# frozen_string_literal: true # 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/endpoint_discovery.rb' require 'aws-sdk-core/plugins/endpoint_pattern.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/client_metrics_plugin.rb' require 'aws-sdk-core/plugins/client_metrics_send_plugin.rb' require 'aws-sdk-core/plugins/transfer_encoding.rb' require 'aws-sdk-core/plugins/http_checksum.rb' require 'aws-sdk-core/plugins/signature_v4.rb' require 'aws-sdk-core/plugins/protocols/json_rpc.rb' Aws::Plugins::GlobalConfiguration.add_identifier(:ecs) module Aws::ECS # An API client for ECS. To construct a client, you need to configure a `:region` and `:credentials`. # # client = Aws::ECS::Client.new( # region: region_name, # credentials: credentials, # # ... # ) # # For details on configuring region and credentials see # the [developer guide](/sdk-for-ruby/v3/developer-guide/setup-config.html). # # See {#initialize} for a full list of supported configuration options. class Client < Seahorse::Client::Base include Aws::ClientStubs @identifier = :ecs 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::EndpointDiscovery) add_plugin(Aws::Plugins::EndpointPattern) add_plugin(Aws::Plugins::ResponsePaging) add_plugin(Aws::Plugins::StubResponses) add_plugin(Aws::Plugins::IdempotencyToken) add_plugin(Aws::Plugins::JsonvalueConverter) add_plugin(Aws::Plugins::ClientMetricsPlugin) add_plugin(Aws::Plugins::ClientMetricsSendPlugin) add_plugin(Aws::Plugins::TransferEncoding) add_plugin(Aws::Plugins::HttpChecksum) add_plugin(Aws::Plugins::SignatureV4) add_plugin(Aws::Plugins::Protocols::JsonRpc) # @overload initialize(options) # @param [Hash] options # @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::SharedCredentials` - Used for loading static credentials from a # shared file, such as `~/.aws/config`. # # * `Aws::AssumeRoleCredentials` - Used when you need to assume a role. # # * `Aws::AssumeRoleWebIdentityCredentials` - Used when you need to # assume a role after providing credentials via the web. # # * `Aws::SSOCredentials` - Used for loading credentials from AWS SSO using an # access token generated from `aws login`. # # * `Aws::ProcessCredentials` - Used for loading credentials from a # process that outputs to stdout. # # * `Aws::InstanceProfileCredentials` - Used for loading credentials # from an EC2 IMDS on an EC2 instance. # # * `Aws::ECSCredentials` - Used for loading credentials from # instances running in ECS. # # * `Aws::CognitoIdentityCredentials` - Used for loading credentials # from the Cognito Identity service. # # 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/ECS IMDS instance profile - When used by default, the timeouts # are very aggressive. Construct and pass an instance of # `Aws::InstanceProfileCredentails` or `Aws::ECSCredentials` 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 searched 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] :active_endpoint_cache (false) # When set to `true`, a thread polling for endpoints will be running in # the background every 60 secs (default). Defaults to `false`. # # @option options [Boolean] :adaptive_retry_wait_to_fill (true) # Used only in `adaptive` retry mode. When true, the request will sleep # until there is sufficent client side capacity to retry the request. # When false, the request will raise a `RetryCapacityNotAvailableError` and will # not retry instead of sleeping. # # @option options [Boolean] :client_side_monitoring (false) # When `true`, client-side metrics will be collected for all API requests from # this client. # # @option options [String] :client_side_monitoring_client_id ("") # Allows you to provide an identifier for this client which will be attached to # all generated client side metrics. Defaults to an empty string. # # @option options [String] :client_side_monitoring_host ("127.0.0.1") # Allows you to specify the DNS hostname or IPv4 or IPv6 address that the client # side monitoring agent is running on, where client metrics will be published via UDP. # # @option options [Integer] :client_side_monitoring_port (31000) # Required for publishing client metrics. The port that the client side monitoring # agent is running on, where client metrics will be published via UDP. # # @option options [Aws::ClientSideMonitoring::Publisher] :client_side_monitoring_publisher (Aws::ClientSideMonitoring::Publisher) # Allows you to provide a custom client-side monitoring publisher class. By default, # will use the Client Side Monitoring Agent Publisher. # # @option options [Boolean] :convert_params (true) # When `true`, an attempt is made to coerce request parameters into # the required types. # # @option options [Boolean] :correct_clock_skew (true) # Used only in `standard` and adaptive retry modes. Specifies whether to apply # a clock skew correction and retry requests with skewed client clocks. # # @option options [Boolean] :disable_host_prefix_injection (false) # Set to true to disable SDK automatically adding host prefix # to default service endpoint when available. # # @option options [String] :endpoint # The client endpoint is normally constructed from the `:region` # option. You should only configure an `:endpoint` when connecting # to test or custom endpoints. This should be a valid HTTP(S) URI. # # @option options [Integer] :endpoint_cache_max_entries (1000) # Used for the maximum size limit of the LRU cache storing endpoints data # for endpoint discovery enabled operations. Defaults to 1000. # # @option options [Integer] :endpoint_cache_max_threads (10) # Used for the maximum threads in use for polling endpoints to be cached, defaults to 10. # # @option options [Integer] :endpoint_cache_poll_interval (60) # When :endpoint_discovery and :active_endpoint_cache is enabled, # Use this option to config the time interval in seconds for making # requests fetching endpoints information. Defaults to 60 sec. # # @option options [Boolean] :endpoint_discovery (false) # When set to `true`, endpoint discovery will be enabled for operations when available. # # @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 [Integer] :max_attempts (3) # An integer representing the maximum number attempts that will be made for # a single request, including the initial attempt. For example, # setting this value to 5 will result in a request being retried up to # 4 times. Used in `standard` and `adaptive` retry modes. # # @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 [Proc] :retry_backoff # A proc or lambda used for backoff. Defaults to 2**retries * retry_base_delay. # This option is only used in the `legacy` retry mode. # # @option options [Float] :retry_base_delay (0.3) # The base delay in seconds used by the default backoff function. This option # is only used in the `legacy` retry mode. # # @option options [Symbol] :retry_jitter (:none) # A delay randomiser function used by the default backoff function. # Some predefined functions can be referenced by name - :none, :equal, :full, # otherwise a Proc that takes and returns a number. This option is only used # in the `legacy` retry mode. # # @see https://www.awsarchitectureblog.com/2015/03/backoff.html # # @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, auth errors, # endpoint discovery, and errors from expired credentials. # This option is only used in the `legacy` retry mode. # # @option options [Integer] :retry_max_delay (0) # The maximum number of seconds to delay between retries (0 for no limit) # used by the default backoff function. This option is only used in the # `legacy` retry mode. # # @option options [String] :retry_mode ("legacy") # Specifies which retry algorithm to use. Values are: # # * `legacy` - The pre-existing retry behavior. This is default value if # no retry mode is provided. # # * `standard` - A standardized set of retry rules across the AWS SDKs. # This includes support for retry quotas, which limit the number of # unsuccessful retries a client can make. # # * `adaptive` - An experimental retry mode that includes all the # functionality of `standard` mode along with automatic client side # throttling. This is a provisional mode that may change behavior # in the future. # # # @option options [String] :secret_access_key # # @option options [String] :session_token # # @option options [Boolean] :simple_json (false) # Disables request parameter conversion, validation, and formatting. # Also disable response data type conversions. This option is useful # when you want to ensure the highest level of performance by # avoiding overhead of walking request parameters and response data # structures. # # When `:simple_json` is enabled, the request parameters hash must # be formatted exactly as the DynamoDB API expects. # # @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. # # @option options [URI::HTTP,String] :http_proxy A proxy to send # requests through. Formatted like 'http://proxy.com:123'. # # @option options [Float] :http_open_timeout (15) The number of # seconds to wait when opening a HTTP session before raising a # `Timeout::Error`. # # @option options [Integer] :http_read_timeout (60) The default # number of seconds to wait for response data. This value can # safely be set per-request on the session. # # @option options [Float] :http_idle_timeout (5) The number of # seconds a connection is allowed to sit idle before it is # considered stale. Stale connections are closed and removed # from the pool before making a request. # # @option options [Float] :http_continue_timeout (1) The number of # seconds to wait for a 100-continue response before sending the # request body. This option has no effect unless the request has # "Expect" header set to "100-continue". Defaults to `nil` which # disables this behaviour. This value can safely be set per # request on the session. # # @option options [Boolean] :http_wire_trace (false) When `true`, # HTTP debug output will be sent to the `:logger`. # # @option options [Boolean] :ssl_verify_peer (true) When `true`, # SSL peer certificates are verified when establishing a # connection. # # @option options [String] :ssl_ca_bundle Full path to the SSL # certificate authority bundle file that should be used when # verifying peer certificates. If you do not pass # `:ssl_ca_bundle` or `:ssl_ca_directory` the the system default # will be used if available. # # @option options [String] :ssl_ca_directory Full path of the # directory that contains the unbundled SSL certificate # authority files for verifying peer certificates. If you do # not pass `:ssl_ca_bundle` or `:ssl_ca_directory` the the # system default will be used if available. # def initialize(*args) super end # @!group API Operations # Creates a new capacity provider. Capacity providers are associated # with an Amazon ECS cluster and are used in capacity provider # strategies to facilitate cluster auto scaling. # # Only capacity providers using an Auto Scaling group can be created. # Amazon ECS tasks on AWS Fargate use the `FARGATE` and `FARGATE_SPOT` # capacity providers which are already created and available to all # accounts in Regions supported by AWS Fargate. # # @option params [required, String] :name # The name of the capacity provider. Up to 255 characters are allowed, # including letters (upper and lowercase), numbers, underscores, and # hyphens. The name cannot be prefixed with "`aws`", "`ecs`", or # "`fargate`". # # @option params [required, Types::AutoScalingGroupProvider] :auto_scaling_group_provider # The details of the Auto Scaling group for the capacity provider. # # @option params [Array] :tags # The metadata that you apply to the capacity provider to help you # categorize and organize them. Each tag consists of a key and an # optional value, both of which you define. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @return [Types::CreateCapacityProviderResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateCapacityProviderResponse#capacity_provider #capacity_provider} => Types::CapacityProvider # # @example Request syntax with placeholder values # # resp = client.create_capacity_provider({ # name: "String", # required # auto_scaling_group_provider: { # required # auto_scaling_group_arn: "String", # required # managed_scaling: { # status: "ENABLED", # accepts ENABLED, DISABLED # target_capacity: 1, # minimum_scaling_step_size: 1, # maximum_scaling_step_size: 1, # instance_warmup_period: 1, # }, # managed_termination_protection: "ENABLED", # accepts ENABLED, DISABLED # }, # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # }) # # @example Response structure # # resp.capacity_provider.capacity_provider_arn #=> String # resp.capacity_provider.name #=> String # resp.capacity_provider.status #=> String, one of "ACTIVE", "INACTIVE" # resp.capacity_provider.auto_scaling_group_provider.auto_scaling_group_arn #=> String # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.status #=> String, one of "ENABLED", "DISABLED" # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.target_capacity #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.minimum_scaling_step_size #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.maximum_scaling_step_size #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.instance_warmup_period #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_termination_protection #=> String, one of "ENABLED", "DISABLED" # resp.capacity_provider.update_status #=> String, one of "DELETE_IN_PROGRESS", "DELETE_COMPLETE", "DELETE_FAILED", "UPDATE_IN_PROGRESS", "UPDATE_COMPLETE", "UPDATE_FAILED" # resp.capacity_provider.update_status_reason #=> String # resp.capacity_provider.tags #=> Array # resp.capacity_provider.tags[0].key #=> String # resp.capacity_provider.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/CreateCapacityProvider AWS API Documentation # # @overload create_capacity_provider(params = {}) # @param [Hash] params ({}) def create_capacity_provider(params = {}, options = {}) req = build_request(:create_capacity_provider, params) req.send_request(options) end # Creates a new Amazon ECS cluster. By default, your account receives a # `default` cluster when you launch your first container instance. # However, you can create your own cluster with a unique name with the # `CreateCluster` action. # # When you call the CreateCluster API operation, Amazon ECS attempts to # create the Amazon ECS service-linked role for your account so that # required resources in other AWS services can be managed on your # behalf. However, if the IAM user that makes the call does not have # permissions to create the service-linked role, it is not created. For # more information, see [Using Service-Linked Roles for Amazon ECS][1] # in the *Amazon Elastic Container Service Developer Guide*. # # # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/using-service-linked-roles.html # # @option params [String] :cluster_name # The name of your cluster. If you do not specify a name for your # cluster, you create a cluster named `default`. Up to 255 letters # (uppercase and lowercase), numbers, and hyphens are allowed. # # @option params [Array] :tags # The metadata that you apply to the cluster to help you categorize and # organize them. Each tag consists of a key and an optional value, both # of which you define. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @option params [Array] :settings # The setting to use when creating a cluster. This parameter is used to # enable CloudWatch Container Insights for a cluster. If this value is # specified, it will override the `containerInsights` value set with # PutAccountSetting or PutAccountSettingDefault. # # @option params [Array] :capacity_providers # The short name of one or more capacity providers to associate with the # cluster. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created and not already associated # with another cluster. New capacity providers can be created with the # CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # The PutClusterCapacityProviders API operation is used to update the # list of available capacity providers for a cluster after the cluster # is created. # # @option params [Array] :default_capacity_provider_strategy # The capacity provider strategy to use by default for the cluster. # # When creating a service or running a task on a cluster, if no capacity # provider or launch type is specified then the default capacity # provider strategy for the cluster is used. # # A capacity provider strategy consists of one or more capacity # providers along with the `base` and `weight` to assign to them. A # capacity provider must be associated with the cluster to be used in a # capacity provider strategy. The PutClusterCapacityProviders API is # used to associate a capacity provider with a cluster. Only capacity # providers with an `ACTIVE` or `UPDATING` status can be used. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created. New capacity providers can # be created with the CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # If a default capacity provider strategy is not defined for a cluster # during creation, it can be defined later with the # PutClusterCapacityProviders API operation. # # @return [Types::CreateClusterResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateClusterResponse#cluster #cluster} => Types::Cluster # # # @example Example: To create a new cluster # # # This example creates a cluster in your default region. # # resp = client.create_cluster({ # cluster_name: "my_cluster", # }) # # resp.to_h outputs the following: # { # cluster: { # active_services_count: 0, # cluster_arn: "arn:aws:ecs:us-east-1:012345678910:cluster/my_cluster", # cluster_name: "my_cluster", # pending_tasks_count: 0, # registered_container_instances_count: 0, # running_tasks_count: 0, # status: "ACTIVE", # }, # } # # @example Request syntax with placeholder values # # resp = client.create_cluster({ # cluster_name: "String", # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # settings: [ # { # name: "containerInsights", # accepts containerInsights # value: "String", # }, # ], # capacity_providers: ["String"], # default_capacity_provider_strategy: [ # { # capacity_provider: "String", # required # weight: 1, # base: 1, # }, # ], # }) # # @example Response structure # # resp.cluster.cluster_arn #=> String # resp.cluster.cluster_name #=> String # resp.cluster.status #=> String # resp.cluster.registered_container_instances_count #=> Integer # resp.cluster.running_tasks_count #=> Integer # resp.cluster.pending_tasks_count #=> Integer # resp.cluster.active_services_count #=> Integer # resp.cluster.statistics #=> Array # resp.cluster.statistics[0].name #=> String # resp.cluster.statistics[0].value #=> String # resp.cluster.tags #=> Array # resp.cluster.tags[0].key #=> String # resp.cluster.tags[0].value #=> String # resp.cluster.settings #=> Array # resp.cluster.settings[0].name #=> String, one of "containerInsights" # resp.cluster.settings[0].value #=> String # resp.cluster.capacity_providers #=> Array # resp.cluster.capacity_providers[0] #=> String # resp.cluster.default_capacity_provider_strategy #=> Array # resp.cluster.default_capacity_provider_strategy[0].capacity_provider #=> String # resp.cluster.default_capacity_provider_strategy[0].weight #=> Integer # resp.cluster.default_capacity_provider_strategy[0].base #=> Integer # resp.cluster.attachments #=> Array # resp.cluster.attachments[0].id #=> String # resp.cluster.attachments[0].type #=> String # resp.cluster.attachments[0].status #=> String # resp.cluster.attachments[0].details #=> Array # resp.cluster.attachments[0].details[0].name #=> String # resp.cluster.attachments[0].details[0].value #=> String # resp.cluster.attachments_status #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/CreateCluster AWS API Documentation # # @overload create_cluster(params = {}) # @param [Hash] params ({}) def create_cluster(params = {}, options = {}) req = build_request(:create_cluster, params) req.send_request(options) end # Runs and maintains a desired number of tasks from a specified task # definition. If the number of tasks running in a service drops below # the `desiredCount`, Amazon ECS runs another copy of the task in the # specified cluster. To update an existing service, see the # UpdateService action. # # In addition to maintaining the desired count of tasks in your service, # you can optionally run your service behind one or more load balancers. # The load balancers distribute traffic across the tasks that are # associated with the service. For more information, see [Service Load # Balancing][1] in the *Amazon Elastic Container Service Developer # Guide*. # # Tasks for services that *do not* use a load balancer are considered # healthy if they're in the `RUNNING` state. Tasks for services that # *do* use a load balancer are considered healthy if they're in the # `RUNNING` state and the container instance that they're hosted on is # reported as healthy by the load balancer. # # There are two service scheduler strategies available: # # * `REPLICA` - The replica scheduling strategy places and maintains the # desired number of tasks across your cluster. By default, the service # scheduler spreads tasks across Availability Zones. You can use task # placement strategies and constraints to customize task placement # decisions. For more information, see [Service Scheduler Concepts][2] # in the *Amazon Elastic Container Service Developer Guide*. # # * `DAEMON` - The daemon scheduling strategy deploys exactly one task # on each active container instance that meets all of the task # placement constraints that you specify in your cluster. The service # scheduler also evaluates the task placement constraints for running # tasks and will stop tasks that do not meet the placement # constraints. When using this strategy, you don't need to specify a # desired number of tasks, a task placement strategy, or use Service # Auto Scaling policies. For more information, see [Service Scheduler # Concepts][2] in the *Amazon Elastic Container Service Developer # Guide*. # # You can optionally specify a deployment configuration for your # service. The deployment is triggered by changing properties, such as # the task definition or the desired count of a service, with an # UpdateService operation. The default value for a replica service for # `minimumHealthyPercent` is 100%. The default value for a daemon # service for `minimumHealthyPercent` is 0%. # # If a service is using the `ECS` deployment controller, the minimum # healthy percent represents a lower limit on the number of tasks in a # service that must remain in the `RUNNING` state during a deployment, # as a percentage of the desired number of tasks (rounded up to the # nearest integer), and while any container instances are in the # `DRAINING` state if the service contains tasks using the EC2 launch # type. This parameter enables you to deploy without using additional # cluster capacity. For example, if your service has a desired number of # four tasks and a minimum healthy percent of 50%, the scheduler might # stop two existing tasks to free up cluster capacity before starting # two new tasks. Tasks for services that *do not* use a load balancer # are considered healthy if they're in the `RUNNING` state. Tasks for # services that *do* use a load balancer are considered healthy if # they're in the `RUNNING` state and they're reported as healthy by # the load balancer. The default value for minimum healthy percent is # 100%. # # If a service is using the `ECS` deployment controller, the **maximum # percent** parameter represents an upper limit on the number of tasks # in a service that are allowed in the `RUNNING` or `PENDING` state # during a deployment, as a percentage of the desired number of tasks # (rounded down to the nearest integer), and while any container # instances are in the `DRAINING` state if the service contains tasks # using the EC2 launch type. This parameter enables you to define the # deployment batch size. For example, if your service has a desired # number of four tasks and a maximum percent value of 200%, the # scheduler may start four new tasks before stopping the four older # tasks (provided that the cluster resources required to do this are # available). The default value for maximum percent is 200%. # # If a service is using either the `CODE_DEPLOY` or `EXTERNAL` # deployment controller types and tasks that use the EC2 launch type, # the **minimum healthy percent** and **maximum percent** values are # used only to define the lower and upper limit on the number of the # tasks in the service that remain in the `RUNNING` state while the # container instances are in the `DRAINING` state. If the tasks in the # service use the Fargate launch type, the minimum healthy percent and # maximum percent values aren't used, although they're currently # visible when describing your service. # # When creating a service that uses the `EXTERNAL` deployment # controller, you can specify only parameters that aren't controlled at # the task set level. The only required parameter is the service name. # You control your services using the CreateTaskSet operation. For more # information, see [Amazon ECS Deployment Types][3] in the *Amazon # Elastic Container Service Developer Guide*. # # When the service scheduler launches new tasks, it determines task # placement in your cluster using the following logic: # # * Determine which of the container instances in your cluster can # support your service's task definition (for example, they have the # required CPU, memory, ports, and container instance attributes). # # * By default, the service scheduler attempts to balance tasks across # Availability Zones in this manner (although you can choose a # different placement strategy) with the `placementStrategy` # parameter): # # * Sort the valid container instances, giving priority to instances # that have the fewest number of running tasks for this service in # their respective Availability Zone. For example, if zone A has one # running service task and zones B and C each have zero, valid # container instances in either zone B or C are considered optimal # for placement. # # * Place the new service task on a valid container instance in an # optimal Availability Zone (based on the previous steps), favoring # container instances with the fewest number of running tasks for # this service. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-load-balancing.html # [2]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs_services.html # [3]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/deployment-types.html # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster on # which to run your service. If you do not specify a cluster, the # default cluster is assumed. # # @option params [required, String] :service_name # The name of your service. Up to 255 letters (uppercase and lowercase), # numbers, and hyphens are allowed. Service names must be unique within # a cluster, but you can have similarly named services in multiple # clusters within a Region or across multiple Regions. # # @option params [String] :task_definition # The `family` and `revision` (`family:revision`) or full ARN of the # task definition to run in your service. If a `revision` is not # specified, the latest `ACTIVE` revision is used. # # A task definition must be specified if the service is using either the # `ECS` or `CODE_DEPLOY` deployment controllers. # # @option params [Array] :load_balancers # A load balancer object representing the load balancers to use with # your service. For more information, see [Service Load Balancing][1] in # the *Amazon Elastic Container Service Developer Guide*. # # If the service is using the rolling update (`ECS`) deployment # controller and using either an Application Load Balancer or Network # Load Balancer, you must specify one or more target group ARNs to # attach to the service. The service-linked role is required for # services that make use of multiple target groups. For more # information, see [Using Service-Linked Roles for Amazon ECS][2] in the # *Amazon Elastic Container Service Developer Guide*. # # If the service is using the `CODE_DEPLOY` deployment controller, the # service is required to use either an Application Load Balancer or # Network Load Balancer. When creating an AWS CodeDeploy deployment # group, you specify two target groups (referred to as a # `targetGroupPair`). During a deployment, AWS CodeDeploy determines # which task set in your service has the status `PRIMARY` and associates # one target group with it, and then associates the other target group # with the replacement task set. The load balancer can also have up to # two listeners: a required listener for production traffic and an # optional listener that allows you perform validation tests with Lambda # functions before routing production traffic to it. # # After you create a service using the `ECS` deployment controller, the # load balancer name or target group ARN, container name, and container # port specified in the service definition are immutable. If you are # using the `CODE_DEPLOY` deployment controller, these values can be # changed when updating the service. # # For Application Load Balancers and Network Load Balancers, this object # must contain the load balancer target group ARN, the container name # (as it appears in a container definition), and the container port to # access from the load balancer. The load balancer name parameter must # be omitted. When a task from this service is placed on a container # instance, the container instance and port combination is registered as # a target in the target group specified here. # # For Classic Load Balancers, this object must contain the load balancer # name, the container name (as it appears in a container definition), # and the container port to access from the load balancer. The target # group ARN parameter must be omitted. When a task from this service is # placed on a container instance, the container instance is registered # with the load balancer specified here. # # Services with tasks that use the `awsvpc` network mode (for example, # those with the Fargate launch type) only support Application Load # Balancers and Network Load Balancers. Classic Load Balancers are not # supported. Also, when you create any target groups for these services, # you must choose `ip` as the target type, not `instance`, because tasks # that use the `awsvpc` network mode are associated with an elastic # network interface, not an Amazon EC2 instance. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-load-balancing.html # [2]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/using-service-linked-roles.html # # @option params [Array] :service_registries # The details of the service discovery registries to assign to this # service. For more information, see [Service Discovery][1]. # # Service discovery is supported for Fargate tasks if you are using # platform version v1.1.0 or later. For more information, see [AWS # Fargate Platform Versions][2]. # # # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-discovery.html # [2]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/platform_versions.html # # @option params [Integer] :desired_count # The number of instantiations of the specified task definition to place # and keep running on your cluster. # # This is required if `schedulingStrategy` is `REPLICA` or is not # specified. If `schedulingStrategy` is `DAEMON` then this is not # required. # # @option params [String] :client_token # Unique, case-sensitive identifier that you provide to ensure the # idempotency of the request. Up to 32 ASCII characters are allowed. # # @option params [String] :launch_type # The launch type on which to run your service. For more information, # see [Amazon ECS Launch Types][1] in the *Amazon Elastic Container # Service Developer Guide*. # # If a `launchType` is specified, the `capacityProviderStrategy` # parameter must be omitted. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/launch_types.html # # @option params [Array] :capacity_provider_strategy # The capacity provider strategy to use for the service. # # A capacity provider strategy consists of one or more capacity # providers along with the `base` and `weight` to assign to them. A # capacity provider must be associated with the cluster to be used in a # capacity provider strategy. The PutClusterCapacityProviders API is # used to associate a capacity provider with a cluster. Only capacity # providers with an `ACTIVE` or `UPDATING` status can be used. # # If a `capacityProviderStrategy` is specified, the `launchType` # parameter must be omitted. If no `capacityProviderStrategy` or # `launchType` is specified, the `defaultCapacityProviderStrategy` for # the cluster is used. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created. New capacity providers can # be created with the CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # The PutClusterCapacityProviders API operation is used to update the # list of available capacity providers for a cluster after the cluster # is created. # # @option params [String] :platform_version # The platform version that your tasks in the service are running on. A # platform version is specified only for tasks using the Fargate launch # type. If one isn't specified, the `LATEST` platform version is used # by default. For more information, see [AWS Fargate Platform # Versions][1] in the *Amazon Elastic Container Service Developer # Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/platform_versions.html # # @option params [String] :role # The name or full Amazon Resource Name (ARN) of the IAM role that # allows Amazon ECS to make calls to your load balancer on your behalf. # This parameter is only permitted if you are using a load balancer with # your service and your task definition does not use the `awsvpc` # network mode. If you specify the `role` parameter, you must also # specify a load balancer object with the `loadBalancers` parameter. # # If your account has already created the Amazon ECS service-linked # role, that role is used by default for your service unless you specify # a role here. The service-linked role is required if your task # definition uses the `awsvpc` network mode or if the service is # configured to use service discovery, an external deployment # controller, multiple target groups, or Elastic Inference accelerators # in which case you should not specify a role here. For more # information, see [Using Service-Linked Roles for Amazon ECS][1] in the # *Amazon Elastic Container Service Developer Guide*. # # If your specified role has a path other than `/`, then you must either # specify the full role ARN (this is recommended) or prefix the role # name with the path. For example, if a role with the name `bar` has a # path of `/foo/` then you would specify `/foo/bar` as the role name. # For more information, see [Friendly Names and Paths][2] in the *IAM # User Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/using-service-linked-roles.html # [2]: https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_identifiers.html#identifiers-friendly-names # # @option params [Types::DeploymentConfiguration] :deployment_configuration # Optional deployment parameters that control how many tasks run during # the deployment and the ordering of stopping and starting tasks. # # @option params [Array] :placement_constraints # An array of placement constraint objects to use for tasks in your # service. You can specify a maximum of 10 constraints per task (this # limit includes constraints in the task definition and those specified # at runtime). # # @option params [Array] :placement_strategy # The placement strategy objects to use for tasks in your service. You # can specify a maximum of five strategy rules per service. # # @option params [Types::NetworkConfiguration] :network_configuration # The network configuration for the service. This parameter is required # for task definitions that use the `awsvpc` network mode to receive # their own elastic network interface, and it is not supported for other # network modes. For more information, see [Task Networking][1] in the # *Amazon Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-networking.html # # @option params [Integer] :health_check_grace_period_seconds # The period of time, in seconds, that the Amazon ECS service scheduler # should ignore unhealthy Elastic Load Balancing target health checks # after a task has first started. This is only used when your service is # configured to use a load balancer. If your service has a load balancer # defined and you don't specify a health check grace period value, the # default value of `0` is used. # # If your service's tasks take a while to start and respond to Elastic # Load Balancing health checks, you can specify a health check grace # period of up to 2,147,483,647 seconds. During that time, the Amazon # ECS service scheduler ignores health check status. This grace period # can prevent the service scheduler from marking tasks as unhealthy and # stopping them before they have time to come up. # # @option params [String] :scheduling_strategy # The scheduling strategy to use for the service. For more information, # see [Services][1]. # # There are two service scheduler strategies available: # # * `REPLICA`-The replica scheduling strategy places and maintains the # desired number of tasks across your cluster. By default, the service # scheduler spreads tasks across Availability Zones. You can use task # placement strategies and constraints to customize task placement # decisions. This scheduler strategy is required if the service is # using the `CODE_DEPLOY` or `EXTERNAL` deployment controller types. # # * `DAEMON`-The daemon scheduling strategy deploys exactly one task on # each active container instance that meets all of the task placement # constraints that you specify in your cluster. The service scheduler # also evaluates the task placement constraints for running tasks and # will stop tasks that do not meet the placement constraints. When # you're using this strategy, you don't need to specify a desired # number of tasks, a task placement strategy, or use Service Auto # Scaling policies. # # Tasks using the Fargate launch type or the `CODE_DEPLOY` or # `EXTERNAL` deployment controller types don't support the `DAEMON` # scheduling strategy. # # # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs_services.html # # @option params [Types::DeploymentController] :deployment_controller # The deployment controller to use for the service. # # @option params [Array] :tags # The metadata that you apply to the service to help you categorize and # organize them. Each tag consists of a key and an optional value, both # of which you define. When a service is deleted, the tags are deleted # as well. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @option params [Boolean] :enable_ecs_managed_tags # Specifies whether to enable Amazon ECS managed tags for the tasks # within the service. For more information, see [Tagging Your Amazon ECS # Resources][1] in the *Amazon Elastic Container Service Developer # Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-using-tags.html # # @option params [String] :propagate_tags # Specifies whether to propagate the tags from the task definition or # the service to the tasks in the service. If no value is specified, the # tags are not propagated. Tags can only be propagated to the tasks # within the service during service creation. To add tags to a task # after service creation, use the TagResource API action. # # @return [Types::CreateServiceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateServiceResponse#service #service} => Types::Service # # # @example Example: To create a new service # # # This example creates a service in your default region called ``ecs-simple-service``. The service uses the # # ``hello_world`` task definition and it maintains 10 copies of that task. # # resp = client.create_service({ # desired_count: 10, # service_name: "ecs-simple-service", # task_definition: "hello_world", # }) # # resp.to_h outputs the following: # { # service: { # cluster_arn: "arn:aws:ecs:us-east-1:012345678910:cluster/default", # created_at: Time.parse("2016-08-29T16:13:47.298Z"), # deployment_configuration: { # maximum_percent: 200, # minimum_healthy_percent: 100, # }, # deployments: [ # { # created_at: Time.parse("2016-08-29T16:13:47.298Z"), # desired_count: 10, # id: "ecs-svc/9223370564342348388", # pending_count: 0, # running_count: 0, # status: "PRIMARY", # task_definition: "arn:aws:ecs:us-east-1:012345678910:task-definition/hello_world:6", # updated_at: Time.parse("2016-08-29T16:13:47.298Z"), # }, # { # created_at: Time.parse("2016-08-29T15:52:44.481Z"), # desired_count: 0, # id: "ecs-svc/9223370564343611322", # pending_count: 0, # running_count: 0, # status: "ACTIVE", # task_definition: "arn:aws:ecs:us-east-1:012345678910:task-definition/hello_world:6", # updated_at: Time.parse("2016-08-29T16:11:38.941Z"), # }, # ], # desired_count: 10, # events: [ # ], # load_balancers: [ # ], # pending_count: 0, # running_count: 0, # service_arn: "arn:aws:ecs:us-east-1:012345678910:service/ecs-simple-service", # service_name: "ecs-simple-service", # status: "ACTIVE", # task_definition: "arn:aws:ecs:us-east-1:012345678910:task-definition/hello_world:6", # }, # } # # @example Example: To create a new service behind a load balancer # # # This example creates a service in your default region called ``ecs-simple-service-elb``. The service uses the # # ``ecs-demo`` task definition and it maintains 10 copies of that task. You must reference an existing load balancer in # # the same region by its name. # # resp = client.create_service({ # desired_count: 10, # load_balancers: [ # { # container_name: "simple-app", # container_port: 80, # load_balancer_name: "EC2Contai-EcsElast-15DCDAURT3ZO2", # }, # ], # role: "ecsServiceRole", # service_name: "ecs-simple-service-elb", # task_definition: "console-sample-app-static", # }) # # resp.to_h outputs the following: # { # service: { # cluster_arn: "arn:aws:ecs:us-east-1:012345678910:cluster/default", # created_at: Time.parse("2016-08-29T16:02:54.884Z"), # deployment_configuration: { # maximum_percent: 200, # minimum_healthy_percent: 100, # }, # deployments: [ # { # created_at: Time.parse("2016-08-29T16:02:54.884Z"), # desired_count: 10, # id: "ecs-svc/9223370564343000923", # pending_count: 0, # running_count: 0, # status: "PRIMARY", # task_definition: "arn:aws:ecs:us-east-1:012345678910:task-definition/console-sample-app-static:6", # updated_at: Time.parse("2016-08-29T16:02:54.884Z"), # }, # ], # desired_count: 10, # events: [ # ], # load_balancers: [ # { # container_name: "simple-app", # container_port: 80, # load_balancer_name: "EC2Contai-EcsElast-15DCDAURT3ZO2", # }, # ], # pending_count: 0, # role_arn: "arn:aws:iam::012345678910:role/ecsServiceRole", # running_count: 0, # service_arn: "arn:aws:ecs:us-east-1:012345678910:service/ecs-simple-service-elb", # service_name: "ecs-simple-service-elb", # status: "ACTIVE", # task_definition: "arn:aws:ecs:us-east-1:012345678910:task-definition/console-sample-app-static:6", # }, # } # # @example Request syntax with placeholder values # # resp = client.create_service({ # cluster: "String", # service_name: "String", # required # task_definition: "String", # load_balancers: [ # { # target_group_arn: "String", # load_balancer_name: "String", # container_name: "String", # container_port: 1, # }, # ], # service_registries: [ # { # registry_arn: "String", # port: 1, # container_name: "String", # container_port: 1, # }, # ], # desired_count: 1, # client_token: "String", # launch_type: "EC2", # accepts EC2, FARGATE # capacity_provider_strategy: [ # { # capacity_provider: "String", # required # weight: 1, # base: 1, # }, # ], # platform_version: "String", # role: "String", # deployment_configuration: { # deployment_circuit_breaker: { # enable: false, # required # rollback: false, # required # }, # maximum_percent: 1, # minimum_healthy_percent: 1, # }, # placement_constraints: [ # { # type: "distinctInstance", # accepts distinctInstance, memberOf # expression: "String", # }, # ], # placement_strategy: [ # { # type: "random", # accepts random, spread, binpack # field: "String", # }, # ], # network_configuration: { # awsvpc_configuration: { # subnets: ["String"], # required # security_groups: ["String"], # assign_public_ip: "ENABLED", # accepts ENABLED, DISABLED # }, # }, # health_check_grace_period_seconds: 1, # scheduling_strategy: "REPLICA", # accepts REPLICA, DAEMON # deployment_controller: { # type: "ECS", # required, accepts ECS, CODE_DEPLOY, EXTERNAL # }, # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # enable_ecs_managed_tags: false, # propagate_tags: "TASK_DEFINITION", # accepts TASK_DEFINITION, SERVICE # }) # # @example Response structure # # resp.service.service_arn #=> String # resp.service.service_name #=> String # resp.service.cluster_arn #=> String # resp.service.load_balancers #=> Array # resp.service.load_balancers[0].target_group_arn #=> String # resp.service.load_balancers[0].load_balancer_name #=> String # resp.service.load_balancers[0].container_name #=> String # resp.service.load_balancers[0].container_port #=> Integer # resp.service.service_registries #=> Array # resp.service.service_registries[0].registry_arn #=> String # resp.service.service_registries[0].port #=> Integer # resp.service.service_registries[0].container_name #=> String # resp.service.service_registries[0].container_port #=> Integer # resp.service.status #=> String # resp.service.desired_count #=> Integer # resp.service.running_count #=> Integer # resp.service.pending_count #=> Integer # resp.service.launch_type #=> String, one of "EC2", "FARGATE" # resp.service.capacity_provider_strategy #=> Array # resp.service.capacity_provider_strategy[0].capacity_provider #=> String # resp.service.capacity_provider_strategy[0].weight #=> Integer # resp.service.capacity_provider_strategy[0].base #=> Integer # resp.service.platform_version #=> String # resp.service.task_definition #=> String # resp.service.deployment_configuration.deployment_circuit_breaker.enable #=> Boolean # resp.service.deployment_configuration.deployment_circuit_breaker.rollback #=> Boolean # resp.service.deployment_configuration.maximum_percent #=> Integer # resp.service.deployment_configuration.minimum_healthy_percent #=> Integer # resp.service.task_sets #=> Array # resp.service.task_sets[0].id #=> String # resp.service.task_sets[0].task_set_arn #=> String # resp.service.task_sets[0].service_arn #=> String # resp.service.task_sets[0].cluster_arn #=> String # resp.service.task_sets[0].started_by #=> String # resp.service.task_sets[0].external_id #=> String # resp.service.task_sets[0].status #=> String # resp.service.task_sets[0].task_definition #=> String # resp.service.task_sets[0].computed_desired_count #=> Integer # resp.service.task_sets[0].pending_count #=> Integer # resp.service.task_sets[0].running_count #=> Integer # resp.service.task_sets[0].created_at #=> Time # resp.service.task_sets[0].updated_at #=> Time # resp.service.task_sets[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.service.task_sets[0].capacity_provider_strategy #=> Array # resp.service.task_sets[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.service.task_sets[0].capacity_provider_strategy[0].weight #=> Integer # resp.service.task_sets[0].capacity_provider_strategy[0].base #=> Integer # resp.service.task_sets[0].platform_version #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.task_sets[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.task_sets[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.task_sets[0].load_balancers #=> Array # resp.service.task_sets[0].load_balancers[0].target_group_arn #=> String # resp.service.task_sets[0].load_balancers[0].load_balancer_name #=> String # resp.service.task_sets[0].load_balancers[0].container_name #=> String # resp.service.task_sets[0].load_balancers[0].container_port #=> Integer # resp.service.task_sets[0].service_registries #=> Array # resp.service.task_sets[0].service_registries[0].registry_arn #=> String # resp.service.task_sets[0].service_registries[0].port #=> Integer # resp.service.task_sets[0].service_registries[0].container_name #=> String # resp.service.task_sets[0].service_registries[0].container_port #=> Integer # resp.service.task_sets[0].scale.value #=> Float # resp.service.task_sets[0].scale.unit #=> String, one of "PERCENT" # resp.service.task_sets[0].stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.service.task_sets[0].stability_status_at #=> Time # resp.service.task_sets[0].tags #=> Array # resp.service.task_sets[0].tags[0].key #=> String # resp.service.task_sets[0].tags[0].value #=> String # resp.service.deployments #=> Array # resp.service.deployments[0].id #=> String # resp.service.deployments[0].status #=> String # resp.service.deployments[0].task_definition #=> String # resp.service.deployments[0].desired_count #=> Integer # resp.service.deployments[0].pending_count #=> Integer # resp.service.deployments[0].running_count #=> Integer # resp.service.deployments[0].failed_tasks #=> Integer # resp.service.deployments[0].created_at #=> Time # resp.service.deployments[0].updated_at #=> Time # resp.service.deployments[0].capacity_provider_strategy #=> Array # resp.service.deployments[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.service.deployments[0].capacity_provider_strategy[0].weight #=> Integer # resp.service.deployments[0].capacity_provider_strategy[0].base #=> Integer # resp.service.deployments[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.service.deployments[0].platform_version #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.deployments[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.deployments[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.deployments[0].rollout_state #=> String, one of "COMPLETED", "FAILED", "IN_PROGRESS" # resp.service.deployments[0].rollout_state_reason #=> String # resp.service.role_arn #=> String # resp.service.events #=> Array # resp.service.events[0].id #=> String # resp.service.events[0].created_at #=> Time # resp.service.events[0].message #=> String # resp.service.created_at #=> Time # resp.service.placement_constraints #=> Array # resp.service.placement_constraints[0].type #=> String, one of "distinctInstance", "memberOf" # resp.service.placement_constraints[0].expression #=> String # resp.service.placement_strategy #=> Array # resp.service.placement_strategy[0].type #=> String, one of "random", "spread", "binpack" # resp.service.placement_strategy[0].field #=> String # resp.service.network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.health_check_grace_period_seconds #=> Integer # resp.service.scheduling_strategy #=> String, one of "REPLICA", "DAEMON" # resp.service.deployment_controller.type #=> String, one of "ECS", "CODE_DEPLOY", "EXTERNAL" # resp.service.tags #=> Array # resp.service.tags[0].key #=> String # resp.service.tags[0].value #=> String # resp.service.created_by #=> String # resp.service.enable_ecs_managed_tags #=> Boolean # resp.service.propagate_tags #=> String, one of "TASK_DEFINITION", "SERVICE" # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/CreateService AWS API Documentation # # @overload create_service(params = {}) # @param [Hash] params ({}) def create_service(params = {}, options = {}) req = build_request(:create_service, params) req.send_request(options) end # Create a task set in the specified cluster and service. This is used # when a service uses the `EXTERNAL` deployment controller type. For # more information, see [Amazon ECS Deployment Types][1] in the *Amazon # Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/deployment-types.html # # @option params [required, String] :service # The short name or full Amazon Resource Name (ARN) of the service to # create the task set in. # # @option params [required, String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the service to create the task set in. # # @option params [String] :external_id # An optional non-unique tag that identifies this task set in external # systems. If the task set is associated with a service discovery # registry, the tasks in this task set will have the # `ECS_TASK_SET_EXTERNAL_ID` AWS Cloud Map attribute set to the provided # value. # # @option params [required, String] :task_definition # The task definition for the tasks in the task set to use. # # @option params [Types::NetworkConfiguration] :network_configuration # An object representing the network configuration for a task or # service. # # @option params [Array] :load_balancers # A load balancer object representing the load balancer to use with the # task set. The supported load balancer types are either an Application # Load Balancer or a Network Load Balancer. # # @option params [Array] :service_registries # The details of the service discovery registries to assign to this task # set. For more information, see [Service Discovery][1]. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-discovery.html # # @option params [String] :launch_type # The launch type that new tasks in the task set will use. For more # information, see [Amazon ECS Launch Types][1] in the *Amazon Elastic # Container Service Developer Guide*. # # If a `launchType` is specified, the `capacityProviderStrategy` # parameter must be omitted. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/launch_types.html # # @option params [Array] :capacity_provider_strategy # The capacity provider strategy to use for the task set. # # A capacity provider strategy consists of one or more capacity # providers along with the `base` and `weight` to assign to them. A # capacity provider must be associated with the cluster to be used in a # capacity provider strategy. The PutClusterCapacityProviders API is # used to associate a capacity provider with a cluster. Only capacity # providers with an `ACTIVE` or `UPDATING` status can be used. # # If a `capacityProviderStrategy` is specified, the `launchType` # parameter must be omitted. If no `capacityProviderStrategy` or # `launchType` is specified, the `defaultCapacityProviderStrategy` for # the cluster is used. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created. New capacity providers can # be created with the CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # The PutClusterCapacityProviders API operation is used to update the # list of available capacity providers for a cluster after the cluster # is created. # # @option params [String] :platform_version # The platform version that the tasks in the task set should use. A # platform version is specified only for tasks using the Fargate launch # type. If one isn't specified, the `LATEST` platform version is used # by default. # # @option params [Types::Scale] :scale # A floating-point percentage of the desired number of tasks to place # and keep running in the task set. # # @option params [String] :client_token # Unique, case-sensitive identifier that you provide to ensure the # idempotency of the request. Up to 32 ASCII characters are allowed. # # @option params [Array] :tags # The metadata that you apply to the task set to help you categorize and # organize them. Each tag consists of a key and an optional value, both # of which you define. When a service is deleted, the tags are deleted # as well. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @return [Types::CreateTaskSetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateTaskSetResponse#task_set #task_set} => Types::TaskSet # # @example Request syntax with placeholder values # # resp = client.create_task_set({ # service: "String", # required # cluster: "String", # required # external_id: "String", # task_definition: "String", # required # network_configuration: { # awsvpc_configuration: { # subnets: ["String"], # required # security_groups: ["String"], # assign_public_ip: "ENABLED", # accepts ENABLED, DISABLED # }, # }, # load_balancers: [ # { # target_group_arn: "String", # load_balancer_name: "String", # container_name: "String", # container_port: 1, # }, # ], # service_registries: [ # { # registry_arn: "String", # port: 1, # container_name: "String", # container_port: 1, # }, # ], # launch_type: "EC2", # accepts EC2, FARGATE # capacity_provider_strategy: [ # { # capacity_provider: "String", # required # weight: 1, # base: 1, # }, # ], # platform_version: "String", # scale: { # value: 1.0, # unit: "PERCENT", # accepts PERCENT # }, # client_token: "String", # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # }) # # @example Response structure # # resp.task_set.id #=> String # resp.task_set.task_set_arn #=> String # resp.task_set.service_arn #=> String # resp.task_set.cluster_arn #=> String # resp.task_set.started_by #=> String # resp.task_set.external_id #=> String # resp.task_set.status #=> String # resp.task_set.task_definition #=> String # resp.task_set.computed_desired_count #=> Integer # resp.task_set.pending_count #=> Integer # resp.task_set.running_count #=> Integer # resp.task_set.created_at #=> Time # resp.task_set.updated_at #=> Time # resp.task_set.launch_type #=> String, one of "EC2", "FARGATE" # resp.task_set.capacity_provider_strategy #=> Array # resp.task_set.capacity_provider_strategy[0].capacity_provider #=> String # resp.task_set.capacity_provider_strategy[0].weight #=> Integer # resp.task_set.capacity_provider_strategy[0].base #=> Integer # resp.task_set.platform_version #=> String # resp.task_set.network_configuration.awsvpc_configuration.subnets #=> Array # resp.task_set.network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.security_groups #=> Array # resp.task_set.network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.task_set.load_balancers #=> Array # resp.task_set.load_balancers[0].target_group_arn #=> String # resp.task_set.load_balancers[0].load_balancer_name #=> String # resp.task_set.load_balancers[0].container_name #=> String # resp.task_set.load_balancers[0].container_port #=> Integer # resp.task_set.service_registries #=> Array # resp.task_set.service_registries[0].registry_arn #=> String # resp.task_set.service_registries[0].port #=> Integer # resp.task_set.service_registries[0].container_name #=> String # resp.task_set.service_registries[0].container_port #=> Integer # resp.task_set.scale.value #=> Float # resp.task_set.scale.unit #=> String, one of "PERCENT" # resp.task_set.stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.task_set.stability_status_at #=> Time # resp.task_set.tags #=> Array # resp.task_set.tags[0].key #=> String # resp.task_set.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/CreateTaskSet AWS API Documentation # # @overload create_task_set(params = {}) # @param [Hash] params ({}) def create_task_set(params = {}, options = {}) req = build_request(:create_task_set, params) req.send_request(options) end # Disables an account setting for a specified IAM user, IAM role, or the # root user for an account. # # @option params [required, String] :name # The resource name for which to disable the account setting. If # `serviceLongArnFormat` is specified, the ARN for your Amazon ECS # services is affected. If `taskLongArnFormat` is specified, the ARN and # resource ID for your Amazon ECS tasks is affected. If # `containerInstanceLongArnFormat` is specified, the ARN and resource ID # for your Amazon ECS container instances is affected. If # `awsvpcTrunking` is specified, the ENI limit for your Amazon ECS # container instances is affected. # # @option params [String] :principal_arn # The ARN of the principal, which can be an IAM user, IAM role, or the # root user. If you specify the root user, it disables the account # setting for all IAM users, IAM roles, and the root user of the account # unless an IAM user or role explicitly overrides these settings. If # this field is omitted, the setting is changed only for the # authenticated user. # # @return [Types::DeleteAccountSettingResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteAccountSettingResponse#setting #setting} => Types::Setting # # # @example Example: To delete your account setting # # # This example deletes the account setting for your user for the specified resource type. # # resp = client.delete_account_setting({ # name: "serviceLongArnFormat", # }) # # resp.to_h outputs the following: # { # setting: { # name: "serviceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # } # # @example Example: To delete the account settings for a specific IAM user or IAM role # # # This example deletes the account setting for a specific IAM user or IAM role for the specified resource type. Only the # # root user can view or modify the account settings for another user. # # resp = client.delete_account_setting({ # name: "containerInstanceLongArnFormat", # principal_arn: "arn:aws:iam:::user/principalName", # }) # # resp.to_h outputs the following: # { # setting: { # name: "containerInstanceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # } # # @example Request syntax with placeholder values # # resp = client.delete_account_setting({ # name: "serviceLongArnFormat", # required, accepts serviceLongArnFormat, taskLongArnFormat, containerInstanceLongArnFormat, awsvpcTrunking, containerInsights # principal_arn: "String", # }) # # @example Response structure # # resp.setting.name #=> String, one of "serviceLongArnFormat", "taskLongArnFormat", "containerInstanceLongArnFormat", "awsvpcTrunking", "containerInsights" # resp.setting.value #=> String # resp.setting.principal_arn #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeleteAccountSetting AWS API Documentation # # @overload delete_account_setting(params = {}) # @param [Hash] params ({}) def delete_account_setting(params = {}, options = {}) req = build_request(:delete_account_setting, params) req.send_request(options) end # Deletes one or more custom attributes from an Amazon ECS resource. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # contains the resource to delete attributes. If you do not specify a # cluster, the default cluster is assumed. # # @option params [required, Array] :attributes # The attributes to delete from your resource. You can specify up to 10 # attributes per request. For custom attributes, specify the attribute # name and target ID, but do not specify the value. If you specify the # target ID using the short form, you must also specify the target type. # # @return [Types::DeleteAttributesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteAttributesResponse#attributes #attributes} => Array<Types::Attribute> # # @example Request syntax with placeholder values # # resp = client.delete_attributes({ # cluster: "String", # attributes: [ # required # { # name: "String", # required # value: "String", # target_type: "container-instance", # accepts container-instance # target_id: "String", # }, # ], # }) # # @example Response structure # # resp.attributes #=> Array # resp.attributes[0].name #=> String # resp.attributes[0].value #=> String # resp.attributes[0].target_type #=> String, one of "container-instance" # resp.attributes[0].target_id #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeleteAttributes AWS API Documentation # # @overload delete_attributes(params = {}) # @param [Hash] params ({}) def delete_attributes(params = {}, options = {}) req = build_request(:delete_attributes, params) req.send_request(options) end # Deletes the specified capacity provider. # # The `FARGATE` and `FARGATE_SPOT` capacity providers are reserved and # cannot be deleted. You can disassociate them from a cluster using # either the PutClusterCapacityProviders API or by deleting the cluster. # # # # Prior to a capacity provider being deleted, the capacity provider must # be removed from the capacity provider strategy from all services. The # UpdateService API can be used to remove a capacity provider from a # service's capacity provider strategy. When updating a service, the # `forceNewDeployment` option can be used to ensure that any tasks using # the Amazon EC2 instance capacity provided by the capacity provider are # transitioned to use the capacity from the remaining capacity # providers. Only capacity providers that are not associated with a # cluster can be deleted. To remove a capacity provider from a cluster, # you can either use PutClusterCapacityProviders or delete the cluster. # # @option params [required, String] :capacity_provider # The short name or full Amazon Resource Name (ARN) of the capacity # provider to delete. # # @return [Types::DeleteCapacityProviderResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteCapacityProviderResponse#capacity_provider #capacity_provider} => Types::CapacityProvider # # @example Request syntax with placeholder values # # resp = client.delete_capacity_provider({ # capacity_provider: "String", # required # }) # # @example Response structure # # resp.capacity_provider.capacity_provider_arn #=> String # resp.capacity_provider.name #=> String # resp.capacity_provider.status #=> String, one of "ACTIVE", "INACTIVE" # resp.capacity_provider.auto_scaling_group_provider.auto_scaling_group_arn #=> String # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.status #=> String, one of "ENABLED", "DISABLED" # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.target_capacity #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.minimum_scaling_step_size #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.maximum_scaling_step_size #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.instance_warmup_period #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_termination_protection #=> String, one of "ENABLED", "DISABLED" # resp.capacity_provider.update_status #=> String, one of "DELETE_IN_PROGRESS", "DELETE_COMPLETE", "DELETE_FAILED", "UPDATE_IN_PROGRESS", "UPDATE_COMPLETE", "UPDATE_FAILED" # resp.capacity_provider.update_status_reason #=> String # resp.capacity_provider.tags #=> Array # resp.capacity_provider.tags[0].key #=> String # resp.capacity_provider.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeleteCapacityProvider AWS API Documentation # # @overload delete_capacity_provider(params = {}) # @param [Hash] params ({}) def delete_capacity_provider(params = {}, options = {}) req = build_request(:delete_capacity_provider, params) req.send_request(options) end # Deletes the specified cluster. The cluster will transition to the # `INACTIVE` state. Clusters with an `INACTIVE` status may remain # discoverable in your account for a period of time. However, this # behavior is subject to change in the future, so you should not rely on # `INACTIVE` clusters persisting. # # You must deregister all container instances from this cluster before # you may delete it. You can list the container instances in a cluster # with ListContainerInstances and deregister them with # DeregisterContainerInstance. # # @option params [required, String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster to # delete. # # @return [Types::DeleteClusterResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteClusterResponse#cluster #cluster} => Types::Cluster # # # @example Example: To delete an empty cluster # # # This example deletes an empty cluster in your default region. # # resp = client.delete_cluster({ # cluster: "my_cluster", # }) # # resp.to_h outputs the following: # { # cluster: { # active_services_count: 0, # cluster_arn: "arn:aws:ecs:us-east-1:012345678910:cluster/my_cluster", # cluster_name: "my_cluster", # pending_tasks_count: 0, # registered_container_instances_count: 0, # running_tasks_count: 0, # status: "INACTIVE", # }, # } # # @example Request syntax with placeholder values # # resp = client.delete_cluster({ # cluster: "String", # required # }) # # @example Response structure # # resp.cluster.cluster_arn #=> String # resp.cluster.cluster_name #=> String # resp.cluster.status #=> String # resp.cluster.registered_container_instances_count #=> Integer # resp.cluster.running_tasks_count #=> Integer # resp.cluster.pending_tasks_count #=> Integer # resp.cluster.active_services_count #=> Integer # resp.cluster.statistics #=> Array # resp.cluster.statistics[0].name #=> String # resp.cluster.statistics[0].value #=> String # resp.cluster.tags #=> Array # resp.cluster.tags[0].key #=> String # resp.cluster.tags[0].value #=> String # resp.cluster.settings #=> Array # resp.cluster.settings[0].name #=> String, one of "containerInsights" # resp.cluster.settings[0].value #=> String # resp.cluster.capacity_providers #=> Array # resp.cluster.capacity_providers[0] #=> String # resp.cluster.default_capacity_provider_strategy #=> Array # resp.cluster.default_capacity_provider_strategy[0].capacity_provider #=> String # resp.cluster.default_capacity_provider_strategy[0].weight #=> Integer # resp.cluster.default_capacity_provider_strategy[0].base #=> Integer # resp.cluster.attachments #=> Array # resp.cluster.attachments[0].id #=> String # resp.cluster.attachments[0].type #=> String # resp.cluster.attachments[0].status #=> String # resp.cluster.attachments[0].details #=> Array # resp.cluster.attachments[0].details[0].name #=> String # resp.cluster.attachments[0].details[0].value #=> String # resp.cluster.attachments_status #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeleteCluster AWS API Documentation # # @overload delete_cluster(params = {}) # @param [Hash] params ({}) def delete_cluster(params = {}, options = {}) req = build_request(:delete_cluster, params) req.send_request(options) end # Deletes a specified service within a cluster. You can delete a service # if you have no running tasks in it and the desired task count is zero. # If the service is actively maintaining tasks, you cannot delete it, # and you must update the service to a desired task count of zero. For # more information, see UpdateService. # # When you delete a service, if there are still running tasks that # require cleanup, the service status moves from `ACTIVE` to `DRAINING`, # and the service is no longer visible in the console or in the # ListServices API operation. After all tasks have transitioned to # either `STOPPING` or `STOPPED` status, the service status moves from # `DRAINING` to `INACTIVE`. Services in the `DRAINING` or `INACTIVE` # status can still be viewed with the DescribeServices API operation. # However, in the future, `INACTIVE` services may be cleaned up and # purged from Amazon ECS record keeping, and DescribeServices calls on # those services return a `ServiceNotFoundException` error. # # # # If you attempt to create a new service with the same name as an # existing service in either `ACTIVE` or `DRAINING` status, you receive # an error. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the service to delete. If you do not specify a cluster, the # default cluster is assumed. # # @option params [required, String] :service # The name of the service to delete. # # @option params [Boolean] :force # If `true`, allows you to delete a service even if it has not been # scaled down to zero tasks. It is only necessary to use this if the # service is using the `REPLICA` scheduling strategy. # # @return [Types::DeleteServiceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteServiceResponse#service #service} => Types::Service # # # @example Example: To delete a service # # # This example deletes the my-http-service service. The service must have a desired count and running count of 0 before # # you can delete it. # # resp = client.delete_service({ # service: "my-http-service", # }) # # resp.to_h outputs the following: # { # } # # @example Request syntax with placeholder values # # resp = client.delete_service({ # cluster: "String", # service: "String", # required # force: false, # }) # # @example Response structure # # resp.service.service_arn #=> String # resp.service.service_name #=> String # resp.service.cluster_arn #=> String # resp.service.load_balancers #=> Array # resp.service.load_balancers[0].target_group_arn #=> String # resp.service.load_balancers[0].load_balancer_name #=> String # resp.service.load_balancers[0].container_name #=> String # resp.service.load_balancers[0].container_port #=> Integer # resp.service.service_registries #=> Array # resp.service.service_registries[0].registry_arn #=> String # resp.service.service_registries[0].port #=> Integer # resp.service.service_registries[0].container_name #=> String # resp.service.service_registries[0].container_port #=> Integer # resp.service.status #=> String # resp.service.desired_count #=> Integer # resp.service.running_count #=> Integer # resp.service.pending_count #=> Integer # resp.service.launch_type #=> String, one of "EC2", "FARGATE" # resp.service.capacity_provider_strategy #=> Array # resp.service.capacity_provider_strategy[0].capacity_provider #=> String # resp.service.capacity_provider_strategy[0].weight #=> Integer # resp.service.capacity_provider_strategy[0].base #=> Integer # resp.service.platform_version #=> String # resp.service.task_definition #=> String # resp.service.deployment_configuration.deployment_circuit_breaker.enable #=> Boolean # resp.service.deployment_configuration.deployment_circuit_breaker.rollback #=> Boolean # resp.service.deployment_configuration.maximum_percent #=> Integer # resp.service.deployment_configuration.minimum_healthy_percent #=> Integer # resp.service.task_sets #=> Array # resp.service.task_sets[0].id #=> String # resp.service.task_sets[0].task_set_arn #=> String # resp.service.task_sets[0].service_arn #=> String # resp.service.task_sets[0].cluster_arn #=> String # resp.service.task_sets[0].started_by #=> String # resp.service.task_sets[0].external_id #=> String # resp.service.task_sets[0].status #=> String # resp.service.task_sets[0].task_definition #=> String # resp.service.task_sets[0].computed_desired_count #=> Integer # resp.service.task_sets[0].pending_count #=> Integer # resp.service.task_sets[0].running_count #=> Integer # resp.service.task_sets[0].created_at #=> Time # resp.service.task_sets[0].updated_at #=> Time # resp.service.task_sets[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.service.task_sets[0].capacity_provider_strategy #=> Array # resp.service.task_sets[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.service.task_sets[0].capacity_provider_strategy[0].weight #=> Integer # resp.service.task_sets[0].capacity_provider_strategy[0].base #=> Integer # resp.service.task_sets[0].platform_version #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.task_sets[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.task_sets[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.task_sets[0].load_balancers #=> Array # resp.service.task_sets[0].load_balancers[0].target_group_arn #=> String # resp.service.task_sets[0].load_balancers[0].load_balancer_name #=> String # resp.service.task_sets[0].load_balancers[0].container_name #=> String # resp.service.task_sets[0].load_balancers[0].container_port #=> Integer # resp.service.task_sets[0].service_registries #=> Array # resp.service.task_sets[0].service_registries[0].registry_arn #=> String # resp.service.task_sets[0].service_registries[0].port #=> Integer # resp.service.task_sets[0].service_registries[0].container_name #=> String # resp.service.task_sets[0].service_registries[0].container_port #=> Integer # resp.service.task_sets[0].scale.value #=> Float # resp.service.task_sets[0].scale.unit #=> String, one of "PERCENT" # resp.service.task_sets[0].stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.service.task_sets[0].stability_status_at #=> Time # resp.service.task_sets[0].tags #=> Array # resp.service.task_sets[0].tags[0].key #=> String # resp.service.task_sets[0].tags[0].value #=> String # resp.service.deployments #=> Array # resp.service.deployments[0].id #=> String # resp.service.deployments[0].status #=> String # resp.service.deployments[0].task_definition #=> String # resp.service.deployments[0].desired_count #=> Integer # resp.service.deployments[0].pending_count #=> Integer # resp.service.deployments[0].running_count #=> Integer # resp.service.deployments[0].failed_tasks #=> Integer # resp.service.deployments[0].created_at #=> Time # resp.service.deployments[0].updated_at #=> Time # resp.service.deployments[0].capacity_provider_strategy #=> Array # resp.service.deployments[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.service.deployments[0].capacity_provider_strategy[0].weight #=> Integer # resp.service.deployments[0].capacity_provider_strategy[0].base #=> Integer # resp.service.deployments[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.service.deployments[0].platform_version #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.deployments[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.deployments[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.deployments[0].rollout_state #=> String, one of "COMPLETED", "FAILED", "IN_PROGRESS" # resp.service.deployments[0].rollout_state_reason #=> String # resp.service.role_arn #=> String # resp.service.events #=> Array # resp.service.events[0].id #=> String # resp.service.events[0].created_at #=> Time # resp.service.events[0].message #=> String # resp.service.created_at #=> Time # resp.service.placement_constraints #=> Array # resp.service.placement_constraints[0].type #=> String, one of "distinctInstance", "memberOf" # resp.service.placement_constraints[0].expression #=> String # resp.service.placement_strategy #=> Array # resp.service.placement_strategy[0].type #=> String, one of "random", "spread", "binpack" # resp.service.placement_strategy[0].field #=> String # resp.service.network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.health_check_grace_period_seconds #=> Integer # resp.service.scheduling_strategy #=> String, one of "REPLICA", "DAEMON" # resp.service.deployment_controller.type #=> String, one of "ECS", "CODE_DEPLOY", "EXTERNAL" # resp.service.tags #=> Array # resp.service.tags[0].key #=> String # resp.service.tags[0].value #=> String # resp.service.created_by #=> String # resp.service.enable_ecs_managed_tags #=> Boolean # resp.service.propagate_tags #=> String, one of "TASK_DEFINITION", "SERVICE" # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeleteService AWS API Documentation # # @overload delete_service(params = {}) # @param [Hash] params ({}) def delete_service(params = {}, options = {}) req = build_request(:delete_service, params) req.send_request(options) end # Deletes a specified task set within a service. This is used when a # service uses the `EXTERNAL` deployment controller type. For more # information, see [Amazon ECS Deployment Types][1] in the *Amazon # Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/deployment-types.html # # @option params [required, String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the service that the task set exists in to delete. # # @option params [required, String] :service # The short name or full Amazon Resource Name (ARN) of the service that # hosts the task set to delete. # # @option params [required, String] :task_set # The task set ID or full Amazon Resource Name (ARN) of the task set to # delete. # # @option params [Boolean] :force # If `true`, this allows you to delete a task set even if it hasn't # been scaled down to zero. # # @return [Types::DeleteTaskSetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteTaskSetResponse#task_set #task_set} => Types::TaskSet # # @example Request syntax with placeholder values # # resp = client.delete_task_set({ # cluster: "String", # required # service: "String", # required # task_set: "String", # required # force: false, # }) # # @example Response structure # # resp.task_set.id #=> String # resp.task_set.task_set_arn #=> String # resp.task_set.service_arn #=> String # resp.task_set.cluster_arn #=> String # resp.task_set.started_by #=> String # resp.task_set.external_id #=> String # resp.task_set.status #=> String # resp.task_set.task_definition #=> String # resp.task_set.computed_desired_count #=> Integer # resp.task_set.pending_count #=> Integer # resp.task_set.running_count #=> Integer # resp.task_set.created_at #=> Time # resp.task_set.updated_at #=> Time # resp.task_set.launch_type #=> String, one of "EC2", "FARGATE" # resp.task_set.capacity_provider_strategy #=> Array # resp.task_set.capacity_provider_strategy[0].capacity_provider #=> String # resp.task_set.capacity_provider_strategy[0].weight #=> Integer # resp.task_set.capacity_provider_strategy[0].base #=> Integer # resp.task_set.platform_version #=> String # resp.task_set.network_configuration.awsvpc_configuration.subnets #=> Array # resp.task_set.network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.security_groups #=> Array # resp.task_set.network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.task_set.load_balancers #=> Array # resp.task_set.load_balancers[0].target_group_arn #=> String # resp.task_set.load_balancers[0].load_balancer_name #=> String # resp.task_set.load_balancers[0].container_name #=> String # resp.task_set.load_balancers[0].container_port #=> Integer # resp.task_set.service_registries #=> Array # resp.task_set.service_registries[0].registry_arn #=> String # resp.task_set.service_registries[0].port #=> Integer # resp.task_set.service_registries[0].container_name #=> String # resp.task_set.service_registries[0].container_port #=> Integer # resp.task_set.scale.value #=> Float # resp.task_set.scale.unit #=> String, one of "PERCENT" # resp.task_set.stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.task_set.stability_status_at #=> Time # resp.task_set.tags #=> Array # resp.task_set.tags[0].key #=> String # resp.task_set.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeleteTaskSet AWS API Documentation # # @overload delete_task_set(params = {}) # @param [Hash] params ({}) def delete_task_set(params = {}, options = {}) req = build_request(:delete_task_set, params) req.send_request(options) end # Deregisters an Amazon ECS container instance from the specified # cluster. This instance is no longer available to run tasks. # # If you intend to use the container instance for some other purpose # after deregistration, you should stop all of the tasks running on the # container instance before deregistration. That prevents any orphaned # tasks from consuming resources. # # Deregistering a container instance removes the instance from a # cluster, but it does not terminate the EC2 instance. If you are # finished using the instance, be sure to terminate it in the Amazon EC2 # console to stop billing. # # If you terminate a running container instance, Amazon ECS # automatically deregisters the instance from your cluster (stopped # container instances or instances with disconnected agents are not # automatically deregistered when terminated). # # # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the container instance to deregister. If you do not specify a # cluster, the default cluster is assumed. # # @option params [required, String] :container_instance # The container instance ID or full ARN of the container instance to # deregister. The ARN contains the `arn:aws:ecs` namespace, followed by # the Region of the container instance, the AWS account ID of the # container instance owner, the `container-instance` namespace, and then # the container instance ID. For example, # `arn:aws:ecs:region:aws_account_id:container-instance/container_instance_ID`. # # @option params [Boolean] :force # Forces the deregistration of the container instance. If you have tasks # running on the container instance when you deregister it with the # `force` option, these tasks remain running until you terminate the # instance or the tasks stop through some other means, but they are # orphaned (no longer monitored or accounted for by Amazon ECS). If an # orphaned task on your container instance is part of an Amazon ECS # service, then the service scheduler starts another copy of that task, # on a different container instance if possible. # # Any containers in orphaned service tasks that are registered with a # Classic Load Balancer or an Application Load Balancer target group are # deregistered. They begin connection draining according to the settings # on the load balancer or target group. # # @return [Types::DeregisterContainerInstanceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeregisterContainerInstanceResponse#container_instance #container_instance} => Types::ContainerInstance # # # @example Example: To deregister a container instance from a cluster # # # This example deregisters a container instance from the specified cluster in your default region. If there are still # # tasks running on the container instance, you must either stop those tasks before deregistering, or use the force option. # # resp = client.deregister_container_instance({ # cluster: "default", # container_instance: "container_instance_UUID", # force: true, # }) # # resp.to_h outputs the following: # { # } # # @example Request syntax with placeholder values # # resp = client.deregister_container_instance({ # cluster: "String", # container_instance: "String", # required # force: false, # }) # # @example Response structure # # resp.container_instance.container_instance_arn #=> String # resp.container_instance.ec2_instance_id #=> String # resp.container_instance.capacity_provider_name #=> String # resp.container_instance.version #=> Integer # resp.container_instance.version_info.agent_version #=> String # resp.container_instance.version_info.agent_hash #=> String # resp.container_instance.version_info.docker_version #=> String # resp.container_instance.remaining_resources #=> Array # resp.container_instance.remaining_resources[0].name #=> String # resp.container_instance.remaining_resources[0].type #=> String # resp.container_instance.remaining_resources[0].double_value #=> Float # resp.container_instance.remaining_resources[0].long_value #=> Integer # resp.container_instance.remaining_resources[0].integer_value #=> Integer # resp.container_instance.remaining_resources[0].string_set_value #=> Array # resp.container_instance.remaining_resources[0].string_set_value[0] #=> String # resp.container_instance.registered_resources #=> Array # resp.container_instance.registered_resources[0].name #=> String # resp.container_instance.registered_resources[0].type #=> String # resp.container_instance.registered_resources[0].double_value #=> Float # resp.container_instance.registered_resources[0].long_value #=> Integer # resp.container_instance.registered_resources[0].integer_value #=> Integer # resp.container_instance.registered_resources[0].string_set_value #=> Array # resp.container_instance.registered_resources[0].string_set_value[0] #=> String # resp.container_instance.status #=> String # resp.container_instance.status_reason #=> String # resp.container_instance.agent_connected #=> Boolean # resp.container_instance.running_tasks_count #=> Integer # resp.container_instance.pending_tasks_count #=> Integer # resp.container_instance.agent_update_status #=> String, one of "PENDING", "STAGING", "STAGED", "UPDATING", "UPDATED", "FAILED" # resp.container_instance.attributes #=> Array # resp.container_instance.attributes[0].name #=> String # resp.container_instance.attributes[0].value #=> String # resp.container_instance.attributes[0].target_type #=> String, one of "container-instance" # resp.container_instance.attributes[0].target_id #=> String # resp.container_instance.registered_at #=> Time # resp.container_instance.attachments #=> Array # resp.container_instance.attachments[0].id #=> String # resp.container_instance.attachments[0].type #=> String # resp.container_instance.attachments[0].status #=> String # resp.container_instance.attachments[0].details #=> Array # resp.container_instance.attachments[0].details[0].name #=> String # resp.container_instance.attachments[0].details[0].value #=> String # resp.container_instance.tags #=> Array # resp.container_instance.tags[0].key #=> String # resp.container_instance.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeregisterContainerInstance AWS API Documentation # # @overload deregister_container_instance(params = {}) # @param [Hash] params ({}) def deregister_container_instance(params = {}, options = {}) req = build_request(:deregister_container_instance, params) req.send_request(options) end # Deregisters the specified task definition by family and revision. Upon # deregistration, the task definition is marked as `INACTIVE`. Existing # tasks and services that reference an `INACTIVE` task definition # continue to run without disruption. Existing services that reference # an `INACTIVE` task definition can still scale up or down by modifying # the service's desired count. # # You cannot use an `INACTIVE` task definition to run new tasks or # create new services, and you cannot update an existing service to # reference an `INACTIVE` task definition. However, there may be up to a # 10-minute window following deregistration where these restrictions # have not yet taken effect. # # At this time, `INACTIVE` task definitions remain discoverable in your # account indefinitely. However, this behavior is subject to change in # the future, so you should not rely on `INACTIVE` task definitions # persisting beyond the lifecycle of any associated tasks and services. # # # # @option params [required, String] :task_definition # The `family` and `revision` (`family:revision`) or full Amazon # Resource Name (ARN) of the task definition to deregister. You must # specify a `revision`. # # @return [Types::DeregisterTaskDefinitionResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeregisterTaskDefinitionResponse#task_definition #task_definition} => Types::TaskDefinition # # @example Request syntax with placeholder values # # resp = client.deregister_task_definition({ # task_definition: "String", # required # }) # # @example Response structure # # resp.task_definition.task_definition_arn #=> String # resp.task_definition.container_definitions #=> Array # resp.task_definition.container_definitions[0].name #=> String # resp.task_definition.container_definitions[0].image #=> String # resp.task_definition.container_definitions[0].repository_credentials.credentials_parameter #=> String # resp.task_definition.container_definitions[0].cpu #=> Integer # resp.task_definition.container_definitions[0].memory #=> Integer # resp.task_definition.container_definitions[0].memory_reservation #=> Integer # resp.task_definition.container_definitions[0].links #=> Array # resp.task_definition.container_definitions[0].links[0] #=> String # resp.task_definition.container_definitions[0].port_mappings #=> Array # resp.task_definition.container_definitions[0].port_mappings[0].container_port #=> Integer # resp.task_definition.container_definitions[0].port_mappings[0].host_port #=> Integer # resp.task_definition.container_definitions[0].port_mappings[0].protocol #=> String, one of "tcp", "udp" # resp.task_definition.container_definitions[0].essential #=> Boolean # resp.task_definition.container_definitions[0].entry_point #=> Array # resp.task_definition.container_definitions[0].entry_point[0] #=> String # resp.task_definition.container_definitions[0].command #=> Array # resp.task_definition.container_definitions[0].command[0] #=> String # resp.task_definition.container_definitions[0].environment #=> Array # resp.task_definition.container_definitions[0].environment[0].name #=> String # resp.task_definition.container_definitions[0].environment[0].value #=> String # resp.task_definition.container_definitions[0].environment_files #=> Array # resp.task_definition.container_definitions[0].environment_files[0].value #=> String # resp.task_definition.container_definitions[0].environment_files[0].type #=> String, one of "s3" # resp.task_definition.container_definitions[0].mount_points #=> Array # resp.task_definition.container_definitions[0].mount_points[0].source_volume #=> String # resp.task_definition.container_definitions[0].mount_points[0].container_path #=> String # resp.task_definition.container_definitions[0].mount_points[0].read_only #=> Boolean # resp.task_definition.container_definitions[0].volumes_from #=> Array # resp.task_definition.container_definitions[0].volumes_from[0].source_container #=> String # resp.task_definition.container_definitions[0].volumes_from[0].read_only #=> Boolean # resp.task_definition.container_definitions[0].linux_parameters.capabilities.add #=> Array # resp.task_definition.container_definitions[0].linux_parameters.capabilities.add[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.capabilities.drop #=> Array # resp.task_definition.container_definitions[0].linux_parameters.capabilities.drop[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices #=> Array # resp.task_definition.container_definitions[0].linux_parameters.devices[0].host_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices[0].container_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices[0].permissions #=> Array # resp.task_definition.container_definitions[0].linux_parameters.devices[0].permissions[0] #=> String, one of "read", "write", "mknod" # resp.task_definition.container_definitions[0].linux_parameters.init_process_enabled #=> Boolean # resp.task_definition.container_definitions[0].linux_parameters.shared_memory_size #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.tmpfs #=> Array # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].container_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].size #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].mount_options #=> Array # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].mount_options[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.max_swap #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.swappiness #=> Integer # resp.task_definition.container_definitions[0].secrets #=> Array # resp.task_definition.container_definitions[0].secrets[0].name #=> String # resp.task_definition.container_definitions[0].secrets[0].value_from #=> String # resp.task_definition.container_definitions[0].depends_on #=> Array # resp.task_definition.container_definitions[0].depends_on[0].container_name #=> String # resp.task_definition.container_definitions[0].depends_on[0].condition #=> String, one of "START", "COMPLETE", "SUCCESS", "HEALTHY" # resp.task_definition.container_definitions[0].start_timeout #=> Integer # resp.task_definition.container_definitions[0].stop_timeout #=> Integer # resp.task_definition.container_definitions[0].hostname #=> String # resp.task_definition.container_definitions[0].user #=> String # resp.task_definition.container_definitions[0].working_directory #=> String # resp.task_definition.container_definitions[0].disable_networking #=> Boolean # resp.task_definition.container_definitions[0].privileged #=> Boolean # resp.task_definition.container_definitions[0].readonly_root_filesystem #=> Boolean # resp.task_definition.container_definitions[0].dns_servers #=> Array # resp.task_definition.container_definitions[0].dns_servers[0] #=> String # resp.task_definition.container_definitions[0].dns_search_domains #=> Array # resp.task_definition.container_definitions[0].dns_search_domains[0] #=> String # resp.task_definition.container_definitions[0].extra_hosts #=> Array # resp.task_definition.container_definitions[0].extra_hosts[0].hostname #=> String # resp.task_definition.container_definitions[0].extra_hosts[0].ip_address #=> String # resp.task_definition.container_definitions[0].docker_security_options #=> Array # resp.task_definition.container_definitions[0].docker_security_options[0] #=> String # resp.task_definition.container_definitions[0].interactive #=> Boolean # resp.task_definition.container_definitions[0].pseudo_terminal #=> Boolean # resp.task_definition.container_definitions[0].docker_labels #=> Hash # resp.task_definition.container_definitions[0].docker_labels["String"] #=> String # resp.task_definition.container_definitions[0].ulimits #=> Array # resp.task_definition.container_definitions[0].ulimits[0].name #=> String, one of "core", "cpu", "data", "fsize", "locks", "memlock", "msgqueue", "nice", "nofile", "nproc", "rss", "rtprio", "rttime", "sigpending", "stack" # resp.task_definition.container_definitions[0].ulimits[0].soft_limit #=> Integer # resp.task_definition.container_definitions[0].ulimits[0].hard_limit #=> Integer # resp.task_definition.container_definitions[0].log_configuration.log_driver #=> String, one of "json-file", "syslog", "journald", "gelf", "fluentd", "awslogs", "splunk", "awsfirelens" # resp.task_definition.container_definitions[0].log_configuration.options #=> Hash # resp.task_definition.container_definitions[0].log_configuration.options["String"] #=> String # resp.task_definition.container_definitions[0].log_configuration.secret_options #=> Array # resp.task_definition.container_definitions[0].log_configuration.secret_options[0].name #=> String # resp.task_definition.container_definitions[0].log_configuration.secret_options[0].value_from #=> String # resp.task_definition.container_definitions[0].health_check.command #=> Array # resp.task_definition.container_definitions[0].health_check.command[0] #=> String # resp.task_definition.container_definitions[0].health_check.interval #=> Integer # resp.task_definition.container_definitions[0].health_check.timeout #=> Integer # resp.task_definition.container_definitions[0].health_check.retries #=> Integer # resp.task_definition.container_definitions[0].health_check.start_period #=> Integer # resp.task_definition.container_definitions[0].system_controls #=> Array # resp.task_definition.container_definitions[0].system_controls[0].namespace #=> String # resp.task_definition.container_definitions[0].system_controls[0].value #=> String # resp.task_definition.container_definitions[0].resource_requirements #=> Array # resp.task_definition.container_definitions[0].resource_requirements[0].value #=> String # resp.task_definition.container_definitions[0].resource_requirements[0].type #=> String, one of "GPU", "InferenceAccelerator" # resp.task_definition.container_definitions[0].firelens_configuration.type #=> String, one of "fluentd", "fluentbit" # resp.task_definition.container_definitions[0].firelens_configuration.options #=> Hash # resp.task_definition.container_definitions[0].firelens_configuration.options["String"] #=> String # resp.task_definition.family #=> String # resp.task_definition.task_role_arn #=> String # resp.task_definition.execution_role_arn #=> String # resp.task_definition.network_mode #=> String, one of "bridge", "host", "awsvpc", "none" # resp.task_definition.revision #=> Integer # resp.task_definition.volumes #=> Array # resp.task_definition.volumes[0].name #=> String # resp.task_definition.volumes[0].host.source_path #=> String # resp.task_definition.volumes[0].docker_volume_configuration.scope #=> String, one of "task", "shared" # resp.task_definition.volumes[0].docker_volume_configuration.autoprovision #=> Boolean # resp.task_definition.volumes[0].docker_volume_configuration.driver #=> String # resp.task_definition.volumes[0].docker_volume_configuration.driver_opts #=> Hash # resp.task_definition.volumes[0].docker_volume_configuration.driver_opts["String"] #=> String # resp.task_definition.volumes[0].docker_volume_configuration.labels #=> Hash # resp.task_definition.volumes[0].docker_volume_configuration.labels["String"] #=> String # resp.task_definition.volumes[0].efs_volume_configuration.file_system_id #=> String # resp.task_definition.volumes[0].efs_volume_configuration.root_directory #=> String # resp.task_definition.volumes[0].efs_volume_configuration.transit_encryption #=> String, one of "ENABLED", "DISABLED" # resp.task_definition.volumes[0].efs_volume_configuration.transit_encryption_port #=> Integer # resp.task_definition.volumes[0].efs_volume_configuration.authorization_config.access_point_id #=> String # resp.task_definition.volumes[0].efs_volume_configuration.authorization_config.iam #=> String, one of "ENABLED", "DISABLED" # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.file_system_id #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.root_directory #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.authorization_config.credentials_parameter #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.authorization_config.domain #=> String # resp.task_definition.status #=> String, one of "ACTIVE", "INACTIVE" # resp.task_definition.requires_attributes #=> Array # resp.task_definition.requires_attributes[0].name #=> String # resp.task_definition.requires_attributes[0].value #=> String # resp.task_definition.requires_attributes[0].target_type #=> String, one of "container-instance" # resp.task_definition.requires_attributes[0].target_id #=> String # resp.task_definition.placement_constraints #=> Array # resp.task_definition.placement_constraints[0].type #=> String, one of "memberOf" # resp.task_definition.placement_constraints[0].expression #=> String # resp.task_definition.compatibilities #=> Array # resp.task_definition.compatibilities[0] #=> String, one of "EC2", "FARGATE" # resp.task_definition.requires_compatibilities #=> Array # resp.task_definition.requires_compatibilities[0] #=> String, one of "EC2", "FARGATE" # resp.task_definition.cpu #=> String # resp.task_definition.memory #=> String # resp.task_definition.inference_accelerators #=> Array # resp.task_definition.inference_accelerators[0].device_name #=> String # resp.task_definition.inference_accelerators[0].device_type #=> String # resp.task_definition.pid_mode #=> String, one of "host", "task" # resp.task_definition.ipc_mode #=> String, one of "host", "task", "none" # resp.task_definition.proxy_configuration.type #=> String, one of "APPMESH" # resp.task_definition.proxy_configuration.container_name #=> String # resp.task_definition.proxy_configuration.properties #=> Array # resp.task_definition.proxy_configuration.properties[0].name #=> String # resp.task_definition.proxy_configuration.properties[0].value #=> String # resp.task_definition.registered_at #=> Time # resp.task_definition.deregistered_at #=> Time # resp.task_definition.registered_by #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DeregisterTaskDefinition AWS API Documentation # # @overload deregister_task_definition(params = {}) # @param [Hash] params ({}) def deregister_task_definition(params = {}, options = {}) req = build_request(:deregister_task_definition, params) req.send_request(options) end # Describes one or more of your capacity providers. # # @option params [Array] :capacity_providers # The short name or full Amazon Resource Name (ARN) of one or more # capacity providers. Up to `100` capacity providers can be described in # an action. # # @option params [Array] :include # Specifies whether or not you want to see the resource tags for the # capacity provider. If `TAGS` is specified, the tags are included in # the response. If this field is omitted, tags are not included in the # response. # # @option params [Integer] :max_results # The maximum number of account setting results returned by # `DescribeCapacityProviders` in paginated output. When this parameter # is used, `DescribeCapacityProviders` only returns `maxResults` results # in a single page along with a `nextToken` response element. The # remaining results of the initial request can be seen by sending # another `DescribeCapacityProviders` request with the returned # `nextToken` value. This value can be between 1 and 10. If this # parameter is not used, then `DescribeCapacityProviders` returns up to # 10 results and a `nextToken` value if applicable. # # @option params [String] :next_token # The `nextToken` value returned from a previous paginated # `DescribeCapacityProviders` request where `maxResults` was used and # the results exceeded the value of that parameter. Pagination continues # from the end of the previous results that returned the `nextToken` # value. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @return [Types::DescribeCapacityProvidersResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DescribeCapacityProvidersResponse#capacity_providers #capacity_providers} => Array<Types::CapacityProvider> # * {Types::DescribeCapacityProvidersResponse#failures #failures} => Array<Types::Failure> # * {Types::DescribeCapacityProvidersResponse#next_token #next_token} => String # # @example Request syntax with placeholder values # # resp = client.describe_capacity_providers({ # capacity_providers: ["String"], # include: ["TAGS"], # accepts TAGS # max_results: 1, # next_token: "String", # }) # # @example Response structure # # resp.capacity_providers #=> Array # resp.capacity_providers[0].capacity_provider_arn #=> String # resp.capacity_providers[0].name #=> String # resp.capacity_providers[0].status #=> String, one of "ACTIVE", "INACTIVE" # resp.capacity_providers[0].auto_scaling_group_provider.auto_scaling_group_arn #=> String # resp.capacity_providers[0].auto_scaling_group_provider.managed_scaling.status #=> String, one of "ENABLED", "DISABLED" # resp.capacity_providers[0].auto_scaling_group_provider.managed_scaling.target_capacity #=> Integer # resp.capacity_providers[0].auto_scaling_group_provider.managed_scaling.minimum_scaling_step_size #=> Integer # resp.capacity_providers[0].auto_scaling_group_provider.managed_scaling.maximum_scaling_step_size #=> Integer # resp.capacity_providers[0].auto_scaling_group_provider.managed_scaling.instance_warmup_period #=> Integer # resp.capacity_providers[0].auto_scaling_group_provider.managed_termination_protection #=> String, one of "ENABLED", "DISABLED" # resp.capacity_providers[0].update_status #=> String, one of "DELETE_IN_PROGRESS", "DELETE_COMPLETE", "DELETE_FAILED", "UPDATE_IN_PROGRESS", "UPDATE_COMPLETE", "UPDATE_FAILED" # resp.capacity_providers[0].update_status_reason #=> String # resp.capacity_providers[0].tags #=> Array # resp.capacity_providers[0].tags[0].key #=> String # resp.capacity_providers[0].tags[0].value #=> String # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DescribeCapacityProviders AWS API Documentation # # @overload describe_capacity_providers(params = {}) # @param [Hash] params ({}) def describe_capacity_providers(params = {}, options = {}) req = build_request(:describe_capacity_providers, params) req.send_request(options) end # Describes one or more of your clusters. # # @option params [Array] :clusters # A list of up to 100 cluster names or full cluster Amazon Resource Name # (ARN) entries. If you do not specify a cluster, the default cluster is # assumed. # # @option params [Array] :include # Whether to include additional information about your clusters in the # response. If this field is omitted, the attachments, statistics, and # tags are not included. # # If `ATTACHMENTS` is specified, the attachments for the container # instances or tasks within the cluster are included. # # If `SETTINGS` is specified, the settings for the cluster are included. # # If `STATISTICS` is specified, the following additional information, # separated by launch type, is included: # # * runningEC2TasksCount # # * runningFargateTasksCount # # * pendingEC2TasksCount # # * pendingFargateTasksCount # # * activeEC2ServiceCount # # * activeFargateServiceCount # # * drainingEC2ServiceCount # # * drainingFargateServiceCount # # If `TAGS` is specified, the metadata tags associated with the cluster # are included. # # @return [Types::DescribeClustersResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DescribeClustersResponse#clusters #clusters} => Array<Types::Cluster> # * {Types::DescribeClustersResponse#failures #failures} => Array<Types::Failure> # # # @example Example: To describe a cluster # # # This example provides a description of the specified cluster in your default region. # # resp = client.describe_clusters({ # clusters: [ # "default", # ], # }) # # resp.to_h outputs the following: # { # clusters: [ # { # cluster_arn: "arn:aws:ecs:us-east-1:aws_account_id:cluster/default", # cluster_name: "default", # status: "ACTIVE", # }, # ], # failures: [ # ], # } # # @example Request syntax with placeholder values # # resp = client.describe_clusters({ # clusters: ["String"], # include: ["ATTACHMENTS"], # accepts ATTACHMENTS, SETTINGS, STATISTICS, TAGS # }) # # @example Response structure # # resp.clusters #=> Array # resp.clusters[0].cluster_arn #=> String # resp.clusters[0].cluster_name #=> String # resp.clusters[0].status #=> String # resp.clusters[0].registered_container_instances_count #=> Integer # resp.clusters[0].running_tasks_count #=> Integer # resp.clusters[0].pending_tasks_count #=> Integer # resp.clusters[0].active_services_count #=> Integer # resp.clusters[0].statistics #=> Array # resp.clusters[0].statistics[0].name #=> String # resp.clusters[0].statistics[0].value #=> String # resp.clusters[0].tags #=> Array # resp.clusters[0].tags[0].key #=> String # resp.clusters[0].tags[0].value #=> String # resp.clusters[0].settings #=> Array # resp.clusters[0].settings[0].name #=> String, one of "containerInsights" # resp.clusters[0].settings[0].value #=> String # resp.clusters[0].capacity_providers #=> Array # resp.clusters[0].capacity_providers[0] #=> String # resp.clusters[0].default_capacity_provider_strategy #=> Array # resp.clusters[0].default_capacity_provider_strategy[0].capacity_provider #=> String # resp.clusters[0].default_capacity_provider_strategy[0].weight #=> Integer # resp.clusters[0].default_capacity_provider_strategy[0].base #=> Integer # resp.clusters[0].attachments #=> Array # resp.clusters[0].attachments[0].id #=> String # resp.clusters[0].attachments[0].type #=> String # resp.clusters[0].attachments[0].status #=> String # resp.clusters[0].attachments[0].details #=> Array # resp.clusters[0].attachments[0].details[0].name #=> String # resp.clusters[0].attachments[0].details[0].value #=> String # resp.clusters[0].attachments_status #=> String # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DescribeClusters AWS API Documentation # # @overload describe_clusters(params = {}) # @param [Hash] params ({}) def describe_clusters(params = {}, options = {}) req = build_request(:describe_clusters, params) req.send_request(options) end # Describes Amazon Elastic Container Service container instances. # Returns metadata about registered and remaining resources on each # container instance requested. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the container instances to describe. If you do not specify a # cluster, the default cluster is assumed. This parameter is required if # the container instance or container instances you are describing were # launched in any cluster other than the default cluster. # # @option params [required, Array] :container_instances # A list of up to 100 container instance IDs or full Amazon Resource # Name (ARN) entries. # # @option params [Array] :include # Specifies whether you want to see the resource tags for the container # instance. If `TAGS` is specified, the tags are included in the # response. If this field is omitted, tags are not included in the # response. # # @return [Types::DescribeContainerInstancesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DescribeContainerInstancesResponse#container_instances #container_instances} => Array<Types::ContainerInstance> # * {Types::DescribeContainerInstancesResponse#failures #failures} => Array<Types::Failure> # # # @example Example: To describe container instance # # # This example provides a description of the specified container instance in your default region, using the container # # instance UUID as an identifier. # # resp = client.describe_container_instances({ # cluster: "default", # container_instances: [ # "f2756532-8f13-4d53-87c9-aed50dc94cd7", # ], # }) # # resp.to_h outputs the following: # { # container_instances: [ # { # agent_connected: true, # container_instance_arn: "arn:aws:ecs:us-east-1:012345678910:container-instance/f2756532-8f13-4d53-87c9-aed50dc94cd7", # ec2_instance_id: "i-807f3249", # pending_tasks_count: 0, # registered_resources: [ # { # name: "CPU", # type: "INTEGER", # double_value: 0.0, # integer_value: 2048, # long_value: 0, # }, # { # name: "MEMORY", # type: "INTEGER", # double_value: 0.0, # integer_value: 3768, # long_value: 0, # }, # { # name: "PORTS", # type: "STRINGSET", # double_value: 0.0, # integer_value: 0, # long_value: 0, # string_set_value: [ # "2376", # "22", # "51678", # "2375", # ], # }, # ], # remaining_resources: [ # { # name: "CPU", # type: "INTEGER", # double_value: 0.0, # integer_value: 1948, # long_value: 0, # }, # { # name: "MEMORY", # type: "INTEGER", # double_value: 0.0, # integer_value: 3668, # long_value: 0, # }, # { # name: "PORTS", # type: "STRINGSET", # double_value: 0.0, # integer_value: 0, # long_value: 0, # string_set_value: [ # "2376", # "22", # "80", # "51678", # "2375", # ], # }, # ], # running_tasks_count: 1, # status: "ACTIVE", # }, # ], # failures: [ # ], # } # # @example Request syntax with placeholder values # # resp = client.describe_container_instances({ # cluster: "String", # container_instances: ["String"], # required # include: ["TAGS"], # accepts TAGS # }) # # @example Response structure # # resp.container_instances #=> Array # resp.container_instances[0].container_instance_arn #=> String # resp.container_instances[0].ec2_instance_id #=> String # resp.container_instances[0].capacity_provider_name #=> String # resp.container_instances[0].version #=> Integer # resp.container_instances[0].version_info.agent_version #=> String # resp.container_instances[0].version_info.agent_hash #=> String # resp.container_instances[0].version_info.docker_version #=> String # resp.container_instances[0].remaining_resources #=> Array # resp.container_instances[0].remaining_resources[0].name #=> String # resp.container_instances[0].remaining_resources[0].type #=> String # resp.container_instances[0].remaining_resources[0].double_value #=> Float # resp.container_instances[0].remaining_resources[0].long_value #=> Integer # resp.container_instances[0].remaining_resources[0].integer_value #=> Integer # resp.container_instances[0].remaining_resources[0].string_set_value #=> Array # resp.container_instances[0].remaining_resources[0].string_set_value[0] #=> String # resp.container_instances[0].registered_resources #=> Array # resp.container_instances[0].registered_resources[0].name #=> String # resp.container_instances[0].registered_resources[0].type #=> String # resp.container_instances[0].registered_resources[0].double_value #=> Float # resp.container_instances[0].registered_resources[0].long_value #=> Integer # resp.container_instances[0].registered_resources[0].integer_value #=> Integer # resp.container_instances[0].registered_resources[0].string_set_value #=> Array # resp.container_instances[0].registered_resources[0].string_set_value[0] #=> String # resp.container_instances[0].status #=> String # resp.container_instances[0].status_reason #=> String # resp.container_instances[0].agent_connected #=> Boolean # resp.container_instances[0].running_tasks_count #=> Integer # resp.container_instances[0].pending_tasks_count #=> Integer # resp.container_instances[0].agent_update_status #=> String, one of "PENDING", "STAGING", "STAGED", "UPDATING", "UPDATED", "FAILED" # resp.container_instances[0].attributes #=> Array # resp.container_instances[0].attributes[0].name #=> String # resp.container_instances[0].attributes[0].value #=> String # resp.container_instances[0].attributes[0].target_type #=> String, one of "container-instance" # resp.container_instances[0].attributes[0].target_id #=> String # resp.container_instances[0].registered_at #=> Time # resp.container_instances[0].attachments #=> Array # resp.container_instances[0].attachments[0].id #=> String # resp.container_instances[0].attachments[0].type #=> String # resp.container_instances[0].attachments[0].status #=> String # resp.container_instances[0].attachments[0].details #=> Array # resp.container_instances[0].attachments[0].details[0].name #=> String # resp.container_instances[0].attachments[0].details[0].value #=> String # resp.container_instances[0].tags #=> Array # resp.container_instances[0].tags[0].key #=> String # resp.container_instances[0].tags[0].value #=> String # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DescribeContainerInstances AWS API Documentation # # @overload describe_container_instances(params = {}) # @param [Hash] params ({}) def describe_container_instances(params = {}, options = {}) req = build_request(:describe_container_instances, params) req.send_request(options) end # Describes the specified services running in your cluster. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN)the cluster that # hosts the service to describe. If you do not specify a cluster, the # default cluster is assumed. This parameter is required if the service # or services you are describing were launched in any cluster other than # the default cluster. # # @option params [required, Array] :services # A list of services to describe. You may specify up to 10 services to # describe in a single operation. # # @option params [Array] :include # Specifies whether you want to see the resource tags for the service. # If `TAGS` is specified, the tags are included in the response. If this # field is omitted, tags are not included in the response. # # @return [Types::DescribeServicesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DescribeServicesResponse#services #services} => Array<Types::Service> # * {Types::DescribeServicesResponse#failures #failures} => Array<Types::Failure> # # # @example Example: To describe a service # # # This example provides descriptive information about the service named ``ecs-simple-service``. # # resp = client.describe_services({ # services: [ # "ecs-simple-service", # ], # }) # # resp.to_h outputs the following: # { # failures: [ # ], # services: [ # { # cluster_arn: "arn:aws:ecs:us-east-1:012345678910:cluster/default", # created_at: Time.parse("2016-08-29T16:25:52.130Z"), # deployment_configuration: { # maximum_percent: 200, # minimum_healthy_percent: 100, # }, # deployments: [ # { # created_at: Time.parse("2016-08-29T16:25:52.130Z"), # desired_count: 1, # id: "ecs-svc/9223370564341623665", # pending_count: 0, # running_count: 0, # status: "PRIMARY", # task_definition: "arn:aws:ecs:us-east-1:012345678910:task-definition/hello_world:6", # updated_at: Time.parse("2016-08-29T16:25:52.130Z"), # }, # ], # desired_count: 1, # events: [ # { # created_at: Time.parse("2016-08-29T16:25:58.520Z"), # id: "38c285e5-d335-4b68-8b15-e46dedc8e88d", # message: "(service ecs-simple-service) was unable to place a task because no container instance met all of its requirements. The closest matching (container-instance 3f4de1c5-ffdd-4954-af7e-75b4be0c8841) is already using a port required by your task. For more information, see the Troubleshooting section of the Amazon ECS Developer Guide.", # In this example, there is a service event that shows unavailable cluster resources. # }, # ], # load_balancers: [ # ], # pending_count: 0, # running_count: 0, # service_arn: "arn:aws:ecs:us-east-1:012345678910:service/ecs-simple-service", # service_name: "ecs-simple-service", # status: "ACTIVE", # task_definition: "arn:aws:ecs:us-east-1:012345678910:task-definition/hello_world:6", # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.describe_services({ # cluster: "String", # services: ["String"], # required # include: ["TAGS"], # accepts TAGS # }) # # @example Response structure # # resp.services #=> Array # resp.services[0].service_arn #=> String # resp.services[0].service_name #=> String # resp.services[0].cluster_arn #=> String # resp.services[0].load_balancers #=> Array # resp.services[0].load_balancers[0].target_group_arn #=> String # resp.services[0].load_balancers[0].load_balancer_name #=> String # resp.services[0].load_balancers[0].container_name #=> String # resp.services[0].load_balancers[0].container_port #=> Integer # resp.services[0].service_registries #=> Array # resp.services[0].service_registries[0].registry_arn #=> String # resp.services[0].service_registries[0].port #=> Integer # resp.services[0].service_registries[0].container_name #=> String # resp.services[0].service_registries[0].container_port #=> Integer # resp.services[0].status #=> String # resp.services[0].desired_count #=> Integer # resp.services[0].running_count #=> Integer # resp.services[0].pending_count #=> Integer # resp.services[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.services[0].capacity_provider_strategy #=> Array # resp.services[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.services[0].capacity_provider_strategy[0].weight #=> Integer # resp.services[0].capacity_provider_strategy[0].base #=> Integer # resp.services[0].platform_version #=> String # resp.services[0].task_definition #=> String # resp.services[0].deployment_configuration.deployment_circuit_breaker.enable #=> Boolean # resp.services[0].deployment_configuration.deployment_circuit_breaker.rollback #=> Boolean # resp.services[0].deployment_configuration.maximum_percent #=> Integer # resp.services[0].deployment_configuration.minimum_healthy_percent #=> Integer # resp.services[0].task_sets #=> Array # resp.services[0].task_sets[0].id #=> String # resp.services[0].task_sets[0].task_set_arn #=> String # resp.services[0].task_sets[0].service_arn #=> String # resp.services[0].task_sets[0].cluster_arn #=> String # resp.services[0].task_sets[0].started_by #=> String # resp.services[0].task_sets[0].external_id #=> String # resp.services[0].task_sets[0].status #=> String # resp.services[0].task_sets[0].task_definition #=> String # resp.services[0].task_sets[0].computed_desired_count #=> Integer # resp.services[0].task_sets[0].pending_count #=> Integer # resp.services[0].task_sets[0].running_count #=> Integer # resp.services[0].task_sets[0].created_at #=> Time # resp.services[0].task_sets[0].updated_at #=> Time # resp.services[0].task_sets[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.services[0].task_sets[0].capacity_provider_strategy #=> Array # resp.services[0].task_sets[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.services[0].task_sets[0].capacity_provider_strategy[0].weight #=> Integer # resp.services[0].task_sets[0].capacity_provider_strategy[0].base #=> Integer # resp.services[0].task_sets[0].platform_version #=> String # resp.services[0].task_sets[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.services[0].task_sets[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.services[0].task_sets[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.services[0].task_sets[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.services[0].task_sets[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.services[0].task_sets[0].load_balancers #=> Array # resp.services[0].task_sets[0].load_balancers[0].target_group_arn #=> String # resp.services[0].task_sets[0].load_balancers[0].load_balancer_name #=> String # resp.services[0].task_sets[0].load_balancers[0].container_name #=> String # resp.services[0].task_sets[0].load_balancers[0].container_port #=> Integer # resp.services[0].task_sets[0].service_registries #=> Array # resp.services[0].task_sets[0].service_registries[0].registry_arn #=> String # resp.services[0].task_sets[0].service_registries[0].port #=> Integer # resp.services[0].task_sets[0].service_registries[0].container_name #=> String # resp.services[0].task_sets[0].service_registries[0].container_port #=> Integer # resp.services[0].task_sets[0].scale.value #=> Float # resp.services[0].task_sets[0].scale.unit #=> String, one of "PERCENT" # resp.services[0].task_sets[0].stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.services[0].task_sets[0].stability_status_at #=> Time # resp.services[0].task_sets[0].tags #=> Array # resp.services[0].task_sets[0].tags[0].key #=> String # resp.services[0].task_sets[0].tags[0].value #=> String # resp.services[0].deployments #=> Array # resp.services[0].deployments[0].id #=> String # resp.services[0].deployments[0].status #=> String # resp.services[0].deployments[0].task_definition #=> String # resp.services[0].deployments[0].desired_count #=> Integer # resp.services[0].deployments[0].pending_count #=> Integer # resp.services[0].deployments[0].running_count #=> Integer # resp.services[0].deployments[0].failed_tasks #=> Integer # resp.services[0].deployments[0].created_at #=> Time # resp.services[0].deployments[0].updated_at #=> Time # resp.services[0].deployments[0].capacity_provider_strategy #=> Array # resp.services[0].deployments[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.services[0].deployments[0].capacity_provider_strategy[0].weight #=> Integer # resp.services[0].deployments[0].capacity_provider_strategy[0].base #=> Integer # resp.services[0].deployments[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.services[0].deployments[0].platform_version #=> String # resp.services[0].deployments[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.services[0].deployments[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.services[0].deployments[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.services[0].deployments[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.services[0].deployments[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.services[0].deployments[0].rollout_state #=> String, one of "COMPLETED", "FAILED", "IN_PROGRESS" # resp.services[0].deployments[0].rollout_state_reason #=> String # resp.services[0].role_arn #=> String # resp.services[0].events #=> Array # resp.services[0].events[0].id #=> String # resp.services[0].events[0].created_at #=> Time # resp.services[0].events[0].message #=> String # resp.services[0].created_at #=> Time # resp.services[0].placement_constraints #=> Array # resp.services[0].placement_constraints[0].type #=> String, one of "distinctInstance", "memberOf" # resp.services[0].placement_constraints[0].expression #=> String # resp.services[0].placement_strategy #=> Array # resp.services[0].placement_strategy[0].type #=> String, one of "random", "spread", "binpack" # resp.services[0].placement_strategy[0].field #=> String # resp.services[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.services[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.services[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.services[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.services[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.services[0].health_check_grace_period_seconds #=> Integer # resp.services[0].scheduling_strategy #=> String, one of "REPLICA", "DAEMON" # resp.services[0].deployment_controller.type #=> String, one of "ECS", "CODE_DEPLOY", "EXTERNAL" # resp.services[0].tags #=> Array # resp.services[0].tags[0].key #=> String # resp.services[0].tags[0].value #=> String # resp.services[0].created_by #=> String # resp.services[0].enable_ecs_managed_tags #=> Boolean # resp.services[0].propagate_tags #=> String, one of "TASK_DEFINITION", "SERVICE" # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # # The following waiters are defined for this operation (see {Client#wait_until} for detailed usage): # # * services_inactive # * services_stable # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DescribeServices AWS API Documentation # # @overload describe_services(params = {}) # @param [Hash] params ({}) def describe_services(params = {}, options = {}) req = build_request(:describe_services, params) req.send_request(options) end # Describes a task definition. You can specify a `family` and `revision` # to find information about a specific task definition, or you can # simply specify the family to find the latest `ACTIVE` revision in that # family. # # You can only describe `INACTIVE` task definitions while an active task # or service references them. # # # # @option params [required, String] :task_definition # The `family` for the latest `ACTIVE` revision, `family` and `revision` # (`family:revision`) for a specific revision in the family, or full # Amazon Resource Name (ARN) of the task definition to describe. # # @option params [Array] :include # Specifies whether to see the resource tags for the task definition. If # `TAGS` is specified, the tags are included in the response. If this # field is omitted, tags are not included in the response. # # @return [Types::DescribeTaskDefinitionResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DescribeTaskDefinitionResponse#task_definition #task_definition} => Types::TaskDefinition # * {Types::DescribeTaskDefinitionResponse#tags #tags} => Array<Types::Tag> # # # @example Example: To describe a task definition # # # This example provides a description of the specified task definition. # # resp = client.describe_task_definition({ # task_definition: "hello_world:8", # }) # # resp.to_h outputs the following: # { # task_definition: { # container_definitions: [ # { # name: "wordpress", # cpu: 10, # environment: [ # ], # essential: true, # image: "wordpress", # links: [ # "mysql", # ], # memory: 500, # mount_points: [ # ], # port_mappings: [ # { # container_port: 80, # host_port: 80, # }, # ], # volumes_from: [ # ], # }, # { # name: "mysql", # cpu: 10, # environment: [ # { # name: "MYSQL_ROOT_PASSWORD", # value: "password", # }, # ], # essential: true, # image: "mysql", # memory: 500, # mount_points: [ # ], # port_mappings: [ # ], # volumes_from: [ # ], # }, # ], # family: "hello_world", # revision: 8, # task_definition_arn: "arn:aws:ecs:us-east-1::task-definition/hello_world:8", # volumes: [ # ], # }, # } # # @example Request syntax with placeholder values # # resp = client.describe_task_definition({ # task_definition: "String", # required # include: ["TAGS"], # accepts TAGS # }) # # @example Response structure # # resp.task_definition.task_definition_arn #=> String # resp.task_definition.container_definitions #=> Array # resp.task_definition.container_definitions[0].name #=> String # resp.task_definition.container_definitions[0].image #=> String # resp.task_definition.container_definitions[0].repository_credentials.credentials_parameter #=> String # resp.task_definition.container_definitions[0].cpu #=> Integer # resp.task_definition.container_definitions[0].memory #=> Integer # resp.task_definition.container_definitions[0].memory_reservation #=> Integer # resp.task_definition.container_definitions[0].links #=> Array # resp.task_definition.container_definitions[0].links[0] #=> String # resp.task_definition.container_definitions[0].port_mappings #=> Array # resp.task_definition.container_definitions[0].port_mappings[0].container_port #=> Integer # resp.task_definition.container_definitions[0].port_mappings[0].host_port #=> Integer # resp.task_definition.container_definitions[0].port_mappings[0].protocol #=> String, one of "tcp", "udp" # resp.task_definition.container_definitions[0].essential #=> Boolean # resp.task_definition.container_definitions[0].entry_point #=> Array # resp.task_definition.container_definitions[0].entry_point[0] #=> String # resp.task_definition.container_definitions[0].command #=> Array # resp.task_definition.container_definitions[0].command[0] #=> String # resp.task_definition.container_definitions[0].environment #=> Array # resp.task_definition.container_definitions[0].environment[0].name #=> String # resp.task_definition.container_definitions[0].environment[0].value #=> String # resp.task_definition.container_definitions[0].environment_files #=> Array # resp.task_definition.container_definitions[0].environment_files[0].value #=> String # resp.task_definition.container_definitions[0].environment_files[0].type #=> String, one of "s3" # resp.task_definition.container_definitions[0].mount_points #=> Array # resp.task_definition.container_definitions[0].mount_points[0].source_volume #=> String # resp.task_definition.container_definitions[0].mount_points[0].container_path #=> String # resp.task_definition.container_definitions[0].mount_points[0].read_only #=> Boolean # resp.task_definition.container_definitions[0].volumes_from #=> Array # resp.task_definition.container_definitions[0].volumes_from[0].source_container #=> String # resp.task_definition.container_definitions[0].volumes_from[0].read_only #=> Boolean # resp.task_definition.container_definitions[0].linux_parameters.capabilities.add #=> Array # resp.task_definition.container_definitions[0].linux_parameters.capabilities.add[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.capabilities.drop #=> Array # resp.task_definition.container_definitions[0].linux_parameters.capabilities.drop[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices #=> Array # resp.task_definition.container_definitions[0].linux_parameters.devices[0].host_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices[0].container_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices[0].permissions #=> Array # resp.task_definition.container_definitions[0].linux_parameters.devices[0].permissions[0] #=> String, one of "read", "write", "mknod" # resp.task_definition.container_definitions[0].linux_parameters.init_process_enabled #=> Boolean # resp.task_definition.container_definitions[0].linux_parameters.shared_memory_size #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.tmpfs #=> Array # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].container_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].size #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].mount_options #=> Array # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].mount_options[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.max_swap #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.swappiness #=> Integer # resp.task_definition.container_definitions[0].secrets #=> Array # resp.task_definition.container_definitions[0].secrets[0].name #=> String # resp.task_definition.container_definitions[0].secrets[0].value_from #=> String # resp.task_definition.container_definitions[0].depends_on #=> Array # resp.task_definition.container_definitions[0].depends_on[0].container_name #=> String # resp.task_definition.container_definitions[0].depends_on[0].condition #=> String, one of "START", "COMPLETE", "SUCCESS", "HEALTHY" # resp.task_definition.container_definitions[0].start_timeout #=> Integer # resp.task_definition.container_definitions[0].stop_timeout #=> Integer # resp.task_definition.container_definitions[0].hostname #=> String # resp.task_definition.container_definitions[0].user #=> String # resp.task_definition.container_definitions[0].working_directory #=> String # resp.task_definition.container_definitions[0].disable_networking #=> Boolean # resp.task_definition.container_definitions[0].privileged #=> Boolean # resp.task_definition.container_definitions[0].readonly_root_filesystem #=> Boolean # resp.task_definition.container_definitions[0].dns_servers #=> Array # resp.task_definition.container_definitions[0].dns_servers[0] #=> String # resp.task_definition.container_definitions[0].dns_search_domains #=> Array # resp.task_definition.container_definitions[0].dns_search_domains[0] #=> String # resp.task_definition.container_definitions[0].extra_hosts #=> Array # resp.task_definition.container_definitions[0].extra_hosts[0].hostname #=> String # resp.task_definition.container_definitions[0].extra_hosts[0].ip_address #=> String # resp.task_definition.container_definitions[0].docker_security_options #=> Array # resp.task_definition.container_definitions[0].docker_security_options[0] #=> String # resp.task_definition.container_definitions[0].interactive #=> Boolean # resp.task_definition.container_definitions[0].pseudo_terminal #=> Boolean # resp.task_definition.container_definitions[0].docker_labels #=> Hash # resp.task_definition.container_definitions[0].docker_labels["String"] #=> String # resp.task_definition.container_definitions[0].ulimits #=> Array # resp.task_definition.container_definitions[0].ulimits[0].name #=> String, one of "core", "cpu", "data", "fsize", "locks", "memlock", "msgqueue", "nice", "nofile", "nproc", "rss", "rtprio", "rttime", "sigpending", "stack" # resp.task_definition.container_definitions[0].ulimits[0].soft_limit #=> Integer # resp.task_definition.container_definitions[0].ulimits[0].hard_limit #=> Integer # resp.task_definition.container_definitions[0].log_configuration.log_driver #=> String, one of "json-file", "syslog", "journald", "gelf", "fluentd", "awslogs", "splunk", "awsfirelens" # resp.task_definition.container_definitions[0].log_configuration.options #=> Hash # resp.task_definition.container_definitions[0].log_configuration.options["String"] #=> String # resp.task_definition.container_definitions[0].log_configuration.secret_options #=> Array # resp.task_definition.container_definitions[0].log_configuration.secret_options[0].name #=> String # resp.task_definition.container_definitions[0].log_configuration.secret_options[0].value_from #=> String # resp.task_definition.container_definitions[0].health_check.command #=> Array # resp.task_definition.container_definitions[0].health_check.command[0] #=> String # resp.task_definition.container_definitions[0].health_check.interval #=> Integer # resp.task_definition.container_definitions[0].health_check.timeout #=> Integer # resp.task_definition.container_definitions[0].health_check.retries #=> Integer # resp.task_definition.container_definitions[0].health_check.start_period #=> Integer # resp.task_definition.container_definitions[0].system_controls #=> Array # resp.task_definition.container_definitions[0].system_controls[0].namespace #=> String # resp.task_definition.container_definitions[0].system_controls[0].value #=> String # resp.task_definition.container_definitions[0].resource_requirements #=> Array # resp.task_definition.container_definitions[0].resource_requirements[0].value #=> String # resp.task_definition.container_definitions[0].resource_requirements[0].type #=> String, one of "GPU", "InferenceAccelerator" # resp.task_definition.container_definitions[0].firelens_configuration.type #=> String, one of "fluentd", "fluentbit" # resp.task_definition.container_definitions[0].firelens_configuration.options #=> Hash # resp.task_definition.container_definitions[0].firelens_configuration.options["String"] #=> String # resp.task_definition.family #=> String # resp.task_definition.task_role_arn #=> String # resp.task_definition.execution_role_arn #=> String # resp.task_definition.network_mode #=> String, one of "bridge", "host", "awsvpc", "none" # resp.task_definition.revision #=> Integer # resp.task_definition.volumes #=> Array # resp.task_definition.volumes[0].name #=> String # resp.task_definition.volumes[0].host.source_path #=> String # resp.task_definition.volumes[0].docker_volume_configuration.scope #=> String, one of "task", "shared" # resp.task_definition.volumes[0].docker_volume_configuration.autoprovision #=> Boolean # resp.task_definition.volumes[0].docker_volume_configuration.driver #=> String # resp.task_definition.volumes[0].docker_volume_configuration.driver_opts #=> Hash # resp.task_definition.volumes[0].docker_volume_configuration.driver_opts["String"] #=> String # resp.task_definition.volumes[0].docker_volume_configuration.labels #=> Hash # resp.task_definition.volumes[0].docker_volume_configuration.labels["String"] #=> String # resp.task_definition.volumes[0].efs_volume_configuration.file_system_id #=> String # resp.task_definition.volumes[0].efs_volume_configuration.root_directory #=> String # resp.task_definition.volumes[0].efs_volume_configuration.transit_encryption #=> String, one of "ENABLED", "DISABLED" # resp.task_definition.volumes[0].efs_volume_configuration.transit_encryption_port #=> Integer # resp.task_definition.volumes[0].efs_volume_configuration.authorization_config.access_point_id #=> String # resp.task_definition.volumes[0].efs_volume_configuration.authorization_config.iam #=> String, one of "ENABLED", "DISABLED" # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.file_system_id #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.root_directory #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.authorization_config.credentials_parameter #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.authorization_config.domain #=> String # resp.task_definition.status #=> String, one of "ACTIVE", "INACTIVE" # resp.task_definition.requires_attributes #=> Array # resp.task_definition.requires_attributes[0].name #=> String # resp.task_definition.requires_attributes[0].value #=> String # resp.task_definition.requires_attributes[0].target_type #=> String, one of "container-instance" # resp.task_definition.requires_attributes[0].target_id #=> String # resp.task_definition.placement_constraints #=> Array # resp.task_definition.placement_constraints[0].type #=> String, one of "memberOf" # resp.task_definition.placement_constraints[0].expression #=> String # resp.task_definition.compatibilities #=> Array # resp.task_definition.compatibilities[0] #=> String, one of "EC2", "FARGATE" # resp.task_definition.requires_compatibilities #=> Array # resp.task_definition.requires_compatibilities[0] #=> String, one of "EC2", "FARGATE" # resp.task_definition.cpu #=> String # resp.task_definition.memory #=> String # resp.task_definition.inference_accelerators #=> Array # resp.task_definition.inference_accelerators[0].device_name #=> String # resp.task_definition.inference_accelerators[0].device_type #=> String # resp.task_definition.pid_mode #=> String, one of "host", "task" # resp.task_definition.ipc_mode #=> String, one of "host", "task", "none" # resp.task_definition.proxy_configuration.type #=> String, one of "APPMESH" # resp.task_definition.proxy_configuration.container_name #=> String # resp.task_definition.proxy_configuration.properties #=> Array # resp.task_definition.proxy_configuration.properties[0].name #=> String # resp.task_definition.proxy_configuration.properties[0].value #=> String # resp.task_definition.registered_at #=> Time # resp.task_definition.deregistered_at #=> Time # resp.task_definition.registered_by #=> String # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DescribeTaskDefinition AWS API Documentation # # @overload describe_task_definition(params = {}) # @param [Hash] params ({}) def describe_task_definition(params = {}, options = {}) req = build_request(:describe_task_definition, params) req.send_request(options) end # Describes the task sets in the specified cluster and service. This is # used when a service uses the `EXTERNAL` deployment controller type. # For more information, see [Amazon ECS Deployment Types][1] in the # *Amazon Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/deployment-types.html # # @option params [required, String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the service that the task sets exist in. # # @option params [required, String] :service # The short name or full Amazon Resource Name (ARN) of the service that # the task sets exist in. # # @option params [Array] :task_sets # The ID or full Amazon Resource Name (ARN) of task sets to describe. # # @option params [Array] :include # Specifies whether to see the resource tags for the task set. If `TAGS` # is specified, the tags are included in the response. If this field is # omitted, tags are not included in the response. # # @return [Types::DescribeTaskSetsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DescribeTaskSetsResponse#task_sets #task_sets} => Array<Types::TaskSet> # * {Types::DescribeTaskSetsResponse#failures #failures} => Array<Types::Failure> # # @example Request syntax with placeholder values # # resp = client.describe_task_sets({ # cluster: "String", # required # service: "String", # required # task_sets: ["String"], # include: ["TAGS"], # accepts TAGS # }) # # @example Response structure # # resp.task_sets #=> Array # resp.task_sets[0].id #=> String # resp.task_sets[0].task_set_arn #=> String # resp.task_sets[0].service_arn #=> String # resp.task_sets[0].cluster_arn #=> String # resp.task_sets[0].started_by #=> String # resp.task_sets[0].external_id #=> String # resp.task_sets[0].status #=> String # resp.task_sets[0].task_definition #=> String # resp.task_sets[0].computed_desired_count #=> Integer # resp.task_sets[0].pending_count #=> Integer # resp.task_sets[0].running_count #=> Integer # resp.task_sets[0].created_at #=> Time # resp.task_sets[0].updated_at #=> Time # resp.task_sets[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.task_sets[0].capacity_provider_strategy #=> Array # resp.task_sets[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.task_sets[0].capacity_provider_strategy[0].weight #=> Integer # resp.task_sets[0].capacity_provider_strategy[0].base #=> Integer # resp.task_sets[0].platform_version #=> String # resp.task_sets[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.task_sets[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.task_sets[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.task_sets[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.task_sets[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.task_sets[0].load_balancers #=> Array # resp.task_sets[0].load_balancers[0].target_group_arn #=> String # resp.task_sets[0].load_balancers[0].load_balancer_name #=> String # resp.task_sets[0].load_balancers[0].container_name #=> String # resp.task_sets[0].load_balancers[0].container_port #=> Integer # resp.task_sets[0].service_registries #=> Array # resp.task_sets[0].service_registries[0].registry_arn #=> String # resp.task_sets[0].service_registries[0].port #=> Integer # resp.task_sets[0].service_registries[0].container_name #=> String # resp.task_sets[0].service_registries[0].container_port #=> Integer # resp.task_sets[0].scale.value #=> Float # resp.task_sets[0].scale.unit #=> String, one of "PERCENT" # resp.task_sets[0].stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.task_sets[0].stability_status_at #=> Time # resp.task_sets[0].tags #=> Array # resp.task_sets[0].tags[0].key #=> String # resp.task_sets[0].tags[0].value #=> String # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DescribeTaskSets AWS API Documentation # # @overload describe_task_sets(params = {}) # @param [Hash] params ({}) def describe_task_sets(params = {}, options = {}) req = build_request(:describe_task_sets, params) req.send_request(options) end # Describes a specified task or tasks. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the task or tasks to describe. If you do not specify a cluster, # the default cluster is assumed. This parameter is required if the task # or tasks you are describing were launched in any cluster other than # the default cluster. # # @option params [required, Array] :tasks # A list of up to 100 task IDs or full ARN entries. # # @option params [Array] :include # Specifies whether you want to see the resource tags for the task. If # `TAGS` is specified, the tags are included in the response. If this # field is omitted, tags are not included in the response. # # @return [Types::DescribeTasksResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DescribeTasksResponse#tasks #tasks} => Array<Types::Task> # * {Types::DescribeTasksResponse#failures #failures} => Array<Types::Failure> # # # @example Example: To describe a task # # # This example provides a description of the specified task, using the task UUID as an identifier. # # resp = client.describe_tasks({ # tasks: [ # "c5cba4eb-5dad-405e-96db-71ef8eefe6a8", # ], # }) # # resp.to_h outputs the following: # { # failures: [ # ], # tasks: [ # { # cluster_arn: "arn:aws:ecs:::cluster/default", # container_instance_arn: "arn:aws:ecs:::container-instance/18f9eda5-27d7-4c19-b133-45adc516e8fb", # containers: [ # { # name: "ecs-demo", # container_arn: "arn:aws:ecs:::container/7c01765b-c588-45b3-8290-4ba38bd6c5a6", # last_status: "RUNNING", # network_bindings: [ # { # bind_ip: "0.0.0.0", # container_port: 80, # host_port: 80, # }, # ], # task_arn: "arn:aws:ecs:::task/c5cba4eb-5dad-405e-96db-71ef8eefe6a8", # }, # ], # desired_status: "RUNNING", # last_status: "RUNNING", # overrides: { # container_overrides: [ # { # name: "ecs-demo", # }, # ], # }, # started_by: "ecs-svc/9223370608528463088", # task_arn: "arn:aws:ecs:::task/c5cba4eb-5dad-405e-96db-71ef8eefe6a8", # task_definition_arn: "arn:aws:ecs:::task-definition/amazon-ecs-sample:1", # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.describe_tasks({ # cluster: "String", # tasks: ["String"], # required # include: ["TAGS"], # accepts TAGS # }) # # @example Response structure # # resp.tasks #=> Array # resp.tasks[0].attachments #=> Array # resp.tasks[0].attachments[0].id #=> String # resp.tasks[0].attachments[0].type #=> String # resp.tasks[0].attachments[0].status #=> String # resp.tasks[0].attachments[0].details #=> Array # resp.tasks[0].attachments[0].details[0].name #=> String # resp.tasks[0].attachments[0].details[0].value #=> String # resp.tasks[0].attributes #=> Array # resp.tasks[0].attributes[0].name #=> String # resp.tasks[0].attributes[0].value #=> String # resp.tasks[0].attributes[0].target_type #=> String, one of "container-instance" # resp.tasks[0].attributes[0].target_id #=> String # resp.tasks[0].availability_zone #=> String # resp.tasks[0].capacity_provider_name #=> String # resp.tasks[0].cluster_arn #=> String # resp.tasks[0].connectivity #=> String, one of "CONNECTED", "DISCONNECTED" # resp.tasks[0].connectivity_at #=> Time # resp.tasks[0].container_instance_arn #=> String # resp.tasks[0].containers #=> Array # resp.tasks[0].containers[0].container_arn #=> String # resp.tasks[0].containers[0].task_arn #=> String # resp.tasks[0].containers[0].name #=> String # resp.tasks[0].containers[0].image #=> String # resp.tasks[0].containers[0].image_digest #=> String # resp.tasks[0].containers[0].runtime_id #=> String # resp.tasks[0].containers[0].last_status #=> String # resp.tasks[0].containers[0].exit_code #=> Integer # resp.tasks[0].containers[0].reason #=> String # resp.tasks[0].containers[0].network_bindings #=> Array # resp.tasks[0].containers[0].network_bindings[0].bind_ip #=> String # resp.tasks[0].containers[0].network_bindings[0].container_port #=> Integer # resp.tasks[0].containers[0].network_bindings[0].host_port #=> Integer # resp.tasks[0].containers[0].network_bindings[0].protocol #=> String, one of "tcp", "udp" # resp.tasks[0].containers[0].network_interfaces #=> Array # resp.tasks[0].containers[0].network_interfaces[0].attachment_id #=> String # resp.tasks[0].containers[0].network_interfaces[0].private_ipv_4_address #=> String # resp.tasks[0].containers[0].network_interfaces[0].ipv6_address #=> String # resp.tasks[0].containers[0].health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.tasks[0].containers[0].cpu #=> String # resp.tasks[0].containers[0].memory #=> String # resp.tasks[0].containers[0].memory_reservation #=> String # resp.tasks[0].containers[0].gpu_ids #=> Array # resp.tasks[0].containers[0].gpu_ids[0] #=> String # resp.tasks[0].cpu #=> String # resp.tasks[0].created_at #=> Time # resp.tasks[0].desired_status #=> String # resp.tasks[0].execution_stopped_at #=> Time # resp.tasks[0].group #=> String # resp.tasks[0].health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.tasks[0].inference_accelerators #=> Array # resp.tasks[0].inference_accelerators[0].device_name #=> String # resp.tasks[0].inference_accelerators[0].device_type #=> String # resp.tasks[0].last_status #=> String # resp.tasks[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.tasks[0].memory #=> String # resp.tasks[0].overrides.container_overrides #=> Array # resp.tasks[0].overrides.container_overrides[0].name #=> String # resp.tasks[0].overrides.container_overrides[0].command #=> Array # resp.tasks[0].overrides.container_overrides[0].command[0] #=> String # resp.tasks[0].overrides.container_overrides[0].environment #=> Array # resp.tasks[0].overrides.container_overrides[0].environment[0].name #=> String # resp.tasks[0].overrides.container_overrides[0].environment[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].environment_files #=> Array # resp.tasks[0].overrides.container_overrides[0].environment_files[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].environment_files[0].type #=> String, one of "s3" # resp.tasks[0].overrides.container_overrides[0].cpu #=> Integer # resp.tasks[0].overrides.container_overrides[0].memory #=> Integer # resp.tasks[0].overrides.container_overrides[0].memory_reservation #=> Integer # resp.tasks[0].overrides.container_overrides[0].resource_requirements #=> Array # resp.tasks[0].overrides.container_overrides[0].resource_requirements[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].resource_requirements[0].type #=> String, one of "GPU", "InferenceAccelerator" # resp.tasks[0].overrides.cpu #=> String # resp.tasks[0].overrides.inference_accelerator_overrides #=> Array # resp.tasks[0].overrides.inference_accelerator_overrides[0].device_name #=> String # resp.tasks[0].overrides.inference_accelerator_overrides[0].device_type #=> String # resp.tasks[0].overrides.execution_role_arn #=> String # resp.tasks[0].overrides.memory #=> String # resp.tasks[0].overrides.task_role_arn #=> String # resp.tasks[0].platform_version #=> String # resp.tasks[0].pull_started_at #=> Time # resp.tasks[0].pull_stopped_at #=> Time # resp.tasks[0].started_at #=> Time # resp.tasks[0].started_by #=> String # resp.tasks[0].stop_code #=> String, one of "TaskFailedToStart", "EssentialContainerExited", "UserInitiated" # resp.tasks[0].stopped_at #=> Time # resp.tasks[0].stopped_reason #=> String # resp.tasks[0].stopping_at #=> Time # resp.tasks[0].tags #=> Array # resp.tasks[0].tags[0].key #=> String # resp.tasks[0].tags[0].value #=> String # resp.tasks[0].task_arn #=> String # resp.tasks[0].task_definition_arn #=> String # resp.tasks[0].version #=> Integer # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # # The following waiters are defined for this operation (see {Client#wait_until} for detailed usage): # # * tasks_running # * tasks_stopped # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DescribeTasks AWS API Documentation # # @overload describe_tasks(params = {}) # @param [Hash] params ({}) def describe_tasks(params = {}, options = {}) req = build_request(:describe_tasks, params) req.send_request(options) end # This action is only used by the Amazon ECS agent, and it is not # intended for use outside of the agent. # # # # Returns an endpoint for the Amazon ECS agent to poll for updates. # # @option params [String] :container_instance # The container instance ID or full ARN of the container instance. The # ARN contains the `arn:aws:ecs` namespace, followed by the Region of # the container instance, the AWS account ID of the container instance # owner, the `container-instance` namespace, and then the container # instance ID. For example, # `arn:aws:ecs:region:aws_account_id:container-instance/container_instance_ID`. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster to # which the container instance belongs. # # @return [Types::DiscoverPollEndpointResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DiscoverPollEndpointResponse#endpoint #endpoint} => String # * {Types::DiscoverPollEndpointResponse#telemetry_endpoint #telemetry_endpoint} => String # # @example Request syntax with placeholder values # # resp = client.discover_poll_endpoint({ # container_instance: "String", # cluster: "String", # }) # # @example Response structure # # resp.endpoint #=> String # resp.telemetry_endpoint #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/DiscoverPollEndpoint AWS API Documentation # # @overload discover_poll_endpoint(params = {}) # @param [Hash] params ({}) def discover_poll_endpoint(params = {}, options = {}) req = build_request(:discover_poll_endpoint, params) req.send_request(options) end # Lists the account settings for a specified principal. # # @option params [String] :name # The name of the account setting you want to list the settings for. # # @option params [String] :value # The value of the account settings with which to filter results. You # must also specify an account setting name to use this parameter. # # @option params [String] :principal_arn # The ARN of the principal, which can be an IAM user, IAM role, or the # root user. If this field is omitted, the account settings are listed # only for the authenticated user. # # @option params [Boolean] :effective_settings # Specifies whether to return the effective settings. If `true`, the # account settings for the root user or the default setting for the # `principalArn` are returned. If `false`, the account settings for the # `principalArn` are returned if they are set. Otherwise, no account # settings are returned. # # @option params [String] :next_token # The `nextToken` value returned from a `ListAccountSettings` request # indicating that more results are available to fulfill the request and # further calls will be needed. If `maxResults` was provided, it is # possible the number of results to be fewer than `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of account setting results returned by # `ListAccountSettings` in paginated output. When this parameter is # used, `ListAccountSettings` only returns `maxResults` results in a # single page along with a `nextToken` response element. The remaining # results of the initial request can be seen by sending another # `ListAccountSettings` request with the returned `nextToken` value. # This value can be between 1 and 10. If this parameter is not used, # then `ListAccountSettings` returns up to 10 results and a `nextToken` # value if applicable. # # @return [Types::ListAccountSettingsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListAccountSettingsResponse#settings #settings} => Array<Types::Setting> # * {Types::ListAccountSettingsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To view your effective account settings # # # This example displays the effective account settings for your account. # # resp = client.list_account_settings({ # effective_settings: true, # }) # # resp.to_h outputs the following: # { # settings: [ # { # name: "containerInstanceLongArnFormat", # value: "disabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # { # name: "serviceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # { # name: "taskLongArnFormat", # value: "disabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # ], # } # # @example Example: To view the effective account settings for a specific IAM user or IAM role # # # This example displays the effective account settings for the specified user or role. # # resp = client.list_account_settings({ # effective_settings: true, # principal_arn: "arn:aws:iam:::user/principalName", # }) # # resp.to_h outputs the following: # { # settings: [ # { # name: "containerInstanceLongArnFormat", # value: "disabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # { # name: "serviceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # { # name: "taskLongArnFormat", # value: "disabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.list_account_settings({ # name: "serviceLongArnFormat", # accepts serviceLongArnFormat, taskLongArnFormat, containerInstanceLongArnFormat, awsvpcTrunking, containerInsights # value: "String", # principal_arn: "String", # effective_settings: false, # next_token: "String", # max_results: 1, # }) # # @example Response structure # # resp.settings #=> Array # resp.settings[0].name #=> String, one of "serviceLongArnFormat", "taskLongArnFormat", "containerInstanceLongArnFormat", "awsvpcTrunking", "containerInsights" # resp.settings[0].value #=> String # resp.settings[0].principal_arn #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListAccountSettings AWS API Documentation # # @overload list_account_settings(params = {}) # @param [Hash] params ({}) def list_account_settings(params = {}, options = {}) req = build_request(:list_account_settings, params) req.send_request(options) end # Lists the attributes for Amazon ECS resources within a specified # target type and cluster. When you specify a target type and cluster, # `ListAttributes` returns a list of attribute objects, one for each # attribute on each resource. You can filter the list of results to a # single attribute name to only return results that have that name. You # can also filter the results by attribute name and value, for example, # to see which container instances in a cluster are running a Linux AMI # (`ecs.os-type=linux`). # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster to # list attributes. If you do not specify a cluster, the default cluster # is assumed. # # @option params [required, String] :target_type # The type of the target with which to list attributes. # # @option params [String] :attribute_name # The name of the attribute with which to filter the results. # # @option params [String] :attribute_value # The value of the attribute with which to filter results. You must also # specify an attribute name to use this parameter. # # @option params [String] :next_token # The `nextToken` value returned from a `ListAttributes` request # indicating that more results are available to fulfill the request and # further calls will be needed. If `maxResults` was provided, it is # possible the number of results to be fewer than `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of cluster results returned by `ListAttributes` in # paginated output. When this parameter is used, `ListAttributes` only # returns `maxResults` results in a single page along with a `nextToken` # response element. The remaining results of the initial request can be # seen by sending another `ListAttributes` request with the returned # `nextToken` value. This value can be between 1 and 100. If this # parameter is not used, then `ListAttributes` returns up to 100 results # and a `nextToken` value if applicable. # # @return [Types::ListAttributesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListAttributesResponse#attributes #attributes} => Array<Types::Attribute> # * {Types::ListAttributesResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.list_attributes({ # cluster: "String", # target_type: "container-instance", # required, accepts container-instance # attribute_name: "String", # attribute_value: "String", # next_token: "String", # max_results: 1, # }) # # @example Response structure # # resp.attributes #=> Array # resp.attributes[0].name #=> String # resp.attributes[0].value #=> String # resp.attributes[0].target_type #=> String, one of "container-instance" # resp.attributes[0].target_id #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListAttributes AWS API Documentation # # @overload list_attributes(params = {}) # @param [Hash] params ({}) def list_attributes(params = {}, options = {}) req = build_request(:list_attributes, params) req.send_request(options) end # Returns a list of existing clusters. # # @option params [String] :next_token # The `nextToken` value returned from a `ListClusters` request # indicating that more results are available to fulfill the request and # further calls will be needed. If `maxResults` was provided, it is # possible the number of results to be fewer than `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of cluster results returned by `ListClusters` in # paginated output. When this parameter is used, `ListClusters` only # returns `maxResults` results in a single page along with a `nextToken` # response element. The remaining results of the initial request can be # seen by sending another `ListClusters` request with the returned # `nextToken` value. This value can be between 1 and 100. If this # parameter is not used, then `ListClusters` returns up to 100 results # and a `nextToken` value if applicable. # # @return [Types::ListClustersResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListClustersResponse#cluster_arns #cluster_arns} => Array<String> # * {Types::ListClustersResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To list your available clusters # # # This example lists all of your available clusters in your default region. # # resp = client.list_clusters({ # }) # # resp.to_h outputs the following: # { # cluster_arns: [ # "arn:aws:ecs:us-east-1::cluster/test", # "arn:aws:ecs:us-east-1::cluster/default", # ], # } # # @example Request syntax with placeholder values # # resp = client.list_clusters({ # next_token: "String", # max_results: 1, # }) # # @example Response structure # # resp.cluster_arns #=> Array # resp.cluster_arns[0] #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListClusters AWS API Documentation # # @overload list_clusters(params = {}) # @param [Hash] params ({}) def list_clusters(params = {}, options = {}) req = build_request(:list_clusters, params) req.send_request(options) end # Returns a list of container instances in a specified cluster. You can # filter the results of a `ListContainerInstances` operation with # cluster query language statements inside the `filter` parameter. For # more information, see [Cluster Query Language][1] in the *Amazon # Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-query-language.html # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the container instances to list. If you do not specify a # cluster, the default cluster is assumed. # # @option params [String] :filter # You can filter the results of a `ListContainerInstances` operation # with cluster query language statements. For more information, see # [Cluster Query Language][1] in the *Amazon Elastic Container Service # Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cluster-query-language.html # # @option params [String] :next_token # The `nextToken` value returned from a `ListContainerInstances` request # indicating that more results are available to fulfill the request and # further calls will be needed. If `maxResults` was provided, it is # possible the number of results to be fewer than `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of container instance results returned by # `ListContainerInstances` in paginated output. When this parameter is # used, `ListContainerInstances` only returns `maxResults` results in a # single page along with a `nextToken` response element. The remaining # results of the initial request can be seen by sending another # `ListContainerInstances` request with the returned `nextToken` value. # This value can be between 1 and 100. If this parameter is not used, # then `ListContainerInstances` returns up to 100 results and a # `nextToken` value if applicable. # # @option params [String] :status # Filters the container instances by status. For example, if you specify # the `DRAINING` status, the results include only container instances # that have been set to `DRAINING` using UpdateContainerInstancesState. # If you do not specify this parameter, the default is to include # container instances set to all states other than `INACTIVE`. # # @return [Types::ListContainerInstancesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListContainerInstancesResponse#container_instance_arns #container_instance_arns} => Array<String> # * {Types::ListContainerInstancesResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To list your available container instances in a cluster # # # This example lists all of your available container instances in the specified cluster in your default region. # # resp = client.list_container_instances({ # cluster: "default", # }) # # resp.to_h outputs the following: # { # container_instance_arns: [ # "arn:aws:ecs:us-east-1::container-instance/f6bbb147-5370-4ace-8c73-c7181ded911f", # "arn:aws:ecs:us-east-1::container-instance/ffe3d344-77e2-476c-a4d0-bf560ad50acb", # ], # } # # @example Request syntax with placeholder values # # resp = client.list_container_instances({ # cluster: "String", # filter: "String", # next_token: "String", # max_results: 1, # status: "ACTIVE", # accepts ACTIVE, DRAINING, REGISTERING, DEREGISTERING, REGISTRATION_FAILED # }) # # @example Response structure # # resp.container_instance_arns #=> Array # resp.container_instance_arns[0] #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListContainerInstances AWS API Documentation # # @overload list_container_instances(params = {}) # @param [Hash] params ({}) def list_container_instances(params = {}, options = {}) req = build_request(:list_container_instances, params) req.send_request(options) end # Lists the services that are running in a specified cluster. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the services to list. If you do not specify a cluster, the # default cluster is assumed. # # @option params [String] :next_token # The `nextToken` value returned from a `ListServices` request # indicating that more results are available to fulfill the request and # further calls will be needed. If `maxResults` was provided, it is # possible the number of results to be fewer than `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of service results returned by `ListServices` in # paginated output. When this parameter is used, `ListServices` only # returns `maxResults` results in a single page along with a `nextToken` # response element. The remaining results of the initial request can be # seen by sending another `ListServices` request with the returned # `nextToken` value. This value can be between 1 and 100. If this # parameter is not used, then `ListServices` returns up to 10 results # and a `nextToken` value if applicable. # # @option params [String] :launch_type # The launch type for the services to list. # # @option params [String] :scheduling_strategy # The scheduling strategy for services to list. # # @return [Types::ListServicesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListServicesResponse#service_arns #service_arns} => Array<String> # * {Types::ListServicesResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To list the services in a cluster # # # This example lists the services running in the default cluster for an account. # # resp = client.list_services({ # }) # # resp.to_h outputs the following: # { # service_arns: [ # "arn:aws:ecs:us-east-1:012345678910:service/my-http-service", # ], # } # # @example Request syntax with placeholder values # # resp = client.list_services({ # cluster: "String", # next_token: "String", # max_results: 1, # launch_type: "EC2", # accepts EC2, FARGATE # scheduling_strategy: "REPLICA", # accepts REPLICA, DAEMON # }) # # @example Response structure # # resp.service_arns #=> Array # resp.service_arns[0] #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListServices AWS API Documentation # # @overload list_services(params = {}) # @param [Hash] params ({}) def list_services(params = {}, options = {}) req = build_request(:list_services, params) req.send_request(options) end # List the tags for an Amazon ECS resource. # # @option params [required, String] :resource_arn # The Amazon Resource Name (ARN) that identifies the resource for which # to list the tags. Currently, the supported resources are Amazon ECS # tasks, services, task definitions, clusters, and container instances. # # @return [Types::ListTagsForResourceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListTagsForResourceResponse#tags #tags} => Array<Types::Tag> # # # @example Example: To list the tags for a cluster. # # # This example lists the tags for the 'dev' cluster. # # resp = client.list_tags_for_resource({ # resource_arn: "arn:aws:ecs:region:aws_account_id:cluster/dev", # }) # # resp.to_h outputs the following: # { # tags: [ # { # key: "team", # value: "dev", # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.list_tags_for_resource({ # resource_arn: "String", # required # }) # # @example Response structure # # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/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 # Returns a list of task definition families that are registered to your # account (which may include task definition families that no longer # have any `ACTIVE` task definition revisions). # # You can filter out task definition families that do not contain any # `ACTIVE` task definition revisions by setting the `status` parameter # to `ACTIVE`. You can also filter the results with the `familyPrefix` # parameter. # # @option params [String] :family_prefix # The `familyPrefix` is a string that is used to filter the results of # `ListTaskDefinitionFamilies`. If you specify a `familyPrefix`, only # task definition family names that begin with the `familyPrefix` string # are returned. # # @option params [String] :status # The task definition family status with which to filter the # `ListTaskDefinitionFamilies` results. By default, both `ACTIVE` and # `INACTIVE` task definition families are listed. If this parameter is # set to `ACTIVE`, only task definition families that have an `ACTIVE` # task definition revision are returned. If this parameter is set to # `INACTIVE`, only task definition families that do not have any # `ACTIVE` task definition revisions are returned. If you paginate the # resulting output, be sure to keep the `status` value constant in each # subsequent request. # # @option params [String] :next_token # The `nextToken` value returned from a `ListTaskDefinitionFamilies` # request indicating that more results are available to fulfill the # request and further calls will be needed. If `maxResults` was # provided, it is possible the number of results to be fewer than # `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of task definition family results returned by # `ListTaskDefinitionFamilies` in paginated output. When this parameter # is used, `ListTaskDefinitions` only returns `maxResults` results in a # single page along with a `nextToken` response element. The remaining # results of the initial request can be seen by sending another # `ListTaskDefinitionFamilies` request with the returned `nextToken` # value. This value can be between 1 and 100. If this parameter is not # used, then `ListTaskDefinitionFamilies` returns up to 100 results and # a `nextToken` value if applicable. # # @return [Types::ListTaskDefinitionFamiliesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListTaskDefinitionFamiliesResponse#families #families} => Array<String> # * {Types::ListTaskDefinitionFamiliesResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To list your registered task definition families # # # This example lists all of your registered task definition families. # # resp = client.list_task_definition_families({ # }) # # resp.to_h outputs the following: # { # families: [ # "node-js-app", # "web-timer", # "hpcc", # "hpcc-c4-8xlarge", # ], # } # # @example Example: To filter your registered task definition families # # # This example lists the task definition revisions that start with "hpcc". # # resp = client.list_task_definition_families({ # family_prefix: "hpcc", # }) # # resp.to_h outputs the following: # { # families: [ # "hpcc", # "hpcc-c4-8xlarge", # ], # } # # @example Request syntax with placeholder values # # resp = client.list_task_definition_families({ # family_prefix: "String", # status: "ACTIVE", # accepts ACTIVE, INACTIVE, ALL # next_token: "String", # max_results: 1, # }) # # @example Response structure # # resp.families #=> Array # resp.families[0] #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListTaskDefinitionFamilies AWS API Documentation # # @overload list_task_definition_families(params = {}) # @param [Hash] params ({}) def list_task_definition_families(params = {}, options = {}) req = build_request(:list_task_definition_families, params) req.send_request(options) end # Returns a list of task definitions that are registered to your # account. You can filter the results by family name with the # `familyPrefix` parameter or by status with the `status` parameter. # # @option params [String] :family_prefix # The full family name with which to filter the `ListTaskDefinitions` # results. Specifying a `familyPrefix` limits the listed task # definitions to task definition revisions that belong to that family. # # @option params [String] :status # The task definition status with which to filter the # `ListTaskDefinitions` results. By default, only `ACTIVE` task # definitions are listed. By setting this parameter to `INACTIVE`, you # can view task definitions that are `INACTIVE` as long as an active # task or service still references them. If you paginate the resulting # output, be sure to keep the `status` value constant in each subsequent # request. # # @option params [String] :sort # The order in which to sort the results. Valid values are `ASC` and # `DESC`. By default (`ASC`), task definitions are listed # lexicographically by family name and in ascending numerical order by # revision so that the newest task definitions in a family are listed # last. Setting this parameter to `DESC` reverses the sort order on # family name and revision so that the newest task definitions in a # family are listed first. # # @option params [String] :next_token # The `nextToken` value returned from a `ListTaskDefinitions` request # indicating that more results are available to fulfill the request and # further calls will be needed. If `maxResults` was provided, it is # possible the number of results to be fewer than `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of task definition results returned by # `ListTaskDefinitions` in paginated output. When this parameter is # used, `ListTaskDefinitions` only returns `maxResults` results in a # single page along with a `nextToken` response element. The remaining # results of the initial request can be seen by sending another # `ListTaskDefinitions` request with the returned `nextToken` value. # This value can be between 1 and 100. If this parameter is not used, # then `ListTaskDefinitions` returns up to 100 results and a `nextToken` # value if applicable. # # @return [Types::ListTaskDefinitionsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListTaskDefinitionsResponse#task_definition_arns #task_definition_arns} => Array<String> # * {Types::ListTaskDefinitionsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To list your registered task definitions # # # This example lists all of your registered task definitions. # # resp = client.list_task_definitions({ # }) # # resp.to_h outputs the following: # { # task_definition_arns: [ # "arn:aws:ecs:us-east-1::task-definition/sleep300:2", # "arn:aws:ecs:us-east-1::task-definition/sleep360:1", # "arn:aws:ecs:us-east-1::task-definition/wordpress:3", # "arn:aws:ecs:us-east-1::task-definition/wordpress:4", # "arn:aws:ecs:us-east-1::task-definition/wordpress:5", # "arn:aws:ecs:us-east-1::task-definition/wordpress:6", # ], # } # # @example Example: To list the registered task definitions in a family # # # This example lists the task definition revisions of a specified family. # # resp = client.list_task_definitions({ # family_prefix: "wordpress", # }) # # resp.to_h outputs the following: # { # task_definition_arns: [ # "arn:aws:ecs:us-east-1::task-definition/wordpress:3", # "arn:aws:ecs:us-east-1::task-definition/wordpress:4", # "arn:aws:ecs:us-east-1::task-definition/wordpress:5", # "arn:aws:ecs:us-east-1::task-definition/wordpress:6", # ], # } # # @example Request syntax with placeholder values # # resp = client.list_task_definitions({ # family_prefix: "String", # status: "ACTIVE", # accepts ACTIVE, INACTIVE # sort: "ASC", # accepts ASC, DESC # next_token: "String", # max_results: 1, # }) # # @example Response structure # # resp.task_definition_arns #=> Array # resp.task_definition_arns[0] #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListTaskDefinitions AWS API Documentation # # @overload list_task_definitions(params = {}) # @param [Hash] params ({}) def list_task_definitions(params = {}, options = {}) req = build_request(:list_task_definitions, params) req.send_request(options) end # Returns a list of tasks for a specified cluster. You can filter the # results by family name, by a particular container instance, or by the # desired status of the task with the `family`, `containerInstance`, and # `desiredStatus` parameters. # # Recently stopped tasks might appear in the returned results. # Currently, stopped tasks appear in the returned results for at least # one hour. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the tasks to list. If you do not specify a cluster, the default # cluster is assumed. # # @option params [String] :container_instance # The container instance ID or full ARN of the container instance with # which to filter the `ListTasks` results. Specifying a # `containerInstance` limits the results to tasks that belong to that # container instance. # # @option params [String] :family # The name of the family with which to filter the `ListTasks` results. # Specifying a `family` limits the results to tasks that belong to that # family. # # @option params [String] :next_token # The `nextToken` value returned from a `ListTasks` request indicating # that more results are available to fulfill the request and further # calls will be needed. If `maxResults` was provided, it is possible the # number of results to be fewer than `maxResults`. # # This token should be treated as an opaque identifier that is only used # to retrieve the next items in a list and not for other programmatic # purposes. # # # # @option params [Integer] :max_results # The maximum number of task results returned by `ListTasks` in # paginated output. When this parameter is used, `ListTasks` only # returns `maxResults` results in a single page along with a `nextToken` # response element. The remaining results of the initial request can be # seen by sending another `ListTasks` request with the returned # `nextToken` value. This value can be between 1 and 100. If this # parameter is not used, then `ListTasks` returns up to 100 results and # a `nextToken` value if applicable. # # @option params [String] :started_by # The `startedBy` value with which to filter the task results. # Specifying a `startedBy` value limits the results to tasks that were # started with that value. # # @option params [String] :service_name # The name of the service with which to filter the `ListTasks` results. # Specifying a `serviceName` limits the results to tasks that belong to # that service. # # @option params [String] :desired_status # The task desired status with which to filter the `ListTasks` results. # Specifying a `desiredStatus` of `STOPPED` limits the results to tasks # that Amazon ECS has set the desired status to `STOPPED`. This can be # useful for debugging tasks that are not starting properly or have died # or finished. The default status filter is `RUNNING`, which shows tasks # that Amazon ECS has set the desired status to `RUNNING`. # # Although you can filter results based on a desired status of # `PENDING`, this does not return any results. Amazon ECS never sets the # desired status of a task to that value (only a task's `lastStatus` # may have a value of `PENDING`). # # # # @option params [String] :launch_type # The launch type for services to list. # # @return [Types::ListTasksResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListTasksResponse#task_arns #task_arns} => Array<String> # * {Types::ListTasksResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To list the tasks in a cluster # # # This example lists all of the tasks in a cluster. # # resp = client.list_tasks({ # cluster: "default", # }) # # resp.to_h outputs the following: # { # task_arns: [ # "arn:aws:ecs:us-east-1:012345678910:task/0cc43cdb-3bee-4407-9c26-c0e6ea5bee84", # "arn:aws:ecs:us-east-1:012345678910:task/6b809ef6-c67e-4467-921f-ee261c15a0a1", # ], # } # # @example Example: To list the tasks on a particular container instance # # # This example lists the tasks of a specified container instance. Specifying a ``containerInstance`` value limits the # # results to tasks that belong to that container instance. # # resp = client.list_tasks({ # cluster: "default", # container_instance: "f6bbb147-5370-4ace-8c73-c7181ded911f", # }) # # resp.to_h outputs the following: # { # task_arns: [ # "arn:aws:ecs:us-east-1:012345678910:task/0cc43cdb-3bee-4407-9c26-c0e6ea5bee84", # ], # } # # @example Request syntax with placeholder values # # resp = client.list_tasks({ # cluster: "String", # container_instance: "String", # family: "String", # next_token: "String", # max_results: 1, # started_by: "String", # service_name: "String", # desired_status: "RUNNING", # accepts RUNNING, PENDING, STOPPED # launch_type: "EC2", # accepts EC2, FARGATE # }) # # @example Response structure # # resp.task_arns #=> Array # resp.task_arns[0] #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/ListTasks AWS API Documentation # # @overload list_tasks(params = {}) # @param [Hash] params ({}) def list_tasks(params = {}, options = {}) req = build_request(:list_tasks, params) req.send_request(options) end # Modifies an account setting. Account settings are set on a per-Region # basis. # # If you change the account setting for the root user, the default # settings for all of the IAM users and roles for which no individual # account setting has been specified are reset. For more information, # see [Account Settings][1] in the *Amazon Elastic Container Service # Developer Guide*. # # When `serviceLongArnFormat`, `taskLongArnFormat`, or # `containerInstanceLongArnFormat` are specified, the Amazon Resource # Name (ARN) and resource ID format of the resource type for a specified # IAM user, IAM role, or the root user for an account is affected. The # opt-in and opt-out account setting must be set for each Amazon ECS # resource separately. The ARN and resource ID format of a resource will # be defined by the opt-in status of the IAM user or role that created # the resource. You must enable this setting to use Amazon ECS features # such as resource tagging. # # When `awsvpcTrunking` is specified, the elastic network interface # (ENI) limit for any new container instances that support the feature # is changed. If `awsvpcTrunking` is enabled, any new container # instances that support the feature are launched have the increased ENI # limits available to them. For more information, see [Elastic Network # Interface Trunking][2] in the *Amazon Elastic Container Service # Developer Guide*. # # When `containerInsights` is specified, the default setting indicating # whether CloudWatch Container Insights is enabled for your clusters is # changed. If `containerInsights` is enabled, any new clusters that are # created will have Container Insights enabled unless you disable it # during cluster creation. For more information, see [CloudWatch # Container Insights][3] in the *Amazon Elastic Container Service # Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-account-settings.html # [2]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/container-instance-eni.html # [3]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/cloudwatch-container-insights.html # # @option params [required, String] :name # The Amazon ECS resource name for which to modify the account setting. # If `serviceLongArnFormat` is specified, the ARN for your Amazon ECS # services is affected. If `taskLongArnFormat` is specified, the ARN and # resource ID for your Amazon ECS tasks is affected. If # `containerInstanceLongArnFormat` is specified, the ARN and resource ID # for your Amazon ECS container instances is affected. If # `awsvpcTrunking` is specified, the elastic network interface (ENI) # limit for your Amazon ECS container instances is affected. If # `containerInsights` is specified, the default setting for CloudWatch # Container Insights for your clusters is affected. # # @option params [required, String] :value # The account setting value for the specified principal ARN. Accepted # values are `enabled` and `disabled`. # # @option params [String] :principal_arn # The ARN of the principal, which can be an IAM user, IAM role, or the # root user. If you specify the root user, it modifies the account # setting for all IAM users, IAM roles, and the root user of the account # unless an IAM user or role explicitly overrides these settings. If # this field is omitted, the setting is changed only for the # authenticated user. # # @return [Types::PutAccountSettingResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutAccountSettingResponse#setting #setting} => Types::Setting # # # @example Example: To modify your account settings # # # This example modifies your account settings to opt in to the new ARN and resource ID format for Amazon ECS services. If # # you’re using this command as the root user, then changes apply to the entire AWS account, unless an IAM user or role # # explicitly overrides these settings for themselves. # # resp = client.put_account_setting({ # name: "serviceLongArnFormat", # value: "enabled", # }) # # resp.to_h outputs the following: # { # setting: { # name: "serviceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # } # # @example Example: To modify the account settings for a specific IAM user or IAM role # # # This example modifies the account setting for a specific IAM user or IAM role to opt in to the new ARN and resource ID # # format for Amazon ECS container instances. If you’re using this command as the root user, then changes apply to the # # entire AWS account, unless an IAM user or role explicitly overrides these settings for themselves. # # resp = client.put_account_setting({ # name: "containerInstanceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::user/principalName", # }) # # resp.to_h outputs the following: # { # setting: { # name: "containerInstanceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::user/principalName", # }, # } # # @example Request syntax with placeholder values # # resp = client.put_account_setting({ # name: "serviceLongArnFormat", # required, accepts serviceLongArnFormat, taskLongArnFormat, containerInstanceLongArnFormat, awsvpcTrunking, containerInsights # value: "String", # required # principal_arn: "String", # }) # # @example Response structure # # resp.setting.name #=> String, one of "serviceLongArnFormat", "taskLongArnFormat", "containerInstanceLongArnFormat", "awsvpcTrunking", "containerInsights" # resp.setting.value #=> String # resp.setting.principal_arn #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/PutAccountSetting AWS API Documentation # # @overload put_account_setting(params = {}) # @param [Hash] params ({}) def put_account_setting(params = {}, options = {}) req = build_request(:put_account_setting, params) req.send_request(options) end # Modifies an account setting for all IAM users on an account for whom # no individual account setting has been specified. Account settings are # set on a per-Region basis. # # @option params [required, String] :name # The resource name for which to modify the account setting. If # `serviceLongArnFormat` is specified, the ARN for your Amazon ECS # services is affected. If `taskLongArnFormat` is specified, the ARN and # resource ID for your Amazon ECS tasks is affected. If # `containerInstanceLongArnFormat` is specified, the ARN and resource ID # for your Amazon ECS container instances is affected. If # `awsvpcTrunking` is specified, the ENI limit for your Amazon ECS # container instances is affected. If `containerInsights` is specified, # the default setting for CloudWatch Container Insights for your # clusters is affected. # # @option params [required, String] :value # The account setting value for the specified principal ARN. Accepted # values are `enabled` and `disabled`. # # @return [Types::PutAccountSettingDefaultResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutAccountSettingDefaultResponse#setting #setting} => Types::Setting # # # @example Example: To modify the default account settings for all IAM users or roles on an account # # # This example modifies the default account setting for the specified resource for all IAM users or roles on an account. # # These changes apply to the entire AWS account, unless an IAM user or role explicitly overrides these settings for # # themselves. # # resp = client.put_account_setting_default({ # name: "serviceLongArnFormat", # value: "enabled", # }) # # resp.to_h outputs the following: # { # setting: { # name: "serviceLongArnFormat", # value: "enabled", # principal_arn: "arn:aws:iam:::root", # }, # } # # @example Request syntax with placeholder values # # resp = client.put_account_setting_default({ # name: "serviceLongArnFormat", # required, accepts serviceLongArnFormat, taskLongArnFormat, containerInstanceLongArnFormat, awsvpcTrunking, containerInsights # value: "String", # required # }) # # @example Response structure # # resp.setting.name #=> String, one of "serviceLongArnFormat", "taskLongArnFormat", "containerInstanceLongArnFormat", "awsvpcTrunking", "containerInsights" # resp.setting.value #=> String # resp.setting.principal_arn #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/PutAccountSettingDefault AWS API Documentation # # @overload put_account_setting_default(params = {}) # @param [Hash] params ({}) def put_account_setting_default(params = {}, options = {}) req = build_request(:put_account_setting_default, params) req.send_request(options) end # Create or update an attribute on an Amazon ECS resource. If the # attribute does not exist, it is created. If the attribute exists, its # value is replaced with the specified value. To delete an attribute, # use DeleteAttributes. For more information, see [Attributes][1] in the # *Amazon Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-placement-constraints.html#attributes # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # contains the resource to apply attributes. If you do not specify a # cluster, the default cluster is assumed. # # @option params [required, Array] :attributes # The attributes to apply to your resource. You can specify up to 10 # custom attributes per resource. You can specify up to 10 attributes in # a single call. # # @return [Types::PutAttributesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutAttributesResponse#attributes #attributes} => Array<Types::Attribute> # # @example Request syntax with placeholder values # # resp = client.put_attributes({ # cluster: "String", # attributes: [ # required # { # name: "String", # required # value: "String", # target_type: "container-instance", # accepts container-instance # target_id: "String", # }, # ], # }) # # @example Response structure # # resp.attributes #=> Array # resp.attributes[0].name #=> String # resp.attributes[0].value #=> String # resp.attributes[0].target_type #=> String, one of "container-instance" # resp.attributes[0].target_id #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/PutAttributes AWS API Documentation # # @overload put_attributes(params = {}) # @param [Hash] params ({}) def put_attributes(params = {}, options = {}) req = build_request(:put_attributes, params) req.send_request(options) end # Modifies the available capacity providers and the default capacity # provider strategy for a cluster. # # You must specify both the available capacity providers and a default # capacity provider strategy for the cluster. If the specified cluster # has existing capacity providers associated with it, you must specify # all existing capacity providers in addition to any new ones you want # to add. Any existing capacity providers associated with a cluster that # are omitted from a PutClusterCapacityProviders API call will be # disassociated with the cluster. You can only disassociate an existing # capacity provider from a cluster if it's not being used by any # existing tasks. # # When creating a service or running a task on a cluster, if no capacity # provider or launch type is specified, then the cluster's default # capacity provider strategy is used. It is recommended to define a # default capacity provider strategy for your cluster, however you may # specify an empty array (`[]`) to bypass defining a default strategy. # # @option params [required, String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster to # modify the capacity provider settings for. If you do not specify a # cluster, the default cluster is assumed. # # @option params [required, Array] :capacity_providers # The name of one or more capacity providers to associate with the # cluster. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created. New capacity providers can # be created with the CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # @option params [required, Array] :default_capacity_provider_strategy # The capacity provider strategy to use by default for the cluster. # # When creating a service or running a task on a cluster, if no capacity # provider or launch type is specified then the default capacity # provider strategy for the cluster is used. # # A capacity provider strategy consists of one or more capacity # providers along with the `base` and `weight` to assign to them. A # capacity provider must be associated with the cluster to be used in a # capacity provider strategy. The PutClusterCapacityProviders API is # used to associate a capacity provider with a cluster. Only capacity # providers with an `ACTIVE` or `UPDATING` status can be used. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created. New capacity providers can # be created with the CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # @return [Types::PutClusterCapacityProvidersResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutClusterCapacityProvidersResponse#cluster #cluster} => Types::Cluster # # @example Request syntax with placeholder values # # resp = client.put_cluster_capacity_providers({ # cluster: "String", # required # capacity_providers: ["String"], # required # default_capacity_provider_strategy: [ # required # { # capacity_provider: "String", # required # weight: 1, # base: 1, # }, # ], # }) # # @example Response structure # # resp.cluster.cluster_arn #=> String # resp.cluster.cluster_name #=> String # resp.cluster.status #=> String # resp.cluster.registered_container_instances_count #=> Integer # resp.cluster.running_tasks_count #=> Integer # resp.cluster.pending_tasks_count #=> Integer # resp.cluster.active_services_count #=> Integer # resp.cluster.statistics #=> Array # resp.cluster.statistics[0].name #=> String # resp.cluster.statistics[0].value #=> String # resp.cluster.tags #=> Array # resp.cluster.tags[0].key #=> String # resp.cluster.tags[0].value #=> String # resp.cluster.settings #=> Array # resp.cluster.settings[0].name #=> String, one of "containerInsights" # resp.cluster.settings[0].value #=> String # resp.cluster.capacity_providers #=> Array # resp.cluster.capacity_providers[0] #=> String # resp.cluster.default_capacity_provider_strategy #=> Array # resp.cluster.default_capacity_provider_strategy[0].capacity_provider #=> String # resp.cluster.default_capacity_provider_strategy[0].weight #=> Integer # resp.cluster.default_capacity_provider_strategy[0].base #=> Integer # resp.cluster.attachments #=> Array # resp.cluster.attachments[0].id #=> String # resp.cluster.attachments[0].type #=> String # resp.cluster.attachments[0].status #=> String # resp.cluster.attachments[0].details #=> Array # resp.cluster.attachments[0].details[0].name #=> String # resp.cluster.attachments[0].details[0].value #=> String # resp.cluster.attachments_status #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/PutClusterCapacityProviders AWS API Documentation # # @overload put_cluster_capacity_providers(params = {}) # @param [Hash] params ({}) def put_cluster_capacity_providers(params = {}, options = {}) req = build_request(:put_cluster_capacity_providers, params) req.send_request(options) end # This action is only used by the Amazon ECS agent, and it is not # intended for use outside of the agent. # # # # Registers an EC2 instance into the specified cluster. This instance # becomes available to place containers on. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster with # which to register your container instance. If you do not specify a # cluster, the default cluster is assumed. # # @option params [String] :instance_identity_document # The instance identity document for the EC2 instance to register. This # document can be found by running the following command from the # instance: `curl # http://169.254.169.254/latest/dynamic/instance-identity/document/` # # @option params [String] :instance_identity_document_signature # The instance identity document signature for the EC2 instance to # register. This signature can be found by running the following command # from the instance: `curl # http://169.254.169.254/latest/dynamic/instance-identity/signature/` # # @option params [Array] :total_resources # The resources available on the instance. # # @option params [Types::VersionInfo] :version_info # The version information for the Amazon ECS container agent and Docker # daemon running on the container instance. # # @option params [String] :container_instance_arn # The ARN of the container instance (if it was previously registered). # # @option params [Array] :attributes # The container instance attributes that this container instance # supports. # # @option params [Array] :platform_devices # The devices that are available on the container instance. The only # supported device type is a GPU. # # @option params [Array] :tags # The metadata that you apply to the container instance to help you # categorize and organize them. Each tag consists of a key and an # optional value, both of which you define. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @return [Types::RegisterContainerInstanceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::RegisterContainerInstanceResponse#container_instance #container_instance} => Types::ContainerInstance # # @example Request syntax with placeholder values # # resp = client.register_container_instance({ # cluster: "String", # instance_identity_document: "String", # instance_identity_document_signature: "String", # total_resources: [ # { # name: "String", # type: "String", # double_value: 1.0, # long_value: 1, # integer_value: 1, # string_set_value: ["String"], # }, # ], # version_info: { # agent_version: "String", # agent_hash: "String", # docker_version: "String", # }, # container_instance_arn: "String", # attributes: [ # { # name: "String", # required # value: "String", # target_type: "container-instance", # accepts container-instance # target_id: "String", # }, # ], # platform_devices: [ # { # id: "String", # required # type: "GPU", # required, accepts GPU # }, # ], # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # }) # # @example Response structure # # resp.container_instance.container_instance_arn #=> String # resp.container_instance.ec2_instance_id #=> String # resp.container_instance.capacity_provider_name #=> String # resp.container_instance.version #=> Integer # resp.container_instance.version_info.agent_version #=> String # resp.container_instance.version_info.agent_hash #=> String # resp.container_instance.version_info.docker_version #=> String # resp.container_instance.remaining_resources #=> Array # resp.container_instance.remaining_resources[0].name #=> String # resp.container_instance.remaining_resources[0].type #=> String # resp.container_instance.remaining_resources[0].double_value #=> Float # resp.container_instance.remaining_resources[0].long_value #=> Integer # resp.container_instance.remaining_resources[0].integer_value #=> Integer # resp.container_instance.remaining_resources[0].string_set_value #=> Array # resp.container_instance.remaining_resources[0].string_set_value[0] #=> String # resp.container_instance.registered_resources #=> Array # resp.container_instance.registered_resources[0].name #=> String # resp.container_instance.registered_resources[0].type #=> String # resp.container_instance.registered_resources[0].double_value #=> Float # resp.container_instance.registered_resources[0].long_value #=> Integer # resp.container_instance.registered_resources[0].integer_value #=> Integer # resp.container_instance.registered_resources[0].string_set_value #=> Array # resp.container_instance.registered_resources[0].string_set_value[0] #=> String # resp.container_instance.status #=> String # resp.container_instance.status_reason #=> String # resp.container_instance.agent_connected #=> Boolean # resp.container_instance.running_tasks_count #=> Integer # resp.container_instance.pending_tasks_count #=> Integer # resp.container_instance.agent_update_status #=> String, one of "PENDING", "STAGING", "STAGED", "UPDATING", "UPDATED", "FAILED" # resp.container_instance.attributes #=> Array # resp.container_instance.attributes[0].name #=> String # resp.container_instance.attributes[0].value #=> String # resp.container_instance.attributes[0].target_type #=> String, one of "container-instance" # resp.container_instance.attributes[0].target_id #=> String # resp.container_instance.registered_at #=> Time # resp.container_instance.attachments #=> Array # resp.container_instance.attachments[0].id #=> String # resp.container_instance.attachments[0].type #=> String # resp.container_instance.attachments[0].status #=> String # resp.container_instance.attachments[0].details #=> Array # resp.container_instance.attachments[0].details[0].name #=> String # resp.container_instance.attachments[0].details[0].value #=> String # resp.container_instance.tags #=> Array # resp.container_instance.tags[0].key #=> String # resp.container_instance.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/RegisterContainerInstance AWS API Documentation # # @overload register_container_instance(params = {}) # @param [Hash] params ({}) def register_container_instance(params = {}, options = {}) req = build_request(:register_container_instance, params) req.send_request(options) end # Registers a new task definition from the supplied `family` and # `containerDefinitions`. Optionally, you can add data volumes to your # containers with the `volumes` parameter. For more information about # task definition parameters and defaults, see [Amazon ECS Task # Definitions][1] in the *Amazon Elastic Container Service Developer # Guide*. # # You can specify an IAM role for your task with the `taskRoleArn` # parameter. When you specify an IAM role for a task, its containers can # then use the latest versions of the AWS CLI or SDKs to make API # requests to the AWS services that are specified in the IAM policy # associated with the role. For more information, see [IAM Roles for # Tasks][2] in the *Amazon Elastic Container Service Developer Guide*. # # You can specify a Docker networking mode for the containers in your # task definition with the `networkMode` parameter. The available # network modes correspond to those described in [Network settings][3] # in the Docker run reference. If you specify the `awsvpc` network mode, # the task is allocated an elastic network interface, and you must # specify a NetworkConfiguration when you create a service or run a task # with the task definition. For more information, see [Task # Networking][4] in the *Amazon Elastic Container Service Developer # Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_defintions.html # [2]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-iam-roles.html # [3]: https://docs.docker.com/engine/reference/run/#/network-settings # [4]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-networking.html # # @option params [required, String] :family # You must specify a `family` for a task definition, which allows you to # track multiple versions of the same task definition. The `family` is # used as a name for your task definition. Up to 255 letters (uppercase # and lowercase), numbers, and hyphens are allowed. # # @option params [String] :task_role_arn # The short name or full Amazon Resource Name (ARN) of the IAM role that # containers in this task can assume. All containers in this task are # granted the permissions that are specified in this role. For more # information, see [IAM Roles for Tasks][1] in the *Amazon Elastic # Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-iam-roles.html # # @option params [String] :execution_role_arn # The Amazon Resource Name (ARN) of the task execution role that grants # the Amazon ECS container agent permission to make AWS API calls on # your behalf. The task execution IAM role is required depending on the # requirements of your task. For more information, see [Amazon ECS task # execution IAM role][1] in the *Amazon Elastic Container Service # Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_execution_IAM_role.html # # @option params [String] :network_mode # The Docker networking mode to use for the containers in the task. The # valid values are `none`, `bridge`, `awsvpc`, and `host`. If no network # mode is specified, the default is `bridge`. # # For Amazon ECS tasks on Fargate, the `awsvpc` network mode is # required. For Amazon ECS tasks on Amazon EC2 instances, any network # mode can be used. If the network mode is set to `none`, you cannot # specify port mappings in your container definitions, and the tasks # containers do not have external connectivity. The `host` and `awsvpc` # network modes offer the highest networking performance for containers # because they use the EC2 network stack instead of the virtualized # network stack provided by the `bridge` mode. # # With the `host` and `awsvpc` network modes, exposed container ports # are mapped directly to the corresponding host port (for the `host` # network mode) or the attached elastic network interface port (for the # `awsvpc` network mode), so you cannot take advantage of dynamic host # port mappings. # # When using the `host` network mode, you should not run containers # using the root user (UID 0). It is considered best practice to use a # non-root user. # # If the network mode is `awsvpc`, the task is allocated an elastic # network interface, and you must specify a NetworkConfiguration value # when you create a service or run a task with the task definition. For # more information, see [Task Networking][1] in the *Amazon Elastic # Container Service Developer Guide*. # # Currently, only Amazon ECS-optimized AMIs, other Amazon Linux variants # with the `ecs-init` package, or AWS Fargate infrastructure support the # `awsvpc` network mode. # # # # If the network mode is `host`, you cannot run multiple instantiations # of the same task on a single container instance when port mappings are # used. # # Docker for Windows uses different network modes than Docker for Linux. # When you register a task definition with Windows containers, you must # not specify a network mode. If you use the console to register a task # definition with Windows containers, you must choose the `` # network mode object. # # For more information, see [Network settings][2] in the *Docker run # reference*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-networking.html # [2]: https://docs.docker.com/engine/reference/run/#network-settings # # @option params [required, Array] :container_definitions # A list of container definitions in JSON format that describe the # different containers that make up your task. # # @option params [Array] :volumes # A list of volume definitions in JSON format that containers in your # task may use. # # @option params [Array] :placement_constraints # An array of placement constraint objects to use for the task. You can # specify a maximum of 10 constraints per task (this limit includes # constraints in the task definition and those specified at runtime). # # @option params [Array] :requires_compatibilities # The task launch type that Amazon ECS should validate the task # definition against. This ensures that the task definition parameters # are compatible with the specified launch type. If no value is # specified, it defaults to `EC2`. # # @option params [String] :cpu # The number of CPU units used by the task. It can be expressed as an # integer using CPU units, for example `1024`, or as a string using # vCPUs, for example `1 vCPU` or `1 vcpu`, in a task definition. String # values are converted to an integer indicating the CPU units when the # task definition is registered. # # Task-level CPU and memory parameters are ignored for Windows # containers. We recommend specifying container-level resources for # Windows containers. # # # # If you are using the EC2 launch type, this field is optional. # Supported values are between `128` CPU units (`0.125` vCPUs) and # `10240` CPU units (`10` vCPUs). # # If you are using the Fargate launch type, this field is required and # you must use one of the following values, which determines your range # of supported values for the `memory` parameter: # # * 256 (.25 vCPU) - Available `memory` values: 512 (0.5 GB), 1024 (1 # GB), 2048 (2 GB) # # * 512 (.5 vCPU) - Available `memory` values: 1024 (1 GB), 2048 (2 GB), # 3072 (3 GB), 4096 (4 GB) # # * 1024 (1 vCPU) - Available `memory` values: 2048 (2 GB), 3072 (3 GB), # 4096 (4 GB), 5120 (5 GB), 6144 (6 GB), 7168 (7 GB), 8192 (8 GB) # # * 2048 (2 vCPU) - Available `memory` values: Between 4096 (4 GB) and # 16384 (16 GB) in increments of 1024 (1 GB) # # * 4096 (4 vCPU) - Available `memory` values: Between 8192 (8 GB) and # 30720 (30 GB) in increments of 1024 (1 GB) # # @option params [String] :memory # The amount of memory (in MiB) used by the task. It can be expressed as # an integer using MiB, for example `1024`, or as a string using GB, for # example `1GB` or `1 GB`, in a task definition. String values are # converted to an integer indicating the MiB when the task definition is # registered. # # Task-level CPU and memory parameters are ignored for Windows # containers. We recommend specifying container-level resources for # Windows containers. # # # # If using the EC2 launch type, this field is optional. # # If using the Fargate launch type, this field is required and you must # use one of the following values, which determines your range of # supported values for the `cpu` parameter: # # * 512 (0.5 GB), 1024 (1 GB), 2048 (2 GB) - Available `cpu` values: 256 # (.25 vCPU) # # * 1024 (1 GB), 2048 (2 GB), 3072 (3 GB), 4096 (4 GB) - Available `cpu` # values: 512 (.5 vCPU) # # * 2048 (2 GB), 3072 (3 GB), 4096 (4 GB), 5120 (5 GB), 6144 (6 GB), # 7168 (7 GB), 8192 (8 GB) - Available `cpu` values: 1024 (1 vCPU) # # * Between 4096 (4 GB) and 16384 (16 GB) in increments of 1024 (1 GB) - # Available `cpu` values: 2048 (2 vCPU) # # * Between 8192 (8 GB) and 30720 (30 GB) in increments of 1024 (1 GB) - # Available `cpu` values: 4096 (4 vCPU) # # @option params [Array] :tags # The metadata that you apply to the task definition to help you # categorize and organize them. Each tag consists of a key and an # optional value, both of which you define. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @option params [String] :pid_mode # The process namespace to use for the containers in the task. The valid # values are `host` or `task`. If `host` is specified, then all # containers within the tasks that specified the `host` PID mode on the # same container instance share the same process namespace with the host # Amazon EC2 instance. If `task` is specified, all containers within the # specified task share the same process namespace. If no value is # specified, the default is a private namespace. For more information, # see [PID settings][1] in the *Docker run reference*. # # If the `host` PID mode is used, be aware that there is a heightened # risk of undesired process namespace expose. For more information, see # [Docker security][2]. # # This parameter is not supported for Windows containers or tasks using # the Fargate launch type. # # # # # # [1]: https://docs.docker.com/engine/reference/run/#pid-settings---pid # [2]: https://docs.docker.com/engine/security/security/ # # @option params [String] :ipc_mode # The IPC resource namespace to use for the containers in the task. The # valid values are `host`, `task`, or `none`. If `host` is specified, # then all containers within the tasks that specified the `host` IPC # mode on the same container instance share the same IPC resources with # the host Amazon EC2 instance. If `task` is specified, all containers # within the specified task share the same IPC resources. If `none` is # specified, then IPC resources within the containers of a task are # private and not shared with other containers in a task or on the # container instance. If no value is specified, then the IPC resource # namespace sharing depends on the Docker daemon setting on the # container instance. For more information, see [IPC settings][1] in the # *Docker run reference*. # # If the `host` IPC mode is used, be aware that there is a heightened # risk of undesired IPC namespace expose. For more information, see # [Docker security][2]. # # If you are setting namespaced kernel parameters using `systemControls` # for the containers in the task, the following will apply to your IPC # resource namespace. For more information, see [System Controls][3] in # the *Amazon Elastic Container Service Developer Guide*. # # * For tasks that use the `host` IPC mode, IPC namespace related # `systemControls` are not supported. # # * For tasks that use the `task` IPC mode, IPC namespace related # `systemControls` will apply to all containers within a task. # # This parameter is not supported for Windows containers or tasks using # the Fargate launch type. # # # # # # [1]: https://docs.docker.com/engine/reference/run/#ipc-settings---ipc # [2]: https://docs.docker.com/engine/security/security/ # [3]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definition_parameters.html # # @option params [Types::ProxyConfiguration] :proxy_configuration # The configuration details for the App Mesh proxy. # # For tasks using the EC2 launch type, the container instances require # at least version 1.26.0 of the container agent and at least version # 1.26.0-1 of the `ecs-init` package to enable a proxy configuration. If # your container instances are launched from the Amazon ECS-optimized # AMI version `20190301` or later, then they contain the required # versions of the container agent and `ecs-init`. For more information, # see [Amazon ECS-optimized Linux AMI][1] # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-optimized_AMI.html # # @option params [Array] :inference_accelerators # The Elastic Inference accelerators to use for the containers in the # task. # # @return [Types::RegisterTaskDefinitionResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::RegisterTaskDefinitionResponse#task_definition #task_definition} => Types::TaskDefinition # * {Types::RegisterTaskDefinitionResponse#tags #tags} => Array<Types::Tag> # # # @example Example: To register a task definition # # # This example registers a task definition to the specified family. # # resp = client.register_task_definition({ # container_definitions: [ # { # name: "sleep", # command: [ # "sleep", # "360", # ], # cpu: 10, # essential: true, # image: "busybox", # memory: 10, # }, # ], # family: "sleep360", # task_role_arn: "", # volumes: [ # ], # }) # # resp.to_h outputs the following: # { # task_definition: { # container_definitions: [ # { # name: "sleep", # command: [ # "sleep", # "360", # ], # cpu: 10, # environment: [ # ], # essential: true, # image: "busybox", # memory: 10, # mount_points: [ # ], # port_mappings: [ # ], # volumes_from: [ # ], # }, # ], # family: "sleep360", # revision: 1, # task_definition_arn: "arn:aws:ecs:us-east-1::task-definition/sleep360:19", # volumes: [ # ], # }, # } # # @example Request syntax with placeholder values # # resp = client.register_task_definition({ # family: "String", # required # task_role_arn: "String", # execution_role_arn: "String", # network_mode: "bridge", # accepts bridge, host, awsvpc, none # container_definitions: [ # required # { # name: "String", # image: "String", # repository_credentials: { # credentials_parameter: "String", # required # }, # cpu: 1, # memory: 1, # memory_reservation: 1, # links: ["String"], # port_mappings: [ # { # container_port: 1, # host_port: 1, # protocol: "tcp", # accepts tcp, udp # }, # ], # essential: false, # entry_point: ["String"], # command: ["String"], # environment: [ # { # name: "String", # value: "String", # }, # ], # environment_files: [ # { # value: "String", # required # type: "s3", # required, accepts s3 # }, # ], # mount_points: [ # { # source_volume: "String", # container_path: "String", # read_only: false, # }, # ], # volumes_from: [ # { # source_container: "String", # read_only: false, # }, # ], # linux_parameters: { # capabilities: { # add: ["String"], # drop: ["String"], # }, # devices: [ # { # host_path: "String", # required # container_path: "String", # permissions: ["read"], # accepts read, write, mknod # }, # ], # init_process_enabled: false, # shared_memory_size: 1, # tmpfs: [ # { # container_path: "String", # required # size: 1, # required # mount_options: ["String"], # }, # ], # max_swap: 1, # swappiness: 1, # }, # secrets: [ # { # name: "String", # required # value_from: "String", # required # }, # ], # depends_on: [ # { # container_name: "String", # required # condition: "START", # required, accepts START, COMPLETE, SUCCESS, HEALTHY # }, # ], # start_timeout: 1, # stop_timeout: 1, # hostname: "String", # user: "String", # working_directory: "String", # disable_networking: false, # privileged: false, # readonly_root_filesystem: false, # dns_servers: ["String"], # dns_search_domains: ["String"], # extra_hosts: [ # { # hostname: "String", # required # ip_address: "String", # required # }, # ], # docker_security_options: ["String"], # interactive: false, # pseudo_terminal: false, # docker_labels: { # "String" => "String", # }, # ulimits: [ # { # name: "core", # required, accepts core, cpu, data, fsize, locks, memlock, msgqueue, nice, nofile, nproc, rss, rtprio, rttime, sigpending, stack # soft_limit: 1, # required # hard_limit: 1, # required # }, # ], # log_configuration: { # log_driver: "json-file", # required, accepts json-file, syslog, journald, gelf, fluentd, awslogs, splunk, awsfirelens # options: { # "String" => "String", # }, # secret_options: [ # { # name: "String", # required # value_from: "String", # required # }, # ], # }, # health_check: { # command: ["String"], # required # interval: 1, # timeout: 1, # retries: 1, # start_period: 1, # }, # system_controls: [ # { # namespace: "String", # value: "String", # }, # ], # resource_requirements: [ # { # value: "String", # required # type: "GPU", # required, accepts GPU, InferenceAccelerator # }, # ], # firelens_configuration: { # type: "fluentd", # required, accepts fluentd, fluentbit # options: { # "String" => "String", # }, # }, # }, # ], # volumes: [ # { # name: "String", # host: { # source_path: "String", # }, # docker_volume_configuration: { # scope: "task", # accepts task, shared # autoprovision: false, # driver: "String", # driver_opts: { # "String" => "String", # }, # labels: { # "String" => "String", # }, # }, # efs_volume_configuration: { # file_system_id: "String", # required # root_directory: "String", # transit_encryption: "ENABLED", # accepts ENABLED, DISABLED # transit_encryption_port: 1, # authorization_config: { # access_point_id: "String", # iam: "ENABLED", # accepts ENABLED, DISABLED # }, # }, # fsx_windows_file_server_volume_configuration: { # file_system_id: "String", # required # root_directory: "String", # required # authorization_config: { # required # credentials_parameter: "String", # required # domain: "String", # required # }, # }, # }, # ], # placement_constraints: [ # { # type: "memberOf", # accepts memberOf # expression: "String", # }, # ], # requires_compatibilities: ["EC2"], # accepts EC2, FARGATE # cpu: "String", # memory: "String", # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # pid_mode: "host", # accepts host, task # ipc_mode: "host", # accepts host, task, none # proxy_configuration: { # type: "APPMESH", # accepts APPMESH # container_name: "String", # required # properties: [ # { # name: "String", # value: "String", # }, # ], # }, # inference_accelerators: [ # { # device_name: "String", # required # device_type: "String", # required # }, # ], # }) # # @example Response structure # # resp.task_definition.task_definition_arn #=> String # resp.task_definition.container_definitions #=> Array # resp.task_definition.container_definitions[0].name #=> String # resp.task_definition.container_definitions[0].image #=> String # resp.task_definition.container_definitions[0].repository_credentials.credentials_parameter #=> String # resp.task_definition.container_definitions[0].cpu #=> Integer # resp.task_definition.container_definitions[0].memory #=> Integer # resp.task_definition.container_definitions[0].memory_reservation #=> Integer # resp.task_definition.container_definitions[0].links #=> Array # resp.task_definition.container_definitions[0].links[0] #=> String # resp.task_definition.container_definitions[0].port_mappings #=> Array # resp.task_definition.container_definitions[0].port_mappings[0].container_port #=> Integer # resp.task_definition.container_definitions[0].port_mappings[0].host_port #=> Integer # resp.task_definition.container_definitions[0].port_mappings[0].protocol #=> String, one of "tcp", "udp" # resp.task_definition.container_definitions[0].essential #=> Boolean # resp.task_definition.container_definitions[0].entry_point #=> Array # resp.task_definition.container_definitions[0].entry_point[0] #=> String # resp.task_definition.container_definitions[0].command #=> Array # resp.task_definition.container_definitions[0].command[0] #=> String # resp.task_definition.container_definitions[0].environment #=> Array # resp.task_definition.container_definitions[0].environment[0].name #=> String # resp.task_definition.container_definitions[0].environment[0].value #=> String # resp.task_definition.container_definitions[0].environment_files #=> Array # resp.task_definition.container_definitions[0].environment_files[0].value #=> String # resp.task_definition.container_definitions[0].environment_files[0].type #=> String, one of "s3" # resp.task_definition.container_definitions[0].mount_points #=> Array # resp.task_definition.container_definitions[0].mount_points[0].source_volume #=> String # resp.task_definition.container_definitions[0].mount_points[0].container_path #=> String # resp.task_definition.container_definitions[0].mount_points[0].read_only #=> Boolean # resp.task_definition.container_definitions[0].volumes_from #=> Array # resp.task_definition.container_definitions[0].volumes_from[0].source_container #=> String # resp.task_definition.container_definitions[0].volumes_from[0].read_only #=> Boolean # resp.task_definition.container_definitions[0].linux_parameters.capabilities.add #=> Array # resp.task_definition.container_definitions[0].linux_parameters.capabilities.add[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.capabilities.drop #=> Array # resp.task_definition.container_definitions[0].linux_parameters.capabilities.drop[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices #=> Array # resp.task_definition.container_definitions[0].linux_parameters.devices[0].host_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices[0].container_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.devices[0].permissions #=> Array # resp.task_definition.container_definitions[0].linux_parameters.devices[0].permissions[0] #=> String, one of "read", "write", "mknod" # resp.task_definition.container_definitions[0].linux_parameters.init_process_enabled #=> Boolean # resp.task_definition.container_definitions[0].linux_parameters.shared_memory_size #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.tmpfs #=> Array # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].container_path #=> String # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].size #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].mount_options #=> Array # resp.task_definition.container_definitions[0].linux_parameters.tmpfs[0].mount_options[0] #=> String # resp.task_definition.container_definitions[0].linux_parameters.max_swap #=> Integer # resp.task_definition.container_definitions[0].linux_parameters.swappiness #=> Integer # resp.task_definition.container_definitions[0].secrets #=> Array # resp.task_definition.container_definitions[0].secrets[0].name #=> String # resp.task_definition.container_definitions[0].secrets[0].value_from #=> String # resp.task_definition.container_definitions[0].depends_on #=> Array # resp.task_definition.container_definitions[0].depends_on[0].container_name #=> String # resp.task_definition.container_definitions[0].depends_on[0].condition #=> String, one of "START", "COMPLETE", "SUCCESS", "HEALTHY" # resp.task_definition.container_definitions[0].start_timeout #=> Integer # resp.task_definition.container_definitions[0].stop_timeout #=> Integer # resp.task_definition.container_definitions[0].hostname #=> String # resp.task_definition.container_definitions[0].user #=> String # resp.task_definition.container_definitions[0].working_directory #=> String # resp.task_definition.container_definitions[0].disable_networking #=> Boolean # resp.task_definition.container_definitions[0].privileged #=> Boolean # resp.task_definition.container_definitions[0].readonly_root_filesystem #=> Boolean # resp.task_definition.container_definitions[0].dns_servers #=> Array # resp.task_definition.container_definitions[0].dns_servers[0] #=> String # resp.task_definition.container_definitions[0].dns_search_domains #=> Array # resp.task_definition.container_definitions[0].dns_search_domains[0] #=> String # resp.task_definition.container_definitions[0].extra_hosts #=> Array # resp.task_definition.container_definitions[0].extra_hosts[0].hostname #=> String # resp.task_definition.container_definitions[0].extra_hosts[0].ip_address #=> String # resp.task_definition.container_definitions[0].docker_security_options #=> Array # resp.task_definition.container_definitions[0].docker_security_options[0] #=> String # resp.task_definition.container_definitions[0].interactive #=> Boolean # resp.task_definition.container_definitions[0].pseudo_terminal #=> Boolean # resp.task_definition.container_definitions[0].docker_labels #=> Hash # resp.task_definition.container_definitions[0].docker_labels["String"] #=> String # resp.task_definition.container_definitions[0].ulimits #=> Array # resp.task_definition.container_definitions[0].ulimits[0].name #=> String, one of "core", "cpu", "data", "fsize", "locks", "memlock", "msgqueue", "nice", "nofile", "nproc", "rss", "rtprio", "rttime", "sigpending", "stack" # resp.task_definition.container_definitions[0].ulimits[0].soft_limit #=> Integer # resp.task_definition.container_definitions[0].ulimits[0].hard_limit #=> Integer # resp.task_definition.container_definitions[0].log_configuration.log_driver #=> String, one of "json-file", "syslog", "journald", "gelf", "fluentd", "awslogs", "splunk", "awsfirelens" # resp.task_definition.container_definitions[0].log_configuration.options #=> Hash # resp.task_definition.container_definitions[0].log_configuration.options["String"] #=> String # resp.task_definition.container_definitions[0].log_configuration.secret_options #=> Array # resp.task_definition.container_definitions[0].log_configuration.secret_options[0].name #=> String # resp.task_definition.container_definitions[0].log_configuration.secret_options[0].value_from #=> String # resp.task_definition.container_definitions[0].health_check.command #=> Array # resp.task_definition.container_definitions[0].health_check.command[0] #=> String # resp.task_definition.container_definitions[0].health_check.interval #=> Integer # resp.task_definition.container_definitions[0].health_check.timeout #=> Integer # resp.task_definition.container_definitions[0].health_check.retries #=> Integer # resp.task_definition.container_definitions[0].health_check.start_period #=> Integer # resp.task_definition.container_definitions[0].system_controls #=> Array # resp.task_definition.container_definitions[0].system_controls[0].namespace #=> String # resp.task_definition.container_definitions[0].system_controls[0].value #=> String # resp.task_definition.container_definitions[0].resource_requirements #=> Array # resp.task_definition.container_definitions[0].resource_requirements[0].value #=> String # resp.task_definition.container_definitions[0].resource_requirements[0].type #=> String, one of "GPU", "InferenceAccelerator" # resp.task_definition.container_definitions[0].firelens_configuration.type #=> String, one of "fluentd", "fluentbit" # resp.task_definition.container_definitions[0].firelens_configuration.options #=> Hash # resp.task_definition.container_definitions[0].firelens_configuration.options["String"] #=> String # resp.task_definition.family #=> String # resp.task_definition.task_role_arn #=> String # resp.task_definition.execution_role_arn #=> String # resp.task_definition.network_mode #=> String, one of "bridge", "host", "awsvpc", "none" # resp.task_definition.revision #=> Integer # resp.task_definition.volumes #=> Array # resp.task_definition.volumes[0].name #=> String # resp.task_definition.volumes[0].host.source_path #=> String # resp.task_definition.volumes[0].docker_volume_configuration.scope #=> String, one of "task", "shared" # resp.task_definition.volumes[0].docker_volume_configuration.autoprovision #=> Boolean # resp.task_definition.volumes[0].docker_volume_configuration.driver #=> String # resp.task_definition.volumes[0].docker_volume_configuration.driver_opts #=> Hash # resp.task_definition.volumes[0].docker_volume_configuration.driver_opts["String"] #=> String # resp.task_definition.volumes[0].docker_volume_configuration.labels #=> Hash # resp.task_definition.volumes[0].docker_volume_configuration.labels["String"] #=> String # resp.task_definition.volumes[0].efs_volume_configuration.file_system_id #=> String # resp.task_definition.volumes[0].efs_volume_configuration.root_directory #=> String # resp.task_definition.volumes[0].efs_volume_configuration.transit_encryption #=> String, one of "ENABLED", "DISABLED" # resp.task_definition.volumes[0].efs_volume_configuration.transit_encryption_port #=> Integer # resp.task_definition.volumes[0].efs_volume_configuration.authorization_config.access_point_id #=> String # resp.task_definition.volumes[0].efs_volume_configuration.authorization_config.iam #=> String, one of "ENABLED", "DISABLED" # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.file_system_id #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.root_directory #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.authorization_config.credentials_parameter #=> String # resp.task_definition.volumes[0].fsx_windows_file_server_volume_configuration.authorization_config.domain #=> String # resp.task_definition.status #=> String, one of "ACTIVE", "INACTIVE" # resp.task_definition.requires_attributes #=> Array # resp.task_definition.requires_attributes[0].name #=> String # resp.task_definition.requires_attributes[0].value #=> String # resp.task_definition.requires_attributes[0].target_type #=> String, one of "container-instance" # resp.task_definition.requires_attributes[0].target_id #=> String # resp.task_definition.placement_constraints #=> Array # resp.task_definition.placement_constraints[0].type #=> String, one of "memberOf" # resp.task_definition.placement_constraints[0].expression #=> String # resp.task_definition.compatibilities #=> Array # resp.task_definition.compatibilities[0] #=> String, one of "EC2", "FARGATE" # resp.task_definition.requires_compatibilities #=> Array # resp.task_definition.requires_compatibilities[0] #=> String, one of "EC2", "FARGATE" # resp.task_definition.cpu #=> String # resp.task_definition.memory #=> String # resp.task_definition.inference_accelerators #=> Array # resp.task_definition.inference_accelerators[0].device_name #=> String # resp.task_definition.inference_accelerators[0].device_type #=> String # resp.task_definition.pid_mode #=> String, one of "host", "task" # resp.task_definition.ipc_mode #=> String, one of "host", "task", "none" # resp.task_definition.proxy_configuration.type #=> String, one of "APPMESH" # resp.task_definition.proxy_configuration.container_name #=> String # resp.task_definition.proxy_configuration.properties #=> Array # resp.task_definition.proxy_configuration.properties[0].name #=> String # resp.task_definition.proxy_configuration.properties[0].value #=> String # resp.task_definition.registered_at #=> Time # resp.task_definition.deregistered_at #=> Time # resp.task_definition.registered_by #=> String # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/RegisterTaskDefinition AWS API Documentation # # @overload register_task_definition(params = {}) # @param [Hash] params ({}) def register_task_definition(params = {}, options = {}) req = build_request(:register_task_definition, params) req.send_request(options) end # Starts a new task using the specified task definition. # # You can allow Amazon ECS to place tasks for you, or you can customize # how Amazon ECS places tasks using placement constraints and placement # strategies. For more information, see [Scheduling Tasks][1] in the # *Amazon Elastic Container Service Developer Guide*. # # Alternatively, you can use StartTask to use your own scheduler or # place tasks manually on specific container instances. # # The Amazon ECS API follows an eventual consistency model, due to the # distributed nature of the system supporting the API. This means that # the result of an API command you run that affects your Amazon ECS # resources might not be immediately visible to all subsequent commands # you run. Keep this in mind when you carry out an API command that # immediately follows a previous API command. # # To manage eventual consistency, you can do the following: # # * Confirm the state of the resource before you run a command to modify # it. Run the DescribeTasks command using an exponential backoff # algorithm to ensure that you allow enough time for the previous # command to propagate through the system. To do this, run the # DescribeTasks command repeatedly, starting with a couple of seconds # of wait time and increasing gradually up to five minutes of wait # time. # # * Add wait time between subsequent commands, even if the DescribeTasks # command returns an accurate response. Apply an exponential backoff # algorithm starting with a couple of seconds of wait time, and # increase gradually up to about five minutes of wait time. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/scheduling_tasks.html # # @option params [Array] :capacity_provider_strategy # The capacity provider strategy to use for the task. # # A capacity provider strategy consists of one or more capacity # providers along with the `base` and `weight` to assign to them. A # capacity provider must be associated with the cluster to be used in a # capacity provider strategy. The PutClusterCapacityProviders API is # used to associate a capacity provider with a cluster. Only capacity # providers with an `ACTIVE` or `UPDATING` status can be used. # # If a `capacityProviderStrategy` is specified, the `launchType` # parameter must be omitted. If no `capacityProviderStrategy` or # `launchType` is specified, the `defaultCapacityProviderStrategy` for # the cluster is used. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created. New capacity providers can # be created with the CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # The PutClusterCapacityProviders API operation is used to update the # list of available capacity providers for a cluster after the cluster # is created. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster on # which to run your task. If you do not specify a cluster, the default # cluster is assumed. # # @option params [Integer] :count # The number of instantiations of the specified task to place on your # cluster. You can specify up to 10 tasks per call. # # @option params [Boolean] :enable_ecs_managed_tags # Specifies whether to enable Amazon ECS managed tags for the task. For # more information, see [Tagging Your Amazon ECS Resources][1] in the # *Amazon Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-using-tags.html # # @option params [String] :group # The name of the task group to associate with the task. The default # value is the family name of the task definition (for example, # family:my-family-name). # # @option params [String] :launch_type # The launch type on which to run your task. For more information, see # [Amazon ECS Launch Types][1] in the *Amazon Elastic Container Service # Developer Guide*. # # If a `launchType` is specified, the `capacityProviderStrategy` # parameter must be omitted. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/launch_types.html # # @option params [Types::NetworkConfiguration] :network_configuration # The network configuration for the task. This parameter is required for # task definitions that use the `awsvpc` network mode to receive their # own elastic network interface, and it is not supported for other # network modes. For more information, see [Task Networking][1] in the # *Amazon Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-networking.html # # @option params [Types::TaskOverride] :overrides # A list of container overrides in JSON format that specify the name of # a container in the specified task definition and the overrides it # should receive. You can override the default command for a container # (that is specified in the task definition or Docker image) with a # `command` override. You can also override existing environment # variables (that are specified in the task definition or Docker image) # on a container or add new environment variables to it with an # `environment` override. # # A total of 8192 characters are allowed for overrides. This limit # includes the JSON formatting characters of the override structure. # # # # @option params [Array] :placement_constraints # An array of placement constraint objects to use for the task. You can # specify up to 10 constraints per task (including constraints in the # task definition and those specified at runtime). # # @option params [Array] :placement_strategy # The placement strategy objects to use for the task. You can specify a # maximum of five strategy rules per task. # # @option params [String] :platform_version # The platform version the task should run. A platform version is only # specified for tasks using the Fargate launch type. If one is not # specified, the `LATEST` platform version is used by default. For more # information, see [AWS Fargate Platform Versions][1] in the *Amazon # Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/platform_versions.html # # @option params [String] :propagate_tags # Specifies whether to propagate the tags from the task definition to # the task. If no value is specified, the tags are not propagated. Tags # can only be propagated to the task during task creation. To add tags # to a task after task creation, use the TagResource API action. # # An error will be received if you specify the `SERVICE` option when # running a task. # # # # @option params [String] :reference_id # The reference ID to use for the task. # # @option params [String] :started_by # An optional tag specified when a task is started. For example, if you # automatically trigger a task to run a batch process job, you could # apply a unique identifier for that job to your task with the # `startedBy` parameter. You can then identify which tasks belong to # that job by filtering the results of a ListTasks call with the # `startedBy` value. Up to 36 letters (uppercase and lowercase), # numbers, hyphens, and underscores are allowed. # # If a task is started by an Amazon ECS service, then the `startedBy` # parameter contains the deployment ID of the service that starts it. # # @option params [Array] :tags # The metadata that you apply to the task to help you categorize and # organize them. Each tag consists of a key and an optional value, both # of which you define. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @option params [required, String] :task_definition # The `family` and `revision` (`family:revision`) or full ARN of the # task definition to run. If a `revision` is not specified, the latest # `ACTIVE` revision is used. # # @return [Types::RunTaskResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::RunTaskResponse#tasks #tasks} => Array<Types::Task> # * {Types::RunTaskResponse#failures #failures} => Array<Types::Failure> # # # @example Example: To run a task on your default cluster # # # This example runs the specified task definition on your default cluster. # # resp = client.run_task({ # cluster: "default", # task_definition: "sleep360:1", # }) # # resp.to_h outputs the following: # { # tasks: [ # { # container_instance_arn: "arn:aws:ecs:us-east-1::container-instance/ffe3d344-77e2-476c-a4d0-bf560ad50acb", # containers: [ # { # name: "sleep", # container_arn: "arn:aws:ecs:us-east-1::container/58591c8e-be29-4ddf-95aa-ee459d4c59fd", # last_status: "PENDING", # task_arn: "arn:aws:ecs:us-east-1::task/a9f21ea7-c9f5-44b1-b8e6-b31f50ed33c0", # }, # ], # desired_status: "RUNNING", # last_status: "PENDING", # overrides: { # container_overrides: [ # { # name: "sleep", # }, # ], # }, # task_arn: "arn:aws:ecs:us-east-1::task/a9f21ea7-c9f5-44b1-b8e6-b31f50ed33c0", # task_definition_arn: "arn:aws:ecs:us-east-1::task-definition/sleep360:1", # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.run_task({ # capacity_provider_strategy: [ # { # capacity_provider: "String", # required # weight: 1, # base: 1, # }, # ], # cluster: "String", # count: 1, # enable_ecs_managed_tags: false, # group: "String", # launch_type: "EC2", # accepts EC2, FARGATE # network_configuration: { # awsvpc_configuration: { # subnets: ["String"], # required # security_groups: ["String"], # assign_public_ip: "ENABLED", # accepts ENABLED, DISABLED # }, # }, # overrides: { # container_overrides: [ # { # name: "String", # command: ["String"], # environment: [ # { # name: "String", # value: "String", # }, # ], # environment_files: [ # { # value: "String", # required # type: "s3", # required, accepts s3 # }, # ], # cpu: 1, # memory: 1, # memory_reservation: 1, # resource_requirements: [ # { # value: "String", # required # type: "GPU", # required, accepts GPU, InferenceAccelerator # }, # ], # }, # ], # cpu: "String", # inference_accelerator_overrides: [ # { # device_name: "String", # device_type: "String", # }, # ], # execution_role_arn: "String", # memory: "String", # task_role_arn: "String", # }, # placement_constraints: [ # { # type: "distinctInstance", # accepts distinctInstance, memberOf # expression: "String", # }, # ], # placement_strategy: [ # { # type: "random", # accepts random, spread, binpack # field: "String", # }, # ], # platform_version: "String", # propagate_tags: "TASK_DEFINITION", # accepts TASK_DEFINITION, SERVICE # reference_id: "String", # started_by: "String", # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # task_definition: "String", # required # }) # # @example Response structure # # resp.tasks #=> Array # resp.tasks[0].attachments #=> Array # resp.tasks[0].attachments[0].id #=> String # resp.tasks[0].attachments[0].type #=> String # resp.tasks[0].attachments[0].status #=> String # resp.tasks[0].attachments[0].details #=> Array # resp.tasks[0].attachments[0].details[0].name #=> String # resp.tasks[0].attachments[0].details[0].value #=> String # resp.tasks[0].attributes #=> Array # resp.tasks[0].attributes[0].name #=> String # resp.tasks[0].attributes[0].value #=> String # resp.tasks[0].attributes[0].target_type #=> String, one of "container-instance" # resp.tasks[0].attributes[0].target_id #=> String # resp.tasks[0].availability_zone #=> String # resp.tasks[0].capacity_provider_name #=> String # resp.tasks[0].cluster_arn #=> String # resp.tasks[0].connectivity #=> String, one of "CONNECTED", "DISCONNECTED" # resp.tasks[0].connectivity_at #=> Time # resp.tasks[0].container_instance_arn #=> String # resp.tasks[0].containers #=> Array # resp.tasks[0].containers[0].container_arn #=> String # resp.tasks[0].containers[0].task_arn #=> String # resp.tasks[0].containers[0].name #=> String # resp.tasks[0].containers[0].image #=> String # resp.tasks[0].containers[0].image_digest #=> String # resp.tasks[0].containers[0].runtime_id #=> String # resp.tasks[0].containers[0].last_status #=> String # resp.tasks[0].containers[0].exit_code #=> Integer # resp.tasks[0].containers[0].reason #=> String # resp.tasks[0].containers[0].network_bindings #=> Array # resp.tasks[0].containers[0].network_bindings[0].bind_ip #=> String # resp.tasks[0].containers[0].network_bindings[0].container_port #=> Integer # resp.tasks[0].containers[0].network_bindings[0].host_port #=> Integer # resp.tasks[0].containers[0].network_bindings[0].protocol #=> String, one of "tcp", "udp" # resp.tasks[0].containers[0].network_interfaces #=> Array # resp.tasks[0].containers[0].network_interfaces[0].attachment_id #=> String # resp.tasks[0].containers[0].network_interfaces[0].private_ipv_4_address #=> String # resp.tasks[0].containers[0].network_interfaces[0].ipv6_address #=> String # resp.tasks[0].containers[0].health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.tasks[0].containers[0].cpu #=> String # resp.tasks[0].containers[0].memory #=> String # resp.tasks[0].containers[0].memory_reservation #=> String # resp.tasks[0].containers[0].gpu_ids #=> Array # resp.tasks[0].containers[0].gpu_ids[0] #=> String # resp.tasks[0].cpu #=> String # resp.tasks[0].created_at #=> Time # resp.tasks[0].desired_status #=> String # resp.tasks[0].execution_stopped_at #=> Time # resp.tasks[0].group #=> String # resp.tasks[0].health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.tasks[0].inference_accelerators #=> Array # resp.tasks[0].inference_accelerators[0].device_name #=> String # resp.tasks[0].inference_accelerators[0].device_type #=> String # resp.tasks[0].last_status #=> String # resp.tasks[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.tasks[0].memory #=> String # resp.tasks[0].overrides.container_overrides #=> Array # resp.tasks[0].overrides.container_overrides[0].name #=> String # resp.tasks[0].overrides.container_overrides[0].command #=> Array # resp.tasks[0].overrides.container_overrides[0].command[0] #=> String # resp.tasks[0].overrides.container_overrides[0].environment #=> Array # resp.tasks[0].overrides.container_overrides[0].environment[0].name #=> String # resp.tasks[0].overrides.container_overrides[0].environment[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].environment_files #=> Array # resp.tasks[0].overrides.container_overrides[0].environment_files[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].environment_files[0].type #=> String, one of "s3" # resp.tasks[0].overrides.container_overrides[0].cpu #=> Integer # resp.tasks[0].overrides.container_overrides[0].memory #=> Integer # resp.tasks[0].overrides.container_overrides[0].memory_reservation #=> Integer # resp.tasks[0].overrides.container_overrides[0].resource_requirements #=> Array # resp.tasks[0].overrides.container_overrides[0].resource_requirements[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].resource_requirements[0].type #=> String, one of "GPU", "InferenceAccelerator" # resp.tasks[0].overrides.cpu #=> String # resp.tasks[0].overrides.inference_accelerator_overrides #=> Array # resp.tasks[0].overrides.inference_accelerator_overrides[0].device_name #=> String # resp.tasks[0].overrides.inference_accelerator_overrides[0].device_type #=> String # resp.tasks[0].overrides.execution_role_arn #=> String # resp.tasks[0].overrides.memory #=> String # resp.tasks[0].overrides.task_role_arn #=> String # resp.tasks[0].platform_version #=> String # resp.tasks[0].pull_started_at #=> Time # resp.tasks[0].pull_stopped_at #=> Time # resp.tasks[0].started_at #=> Time # resp.tasks[0].started_by #=> String # resp.tasks[0].stop_code #=> String, one of "TaskFailedToStart", "EssentialContainerExited", "UserInitiated" # resp.tasks[0].stopped_at #=> Time # resp.tasks[0].stopped_reason #=> String # resp.tasks[0].stopping_at #=> Time # resp.tasks[0].tags #=> Array # resp.tasks[0].tags[0].key #=> String # resp.tasks[0].tags[0].value #=> String # resp.tasks[0].task_arn #=> String # resp.tasks[0].task_definition_arn #=> String # resp.tasks[0].version #=> Integer # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/RunTask AWS API Documentation # # @overload run_task(params = {}) # @param [Hash] params ({}) def run_task(params = {}, options = {}) req = build_request(:run_task, params) req.send_request(options) end # Starts a new task from the specified task definition on the specified # container instance or instances. # # Alternatively, you can use RunTask to place tasks for you. For more # information, see [Scheduling Tasks][1] in the *Amazon Elastic # Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/scheduling_tasks.html # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster on # which to start your task. If you do not specify a cluster, the default # cluster is assumed. # # @option params [required, Array] :container_instances # The container instance IDs or full ARN entries for the container # instances on which you would like to place your task. You can specify # up to 10 container instances. # # @option params [Boolean] :enable_ecs_managed_tags # Specifies whether to enable Amazon ECS managed tags for the task. For # more information, see [Tagging Your Amazon ECS Resources][1] in the # *Amazon Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-using-tags.html # # @option params [String] :group # The name of the task group to associate with the task. The default # value is the family name of the task definition (for example, # family:my-family-name). # # @option params [Types::NetworkConfiguration] :network_configuration # The VPC subnet and security group configuration for tasks that receive # their own elastic network interface by using the `awsvpc` networking # mode. # # @option params [Types::TaskOverride] :overrides # A list of container overrides in JSON format that specify the name of # a container in the specified task definition and the overrides it # should receive. You can override the default command for a container # (that is specified in the task definition or Docker image) with a # `command` override. You can also override existing environment # variables (that are specified in the task definition or Docker image) # on a container or add new environment variables to it with an # `environment` override. # # A total of 8192 characters are allowed for overrides. This limit # includes the JSON formatting characters of the override structure. # # # # @option params [String] :propagate_tags # Specifies whether to propagate the tags from the task definition or # the service to the task. If no value is specified, the tags are not # propagated. # # @option params [String] :reference_id # The reference ID to use for the task. # # @option params [String] :started_by # An optional tag specified when a task is started. For example, if you # automatically trigger a task to run a batch process job, you could # apply a unique identifier for that job to your task with the # `startedBy` parameter. You can then identify which tasks belong to # that job by filtering the results of a ListTasks call with the # `startedBy` value. Up to 36 letters (uppercase and lowercase), # numbers, hyphens, and underscores are allowed. # # If a task is started by an Amazon ECS service, then the `startedBy` # parameter contains the deployment ID of the service that starts it. # # @option params [Array] :tags # The metadata that you apply to the task to help you categorize and # organize them. Each tag consists of a key and an optional value, both # of which you define. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @option params [required, String] :task_definition # The `family` and `revision` (`family:revision`) or full ARN of the # task definition to start. If a `revision` is not specified, the latest # `ACTIVE` revision is used. # # @return [Types::StartTaskResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::StartTaskResponse#tasks #tasks} => Array<Types::Task> # * {Types::StartTaskResponse#failures #failures} => Array<Types::Failure> # # @example Request syntax with placeholder values # # resp = client.start_task({ # cluster: "String", # container_instances: ["String"], # required # enable_ecs_managed_tags: false, # group: "String", # network_configuration: { # awsvpc_configuration: { # subnets: ["String"], # required # security_groups: ["String"], # assign_public_ip: "ENABLED", # accepts ENABLED, DISABLED # }, # }, # overrides: { # container_overrides: [ # { # name: "String", # command: ["String"], # environment: [ # { # name: "String", # value: "String", # }, # ], # environment_files: [ # { # value: "String", # required # type: "s3", # required, accepts s3 # }, # ], # cpu: 1, # memory: 1, # memory_reservation: 1, # resource_requirements: [ # { # value: "String", # required # type: "GPU", # required, accepts GPU, InferenceAccelerator # }, # ], # }, # ], # cpu: "String", # inference_accelerator_overrides: [ # { # device_name: "String", # device_type: "String", # }, # ], # execution_role_arn: "String", # memory: "String", # task_role_arn: "String", # }, # propagate_tags: "TASK_DEFINITION", # accepts TASK_DEFINITION, SERVICE # reference_id: "String", # started_by: "String", # tags: [ # { # key: "TagKey", # value: "TagValue", # }, # ], # task_definition: "String", # required # }) # # @example Response structure # # resp.tasks #=> Array # resp.tasks[0].attachments #=> Array # resp.tasks[0].attachments[0].id #=> String # resp.tasks[0].attachments[0].type #=> String # resp.tasks[0].attachments[0].status #=> String # resp.tasks[0].attachments[0].details #=> Array # resp.tasks[0].attachments[0].details[0].name #=> String # resp.tasks[0].attachments[0].details[0].value #=> String # resp.tasks[0].attributes #=> Array # resp.tasks[0].attributes[0].name #=> String # resp.tasks[0].attributes[0].value #=> String # resp.tasks[0].attributes[0].target_type #=> String, one of "container-instance" # resp.tasks[0].attributes[0].target_id #=> String # resp.tasks[0].availability_zone #=> String # resp.tasks[0].capacity_provider_name #=> String # resp.tasks[0].cluster_arn #=> String # resp.tasks[0].connectivity #=> String, one of "CONNECTED", "DISCONNECTED" # resp.tasks[0].connectivity_at #=> Time # resp.tasks[0].container_instance_arn #=> String # resp.tasks[0].containers #=> Array # resp.tasks[0].containers[0].container_arn #=> String # resp.tasks[0].containers[0].task_arn #=> String # resp.tasks[0].containers[0].name #=> String # resp.tasks[0].containers[0].image #=> String # resp.tasks[0].containers[0].image_digest #=> String # resp.tasks[0].containers[0].runtime_id #=> String # resp.tasks[0].containers[0].last_status #=> String # resp.tasks[0].containers[0].exit_code #=> Integer # resp.tasks[0].containers[0].reason #=> String # resp.tasks[0].containers[0].network_bindings #=> Array # resp.tasks[0].containers[0].network_bindings[0].bind_ip #=> String # resp.tasks[0].containers[0].network_bindings[0].container_port #=> Integer # resp.tasks[0].containers[0].network_bindings[0].host_port #=> Integer # resp.tasks[0].containers[0].network_bindings[0].protocol #=> String, one of "tcp", "udp" # resp.tasks[0].containers[0].network_interfaces #=> Array # resp.tasks[0].containers[0].network_interfaces[0].attachment_id #=> String # resp.tasks[0].containers[0].network_interfaces[0].private_ipv_4_address #=> String # resp.tasks[0].containers[0].network_interfaces[0].ipv6_address #=> String # resp.tasks[0].containers[0].health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.tasks[0].containers[0].cpu #=> String # resp.tasks[0].containers[0].memory #=> String # resp.tasks[0].containers[0].memory_reservation #=> String # resp.tasks[0].containers[0].gpu_ids #=> Array # resp.tasks[0].containers[0].gpu_ids[0] #=> String # resp.tasks[0].cpu #=> String # resp.tasks[0].created_at #=> Time # resp.tasks[0].desired_status #=> String # resp.tasks[0].execution_stopped_at #=> Time # resp.tasks[0].group #=> String # resp.tasks[0].health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.tasks[0].inference_accelerators #=> Array # resp.tasks[0].inference_accelerators[0].device_name #=> String # resp.tasks[0].inference_accelerators[0].device_type #=> String # resp.tasks[0].last_status #=> String # resp.tasks[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.tasks[0].memory #=> String # resp.tasks[0].overrides.container_overrides #=> Array # resp.tasks[0].overrides.container_overrides[0].name #=> String # resp.tasks[0].overrides.container_overrides[0].command #=> Array # resp.tasks[0].overrides.container_overrides[0].command[0] #=> String # resp.tasks[0].overrides.container_overrides[0].environment #=> Array # resp.tasks[0].overrides.container_overrides[0].environment[0].name #=> String # resp.tasks[0].overrides.container_overrides[0].environment[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].environment_files #=> Array # resp.tasks[0].overrides.container_overrides[0].environment_files[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].environment_files[0].type #=> String, one of "s3" # resp.tasks[0].overrides.container_overrides[0].cpu #=> Integer # resp.tasks[0].overrides.container_overrides[0].memory #=> Integer # resp.tasks[0].overrides.container_overrides[0].memory_reservation #=> Integer # resp.tasks[0].overrides.container_overrides[0].resource_requirements #=> Array # resp.tasks[0].overrides.container_overrides[0].resource_requirements[0].value #=> String # resp.tasks[0].overrides.container_overrides[0].resource_requirements[0].type #=> String, one of "GPU", "InferenceAccelerator" # resp.tasks[0].overrides.cpu #=> String # resp.tasks[0].overrides.inference_accelerator_overrides #=> Array # resp.tasks[0].overrides.inference_accelerator_overrides[0].device_name #=> String # resp.tasks[0].overrides.inference_accelerator_overrides[0].device_type #=> String # resp.tasks[0].overrides.execution_role_arn #=> String # resp.tasks[0].overrides.memory #=> String # resp.tasks[0].overrides.task_role_arn #=> String # resp.tasks[0].platform_version #=> String # resp.tasks[0].pull_started_at #=> Time # resp.tasks[0].pull_stopped_at #=> Time # resp.tasks[0].started_at #=> Time # resp.tasks[0].started_by #=> String # resp.tasks[0].stop_code #=> String, one of "TaskFailedToStart", "EssentialContainerExited", "UserInitiated" # resp.tasks[0].stopped_at #=> Time # resp.tasks[0].stopped_reason #=> String # resp.tasks[0].stopping_at #=> Time # resp.tasks[0].tags #=> Array # resp.tasks[0].tags[0].key #=> String # resp.tasks[0].tags[0].value #=> String # resp.tasks[0].task_arn #=> String # resp.tasks[0].task_definition_arn #=> String # resp.tasks[0].version #=> Integer # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/StartTask AWS API Documentation # # @overload start_task(params = {}) # @param [Hash] params ({}) def start_task(params = {}, options = {}) req = build_request(:start_task, params) req.send_request(options) end # Stops a running task. Any tags associated with the task will be # deleted. # # When StopTask is called on a task, the equivalent of `docker stop` is # issued to the containers running in the task. This results in a # `SIGTERM` value and a default 30-second timeout, after which the # `SIGKILL` value is sent and the containers are forcibly stopped. If # the container handles the `SIGTERM` value gracefully and exits within # 30 seconds from receiving it, no `SIGKILL` value is sent. # # The default 30-second timeout can be configured on the Amazon ECS # container agent with the `ECS_CONTAINER_STOP_TIMEOUT` variable. For # more information, see [Amazon ECS Container Agent Configuration][1] in # the *Amazon Elastic Container Service Developer Guide*. # # # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-agent-config.html # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the task to stop. If you do not specify a cluster, the default # cluster is assumed. # # @option params [required, String] :task # The task ID or full Amazon Resource Name (ARN) of the task to stop. # # @option params [String] :reason # An optional message specified when a task is stopped. For example, if # you are using a custom scheduler, you can use this parameter to # specify the reason for stopping the task here, and the message appears # in subsequent DescribeTasks API operations on this task. Up to 255 # characters are allowed in this message. # # @return [Types::StopTaskResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::StopTaskResponse#task #task} => Types::Task # # @example Request syntax with placeholder values # # resp = client.stop_task({ # cluster: "String", # task: "String", # required # reason: "String", # }) # # @example Response structure # # resp.task.attachments #=> Array # resp.task.attachments[0].id #=> String # resp.task.attachments[0].type #=> String # resp.task.attachments[0].status #=> String # resp.task.attachments[0].details #=> Array # resp.task.attachments[0].details[0].name #=> String # resp.task.attachments[0].details[0].value #=> String # resp.task.attributes #=> Array # resp.task.attributes[0].name #=> String # resp.task.attributes[0].value #=> String # resp.task.attributes[0].target_type #=> String, one of "container-instance" # resp.task.attributes[0].target_id #=> String # resp.task.availability_zone #=> String # resp.task.capacity_provider_name #=> String # resp.task.cluster_arn #=> String # resp.task.connectivity #=> String, one of "CONNECTED", "DISCONNECTED" # resp.task.connectivity_at #=> Time # resp.task.container_instance_arn #=> String # resp.task.containers #=> Array # resp.task.containers[0].container_arn #=> String # resp.task.containers[0].task_arn #=> String # resp.task.containers[0].name #=> String # resp.task.containers[0].image #=> String # resp.task.containers[0].image_digest #=> String # resp.task.containers[0].runtime_id #=> String # resp.task.containers[0].last_status #=> String # resp.task.containers[0].exit_code #=> Integer # resp.task.containers[0].reason #=> String # resp.task.containers[0].network_bindings #=> Array # resp.task.containers[0].network_bindings[0].bind_ip #=> String # resp.task.containers[0].network_bindings[0].container_port #=> Integer # resp.task.containers[0].network_bindings[0].host_port #=> Integer # resp.task.containers[0].network_bindings[0].protocol #=> String, one of "tcp", "udp" # resp.task.containers[0].network_interfaces #=> Array # resp.task.containers[0].network_interfaces[0].attachment_id #=> String # resp.task.containers[0].network_interfaces[0].private_ipv_4_address #=> String # resp.task.containers[0].network_interfaces[0].ipv6_address #=> String # resp.task.containers[0].health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.task.containers[0].cpu #=> String # resp.task.containers[0].memory #=> String # resp.task.containers[0].memory_reservation #=> String # resp.task.containers[0].gpu_ids #=> Array # resp.task.containers[0].gpu_ids[0] #=> String # resp.task.cpu #=> String # resp.task.created_at #=> Time # resp.task.desired_status #=> String # resp.task.execution_stopped_at #=> Time # resp.task.group #=> String # resp.task.health_status #=> String, one of "HEALTHY", "UNHEALTHY", "UNKNOWN" # resp.task.inference_accelerators #=> Array # resp.task.inference_accelerators[0].device_name #=> String # resp.task.inference_accelerators[0].device_type #=> String # resp.task.last_status #=> String # resp.task.launch_type #=> String, one of "EC2", "FARGATE" # resp.task.memory #=> String # resp.task.overrides.container_overrides #=> Array # resp.task.overrides.container_overrides[0].name #=> String # resp.task.overrides.container_overrides[0].command #=> Array # resp.task.overrides.container_overrides[0].command[0] #=> String # resp.task.overrides.container_overrides[0].environment #=> Array # resp.task.overrides.container_overrides[0].environment[0].name #=> String # resp.task.overrides.container_overrides[0].environment[0].value #=> String # resp.task.overrides.container_overrides[0].environment_files #=> Array # resp.task.overrides.container_overrides[0].environment_files[0].value #=> String # resp.task.overrides.container_overrides[0].environment_files[0].type #=> String, one of "s3" # resp.task.overrides.container_overrides[0].cpu #=> Integer # resp.task.overrides.container_overrides[0].memory #=> Integer # resp.task.overrides.container_overrides[0].memory_reservation #=> Integer # resp.task.overrides.container_overrides[0].resource_requirements #=> Array # resp.task.overrides.container_overrides[0].resource_requirements[0].value #=> String # resp.task.overrides.container_overrides[0].resource_requirements[0].type #=> String, one of "GPU", "InferenceAccelerator" # resp.task.overrides.cpu #=> String # resp.task.overrides.inference_accelerator_overrides #=> Array # resp.task.overrides.inference_accelerator_overrides[0].device_name #=> String # resp.task.overrides.inference_accelerator_overrides[0].device_type #=> String # resp.task.overrides.execution_role_arn #=> String # resp.task.overrides.memory #=> String # resp.task.overrides.task_role_arn #=> String # resp.task.platform_version #=> String # resp.task.pull_started_at #=> Time # resp.task.pull_stopped_at #=> Time # resp.task.started_at #=> Time # resp.task.started_by #=> String # resp.task.stop_code #=> String, one of "TaskFailedToStart", "EssentialContainerExited", "UserInitiated" # resp.task.stopped_at #=> Time # resp.task.stopped_reason #=> String # resp.task.stopping_at #=> Time # resp.task.tags #=> Array # resp.task.tags[0].key #=> String # resp.task.tags[0].value #=> String # resp.task.task_arn #=> String # resp.task.task_definition_arn #=> String # resp.task.version #=> Integer # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/StopTask AWS API Documentation # # @overload stop_task(params = {}) # @param [Hash] params ({}) def stop_task(params = {}, options = {}) req = build_request(:stop_task, params) req.send_request(options) end # This action is only used by the Amazon ECS agent, and it is not # intended for use outside of the agent. # # # # Sent to acknowledge that an attachment changed states. # # @option params [String] :cluster # The short name or full ARN of the cluster that hosts the container # instance the attachment belongs to. # # @option params [required, Array] :attachments # Any attachments associated with the state change request. # # @return [Types::SubmitAttachmentStateChangesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::SubmitAttachmentStateChangesResponse#acknowledgment #acknowledgment} => String # # @example Request syntax with placeholder values # # resp = client.submit_attachment_state_changes({ # cluster: "String", # attachments: [ # required # { # attachment_arn: "String", # required # status: "String", # required # }, # ], # }) # # @example Response structure # # resp.acknowledgment #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/SubmitAttachmentStateChanges AWS API Documentation # # @overload submit_attachment_state_changes(params = {}) # @param [Hash] params ({}) def submit_attachment_state_changes(params = {}, options = {}) req = build_request(:submit_attachment_state_changes, params) req.send_request(options) end # This action is only used by the Amazon ECS agent, and it is not # intended for use outside of the agent. # # # # Sent to acknowledge that a container changed states. # # @option params [String] :cluster # The short name or full ARN of the cluster that hosts the container. # # @option params [String] :task # The task ID or full Amazon Resource Name (ARN) of the task that hosts # the container. # # @option params [String] :container_name # The name of the container. # # @option params [String] :runtime_id # The ID of the Docker container. # # @option params [String] :status # The status of the state change request. # # @option params [Integer] :exit_code # The exit code returned for the state change request. # # @option params [String] :reason # The reason for the state change request. # # @option params [Array] :network_bindings # The network bindings of the container. # # @return [Types::SubmitContainerStateChangeResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::SubmitContainerStateChangeResponse#acknowledgment #acknowledgment} => String # # @example Request syntax with placeholder values # # resp = client.submit_container_state_change({ # cluster: "String", # task: "String", # container_name: "String", # runtime_id: "String", # status: "String", # exit_code: 1, # reason: "String", # network_bindings: [ # { # bind_ip: "String", # container_port: 1, # host_port: 1, # protocol: "tcp", # accepts tcp, udp # }, # ], # }) # # @example Response structure # # resp.acknowledgment #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/SubmitContainerStateChange AWS API Documentation # # @overload submit_container_state_change(params = {}) # @param [Hash] params ({}) def submit_container_state_change(params = {}, options = {}) req = build_request(:submit_container_state_change, params) req.send_request(options) end # This action is only used by the Amazon ECS agent, and it is not # intended for use outside of the agent. # # # # Sent to acknowledge that a task changed states. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the task. # # @option params [String] :task # The task ID or full ARN of the task in the state change request. # # @option params [String] :status # The status of the state change request. # # @option params [String] :reason # The reason for the state change request. # # @option params [Array] :containers # Any containers associated with the state change request. # # @option params [Array] :attachments # Any attachments associated with the state change request. # # @option params [Time,DateTime,Date,Integer,String] :pull_started_at # The Unix timestamp for when the container image pull began. # # @option params [Time,DateTime,Date,Integer,String] :pull_stopped_at # The Unix timestamp for when the container image pull completed. # # @option params [Time,DateTime,Date,Integer,String] :execution_stopped_at # The Unix timestamp for when the task execution stopped. # # @return [Types::SubmitTaskStateChangeResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::SubmitTaskStateChangeResponse#acknowledgment #acknowledgment} => String # # @example Request syntax with placeholder values # # resp = client.submit_task_state_change({ # cluster: "String", # task: "String", # status: "String", # reason: "String", # containers: [ # { # container_name: "String", # image_digest: "String", # runtime_id: "String", # exit_code: 1, # network_bindings: [ # { # bind_ip: "String", # container_port: 1, # host_port: 1, # protocol: "tcp", # accepts tcp, udp # }, # ], # reason: "String", # status: "String", # }, # ], # attachments: [ # { # attachment_arn: "String", # required # status: "String", # required # }, # ], # pull_started_at: Time.now, # pull_stopped_at: Time.now, # execution_stopped_at: Time.now, # }) # # @example Response structure # # resp.acknowledgment #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/SubmitTaskStateChange AWS API Documentation # # @overload submit_task_state_change(params = {}) # @param [Hash] params ({}) def submit_task_state_change(params = {}, options = {}) req = build_request(:submit_task_state_change, params) req.send_request(options) end # Associates the specified tags to a resource with the specified # `resourceArn`. If existing tags on a resource are not specified in the # request parameters, they are not changed. When a resource is deleted, # the tags associated with that resource are deleted as well. # # @option params [required, String] :resource_arn # The Amazon Resource Name (ARN) of the resource to which to add tags. # Currently, the supported resources are Amazon ECS capacity providers, # tasks, services, task definitions, clusters, and container instances. # # @option params [required, Array] :tags # The tags to add to the resource. A tag is an array of key-value pairs. # # The following basic restrictions apply to tags: # # * Maximum number of tags per resource - 50 # # * For each resource, each tag key must be unique, and each tag key can # have only one value. # # * Maximum key length - 128 Unicode characters in UTF-8 # # * Maximum value length - 256 Unicode characters in UTF-8 # # * If your tagging schema is used across multiple services and # resources, remember that other services may have restrictions on # allowed characters. Generally allowed characters are: letters, # numbers, and spaces representable in UTF-8, and the following # characters: + - = . \_ : / @. # # * Tag keys and values are case-sensitive. # # * Do not use `aws:`, `AWS:`, or any upper or lowercase combination of # such as a prefix for either keys or values as it is reserved for AWS # use. You cannot edit or delete tag keys or values with this prefix. # Tags with this prefix do not count against your tags per resource # limit. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # # @example Example: To tag a cluster. # # # This example tags the 'dev' cluster with key 'team' and value 'dev'. # # resp = client.tag_resource({ # resource_arn: "arn:aws:ecs:region:aws_account_id:cluster/dev", # tags: [ # { # key: "team", # value: "dev", # }, # ], # }) # # resp.to_h outputs the following: # { # } # # @example Request syntax with placeholder values # # resp = client.tag_resource({ # resource_arn: "String", # required # tags: [ # required # { # key: "TagKey", # value: "TagValue", # }, # ], # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/TagResource AWS API Documentation # # @overload tag_resource(params = {}) # @param [Hash] params ({}) def tag_resource(params = {}, options = {}) req = build_request(:tag_resource, params) req.send_request(options) end # Deletes specified tags from a resource. # # @option params [required, String] :resource_arn # The Amazon Resource Name (ARN) of the resource from which to delete # tags. Currently, the supported resources are Amazon ECS capacity # providers, tasks, services, task definitions, clusters, and container # instances. # # @option params [required, Array] :tag_keys # The keys of the tags to be removed. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # # @example Example: To untag a cluster. # # # This example deletes the 'team' tag from the 'dev' cluster. # # resp = client.untag_resource({ # resource_arn: "arn:aws:ecs:region:aws_account_id:cluster/dev", # tag_keys: [ # "team", # ], # }) # # resp.to_h outputs the following: # { # } # # @example Request syntax with placeholder values # # resp = client.untag_resource({ # resource_arn: "String", # required # tag_keys: ["TagKey"], # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UntagResource AWS API Documentation # # @overload untag_resource(params = {}) # @param [Hash] params ({}) def untag_resource(params = {}, options = {}) req = build_request(:untag_resource, params) req.send_request(options) end # Modifies the parameters for a capacity provider. # # @option params [required, String] :name # The name of the capacity provider to update. # # @option params [required, Types::AutoScalingGroupProviderUpdate] :auto_scaling_group_provider # An object representing the parameters to update for the Auto Scaling # group capacity provider. # # @return [Types::UpdateCapacityProviderResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateCapacityProviderResponse#capacity_provider #capacity_provider} => Types::CapacityProvider # # @example Request syntax with placeholder values # # resp = client.update_capacity_provider({ # name: "String", # required # auto_scaling_group_provider: { # required # managed_scaling: { # status: "ENABLED", # accepts ENABLED, DISABLED # target_capacity: 1, # minimum_scaling_step_size: 1, # maximum_scaling_step_size: 1, # instance_warmup_period: 1, # }, # managed_termination_protection: "ENABLED", # accepts ENABLED, DISABLED # }, # }) # # @example Response structure # # resp.capacity_provider.capacity_provider_arn #=> String # resp.capacity_provider.name #=> String # resp.capacity_provider.status #=> String, one of "ACTIVE", "INACTIVE" # resp.capacity_provider.auto_scaling_group_provider.auto_scaling_group_arn #=> String # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.status #=> String, one of "ENABLED", "DISABLED" # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.target_capacity #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.minimum_scaling_step_size #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.maximum_scaling_step_size #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_scaling.instance_warmup_period #=> Integer # resp.capacity_provider.auto_scaling_group_provider.managed_termination_protection #=> String, one of "ENABLED", "DISABLED" # resp.capacity_provider.update_status #=> String, one of "DELETE_IN_PROGRESS", "DELETE_COMPLETE", "DELETE_FAILED", "UPDATE_IN_PROGRESS", "UPDATE_COMPLETE", "UPDATE_FAILED" # resp.capacity_provider.update_status_reason #=> String # resp.capacity_provider.tags #=> Array # resp.capacity_provider.tags[0].key #=> String # resp.capacity_provider.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UpdateCapacityProvider AWS API Documentation # # @overload update_capacity_provider(params = {}) # @param [Hash] params ({}) def update_capacity_provider(params = {}, options = {}) req = build_request(:update_capacity_provider, params) req.send_request(options) end # Modifies the settings to use for a cluster. # # @option params [required, String] :cluster # The name of the cluster to modify the settings for. # # @option params [required, Array] :settings # The setting to use by default for a cluster. This parameter is used to # enable CloudWatch Container Insights for a cluster. If this value is # specified, it will override the `containerInsights` value set with # PutAccountSetting or PutAccountSettingDefault. # # @return [Types::UpdateClusterSettingsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateClusterSettingsResponse#cluster #cluster} => Types::Cluster # # @example Request syntax with placeholder values # # resp = client.update_cluster_settings({ # cluster: "String", # required # settings: [ # required # { # name: "containerInsights", # accepts containerInsights # value: "String", # }, # ], # }) # # @example Response structure # # resp.cluster.cluster_arn #=> String # resp.cluster.cluster_name #=> String # resp.cluster.status #=> String # resp.cluster.registered_container_instances_count #=> Integer # resp.cluster.running_tasks_count #=> Integer # resp.cluster.pending_tasks_count #=> Integer # resp.cluster.active_services_count #=> Integer # resp.cluster.statistics #=> Array # resp.cluster.statistics[0].name #=> String # resp.cluster.statistics[0].value #=> String # resp.cluster.tags #=> Array # resp.cluster.tags[0].key #=> String # resp.cluster.tags[0].value #=> String # resp.cluster.settings #=> Array # resp.cluster.settings[0].name #=> String, one of "containerInsights" # resp.cluster.settings[0].value #=> String # resp.cluster.capacity_providers #=> Array # resp.cluster.capacity_providers[0] #=> String # resp.cluster.default_capacity_provider_strategy #=> Array # resp.cluster.default_capacity_provider_strategy[0].capacity_provider #=> String # resp.cluster.default_capacity_provider_strategy[0].weight #=> Integer # resp.cluster.default_capacity_provider_strategy[0].base #=> Integer # resp.cluster.attachments #=> Array # resp.cluster.attachments[0].id #=> String # resp.cluster.attachments[0].type #=> String # resp.cluster.attachments[0].status #=> String # resp.cluster.attachments[0].details #=> Array # resp.cluster.attachments[0].details[0].name #=> String # resp.cluster.attachments[0].details[0].value #=> String # resp.cluster.attachments_status #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UpdateClusterSettings AWS API Documentation # # @overload update_cluster_settings(params = {}) # @param [Hash] params ({}) def update_cluster_settings(params = {}, options = {}) req = build_request(:update_cluster_settings, params) req.send_request(options) end # Updates the Amazon ECS container agent on a specified container # instance. Updating the Amazon ECS container agent does not interrupt # running tasks or services on the container instance. The process for # updating the agent differs depending on whether your container # instance was launched with the Amazon ECS-optimized AMI or another # operating system. # # `UpdateContainerAgent` requires the Amazon ECS-optimized AMI or Amazon # Linux with the `ecs-init` service installed and running. For help # updating the Amazon ECS container agent on other operating systems, # see [Manually Updating the Amazon ECS Container Agent][1] in the # *Amazon Elastic Container Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-agent-update.html#manually_update_agent # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # your container instance is running on. If you do not specify a # cluster, the default cluster is assumed. # # @option params [required, String] :container_instance # The container instance ID or full ARN entries for the container # instance on which you would like to update the Amazon ECS container # agent. # # @return [Types::UpdateContainerAgentResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateContainerAgentResponse#container_instance #container_instance} => Types::ContainerInstance # # @example Request syntax with placeholder values # # resp = client.update_container_agent({ # cluster: "String", # container_instance: "String", # required # }) # # @example Response structure # # resp.container_instance.container_instance_arn #=> String # resp.container_instance.ec2_instance_id #=> String # resp.container_instance.capacity_provider_name #=> String # resp.container_instance.version #=> Integer # resp.container_instance.version_info.agent_version #=> String # resp.container_instance.version_info.agent_hash #=> String # resp.container_instance.version_info.docker_version #=> String # resp.container_instance.remaining_resources #=> Array # resp.container_instance.remaining_resources[0].name #=> String # resp.container_instance.remaining_resources[0].type #=> String # resp.container_instance.remaining_resources[0].double_value #=> Float # resp.container_instance.remaining_resources[0].long_value #=> Integer # resp.container_instance.remaining_resources[0].integer_value #=> Integer # resp.container_instance.remaining_resources[0].string_set_value #=> Array # resp.container_instance.remaining_resources[0].string_set_value[0] #=> String # resp.container_instance.registered_resources #=> Array # resp.container_instance.registered_resources[0].name #=> String # resp.container_instance.registered_resources[0].type #=> String # resp.container_instance.registered_resources[0].double_value #=> Float # resp.container_instance.registered_resources[0].long_value #=> Integer # resp.container_instance.registered_resources[0].integer_value #=> Integer # resp.container_instance.registered_resources[0].string_set_value #=> Array # resp.container_instance.registered_resources[0].string_set_value[0] #=> String # resp.container_instance.status #=> String # resp.container_instance.status_reason #=> String # resp.container_instance.agent_connected #=> Boolean # resp.container_instance.running_tasks_count #=> Integer # resp.container_instance.pending_tasks_count #=> Integer # resp.container_instance.agent_update_status #=> String, one of "PENDING", "STAGING", "STAGED", "UPDATING", "UPDATED", "FAILED" # resp.container_instance.attributes #=> Array # resp.container_instance.attributes[0].name #=> String # resp.container_instance.attributes[0].value #=> String # resp.container_instance.attributes[0].target_type #=> String, one of "container-instance" # resp.container_instance.attributes[0].target_id #=> String # resp.container_instance.registered_at #=> Time # resp.container_instance.attachments #=> Array # resp.container_instance.attachments[0].id #=> String # resp.container_instance.attachments[0].type #=> String # resp.container_instance.attachments[0].status #=> String # resp.container_instance.attachments[0].details #=> Array # resp.container_instance.attachments[0].details[0].name #=> String # resp.container_instance.attachments[0].details[0].value #=> String # resp.container_instance.tags #=> Array # resp.container_instance.tags[0].key #=> String # resp.container_instance.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UpdateContainerAgent AWS API Documentation # # @overload update_container_agent(params = {}) # @param [Hash] params ({}) def update_container_agent(params = {}, options = {}) req = build_request(:update_container_agent, params) req.send_request(options) end # Modifies the status of an Amazon ECS container instance. # # Once a container instance has reached an `ACTIVE` state, you can # change the status of a container instance to `DRAINING` to manually # remove an instance from a cluster, for example to perform system # updates, update the Docker daemon, or scale down the cluster size. # # A container instance cannot be changed to `DRAINING` until it has # reached an `ACTIVE` status. If the instance is in any other status, an # error will be received. # # When you set a container instance to `DRAINING`, Amazon ECS prevents # new tasks from being scheduled for placement on the container instance # and replacement service tasks are started on other container instances # in the cluster if the resources are available. Service tasks on the # container instance that are in the `PENDING` state are stopped # immediately. # # Service tasks on the container instance that are in the `RUNNING` # state are stopped and replaced according to the service's deployment # configuration parameters, `minimumHealthyPercent` and # `maximumPercent`. You can change the deployment configuration of your # service using UpdateService. # # * If `minimumHealthyPercent` is below 100%, the scheduler can ignore # `desiredCount` temporarily during task replacement. For example, # `desiredCount` is four tasks, a minimum of 50% allows the scheduler # to stop two existing tasks before starting two new tasks. If the # minimum is 100%, the service scheduler can't remove existing tasks # until the replacement tasks are considered healthy. Tasks for # services that do not use a load balancer are considered healthy if # they are in the `RUNNING` state. Tasks for services that use a load # balancer are considered healthy if they are in the `RUNNING` state # and the container instance they are hosted on is reported as healthy # by the load balancer. # # * The `maximumPercent` parameter represents an upper limit on the # number of running tasks during task replacement, which enables you # to define the replacement batch size. For example, if `desiredCount` # is four tasks, a maximum of 200% starts four new tasks before # stopping the four tasks to be drained, provided that the cluster # resources required to do this are available. If the maximum is 100%, # then replacement tasks can't start until the draining tasks have # stopped. # # Any `PENDING` or `RUNNING` tasks that do not belong to a service are # not affected. You must wait for them to finish or stop them manually. # # A container instance has completed draining when it has no more # `RUNNING` tasks. You can verify this using ListTasks. # # When a container instance has been drained, you can set a container # instance to `ACTIVE` status and once it has reached that status the # Amazon ECS scheduler can begin scheduling tasks on the instance again. # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the container instance to update. If you do not specify a # cluster, the default cluster is assumed. # # @option params [required, Array] :container_instances # A list of container instance IDs or full ARN entries. # # @option params [required, String] :status # The container instance state with which to update the container # instance. The only valid values for this action are `ACTIVE` and # `DRAINING`. A container instance can only be updated to `DRAINING` # status once it has reached an `ACTIVE` state. If a container instance # is in `REGISTERING`, `DEREGISTERING`, or `REGISTRATION_FAILED` state # you can describe the container instance but will be unable to update # the container instance state. # # @return [Types::UpdateContainerInstancesStateResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateContainerInstancesStateResponse#container_instances #container_instances} => Array<Types::ContainerInstance> # * {Types::UpdateContainerInstancesStateResponse#failures #failures} => Array<Types::Failure> # # @example Request syntax with placeholder values # # resp = client.update_container_instances_state({ # cluster: "String", # container_instances: ["String"], # required # status: "ACTIVE", # required, accepts ACTIVE, DRAINING, REGISTERING, DEREGISTERING, REGISTRATION_FAILED # }) # # @example Response structure # # resp.container_instances #=> Array # resp.container_instances[0].container_instance_arn #=> String # resp.container_instances[0].ec2_instance_id #=> String # resp.container_instances[0].capacity_provider_name #=> String # resp.container_instances[0].version #=> Integer # resp.container_instances[0].version_info.agent_version #=> String # resp.container_instances[0].version_info.agent_hash #=> String # resp.container_instances[0].version_info.docker_version #=> String # resp.container_instances[0].remaining_resources #=> Array # resp.container_instances[0].remaining_resources[0].name #=> String # resp.container_instances[0].remaining_resources[0].type #=> String # resp.container_instances[0].remaining_resources[0].double_value #=> Float # resp.container_instances[0].remaining_resources[0].long_value #=> Integer # resp.container_instances[0].remaining_resources[0].integer_value #=> Integer # resp.container_instances[0].remaining_resources[0].string_set_value #=> Array # resp.container_instances[0].remaining_resources[0].string_set_value[0] #=> String # resp.container_instances[0].registered_resources #=> Array # resp.container_instances[0].registered_resources[0].name #=> String # resp.container_instances[0].registered_resources[0].type #=> String # resp.container_instances[0].registered_resources[0].double_value #=> Float # resp.container_instances[0].registered_resources[0].long_value #=> Integer # resp.container_instances[0].registered_resources[0].integer_value #=> Integer # resp.container_instances[0].registered_resources[0].string_set_value #=> Array # resp.container_instances[0].registered_resources[0].string_set_value[0] #=> String # resp.container_instances[0].status #=> String # resp.container_instances[0].status_reason #=> String # resp.container_instances[0].agent_connected #=> Boolean # resp.container_instances[0].running_tasks_count #=> Integer # resp.container_instances[0].pending_tasks_count #=> Integer # resp.container_instances[0].agent_update_status #=> String, one of "PENDING", "STAGING", "STAGED", "UPDATING", "UPDATED", "FAILED" # resp.container_instances[0].attributes #=> Array # resp.container_instances[0].attributes[0].name #=> String # resp.container_instances[0].attributes[0].value #=> String # resp.container_instances[0].attributes[0].target_type #=> String, one of "container-instance" # resp.container_instances[0].attributes[0].target_id #=> String # resp.container_instances[0].registered_at #=> Time # resp.container_instances[0].attachments #=> Array # resp.container_instances[0].attachments[0].id #=> String # resp.container_instances[0].attachments[0].type #=> String # resp.container_instances[0].attachments[0].status #=> String # resp.container_instances[0].attachments[0].details #=> Array # resp.container_instances[0].attachments[0].details[0].name #=> String # resp.container_instances[0].attachments[0].details[0].value #=> String # resp.container_instances[0].tags #=> Array # resp.container_instances[0].tags[0].key #=> String # resp.container_instances[0].tags[0].value #=> String # resp.failures #=> Array # resp.failures[0].arn #=> String # resp.failures[0].reason #=> String # resp.failures[0].detail #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UpdateContainerInstancesState AWS API Documentation # # @overload update_container_instances_state(params = {}) # @param [Hash] params ({}) def update_container_instances_state(params = {}, options = {}) req = build_request(:update_container_instances_state, params) req.send_request(options) end # Updating the task placement strategies and constraints on an Amazon # ECS service remains in preview and is a Beta Service as defined by and # subject to the Beta Service Participation Service Terms located at # [https://aws.amazon.com/service-terms][1] ("Beta Terms"). These Beta # Terms apply to your participation in this preview. # # Modifies the parameters of a service. # # For services using the rolling update (`ECS`) deployment controller, # the desired count, deployment configuration, network configuration, # task placement constraints and strategies, or task definition used can # be updated. # # For services using the blue/green (`CODE_DEPLOY`) deployment # controller, only the desired count, deployment configuration, task # placement constraints and strategies, and health check grace period # can be updated using this API. If the network configuration, platform # version, or task definition need to be updated, a new AWS CodeDeploy # deployment should be created. For more information, see # [CreateDeployment][2] in the *AWS CodeDeploy API Reference*. # # For services using an external deployment controller, you can update # only the desired count, task placement constraints and strategies, and # health check grace period using this API. If the launch type, load # balancer, network configuration, platform version, or task definition # need to be updated, you should create a new task set. For more # information, see CreateTaskSet. # # You can add to or subtract from the number of instantiations of a task # definition in a service by specifying the cluster that the service is # running in and a new `desiredCount` parameter. # # If you have updated the Docker image of your application, you can # create a new task definition with that image and deploy it to your # service. The service scheduler uses the minimum healthy percent and # maximum percent parameters (in the service's deployment # configuration) to determine the deployment strategy. # # If your updated Docker image uses the same tag as what is in the # existing task definition for your service (for example, # `my_image:latest`), you do not need to create a new revision of your # task definition. You can update the service using the # `forceNewDeployment` option. The new tasks launched by the deployment # pull the current image/tag combination from your repository when they # start. # # # # You can also update the deployment configuration of a service. When a # deployment is triggered by updating the task definition of a service, # the service scheduler uses the deployment configuration parameters, # `minimumHealthyPercent` and `maximumPercent`, to determine the # deployment strategy. # # * If `minimumHealthyPercent` is below 100%, the scheduler can ignore # `desiredCount` temporarily during a deployment. For example, if # `desiredCount` is four tasks, a minimum of 50% allows the scheduler # to stop two existing tasks before starting two new tasks. Tasks for # services that do not use a load balancer are considered healthy if # they are in the `RUNNING` state. Tasks for services that use a load # balancer are considered healthy if they are in the `RUNNING` state # and the container instance they are hosted on is reported as healthy # by the load balancer. # # * The `maximumPercent` parameter represents an upper limit on the # number of running tasks during a deployment, which enables you to # define the deployment batch size. For example, if `desiredCount` is # four tasks, a maximum of 200% starts four new tasks before stopping # the four older tasks (provided that the cluster resources required # to do this are available). # # When UpdateService stops a task during a deployment, the equivalent of # `docker stop` is issued to the containers running in the task. This # results in a `SIGTERM` and a 30-second timeout, after which `SIGKILL` # is sent and the containers are forcibly stopped. If the container # handles the `SIGTERM` gracefully and exits within 30 seconds from # receiving it, no `SIGKILL` is sent. # # When the service scheduler launches new tasks, it determines task # placement in your cluster with the following logic: # # * Determine which of the container instances in your cluster can # support your service's task definition (for example, they have the # required CPU, memory, ports, and container instance attributes). # # * By default, the service scheduler attempts to balance tasks across # Availability Zones in this manner (although you can choose a # different placement strategy): # # * Sort the valid container instances by the fewest number of running # tasks for this service in the same Availability Zone as the # instance. For example, if zone A has one running service task and # zones B and C each have zero, valid container instances in either # zone B or C are considered optimal for placement. # # * Place the new service task on a valid container instance in an # optimal Availability Zone (based on the previous steps), favoring # container instances with the fewest number of running tasks for # this service. # # When the service scheduler stops running tasks, it attempts to # maintain balance across the Availability Zones in your cluster using # the following logic: # # * Sort the container instances by the largest number of running tasks # for this service in the same Availability Zone as the instance. For # example, if zone A has one running service task and zones B and C # each have two, container instances in either zone B or C are # considered optimal for termination. # # * Stop the task on a container instance in an optimal Availability # Zone (based on the previous steps), favoring container instances # with the largest number of running tasks for this service. # # # # [1]: https://aws.amazon.com/service-terms # [2]: https://docs.aws.amazon.com/codedeploy/latest/APIReference/API_CreateDeployment.html # # @option params [String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # your service is running on. If you do not specify a cluster, the # default cluster is assumed. # # @option params [required, String] :service # The name of the service to update. # # @option params [Integer] :desired_count # The number of instantiations of the task to place and keep running in # your service. # # @option params [String] :task_definition # The `family` and `revision` (`family:revision`) or full ARN of the # task definition to run in your service. If a `revision` is not # specified, the latest `ACTIVE` revision is used. If you modify the # task definition with `UpdateService`, Amazon ECS spawns a task with # the new version of the task definition and then stops an old task # after the new version is running. # # @option params [Array] :capacity_provider_strategy # The capacity provider strategy to update the service to use. # # If the service is using the default capacity provider strategy for the # cluster, the service can be updated to use one or more capacity # providers as opposed to the default capacity provider strategy. # However, when a service is using a capacity provider strategy that is # not the default capacity provider strategy, the service cannot be # updated to use the cluster's default capacity provider strategy. # # A capacity provider strategy consists of one or more capacity # providers along with the `base` and `weight` to assign to them. A # capacity provider must be associated with the cluster to be used in a # capacity provider strategy. The PutClusterCapacityProviders API is # used to associate a capacity provider with a cluster. Only capacity # providers with an `ACTIVE` or `UPDATING` status can be used. # # If specifying a capacity provider that uses an Auto Scaling group, the # capacity provider must already be created. New capacity providers can # be created with the CreateCapacityProvider API operation. # # To use a AWS Fargate capacity provider, specify either the `FARGATE` # or `FARGATE_SPOT` capacity providers. The AWS Fargate capacity # providers are available to all accounts and only need to be associated # with a cluster to be used. # # The PutClusterCapacityProviders API operation is used to update the # list of available capacity providers for a cluster after the cluster # is created. # # @option params [Types::DeploymentConfiguration] :deployment_configuration # Optional deployment parameters that control how many tasks run during # the deployment and the ordering of stopping and starting tasks. # # @option params [Types::NetworkConfiguration] :network_configuration # An object representing the network configuration for a task or # service. # # @option params [Array] :placement_constraints # An array of task placement constraint objects to update the service to # use. If no value is specified, the existing placement constraints for # the service will remain unchanged. If this value is specified, it will # override any existing placement constraints defined for the service. # To remove all existing placement constraints, specify an empty array. # # You can specify a maximum of 10 constraints per task (this limit # includes constraints in the task definition and those specified at # runtime). # # @option params [Array] :placement_strategy # The task placement strategy objects to update the service to use. If # no value is specified, the existing placement strategy for the service # will remain unchanged. If this value is specified, it will override # the existing placement strategy defined for the service. To remove an # existing placement strategy, specify an empty object. # # You can specify a maximum of five strategy rules per service. # # @option params [String] :platform_version # The platform version on which your tasks in the service are running. A # platform version is only specified for tasks using the Fargate launch # type. If a platform version is not specified, the `LATEST` platform # version is used by default. For more information, see [AWS Fargate # Platform Versions][1] in the *Amazon Elastic Container Service # Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/platform_versions.html # # @option params [Boolean] :force_new_deployment # Whether to force a new deployment of the service. Deployments are not # forced by default. You can use this option to trigger a new deployment # with no service definition changes. For example, you can update a # service's tasks to use a newer Docker image with the same image/tag # combination (`my_image:latest`) or to roll Fargate tasks onto a newer # platform version. # # @option params [Integer] :health_check_grace_period_seconds # The period of time, in seconds, that the Amazon ECS service scheduler # should ignore unhealthy Elastic Load Balancing target health checks # after a task has first started. This is only valid if your service is # configured to use a load balancer. If your service's tasks take a # while to start and respond to Elastic Load Balancing health checks, # you can specify a health check grace period of up to 2,147,483,647 # seconds. During that time, the Amazon ECS service scheduler ignores # the Elastic Load Balancing health check status. This grace period can # prevent the ECS service scheduler from marking tasks as unhealthy and # stopping them before they have time to come up. # # @return [Types::UpdateServiceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateServiceResponse#service #service} => Types::Service # # # @example Example: To change the task definition used in a service # # # This example updates the my-http-service service to use the amazon-ecs-sample task definition. # # resp = client.update_service({ # service: "my-http-service", # task_definition: "amazon-ecs-sample", # }) # # resp.to_h outputs the following: # { # } # # @example Example: To change the number of tasks in a service # # # This example updates the desired count of the my-http-service service to 10. # # resp = client.update_service({ # desired_count: 10, # service: "my-http-service", # }) # # resp.to_h outputs the following: # { # } # # @example Request syntax with placeholder values # # resp = client.update_service({ # cluster: "String", # service: "String", # required # desired_count: 1, # task_definition: "String", # capacity_provider_strategy: [ # { # capacity_provider: "String", # required # weight: 1, # base: 1, # }, # ], # deployment_configuration: { # deployment_circuit_breaker: { # enable: false, # required # rollback: false, # required # }, # maximum_percent: 1, # minimum_healthy_percent: 1, # }, # network_configuration: { # awsvpc_configuration: { # subnets: ["String"], # required # security_groups: ["String"], # assign_public_ip: "ENABLED", # accepts ENABLED, DISABLED # }, # }, # placement_constraints: [ # { # type: "distinctInstance", # accepts distinctInstance, memberOf # expression: "String", # }, # ], # placement_strategy: [ # { # type: "random", # accepts random, spread, binpack # field: "String", # }, # ], # platform_version: "String", # force_new_deployment: false, # health_check_grace_period_seconds: 1, # }) # # @example Response structure # # resp.service.service_arn #=> String # resp.service.service_name #=> String # resp.service.cluster_arn #=> String # resp.service.load_balancers #=> Array # resp.service.load_balancers[0].target_group_arn #=> String # resp.service.load_balancers[0].load_balancer_name #=> String # resp.service.load_balancers[0].container_name #=> String # resp.service.load_balancers[0].container_port #=> Integer # resp.service.service_registries #=> Array # resp.service.service_registries[0].registry_arn #=> String # resp.service.service_registries[0].port #=> Integer # resp.service.service_registries[0].container_name #=> String # resp.service.service_registries[0].container_port #=> Integer # resp.service.status #=> String # resp.service.desired_count #=> Integer # resp.service.running_count #=> Integer # resp.service.pending_count #=> Integer # resp.service.launch_type #=> String, one of "EC2", "FARGATE" # resp.service.capacity_provider_strategy #=> Array # resp.service.capacity_provider_strategy[0].capacity_provider #=> String # resp.service.capacity_provider_strategy[0].weight #=> Integer # resp.service.capacity_provider_strategy[0].base #=> Integer # resp.service.platform_version #=> String # resp.service.task_definition #=> String # resp.service.deployment_configuration.deployment_circuit_breaker.enable #=> Boolean # resp.service.deployment_configuration.deployment_circuit_breaker.rollback #=> Boolean # resp.service.deployment_configuration.maximum_percent #=> Integer # resp.service.deployment_configuration.minimum_healthy_percent #=> Integer # resp.service.task_sets #=> Array # resp.service.task_sets[0].id #=> String # resp.service.task_sets[0].task_set_arn #=> String # resp.service.task_sets[0].service_arn #=> String # resp.service.task_sets[0].cluster_arn #=> String # resp.service.task_sets[0].started_by #=> String # resp.service.task_sets[0].external_id #=> String # resp.service.task_sets[0].status #=> String # resp.service.task_sets[0].task_definition #=> String # resp.service.task_sets[0].computed_desired_count #=> Integer # resp.service.task_sets[0].pending_count #=> Integer # resp.service.task_sets[0].running_count #=> Integer # resp.service.task_sets[0].created_at #=> Time # resp.service.task_sets[0].updated_at #=> Time # resp.service.task_sets[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.service.task_sets[0].capacity_provider_strategy #=> Array # resp.service.task_sets[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.service.task_sets[0].capacity_provider_strategy[0].weight #=> Integer # resp.service.task_sets[0].capacity_provider_strategy[0].base #=> Integer # resp.service.task_sets[0].platform_version #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.task_sets[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.task_sets[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.task_sets[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.task_sets[0].load_balancers #=> Array # resp.service.task_sets[0].load_balancers[0].target_group_arn #=> String # resp.service.task_sets[0].load_balancers[0].load_balancer_name #=> String # resp.service.task_sets[0].load_balancers[0].container_name #=> String # resp.service.task_sets[0].load_balancers[0].container_port #=> Integer # resp.service.task_sets[0].service_registries #=> Array # resp.service.task_sets[0].service_registries[0].registry_arn #=> String # resp.service.task_sets[0].service_registries[0].port #=> Integer # resp.service.task_sets[0].service_registries[0].container_name #=> String # resp.service.task_sets[0].service_registries[0].container_port #=> Integer # resp.service.task_sets[0].scale.value #=> Float # resp.service.task_sets[0].scale.unit #=> String, one of "PERCENT" # resp.service.task_sets[0].stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.service.task_sets[0].stability_status_at #=> Time # resp.service.task_sets[0].tags #=> Array # resp.service.task_sets[0].tags[0].key #=> String # resp.service.task_sets[0].tags[0].value #=> String # resp.service.deployments #=> Array # resp.service.deployments[0].id #=> String # resp.service.deployments[0].status #=> String # resp.service.deployments[0].task_definition #=> String # resp.service.deployments[0].desired_count #=> Integer # resp.service.deployments[0].pending_count #=> Integer # resp.service.deployments[0].running_count #=> Integer # resp.service.deployments[0].failed_tasks #=> Integer # resp.service.deployments[0].created_at #=> Time # resp.service.deployments[0].updated_at #=> Time # resp.service.deployments[0].capacity_provider_strategy #=> Array # resp.service.deployments[0].capacity_provider_strategy[0].capacity_provider #=> String # resp.service.deployments[0].capacity_provider_strategy[0].weight #=> Integer # resp.service.deployments[0].capacity_provider_strategy[0].base #=> Integer # resp.service.deployments[0].launch_type #=> String, one of "EC2", "FARGATE" # resp.service.deployments[0].platform_version #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.deployments[0].network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.deployments[0].network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.deployments[0].network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.deployments[0].rollout_state #=> String, one of "COMPLETED", "FAILED", "IN_PROGRESS" # resp.service.deployments[0].rollout_state_reason #=> String # resp.service.role_arn #=> String # resp.service.events #=> Array # resp.service.events[0].id #=> String # resp.service.events[0].created_at #=> Time # resp.service.events[0].message #=> String # resp.service.created_at #=> Time # resp.service.placement_constraints #=> Array # resp.service.placement_constraints[0].type #=> String, one of "distinctInstance", "memberOf" # resp.service.placement_constraints[0].expression #=> String # resp.service.placement_strategy #=> Array # resp.service.placement_strategy[0].type #=> String, one of "random", "spread", "binpack" # resp.service.placement_strategy[0].field #=> String # resp.service.network_configuration.awsvpc_configuration.subnets #=> Array # resp.service.network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.service.network_configuration.awsvpc_configuration.security_groups #=> Array # resp.service.network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.service.network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.service.health_check_grace_period_seconds #=> Integer # resp.service.scheduling_strategy #=> String, one of "REPLICA", "DAEMON" # resp.service.deployment_controller.type #=> String, one of "ECS", "CODE_DEPLOY", "EXTERNAL" # resp.service.tags #=> Array # resp.service.tags[0].key #=> String # resp.service.tags[0].value #=> String # resp.service.created_by #=> String # resp.service.enable_ecs_managed_tags #=> Boolean # resp.service.propagate_tags #=> String, one of "TASK_DEFINITION", "SERVICE" # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UpdateService AWS API Documentation # # @overload update_service(params = {}) # @param [Hash] params ({}) def update_service(params = {}, options = {}) req = build_request(:update_service, params) req.send_request(options) end # Modifies which task set in a service is the primary task set. Any # parameters that are updated on the primary task set in a service will # transition to the service. This is used when a service uses the # `EXTERNAL` deployment controller type. For more information, see # [Amazon ECS Deployment Types][1] in the *Amazon Elastic Container # Service Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/deployment-types.html # # @option params [required, String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the service that the task set exists in. # # @option params [required, String] :service # The short name or full Amazon Resource Name (ARN) of the service that # the task set exists in. # # @option params [required, String] :primary_task_set # The short name or full Amazon Resource Name (ARN) of the task set to # set as the primary task set in the deployment. # # @return [Types::UpdateServicePrimaryTaskSetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateServicePrimaryTaskSetResponse#task_set #task_set} => Types::TaskSet # # @example Request syntax with placeholder values # # resp = client.update_service_primary_task_set({ # cluster: "String", # required # service: "String", # required # primary_task_set: "String", # required # }) # # @example Response structure # # resp.task_set.id #=> String # resp.task_set.task_set_arn #=> String # resp.task_set.service_arn #=> String # resp.task_set.cluster_arn #=> String # resp.task_set.started_by #=> String # resp.task_set.external_id #=> String # resp.task_set.status #=> String # resp.task_set.task_definition #=> String # resp.task_set.computed_desired_count #=> Integer # resp.task_set.pending_count #=> Integer # resp.task_set.running_count #=> Integer # resp.task_set.created_at #=> Time # resp.task_set.updated_at #=> Time # resp.task_set.launch_type #=> String, one of "EC2", "FARGATE" # resp.task_set.capacity_provider_strategy #=> Array # resp.task_set.capacity_provider_strategy[0].capacity_provider #=> String # resp.task_set.capacity_provider_strategy[0].weight #=> Integer # resp.task_set.capacity_provider_strategy[0].base #=> Integer # resp.task_set.platform_version #=> String # resp.task_set.network_configuration.awsvpc_configuration.subnets #=> Array # resp.task_set.network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.security_groups #=> Array # resp.task_set.network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.task_set.load_balancers #=> Array # resp.task_set.load_balancers[0].target_group_arn #=> String # resp.task_set.load_balancers[0].load_balancer_name #=> String # resp.task_set.load_balancers[0].container_name #=> String # resp.task_set.load_balancers[0].container_port #=> Integer # resp.task_set.service_registries #=> Array # resp.task_set.service_registries[0].registry_arn #=> String # resp.task_set.service_registries[0].port #=> Integer # resp.task_set.service_registries[0].container_name #=> String # resp.task_set.service_registries[0].container_port #=> Integer # resp.task_set.scale.value #=> Float # resp.task_set.scale.unit #=> String, one of "PERCENT" # resp.task_set.stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.task_set.stability_status_at #=> Time # resp.task_set.tags #=> Array # resp.task_set.tags[0].key #=> String # resp.task_set.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UpdateServicePrimaryTaskSet AWS API Documentation # # @overload update_service_primary_task_set(params = {}) # @param [Hash] params ({}) def update_service_primary_task_set(params = {}, options = {}) req = build_request(:update_service_primary_task_set, params) req.send_request(options) end # Modifies a task set. This is used when a service uses the `EXTERNAL` # deployment controller type. For more information, see [Amazon ECS # Deployment Types][1] in the *Amazon Elastic Container Service # Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/deployment-types.html # # @option params [required, String] :cluster # The short name or full Amazon Resource Name (ARN) of the cluster that # hosts the service that the task set exists in. # # @option params [required, String] :service # The short name or full Amazon Resource Name (ARN) of the service that # the task set exists in. # # @option params [required, String] :task_set # The short name or full Amazon Resource Name (ARN) of the task set to # update. # # @option params [required, Types::Scale] :scale # A floating-point percentage of the desired number of tasks to place # and keep running in the task set. # # @return [Types::UpdateTaskSetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateTaskSetResponse#task_set #task_set} => Types::TaskSet # # @example Request syntax with placeholder values # # resp = client.update_task_set({ # cluster: "String", # required # service: "String", # required # task_set: "String", # required # scale: { # required # value: 1.0, # unit: "PERCENT", # accepts PERCENT # }, # }) # # @example Response structure # # resp.task_set.id #=> String # resp.task_set.task_set_arn #=> String # resp.task_set.service_arn #=> String # resp.task_set.cluster_arn #=> String # resp.task_set.started_by #=> String # resp.task_set.external_id #=> String # resp.task_set.status #=> String # resp.task_set.task_definition #=> String # resp.task_set.computed_desired_count #=> Integer # resp.task_set.pending_count #=> Integer # resp.task_set.running_count #=> Integer # resp.task_set.created_at #=> Time # resp.task_set.updated_at #=> Time # resp.task_set.launch_type #=> String, one of "EC2", "FARGATE" # resp.task_set.capacity_provider_strategy #=> Array # resp.task_set.capacity_provider_strategy[0].capacity_provider #=> String # resp.task_set.capacity_provider_strategy[0].weight #=> Integer # resp.task_set.capacity_provider_strategy[0].base #=> Integer # resp.task_set.platform_version #=> String # resp.task_set.network_configuration.awsvpc_configuration.subnets #=> Array # resp.task_set.network_configuration.awsvpc_configuration.subnets[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.security_groups #=> Array # resp.task_set.network_configuration.awsvpc_configuration.security_groups[0] #=> String # resp.task_set.network_configuration.awsvpc_configuration.assign_public_ip #=> String, one of "ENABLED", "DISABLED" # resp.task_set.load_balancers #=> Array # resp.task_set.load_balancers[0].target_group_arn #=> String # resp.task_set.load_balancers[0].load_balancer_name #=> String # resp.task_set.load_balancers[0].container_name #=> String # resp.task_set.load_balancers[0].container_port #=> Integer # resp.task_set.service_registries #=> Array # resp.task_set.service_registries[0].registry_arn #=> String # resp.task_set.service_registries[0].port #=> Integer # resp.task_set.service_registries[0].container_name #=> String # resp.task_set.service_registries[0].container_port #=> Integer # resp.task_set.scale.value #=> Float # resp.task_set.scale.unit #=> String, one of "PERCENT" # resp.task_set.stability_status #=> String, one of "STEADY_STATE", "STABILIZING" # resp.task_set.stability_status_at #=> Time # resp.task_set.tags #=> Array # resp.task_set.tags[0].key #=> String # resp.task_set.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/ecs-2014-11-13/UpdateTaskSet AWS API Documentation # # @overload update_task_set(params = {}) # @param [Hash] params ({}) def update_task_set(params = {}, options = {}) req = build_request(:update_task_set, 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-ecs' context[:gem_version] = '1.73.0' 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.wait_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 | # | ----------------- | -------------------------- | -------- | ------------- | # | services_inactive | {Client#describe_services} | 15 | 40 | # | services_stable | {Client#describe_services} | 15 | 40 | # | tasks_running | {Client#describe_tasks} | 6 | 100 | # | tasks_stopped | {Client#describe_tasks} | 6 | 100 | # # @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 { services_inactive: Waiters::ServicesInactive, services_stable: Waiters::ServicesStable, tasks_running: Waiters::TasksRunning, tasks_stopped: Waiters::TasksStopped } end class << self # @api private attr_reader :identifier # @api private def errors_module Errors end end end end