# 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/version-3/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/checksum_algorithm.rb' require 'aws-sdk-core/plugins/defaults_mode.rb' require 'aws-sdk-core/plugins/recursion_detection.rb' require 'aws-sdk-core/plugins/sign.rb' require 'aws-sdk-core/plugins/protocols/json_rpc.rb' Aws::Plugins::GlobalConfiguration.add_identifier(:iotfleetwise) module Aws::IoTFleetWise # An API client for IoTFleetWise. To construct a client, you need to configure a `:region` and `:credentials`. # # client = Aws::IoTFleetWise::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 = :iotfleetwise 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::ChecksumAlgorithm) add_plugin(Aws::Plugins::DefaultsMode) add_plugin(Aws::Plugins::RecursionDetection) add_plugin(Aws::Plugins::Sign) add_plugin(Aws::Plugins::Protocols::JsonRpc) add_plugin(Aws::IoTFleetWise::Plugins::Endpoints) # @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. Instance profile credential # fetching can be disabled by setting ENV['AWS_EC2_METADATA_DISABLED'] # to true. # # @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 [String] :defaults_mode ("legacy") # See {Aws::DefaultsModeConfiguration} for a list of the # accepted modes and the configuration defaults that are included. # # @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] :sdk_ua_app_id # A unique and opaque application ID that is appended to the # User-Agent header as app/. It should have a # maximum length of 50. # # @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 [Aws::TokenProvider] :token_provider # A Bearer Token Provider. This can be an instance of any one of the # following classes: # # * `Aws::StaticTokenProvider` - Used for configuring static, non-refreshing # tokens. # # * `Aws::SSOTokenProvider` - Used for loading tokens from AWS SSO using an # access token generated from `aws login`. # # When `:token_provider` is not configured directly, the `Aws::TokenProviderChain` # will be used to search for tokens configured for your profile in shared configuration files. # # @option options [Boolean] :use_dualstack_endpoint # When set to `true`, dualstack enabled endpoints (with `.aws` TLD) # will be used if available. # # @option options [Boolean] :use_fips_endpoint # When set to `true`, fips compatible endpoints will be used if available. # When a `fips` region is used, the region is normalized and this config # is set to `true`. # # @option options [Boolean] :validate_params (true) # When `true`, request parameters are validated before # sending the request. # # @option options [Aws::IoTFleetWise::EndpointProvider] :endpoint_provider # The endpoint provider used to resolve endpoints. Any object that responds to `#resolve_endpoint(parameters)` where `parameters` is a Struct similar to `Aws::IoTFleetWise::EndpointParameters` # # @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 [Float] :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 [Float] :ssl_timeout (nil) Sets the SSL timeout # in seconds. # # @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 # Adds, or associates, a vehicle with a fleet. # # @option params [required, String] :vehicle_name # The unique ID of the vehicle to associate with the fleet. # # @option params [required, String] :fleet_id # The ID of a fleet. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.associate_vehicle_fleet({ # vehicle_name: "vehicleName", # required # fleet_id: "fleetId", # required # }) # # @overload associate_vehicle_fleet(params = {}) # @param [Hash] params ({}) def associate_vehicle_fleet(params = {}, options = {}) req = build_request(:associate_vehicle_fleet, params) req.send_request(options) end # Creates a group, or batch, of vehicles. # # You must specify a decoder manifest and a vehicle model (model # manifest) for each vehicle. # # # # For more information, see [Create multiple vehicles (AWS CLI)][1] in # the *Amazon Web Services IoT FleetWise Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/create-vehicles-cli.html # # @option params [required, Array] :vehicles # A list of information about each vehicle to create. For more # information, see the API data type. # # @return [Types::BatchCreateVehicleResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::BatchCreateVehicleResponse#vehicles #vehicles} => Array<Types::CreateVehicleResponseItem> # * {Types::BatchCreateVehicleResponse#errors #errors} => Array<Types::CreateVehicleError> # # @example Request syntax with placeholder values # # resp = client.batch_create_vehicle({ # vehicles: [ # required # { # vehicle_name: "vehicleName", # required # model_manifest_arn: "arn", # required # decoder_manifest_arn: "arn", # required # attributes: { # "attributeName" => "attributeValue", # }, # association_behavior: "CreateIotThing", # accepts CreateIotThing, ValidateIotThingExists # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }, # ], # }) # # @example Response structure # # resp.vehicles #=> Array # resp.vehicles[0].vehicle_name #=> String # resp.vehicles[0].arn #=> String # resp.vehicles[0].thing_arn #=> String # resp.errors #=> Array # resp.errors[0].vehicle_name #=> String # resp.errors[0].code #=> String # resp.errors[0].message #=> String # # @overload batch_create_vehicle(params = {}) # @param [Hash] params ({}) def batch_create_vehicle(params = {}, options = {}) req = build_request(:batch_create_vehicle, params) req.send_request(options) end # Updates a group, or batch, of vehicles. # # You must specify a decoder manifest and a vehicle model (model # manifest) for each vehicle. # # # # For more information, see [Update multiple vehicles (AWS CLI)][1] in # the *Amazon Web Services IoT FleetWise Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/update-vehicles-cli.html # # @option params [required, Array] :vehicles # A list of information about the vehicles to update. For more # information, see the API data type. # # @return [Types::BatchUpdateVehicleResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::BatchUpdateVehicleResponse#vehicles #vehicles} => Array<Types::UpdateVehicleResponseItem> # * {Types::BatchUpdateVehicleResponse#errors #errors} => Array<Types::UpdateVehicleError> # # @example Request syntax with placeholder values # # resp = client.batch_update_vehicle({ # vehicles: [ # required # { # vehicle_name: "vehicleName", # required # model_manifest_arn: "arn", # decoder_manifest_arn: "arn", # attributes: { # "attributeName" => "attributeValue", # }, # attribute_update_mode: "Overwrite", # accepts Overwrite, Merge # }, # ], # }) # # @example Response structure # # resp.vehicles #=> Array # resp.vehicles[0].vehicle_name #=> String # resp.vehicles[0].arn #=> String # resp.errors #=> Array # resp.errors[0].vehicle_name #=> String # resp.errors[0].code #=> Integer # resp.errors[0].message #=> String # # @overload batch_update_vehicle(params = {}) # @param [Hash] params ({}) def batch_update_vehicle(params = {}, options = {}) req = build_request(:batch_update_vehicle, params) req.send_request(options) end # Creates an orchestration of data collection rules. The Amazon Web # Services IoT FleetWise Edge Agent software running in vehicles uses # campaigns to decide how to collect and transfer data to the cloud. You # create campaigns in the cloud. After you or your team approve # campaigns, Amazon Web Services IoT FleetWise automatically deploys # them to vehicles. # # For more information, see [Collect and transfer data with # campaigns][1] in the *Amazon Web Services IoT FleetWise Developer # Guide*. # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/campaigns.html # # @option params [required, String] :name # The name of the campaign to create. # # @option params [String] :description # An optional description of the campaign to help identify its purpose. # # @option params [required, String] :signal_catalog_arn # (Optional) The Amazon Resource Name (ARN) of the signal catalog to # associate with the campaign. # # @option params [required, String] :target_arn # The ARN of the vehicle or fleet to deploy a campaign to. # # @option params [Time,DateTime,Date,Integer,String] :start_time # (Optional) The time, in milliseconds, to deliver a campaign after it # was approved. If it's not specified, `0` is used. # # Default: `0` # # @option params [Time,DateTime,Date,Integer,String] :expiry_time # (Optional) The time the campaign expires, in seconds since epoch # (January 1, 1970 at midnight UTC time). Vehicle data isn't collected # after the campaign expires. # # Default: 253402214400 (December 31, 9999, 00:00:00 UTC) # # @option params [Integer] :post_trigger_collection_duration # (Optional) How long (in milliseconds) to collect raw data after a # triggering event initiates the collection. If it's not specified, `0` # is used. # # Default: `0` # # @option params [String] :diagnostics_mode # (Optional) Option for a vehicle to send diagnostic trouble codes to # Amazon Web Services IoT FleetWise. If you want to send diagnostic # trouble codes, use `SEND_ACTIVE_DTCS`. If it's not specified, `OFF` # is used. # # Default: `OFF` # # @option params [String] :spooling_mode # (Optional) Whether to store collected data after a vehicle lost a # connection with the cloud. After a connection is re-established, the # data is automatically forwarded to Amazon Web Services IoT FleetWise. # If you want to store collected data when a vehicle loses connection # with the cloud, use `TO_DISK`. If it's not specified, `OFF` is used. # # Default: `OFF` # # @option params [String] :compression # (Optional) Whether to compress signals before transmitting data to # Amazon Web Services IoT FleetWise. If you don't want to compress the # signals, use `OFF`. If it's not specified, `SNAPPY` is used. # # Default: `SNAPPY` # # @option params [Integer] :priority # (Optional) A number indicating the priority of one campaign over # another campaign for a certain vehicle or fleet. A campaign with the # lowest value is deployed to vehicles before any other campaigns. If # it's not specified, `0` is used. # # Default: `0` # # @option params [Array] :signals_to_collect # (Optional) A list of information about signals to collect. # # @option params [required, Types::CollectionScheme] :collection_scheme # The data collection scheme associated with the campaign. You can # specify a scheme that collects data based on time or an event. # # @option params [Array] :data_extra_dimensions # (Optional) A list of vehicle attributes to associate with a campaign. # # Enrich the data with specified vehicle attributes. For example, add # `make` and `model` to the campaign, and Amazon Web Services IoT # FleetWise will associate the data with those attributes as dimensions # in Amazon Timestream. You can then query the data against `make` and # `model`. # # Default: An empty array # # @option params [Array] :tags # Metadata that can be used to manage the campaign. # # @option params [Array] :data_destination_configs # The destination where the campaign sends data. You can choose to send # data to be stored in Amazon S3 or Amazon Timestream. # # Amazon S3 optimizes the cost of data storage and provides additional # mechanisms to use vehicle data, such as data lakes, centralized data # storage, data processing pipelines, and analytics. # # You can use Amazon Timestream to access and analyze time series data, # and Timestream to query vehicle data so that you can identify trends # and patterns. # # @return [Types::CreateCampaignResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateCampaignResponse#name #name} => String # * {Types::CreateCampaignResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.create_campaign({ # name: "campaignName", # required # description: "description", # signal_catalog_arn: "arn", # required # target_arn: "arn", # required # start_time: Time.now, # expiry_time: Time.now, # post_trigger_collection_duration: 1, # diagnostics_mode: "OFF", # accepts OFF, SEND_ACTIVE_DTCS # spooling_mode: "OFF", # accepts OFF, TO_DISK # compression: "OFF", # accepts OFF, SNAPPY # priority: 1, # signals_to_collect: [ # { # name: "wildcardSignalName", # required # max_sample_count: 1, # minimum_sampling_interval_ms: 1, # }, # ], # collection_scheme: { # required # time_based_collection_scheme: { # period_ms: 1, # required # }, # condition_based_collection_scheme: { # expression: "eventExpression", # required # minimum_trigger_interval_ms: 1, # trigger_mode: "ALWAYS", # accepts ALWAYS, RISING_EDGE # condition_language_version: 1, # }, # }, # data_extra_dimensions: ["NodePath"], # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # data_destination_configs: [ # { # s3_config: { # bucket_arn: "S3BucketArn", # required # data_format: "JSON", # accepts JSON, PARQUET # storage_compression_format: "NONE", # accepts NONE, GZIP # prefix: "Prefix", # }, # timestream_config: { # timestream_table_arn: "TimestreamTableArn", # required # execution_role_arn: "IAMRoleArn", # required # }, # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload create_campaign(params = {}) # @param [Hash] params ({}) def create_campaign(params = {}, options = {}) req = build_request(:create_campaign, params) req.send_request(options) end # Creates the decoder manifest associated with a model manifest. To # create a decoder manifest, the following must be true: # # * Every signal decoder has a unique name. # # * Each signal decoder is associated with a network interface. # # * Each network interface has a unique ID. # # * The signal decoders are specified in the model manifest. # # @option params [required, String] :name # The unique name of the decoder manifest to create. # # @option params [String] :description # A brief description of the decoder manifest. # # @option params [required, String] :model_manifest_arn # The Amazon Resource Name (ARN) of the vehicle model (model manifest). # # @option params [Array] :signal_decoders # A list of information about signal decoders. # # @option params [Array] :network_interfaces # A list of information about available network interfaces. # # @option params [Array] :tags # Metadata that can be used to manage the decoder manifest. # # @return [Types::CreateDecoderManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateDecoderManifestResponse#name #name} => String # * {Types::CreateDecoderManifestResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.create_decoder_manifest({ # name: "resourceName", # required # description: "description", # model_manifest_arn: "arn", # required # signal_decoders: [ # { # fully_qualified_name: "FullyQualifiedName", # required # type: "CAN_SIGNAL", # required, accepts CAN_SIGNAL, OBD_SIGNAL # interface_id: "InterfaceId", # required # can_signal: { # message_id: 1, # required # is_big_endian: false, # required # is_signed: false, # required # start_bit: 1, # required # offset: 1.0, # required # factor: 1.0, # required # length: 1, # required # name: "CanSignalName", # }, # obd_signal: { # pid_response_length: 1, # required # service_mode: 1, # required # pid: 1, # required # scaling: 1.0, # required # offset: 1.0, # required # start_byte: 1, # required # byte_length: 1, # required # bit_right_shift: 1, # bit_mask_length: 1, # }, # }, # ], # network_interfaces: [ # { # interface_id: "InterfaceId", # required # type: "CAN_INTERFACE", # required, accepts CAN_INTERFACE, OBD_INTERFACE # can_interface: { # name: "CanInterfaceName", # required # protocol_name: "ProtocolName", # protocol_version: "ProtocolVersion", # }, # obd_interface: { # name: "ObdInterfaceName", # required # request_message_id: 1, # required # obd_standard: "ObdStandard", # pid_request_interval_seconds: 1, # dtc_request_interval_seconds: 1, # use_extended_ids: false, # has_transmission_ecu: false, # }, # }, # ], # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload create_decoder_manifest(params = {}) # @param [Hash] params ({}) def create_decoder_manifest(params = {}, options = {}) req = build_request(:create_decoder_manifest, params) req.send_request(options) end # Creates a fleet that represents a group of vehicles. # # You must create both a signal catalog and vehicles before you can # create a fleet. # # # # For more information, see [Fleets][1] in the *Amazon Web Services IoT # FleetWise Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/fleets.html # # @option params [required, String] :fleet_id # The unique ID of the fleet to create. # # @option params [String] :description # A brief description of the fleet to create. # # @option params [required, String] :signal_catalog_arn # The Amazon Resource Name (ARN) of a signal catalog. # # @option params [Array] :tags # Metadata that can be used to manage the fleet. # # @return [Types::CreateFleetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateFleetResponse#id #id} => String # * {Types::CreateFleetResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.create_fleet({ # fleet_id: "fleetId", # required # description: "description", # signal_catalog_arn: "arn", # required # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.id #=> String # resp.arn #=> String # # @overload create_fleet(params = {}) # @param [Hash] params ({}) def create_fleet(params = {}, options = {}) req = build_request(:create_fleet, params) req.send_request(options) end # Creates a vehicle model (model manifest) that specifies signals # (attributes, branches, sensors, and actuators). # # For more information, see [Vehicle models][1] in the *Amazon Web # Services IoT FleetWise Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/vehicle-models.html # # @option params [required, String] :name # The name of the vehicle model to create. # # @option params [String] :description # A brief description of the vehicle model. # # @option params [required, Array] :nodes # A list of nodes, which are a general abstraction of signals. # # @option params [required, String] :signal_catalog_arn # The Amazon Resource Name (ARN) of a signal catalog. # # @option params [Array] :tags # Metadata that can be used to manage the vehicle model. # # @return [Types::CreateModelManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateModelManifestResponse#name #name} => String # * {Types::CreateModelManifestResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.create_model_manifest({ # name: "resourceName", # required # description: "description", # nodes: ["string"], # required # signal_catalog_arn: "arn", # required # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload create_model_manifest(params = {}) # @param [Hash] params ({}) def create_model_manifest(params = {}, options = {}) req = build_request(:create_model_manifest, params) req.send_request(options) end # Creates a collection of standardized signals that can be reused to # create vehicle models. # # @option params [required, String] :name # The name of the signal catalog to create. # # @option params [String] :description # A brief description of the signal catalog. # # @option params [Array] :nodes # A list of information about nodes, which are a general abstraction of # signals. For more information, see the API data type. # # @option params [Array] :tags # Metadata that can be used to manage the signal catalog. # # @return [Types::CreateSignalCatalogResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateSignalCatalogResponse#name #name} => String # * {Types::CreateSignalCatalogResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.create_signal_catalog({ # name: "resourceName", # required # description: "description", # nodes: [ # { # branch: { # fully_qualified_name: "string", # required # description: "description", # deprecation_message: "message", # comment: "message", # }, # sensor: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # deprecation_message: "message", # comment: "message", # }, # actuator: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # assigned_value: "string", # deprecation_message: "message", # comment: "message", # }, # attribute: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # assigned_value: "string", # default_value: "string", # deprecation_message: "message", # comment: "message", # }, # }, # ], # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload create_signal_catalog(params = {}) # @param [Hash] params ({}) def create_signal_catalog(params = {}, options = {}) req = build_request(:create_signal_catalog, params) req.send_request(options) end # Creates a vehicle, which is an instance of a vehicle model (model # manifest). Vehicles created from the same vehicle model consist of the # same signals inherited from the vehicle model. # # If you have an existing Amazon Web Services IoT thing, you can use # Amazon Web Services IoT FleetWise to create a vehicle and collect data # from your thing. # # # # For more information, see [Create a vehicle (AWS CLI)][1] in the # *Amazon Web Services IoT FleetWise Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/create-vehicle-cli.html # # @option params [required, String] :vehicle_name # The unique ID of the vehicle to create. # # @option params [required, String] :model_manifest_arn # The Amazon Resource Name ARN of a vehicle model. # # @option params [required, String] :decoder_manifest_arn # The ARN of a decoder manifest. # # @option params [Hash] :attributes # Static information about a vehicle in a key-value pair. For example: # `"engineType"` : `"1.3 L R2"` # # A campaign must include the keys (attribute names) in # `dataExtraDimensions` for them to display in Amazon Timestream. # # @option params [String] :association_behavior # An option to create a new Amazon Web Services IoT thing when creating # a vehicle, or to validate an existing Amazon Web Services IoT thing as # a vehicle. # # Default: `` # # @option params [Array] :tags # Metadata that can be used to manage the vehicle. # # @return [Types::CreateVehicleResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateVehicleResponse#vehicle_name #vehicle_name} => String # * {Types::CreateVehicleResponse#arn #arn} => String # * {Types::CreateVehicleResponse#thing_arn #thing_arn} => String # # @example Request syntax with placeholder values # # resp = client.create_vehicle({ # vehicle_name: "vehicleName", # required # model_manifest_arn: "arn", # required # decoder_manifest_arn: "arn", # required # attributes: { # "attributeName" => "attributeValue", # }, # association_behavior: "CreateIotThing", # accepts CreateIotThing, ValidateIotThingExists # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.vehicle_name #=> String # resp.arn #=> String # resp.thing_arn #=> String # # @overload create_vehicle(params = {}) # @param [Hash] params ({}) def create_vehicle(params = {}, options = {}) req = build_request(:create_vehicle, params) req.send_request(options) end # Deletes a data collection campaign. Deleting a campaign suspends all # data collection and removes it from any vehicles. # # @option params [required, String] :name # The name of the campaign to delete. # # @return [Types::DeleteCampaignResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteCampaignResponse#name #name} => String # * {Types::DeleteCampaignResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.delete_campaign({ # name: "campaignName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload delete_campaign(params = {}) # @param [Hash] params ({}) def delete_campaign(params = {}, options = {}) req = build_request(:delete_campaign, params) req.send_request(options) end # Deletes a decoder manifest. You can't delete a decoder manifest if it # has vehicles associated with it. # # If the decoder manifest is successfully deleted, Amazon Web Services # IoT FleetWise sends back an HTTP 200 response with an empty body. # # # # @option params [required, String] :name # The name of the decoder manifest to delete. # # @return [Types::DeleteDecoderManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteDecoderManifestResponse#name #name} => String # * {Types::DeleteDecoderManifestResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.delete_decoder_manifest({ # name: "resourceName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload delete_decoder_manifest(params = {}) # @param [Hash] params ({}) def delete_decoder_manifest(params = {}, options = {}) req = build_request(:delete_decoder_manifest, params) req.send_request(options) end # Deletes a fleet. Before you delete a fleet, all vehicles must be # dissociated from the fleet. For more information, see [Delete a fleet # (AWS CLI)][1] in the *Amazon Web Services IoT FleetWise Developer # Guide*. # # If the fleet is successfully deleted, Amazon Web Services IoT # FleetWise sends back an HTTP 200 response with an empty body. # # # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/delete-fleet-cli.html # # @option params [required, String] :fleet_id # The ID of the fleet to delete. # # @return [Types::DeleteFleetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteFleetResponse#id #id} => String # * {Types::DeleteFleetResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.delete_fleet({ # fleet_id: "fleetId", # required # }) # # @example Response structure # # resp.id #=> String # resp.arn #=> String # # @overload delete_fleet(params = {}) # @param [Hash] params ({}) def delete_fleet(params = {}, options = {}) req = build_request(:delete_fleet, params) req.send_request(options) end # Deletes a vehicle model (model manifest). # # If the vehicle model is successfully deleted, Amazon Web Services IoT # FleetWise sends back an HTTP 200 response with an empty body. # # # # @option params [required, String] :name # The name of the model manifest to delete. # # @return [Types::DeleteModelManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteModelManifestResponse#name #name} => String # * {Types::DeleteModelManifestResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.delete_model_manifest({ # name: "resourceName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload delete_model_manifest(params = {}) # @param [Hash] params ({}) def delete_model_manifest(params = {}, options = {}) req = build_request(:delete_model_manifest, params) req.send_request(options) end # Deletes a signal catalog. # # If the signal catalog is successfully deleted, Amazon Web Services IoT # FleetWise sends back an HTTP 200 response with an empty body. # # # # @option params [required, String] :name # The name of the signal catalog to delete. # # @return [Types::DeleteSignalCatalogResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteSignalCatalogResponse#name #name} => String # * {Types::DeleteSignalCatalogResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.delete_signal_catalog({ # name: "resourceName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload delete_signal_catalog(params = {}) # @param [Hash] params ({}) def delete_signal_catalog(params = {}, options = {}) req = build_request(:delete_signal_catalog, params) req.send_request(options) end # Deletes a vehicle and removes it from any campaigns. # # If the vehicle is successfully deleted, Amazon Web Services IoT # FleetWise sends back an HTTP 200 response with an empty body. # # # # @option params [required, String] :vehicle_name # The ID of the vehicle to delete. # # @return [Types::DeleteVehicleResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::DeleteVehicleResponse#vehicle_name #vehicle_name} => String # * {Types::DeleteVehicleResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.delete_vehicle({ # vehicle_name: "vehicleName", # required # }) # # @example Response structure # # resp.vehicle_name #=> String # resp.arn #=> String # # @overload delete_vehicle(params = {}) # @param [Hash] params ({}) def delete_vehicle(params = {}, options = {}) req = build_request(:delete_vehicle, params) req.send_request(options) end # Removes, or disassociates, a vehicle from a fleet. Disassociating a # vehicle from a fleet doesn't delete the vehicle. # # If the vehicle is successfully dissociated from a fleet, Amazon Web # Services IoT FleetWise sends back an HTTP 200 response with an empty # body. # # # # @option params [required, String] :vehicle_name # The unique ID of the vehicle to disassociate from the fleet. # # @option params [required, String] :fleet_id # The unique ID of a fleet. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.disassociate_vehicle_fleet({ # vehicle_name: "vehicleName", # required # fleet_id: "fleetId", # required # }) # # @overload disassociate_vehicle_fleet(params = {}) # @param [Hash] params ({}) def disassociate_vehicle_fleet(params = {}, options = {}) req = build_request(:disassociate_vehicle_fleet, params) req.send_request(options) end # Retrieves information about a campaign. # # @option params [required, String] :name # The name of the campaign to retrieve information about. # # @return [Types::GetCampaignResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetCampaignResponse#name #name} => String # * {Types::GetCampaignResponse#arn #arn} => String # * {Types::GetCampaignResponse#description #description} => String # * {Types::GetCampaignResponse#signal_catalog_arn #signal_catalog_arn} => String # * {Types::GetCampaignResponse#target_arn #target_arn} => String # * {Types::GetCampaignResponse#status #status} => String # * {Types::GetCampaignResponse#start_time #start_time} => Time # * {Types::GetCampaignResponse#expiry_time #expiry_time} => Time # * {Types::GetCampaignResponse#post_trigger_collection_duration #post_trigger_collection_duration} => Integer # * {Types::GetCampaignResponse#diagnostics_mode #diagnostics_mode} => String # * {Types::GetCampaignResponse#spooling_mode #spooling_mode} => String # * {Types::GetCampaignResponse#compression #compression} => String # * {Types::GetCampaignResponse#priority #priority} => Integer # * {Types::GetCampaignResponse#signals_to_collect #signals_to_collect} => Array<Types::SignalInformation> # * {Types::GetCampaignResponse#collection_scheme #collection_scheme} => Types::CollectionScheme # * {Types::GetCampaignResponse#data_extra_dimensions #data_extra_dimensions} => Array<String> # * {Types::GetCampaignResponse#creation_time #creation_time} => Time # * {Types::GetCampaignResponse#last_modification_time #last_modification_time} => Time # * {Types::GetCampaignResponse#data_destination_configs #data_destination_configs} => Array<Types::DataDestinationConfig> # # @example Request syntax with placeholder values # # resp = client.get_campaign({ # name: "campaignName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # resp.description #=> String # resp.signal_catalog_arn #=> String # resp.target_arn #=> String # resp.status #=> String, one of "CREATING", "WAITING_FOR_APPROVAL", "RUNNING", "SUSPENDED" # resp.start_time #=> Time # resp.expiry_time #=> Time # resp.post_trigger_collection_duration #=> Integer # resp.diagnostics_mode #=> String, one of "OFF", "SEND_ACTIVE_DTCS" # resp.spooling_mode #=> String, one of "OFF", "TO_DISK" # resp.compression #=> String, one of "OFF", "SNAPPY" # resp.priority #=> Integer # resp.signals_to_collect #=> Array # resp.signals_to_collect[0].name #=> String # resp.signals_to_collect[0].max_sample_count #=> Integer # resp.signals_to_collect[0].minimum_sampling_interval_ms #=> Integer # resp.collection_scheme.time_based_collection_scheme.period_ms #=> Integer # resp.collection_scheme.condition_based_collection_scheme.expression #=> String # resp.collection_scheme.condition_based_collection_scheme.minimum_trigger_interval_ms #=> Integer # resp.collection_scheme.condition_based_collection_scheme.trigger_mode #=> String, one of "ALWAYS", "RISING_EDGE" # resp.collection_scheme.condition_based_collection_scheme.condition_language_version #=> Integer # resp.data_extra_dimensions #=> Array # resp.data_extra_dimensions[0] #=> String # resp.creation_time #=> Time # resp.last_modification_time #=> Time # resp.data_destination_configs #=> Array # resp.data_destination_configs[0].s3_config.bucket_arn #=> String # resp.data_destination_configs[0].s3_config.data_format #=> String, one of "JSON", "PARQUET" # resp.data_destination_configs[0].s3_config.storage_compression_format #=> String, one of "NONE", "GZIP" # resp.data_destination_configs[0].s3_config.prefix #=> String # resp.data_destination_configs[0].timestream_config.timestream_table_arn #=> String # resp.data_destination_configs[0].timestream_config.execution_role_arn #=> String # # @overload get_campaign(params = {}) # @param [Hash] params ({}) def get_campaign(params = {}, options = {}) req = build_request(:get_campaign, params) req.send_request(options) end # Retrieves information about a created decoder manifest. # # @option params [required, String] :name # The name of the decoder manifest to retrieve information about. # # @return [Types::GetDecoderManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetDecoderManifestResponse#name #name} => String # * {Types::GetDecoderManifestResponse#arn #arn} => String # * {Types::GetDecoderManifestResponse#description #description} => String # * {Types::GetDecoderManifestResponse#model_manifest_arn #model_manifest_arn} => String # * {Types::GetDecoderManifestResponse#status #status} => String # * {Types::GetDecoderManifestResponse#creation_time #creation_time} => Time # * {Types::GetDecoderManifestResponse#last_modification_time #last_modification_time} => Time # # @example Request syntax with placeholder values # # resp = client.get_decoder_manifest({ # name: "resourceName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # resp.description #=> String # resp.model_manifest_arn #=> String # resp.status #=> String, one of "ACTIVE", "DRAFT" # resp.creation_time #=> Time # resp.last_modification_time #=> Time # # @overload get_decoder_manifest(params = {}) # @param [Hash] params ({}) def get_decoder_manifest(params = {}, options = {}) req = build_request(:get_decoder_manifest, params) req.send_request(options) end # Retrieves information about a fleet. # # @option params [required, String] :fleet_id # The ID of the fleet to retrieve information about. # # @return [Types::GetFleetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetFleetResponse#id #id} => String # * {Types::GetFleetResponse#arn #arn} => String # * {Types::GetFleetResponse#description #description} => String # * {Types::GetFleetResponse#signal_catalog_arn #signal_catalog_arn} => String # * {Types::GetFleetResponse#creation_time #creation_time} => Time # * {Types::GetFleetResponse#last_modification_time #last_modification_time} => Time # # @example Request syntax with placeholder values # # resp = client.get_fleet({ # fleet_id: "fleetId", # required # }) # # @example Response structure # # resp.id #=> String # resp.arn #=> String # resp.description #=> String # resp.signal_catalog_arn #=> String # resp.creation_time #=> Time # resp.last_modification_time #=> Time # # @overload get_fleet(params = {}) # @param [Hash] params ({}) def get_fleet(params = {}, options = {}) req = build_request(:get_fleet, params) req.send_request(options) end # Retrieves the logging options. # # @return [Types::GetLoggingOptionsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetLoggingOptionsResponse#cloud_watch_log_delivery #cloud_watch_log_delivery} => Types::CloudWatchLogDeliveryOptions # # @example Response structure # # resp.cloud_watch_log_delivery.log_type #=> String, one of "OFF", "ERROR" # resp.cloud_watch_log_delivery.log_group_name #=> String # # @overload get_logging_options(params = {}) # @param [Hash] params ({}) def get_logging_options(params = {}, options = {}) req = build_request(:get_logging_options, params) req.send_request(options) end # Retrieves information about a vehicle model (model manifest). # # @option params [required, String] :name # The name of the vehicle model to retrieve information about. # # @return [Types::GetModelManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetModelManifestResponse#name #name} => String # * {Types::GetModelManifestResponse#arn #arn} => String # * {Types::GetModelManifestResponse#description #description} => String # * {Types::GetModelManifestResponse#signal_catalog_arn #signal_catalog_arn} => String # * {Types::GetModelManifestResponse#status #status} => String # * {Types::GetModelManifestResponse#creation_time #creation_time} => Time # * {Types::GetModelManifestResponse#last_modification_time #last_modification_time} => Time # # @example Request syntax with placeholder values # # resp = client.get_model_manifest({ # name: "resourceName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # resp.description #=> String # resp.signal_catalog_arn #=> String # resp.status #=> String, one of "ACTIVE", "DRAFT" # resp.creation_time #=> Time # resp.last_modification_time #=> Time # # @overload get_model_manifest(params = {}) # @param [Hash] params ({}) def get_model_manifest(params = {}, options = {}) req = build_request(:get_model_manifest, params) req.send_request(options) end # Retrieves information about the status of registering your Amazon Web # Services account, IAM, and Amazon Timestream resources so that Amazon # Web Services IoT FleetWise can transfer your vehicle data to the # Amazon Web Services Cloud. # # For more information, including step-by-step procedures, see [Setting # up Amazon Web Services IoT FleetWise][1]. # # This API operation doesn't require input parameters. # # # # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/developerguide/setting-up.html # # @return [Types::GetRegisterAccountStatusResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetRegisterAccountStatusResponse#customer_account_id #customer_account_id} => String # * {Types::GetRegisterAccountStatusResponse#account_status #account_status} => String # * {Types::GetRegisterAccountStatusResponse#timestream_registration_response #timestream_registration_response} => Types::TimestreamRegistrationResponse # * {Types::GetRegisterAccountStatusResponse#iam_registration_response #iam_registration_response} => Types::IamRegistrationResponse # * {Types::GetRegisterAccountStatusResponse#creation_time #creation_time} => Time # * {Types::GetRegisterAccountStatusResponse#last_modification_time #last_modification_time} => Time # # @example Response structure # # resp.customer_account_id #=> String # resp.account_status #=> String, one of "REGISTRATION_PENDING", "REGISTRATION_SUCCESS", "REGISTRATION_FAILURE" # resp.timestream_registration_response.timestream_database_name #=> String # resp.timestream_registration_response.timestream_table_name #=> String # resp.timestream_registration_response.timestream_database_arn #=> String # resp.timestream_registration_response.timestream_table_arn #=> String # resp.timestream_registration_response.registration_status #=> String, one of "REGISTRATION_PENDING", "REGISTRATION_SUCCESS", "REGISTRATION_FAILURE" # resp.timestream_registration_response.error_message #=> String # resp.iam_registration_response.role_arn #=> String # resp.iam_registration_response.registration_status #=> String, one of "REGISTRATION_PENDING", "REGISTRATION_SUCCESS", "REGISTRATION_FAILURE" # resp.iam_registration_response.error_message #=> String # resp.creation_time #=> Time # resp.last_modification_time #=> Time # # @overload get_register_account_status(params = {}) # @param [Hash] params ({}) def get_register_account_status(params = {}, options = {}) req = build_request(:get_register_account_status, params) req.send_request(options) end # Retrieves information about a signal catalog. # # @option params [required, String] :name # The name of the signal catalog to retrieve information about. # # @return [Types::GetSignalCatalogResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetSignalCatalogResponse#name #name} => String # * {Types::GetSignalCatalogResponse#arn #arn} => String # * {Types::GetSignalCatalogResponse#description #description} => String # * {Types::GetSignalCatalogResponse#node_counts #node_counts} => Types::NodeCounts # * {Types::GetSignalCatalogResponse#creation_time #creation_time} => Time # * {Types::GetSignalCatalogResponse#last_modification_time #last_modification_time} => Time # # @example Request syntax with placeholder values # # resp = client.get_signal_catalog({ # name: "resourceName", # required # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # resp.description #=> String # resp.node_counts.total_nodes #=> Integer # resp.node_counts.total_branches #=> Integer # resp.node_counts.total_sensors #=> Integer # resp.node_counts.total_attributes #=> Integer # resp.node_counts.total_actuators #=> Integer # resp.creation_time #=> Time # resp.last_modification_time #=> Time # # @overload get_signal_catalog(params = {}) # @param [Hash] params ({}) def get_signal_catalog(params = {}, options = {}) req = build_request(:get_signal_catalog, params) req.send_request(options) end # Retrieves information about a vehicle. # # @option params [required, String] :vehicle_name # The ID of the vehicle to retrieve information about. # # @return [Types::GetVehicleResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetVehicleResponse#vehicle_name #vehicle_name} => String # * {Types::GetVehicleResponse#arn #arn} => String # * {Types::GetVehicleResponse#model_manifest_arn #model_manifest_arn} => String # * {Types::GetVehicleResponse#decoder_manifest_arn #decoder_manifest_arn} => String # * {Types::GetVehicleResponse#attributes #attributes} => Hash<String,String> # * {Types::GetVehicleResponse#creation_time #creation_time} => Time # * {Types::GetVehicleResponse#last_modification_time #last_modification_time} => Time # # @example Request syntax with placeholder values # # resp = client.get_vehicle({ # vehicle_name: "vehicleName", # required # }) # # @example Response structure # # resp.vehicle_name #=> String # resp.arn #=> String # resp.model_manifest_arn #=> String # resp.decoder_manifest_arn #=> String # resp.attributes #=> Hash # resp.attributes["attributeName"] #=> String # resp.creation_time #=> Time # resp.last_modification_time #=> Time # # @overload get_vehicle(params = {}) # @param [Hash] params ({}) def get_vehicle(params = {}, options = {}) req = build_request(:get_vehicle, params) req.send_request(options) end # Retrieves information about the status of a vehicle with any # associated campaigns. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @option params [required, String] :vehicle_name # The ID of the vehicle to retrieve information about. # # @return [Types::GetVehicleStatusResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetVehicleStatusResponse#campaigns #campaigns} => Array<Types::VehicleStatus> # * {Types::GetVehicleStatusResponse#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.get_vehicle_status({ # next_token: "nextToken", # max_results: 1, # vehicle_name: "vehicleName", # required # }) # # @example Response structure # # resp.campaigns #=> Array # resp.campaigns[0].campaign_name #=> String # resp.campaigns[0].vehicle_name #=> String # resp.campaigns[0].status #=> String, one of "CREATED", "READY", "HEALTHY", "SUSPENDED", "DELETING" # resp.next_token #=> String # # @overload get_vehicle_status(params = {}) # @param [Hash] params ({}) def get_vehicle_status(params = {}, options = {}) req = build_request(:get_vehicle_status, params) req.send_request(options) end # Creates a decoder manifest using your existing CAN DBC file from your # local device. # # @option params [required, String] :name # The name of the decoder manifest to import. # # @option params [required, Array] :network_file_definitions # The file to load into an Amazon Web Services account. # # @return [Types::ImportDecoderManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ImportDecoderManifestResponse#name #name} => String # * {Types::ImportDecoderManifestResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.import_decoder_manifest({ # name: "resourceName", # required # network_file_definitions: [ # required # { # can_dbc: { # network_interface: "InterfaceId", # required # can_dbc_files: ["data"], # required # signals_map: { # "string" => "string", # }, # }, # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload import_decoder_manifest(params = {}) # @param [Hash] params ({}) def import_decoder_manifest(params = {}, options = {}) req = build_request(:import_decoder_manifest, params) req.send_request(options) end # Creates a signal catalog using your existing VSS formatted content # from your local device. # # @option params [required, String] :name # The name of the signal catalog to import. # # @option params [String] :description # A brief description of the signal catalog. # # @option params [Types::FormattedVss] :vss # The contents of the Vehicle Signal Specification (VSS) configuration. # VSS is a precise language used to describe and model signals in # vehicle networks. # # @option params [Array] :tags # Metadata that can be used to manage the signal catalog. # # @return [Types::ImportSignalCatalogResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ImportSignalCatalogResponse#name #name} => String # * {Types::ImportSignalCatalogResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.import_signal_catalog({ # name: "resourceName", # required # description: "description", # vss: { # vss_json: "String", # }, # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload import_signal_catalog(params = {}) # @param [Hash] params ({}) def import_signal_catalog(params = {}, options = {}) req = build_request(:import_signal_catalog, params) req.send_request(options) end # Lists information about created campaigns. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @option params [String] :status # Optional parameter to filter the results by the status of each created # campaign in your account. The status can be one of: `CREATING`, # `WAITING_FOR_APPROVAL`, `RUNNING`, or `SUSPENDED`. # # @return [Types::ListCampaignsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListCampaignsResponse#campaign_summaries #campaign_summaries} => Array<Types::CampaignSummary> # * {Types::ListCampaignsResponse#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_campaigns({ # next_token: "nextToken", # max_results: 1, # status: "status", # }) # # @example Response structure # # resp.campaign_summaries #=> Array # resp.campaign_summaries[0].arn #=> String # resp.campaign_summaries[0].name #=> String # resp.campaign_summaries[0].description #=> String # resp.campaign_summaries[0].signal_catalog_arn #=> String # resp.campaign_summaries[0].target_arn #=> String # resp.campaign_summaries[0].status #=> String, one of "CREATING", "WAITING_FOR_APPROVAL", "RUNNING", "SUSPENDED" # resp.campaign_summaries[0].creation_time #=> Time # resp.campaign_summaries[0].last_modification_time #=> Time # resp.next_token #=> String # # @overload list_campaigns(params = {}) # @param [Hash] params ({}) def list_campaigns(params = {}, options = {}) req = build_request(:list_campaigns, params) req.send_request(options) end # Lists the network interfaces specified in a decoder manifest. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [required, String] :name # The name of the decoder manifest to list information about. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListDecoderManifestNetworkInterfacesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListDecoderManifestNetworkInterfacesResponse#network_interfaces #network_interfaces} => Array<Types::NetworkInterface> # * {Types::ListDecoderManifestNetworkInterfacesResponse#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_decoder_manifest_network_interfaces({ # name: "resourceName", # required # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.network_interfaces #=> Array # resp.network_interfaces[0].interface_id #=> String # resp.network_interfaces[0].type #=> String, one of "CAN_INTERFACE", "OBD_INTERFACE" # resp.network_interfaces[0].can_interface.name #=> String # resp.network_interfaces[0].can_interface.protocol_name #=> String # resp.network_interfaces[0].can_interface.protocol_version #=> String # resp.network_interfaces[0].obd_interface.name #=> String # resp.network_interfaces[0].obd_interface.request_message_id #=> Integer # resp.network_interfaces[0].obd_interface.obd_standard #=> String # resp.network_interfaces[0].obd_interface.pid_request_interval_seconds #=> Integer # resp.network_interfaces[0].obd_interface.dtc_request_interval_seconds #=> Integer # resp.network_interfaces[0].obd_interface.use_extended_ids #=> Boolean # resp.network_interfaces[0].obd_interface.has_transmission_ecu #=> Boolean # resp.next_token #=> String # # @overload list_decoder_manifest_network_interfaces(params = {}) # @param [Hash] params ({}) def list_decoder_manifest_network_interfaces(params = {}, options = {}) req = build_request(:list_decoder_manifest_network_interfaces, params) req.send_request(options) end # A list of information about signal decoders specified in a decoder # manifest. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [required, String] :name # The name of the decoder manifest to list information about. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListDecoderManifestSignalsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListDecoderManifestSignalsResponse#signal_decoders #signal_decoders} => Array<Types::SignalDecoder> # * {Types::ListDecoderManifestSignalsResponse#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_decoder_manifest_signals({ # name: "resourceName", # required # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.signal_decoders #=> Array # resp.signal_decoders[0].fully_qualified_name #=> String # resp.signal_decoders[0].type #=> String, one of "CAN_SIGNAL", "OBD_SIGNAL" # resp.signal_decoders[0].interface_id #=> String # resp.signal_decoders[0].can_signal.message_id #=> Integer # resp.signal_decoders[0].can_signal.is_big_endian #=> Boolean # resp.signal_decoders[0].can_signal.is_signed #=> Boolean # resp.signal_decoders[0].can_signal.start_bit #=> Integer # resp.signal_decoders[0].can_signal.offset #=> Float # resp.signal_decoders[0].can_signal.factor #=> Float # resp.signal_decoders[0].can_signal.length #=> Integer # resp.signal_decoders[0].can_signal.name #=> String # resp.signal_decoders[0].obd_signal.pid_response_length #=> Integer # resp.signal_decoders[0].obd_signal.service_mode #=> Integer # resp.signal_decoders[0].obd_signal.pid #=> Integer # resp.signal_decoders[0].obd_signal.scaling #=> Float # resp.signal_decoders[0].obd_signal.offset #=> Float # resp.signal_decoders[0].obd_signal.start_byte #=> Integer # resp.signal_decoders[0].obd_signal.byte_length #=> Integer # resp.signal_decoders[0].obd_signal.bit_right_shift #=> Integer # resp.signal_decoders[0].obd_signal.bit_mask_length #=> Integer # resp.next_token #=> String # # @overload list_decoder_manifest_signals(params = {}) # @param [Hash] params ({}) def list_decoder_manifest_signals(params = {}, options = {}) req = build_request(:list_decoder_manifest_signals, params) req.send_request(options) end # Lists decoder manifests. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [String] :model_manifest_arn # The Amazon Resource Name (ARN) of a vehicle model (model manifest) # associated with the decoder manifest. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListDecoderManifestsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListDecoderManifestsResponse#summaries #summaries} => Array<Types::DecoderManifestSummary> # * {Types::ListDecoderManifestsResponse#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_decoder_manifests({ # model_manifest_arn: "arn", # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.summaries #=> Array # resp.summaries[0].name #=> String # resp.summaries[0].arn #=> String # resp.summaries[0].model_manifest_arn #=> String # resp.summaries[0].description #=> String # resp.summaries[0].status #=> String, one of "ACTIVE", "DRAFT" # resp.summaries[0].creation_time #=> Time # resp.summaries[0].last_modification_time #=> Time # resp.next_token #=> String # # @overload list_decoder_manifests(params = {}) # @param [Hash] params ({}) def list_decoder_manifests(params = {}, options = {}) req = build_request(:list_decoder_manifests, params) req.send_request(options) end # Retrieves information for each created fleet in an Amazon Web Services # account. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListFleetsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListFleetsResponse#fleet_summaries #fleet_summaries} => Array<Types::FleetSummary> # * {Types::ListFleetsResponse#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_fleets({ # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.fleet_summaries #=> Array # resp.fleet_summaries[0].id #=> String # resp.fleet_summaries[0].arn #=> String # resp.fleet_summaries[0].description #=> String # resp.fleet_summaries[0].signal_catalog_arn #=> String # resp.fleet_summaries[0].creation_time #=> Time # resp.fleet_summaries[0].last_modification_time #=> Time # resp.next_token #=> String # # @overload list_fleets(params = {}) # @param [Hash] params ({}) def list_fleets(params = {}, options = {}) req = build_request(:list_fleets, params) req.send_request(options) end # Retrieves a list of IDs for all fleets that the vehicle is associated # with. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [required, String] :vehicle_name # The ID of the vehicle to retrieve information about. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListFleetsForVehicleResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListFleetsForVehicleResponse#fleets #fleets} => Array<String> # * {Types::ListFleetsForVehicleResponse#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_fleets_for_vehicle({ # vehicle_name: "vehicleName", # required # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.fleets #=> Array # resp.fleets[0] #=> String # resp.next_token #=> String # # @overload list_fleets_for_vehicle(params = {}) # @param [Hash] params ({}) def list_fleets_for_vehicle(params = {}, options = {}) req = build_request(:list_fleets_for_vehicle, params) req.send_request(options) end # Lists information about nodes specified in a vehicle model (model # manifest). # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [required, String] :name # The name of the vehicle model to list information about. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListModelManifestNodesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListModelManifestNodesResponse#nodes #nodes} => Array<Types::Node> # * {Types::ListModelManifestNodesResponse#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_model_manifest_nodes({ # name: "resourceName", # required # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.nodes #=> Array # resp.nodes[0].branch.fully_qualified_name #=> String # resp.nodes[0].branch.description #=> String # resp.nodes[0].branch.deprecation_message #=> String # resp.nodes[0].branch.comment #=> String # resp.nodes[0].sensor.fully_qualified_name #=> String # resp.nodes[0].sensor.data_type #=> String, one of "INT8", "UINT8", "INT16", "UINT16", "INT32", "UINT32", "INT64", "UINT64", "BOOLEAN", "FLOAT", "DOUBLE", "STRING", "UNIX_TIMESTAMP", "INT8_ARRAY", "UINT8_ARRAY", "INT16_ARRAY", "UINT16_ARRAY", "INT32_ARRAY", "UINT32_ARRAY", "INT64_ARRAY", "UINT64_ARRAY", "BOOLEAN_ARRAY", "FLOAT_ARRAY", "DOUBLE_ARRAY", "STRING_ARRAY", "UNIX_TIMESTAMP_ARRAY", "UNKNOWN" # resp.nodes[0].sensor.description #=> String # resp.nodes[0].sensor.unit #=> String # resp.nodes[0].sensor.allowed_values #=> Array # resp.nodes[0].sensor.allowed_values[0] #=> String # resp.nodes[0].sensor.min #=> Float # resp.nodes[0].sensor.max #=> Float # resp.nodes[0].sensor.deprecation_message #=> String # resp.nodes[0].sensor.comment #=> String # resp.nodes[0].actuator.fully_qualified_name #=> String # resp.nodes[0].actuator.data_type #=> String, one of "INT8", "UINT8", "INT16", "UINT16", "INT32", "UINT32", "INT64", "UINT64", "BOOLEAN", "FLOAT", "DOUBLE", "STRING", "UNIX_TIMESTAMP", "INT8_ARRAY", "UINT8_ARRAY", "INT16_ARRAY", "UINT16_ARRAY", "INT32_ARRAY", "UINT32_ARRAY", "INT64_ARRAY", "UINT64_ARRAY", "BOOLEAN_ARRAY", "FLOAT_ARRAY", "DOUBLE_ARRAY", "STRING_ARRAY", "UNIX_TIMESTAMP_ARRAY", "UNKNOWN" # resp.nodes[0].actuator.description #=> String # resp.nodes[0].actuator.unit #=> String # resp.nodes[0].actuator.allowed_values #=> Array # resp.nodes[0].actuator.allowed_values[0] #=> String # resp.nodes[0].actuator.min #=> Float # resp.nodes[0].actuator.max #=> Float # resp.nodes[0].actuator.assigned_value #=> String # resp.nodes[0].actuator.deprecation_message #=> String # resp.nodes[0].actuator.comment #=> String # resp.nodes[0].attribute.fully_qualified_name #=> String # resp.nodes[0].attribute.data_type #=> String, one of "INT8", "UINT8", "INT16", "UINT16", "INT32", "UINT32", "INT64", "UINT64", "BOOLEAN", "FLOAT", "DOUBLE", "STRING", "UNIX_TIMESTAMP", "INT8_ARRAY", "UINT8_ARRAY", "INT16_ARRAY", "UINT16_ARRAY", "INT32_ARRAY", "UINT32_ARRAY", "INT64_ARRAY", "UINT64_ARRAY", "BOOLEAN_ARRAY", "FLOAT_ARRAY", "DOUBLE_ARRAY", "STRING_ARRAY", "UNIX_TIMESTAMP_ARRAY", "UNKNOWN" # resp.nodes[0].attribute.description #=> String # resp.nodes[0].attribute.unit #=> String # resp.nodes[0].attribute.allowed_values #=> Array # resp.nodes[0].attribute.allowed_values[0] #=> String # resp.nodes[0].attribute.min #=> Float # resp.nodes[0].attribute.max #=> Float # resp.nodes[0].attribute.assigned_value #=> String # resp.nodes[0].attribute.default_value #=> String # resp.nodes[0].attribute.deprecation_message #=> String # resp.nodes[0].attribute.comment #=> String # resp.next_token #=> String # # @overload list_model_manifest_nodes(params = {}) # @param [Hash] params ({}) def list_model_manifest_nodes(params = {}, options = {}) req = build_request(:list_model_manifest_nodes, params) req.send_request(options) end # Retrieves a list of vehicle models (model manifests). # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [String] :signal_catalog_arn # The ARN of a signal catalog. If you specify a signal catalog, only the # vehicle models associated with it are returned. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListModelManifestsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListModelManifestsResponse#summaries #summaries} => Array<Types::ModelManifestSummary> # * {Types::ListModelManifestsResponse#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_model_manifests({ # signal_catalog_arn: "arn", # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.summaries #=> Array # resp.summaries[0].name #=> String # resp.summaries[0].arn #=> String # resp.summaries[0].signal_catalog_arn #=> String # resp.summaries[0].description #=> String # resp.summaries[0].status #=> String, one of "ACTIVE", "DRAFT" # resp.summaries[0].creation_time #=> Time # resp.summaries[0].last_modification_time #=> Time # resp.next_token #=> String # # @overload list_model_manifests(params = {}) # @param [Hash] params ({}) def list_model_manifests(params = {}, options = {}) req = build_request(:list_model_manifests, params) req.send_request(options) end # Lists of information about the signals (nodes) specified in a signal # catalog. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [required, String] :name # The name of the signal catalog to list information about. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListSignalCatalogNodesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListSignalCatalogNodesResponse#nodes #nodes} => Array<Types::Node> # * {Types::ListSignalCatalogNodesResponse#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_signal_catalog_nodes({ # name: "resourceName", # required # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.nodes #=> Array # resp.nodes[0].branch.fully_qualified_name #=> String # resp.nodes[0].branch.description #=> String # resp.nodes[0].branch.deprecation_message #=> String # resp.nodes[0].branch.comment #=> String # resp.nodes[0].sensor.fully_qualified_name #=> String # resp.nodes[0].sensor.data_type #=> String, one of "INT8", "UINT8", "INT16", "UINT16", "INT32", "UINT32", "INT64", "UINT64", "BOOLEAN", "FLOAT", "DOUBLE", "STRING", "UNIX_TIMESTAMP", "INT8_ARRAY", "UINT8_ARRAY", "INT16_ARRAY", "UINT16_ARRAY", "INT32_ARRAY", "UINT32_ARRAY", "INT64_ARRAY", "UINT64_ARRAY", "BOOLEAN_ARRAY", "FLOAT_ARRAY", "DOUBLE_ARRAY", "STRING_ARRAY", "UNIX_TIMESTAMP_ARRAY", "UNKNOWN" # resp.nodes[0].sensor.description #=> String # resp.nodes[0].sensor.unit #=> String # resp.nodes[0].sensor.allowed_values #=> Array # resp.nodes[0].sensor.allowed_values[0] #=> String # resp.nodes[0].sensor.min #=> Float # resp.nodes[0].sensor.max #=> Float # resp.nodes[0].sensor.deprecation_message #=> String # resp.nodes[0].sensor.comment #=> String # resp.nodes[0].actuator.fully_qualified_name #=> String # resp.nodes[0].actuator.data_type #=> String, one of "INT8", "UINT8", "INT16", "UINT16", "INT32", "UINT32", "INT64", "UINT64", "BOOLEAN", "FLOAT", "DOUBLE", "STRING", "UNIX_TIMESTAMP", "INT8_ARRAY", "UINT8_ARRAY", "INT16_ARRAY", "UINT16_ARRAY", "INT32_ARRAY", "UINT32_ARRAY", "INT64_ARRAY", "UINT64_ARRAY", "BOOLEAN_ARRAY", "FLOAT_ARRAY", "DOUBLE_ARRAY", "STRING_ARRAY", "UNIX_TIMESTAMP_ARRAY", "UNKNOWN" # resp.nodes[0].actuator.description #=> String # resp.nodes[0].actuator.unit #=> String # resp.nodes[0].actuator.allowed_values #=> Array # resp.nodes[0].actuator.allowed_values[0] #=> String # resp.nodes[0].actuator.min #=> Float # resp.nodes[0].actuator.max #=> Float # resp.nodes[0].actuator.assigned_value #=> String # resp.nodes[0].actuator.deprecation_message #=> String # resp.nodes[0].actuator.comment #=> String # resp.nodes[0].attribute.fully_qualified_name #=> String # resp.nodes[0].attribute.data_type #=> String, one of "INT8", "UINT8", "INT16", "UINT16", "INT32", "UINT32", "INT64", "UINT64", "BOOLEAN", "FLOAT", "DOUBLE", "STRING", "UNIX_TIMESTAMP", "INT8_ARRAY", "UINT8_ARRAY", "INT16_ARRAY", "UINT16_ARRAY", "INT32_ARRAY", "UINT32_ARRAY", "INT64_ARRAY", "UINT64_ARRAY", "BOOLEAN_ARRAY", "FLOAT_ARRAY", "DOUBLE_ARRAY", "STRING_ARRAY", "UNIX_TIMESTAMP_ARRAY", "UNKNOWN" # resp.nodes[0].attribute.description #=> String # resp.nodes[0].attribute.unit #=> String # resp.nodes[0].attribute.allowed_values #=> Array # resp.nodes[0].attribute.allowed_values[0] #=> String # resp.nodes[0].attribute.min #=> Float # resp.nodes[0].attribute.max #=> Float # resp.nodes[0].attribute.assigned_value #=> String # resp.nodes[0].attribute.default_value #=> String # resp.nodes[0].attribute.deprecation_message #=> String # resp.nodes[0].attribute.comment #=> String # resp.next_token #=> String # # @overload list_signal_catalog_nodes(params = {}) # @param [Hash] params ({}) def list_signal_catalog_nodes(params = {}, options = {}) req = build_request(:list_signal_catalog_nodes, params) req.send_request(options) end # Lists all the created signal catalogs in an Amazon Web Services # account. # # You can use to list information about each signal (node) specified in # a signal catalog. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListSignalCatalogsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListSignalCatalogsResponse#summaries #summaries} => Array<Types::SignalCatalogSummary> # * {Types::ListSignalCatalogsResponse#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_signal_catalogs({ # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.summaries #=> Array # resp.summaries[0].name #=> String # resp.summaries[0].arn #=> String # resp.summaries[0].creation_time #=> Time # resp.summaries[0].last_modification_time #=> Time # resp.next_token #=> String # # @overload list_signal_catalogs(params = {}) # @param [Hash] params ({}) def list_signal_catalogs(params = {}, options = {}) req = build_request(:list_signal_catalogs, params) req.send_request(options) end # Lists the tags (metadata) you have assigned to the resource. # # @option params [required, String] :resource_arn # The ARN of the resource. # # @return [Types::ListTagsForResourceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListTagsForResourceResponse#tags #tags} => Array<Types::Tag> # # @example Request syntax with placeholder values # # resp = client.list_tags_for_resource({ # resource_arn: "AmazonResourceName", # required # }) # # @example Response structure # # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # # @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 # Retrieves a list of summaries of created vehicles. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [String] :model_manifest_arn # The Amazon Resource Name (ARN) of a vehicle model (model manifest). # You can use this optional parameter to list only the vehicles created # from a certain vehicle model. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListVehiclesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListVehiclesResponse#vehicle_summaries #vehicle_summaries} => Array<Types::VehicleSummary> # * {Types::ListVehiclesResponse#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_vehicles({ # model_manifest_arn: "arn", # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.vehicle_summaries #=> Array # resp.vehicle_summaries[0].vehicle_name #=> String # resp.vehicle_summaries[0].arn #=> String # resp.vehicle_summaries[0].model_manifest_arn #=> String # resp.vehicle_summaries[0].decoder_manifest_arn #=> String # resp.vehicle_summaries[0].creation_time #=> Time # resp.vehicle_summaries[0].last_modification_time #=> Time # resp.next_token #=> String # # @overload list_vehicles(params = {}) # @param [Hash] params ({}) def list_vehicles(params = {}, options = {}) req = build_request(:list_vehicles, params) req.send_request(options) end # Retrieves a list of summaries of all vehicles associated with a fleet. # # This API operation uses pagination. Specify the `nextToken` parameter # in the request to return more results. # # # # @option params [required, String] :fleet_id # The ID of a fleet. # # @option params [String] :next_token # A pagination token for the next set of results. # # If the results of a search are large, only a portion of the results # are returned, and a `nextToken` pagination token is returned in the # response. To retrieve the next set of results, reissue the search # request and include the returned token. When all results have been # returned, the response does not contain a pagination token value. # # @option params [Integer] :max_results # The maximum number of items to return, between 1 and 100, inclusive. # # @return [Types::ListVehiclesInFleetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListVehiclesInFleetResponse#vehicles #vehicles} => Array<String> # * {Types::ListVehiclesInFleetResponse#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_vehicles_in_fleet({ # fleet_id: "fleetId", # required # next_token: "nextToken", # max_results: 1, # }) # # @example Response structure # # resp.vehicles #=> Array # resp.vehicles[0] #=> String # resp.next_token #=> String # # @overload list_vehicles_in_fleet(params = {}) # @param [Hash] params ({}) def list_vehicles_in_fleet(params = {}, options = {}) req = build_request(:list_vehicles_in_fleet, params) req.send_request(options) end # Creates or updates the logging option. # # @option params [required, Types::CloudWatchLogDeliveryOptions] :cloud_watch_log_delivery # Creates or updates the log delivery option to Amazon CloudWatch Logs. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.put_logging_options({ # cloud_watch_log_delivery: { # required # log_type: "OFF", # required, accepts OFF, ERROR # log_group_name: "CloudWatchLogGroupName", # }, # }) # # @overload put_logging_options(params = {}) # @param [Hash] params ({}) def put_logging_options(params = {}, options = {}) req = build_request(:put_logging_options, params) req.send_request(options) end # This API operation contains deprecated parameters. Register your # account again without the Timestream resources parameter so that # Amazon Web Services IoT FleetWise can remove the Timestream metadata # stored. You should then pass the data destination into the # [CreateCampaign][1] API operation. # # You must delete any existing campaigns that include an empty data # destination before you register your account again. For more # information, see the [DeleteCampaign][2] API operation. # # If you want to delete the Timestream inline policy from the # service-linked role, such as to mitigate an overly permissive policy, # you must first delete any existing campaigns. Then delete the # service-linked role and register your account again to enable # CloudWatch metrics. For more information, see # [DeleteServiceLinkedRole][3] in the *Identity and Access Management # API Reference*. # #

Registers your Amazon Web Services account, IAM, and Amazon Timestream resources so Amazon Web Services IoT FleetWise can transfer your vehicle data to the Amazon Web Services Cloud. For more information, including step-by-step procedures, see Setting up Amazon Web Services IoT FleetWise.

An Amazon Web Services account is not the same thing as a "user." An Amazon Web Services user is an identity that you create using Identity and Access Management (IAM) and takes the form of either an IAM user or an IAM role, both with credentials. A single Amazon Web Services account can, and typically does, contain many users and roles.

# # # # [1]: https://docs.aws.amazon.com/iot-fleetwise/latest/APIReference/API_CreateCampaign.html # [2]: https://docs.aws.amazon.com/iot-fleetwise/latest/APIReference/API_DeleteCampaign.html # [3]: https://docs.aws.amazon.com/IAM/latest/APIReference/API_DeleteServiceLinkedRole.html # # @option params [Types::TimestreamResources] :timestream_resources # The registered Amazon Timestream resources that Amazon Web Services # IoT FleetWise edge agent software can transfer your vehicle data to. # # @option params [Types::IamResources] :iam_resources # The IAM resource that allows Amazon Web Services IoT FleetWise to send # data to Amazon Timestream. # # @return [Types::RegisterAccountResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::RegisterAccountResponse#register_account_status #register_account_status} => String # * {Types::RegisterAccountResponse#timestream_resources #timestream_resources} => Types::TimestreamResources # * {Types::RegisterAccountResponse#iam_resources #iam_resources} => Types::IamResources # * {Types::RegisterAccountResponse#creation_time #creation_time} => Time # * {Types::RegisterAccountResponse#last_modification_time #last_modification_time} => Time # # @example Request syntax with placeholder values # # resp = client.register_account({ # timestream_resources: { # timestream_database_name: "TimestreamDatabaseName", # required # timestream_table_name: "TimestreamTableName", # required # }, # iam_resources: { # role_arn: "IAMRoleArn", # required # }, # }) # # @example Response structure # # resp.register_account_status #=> String, one of "REGISTRATION_PENDING", "REGISTRATION_SUCCESS", "REGISTRATION_FAILURE" # resp.timestream_resources.timestream_database_name #=> String # resp.timestream_resources.timestream_table_name #=> String # resp.iam_resources.role_arn #=> String # resp.creation_time #=> Time # resp.last_modification_time #=> Time # # @overload register_account(params = {}) # @param [Hash] params ({}) def register_account(params = {}, options = {}) req = build_request(:register_account, params) req.send_request(options) end # Adds to or modifies the tags of the given resource. Tags are metadata # which can be used to manage a resource. # # @option params [required, String] :resource_arn # The ARN of the resource. # # @option params [required, Array] :tags # The new or modified tags for the resource. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.tag_resource({ # resource_arn: "AmazonResourceName", # required # tags: [ # required # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @overload tag_resource(params = {}) # @param [Hash] params ({}) def tag_resource(params = {}, options = {}) req = build_request(:tag_resource, params) req.send_request(options) end # Removes the given tags (metadata) from the resource. # # @option params [required, String] :resource_arn # The ARN of the resource. # # @option params [required, Array] :tag_keys # A list of the keys of the tags to be removed from the resource. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.untag_resource({ # resource_arn: "AmazonResourceName", # required # tag_keys: ["TagKey"], # required # }) # # @overload untag_resource(params = {}) # @param [Hash] params ({}) def untag_resource(params = {}, options = {}) req = build_request(:untag_resource, params) req.send_request(options) end # Updates a campaign. # # @option params [required, String] :name # The name of the campaign to update. # # @option params [String] :description # The description of the campaign. # # @option params [Array] :data_extra_dimensions # A list of vehicle attributes to associate with a signal. # # Default: An empty array # # @option params [required, String] :action # Specifies how to update a campaign. The action can be one of the # following: # # * `APPROVE` - To approve delivering a data collection scheme to # vehicles. # # * `SUSPEND` - To suspend collecting signal data. The campaign is # deleted from vehicles and all vehicles in the suspended campaign # will stop sending data. # # * `RESUME` - To reactivate the `SUSPEND` campaign. The campaign is # redeployed to all vehicles and the vehicles will resume sending # data. # # * `UPDATE` - To update a campaign. # # @return [Types::UpdateCampaignResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateCampaignResponse#arn #arn} => String # * {Types::UpdateCampaignResponse#name #name} => String # * {Types::UpdateCampaignResponse#status #status} => String # # @example Request syntax with placeholder values # # resp = client.update_campaign({ # name: "campaignName", # required # description: "description", # data_extra_dimensions: ["NodePath"], # action: "APPROVE", # required, accepts APPROVE, SUSPEND, RESUME, UPDATE # }) # # @example Response structure # # resp.arn #=> String # resp.name #=> String # resp.status #=> String, one of "CREATING", "WAITING_FOR_APPROVAL", "RUNNING", "SUSPENDED" # # @overload update_campaign(params = {}) # @param [Hash] params ({}) def update_campaign(params = {}, options = {}) req = build_request(:update_campaign, params) req.send_request(options) end # Updates a decoder manifest. # # A decoder manifest can only be updated when the status is `DRAFT`. # Only `ACTIVE` decoder manifests can be associated with vehicles. # # @option params [required, String] :name # The name of the decoder manifest to update. # # @option params [String] :description # A brief description of the decoder manifest to update. # # @option params [Array] :signal_decoders_to_add # A list of information about decoding additional signals to add to the # decoder manifest. # # @option params [Array] :signal_decoders_to_update # A list of updated information about decoding signals to update in the # decoder manifest. # # @option params [Array] :signal_decoders_to_remove # A list of signal decoders to remove from the decoder manifest. # # @option params [Array] :network_interfaces_to_add # A list of information about the network interfaces to add to the # decoder manifest. # # @option params [Array] :network_interfaces_to_update # A list of information about the network interfaces to update in the # decoder manifest. # # @option params [Array] :network_interfaces_to_remove # A list of network interfaces to remove from the decoder manifest. # # @option params [String] :status # The state of the decoder manifest. If the status is `ACTIVE`, the # decoder manifest can't be edited. If the status is `DRAFT`, you can # edit the decoder manifest. # # @return [Types::UpdateDecoderManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateDecoderManifestResponse#name #name} => String # * {Types::UpdateDecoderManifestResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.update_decoder_manifest({ # name: "resourceName", # required # description: "description", # signal_decoders_to_add: [ # { # fully_qualified_name: "FullyQualifiedName", # required # type: "CAN_SIGNAL", # required, accepts CAN_SIGNAL, OBD_SIGNAL # interface_id: "InterfaceId", # required # can_signal: { # message_id: 1, # required # is_big_endian: false, # required # is_signed: false, # required # start_bit: 1, # required # offset: 1.0, # required # factor: 1.0, # required # length: 1, # required # name: "CanSignalName", # }, # obd_signal: { # pid_response_length: 1, # required # service_mode: 1, # required # pid: 1, # required # scaling: 1.0, # required # offset: 1.0, # required # start_byte: 1, # required # byte_length: 1, # required # bit_right_shift: 1, # bit_mask_length: 1, # }, # }, # ], # signal_decoders_to_update: [ # { # fully_qualified_name: "FullyQualifiedName", # required # type: "CAN_SIGNAL", # required, accepts CAN_SIGNAL, OBD_SIGNAL # interface_id: "InterfaceId", # required # can_signal: { # message_id: 1, # required # is_big_endian: false, # required # is_signed: false, # required # start_bit: 1, # required # offset: 1.0, # required # factor: 1.0, # required # length: 1, # required # name: "CanSignalName", # }, # obd_signal: { # pid_response_length: 1, # required # service_mode: 1, # required # pid: 1, # required # scaling: 1.0, # required # offset: 1.0, # required # start_byte: 1, # required # byte_length: 1, # required # bit_right_shift: 1, # bit_mask_length: 1, # }, # }, # ], # signal_decoders_to_remove: ["FullyQualifiedName"], # network_interfaces_to_add: [ # { # interface_id: "InterfaceId", # required # type: "CAN_INTERFACE", # required, accepts CAN_INTERFACE, OBD_INTERFACE # can_interface: { # name: "CanInterfaceName", # required # protocol_name: "ProtocolName", # protocol_version: "ProtocolVersion", # }, # obd_interface: { # name: "ObdInterfaceName", # required # request_message_id: 1, # required # obd_standard: "ObdStandard", # pid_request_interval_seconds: 1, # dtc_request_interval_seconds: 1, # use_extended_ids: false, # has_transmission_ecu: false, # }, # }, # ], # network_interfaces_to_update: [ # { # interface_id: "InterfaceId", # required # type: "CAN_INTERFACE", # required, accepts CAN_INTERFACE, OBD_INTERFACE # can_interface: { # name: "CanInterfaceName", # required # protocol_name: "ProtocolName", # protocol_version: "ProtocolVersion", # }, # obd_interface: { # name: "ObdInterfaceName", # required # request_message_id: 1, # required # obd_standard: "ObdStandard", # pid_request_interval_seconds: 1, # dtc_request_interval_seconds: 1, # use_extended_ids: false, # has_transmission_ecu: false, # }, # }, # ], # network_interfaces_to_remove: ["InterfaceId"], # status: "ACTIVE", # accepts ACTIVE, DRAFT # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload update_decoder_manifest(params = {}) # @param [Hash] params ({}) def update_decoder_manifest(params = {}, options = {}) req = build_request(:update_decoder_manifest, params) req.send_request(options) end # Updates the description of an existing fleet. # # If the fleet is successfully updated, Amazon Web Services IoT # FleetWise sends back an HTTP 200 response with an empty HTTP body. # # # # @option params [required, String] :fleet_id # The ID of the fleet to update. # # @option params [String] :description # An updated description of the fleet. # # @return [Types::UpdateFleetResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateFleetResponse#id #id} => String # * {Types::UpdateFleetResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.update_fleet({ # fleet_id: "fleetId", # required # description: "description", # }) # # @example Response structure # # resp.id #=> String # resp.arn #=> String # # @overload update_fleet(params = {}) # @param [Hash] params ({}) def update_fleet(params = {}, options = {}) req = build_request(:update_fleet, params) req.send_request(options) end # Updates a vehicle model (model manifest). If created vehicles are # associated with a vehicle model, it can't be updated. # # @option params [required, String] :name # The name of the vehicle model to update. # # @option params [String] :description # A brief description of the vehicle model. # # @option params [Array] :nodes_to_add # A list of `fullyQualifiedName` of nodes, which are a general # abstraction of signals, to add to the vehicle model. # # @option params [Array] :nodes_to_remove # A list of `fullyQualifiedName` of nodes, which are a general # abstraction of signals, to remove from the vehicle model. # # @option params [String] :status # The state of the vehicle model. If the status is `ACTIVE`, the vehicle # model can't be edited. If the status is `DRAFT`, you can edit the # vehicle model. # # @return [Types::UpdateModelManifestResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateModelManifestResponse#name #name} => String # * {Types::UpdateModelManifestResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.update_model_manifest({ # name: "resourceName", # required # description: "description", # nodes_to_add: ["NodePath"], # nodes_to_remove: ["NodePath"], # status: "ACTIVE", # accepts ACTIVE, DRAFT # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload update_model_manifest(params = {}) # @param [Hash] params ({}) def update_model_manifest(params = {}, options = {}) req = build_request(:update_model_manifest, params) req.send_request(options) end # Updates a signal catalog. # # @option params [required, String] :name # The name of the signal catalog to update. # # @option params [String] :description # A brief description of the signal catalog to update. # # @option params [Array] :nodes_to_add # A list of information about nodes to add to the signal catalog. # # @option params [Array] :nodes_to_update # A list of information about nodes to update in the signal catalog. # # @option params [Array] :nodes_to_remove # A list of `fullyQualifiedName` of nodes to remove from the signal # catalog. # # @return [Types::UpdateSignalCatalogResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateSignalCatalogResponse#name #name} => String # * {Types::UpdateSignalCatalogResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.update_signal_catalog({ # name: "resourceName", # required # description: "description", # nodes_to_add: [ # { # branch: { # fully_qualified_name: "string", # required # description: "description", # deprecation_message: "message", # comment: "message", # }, # sensor: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # deprecation_message: "message", # comment: "message", # }, # actuator: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # assigned_value: "string", # deprecation_message: "message", # comment: "message", # }, # attribute: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # assigned_value: "string", # default_value: "string", # deprecation_message: "message", # comment: "message", # }, # }, # ], # nodes_to_update: [ # { # branch: { # fully_qualified_name: "string", # required # description: "description", # deprecation_message: "message", # comment: "message", # }, # sensor: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # deprecation_message: "message", # comment: "message", # }, # actuator: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # assigned_value: "string", # deprecation_message: "message", # comment: "message", # }, # attribute: { # fully_qualified_name: "string", # required # data_type: "INT8", # required, accepts INT8, UINT8, INT16, UINT16, INT32, UINT32, INT64, UINT64, BOOLEAN, FLOAT, DOUBLE, STRING, UNIX_TIMESTAMP, INT8_ARRAY, UINT8_ARRAY, INT16_ARRAY, UINT16_ARRAY, INT32_ARRAY, UINT32_ARRAY, INT64_ARRAY, UINT64_ARRAY, BOOLEAN_ARRAY, FLOAT_ARRAY, DOUBLE_ARRAY, STRING_ARRAY, UNIX_TIMESTAMP_ARRAY, UNKNOWN # description: "description", # unit: "string", # allowed_values: ["string"], # min: 1.0, # max: 1.0, # assigned_value: "string", # default_value: "string", # deprecation_message: "message", # comment: "message", # }, # }, # ], # nodes_to_remove: ["NodePath"], # }) # # @example Response structure # # resp.name #=> String # resp.arn #=> String # # @overload update_signal_catalog(params = {}) # @param [Hash] params ({}) def update_signal_catalog(params = {}, options = {}) req = build_request(:update_signal_catalog, params) req.send_request(options) end # Updates a vehicle. # # @option params [required, String] :vehicle_name # The unique ID of the vehicle to update. # # @option params [String] :model_manifest_arn # The ARN of a vehicle model (model manifest) associated with the # vehicle. # # @option params [String] :decoder_manifest_arn # The ARN of the decoder manifest associated with this vehicle. # # @option params [Hash] :attributes # Static information about a vehicle in a key-value pair. For example: # # `"engineType"` : `"1.3 L R2"` # # @option params [String] :attribute_update_mode # The method the specified attributes will update the existing # attributes on the vehicle. Use`Overwite` to replace the vehicle # attributes with the specified attributes. Or use `Merge` to combine # all attributes. # # This is required if attributes are present in the input. # # @return [Types::UpdateVehicleResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::UpdateVehicleResponse#vehicle_name #vehicle_name} => String # * {Types::UpdateVehicleResponse#arn #arn} => String # # @example Request syntax with placeholder values # # resp = client.update_vehicle({ # vehicle_name: "vehicleName", # required # model_manifest_arn: "arn", # decoder_manifest_arn: "arn", # attributes: { # "attributeName" => "attributeValue", # }, # attribute_update_mode: "Overwrite", # accepts Overwrite, Merge # }) # # @example Response structure # # resp.vehicle_name #=> String # resp.arn #=> String # # @overload update_vehicle(params = {}) # @param [Hash] params ({}) def update_vehicle(params = {}, options = {}) req = build_request(:update_vehicle, 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-iotfleetwise' context[:gem_version] = '1.9.0' Seahorse::Client::Request.new(handlers, context) end # @api private # @deprecated def waiter_names [] end class << self # @api private attr_reader :identifier # @api private def errors_module Errors end end end end