aws-sdk/clients/stepfunctions.d.ts

AWS SDK for JavaScript

import {Request} from '../lib/request';
import {Response} from '../lib/response';
import {AWSError} from '../lib/error';
import {Service} from '../lib/service';
import {ServiceConfigurationOptions} from '../lib/service';
import {ConfigBase as Config} from '../lib/config-base';
interface Blob {}
declare class StepFunctions extends Service {
  /**
   * Constructs a service object. This object has one method for each API operation.
   */
  constructor(options?: StepFunctions.Types.ClientConfiguration)
  config: Config & StepFunctions.Types.ClientConfiguration;
  /**
   * Creates an activity. An activity is a task that you write in any programming language and host on any machine that has access to Step Functions. Activities must poll Step Functions using the GetActivityTask API action and respond using SendTask* API actions. This function lets Step Functions know the existence of your activity and returns an identifier for use in a state machine and when polling from the activity.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.    CreateActivity is an idempotent API. Subsequent requests won’t create a duplicate resource if it was already created. CreateActivity's idempotency check is based on the activity name. If a following request has different tags values, Step Functions will ignore these differences and treat it as an idempotent request of the previous. In this case, tags will not be updated, even if they are different. 
   */
  createActivity(params: StepFunctions.Types.CreateActivityInput, callback?: (err: AWSError, data: StepFunctions.Types.CreateActivityOutput) => void): Request<StepFunctions.Types.CreateActivityOutput, AWSError>;
  /**
   * Creates an activity. An activity is a task that you write in any programming language and host on any machine that has access to Step Functions. Activities must poll Step Functions using the GetActivityTask API action and respond using SendTask* API actions. This function lets Step Functions know the existence of your activity and returns an identifier for use in a state machine and when polling from the activity.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.    CreateActivity is an idempotent API. Subsequent requests won’t create a duplicate resource if it was already created. CreateActivity's idempotency check is based on the activity name. If a following request has different tags values, Step Functions will ignore these differences and treat it as an idempotent request of the previous. In this case, tags will not be updated, even if they are different. 
   */
  createActivity(callback?: (err: AWSError, data: StepFunctions.Types.CreateActivityOutput) => void): Request<StepFunctions.Types.CreateActivityOutput, AWSError>;
  /**
   * Creates a state machine. A state machine consists of a collection of states that can do work (Task states), determine to which states to transition next (Choice states), stop an execution with an error (Fail states), and so on. State machines are specified using a JSON-based, structured language. For more information, see Amazon States Language in the Step Functions User Guide. If you set the publish parameter of this API action to true, it publishes version 1 as the first revision of the state machine.  For additional control over security, you can encrypt your data using a customer-managed key for Step Functions state machines. You can configure a symmetric KMS key and data key reuse period when creating or updating a State Machine. The execution history and state machine definition will be encrypted with the key applied to the State Machine.   This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.    CreateStateMachine is an idempotent API. Subsequent requests won’t create a duplicate resource if it was already created. CreateStateMachine's idempotency check is based on the state machine name, definition, type, LoggingConfiguration, TracingConfiguration, and EncryptionConfiguration The check is also based on the publish and versionDescription parameters. If a following request has a different roleArn or tags, Step Functions will ignore these differences and treat it as an idempotent request of the previous. In this case, roleArn and tags will not be updated, even if they are different. 
   */
  createStateMachine(params: StepFunctions.Types.CreateStateMachineInput, callback?: (err: AWSError, data: StepFunctions.Types.CreateStateMachineOutput) => void): Request<StepFunctions.Types.CreateStateMachineOutput, AWSError>;
  /**
   * Creates a state machine. A state machine consists of a collection of states that can do work (Task states), determine to which states to transition next (Choice states), stop an execution with an error (Fail states), and so on. State machines are specified using a JSON-based, structured language. For more information, see Amazon States Language in the Step Functions User Guide. If you set the publish parameter of this API action to true, it publishes version 1 as the first revision of the state machine.  For additional control over security, you can encrypt your data using a customer-managed key for Step Functions state machines. You can configure a symmetric KMS key and data key reuse period when creating or updating a State Machine. The execution history and state machine definition will be encrypted with the key applied to the State Machine.   This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.    CreateStateMachine is an idempotent API. Subsequent requests won’t create a duplicate resource if it was already created. CreateStateMachine's idempotency check is based on the state machine name, definition, type, LoggingConfiguration, TracingConfiguration, and EncryptionConfiguration The check is also based on the publish and versionDescription parameters. If a following request has a different roleArn or tags, Step Functions will ignore these differences and treat it as an idempotent request of the previous. In this case, roleArn and tags will not be updated, even if they are different. 
   */
  createStateMachine(callback?: (err: AWSError, data: StepFunctions.Types.CreateStateMachineOutput) => void): Request<StepFunctions.Types.CreateStateMachineOutput, AWSError>;
  /**
   * Creates an alias for a state machine that points to one or two versions of the same state machine. You can set your application to call StartExecution with an alias and update the version the alias uses without changing the client's code. You can also map an alias to split StartExecution requests between two versions of a state machine. To do this, add a second RoutingConfig object in the routingConfiguration parameter. You must also specify the percentage of execution run requests each version should receive in both RoutingConfig objects. Step Functions randomly chooses which version runs a given execution based on the percentage you specify. To create an alias that points to a single version, specify a single RoutingConfig object with a weight set to 100. You can create up to 100 aliases for each state machine. You must delete unused aliases using the DeleteStateMachineAlias API action.  CreateStateMachineAlias is an idempotent API. Step Functions bases the idempotency check on the stateMachineArn, description, name, and routingConfiguration parameters. Requests that contain the same values for these parameters return a successful idempotent response without creating a duplicate resource.  Related operations:     DescribeStateMachineAlias     ListStateMachineAliases     UpdateStateMachineAlias     DeleteStateMachineAlias   
   */
  createStateMachineAlias(params: StepFunctions.Types.CreateStateMachineAliasInput, callback?: (err: AWSError, data: StepFunctions.Types.CreateStateMachineAliasOutput) => void): Request<StepFunctions.Types.CreateStateMachineAliasOutput, AWSError>;
  /**
   * Creates an alias for a state machine that points to one or two versions of the same state machine. You can set your application to call StartExecution with an alias and update the version the alias uses without changing the client's code. You can also map an alias to split StartExecution requests between two versions of a state machine. To do this, add a second RoutingConfig object in the routingConfiguration parameter. You must also specify the percentage of execution run requests each version should receive in both RoutingConfig objects. Step Functions randomly chooses which version runs a given execution based on the percentage you specify. To create an alias that points to a single version, specify a single RoutingConfig object with a weight set to 100. You can create up to 100 aliases for each state machine. You must delete unused aliases using the DeleteStateMachineAlias API action.  CreateStateMachineAlias is an idempotent API. Step Functions bases the idempotency check on the stateMachineArn, description, name, and routingConfiguration parameters. Requests that contain the same values for these parameters return a successful idempotent response without creating a duplicate resource.  Related operations:     DescribeStateMachineAlias     ListStateMachineAliases     UpdateStateMachineAlias     DeleteStateMachineAlias   
   */
  createStateMachineAlias(callback?: (err: AWSError, data: StepFunctions.Types.CreateStateMachineAliasOutput) => void): Request<StepFunctions.Types.CreateStateMachineAliasOutput, AWSError>;
  /**
   * Deletes an activity.
   */
  deleteActivity(params: StepFunctions.Types.DeleteActivityInput, callback?: (err: AWSError, data: StepFunctions.Types.DeleteActivityOutput) => void): Request<StepFunctions.Types.DeleteActivityOutput, AWSError>;
  /**
   * Deletes an activity.
   */
  deleteActivity(callback?: (err: AWSError, data: StepFunctions.Types.DeleteActivityOutput) => void): Request<StepFunctions.Types.DeleteActivityOutput, AWSError>;
  /**
   * Deletes a state machine. This is an asynchronous operation. It sets the state machine's status to DELETING and begins the deletion process. A state machine is deleted only when all its executions are completed. On the next state transition, the state machine's executions are terminated. A qualified state machine ARN can either refer to a Distributed Map state defined within a state machine, a version ARN, or an alias ARN. The following are some examples of qualified and unqualified state machine ARNs:   The following qualified state machine ARN refers to a Distributed Map state with a label mapStateLabel in a state machine named myStateMachine.  arn:partition:states:region:account-id:stateMachine:myStateMachine/mapStateLabel   If you provide a qualified state machine ARN that refers to a Distributed Map state, the request fails with ValidationException.    The following unqualified state machine ARN refers to a state machine named myStateMachine.  arn:partition:states:region:account-id:stateMachine:myStateMachine    This API action also deletes all versions and aliases associated with a state machine.  For EXPRESS state machines, the deletion happens eventually (usually in less than a minute). Running executions may emit logs after DeleteStateMachine API is called. 
   */
  deleteStateMachine(params: StepFunctions.Types.DeleteStateMachineInput, callback?: (err: AWSError, data: StepFunctions.Types.DeleteStateMachineOutput) => void): Request<StepFunctions.Types.DeleteStateMachineOutput, AWSError>;
  /**
   * Deletes a state machine. This is an asynchronous operation. It sets the state machine's status to DELETING and begins the deletion process. A state machine is deleted only when all its executions are completed. On the next state transition, the state machine's executions are terminated. A qualified state machine ARN can either refer to a Distributed Map state defined within a state machine, a version ARN, or an alias ARN. The following are some examples of qualified and unqualified state machine ARNs:   The following qualified state machine ARN refers to a Distributed Map state with a label mapStateLabel in a state machine named myStateMachine.  arn:partition:states:region:account-id:stateMachine:myStateMachine/mapStateLabel   If you provide a qualified state machine ARN that refers to a Distributed Map state, the request fails with ValidationException.    The following unqualified state machine ARN refers to a state machine named myStateMachine.  arn:partition:states:region:account-id:stateMachine:myStateMachine    This API action also deletes all versions and aliases associated with a state machine.  For EXPRESS state machines, the deletion happens eventually (usually in less than a minute). Running executions may emit logs after DeleteStateMachine API is called. 
   */
  deleteStateMachine(callback?: (err: AWSError, data: StepFunctions.Types.DeleteStateMachineOutput) => void): Request<StepFunctions.Types.DeleteStateMachineOutput, AWSError>;
  /**
   * Deletes a state machine alias. After you delete a state machine alias, you can't use it to start executions. When you delete a state machine alias, Step Functions doesn't delete the state machine versions that alias references.  Related operations:     CreateStateMachineAlias     DescribeStateMachineAlias     ListStateMachineAliases     UpdateStateMachineAlias   
   */
  deleteStateMachineAlias(params: StepFunctions.Types.DeleteStateMachineAliasInput, callback?: (err: AWSError, data: StepFunctions.Types.DeleteStateMachineAliasOutput) => void): Request<StepFunctions.Types.DeleteStateMachineAliasOutput, AWSError>;
  /**
   * Deletes a state machine alias. After you delete a state machine alias, you can't use it to start executions. When you delete a state machine alias, Step Functions doesn't delete the state machine versions that alias references.  Related operations:     CreateStateMachineAlias     DescribeStateMachineAlias     ListStateMachineAliases     UpdateStateMachineAlias   
   */
  deleteStateMachineAlias(callback?: (err: AWSError, data: StepFunctions.Types.DeleteStateMachineAliasOutput) => void): Request<StepFunctions.Types.DeleteStateMachineAliasOutput, AWSError>;
  /**
   * Deletes a state machine version. After you delete a version, you can't call StartExecution using that version's ARN or use the version with a state machine alias.  Deleting a state machine version won't terminate its in-progress executions.   You can't delete a state machine version currently referenced by one or more aliases. Before you delete a version, you must either delete the aliases or update them to point to another state machine version.   Related operations:     PublishStateMachineVersion     ListStateMachineVersions   
   */
  deleteStateMachineVersion(params: StepFunctions.Types.DeleteStateMachineVersionInput, callback?: (err: AWSError, data: StepFunctions.Types.DeleteStateMachineVersionOutput) => void): Request<StepFunctions.Types.DeleteStateMachineVersionOutput, AWSError>;
  /**
   * Deletes a state machine version. After you delete a version, you can't call StartExecution using that version's ARN or use the version with a state machine alias.  Deleting a state machine version won't terminate its in-progress executions.   You can't delete a state machine version currently referenced by one or more aliases. Before you delete a version, you must either delete the aliases or update them to point to another state machine version.   Related operations:     PublishStateMachineVersion     ListStateMachineVersions   
   */
  deleteStateMachineVersion(callback?: (err: AWSError, data: StepFunctions.Types.DeleteStateMachineVersionOutput) => void): Request<StepFunctions.Types.DeleteStateMachineVersionOutput, AWSError>;
  /**
   * Describes an activity.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  describeActivity(params: StepFunctions.Types.DescribeActivityInput, callback?: (err: AWSError, data: StepFunctions.Types.DescribeActivityOutput) => void): Request<StepFunctions.Types.DescribeActivityOutput, AWSError>;
  /**
   * Describes an activity.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  describeActivity(callback?: (err: AWSError, data: StepFunctions.Types.DescribeActivityOutput) => void): Request<StepFunctions.Types.DescribeActivityOutput, AWSError>;
  /**
   * Provides information about a state machine execution, such as the state machine associated with the execution, the execution input and output, and relevant execution metadata. If you've redriven an execution, you can use this API action to return information about the redrives of that execution. In addition, you can use this API action to return the Map Run Amazon Resource Name (ARN) if the execution was dispatched by a Map Run. If you specify a version or alias ARN when you call the StartExecution API action, DescribeExecution returns that ARN.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.  Executions of an EXPRESS state machine aren't supported by DescribeExecution unless a Map Run dispatched them.
   */
  describeExecution(params: StepFunctions.Types.DescribeExecutionInput, callback?: (err: AWSError, data: StepFunctions.Types.DescribeExecutionOutput) => void): Request<StepFunctions.Types.DescribeExecutionOutput, AWSError>;
  /**
   * Provides information about a state machine execution, such as the state machine associated with the execution, the execution input and output, and relevant execution metadata. If you've redriven an execution, you can use this API action to return information about the redrives of that execution. In addition, you can use this API action to return the Map Run Amazon Resource Name (ARN) if the execution was dispatched by a Map Run. If you specify a version or alias ARN when you call the StartExecution API action, DescribeExecution returns that ARN.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.  Executions of an EXPRESS state machine aren't supported by DescribeExecution unless a Map Run dispatched them.
   */
  describeExecution(callback?: (err: AWSError, data: StepFunctions.Types.DescribeExecutionOutput) => void): Request<StepFunctions.Types.DescribeExecutionOutput, AWSError>;
  /**
   * Provides information about a Map Run's configuration, progress, and results. If you've redriven a Map Run, this API action also returns information about the redrives of that Map Run. For more information, see Examining Map Run in the Step Functions Developer Guide.
   */
  describeMapRun(params: StepFunctions.Types.DescribeMapRunInput, callback?: (err: AWSError, data: StepFunctions.Types.DescribeMapRunOutput) => void): Request<StepFunctions.Types.DescribeMapRunOutput, AWSError>;
  /**
   * Provides information about a Map Run's configuration, progress, and results. If you've redriven a Map Run, this API action also returns information about the redrives of that Map Run. For more information, see Examining Map Run in the Step Functions Developer Guide.
   */
  describeMapRun(callback?: (err: AWSError, data: StepFunctions.Types.DescribeMapRunOutput) => void): Request<StepFunctions.Types.DescribeMapRunOutput, AWSError>;
  /**
   * Provides information about a state machine's definition, its IAM role Amazon Resource Name (ARN), and configuration. A qualified state machine ARN can either refer to a Distributed Map state defined within a state machine, a version ARN, or an alias ARN. The following are some examples of qualified and unqualified state machine ARNs:   The following qualified state machine ARN refers to a Distributed Map state with a label mapStateLabel in a state machine named myStateMachine.  arn:partition:states:region:account-id:stateMachine:myStateMachine/mapStateLabel   If you provide a qualified state machine ARN that refers to a Distributed Map state, the request fails with ValidationException.    The following qualified state machine ARN refers to an alias named PROD.  arn:&lt;partition&gt;:states:&lt;region&gt;:&lt;account-id&gt;:stateMachine:&lt;myStateMachine:PROD&gt;   If you provide a qualified state machine ARN that refers to a version ARN or an alias ARN, the request starts execution for that version or alias.    The following unqualified state machine ARN refers to a state machine named myStateMachine.  arn:&lt;partition&gt;:states:&lt;region&gt;:&lt;account-id&gt;:stateMachine:&lt;myStateMachine&gt;    This API action returns the details for a state machine version if the stateMachineArn you specify is a state machine version ARN.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  describeStateMachine(params: StepFunctions.Types.DescribeStateMachineInput, callback?: (err: AWSError, data: StepFunctions.Types.DescribeStateMachineOutput) => void): Request<StepFunctions.Types.DescribeStateMachineOutput, AWSError>;
  /**
   * Provides information about a state machine's definition, its IAM role Amazon Resource Name (ARN), and configuration. A qualified state machine ARN can either refer to a Distributed Map state defined within a state machine, a version ARN, or an alias ARN. The following are some examples of qualified and unqualified state machine ARNs:   The following qualified state machine ARN refers to a Distributed Map state with a label mapStateLabel in a state machine named myStateMachine.  arn:partition:states:region:account-id:stateMachine:myStateMachine/mapStateLabel   If you provide a qualified state machine ARN that refers to a Distributed Map state, the request fails with ValidationException.    The following qualified state machine ARN refers to an alias named PROD.  arn:&lt;partition&gt;:states:&lt;region&gt;:&lt;account-id&gt;:stateMachine:&lt;myStateMachine:PROD&gt;   If you provide a qualified state machine ARN that refers to a version ARN or an alias ARN, the request starts execution for that version or alias.    The following unqualified state machine ARN refers to a state machine named myStateMachine.  arn:&lt;partition&gt;:states:&lt;region&gt;:&lt;account-id&gt;:stateMachine:&lt;myStateMachine&gt;    This API action returns the details for a state machine version if the stateMachineArn you specify is a state machine version ARN.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  describeStateMachine(callback?: (err: AWSError, data: StepFunctions.Types.DescribeStateMachineOutput) => void): Request<StepFunctions.Types.DescribeStateMachineOutput, AWSError>;
  /**
   * Returns details about a state machine alias.  Related operations:     CreateStateMachineAlias     ListStateMachineAliases     UpdateStateMachineAlias     DeleteStateMachineAlias   
   */
  describeStateMachineAlias(params: StepFunctions.Types.DescribeStateMachineAliasInput, callback?: (err: AWSError, data: StepFunctions.Types.DescribeStateMachineAliasOutput) => void): Request<StepFunctions.Types.DescribeStateMachineAliasOutput, AWSError>;
  /**
   * Returns details about a state machine alias.  Related operations:     CreateStateMachineAlias     ListStateMachineAliases     UpdateStateMachineAlias     DeleteStateMachineAlias   
   */
  describeStateMachineAlias(callback?: (err: AWSError, data: StepFunctions.Types.DescribeStateMachineAliasOutput) => void): Request<StepFunctions.Types.DescribeStateMachineAliasOutput, AWSError>;
  /**
   * Provides information about a state machine's definition, its execution role ARN, and configuration. If a Map Run dispatched the execution, this action returns the Map Run Amazon Resource Name (ARN) in the response. The state machine returned is the state machine associated with the Map Run.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.  This API action is not supported by EXPRESS state machines.
   */
  describeStateMachineForExecution(params: StepFunctions.Types.DescribeStateMachineForExecutionInput, callback?: (err: AWSError, data: StepFunctions.Types.DescribeStateMachineForExecutionOutput) => void): Request<StepFunctions.Types.DescribeStateMachineForExecutionOutput, AWSError>;
  /**
   * Provides information about a state machine's definition, its execution role ARN, and configuration. If a Map Run dispatched the execution, this action returns the Map Run Amazon Resource Name (ARN) in the response. The state machine returned is the state machine associated with the Map Run.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.  This API action is not supported by EXPRESS state machines.
   */
  describeStateMachineForExecution(callback?: (err: AWSError, data: StepFunctions.Types.DescribeStateMachineForExecutionOutput) => void): Request<StepFunctions.Types.DescribeStateMachineForExecutionOutput, AWSError>;
  /**
   * Used by workers to retrieve a task (with the specified activity ARN) which has been scheduled for execution by a running state machine. This initiates a long poll, where the service holds the HTTP connection open and responds as soon as a task becomes available (i.e. an execution of a task of this type is needed.) The maximum time the service holds on to the request before responding is 60 seconds. If no task is available within 60 seconds, the poll returns a taskToken with a null string.  This API action isn't logged in CloudTrail.   Workers should set their client side socket timeout to at least 65 seconds (5 seconds higher than the maximum time the service may hold the poll request). Polling with GetActivityTask can cause latency in some implementations. See Avoid Latency When Polling for Activity Tasks in the Step Functions Developer Guide. 
   */
  getActivityTask(params: StepFunctions.Types.GetActivityTaskInput, callback?: (err: AWSError, data: StepFunctions.Types.GetActivityTaskOutput) => void): Request<StepFunctions.Types.GetActivityTaskOutput, AWSError>;
  /**
   * Used by workers to retrieve a task (with the specified activity ARN) which has been scheduled for execution by a running state machine. This initiates a long poll, where the service holds the HTTP connection open and responds as soon as a task becomes available (i.e. an execution of a task of this type is needed.) The maximum time the service holds on to the request before responding is 60 seconds. If no task is available within 60 seconds, the poll returns a taskToken with a null string.  This API action isn't logged in CloudTrail.   Workers should set their client side socket timeout to at least 65 seconds (5 seconds higher than the maximum time the service may hold the poll request). Polling with GetActivityTask can cause latency in some implementations. See Avoid Latency When Polling for Activity Tasks in the Step Functions Developer Guide. 
   */
  getActivityTask(callback?: (err: AWSError, data: StepFunctions.Types.GetActivityTaskOutput) => void): Request<StepFunctions.Types.GetActivityTaskOutput, AWSError>;
  /**
   * Returns the history of the specified execution as a list of events. By default, the results are returned in ascending order of the timeStamp of the events. Use the reverseOrder parameter to get the latest events first. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error. This API action is not supported by EXPRESS state machines.
   */
  getExecutionHistory(params: StepFunctions.Types.GetExecutionHistoryInput, callback?: (err: AWSError, data: StepFunctions.Types.GetExecutionHistoryOutput) => void): Request<StepFunctions.Types.GetExecutionHistoryOutput, AWSError>;
  /**
   * Returns the history of the specified execution as a list of events. By default, the results are returned in ascending order of the timeStamp of the events. Use the reverseOrder parameter to get the latest events first. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error. This API action is not supported by EXPRESS state machines.
   */
  getExecutionHistory(callback?: (err: AWSError, data: StepFunctions.Types.GetExecutionHistoryOutput) => void): Request<StepFunctions.Types.GetExecutionHistoryOutput, AWSError>;
  /**
   * Lists the existing activities. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  listActivities(params: StepFunctions.Types.ListActivitiesInput, callback?: (err: AWSError, data: StepFunctions.Types.ListActivitiesOutput) => void): Request<StepFunctions.Types.ListActivitiesOutput, AWSError>;
  /**
   * Lists the existing activities. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  listActivities(callback?: (err: AWSError, data: StepFunctions.Types.ListActivitiesOutput) => void): Request<StepFunctions.Types.ListActivitiesOutput, AWSError>;
  /**
   * Lists all executions of a state machine or a Map Run. You can list all executions related to a state machine by specifying a state machine Amazon Resource Name (ARN), or those related to a Map Run by specifying a Map Run ARN. Using this API action, you can also list all redriven executions. You can also provide a state machine alias ARN or version ARN to list the executions associated with a specific alias or version. Results are sorted by time, with the most recent execution first. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.  This API action is not supported by EXPRESS state machines.
   */
  listExecutions(params: StepFunctions.Types.ListExecutionsInput, callback?: (err: AWSError, data: StepFunctions.Types.ListExecutionsOutput) => void): Request<StepFunctions.Types.ListExecutionsOutput, AWSError>;
  /**
   * Lists all executions of a state machine or a Map Run. You can list all executions related to a state machine by specifying a state machine Amazon Resource Name (ARN), or those related to a Map Run by specifying a Map Run ARN. Using this API action, you can also list all redriven executions. You can also provide a state machine alias ARN or version ARN to list the executions associated with a specific alias or version. Results are sorted by time, with the most recent execution first. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes.  This API action is not supported by EXPRESS state machines.
   */
  listExecutions(callback?: (err: AWSError, data: StepFunctions.Types.ListExecutionsOutput) => void): Request<StepFunctions.Types.ListExecutionsOutput, AWSError>;
  /**
   * Lists all Map Runs that were started by a given state machine execution. Use this API action to obtain Map Run ARNs, and then call DescribeMapRun to obtain more information, if needed.
   */
  listMapRuns(params: StepFunctions.Types.ListMapRunsInput, callback?: (err: AWSError, data: StepFunctions.Types.ListMapRunsOutput) => void): Request<StepFunctions.Types.ListMapRunsOutput, AWSError>;
  /**
   * Lists all Map Runs that were started by a given state machine execution. Use this API action to obtain Map Run ARNs, and then call DescribeMapRun to obtain more information, if needed.
   */
  listMapRuns(callback?: (err: AWSError, data: StepFunctions.Types.ListMapRunsOutput) => void): Request<StepFunctions.Types.ListMapRunsOutput, AWSError>;
  /**
   * Lists aliases for a specified state machine ARN. Results are sorted by time, with the most recently created aliases listed first.  To list aliases that reference a state machine version, you can specify the version ARN in the stateMachineArn parameter. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  Related operations:     CreateStateMachineAlias     DescribeStateMachineAlias     UpdateStateMachineAlias     DeleteStateMachineAlias   
   */
  listStateMachineAliases(params: StepFunctions.Types.ListStateMachineAliasesInput, callback?: (err: AWSError, data: StepFunctions.Types.ListStateMachineAliasesOutput) => void): Request<StepFunctions.Types.ListStateMachineAliasesOutput, AWSError>;
  /**
   * Lists aliases for a specified state machine ARN. Results are sorted by time, with the most recently created aliases listed first.  To list aliases that reference a state machine version, you can specify the version ARN in the stateMachineArn parameter. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  Related operations:     CreateStateMachineAlias     DescribeStateMachineAlias     UpdateStateMachineAlias     DeleteStateMachineAlias   
   */
  listStateMachineAliases(callback?: (err: AWSError, data: StepFunctions.Types.ListStateMachineAliasesOutput) => void): Request<StepFunctions.Types.ListStateMachineAliasesOutput, AWSError>;
  /**
   * Lists versions for the specified state machine Amazon Resource Name (ARN). The results are sorted in descending order of the version creation time. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  Related operations:     PublishStateMachineVersion     DeleteStateMachineVersion   
   */
  listStateMachineVersions(params: StepFunctions.Types.ListStateMachineVersionsInput, callback?: (err: AWSError, data: StepFunctions.Types.ListStateMachineVersionsOutput) => void): Request<StepFunctions.Types.ListStateMachineVersionsOutput, AWSError>;
  /**
   * Lists versions for the specified state machine Amazon Resource Name (ARN). The results are sorted in descending order of the version creation time. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  Related operations:     PublishStateMachineVersion     DeleteStateMachineVersion   
   */
  listStateMachineVersions(callback?: (err: AWSError, data: StepFunctions.Types.ListStateMachineVersionsOutput) => void): Request<StepFunctions.Types.ListStateMachineVersionsOutput, AWSError>;
  /**
   * Lists the existing state machines. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  listStateMachines(params: StepFunctions.Types.ListStateMachinesInput, callback?: (err: AWSError, data: StepFunctions.Types.ListStateMachinesOutput) => void): Request<StepFunctions.Types.ListStateMachinesOutput, AWSError>;
  /**
   * Lists the existing state machines. If nextToken is returned, there are more results available. The value of nextToken is a unique pagination token for each page. Make the call again using the returned token to retrieve the next page. Keep all other arguments unchanged. Each pagination token expires after 24 hours. Using an expired pagination token will return an HTTP 400 InvalidToken error.  This operation is eventually consistent. The results are best effort and may not reflect very recent updates and changes. 
   */
  listStateMachines(callback?: (err: AWSError, data: StepFunctions.Types.ListStateMachinesOutput) => void): Request<StepFunctions.Types.ListStateMachinesOutput, AWSError>;
  /**
   * List tags for a given resource. Tags may only contain Unicode letters, digits, white space, or these symbols: _ . : / = + - @.
   */
  listTagsForResource(params: StepFunctions.Types.ListTagsForResourceInput, callback?: (err: AWSError, data: StepFunctions.Types.ListTagsForResourceOutput) => void): Request<StepFunctions.Types.ListTagsForResourceOutput, AWSError>;
  /**
   * List tags for a given resource. Tags may only contain Unicode letters, digits, white space, or these symbols: _ . : / = + - @.
   */
  listTagsForResource(callback?: (err: AWSError, data: StepFunctions.Types.ListTagsForResourceOutput) => void): Request<StepFunctions.Types.ListTagsForResourceOutput, AWSError>;
  /**
   * Creates a version from the current revision of a state machine. Use versions to create immutable snapshots of your state machine. You can start executions from versions either directly or with an alias. To create an alias, use CreateStateMachineAlias. You can publish up to 1000 versions for each state machine. You must manually delete unused versions using the DeleteStateMachineVersion API action.  PublishStateMachineVersion is an idempotent API. It doesn't create a duplicate state machine version if it already exists for the current revision. Step Functions bases PublishStateMachineVersion's idempotency check on the stateMachineArn, name, and revisionId parameters. Requests with the same parameters return a successful idempotent response. If you don't specify a revisionId, Step Functions checks for a previously published version of the state machine's current revision.  Related operations:     DeleteStateMachineVersion     ListStateMachineVersions   
   */
  publishStateMachineVersion(params: StepFunctions.Types.PublishStateMachineVersionInput, callback?: (err: AWSError, data: StepFunctions.Types.PublishStateMachineVersionOutput) => void): Request<StepFunctions.Types.PublishStateMachineVersionOutput, AWSError>;
  /**
   * Creates a version from the current revision of a state machine. Use versions to create immutable snapshots of your state machine. You can start executions from versions either directly or with an alias. To create an alias, use CreateStateMachineAlias. You can publish up to 1000 versions for each state machine. You must manually delete unused versions using the DeleteStateMachineVersion API action.  PublishStateMachineVersion is an idempotent API. It doesn't create a duplicate state machine version if it already exists for the current revision. Step Functions bases PublishStateMachineVersion's idempotency check on the stateMachineArn, name, and revisionId parameters. Requests with the same parameters return a successful idempotent response. If you don't specify a revisionId, Step Functions checks for a previously published version of the state machine's current revision.  Related operations:     DeleteStateMachineVersion     ListStateMachineVersions   
   */
  publishStateMachineVersion(callback?: (err: AWSError, data: StepFunctions.Types.PublishStateMachineVersionOutput) => void): Request<StepFunctions.Types.PublishStateMachineVersionOutput, AWSError>;
  /**
   * Restarts unsuccessful executions of Standard workflows that didn't complete successfully in the last 14 days. These include failed, aborted, or timed out executions. When you redrive an execution, it continues the failed execution from the unsuccessful step and uses the same input. Step Functions preserves the results and execution history of the successful steps, and doesn't rerun these steps when you redrive an execution. Redriven executions use the same state machine definition and execution ARN as the original execution attempt. For workflows that include an Inline Map or Parallel state, RedriveExecution API action reschedules and redrives only the iterations and branches that failed or aborted. To redrive a workflow that includes a Distributed Map state whose Map Run failed, you must redrive the parent workflow. The parent workflow redrives all the unsuccessful states, including a failed Map Run. If a Map Run was not started in the original execution attempt, the redriven parent workflow starts the Map Run.  This API action is not supported by EXPRESS state machines. However, you can restart the unsuccessful executions of Express child workflows in a Distributed Map by redriving its Map Run. When you redrive a Map Run, the Express child workflows are rerun using the StartExecution API action. For more information, see Redriving Map Runs.  You can redrive executions if your original execution meets the following conditions:   The execution status isn't SUCCEEDED.   Your workflow execution has not exceeded the redrivable period of 14 days. Redrivable period refers to the time during which you can redrive a given execution. This period starts from the day a state machine completes its execution.   The workflow execution has not exceeded the maximum open time of one year. For more information about state machine quotas, see Quotas related to state machine executions.   The execution event history count is less than 24,999. Redriven executions append their event history to the existing event history. Make sure your workflow execution contains less than 24,999 events to accommodate the ExecutionRedriven history event and at least one other history event.  
   */
  redriveExecution(params: StepFunctions.Types.RedriveExecutionInput, callback?: (err: AWSError, data: StepFunctions.Types.RedriveExecutionOutput) => void): Request<StepFunctions.Types.RedriveExecutionOutput, AWSError>;
  /**
   * Restarts unsuccessful executions of Standard workflows that didn't complete successfully in the last 14 days. These include failed, aborted, or timed out executions. When you redrive an execution, it continues the failed execution from the unsuccessful step and uses the same input. Step Functions preserves the results and execution history of the successful steps, and doesn't rerun these steps when you redrive an execution. Redriven executions use the same state machine definition and execution ARN as the original execution attempt. For workflows that include an Inline Map or Parallel state, RedriveExecution API action reschedules and redrives only the iterations and branches that failed or aborted. To redrive a workflow that includes a Distributed Map state whose Map Run failed, you must redrive the parent workflow. The parent workflow redrives all the unsuccessful states, including a failed Map Run. If a Map Run was not started in the original execution attempt, the redriven parent workflow starts the Map Run.  This API action is not supported by EXPRESS state machines. However, you can restart the unsuccessful executions of Express child workflows in a Distributed Map by redriving its Map Run. When you redrive a Map Run, the Express child workflows are rerun using the StartExecution API action. For more information, see Redriving Map Runs.  You can redrive executions if your original execution meets the following conditions:   The execution status isn't SUCCEEDED.   Your workflow execution has not exceeded the redrivable period of 14 days. Redrivable period refers to the time during which you can redrive a given execution. This period starts from the day a state machine completes its execution.   The workflow execution has not exceeded the maximum open time of one year. For more information about state machine quotas, see Quotas related to state machine executions.   The execution event history count is less than 24,999. Redriven executions append their event history to the existing event history. Make sure your workflow execution contains less than 24,999 events to accommodate the ExecutionRedriven history event and at least one other history event.  
   */
  redriveExecution(callback?: (err: AWSError, data: StepFunctions.Types.RedriveExecutionOutput) => void): Request<StepFunctions.Types.RedriveExecutionOutput, AWSError>;
  /**
   * Used by activity workers, Task states using the callback pattern, and optionally Task states using the job run pattern to report that the task identified by the taskToken failed. For an execution with encryption enabled, Step Functions will encrypt the error and cause fields using the KMS key for the execution role. A caller can mark a task as fail without using any KMS permissions in the execution role if the caller provides a null value for both error and cause fields because no data needs to be encrypted.
   */
  sendTaskFailure(params: StepFunctions.Types.SendTaskFailureInput, callback?: (err: AWSError, data: StepFunctions.Types.SendTaskFailureOutput) => void): Request<StepFunctions.Types.SendTaskFailureOutput, AWSError>;
  /**
   * Used by activity workers, Task states using the callback pattern, and optionally Task states using the job run pattern to report that the task identified by the taskToken failed. For an execution with encryption enabled, Step Functions will encrypt the error and cause fields using the KMS key for the execution role. A caller can mark a task as fail without using any KMS permissions in the execution role if the caller provides a null value for both error and cause fields because no data needs to be encrypted.
   */
  sendTaskFailure(callback?: (err: AWSError, data: StepFunctions.Types.SendTaskFailureOutput) => void): Request<StepFunctions.Types.SendTaskFailureOutput, AWSError>;
  /**
   * Used by activity workers and Task states using the callback pattern, and optionally Task states using the job run pattern to report to Step Functions that the task represented by the specified taskToken is still making progress. This action resets the Heartbeat clock. The Heartbeat threshold is specified in the state machine's Amazon States Language definition (HeartbeatSeconds). This action does not in itself create an event in the execution history. However, if the task times out, the execution history contains an ActivityTimedOut entry for activities, or a TaskTimedOut entry for tasks using the job run or callback pattern.  The Timeout of a task, defined in the state machine's Amazon States Language definition, is its maximum allowed duration, regardless of the number of SendTaskHeartbeat requests received. Use HeartbeatSeconds to configure the timeout interval for heartbeats. 
   */
  sendTaskHeartbeat(params: StepFunctions.Types.SendTaskHeartbeatInput, callback?: (err: AWSError, data: StepFunctions.Types.SendTaskHeartbeatOutput) => void): Request<StepFunctions.Types.SendTaskHeartbeatOutput, AWSError>;
  /**
   * Used by activity workers and Task states using the callback pattern, and optionally Task states using the job run pattern to report to Step Functions that the task represented by the specified taskToken is still making progress. This action resets the Heartbeat clock. The Heartbeat threshold is specified in the state machine's Amazon States Language definition (HeartbeatSeconds). This action does not in itself create an event in the execution history. However, if the task times out, the execution history contains an ActivityTimedOut entry for activities, or a TaskTimedOut entry for ta