returns the Resource. When a waiter # fails, it raises an error. # # begin # resource.wait_until(...) # rescue Aws::Waiters::Errors::WaiterFailed # # resource did not enter the desired state in time # end # # # @yield param [Resource] resource to be used in the waiting condition # # @raise [Aws::Waiters::Errors::FailureStateError] Raised when the waiter terminates # because the waiter has entered a state that it will not transition # out of, preventing success. # # yet successful. # # @raise [Aws::Waiters::Errors::UnexpectedError] Raised when an error is encountered # while polling for a resource that is not expected. # # @raise [NotImplementedError] Raised when the resource does not # # @option options [Integer] :max_attempts (10) Maximum number of # attempts # @option options [Integer] :delay (10) Delay between each # attempt in seconds # @option options [Proc] :before_attempt (nil) Callback # invoked before each attempt # @option options [Proc] :before_wait (nil) Callback # invoked before each wait # @return [Resource] if the waiter was successful def wait_until(options = {}, &block) self_copy = self.dup attempts = 0 options[:max_attempts] = 10 unless options.key?(:max_attempts) options[:delay] ||= 10 options[:poller] = Proc.new do attempts += 1 if block.call(self_copy) [:success, self_copy] else self_copy.reload unless attempts == options[:max_attempts] :retry end end Aws::Waiters::Waiter.new(options).wait({}) end # @!group Actions # @example Request syntax with placeholder values # # dbsnapshot = db_snapshot.create({ # tags: [ # { # key: "String", # value: "String", # }, # ], # }) # @param [Hash] options ({}) # @option options [Array] :tags # A list of tags. For more information, see [Tagging Amazon RDS # Resources][1]. # # # # [1]: http://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_Tagging.html # @return [DBSnapshot] def create(options = {}) options = options.merge( db_instance_identifier: @instance_id, db_snapshot_identifier: @snapshot_id ) resp = @client.create_db_snapshot(options) DBSnapshot.new( instance_id: resp.data.db_snapshot.db_instance_identifier, snapshot_id: resp.data.db_snapshot.db_snapshot_identifier, data: resp.data.db_snapshot, client: @client ) end # @example Request syntax with placeholder values # # dbsnapshot = db_snapshot.copy({ # target_db_snapshot_identifier: "String", # required # kms_key_id: "String", # tags: [ # { # key: "String", # value: "String", # }, # ], # copy_tags: false, # pre_signed_url: "String", # option_group_name: "String", # source_region: "String", # }) # @param [Hash] options ({}) # @option options [required, String] :target_db_snapshot_identifier # The identifier for the copy of the snapshot. # # Constraints: # # * Cannot be null, empty, or blank # # * Must contain from 1 to 255 letters, numbers, or hyphens # # * First character must be a letter # # * Cannot end with a hyphen or contain two consecutive hyphens # # Example: `my-db-snapshot` # @option options [String] :kms_key_id # The AWS KMS key ID for an encrypted DB snapshot. The KMS key ID is the # Amazon Resource Name (ARN), KMS key identifier, or the KMS key alias # for the KMS encryption key. # # If you copy an encrypted DB snapshot from your AWS account, you can # specify a value for this parameter to encrypt the copy with a new KMS # encryption key. If you don't specify a value for this parameter, then # the copy of the DB snapshot is encrypted with the same KMS key as the # source DB snapshot. # # If you copy an encrypted DB snapshot that is shared from another AWS # account, then you must specify a value for this parameter. # # If you specify this parameter when you copy an unencrypted snapshot, # the copy is encrypted. # # If you copy an encrypted snapshot to a different AWS Region, then you # must specify a KMS key for the destination AWS Region. KMS encryption # keys are specific to the AWS Region that they are created in, and you # can't use encryption keys from one AWS Region in another AWS Region. # @option options [Array] :tags # A list of tags. For more information, see [Tagging Amazon RDS # Resources][1]. # # # # [1]: http://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_Tagging.html # @option options [Boolean] :copy_tags # True to copy all tags from the source DB snapshot to the target DB # snapshot, and otherwise false. The default is false. # @option options [String] :pre_signed_url # The URL that contains a Signature Version 4 signed request for the # `CopyDBSnapshot` API action in the source AWS Region that contains the # source DB snapshot to copy. # # You must specify this parameter when you copy an encrypted DB snapshot # from another AWS Region by using the Amazon RDS API. You can specify # the `--source-region` option instead of this parameter when you copy # an encrypted DB snapshot from another AWS Region by using the AWS CLI. # # The presigned URL must be a valid request for the `CopyDBSnapshot` API # action that can be executed in the source AWS Region that contains the # encrypted DB snapshot to be copied. The presigned URL request must # contain the following parameter values: # # * `DestinationRegion` - The AWS Region that the encrypted DB snapshot # is copied to. This AWS Region is the same one where the # `CopyDBSnapshot` action is called that contains this presigned URL. # # For example, if you copy an encrypted DB snapshot from the us-west-2 # AWS Region to the us-east-1 AWS Region, then you call the # `CopyDBSnapshot` action in the us-east-1 AWS Region and provide a # presigned URL that contains a call to the `CopyDBSnapshot` action in # the us-west-2 AWS Region. For this example, the `DestinationRegion` # in the presigned URL must be set to the us-east-1 AWS Region. # # * `KmsKeyId` - The AWS KMS key identifier for the key to use to # encrypt the copy of the DB snapshot in the destination AWS Region. # This is the same identifier for both the `CopyDBSnapshot` action # that is called in the destination AWS Region, and the action # contained in the presigned URL. # # * `SourceDBSnapshotIdentifier` - The DB snapshot identifier for the # encrypted snapshot to be copied. This identifier must be in the # Amazon Resource Name (ARN) format for the source AWS Region. For # example, if you are copying an encrypted DB snapshot from the # us-west-2 AWS Region, then your `SourceDBSnapshotIdentifier` looks # like the following example: # `arn:aws:rds:us-west-2:123456789012:snapshot:mysql-instance1-snapshot-20161115`. # # To learn how to generate a Signature Version 4 signed request, see # [Authenticating Requests: Using Query Parameters (AWS Signature # Version 4)][1] and [Signature Version 4 Signing Process][2]. # # # # [1]: http://docs.aws.amazon.com/AmazonS3/latest/API/sigv4-query-string-auth.html # [2]: http://docs.aws.amazon.com/general/latest/gr/signature-version-4.html # @option options [String] :option_group_name # The name of an option group to associate with the copy of the # snapshot. # # Specify this option if you are copying a snapshot from one AWS Region # to another, and your DB instance uses a nondefault option group. If # your source DB instance uses Transparent Data Encryption for Oracle or # Microsoft SQL Server, you must specify this option when copying across # AWS Regions. For more information, see [Option Group # Considerations][1]. # # # # [1]: http://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_CopySnapshot.html#USER_CopySnapshot.Options # @option options [String] :destination_region # @option options [String] :source_region # The source region of the snapshot. This is only needed when the # shapshot is encrypted and in a different region. # @return [DBSnapshot] def copy(options = {}) options = options.merge(source_db_snapshot_identifier: @snapshot_id) resp = @client.copy_db_snapshot(options) DBSnapshot.new( instance_id: resp.data.db_snapshot.db_instance_identifier, snapshot_id: resp.data.db_snapshot.db_snapshot_identifier, data: resp.data.db_snapshot, client: @client ) end # @example Request syntax with placeholder values # # db_snapshot.delete() # @param [Hash] options ({}) # @return [DBSnapshot] def delete(options = {}) options = options.merge(db_snapshot_identifier: @snapshot_id) resp = @client.delete_db_snapshot(options) DBSnapshot.new( instance_id: resp.data.db_snapshot.db_instance_identifier, snapshot_id: resp.data.db_snapshot.db_snapshot_identifier, data: resp.data.db_snapshot, client: @client ) end # @example Request syntax with placeholder values # # dbinstance = db_snapshot.restore({ # db_instance_identifier: "String", # required # db_instance_class: "String", # port: 1, # availability_zone: "String", # db_subnet_group_name: "String", # multi_az: false, # publicly_accessible: false, # auto_minor_version_upgrade: false, # license_model: "String", # db_name: "String", # engine: "String", # iops: 1, # option_group_name: "String", # tags: [ # { # key: "String", # value: "String", # }, # ], # storage_type: "String", # tde_credential_arn: "String", # tde_credential_password: "String", # domain: "String", # copy_tags_to_snapshot: false, # domain_iam_role_name: "String", # enable_iam_database_authentication: false, # enable_cloudwatch_logs_exports: ["String"], # }) # @param [Hash] options ({}) # @option options [required, String] :db_instance_identifier # Name of the DB instance to create from the DB snapshot. This parameter # isn't case-sensitive. # # Constraints: # # * Must contain from 1 to 63 numbers, letters, or hyphens # # * First character must be a letter # # * Cannot end with a hyphen or contain two consecutive hyphens # # Example: `my-snapshot-id` # @option options [String] :db_instance_class # The compute and memory capacity of the Amazon RDS DB instance, for # example, `db.m4.large`. Not all DB instance classes are available in # all AWS Regions, or for all database engines. For the full list of DB # instance classes, and availability for your engine, see [DB Instance # Class][1] in the Amazon RDS User Guide. # # Default: The same DBInstanceClass as the original DB instance. # # # # [1]: http://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/Concepts.DBInstanceClass.html # @option options [Integer] :port # The port number on which the database accepts connections. # # Default: The same port as the original DB instance # # Constraints: Value must be `1150-65535` # @option options [String] :availability_zone # The EC2 Availability Zone that the DB instance is created in. # # Default: A random, system-chosen Availability Zone. # # Constraint: You can't specify the AvailabilityZone parameter if the # MultiAZ parameter is set to `true`. # # Example: `us-east-1a` # @option options [String] :db_subnet_group_name # The DB subnet group name to use for the new instance. # # Constraints: If supplied, must match the name of an existing # DBSubnetGroup. # # Example: `mySubnetgroup` # @option options [Boolean] :multi_az # Specifies if the DB instance is a Multi-AZ deployment. # # Constraint: You can't specify the AvailabilityZone parameter if the # MultiAZ parameter is set to `true`. # @option options [Boolean] :publicly_accessible # Specifies the accessibility options for the DB instance. A value of # true specifies an Internet-facing instance with a publicly resolvable # DNS name, which resolves to a public IP address. A value of false # specifies an internal instance with a DNS name that resolves to a # private IP address. # # Default: The default behavior varies depending on whether a VPC has # been requested or not. The following list shows the default behavior # in each case. # # * **Default VPC:** true # # * **VPC:** false # # If no DB subnet group has been specified as part of the request and # the PubliclyAccessible value has not been set, the DB instance is # publicly accessible. If a specific DB subnet group has been specified # as part of the request and the PubliclyAccessible value has not been # set, the DB instance is private. # @option options [Boolean] :auto_minor_version_upgrade # Indicates that minor version upgrades are applied automatically to the # DB instance during the maintenance window. # @option options [String] :license_model # License model information for the restored DB instance. # # Default: Same as source. # # Valid values: `license-included` \| `bring-your-own-license` \| # `general-public-license` # @option options [String] :db_name # The database name for the restored DB instance. # # This parameter doesn't apply to the MySQL, PostgreSQL, or MariaDB # engines. # # # @option options [String] :engine # The database engine to use for the new instance. # # Default: The same as source # # Constraint: Must be compatible with the engine of the source. For # example, you can restore a MariaDB 10.1 DB instance from a MySQL 5.6 # snapshot. # # Valid Values: # # * `aurora` # # * `aurora-postgresql` # # * `mariadb` # # * `mysql` # # * `oracle-ee` # # * `oracle-se2` # # * `oracle-se1` # # * `oracle-se` # # * `postgres` # # * `sqlserver-ee` # # * `sqlserver-se` # # * `sqlserver-ex` # # * `sqlserver-web` # @option options [Integer] :iops # Specifies the amount of provisioned IOPS for the DB instance, # expressed in I/O operations per second. If this parameter is not # specified, the IOPS value is taken from the backup. If this parameter # is set to 0, the new instance is converted to a non-PIOPS instance. # The conversion takes additional time, though your DB instance is # available for connections before the conversion starts. # # The provisioned IOPS value must follow the requirements for your # database engine. For more information, see [Amazon RDS Provisioned # IOPS Storage to Improve Performance][1]. # # Constraints: Must be an integer greater than 1000. # # # # [1]: http://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/CHAP_Storage.html#USER_PIOPS # @option options [String] :option_group_name # The name of the option group to be used for the restored DB instance. # # Permanent options, such as the TDE option for Oracle Advanced Security # TDE, can't be removed from an option group, and that option group # can't be removed from a DB instance once it is associated with a DB # instance # @option options [Array] :tags # A list of tags. For more information, see [Tagging Amazon RDS # Resources][1]. # # # # [1]: http://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/USER_Tagging.html # @option options [String] :storage_type # Specifies the storage type to be associated with the DB instance. # # Valid values: `standard | gp2 | io1` # # If you specify `io1`, you must also include a value for the `Iops` # parameter. # # Default: `io1` if the `Iops` parameter is specified, otherwise # `standard` # @option options [String] :tde_credential_arn # The ARN from the key store with which to associate the instance for # TDE encryption. # @option options [String] :tde_credential_password # The password for the given ARN from the key store in order to access # the device. # @option options [String] :domain # Specify the Active Directory Domain to restore the instance in. # @option options [Boolean] :copy_tags_to_snapshot # True to copy all tags from the restored DB instance to snapshots of # the DB instance, and otherwise false. The default is false. # @option options [String] :domain_iam_role_name # Specify the name of the IAM role to be used when making API calls to # the Directory Service. # @option options [Boolean] :enable_iam_database_authentication # True to enable mapping of AWS Identity and Access Management (IAM) # accounts to database accounts, and otherwise false. # # You can enable IAM database authentication for the following database # engines # # * For MySQL 5.6, minor version 5.6.34 or higher # # * For MySQL 5.7, minor version 5.7.16 or higher # # * Aurora 5.6 or higher. # # Default: `false` # @option options [Array] :enable_cloudwatch_logs_exports # The list of logs that the restored DB instance is to export to # CloudWatch Logs. # @return [DBInstance] def restore(options = {}) options = options.merge(db_snapshot_identifier: @snapshot_id) resp = @client.restore_db_instance_from_db_snapshot(options) DBInstance.new( id: resp.data.db_instance.db_instance_identifier, data: resp.data.db_instance, client: @client ) end # @example Request syntax with placeholder values # # eventsubscription = db_snapshot.subscribe_to({ # subscription_name: "String", # required # }) # @param [Hash] options ({}) # @option options [required, String] :subscription_name # The name of the RDS event notification subscription you want to add a # source identifier to. # @return [EventSubscription] def subscribe_to(options = {}) options = options.merge(source_identifier: @snapshot_id) resp = @client.add_source_identifier_to_subscription(options) EventSubscription.new( name: resp.data.event_subscription.cust_subscription_id, data: resp.data.event_subscription, client: @client ) end # @example Request syntax with placeholder values # # eventsubscription = db_snapshot.unsubscribe_from({ # subscription_name: "String", # required # }) # @param [Hash] options ({}) # @option options [required, String] :subscription_name # The name of the RDS event notification subscription you want to remove # a source identifier from. # @return [EventSubscription] def unsubscribe_from(options = {}) options = options.merge(source_identifier: @snapshot_id) resp = @client.remove_source_identifier_from_subscription(options) EventSubscription.new( name: resp.data.event_subscription.cust_subscription_id, data: resp.data.event_subscription, client: @client ) end # @!group Associations # @example Request syntax with placeholder values # # db_snapshot.attributes() # @param [Hash] options ({}) # @return [DBSnapshotAttribute::Collection] def attributes(options = {}) batches = Enumerator.new do |y| batch = [] options = options.merge(db_snapshot_identifier: @snapshot_id) resp = @client.describe_db_snapshot_attributes(options) resp.data.db_snapshot_attributes_result.db_snapshot_attributes.each do |d| batch << DBSnapshotAttribute.new( snapshot_id: @snapshot_id, name: d.attribute_name, data: d, client: @client ) end y.yield(batch) end DBSnapshotAttribute::Collection.new(batches) end # @example Request syntax with placeholder values # # events = db_snapshot.events({ # start_time: Time.now, # end_time: Time.now, # duration: 1, # event_categories: ["String"], # filters: [ # { # name: "String", # required # values: ["String"], # required # }, # ], # }) # @param [Hash] options ({}) # @option options [Time,DateTime,Date,Integer,String] :start_time # The beginning of the time interval to retrieve events for, specified # in ISO 8601 format. For more information about ISO 8601, go to the # [ISO8601 Wikipedia page.][1] # # Example: 2009-07-08T18:00Z # # # # [1]: http://en.wikipedia.org/wiki/ISO_8601 # @option options [Time,DateTime,Date,Integer,String] :end_time # The end of the time interval for which to retrieve events, specified # in ISO 8601 format. For more information about ISO 8601, go to the # [ISO8601 Wikipedia page.][1] # # Example: 2009-07-08T18:00Z # # # # [1]: http://en.wikipedia.org/wiki/ISO_8601 # @option options [Integer] :duration # The number of minutes to retrieve events for. # # Default: 60 # @option options [Array] :event_categories # A list of event categories that trigger notifications for a event # notification subscription. # @option options [Array] :filters # This parameter is not currently supported. # @return [Event::Collection] def events(options = {}) batches = Enumerator.new do |y| options = options.merge( source_type: "db-snapshot", source_identifier: @snapshot_id ) resp = @client.describe_events(options) resp.each_page do |page| batch = [] page.data.events.each do |e| batch << Event.new( source_id: e.source_identifier, date: e.date, data: e, client: @client ) end y.yield(batch) end end Event::Collection.new(batches) end # @return [DBInstance] def instance DBInstance.new( id: @instance_id, client: @client ) end # @return [OptionGroup, nil] def option_group if data[:db_snapshot][:option_group_name] OptionGroup.new( name: data[:db_snapshot][:option_group_name], client: @client ) else nil end end # @deprecated # @api private def identifiers { instance_id: @instance_id, snapshot_id: @snapshot_id } end deprecated(:identifiers) private def extract_instance_id(args, options) value = args[0] || options.delete(:instance_id) case value when String then value when nil then raise ArgumentError, "missing required option :instance_id" else msg = "expected :instance_id to be a String, got #{value.class}" raise ArgumentError, msg end end def extract_snapshot_id(args, options) value = args[1] || options.delete(:snapshot_id) case value when String then value when nil then raise ArgumentError, "missing required option :snapshot_id" else msg = "expected :snapshot_id to be a String, got #{value.class}" raise ArgumentError, msg end end class Collection < Aws::Resources::Collection; end end end