terraform/vendor/github.com/aws/aws-sdk-go/service/ecs/api.go

// THIS FILE IS AUTOMATICALLY GENERATED. DO NOT EDIT.

// Package ecs provides a client for Amazon EC2 Container Service.
package ecs

import (
	"fmt"
	"time"

	"github.com/aws/aws-sdk-go/aws/awsutil"
	"github.com/aws/aws-sdk-go/aws/request"
)

const opCreateCluster = "CreateCluster"

// CreateClusterRequest generates a "aws/request.Request" representing the
// client's request for the CreateCluster operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the CreateCluster method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the CreateClusterRequest method.
//    req, resp := client.CreateClusterRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) CreateClusterRequest(input *CreateClusterInput) (req *request.Request, output *CreateClusterOutput) {
	op := &request.Operation{
		Name:       opCreateCluster,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &CreateClusterInput{}
	}

	req = c.newRequest(op, input, output)
	output = &CreateClusterOutput{}
	req.Data = output
	return
}

// Creates a new Amazon ECS cluster. By default, your account receives a default
// cluster when you launch your first container instance. However, you can create
// your own cluster with a unique name with the CreateCluster action.
func (c *ECS) CreateCluster(input *CreateClusterInput) (*CreateClusterOutput, error) {
	req, out := c.CreateClusterRequest(input)
	err := req.Send()
	return out, err
}

const opCreateService = "CreateService"

// CreateServiceRequest generates a "aws/request.Request" representing the
// client's request for the CreateService operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the CreateService method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the CreateServiceRequest method.
//    req, resp := client.CreateServiceRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) CreateServiceRequest(input *CreateServiceInput) (req *request.Request, output *CreateServiceOutput) {
	op := &request.Operation{
		Name:       opCreateService,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &CreateServiceInput{}
	}

	req = c.newRequest(op, input, output)
	output = &CreateServiceOutput{}
	req.Data = output
	return
}

// Runs and maintains a desired number of tasks from a specified task definition.
// If the number of tasks running in a service drops below desiredCount, Amazon
// ECS spawns another instantiation of the task in the specified cluster. To
// update an existing service, see UpdateService.
//
// In addition to maintaining the desired count of tasks in your service, you
// can optionally run your service behind a load balancer. The load balancer
// distributes traffic across the tasks that are associated with the service.
// For more information, see Service Load Balancing (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/service-load-balancing.html)
// in the Amazon EC2 Container Service Developer Guide.
//
// You can optionally specify a deployment configuration for your service.
// During a deployment (which is triggered by changing the task definition of
// a service with an UpdateService operation), the service scheduler uses the
// minimumHealthyPercent and maximumPercent parameters to determine the deployment
// strategy.
//
// If the minimumHealthyPercent is below 100%, the scheduler can ignore the
// desiredCount temporarily during a deployment. For example, if your service
// has a desiredCount of four tasks, a minimumHealthyPercent of 50% allows the
// scheduler to stop two existing tasks before starting two new tasks. Tasks
// for services that do not use a load balancer are considered healthy if they
// are in the RUNNING state; tasks for services that do use a load balancer
// are considered healthy if they are in the RUNNING state and the container
// instance it is hosted on is reported as healthy by the load balancer. The
// default value for minimumHealthyPercent is 50% in the console and 100% for
// the AWS CLI, the AWS SDKs, and the APIs.
//
// The maximumPercent parameter represents an upper limit on the number of
// running tasks during a deployment, which enables you to define the deployment
// batch size. For example, if your service has a desiredCount of four tasks,
// a maximumPercent value of 200% starts four new tasks before stopping the
// four older tasks (provided that the cluster resources required to do this
// are available). The default value for maximumPercent is 200%.
//
// When the service scheduler launches new tasks, it attempts to balance them
// across the Availability Zones in your cluster with the following logic:
//
//   Determine which of the container instances in your cluster can support
// your service's task definition (for example, they have the required CPU,
// memory, ports, and container instance attributes).
//
//   Sort the valid container instances by the fewest number of running tasks
// for this service in the same Availability Zone as the instance. For example,
// if zone A has one running service task and zones B and C each have zero,
// valid container instances in either zone B or C are considered optimal for
// placement.
//
//   Place the new service task on a valid container instance in an optimal
// Availability Zone (based on the previous steps), favoring container instances
// with the fewest number of running tasks for this service.
func (c *ECS) CreateService(input *CreateServiceInput) (*CreateServiceOutput, error) {
	req, out := c.CreateServiceRequest(input)
	err := req.Send()
	return out, err
}

const opDeleteCluster = "DeleteCluster"

// DeleteClusterRequest generates a "aws/request.Request" representing the
// client's request for the DeleteCluster operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DeleteCluster method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DeleteClusterRequest method.
//    req, resp := client.DeleteClusterRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DeleteClusterRequest(input *DeleteClusterInput) (req *request.Request, output *DeleteClusterOutput) {
	op := &request.Operation{
		Name:       opDeleteCluster,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DeleteClusterInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DeleteClusterOutput{}
	req.Data = output
	return
}

// Deletes the specified cluster. You must deregister all container instances
// from this cluster before you may delete it. You can list the container instances
// in a cluster with ListContainerInstances and deregister them with DeregisterContainerInstance.
func (c *ECS) DeleteCluster(input *DeleteClusterInput) (*DeleteClusterOutput, error) {
	req, out := c.DeleteClusterRequest(input)
	err := req.Send()
	return out, err
}

const opDeleteService = "DeleteService"

// DeleteServiceRequest generates a "aws/request.Request" representing the
// client's request for the DeleteService operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DeleteService method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DeleteServiceRequest method.
//    req, resp := client.DeleteServiceRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DeleteServiceRequest(input *DeleteServiceInput) (req *request.Request, output *DeleteServiceOutput) {
	op := &request.Operation{
		Name:       opDeleteService,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DeleteServiceInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DeleteServiceOutput{}
	req.Data = output
	return
}

// Deletes a specified service within a cluster. You can delete a service if
// you have no running tasks in it and the desired task count is zero. If the
// service is actively maintaining tasks, you cannot delete it, and you must
// update the service to a desired task count of zero. For more information,
// see UpdateService.
//
//  When you delete a service, if there are still running tasks that require
// cleanup, the service status moves from ACTIVE to DRAINING, and the service
// is no longer visible in the console or in ListServices API operations. After
// the tasks have stopped, then the service status moves from DRAINING to INACTIVE.
// Services in the DRAINING or INACTIVE status can still be viewed with DescribeServices
// API operations; however, in the future, INACTIVE services may be cleaned
// up and purged from Amazon ECS record keeping, and DescribeServices API operations
// on those services will return a ServiceNotFoundException error.
func (c *ECS) DeleteService(input *DeleteServiceInput) (*DeleteServiceOutput, error) {
	req, out := c.DeleteServiceRequest(input)
	err := req.Send()
	return out, err
}

const opDeregisterContainerInstance = "DeregisterContainerInstance"

// DeregisterContainerInstanceRequest generates a "aws/request.Request" representing the
// client's request for the DeregisterContainerInstance operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DeregisterContainerInstance method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DeregisterContainerInstanceRequest method.
//    req, resp := client.DeregisterContainerInstanceRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DeregisterContainerInstanceRequest(input *DeregisterContainerInstanceInput) (req *request.Request, output *DeregisterContainerInstanceOutput) {
	op := &request.Operation{
		Name:       opDeregisterContainerInstance,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DeregisterContainerInstanceInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DeregisterContainerInstanceOutput{}
	req.Data = output
	return
}

// Deregisters an Amazon ECS container instance from the specified cluster.
// This instance is no longer available to run tasks.
//
// If you intend to use the container instance for some other purpose after
// deregistration, you should stop all of the tasks running on the container
// instance before deregistration to avoid any orphaned tasks from consuming
// resources.
//
// Deregistering a container instance removes the instance from a cluster,
// but it does not terminate the EC2 instance; if you are finished using the
// instance, be sure to terminate it in the Amazon EC2 console to stop billing.
//
//  If you terminate a running container instance with a connected Amazon ECS
// container agent, the agent automatically deregisters the instance from your
// cluster (stopped container instances or instances with disconnected agents
// are not automatically deregistered when terminated).
func (c *ECS) DeregisterContainerInstance(input *DeregisterContainerInstanceInput) (*DeregisterContainerInstanceOutput, error) {
	req, out := c.DeregisterContainerInstanceRequest(input)
	err := req.Send()
	return out, err
}

const opDeregisterTaskDefinition = "DeregisterTaskDefinition"

// DeregisterTaskDefinitionRequest generates a "aws/request.Request" representing the
// client's request for the DeregisterTaskDefinition operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DeregisterTaskDefinition method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DeregisterTaskDefinitionRequest method.
//    req, resp := client.DeregisterTaskDefinitionRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DeregisterTaskDefinitionRequest(input *DeregisterTaskDefinitionInput) (req *request.Request, output *DeregisterTaskDefinitionOutput) {
	op := &request.Operation{
		Name:       opDeregisterTaskDefinition,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DeregisterTaskDefinitionInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DeregisterTaskDefinitionOutput{}
	req.Data = output
	return
}

// Deregisters the specified task definition by family and revision. Upon deregistration,
// the task definition is marked as INACTIVE. Existing tasks and services that
// reference an INACTIVE task definition continue to run without disruption.
// Existing services that reference an INACTIVE task definition can still scale
// up or down by modifying the service's desired count.
//
// You cannot use an INACTIVE task definition to run new tasks or create new
// services, and you cannot update an existing service to reference an INACTIVE
// task definition (although there may be up to a 10 minute window following
// deregistration where these restrictions have not yet taken effect).
func (c *ECS) DeregisterTaskDefinition(input *DeregisterTaskDefinitionInput) (*DeregisterTaskDefinitionOutput, error) {
	req, out := c.DeregisterTaskDefinitionRequest(input)
	err := req.Send()
	return out, err
}

const opDescribeClusters = "DescribeClusters"

// DescribeClustersRequest generates a "aws/request.Request" representing the
// client's request for the DescribeClusters operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DescribeClusters method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DescribeClustersRequest method.
//    req, resp := client.DescribeClustersRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DescribeClustersRequest(input *DescribeClustersInput) (req *request.Request, output *DescribeClustersOutput) {
	op := &request.Operation{
		Name:       opDescribeClusters,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DescribeClustersInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DescribeClustersOutput{}
	req.Data = output
	return
}

// Describes one or more of your clusters.
func (c *ECS) DescribeClusters(input *DescribeClustersInput) (*DescribeClustersOutput, error) {
	req, out := c.DescribeClustersRequest(input)
	err := req.Send()
	return out, err
}

const opDescribeContainerInstances = "DescribeContainerInstances"

// DescribeContainerInstancesRequest generates a "aws/request.Request" representing the
// client's request for the DescribeContainerInstances operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DescribeContainerInstances method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DescribeContainerInstancesRequest method.
//    req, resp := client.DescribeContainerInstancesRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DescribeContainerInstancesRequest(input *DescribeContainerInstancesInput) (req *request.Request, output *DescribeContainerInstancesOutput) {
	op := &request.Operation{
		Name:       opDescribeContainerInstances,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DescribeContainerInstancesInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DescribeContainerInstancesOutput{}
	req.Data = output
	return
}

// Describes Amazon EC2 Container Service container instances. Returns metadata
// about registered and remaining resources on each container instance requested.
func (c *ECS) DescribeContainerInstances(input *DescribeContainerInstancesInput) (*DescribeContainerInstancesOutput, error) {
	req, out := c.DescribeContainerInstancesRequest(input)
	err := req.Send()
	return out, err
}

const opDescribeServices = "DescribeServices"

// DescribeServicesRequest generates a "aws/request.Request" representing the
// client's request for the DescribeServices operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DescribeServices method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DescribeServicesRequest method.
//    req, resp := client.DescribeServicesRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DescribeServicesRequest(input *DescribeServicesInput) (req *request.Request, output *DescribeServicesOutput) {
	op := &request.Operation{
		Name:       opDescribeServices,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DescribeServicesInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DescribeServicesOutput{}
	req.Data = output
	return
}

// Describes the specified services running in your cluster.
func (c *ECS) DescribeServices(input *DescribeServicesInput) (*DescribeServicesOutput, error) {
	req, out := c.DescribeServicesRequest(input)
	err := req.Send()
	return out, err
}

const opDescribeTaskDefinition = "DescribeTaskDefinition"

// DescribeTaskDefinitionRequest generates a "aws/request.Request" representing the
// client's request for the DescribeTaskDefinition operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DescribeTaskDefinition method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DescribeTaskDefinitionRequest method.
//    req, resp := client.DescribeTaskDefinitionRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DescribeTaskDefinitionRequest(input *DescribeTaskDefinitionInput) (req *request.Request, output *DescribeTaskDefinitionOutput) {
	op := &request.Operation{
		Name:       opDescribeTaskDefinition,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DescribeTaskDefinitionInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DescribeTaskDefinitionOutput{}
	req.Data = output
	return
}

// Describes a task definition. You can specify a family and revision to find
// information about a specific task definition, or you can simply specify the
// family to find the latest ACTIVE revision in that family.
//
//  You can only describe INACTIVE task definitions while an active task or
// service references them.
func (c *ECS) DescribeTaskDefinition(input *DescribeTaskDefinitionInput) (*DescribeTaskDefinitionOutput, error) {
	req, out := c.DescribeTaskDefinitionRequest(input)
	err := req.Send()
	return out, err
}

const opDescribeTasks = "DescribeTasks"

// DescribeTasksRequest generates a "aws/request.Request" representing the
// client's request for the DescribeTasks operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DescribeTasks method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DescribeTasksRequest method.
//    req, resp := client.DescribeTasksRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DescribeTasksRequest(input *DescribeTasksInput) (req *request.Request, output *DescribeTasksOutput) {
	op := &request.Operation{
		Name:       opDescribeTasks,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DescribeTasksInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DescribeTasksOutput{}
	req.Data = output
	return
}

// Describes a specified task or tasks.
func (c *ECS) DescribeTasks(input *DescribeTasksInput) (*DescribeTasksOutput, error) {
	req, out := c.DescribeTasksRequest(input)
	err := req.Send()
	return out, err
}

const opDiscoverPollEndpoint = "DiscoverPollEndpoint"

// DiscoverPollEndpointRequest generates a "aws/request.Request" representing the
// client's request for the DiscoverPollEndpoint operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the DiscoverPollEndpoint method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the DiscoverPollEndpointRequest method.
//    req, resp := client.DiscoverPollEndpointRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) DiscoverPollEndpointRequest(input *DiscoverPollEndpointInput) (req *request.Request, output *DiscoverPollEndpointOutput) {
	op := &request.Operation{
		Name:       opDiscoverPollEndpoint,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &DiscoverPollEndpointInput{}
	}

	req = c.newRequest(op, input, output)
	output = &DiscoverPollEndpointOutput{}
	req.Data = output
	return
}

// This action is only used by the Amazon EC2 Container Service agent, and it
// is not intended for use outside of the agent.
//
//  Returns an endpoint for the Amazon EC2 Container Service agent to poll
// for updates.
func (c *ECS) DiscoverPollEndpoint(input *DiscoverPollEndpointInput) (*DiscoverPollEndpointOutput, error) {
	req, out := c.DiscoverPollEndpointRequest(input)
	err := req.Send()
	return out, err
}

const opListClusters = "ListClusters"

// ListClustersRequest generates a "aws/request.Request" representing the
// client's request for the ListClusters operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the ListClusters method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the ListClustersRequest method.
//    req, resp := client.ListClustersRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) ListClustersRequest(input *ListClustersInput) (req *request.Request, output *ListClustersOutput) {
	op := &request.Operation{
		Name:       opListClusters,
		HTTPMethod: "POST",
		HTTPPath:   "/",
		Paginator: &request.Paginator{
			InputTokens:     []string{"nextToken"},
			OutputTokens:    []string{"nextToken"},
			LimitToken:      "maxResults",
			TruncationToken: "",
		},
	}

	if input == nil {
		input = &ListClustersInput{}
	}

	req = c.newRequest(op, input, output)
	output = &ListClustersOutput{}
	req.Data = output
	return
}

// Returns a list of existing clusters.
func (c *ECS) ListClusters(input *ListClustersInput) (*ListClustersOutput, error) {
	req, out := c.ListClustersRequest(input)
	err := req.Send()
	return out, err
}

// ListClustersPages iterates over the pages of a ListClusters operation,
// calling the "fn" function with the response data for each page. To stop
// iterating, return false from the fn function.
//
// See ListClusters method for more information on how to use this operation.
//
// Note: This operation can generate multiple requests to a service.
//
//    // Example iterating over at most 3 pages of a ListClusters operation.
//    pageNum := 0
//    err := client.ListClustersPages(params,
//        func(page *ListClustersOutput, lastPage bool) bool {
//            pageNum++
//            fmt.Println(page)
//            return pageNum <= 3
//        })
//
func (c *ECS) ListClustersPages(input *ListClustersInput, fn func(p *ListClustersOutput, lastPage bool) (shouldContinue bool)) error {
	page, _ := c.ListClustersRequest(input)
	page.Handlers.Build.PushBack(request.MakeAddToUserAgentFreeFormHandler("Paginator"))
	return page.EachPage(func(p interface{}, lastPage bool) bool {
		return fn(p.(*ListClustersOutput), lastPage)
	})
}

const opListContainerInstances = "ListContainerInstances"

// ListContainerInstancesRequest generates a "aws/request.Request" representing the
// client's request for the ListContainerInstances operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the ListContainerInstances method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the ListContainerInstancesRequest method.
//    req, resp := client.ListContainerInstancesRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) ListContainerInstancesRequest(input *ListContainerInstancesInput) (req *request.Request, output *ListContainerInstancesOutput) {
	op := &request.Operation{
		Name:       opListContainerInstances,
		HTTPMethod: "POST",
		HTTPPath:   "/",
		Paginator: &request.Paginator{
			InputTokens:     []string{"nextToken"},
			OutputTokens:    []string{"nextToken"},
			LimitToken:      "maxResults",
			TruncationToken: "",
		},
	}

	if input == nil {
		input = &ListContainerInstancesInput{}
	}

	req = c.newRequest(op, input, output)
	output = &ListContainerInstancesOutput{}
	req.Data = output
	return
}

// Returns a list of container instances in a specified cluster.
func (c *ECS) ListContainerInstances(input *ListContainerInstancesInput) (*ListContainerInstancesOutput, error) {
	req, out := c.ListContainerInstancesRequest(input)
	err := req.Send()
	return out, err
}

// ListContainerInstancesPages iterates over the pages of a ListContainerInstances operation,
// calling the "fn" function with the response data for each page. To stop
// iterating, return false from the fn function.
//
// See ListContainerInstances method for more information on how to use this operation.
//
// Note: This operation can generate multiple requests to a service.
//
//    // Example iterating over at most 3 pages of a ListContainerInstances operation.
//    pageNum := 0
//    err := client.ListContainerInstancesPages(params,
//        func(page *ListContainerInstancesOutput, lastPage bool) bool {
//            pageNum++
//            fmt.Println(page)
//            return pageNum <= 3
//        })
//
func (c *ECS) ListContainerInstancesPages(input *ListContainerInstancesInput, fn func(p *ListContainerInstancesOutput, lastPage bool) (shouldContinue bool)) error {
	page, _ := c.ListContainerInstancesRequest(input)
	page.Handlers.Build.PushBack(request.MakeAddToUserAgentFreeFormHandler("Paginator"))
	return page.EachPage(func(p interface{}, lastPage bool) bool {
		return fn(p.(*ListContainerInstancesOutput), lastPage)
	})
}

const opListServices = "ListServices"

// ListServicesRequest generates a "aws/request.Request" representing the
// client's request for the ListServices operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the ListServices method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the ListServicesRequest method.
//    req, resp := client.ListServicesRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) ListServicesRequest(input *ListServicesInput) (req *request.Request, output *ListServicesOutput) {
	op := &request.Operation{
		Name:       opListServices,
		HTTPMethod: "POST",
		HTTPPath:   "/",
		Paginator: &request.Paginator{
			InputTokens:     []string{"nextToken"},
			OutputTokens:    []string{"nextToken"},
			LimitToken:      "maxResults",
			TruncationToken: "",
		},
	}

	if input == nil {
		input = &ListServicesInput{}
	}

	req = c.newRequest(op, input, output)
	output = &ListServicesOutput{}
	req.Data = output
	return
}

// Lists the services that are running in a specified cluster.
func (c *ECS) ListServices(input *ListServicesInput) (*ListServicesOutput, error) {
	req, out := c.ListServicesRequest(input)
	err := req.Send()
	return out, err
}

// ListServicesPages iterates over the pages of a ListServices operation,
// calling the "fn" function with the response data for each page. To stop
// iterating, return false from the fn function.
//
// See ListServices method for more information on how to use this operation.
//
// Note: This operation can generate multiple requests to a service.
//
//    // Example iterating over at most 3 pages of a ListServices operation.
//    pageNum := 0
//    err := client.ListServicesPages(params,
//        func(page *ListServicesOutput, lastPage bool) bool {
//            pageNum++
//            fmt.Println(page)
//            return pageNum <= 3
//        })
//
func (c *ECS) ListServicesPages(input *ListServicesInput, fn func(p *ListServicesOutput, lastPage bool) (shouldContinue bool)) error {
	page, _ := c.ListServicesRequest(input)
	page.Handlers.Build.PushBack(request.MakeAddToUserAgentFreeFormHandler("Paginator"))
	return page.EachPage(func(p interface{}, lastPage bool) bool {
		return fn(p.(*ListServicesOutput), lastPage)
	})
}

const opListTaskDefinitionFamilies = "ListTaskDefinitionFamilies"

// ListTaskDefinitionFamiliesRequest generates a "aws/request.Request" representing the
// client's request for the ListTaskDefinitionFamilies operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the ListTaskDefinitionFamilies method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the ListTaskDefinitionFamiliesRequest method.
//    req, resp := client.ListTaskDefinitionFamiliesRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) ListTaskDefinitionFamiliesRequest(input *ListTaskDefinitionFamiliesInput) (req *request.Request, output *ListTaskDefinitionFamiliesOutput) {
	op := &request.Operation{
		Name:       opListTaskDefinitionFamilies,
		HTTPMethod: "POST",
		HTTPPath:   "/",
		Paginator: &request.Paginator{
			InputTokens:     []string{"nextToken"},
			OutputTokens:    []string{"nextToken"},
			LimitToken:      "maxResults",
			TruncationToken: "",
		},
	}

	if input == nil {
		input = &ListTaskDefinitionFamiliesInput{}
	}

	req = c.newRequest(op, input, output)
	output = &ListTaskDefinitionFamiliesOutput{}
	req.Data = output
	return
}

// Returns a list of task definition families that are registered to your account
// (which may include task definition families that no longer have any ACTIVE
// task definition revisions).
//
// You can filter out task definition families that do not contain any ACTIVE
// task definition revisions by setting the status parameter to ACTIVE. You
// can also filter the results with the familyPrefix parameter.
func (c *ECS) ListTaskDefinitionFamilies(input *ListTaskDefinitionFamiliesInput) (*ListTaskDefinitionFamiliesOutput, error) {
	req, out := c.ListTaskDefinitionFamiliesRequest(input)
	err := req.Send()
	return out, err
}

// ListTaskDefinitionFamiliesPages iterates over the pages of a ListTaskDefinitionFamilies operation,
// calling the "fn" function with the response data for each page. To stop
// iterating, return false from the fn function.
//
// See ListTaskDefinitionFamilies method for more information on how to use this operation.
//
// Note: This operation can generate multiple requests to a service.
//
//    // Example iterating over at most 3 pages of a ListTaskDefinitionFamilies operation.
//    pageNum := 0
//    err := client.ListTaskDefinitionFamiliesPages(params,
//        func(page *ListTaskDefinitionFamiliesOutput, lastPage bool) bool {
//            pageNum++
//            fmt.Println(page)
//            return pageNum <= 3
//        })
//
func (c *ECS) ListTaskDefinitionFamiliesPages(input *ListTaskDefinitionFamiliesInput, fn func(p *ListTaskDefinitionFamiliesOutput, lastPage bool) (shouldContinue bool)) error {
	page, _ := c.ListTaskDefinitionFamiliesRequest(input)
	page.Handlers.Build.PushBack(request.MakeAddToUserAgentFreeFormHandler("Paginator"))
	return page.EachPage(func(p interface{}, lastPage bool) bool {
		return fn(p.(*ListTaskDefinitionFamiliesOutput), lastPage)
	})
}

const opListTaskDefinitions = "ListTaskDefinitions"

// ListTaskDefinitionsRequest generates a "aws/request.Request" representing the
// client's request for the ListTaskDefinitions operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the ListTaskDefinitions method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the ListTaskDefinitionsRequest method.
//    req, resp := client.ListTaskDefinitionsRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) ListTaskDefinitionsRequest(input *ListTaskDefinitionsInput) (req *request.Request, output *ListTaskDefinitionsOutput) {
	op := &request.Operation{
		Name:       opListTaskDefinitions,
		HTTPMethod: "POST",
		HTTPPath:   "/",
		Paginator: &request.Paginator{
			InputTokens:     []string{"nextToken"},
			OutputTokens:    []string{"nextToken"},
			LimitToken:      "maxResults",
			TruncationToken: "",
		},
	}

	if input == nil {
		input = &ListTaskDefinitionsInput{}
	}

	req = c.newRequest(op, input, output)
	output = &ListTaskDefinitionsOutput{}
	req.Data = output
	return
}

// Returns a list of task definitions that are registered to your account. You
// can filter the results by family name with the familyPrefix parameter or
// by status with the status parameter.
func (c *ECS) ListTaskDefinitions(input *ListTaskDefinitionsInput) (*ListTaskDefinitionsOutput, error) {
	req, out := c.ListTaskDefinitionsRequest(input)
	err := req.Send()
	return out, err
}

// ListTaskDefinitionsPages iterates over the pages of a ListTaskDefinitions operation,
// calling the "fn" function with the response data for each page. To stop
// iterating, return false from the fn function.
//
// See ListTaskDefinitions method for more information on how to use this operation.
//
// Note: This operation can generate multiple requests to a service.
//
//    // Example iterating over at most 3 pages of a ListTaskDefinitions operation.
//    pageNum := 0
//    err := client.ListTaskDefinitionsPages(params,
//        func(page *ListTaskDefinitionsOutput, lastPage bool) bool {
//            pageNum++
//            fmt.Println(page)
//            return pageNum <= 3
//        })
//
func (c *ECS) ListTaskDefinitionsPages(input *ListTaskDefinitionsInput, fn func(p *ListTaskDefinitionsOutput, lastPage bool) (shouldContinue bool)) error {
	page, _ := c.ListTaskDefinitionsRequest(input)
	page.Handlers.Build.PushBack(request.MakeAddToUserAgentFreeFormHandler("Paginator"))
	return page.EachPage(func(p interface{}, lastPage bool) bool {
		return fn(p.(*ListTaskDefinitionsOutput), lastPage)
	})
}

const opListTasks = "ListTasks"

// ListTasksRequest generates a "aws/request.Request" representing the
// client's request for the ListTasks operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the ListTasks method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the ListTasksRequest method.
//    req, resp := client.ListTasksRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) ListTasksRequest(input *ListTasksInput) (req *request.Request, output *ListTasksOutput) {
	op := &request.Operation{
		Name:       opListTasks,
		HTTPMethod: "POST",
		HTTPPath:   "/",
		Paginator: &request.Paginator{
			InputTokens:     []string{"nextToken"},
			OutputTokens:    []string{"nextToken"},
			LimitToken:      "maxResults",
			TruncationToken: "",
		},
	}

	if input == nil {
		input = &ListTasksInput{}
	}

	req = c.newRequest(op, input, output)
	output = &ListTasksOutput{}
	req.Data = output
	return
}

// Returns a list of tasks for a specified cluster. You can filter the results
// by family name, by a particular container instance, or by the desired status
// of the task with the family, containerInstance, and desiredStatus parameters.
//
// Recently-stopped tasks might appear in the returned results. Currently,
// stopped tasks appear in the returned results for at least one hour.
func (c *ECS) ListTasks(input *ListTasksInput) (*ListTasksOutput, error) {
	req, out := c.ListTasksRequest(input)
	err := req.Send()
	return out, err
}

// ListTasksPages iterates over the pages of a ListTasks operation,
// calling the "fn" function with the response data for each page. To stop
// iterating, return false from the fn function.
//
// See ListTasks method for more information on how to use this operation.
//
// Note: This operation can generate multiple requests to a service.
//
//    // Example iterating over at most 3 pages of a ListTasks operation.
//    pageNum := 0
//    err := client.ListTasksPages(params,
//        func(page *ListTasksOutput, lastPage bool) bool {
//            pageNum++
//            fmt.Println(page)
//            return pageNum <= 3
//        })
//
func (c *ECS) ListTasksPages(input *ListTasksInput, fn func(p *ListTasksOutput, lastPage bool) (shouldContinue bool)) error {
	page, _ := c.ListTasksRequest(input)
	page.Handlers.Build.PushBack(request.MakeAddToUserAgentFreeFormHandler("Paginator"))
	return page.EachPage(func(p interface{}, lastPage bool) bool {
		return fn(p.(*ListTasksOutput), lastPage)
	})
}

const opRegisterContainerInstance = "RegisterContainerInstance"

// RegisterContainerInstanceRequest generates a "aws/request.Request" representing the
// client's request for the RegisterContainerInstance operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the RegisterContainerInstance method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the RegisterContainerInstanceRequest method.
//    req, resp := client.RegisterContainerInstanceRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) RegisterContainerInstanceRequest(input *RegisterContainerInstanceInput) (req *request.Request, output *RegisterContainerInstanceOutput) {
	op := &request.Operation{
		Name:       opRegisterContainerInstance,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &RegisterContainerInstanceInput{}
	}

	req = c.newRequest(op, input, output)
	output = &RegisterContainerInstanceOutput{}
	req.Data = output
	return
}

// This action is only used by the Amazon EC2 Container Service agent, and it
// is not intended for use outside of the agent.
//
//  Registers an EC2 instance into the specified cluster. This instance becomes
// available to place containers on.
func (c *ECS) RegisterContainerInstance(input *RegisterContainerInstanceInput) (*RegisterContainerInstanceOutput, error) {
	req, out := c.RegisterContainerInstanceRequest(input)
	err := req.Send()
	return out, err
}

const opRegisterTaskDefinition = "RegisterTaskDefinition"

// RegisterTaskDefinitionRequest generates a "aws/request.Request" representing the
// client's request for the RegisterTaskDefinition operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the RegisterTaskDefinition method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the RegisterTaskDefinitionRequest method.
//    req, resp := client.RegisterTaskDefinitionRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) RegisterTaskDefinitionRequest(input *RegisterTaskDefinitionInput) (req *request.Request, output *RegisterTaskDefinitionOutput) {
	op := &request.Operation{
		Name:       opRegisterTaskDefinition,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &RegisterTaskDefinitionInput{}
	}

	req = c.newRequest(op, input, output)
	output = &RegisterTaskDefinitionOutput{}
	req.Data = output
	return
}

// Registers a new task definition from the supplied family and containerDefinitions.
// Optionally, you can add data volumes to your containers with the volumes
// parameter. For more information about task definition parameters and defaults,
// see Amazon ECS Task Definitions (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_defintions.html)
// in the Amazon EC2 Container Service Developer Guide.
//
// You can specify an IAM role for your task with the taskRoleArn parameter.
// When you specify an IAM role for a task, its containers can then use the
// latest versions of the AWS CLI or SDKs to make API requests to the AWS services
// that are specified in the IAM policy associated with the role. For more information,
// see IAM Roles for Tasks (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-iam-roles.html)
// in the Amazon EC2 Container Service Developer Guide.
//
// You can specify a Docker networking mode for the containers in your task
// definition with the networkMode parameter. The available network modes correspond
// to those described in Network settings (https://docs.docker.com/engine/reference/run/#/network-settings)
// in the Docker run reference.
func (c *ECS) RegisterTaskDefinition(input *RegisterTaskDefinitionInput) (*RegisterTaskDefinitionOutput, error) {
	req, out := c.RegisterTaskDefinitionRequest(input)
	err := req.Send()
	return out, err
}

const opRunTask = "RunTask"

// RunTaskRequest generates a "aws/request.Request" representing the
// client's request for the RunTask operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the RunTask method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the RunTaskRequest method.
//    req, resp := client.RunTaskRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) RunTaskRequest(input *RunTaskInput) (req *request.Request, output *RunTaskOutput) {
	op := &request.Operation{
		Name:       opRunTask,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &RunTaskInput{}
	}

	req = c.newRequest(op, input, output)
	output = &RunTaskOutput{}
	req.Data = output
	return
}

// Start a task using random placement and the default Amazon ECS scheduler.
// To use your own scheduler or place a task on a specific container instance,
// use StartTask instead.
//
//  The count parameter is limited to 10 tasks per call.
func (c *ECS) RunTask(input *RunTaskInput) (*RunTaskOutput, error) {
	req, out := c.RunTaskRequest(input)
	err := req.Send()
	return out, err
}

const opStartTask = "StartTask"

// StartTaskRequest generates a "aws/request.Request" representing the
// client's request for the StartTask operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the StartTask method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the StartTaskRequest method.
//    req, resp := client.StartTaskRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) StartTaskRequest(input *StartTaskInput) (req *request.Request, output *StartTaskOutput) {
	op := &request.Operation{
		Name:       opStartTask,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &StartTaskInput{}
	}

	req = c.newRequest(op, input, output)
	output = &StartTaskOutput{}
	req.Data = output
	return
}

// Starts a new task from the specified task definition on the specified container
// instance or instances. To use the default Amazon ECS scheduler to place your
// task, use RunTask instead.
//
//  The list of container instances to start tasks on is limited to 10.
func (c *ECS) StartTask(input *StartTaskInput) (*StartTaskOutput, error) {
	req, out := c.StartTaskRequest(input)
	err := req.Send()
	return out, err
}

const opStopTask = "StopTask"

// StopTaskRequest generates a "aws/request.Request" representing the
// client's request for the StopTask operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the StopTask method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the StopTaskRequest method.
//    req, resp := client.StopTaskRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) StopTaskRequest(input *StopTaskInput) (req *request.Request, output *StopTaskOutput) {
	op := &request.Operation{
		Name:       opStopTask,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &StopTaskInput{}
	}

	req = c.newRequest(op, input, output)
	output = &StopTaskOutput{}
	req.Data = output
	return
}

// Stops a running task.
//
// When StopTask is called on a task, the equivalent of docker stop is issued
// to the containers running in the task. This results in a SIGTERM and a 30-second
// timeout, after which SIGKILL is sent and the containers are forcibly stopped.
// If the container handles the SIGTERM gracefully and exits within 30 seconds
// from receiving it, no SIGKILL is sent.
func (c *ECS) StopTask(input *StopTaskInput) (*StopTaskOutput, error) {
	req, out := c.StopTaskRequest(input)
	err := req.Send()
	return out, err
}

const opSubmitContainerStateChange = "SubmitContainerStateChange"

// SubmitContainerStateChangeRequest generates a "aws/request.Request" representing the
// client's request for the SubmitContainerStateChange operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the SubmitContainerStateChange method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the SubmitContainerStateChangeRequest method.
//    req, resp := client.SubmitContainerStateChangeRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) SubmitContainerStateChangeRequest(input *SubmitContainerStateChangeInput) (req *request.Request, output *SubmitContainerStateChangeOutput) {
	op := &request.Operation{
		Name:       opSubmitContainerStateChange,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &SubmitContainerStateChangeInput{}
	}

	req = c.newRequest(op, input, output)
	output = &SubmitContainerStateChangeOutput{}
	req.Data = output
	return
}

// This action is only used by the Amazon EC2 Container Service agent, and it
// is not intended for use outside of the agent.
//
//  Sent to acknowledge that a container changed states.
func (c *ECS) SubmitContainerStateChange(input *SubmitContainerStateChangeInput) (*SubmitContainerStateChangeOutput, error) {
	req, out := c.SubmitContainerStateChangeRequest(input)
	err := req.Send()
	return out, err
}

const opSubmitTaskStateChange = "SubmitTaskStateChange"

// SubmitTaskStateChangeRequest generates a "aws/request.Request" representing the
// client's request for the SubmitTaskStateChange operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the SubmitTaskStateChange method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the SubmitTaskStateChangeRequest method.
//    req, resp := client.SubmitTaskStateChangeRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) SubmitTaskStateChangeRequest(input *SubmitTaskStateChangeInput) (req *request.Request, output *SubmitTaskStateChangeOutput) {
	op := &request.Operation{
		Name:       opSubmitTaskStateChange,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &SubmitTaskStateChangeInput{}
	}

	req = c.newRequest(op, input, output)
	output = &SubmitTaskStateChangeOutput{}
	req.Data = output
	return
}

// This action is only used by the Amazon EC2 Container Service agent, and it
// is not intended for use outside of the agent.
//
//  Sent to acknowledge that a task changed states.
func (c *ECS) SubmitTaskStateChange(input *SubmitTaskStateChangeInput) (*SubmitTaskStateChangeOutput, error) {
	req, out := c.SubmitTaskStateChangeRequest(input)
	err := req.Send()
	return out, err
}

const opUpdateContainerAgent = "UpdateContainerAgent"

// UpdateContainerAgentRequest generates a "aws/request.Request" representing the
// client's request for the UpdateContainerAgent operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the UpdateContainerAgent method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the UpdateContainerAgentRequest method.
//    req, resp := client.UpdateContainerAgentRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) UpdateContainerAgentRequest(input *UpdateContainerAgentInput) (req *request.Request, output *UpdateContainerAgentOutput) {
	op := &request.Operation{
		Name:       opUpdateContainerAgent,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &UpdateContainerAgentInput{}
	}

	req = c.newRequest(op, input, output)
	output = &UpdateContainerAgentOutput{}
	req.Data = output
	return
}

// Updates the Amazon ECS container agent on a specified container instance.
// Updating the Amazon ECS container agent does not interrupt running tasks
// or services on the container instance. The process for updating the agent
// differs depending on whether your container instance was launched with the
// Amazon ECS-optimized AMI or another operating system.
//
//  UpdateContainerAgent requires the Amazon ECS-optimized AMI or Amazon Linux
// with the ecs-init service installed and running. For help updating the Amazon
// ECS container agent on other operating systems, see Manually Updating the
// Amazon ECS Container Agent (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-agent-update.html#manually_update_agent)
// in the Amazon EC2 Container Service Developer Guide.
func (c *ECS) UpdateContainerAgent(input *UpdateContainerAgentInput) (*UpdateContainerAgentOutput, error) {
	req, out := c.UpdateContainerAgentRequest(input)
	err := req.Send()
	return out, err
}

const opUpdateService = "UpdateService"

// UpdateServiceRequest generates a "aws/request.Request" representing the
// client's request for the UpdateService operation. The "output" return
// value can be used to capture response data after the request's "Send" method
// is called.
//
// Creating a request object using this method should be used when you want to inject
// custom logic into the request's lifecycle using a custom handler, or if you want to
// access properties on the request object before or after sending the request. If
// you just want the service response, call the UpdateService method directly
// instead.
//
// Note: You must call the "Send" method on the returned request object in order
// to execute the request.
//
//    // Example sending a request using the UpdateServiceRequest method.
//    req, resp := client.UpdateServiceRequest(params)
//
//    err := req.Send()
//    if err == nil { // resp is now filled
//        fmt.Println(resp)
//    }
//
func (c *ECS) UpdateServiceRequest(input *UpdateServiceInput) (req *request.Request, output *UpdateServiceOutput) {
	op := &request.Operation{
		Name:       opUpdateService,
		HTTPMethod: "POST",
		HTTPPath:   "/",
	}

	if input == nil {
		input = &UpdateServiceInput{}
	}

	req = c.newRequest(op, input, output)
	output = &UpdateServiceOutput{}
	req.Data = output
	return
}

// Modifies the desired count, deployment configuration, or task definition
// used in a service.
//
// You can add to or subtract from the number of instantiations of a task definition
// in a service by specifying the cluster that the service is running in and
// a new desiredCount parameter.
//
// You can use UpdateService to modify your task definition and deploy a new
// version of your service.
//
// You can also update the deployment configuration of a service. When a deployment
// is triggered by updating the task definition of a service, the service scheduler
// uses the deployment configuration parameters, minimumHealthyPercent and maximumPercent,
// to determine the deployment strategy.
//
// If the minimumHealthyPercent is below 100%, the scheduler can ignore the
// desiredCount temporarily during a deployment. For example, if your service
// has a desiredCount of four tasks, a minimumHealthyPercent of 50% allows the
// scheduler to stop two existing tasks before starting two new tasks. Tasks
// for services that do not use a load balancer are considered healthy if they
// are in the RUNNING state; tasks for services that do use a load balancer
// are considered healthy if they are in the RUNNING state and the container
// instance it is hosted on is reported as healthy by the load balancer.
//
// The maximumPercent parameter represents an upper limit on the number of
// running tasks during a deployment, which enables you to define the deployment
// batch size. For example, if your service has a desiredCount of four tasks,
// a maximumPercent value of 200% starts four new tasks before stopping the
// four older tasks (provided that the cluster resources required to do this
// are available).
//
// When UpdateService stops a task during a deployment, the equivalent of docker
// stop is issued to the containers running in the task. This results in a SIGTERM
// and a 30-second timeout, after which SIGKILL is sent and the containers are
// forcibly stopped. If the container handles the SIGTERM gracefully and exits
// within 30 seconds from receiving it, no SIGKILL is sent.
//
// When the service scheduler launches new tasks, it attempts to balance them
// across the Availability Zones in your cluster with the following logic:
//
//   Determine which of the container instances in your cluster can support
// your service's task definition (for example, they have the required CPU,
// memory, ports, and container instance attributes).
//
//   Sort the valid container instances by the fewest number of running tasks
// for this service in the same Availability Zone as the instance. For example,
// if zone A has one running service task and zones B and C each have zero,
// valid container instances in either zone B or C are considered optimal for
// placement.
//
//   Place the new service task on a valid container instance in an optimal
// Availability Zone (based on the previous steps), favoring container instances
// with the fewest number of running tasks for this service.
func (c *ECS) UpdateService(input *UpdateServiceInput) (*UpdateServiceOutput, error) {
	req, out := c.UpdateServiceRequest(input)
	err := req.Send()
	return out, err
}

// The attributes applicable to a container instance when it is registered.
type Attribute struct {
	_ struct{} `type:"structure"`

	// The name of the container instance attribute.
	Name *string `locationName:"name" type:"string" required:"true"`

	// The value of the container instance attribute (at this time, the value here
	// is Null, but this could change in future revisions for expandability).
	Value *string `locationName:"value" type:"string"`
}

// String returns the string representation
func (s Attribute) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Attribute) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *Attribute) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "Attribute"}
	if s.Name == nil {
		invalidParams.Add(request.NewErrParamRequired("Name"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

// A regional grouping of one or more container instances on which you can run
// task requests. Each account receives a default cluster the first time you
// use the Amazon ECS service, but you may also create other clusters. Clusters
// may contain more than one instance type simultaneously.
type Cluster struct {
	_ struct{} `type:"structure"`

	// The number of services that are running on the cluster in an ACTIVE state.
	// You can view these services with ListServices.
	ActiveServicesCount *int64 `locationName:"activeServicesCount" type:"integer"`

	// The Amazon Resource Name (ARN) that identifies the cluster. The ARN contains
	// the arn:aws:ecs namespace, followed by the region of the cluster, the AWS
	// account ID of the cluster owner, the cluster namespace, and then the cluster
	// name. For example, arn:aws:ecs:region:012345678910:cluster/test ..
	ClusterArn *string `locationName:"clusterArn" type:"string"`

	// A user-generated string that you use to identify your cluster.
	ClusterName *string `locationName:"clusterName" type:"string"`

	// The number of tasks in the cluster that are in the PENDING state.
	PendingTasksCount *int64 `locationName:"pendingTasksCount" type:"integer"`

	// The number of container instances registered into the cluster.
	RegisteredContainerInstancesCount *int64 `locationName:"registeredContainerInstancesCount" type:"integer"`

	// The number of tasks in the cluster that are in the RUNNING state.
	RunningTasksCount *int64 `locationName:"runningTasksCount" type:"integer"`

	// The status of the cluster. The valid values are ACTIVE or INACTIVE. ACTIVE
	// indicates that you can register container instances with the cluster and
	// the associated instances can accept tasks.
	Status *string `locationName:"status" type:"string"`
}

// String returns the string representation
func (s Cluster) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Cluster) GoString() string {
	return s.String()
}

// A Docker container that is part of a task.
type Container struct {
	_ struct{} `type:"structure"`

	// The Amazon Resource Name (ARN) of the container.
	ContainerArn *string `locationName:"containerArn" type:"string"`

	// The exit code returned from the container.
	ExitCode *int64 `locationName:"exitCode" type:"integer"`

	// The last known status of the container.
	LastStatus *string `locationName:"lastStatus" type:"string"`

	// The name of the container.
	Name *string `locationName:"name" type:"string"`

	// The network bindings associated with the container.
	NetworkBindings []*NetworkBinding `locationName:"networkBindings" type:"list"`

	// A short (255 max characters) human-readable string to provide additional
	// detail about a running or stopped container.
	Reason *string `locationName:"reason" type:"string"`

	// The Amazon Resource Name (ARN) of the task.
	TaskArn *string `locationName:"taskArn" type:"string"`
}

// String returns the string representation
func (s Container) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Container) GoString() string {
	return s.String()
}

// Container definitions are used in task definitions to describe the different
// containers that are launched as part of a task.
type ContainerDefinition struct {
	_ struct{} `type:"structure"`

	// The command that is passed to the container. This parameter maps to Cmd in
	// the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the COMMAND parameter to docker run (https://docs.docker.com/reference/commandline/run/).
	// For more information, see https://docs.docker.com/reference/builder/#cmd
	// (https://docs.docker.com/reference/builder/#cmd).
	Command []*string `locationName:"command" type:"list"`

	// The number of cpu units reserved for the container. A container instance
	// has 1,024 cpu units for every CPU core. This parameter specifies the minimum
	// amount of CPU to reserve for a container, and containers share unallocated
	// CPU units with other containers on the instance with the same ratio as their
	// allocated amount. This parameter maps to CpuShares in the Create a container
	// (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --cpu-shares option to docker run (https://docs.docker.com/reference/commandline/run/).
	//
	//  You can determine the number of CPU units that are available per EC2 instance
	// type by multiplying the vCPUs listed for that instance type on the Amazon
	// EC2 Instances (http://aws.amazon.com/ec2/instance-types/) detail page by
	// 1,024.
	//
	//  For example, if you run a single-container task on a single-core instance
	// type with 512 CPU units specified for that container, and that is the only
	// task running on the container instance, that container could use the full
	// 1,024 CPU unit share at any given time. However, if you launched another
	// copy of the same task on that container instance, each task would be guaranteed
	// a minimum of 512 CPU units when needed, and each container could float to
	// higher CPU usage if the other container was not using it, but if both tasks
	// were 100% active all of the time, they would be limited to 512 CPU units.
	//
	// The Docker daemon on the container instance uses the CPU value to calculate
	// the relative CPU share ratios for running containers. For more information,
	// see CPU share constraint (https://docs.docker.com/reference/run/#cpu-share-constraint)
	// in the Docker documentation. The minimum valid CPU share value that the Linux
	// kernel allows is 2; however, the CPU parameter is not required, and you can
	// use CPU values below 2 in your container definitions. For CPU values below
	// 2 (including null), the behavior varies based on your Amazon ECS container
	// agent version:
	//
	//    Agent versions less than or equal to 1.1.0: Null and zero CPU values
	// are passed to Docker as 0, which Docker then converts to 1,024 CPU shares.
	// CPU values of 1 are passed to Docker as 1, which the Linux kernel converts
	// to 2 CPU shares.
	//
	//    Agent versions greater than or equal to 1.2.0: Null, zero, and CPU values
	// of 1 are passed to Docker as 2.
	Cpu *int64 `locationName:"cpu" type:"integer"`

	// When this parameter is true, networking is disabled within the container.
	// This parameter maps to NetworkDisabled in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/).
	DisableNetworking *bool `locationName:"disableNetworking" type:"boolean"`

	// A list of DNS search domains that are presented to the container. This parameter
	// maps to DnsSearch in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --dns-search option to docker run (https://docs.docker.com/reference/commandline/run/).
	DnsSearchDomains []*string `locationName:"dnsSearchDomains" type:"list"`

	// A list of DNS servers that are presented to the container. This parameter
	// maps to Dns in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --dns option to docker run (https://docs.docker.com/reference/commandline/run/).
	DnsServers []*string `locationName:"dnsServers" type:"list"`

	// A key/value map of labels to add to the container. This parameter maps to
	// Labels in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --label option to docker run (https://docs.docker.com/reference/commandline/run/).
	// This parameter requires version 1.18 of the Docker Remote API or greater
	// on your container instance. To check the Docker Remote API version on your
	// container instance, log into your container instance and run the following
	// command: sudo docker version | grep "Server API version"
	DockerLabels map[string]*string `locationName:"dockerLabels" type:"map"`

	// A list of strings to provide custom labels for SELinux and AppArmor multi-level
	// security systems. This parameter maps to SecurityOpt in the Create a container
	// (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --security-opt option to docker run (https://docs.docker.com/reference/commandline/run/).
	//
	//  The Amazon ECS container agent running on a container instance must register
	// with the ECS_SELINUX_CAPABLE=true or ECS_APPARMOR_CAPABLE=true environment
	// variables before containers placed on that instance can use these security
	// options. For more information, see Amazon ECS Container Agent Configuration
	// (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-agent-config.html)
	// in the Amazon EC2 Container Service Developer Guide.
	DockerSecurityOptions []*string `locationName:"dockerSecurityOptions" type:"list"`

	// Early versions of the Amazon ECS container agent do not properly handle entryPoint
	// parameters. If you have problems using entryPoint, update your container
	// agent or enter your commands and arguments as command array items instead.
	//
	//  The entry point that is passed to the container. This parameter maps to
	// Entrypoint in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --entrypoint option to docker run (https://docs.docker.com/reference/commandline/run/).
	// For more information, see https://docs.docker.com/reference/builder/#entrypoint
	// (https://docs.docker.com/reference/builder/#entrypoint).
	EntryPoint []*string `locationName:"entryPoint" type:"list"`

	// The environment variables to pass to a container. This parameter maps to
	// Env in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --env option to docker run (https://docs.docker.com/reference/commandline/run/).
	//
	//  We do not recommend using plain text environment variables for sensitive
	// information, such as credential data.
	Environment []*KeyValuePair `locationName:"environment" type:"list"`

	// If the essential parameter of a container is marked as true, and that container
	// fails or stops for any reason, all other containers that are part of the
	// task are stopped. If the essential parameter of a container is marked as
	// false, then its failure does not affect the rest of the containers in a task.
	// If this parameter is omitted, a container is assumed to be essential.
	//
	// All tasks must have at least one essential container. If you have an application
	// that is composed of multiple containers, you should group containers that
	// are used for a common purpose into components, and separate the different
	// components into multiple task definitions. For more information, see Application
	// Architecture (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/application_architecture.html)
	// in the Amazon EC2 Container Service Developer Guide.
	Essential *bool `locationName:"essential" type:"boolean"`

	// A list of hostnames and IP address mappings to append to the /etc/hosts file
	// on the container. This parameter maps to ExtraHosts in the Create a container
	// (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --add-host option to docker run (https://docs.docker.com/reference/commandline/run/).
	ExtraHosts []*HostEntry `locationName:"extraHosts" type:"list"`

	// The hostname to use for your container. This parameter maps to Hostname in
	// the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --hostname option to docker run (https://docs.docker.com/reference/commandline/run/).
	Hostname *string `locationName:"hostname" type:"string"`

	// The image used to start a container. This string is passed directly to the
	// Docker daemon. Images in the Docker Hub registry are available by default.
	// Other repositories are specified with  repository-url/image:tag . Up to 255
	// letters (uppercase and lowercase), numbers, hyphens, underscores, colons,
	// periods, forward slashes, and number signs are allowed. This parameter maps
	// to Image in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the IMAGE parameter of docker run (https://docs.docker.com/reference/commandline/run/).
	//
	//   Images in official repositories on Docker Hub use a single name (for example,
	// ubuntu or mongo).
	//
	//   Images in other repositories on Docker Hub are qualified with an organization
	// name (for example, amazon/amazon-ecs-agent).
	//
	//   Images in other online repositories are qualified further by a domain
	// name (for example, quay.io/assemblyline/ubuntu).
	Image *string `locationName:"image" type:"string"`

	// The link parameter allows containers to communicate with each other without
	// the need for port mappings, using the name parameter and optionally, an alias
	// for the link. This construct is analogous to name:alias in Docker links.
	// Up to 255 letters (uppercase and lowercase), numbers, hyphens, and underscores
	// are allowed for each name and alias. For more information on linking Docker
	// containers, see https://docs.docker.com/userguide/dockerlinks/ (https://docs.docker.com/userguide/dockerlinks/).
	// This parameter maps to Links in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --link option to docker run (https://docs.docker.com/reference/commandline/run/).
	//
	//  Containers that are collocated on a single container instance may be able
	// to communicate with each other without requiring links or host port mappings.
	// Network isolation is achieved on the container instance using security groups
	// and VPC settings.
	Links []*string `locationName:"links" type:"list"`

	// The log configuration specification for the container. This parameter maps
	// to LogConfig in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --log-driver option to docker run (https://docs.docker.com/reference/commandline/run/).
	// By default, containers use the same logging driver that the Docker daemon
	// uses; however the container may use a different logging driver than the Docker
	// daemon by specifying a log driver with this parameter in the container definition.
	// To use a different logging driver for a container, the log system must be
	// configured properly on the container instance (or on a different log server
	// for remote logging options). For more information on the options for different
	// supported log drivers, see Configure logging drivers (https://docs.docker.com/engine/admin/logging/overview/)
	// in the Docker documentation.
	//
	//  Amazon ECS currently supports a subset of the logging drivers available
	// to the Docker daemon (shown in the LogConfiguration data type). Currently
	// unsupported log drivers may be available in future releases of the Amazon
	// ECS container agent.
	//
	//  This parameter requires version 1.18 of the Docker Remote API or greater
	// on your container instance. To check the Docker Remote API version on your
	// container instance, log into your container instance and run the following
	// command: sudo docker version | grep "Server API version"
	//
	//  The Amazon ECS container agent running on a container instance must register
	// the logging drivers available on that instance with the ECS_AVAILABLE_LOGGING_DRIVERS
	// environment variable before containers placed on that instance can use these
	// log configuration options. For more information, see Amazon ECS Container
	// Agent Configuration (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-agent-config.html)
	// in the Amazon EC2 Container Service Developer Guide.
	LogConfiguration *LogConfiguration `locationName:"logConfiguration" type:"structure"`

	// The hard limit (in MiB) of memory to present to the container. If your container
	// attempts to exceed the memory specified here, the container is killed. This
	// parameter maps to Memory in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --memory option to docker run (https://docs.docker.com/reference/commandline/run/).
	//
	// You must specify a non-zero integer for one or both of memory or memoryReservation
	// in container definitions. If you specify both, memory must be greater than
	// memoryReservation. If you specify memoryReservation, then that value is subtracted
	// from the available memory resources for the container instance on which the
	// container is placed; otherwise, the value of memory is used.
	//
	// The Docker daemon reserves a minimum of 4 MiB of memory for a container,
	// so you should not specify fewer than 4 MiB of memory for your containers.
	Memory *int64 `locationName:"memory" type:"integer"`

	// The soft limit (in MiB) of memory to reserve for the container. When system
	// memory is under heavy contention, Docker attempts to keep the container memory
	// to this soft limit; however, your container can consume more memory when
	// it needs to, up to either the hard limit specified with the memory parameter
	// (if applicable), or all of the available memory on the container instance,
	// whichever comes first. This parameter maps to MemoryReservation in the Create
	// a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --memory-reservation option to docker run (https://docs.docker.com/reference/commandline/run/).
	//
	// You must specify a non-zero integer for one or both of memory or memoryReservation
	// in container definitions. If you specify both, memory must be greater than
	// memoryReservation. If you specify memoryReservation, then that value is subtracted
	// from the available memory resources for the container instance on which the
	// container is placed; otherwise, the value of memory is used.
	//
	// For example, if your container normally uses 128 MiB of memory, but occasionally
	// bursts to 256 MiB of memory for short periods of time, you can set a memoryReservation
	// of 128 MiB, and a memory hard limit of 300 MiB. This configuration would
	// allow the container to only reserve 128 MiB of memory from the remaining
	// resources on the container instance, but also allow the container to consume
	// more memory resources when needed.
	MemoryReservation *int64 `locationName:"memoryReservation" type:"integer"`

	// The mount points for data volumes in your container. This parameter maps
	// to Volumes in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --volume option to docker run (https://docs.docker.com/reference/commandline/run/).
	MountPoints []*MountPoint `locationName:"mountPoints" type:"list"`

	// The name of a container. If you are linking multiple containers together
	// in a task definition, the name of one container can be entered in the links
	// of another container to connect the containers. Up to 255 letters (uppercase
	// and lowercase), numbers, hyphens, and underscores are allowed. This parameter
	// maps to name in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --name option to docker run (https://docs.docker.com/reference/commandline/run/).
	Name *string `locationName:"name" type:"string"`

	// The list of port mappings for the container. Port mappings allow containers
	// to access ports on the host container instance to send or receive traffic.
	// This parameter maps to PortBindings in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --publish option to docker run (https://docs.docker.com/reference/commandline/run/).
	// If the network mode of a task definition is set to none, then you cannot
	// specify port mappings. If the network mode of a task definition is set to
	// host, then host ports must either be undefined or they must match the container
	// port in the port mapping.
	//
	//  After a task reaches the RUNNING status, manual and automatic host and
	// container port assignments are visible in the Network Bindings section of
	// a container description of a selected task in the Amazon ECS console, or
	// the networkBindings section DescribeTasks responses.
	PortMappings []*PortMapping `locationName:"portMappings" type:"list"`

	// When this parameter is true, the container is given elevated privileges on
	// the host container instance (similar to the root user). This parameter maps
	// to Privileged in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --privileged option to docker run (https://docs.docker.com/reference/commandline/run/).
	Privileged *bool `locationName:"privileged" type:"boolean"`

	// When this parameter is true, the container is given read-only access to its
	// root file system. This parameter maps to ReadonlyRootfs in the Create a container
	// (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --read-only option to docker run.
	ReadonlyRootFilesystem *bool `locationName:"readonlyRootFilesystem" type:"boolean"`

	// A list of ulimits to set in the container. This parameter maps to Ulimits
	// in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --ulimit option to docker run (https://docs.docker.com/reference/commandline/run/).
	// Valid naming values are displayed in the Ulimit data type. This parameter
	// requires version 1.18 of the Docker Remote API or greater on your container
	// instance. To check the Docker Remote API version on your container instance,
	// log into your container instance and run the following command: sudo docker
	// version | grep "Server API version"
	Ulimits []*Ulimit `locationName:"ulimits" type:"list"`

	// The user name to use inside the container. This parameter maps to User in
	// the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --user option to docker run (https://docs.docker.com/reference/commandline/run/).
	User *string `locationName:"user" type:"string"`

	// Data volumes to mount from another container. This parameter maps to VolumesFrom
	// in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --volumes-from option to docker run (https://docs.docker.com/reference/commandline/run/).
	VolumesFrom []*VolumeFrom `locationName:"volumesFrom" type:"list"`

	// The working directory in which to run commands inside the container. This
	// parameter maps to WorkingDir in the Create a container (https://docs.docker.com/reference/api/docker_remote_api_v1.23/#create-a-container)
	// section of the Docker Remote API (https://docs.docker.com/reference/api/docker_remote_api_v1.23/)
	// and the --workdir option to docker run (https://docs.docker.com/reference/commandline/run/).
	WorkingDirectory *string `locationName:"workingDirectory" type:"string"`
}

// String returns the string representation
func (s ContainerDefinition) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ContainerDefinition) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *ContainerDefinition) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "ContainerDefinition"}
	if s.ExtraHosts != nil {
		for i, v := range s.ExtraHosts {
			if v == nil {
				continue
			}
			if err := v.Validate(); err != nil {
				invalidParams.AddNested(fmt.Sprintf("%s[%v]", "ExtraHosts", i), err.(request.ErrInvalidParams))
			}
		}
	}
	if s.LogConfiguration != nil {
		if err := s.LogConfiguration.Validate(); err != nil {
			invalidParams.AddNested("LogConfiguration", err.(request.ErrInvalidParams))
		}
	}
	if s.Ulimits != nil {
		for i, v := range s.Ulimits {
			if v == nil {
				continue
			}
			if err := v.Validate(); err != nil {
				invalidParams.AddNested(fmt.Sprintf("%s[%v]", "Ulimits", i), err.(request.ErrInvalidParams))
			}
		}
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

// An EC2 instance that is running the Amazon ECS agent and has been registered
// with a cluster.
type ContainerInstance struct {
	_ struct{} `type:"structure"`

	// This parameter returns true if the agent is actually connected to Amazon
	// ECS. Registered instances with an agent that may be unhealthy or stopped
	// return false, and instances without a connected agent cannot accept placement
	// requests.
	AgentConnected *bool `locationName:"agentConnected" type:"boolean"`

	// The status of the most recent agent update. If an update has never been requested,
	// this value is NULL.
	AgentUpdateStatus *string `locationName:"agentUpdateStatus" type:"string" enum:"AgentUpdateStatus"`

	// The attributes set for the container instance by the Amazon ECS container
	// agent at instance registration.
	Attributes []*Attribute `locationName:"attributes" type:"list"`

	// The Amazon Resource Name (ARN) of the container instance. The ARN contains
	// the arn:aws:ecs namespace, followed by the region of the container instance,
	// the AWS account ID of the container instance owner, the container-instance
	// namespace, and then the container instance ID. For example, arn:aws:ecs:region:aws_account_id:container-instance/container_instance_ID
	// .
	ContainerInstanceArn *string `locationName:"containerInstanceArn" type:"string"`

	// The EC2 instance ID of the container instance.
	Ec2InstanceId *string `locationName:"ec2InstanceId" type:"string"`

	// The number of tasks on the container instance that are in the PENDING status.
	PendingTasksCount *int64 `locationName:"pendingTasksCount" type:"integer"`

	// The registered resources on the container instance that are in use by current
	// tasks.
	RegisteredResources []*Resource `locationName:"registeredResources" type:"list"`

	// The remaining resources of the container instance that are available for
	// new tasks.
	RemainingResources []*Resource `locationName:"remainingResources" type:"list"`

	// The number of tasks on the container instance that are in the RUNNING status.
	RunningTasksCount *int64 `locationName:"runningTasksCount" type:"integer"`

	// The status of the container instance. The valid values are ACTIVE or INACTIVE.
	// ACTIVE indicates that the container instance can accept tasks.
	Status *string `locationName:"status" type:"string"`

	// The version information for the Amazon ECS container agent and Docker daemon
	// running on the container instance.
	VersionInfo *VersionInfo `locationName:"versionInfo" type:"structure"`
}

// String returns the string representation
func (s ContainerInstance) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ContainerInstance) GoString() string {
	return s.String()
}

// The overrides that should be sent to a container.
type ContainerOverride struct {
	_ struct{} `type:"structure"`

	// The command to send to the container that overrides the default command from
	// the Docker image or the task definition.
	Command []*string `locationName:"command" type:"list"`

	// The environment variables to send to the container. You can add new environment
	// variables, which are added to the container at launch, or you can override
	// the existing environment variables from the Docker image or the task definition.
	Environment []*KeyValuePair `locationName:"environment" type:"list"`

	// The name of the container that receives the override.
	Name *string `locationName:"name" type:"string"`
}

// String returns the string representation
func (s ContainerOverride) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ContainerOverride) GoString() string {
	return s.String()
}

type CreateClusterInput struct {
	_ struct{} `type:"structure"`

	// The name of your cluster. If you do not specify a name for your cluster,
	// you create a cluster named default. Up to 255 letters (uppercase and lowercase),
	// numbers, hyphens, and underscores are allowed.
	ClusterName *string `locationName:"clusterName" type:"string"`
}

// String returns the string representation
func (s CreateClusterInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s CreateClusterInput) GoString() string {
	return s.String()
}

type CreateClusterOutput struct {
	_ struct{} `type:"structure"`

	// The full description of your new cluster.
	Cluster *Cluster `locationName:"cluster" type:"structure"`
}

// String returns the string representation
func (s CreateClusterOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s CreateClusterOutput) GoString() string {
	return s.String()
}

type CreateServiceInput struct {
	_ struct{} `type:"structure"`

	// Unique, case-sensitive identifier you provide to ensure the idempotency of
	// the request. Up to 32 ASCII characters are allowed.
	ClientToken *string `locationName:"clientToken" type:"string"`

	// The short name or full Amazon Resource Name (ARN) of the cluster on which
	// to run your service. If you do not specify a cluster, the default cluster
	// is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// Optional deployment parameters that control how many tasks run during the
	// deployment and the ordering of stopping and starting tasks.
	DeploymentConfiguration *DeploymentConfiguration `locationName:"deploymentConfiguration" type:"structure"`

	// The number of instantiations of the specified task definition to place and
	// keep running on your cluster.
	DesiredCount *int64 `locationName:"desiredCount" type:"integer" required:"true"`

	// A load balancer object representing the load balancer to use with your service.
	// Currently, you are limited to one load balancer per service. After you create
	// a service, the load balancer name, container name, and container port specified
	// in the service definition are immutable.
	//
	// For Elastic Load Balancing Classic load balancers, this object must contain
	// the load balancer name, the container name (as it appears in a container
	// definition), and the container port to access from the load balancer. When
	// a task from this service is placed on a container instance, the container
	// instance is registered with the load balancer specified here.
	//
	// For Elastic Load Balancing Application load balancers, this object must
	// contain the load balancer target group ARN, the container name (as it appears
	// in a container definition), and the container port to access from the load
	// balancer. When a task from this service is placed on a container instance,
	// the container instance and port combination is registered as a target in
	// the target group specified here.
	LoadBalancers []*LoadBalancer `locationName:"loadBalancers" type:"list"`

	// The name or full Amazon Resource Name (ARN) of the IAM role that allows Amazon
	// ECS to make calls to your load balancer on your behalf. This parameter is
	// required if you are using a load balancer with your service. If you specify
	// the role parameter, you must also specify a load balancer object with the
	// loadBalancers parameter.
	//
	// If your specified role has a path other than /, then you must either specify
	// the full role ARN (this is recommended) or prefix the role name with the
	// path. For example, if a role with the name bar has a path of /foo/ then you
	// would specify /foo/bar as the role name. For more information, see Friendly
	// Names and Paths (http://docs.aws.amazon.com/IAM/latest/UserGuide/reference_identifiers.html#identifiers-friendly-names)
	// in the IAM User Guide.
	Role *string `locationName:"role" type:"string"`

	// The name of your service. Up to 255 letters (uppercase and lowercase), numbers,
	// hyphens, and underscores are allowed. Service names must be unique within
	// a cluster, but you can have similarly named services in multiple clusters
	// within a region or across multiple regions.
	ServiceName *string `locationName:"serviceName" type:"string" required:"true"`

	// The family and revision (family:revision) or full Amazon Resource Name (ARN)
	// of the task definition to run in your service. If a revision is not specified,
	// the latest ACTIVE revision is used.
	TaskDefinition *string `locationName:"taskDefinition" type:"string" required:"true"`
}

// String returns the string representation
func (s CreateServiceInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s CreateServiceInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *CreateServiceInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "CreateServiceInput"}
	if s.DesiredCount == nil {
		invalidParams.Add(request.NewErrParamRequired("DesiredCount"))
	}
	if s.ServiceName == nil {
		invalidParams.Add(request.NewErrParamRequired("ServiceName"))
	}
	if s.TaskDefinition == nil {
		invalidParams.Add(request.NewErrParamRequired("TaskDefinition"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type CreateServiceOutput struct {
	_ struct{} `type:"structure"`

	// The full description of your service following the create call.
	Service *Service `locationName:"service" type:"structure"`
}

// String returns the string representation
func (s CreateServiceOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s CreateServiceOutput) GoString() string {
	return s.String()
}

type DeleteClusterInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster to delete.
	Cluster *string `locationName:"cluster" type:"string" required:"true"`
}

// String returns the string representation
func (s DeleteClusterInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeleteClusterInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DeleteClusterInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DeleteClusterInput"}
	if s.Cluster == nil {
		invalidParams.Add(request.NewErrParamRequired("Cluster"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DeleteClusterOutput struct {
	_ struct{} `type:"structure"`

	// The full description of the deleted cluster.
	Cluster *Cluster `locationName:"cluster" type:"structure"`
}

// String returns the string representation
func (s DeleteClusterOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeleteClusterOutput) GoString() string {
	return s.String()
}

type DeleteServiceInput struct {
	_ struct{} `type:"structure"`

	// The name of the cluster that hosts the service to delete. If you do not specify
	// a cluster, the default cluster is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// The name of the service to delete.
	Service *string `locationName:"service" type:"string" required:"true"`
}

// String returns the string representation
func (s DeleteServiceInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeleteServiceInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DeleteServiceInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DeleteServiceInput"}
	if s.Service == nil {
		invalidParams.Add(request.NewErrParamRequired("Service"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DeleteServiceOutput struct {
	_ struct{} `type:"structure"`

	// The full description of the deleted service.
	Service *Service `locationName:"service" type:"structure"`
}

// String returns the string representation
func (s DeleteServiceOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeleteServiceOutput) GoString() string {
	return s.String()
}

// The details of an Amazon ECS service deployment.
type Deployment struct {
	_ struct{} `type:"structure"`

	// The Unix timestamp for when the service was created.
	CreatedAt *time.Time `locationName:"createdAt" type:"timestamp" timestampFormat:"unix"`

	// The most recent desired count of tasks that was specified for the service
	// to deploy or maintain.
	DesiredCount *int64 `locationName:"desiredCount" type:"integer"`

	// The ID of the deployment.
	Id *string `locationName:"id" type:"string"`

	// The number of tasks in the deployment that are in the PENDING status.
	PendingCount *int64 `locationName:"pendingCount" type:"integer"`

	// The number of tasks in the deployment that are in the RUNNING status.
	RunningCount *int64 `locationName:"runningCount" type:"integer"`

	// The status of the deployment. Valid values are PRIMARY (for the most recent
	// deployment), ACTIVE (for previous deployments that still have tasks running,
	// but are being replaced with the PRIMARY deployment), and INACTIVE (for deployments
	// that have been completely replaced).
	Status *string `locationName:"status" type:"string"`

	// The most recent task definition that was specified for the service to use.
	TaskDefinition *string `locationName:"taskDefinition" type:"string"`

	// The Unix timestamp for when the service was last updated.
	UpdatedAt *time.Time `locationName:"updatedAt" type:"timestamp" timestampFormat:"unix"`
}

// String returns the string representation
func (s Deployment) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Deployment) GoString() string {
	return s.String()
}

// Optional deployment parameters that control how many tasks run during the
// deployment and the ordering of stopping and starting tasks.
type DeploymentConfiguration struct {
	_ struct{} `type:"structure"`

	// The upper limit (as a percentage of the service's desiredCount) of the number
	// of running tasks that can be running in a service during a deployment. The
	// maximum number of tasks during a deployment is the desiredCount multiplied
	// by the maximumPercent/100, rounded down to the nearest integer value.
	MaximumPercent *int64 `locationName:"maximumPercent" type:"integer"`

	// The lower limit (as a percentage of the service's desiredCount) of the number
	// of running tasks that must remain running and healthy in a service during
	// a deployment. The minimum healthy tasks during a deployment is the desiredCount
	// multiplied by the minimumHealthyPercent/100, rounded up to the nearest integer
	// value.
	MinimumHealthyPercent *int64 `locationName:"minimumHealthyPercent" type:"integer"`
}

// String returns the string representation
func (s DeploymentConfiguration) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeploymentConfiguration) GoString() string {
	return s.String()
}

type DeregisterContainerInstanceInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the container instance to deregister. If you do not specify a cluster, the
	// default cluster is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// The container instance ID or full Amazon Resource Name (ARN) of the container
	// instance to deregister. The ARN contains the arn:aws:ecs namespace, followed
	// by the region of the container instance, the AWS account ID of the container
	// instance owner, the container-instance namespace, and then the container
	// instance ID. For example, arn:aws:ecs:region:aws_account_id:container-instance/container_instance_ID
	// .
	ContainerInstance *string `locationName:"containerInstance" type:"string" required:"true"`

	// Forces the deregistration of the container instance. If you have tasks running
	// on the container instance when you deregister it with the force option, these
	// tasks remain running and they continue to pass Elastic Load Balancing load
	// balancer health checks until you terminate the instance or the tasks stop
	// through some other means, but they are orphaned (no longer monitored or accounted
	// for by Amazon ECS). If an orphaned task on your container instance is part
	// of an Amazon ECS service, then the service scheduler starts another copy
	// of that task, on a different container instance if possible.
	Force *bool `locationName:"force" type:"boolean"`
}

// String returns the string representation
func (s DeregisterContainerInstanceInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeregisterContainerInstanceInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DeregisterContainerInstanceInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DeregisterContainerInstanceInput"}
	if s.ContainerInstance == nil {
		invalidParams.Add(request.NewErrParamRequired("ContainerInstance"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DeregisterContainerInstanceOutput struct {
	_ struct{} `type:"structure"`

	// An EC2 instance that is running the Amazon ECS agent and has been registered
	// with a cluster.
	ContainerInstance *ContainerInstance `locationName:"containerInstance" type:"structure"`
}

// String returns the string representation
func (s DeregisterContainerInstanceOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeregisterContainerInstanceOutput) GoString() string {
	return s.String()
}

type DeregisterTaskDefinitionInput struct {
	_ struct{} `type:"structure"`

	// The family and revision (family:revision) or full Amazon Resource Name (ARN)
	// of the task definition to deregister. You must specify a revision.
	TaskDefinition *string `locationName:"taskDefinition" type:"string" required:"true"`
}

// String returns the string representation
func (s DeregisterTaskDefinitionInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeregisterTaskDefinitionInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DeregisterTaskDefinitionInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DeregisterTaskDefinitionInput"}
	if s.TaskDefinition == nil {
		invalidParams.Add(request.NewErrParamRequired("TaskDefinition"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DeregisterTaskDefinitionOutput struct {
	_ struct{} `type:"structure"`

	// The full description of the deregistered task.
	TaskDefinition *TaskDefinition `locationName:"taskDefinition" type:"structure"`
}

// String returns the string representation
func (s DeregisterTaskDefinitionOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DeregisterTaskDefinitionOutput) GoString() string {
	return s.String()
}

type DescribeClustersInput struct {
	_ struct{} `type:"structure"`

	// A space-separated list of up to 100 cluster names or full cluster Amazon
	// Resource Name (ARN) entries. If you do not specify a cluster, the default
	// cluster is assumed.
	Clusters []*string `locationName:"clusters" type:"list"`
}

// String returns the string representation
func (s DescribeClustersInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeClustersInput) GoString() string {
	return s.String()
}

type DescribeClustersOutput struct {
	_ struct{} `type:"structure"`

	// The list of clusters.
	Clusters []*Cluster `locationName:"clusters" type:"list"`

	// Any failures associated with the call.
	Failures []*Failure `locationName:"failures" type:"list"`
}

// String returns the string representation
func (s DescribeClustersOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeClustersOutput) GoString() string {
	return s.String()
}

type DescribeContainerInstancesInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the container instances to describe. If you do not specify a cluster, the
	// default cluster is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// A space-separated list of container instance IDs or full Amazon Resource
	// Name (ARN) entries.
	ContainerInstances []*string `locationName:"containerInstances" type:"list" required:"true"`
}

// String returns the string representation
func (s DescribeContainerInstancesInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeContainerInstancesInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DescribeContainerInstancesInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DescribeContainerInstancesInput"}
	if s.ContainerInstances == nil {
		invalidParams.Add(request.NewErrParamRequired("ContainerInstances"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DescribeContainerInstancesOutput struct {
	_ struct{} `type:"structure"`

	// The list of container instances.
	ContainerInstances []*ContainerInstance `locationName:"containerInstances" type:"list"`

	// Any failures associated with the call.
	Failures []*Failure `locationName:"failures" type:"list"`
}

// String returns the string representation
func (s DescribeContainerInstancesOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeContainerInstancesOutput) GoString() string {
	return s.String()
}

type DescribeServicesInput struct {
	_ struct{} `type:"structure"`

	// The name of the cluster that hosts the service to describe. If you do not
	// specify a cluster, the default cluster is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// A list of services to describe.
	Services []*string `locationName:"services" type:"list" required:"true"`
}

// String returns the string representation
func (s DescribeServicesInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeServicesInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DescribeServicesInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DescribeServicesInput"}
	if s.Services == nil {
		invalidParams.Add(request.NewErrParamRequired("Services"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DescribeServicesOutput struct {
	_ struct{} `type:"structure"`

	// Any failures associated with the call.
	Failures []*Failure `locationName:"failures" type:"list"`

	// The list of services described.
	Services []*Service `locationName:"services" type:"list"`
}

// String returns the string representation
func (s DescribeServicesOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeServicesOutput) GoString() string {
	return s.String()
}

type DescribeTaskDefinitionInput struct {
	_ struct{} `type:"structure"`

	// The family for the latest ACTIVE revision, family and revision (family:revision)
	// for a specific revision in the family, or full Amazon Resource Name (ARN)
	// of the task definition to describe.
	TaskDefinition *string `locationName:"taskDefinition" type:"string" required:"true"`
}

// String returns the string representation
func (s DescribeTaskDefinitionInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeTaskDefinitionInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DescribeTaskDefinitionInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DescribeTaskDefinitionInput"}
	if s.TaskDefinition == nil {
		invalidParams.Add(request.NewErrParamRequired("TaskDefinition"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DescribeTaskDefinitionOutput struct {
	_ struct{} `type:"structure"`

	// The full task definition description.
	TaskDefinition *TaskDefinition `locationName:"taskDefinition" type:"structure"`
}

// String returns the string representation
func (s DescribeTaskDefinitionOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeTaskDefinitionOutput) GoString() string {
	return s.String()
}

type DescribeTasksInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the task to describe. If you do not specify a cluster, the default cluster
	// is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// A space-separated list of task IDs or full Amazon Resource Name (ARN) entries.
	Tasks []*string `locationName:"tasks" type:"list" required:"true"`
}

// String returns the string representation
func (s DescribeTasksInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeTasksInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *DescribeTasksInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "DescribeTasksInput"}
	if s.Tasks == nil {
		invalidParams.Add(request.NewErrParamRequired("Tasks"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type DescribeTasksOutput struct {
	_ struct{} `type:"structure"`

	// Any failures associated with the call.
	Failures []*Failure `locationName:"failures" type:"list"`

	// The list of tasks.
	Tasks []*Task `locationName:"tasks" type:"list"`
}

// String returns the string representation
func (s DescribeTasksOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DescribeTasksOutput) GoString() string {
	return s.String()
}

type DiscoverPollEndpointInput struct {
	_ struct{} `type:"structure"`

	// The cluster that the container instance belongs to.
	Cluster *string `locationName:"cluster" type:"string"`

	// The container instance ID or full Amazon Resource Name (ARN) of the container
	// instance. The ARN contains the arn:aws:ecs namespace, followed by the region
	// of the container instance, the AWS account ID of the container instance owner,
	// the container-instance namespace, and then the container instance ID. For
	// example, arn:aws:ecs:region:aws_account_id:container-instance/container_instance_ID
	// .
	ContainerInstance *string `locationName:"containerInstance" type:"string"`
}

// String returns the string representation
func (s DiscoverPollEndpointInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DiscoverPollEndpointInput) GoString() string {
	return s.String()
}

type DiscoverPollEndpointOutput struct {
	_ struct{} `type:"structure"`

	// The endpoint for the Amazon ECS agent to poll.
	Endpoint *string `locationName:"endpoint" type:"string"`

	// The telemetry endpoint for the Amazon ECS agent.
	TelemetryEndpoint *string `locationName:"telemetryEndpoint" type:"string"`
}

// String returns the string representation
func (s DiscoverPollEndpointOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s DiscoverPollEndpointOutput) GoString() string {
	return s.String()
}

// A failed resource.
type Failure struct {
	_ struct{} `type:"structure"`

	// The Amazon Resource Name (ARN) of the failed resource.
	Arn *string `locationName:"arn" type:"string"`

	// The reason for the failure.
	Reason *string `locationName:"reason" type:"string"`
}

// String returns the string representation
func (s Failure) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Failure) GoString() string {
	return s.String()
}

// Hostnames and IP address entries that are added to the /etc/hosts file of
// a container via the extraHosts parameter of its ContainerDefinition.
type HostEntry struct {
	_ struct{} `type:"structure"`

	// The hostname to use in the /etc/hosts entry.
	Hostname *string `locationName:"hostname" type:"string" required:"true"`

	// The IP address to use in the /etc/hosts entry.
	IpAddress *string `locationName:"ipAddress" type:"string" required:"true"`
}

// String returns the string representation
func (s HostEntry) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s HostEntry) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *HostEntry) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "HostEntry"}
	if s.Hostname == nil {
		invalidParams.Add(request.NewErrParamRequired("Hostname"))
	}
	if s.IpAddress == nil {
		invalidParams.Add(request.NewErrParamRequired("IpAddress"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

// Details on a container instance host volume.
type HostVolumeProperties struct {
	_ struct{} `type:"structure"`

	// The path on the host container instance that is presented to the container.
	// If this parameter is empty, then the Docker daemon has assigned a host path
	// for you. If the host parameter contains a sourcePath file location, then
	// the data volume persists at the specified location on the host container
	// instance until you delete it manually. If the sourcePath value does not exist
	// on the host container instance, the Docker daemon creates it. If the location
	// does exist, the contents of the source path folder are exported.
	SourcePath *string `locationName:"sourcePath" type:"string"`
}

// String returns the string representation
func (s HostVolumeProperties) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s HostVolumeProperties) GoString() string {
	return s.String()
}

// A key and value pair object.
type KeyValuePair struct {
	_ struct{} `type:"structure"`

	// The name of the key value pair. For environment variables, this is the name
	// of the environment variable.
	Name *string `locationName:"name" type:"string"`

	// The value of the key value pair. For environment variables, this is the value
	// of the environment variable.
	Value *string `locationName:"value" type:"string"`
}

// String returns the string representation
func (s KeyValuePair) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s KeyValuePair) GoString() string {
	return s.String()
}

type ListClustersInput struct {
	_ struct{} `type:"structure"`

	// The maximum number of cluster results returned by ListClusters in paginated
	// output. When this parameter is used, ListClusters only returns maxResults
	// results in a single page along with a nextToken response element. The remaining
	// results of the initial request can be seen by sending another ListClusters
	// request with the returned nextToken value. This value can be between 1 and
	// 100. If this parameter is not used, then ListClusters returns up to 100 results
	// and a nextToken value if applicable.
	MaxResults *int64 `locationName:"maxResults" type:"integer"`

	// The nextToken value returned from a previous paginated ListClusters request
	// where maxResults was used and the results exceeded the value of that parameter.
	// Pagination continues from the end of the previous results that returned the
	// nextToken value. This value is null when there are no more results to return.
	//
	//  This token should be treated as an opaque identifier that is only used
	// to retrieve the next items in a list and not for other programmatic purposes.
	NextToken *string `locationName:"nextToken" type:"string"`
}

// String returns the string representation
func (s ListClustersInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListClustersInput) GoString() string {
	return s.String()
}

type ListClustersOutput struct {
	_ struct{} `type:"structure"`

	// The list of full Amazon Resource Name (ARN) entries for each cluster associated
	// with your account.
	ClusterArns []*string `locationName:"clusterArns" type:"list"`

	// The nextToken value to include in a future ListClusters request. When the
	// results of a ListClusters request exceed maxResults, this value can be used
	// to retrieve the next page of results. This value is null when there are no
	// more results to return.
	NextToken *string `locationName:"nextToken" type:"string"`
}

// String returns the string representation
func (s ListClustersOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListClustersOutput) GoString() string {
	return s.String()
}

type ListContainerInstancesInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the container instances to list. If you do not specify a cluster, the default
	// cluster is assumed..
	Cluster *string `locationName:"cluster" type:"string"`

	// The maximum number of container instance results returned by ListContainerInstances
	// in paginated output. When this parameter is used, ListContainerInstances
	// only returns maxResults results in a single page along with a nextToken response
	// element. The remaining results of the initial request can be seen by sending
	// another ListContainerInstances request with the returned nextToken value.
	// This value can be between 1 and 100. If this parameter is not used, then
	// ListContainerInstances returns up to 100 results and a nextToken value if
	// applicable.
	MaxResults *int64 `locationName:"maxResults" type:"integer"`

	// The nextToken value returned from a previous paginated ListContainerInstances
	// request where maxResults was used and the results exceeded the value of that
	// parameter. Pagination continues from the end of the previous results that
	// returned the nextToken value. This value is null when there are no more results
	// to return.
	//
	//  This token should be treated as an opaque identifier that is only used
	// to retrieve the next items in a list and not for other programmatic purposes.
	NextToken *string `locationName:"nextToken" type:"string"`
}

// String returns the string representation
func (s ListContainerInstancesInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListContainerInstancesInput) GoString() string {
	return s.String()
}

type ListContainerInstancesOutput struct {
	_ struct{} `type:"structure"`

	// The list of container instances with full Amazon Resource Name (ARN) entries
	// for each container instance associated with the specified cluster.
	ContainerInstanceArns []*string `locationName:"containerInstanceArns" type:"list"`

	// The nextToken value to include in a future ListContainerInstances request.
	// When the results of a ListContainerInstances request exceed maxResults, this
	// value can be used to retrieve the next page of results. This value is null
	// when there are no more results to return.
	NextToken *string `locationName:"nextToken" type:"string"`
}

// String returns the string representation
func (s ListContainerInstancesOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListContainerInstancesOutput) GoString() string {
	return s.String()
}

type ListServicesInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the services to list. If you do not specify a cluster, the default cluster
	// is assumed..
	Cluster *string `locationName:"cluster" type:"string"`

	// The maximum number of container instance results returned by ListServices
	// in paginated output. When this parameter is used, ListServices only returns
	// maxResults results in a single page along with a nextToken response element.
	// The remaining results of the initial request can be seen by sending another
	// ListServices request with the returned nextToken value. This value can be
	// between 1 and 10. If this parameter is not used, then ListServices returns
	// up to 10 results and a nextToken value if applicable.
	MaxResults *int64 `locationName:"maxResults" type:"integer"`

	// The nextToken value returned from a previous paginated ListServices request
	// where maxResults was used and the results exceeded the value of that parameter.
	// Pagination continues from the end of the previous results that returned the
	// nextToken value. This value is null when there are no more results to return.
	//
	//  This token should be treated as an opaque identifier that is only used
	// to retrieve the next items in a list and not for other programmatic purposes.
	NextToken *string `locationName:"nextToken" type:"string"`
}

// String returns the string representation
func (s ListServicesInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListServicesInput) GoString() string {
	return s.String()
}

type ListServicesOutput struct {
	_ struct{} `type:"structure"`

	// The nextToken value to include in a future ListServices request. When the
	// results of a ListServices request exceed maxResults, this value can be used
	// to retrieve the next page of results. This value is null when there are no
	// more results to return.
	NextToken *string `locationName:"nextToken" type:"string"`

	// The list of full Amazon Resource Name (ARN) entries for each service associated
	// with the specified cluster.
	ServiceArns []*string `locationName:"serviceArns" type:"list"`
}

// String returns the string representation
func (s ListServicesOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListServicesOutput) GoString() string {
	return s.String()
}

type ListTaskDefinitionFamiliesInput struct {
	_ struct{} `type:"structure"`

	// The familyPrefix is a string that is used to filter the results of ListTaskDefinitionFamilies.
	// If you specify a familyPrefix, only task definition family names that begin
	// with the familyPrefix string are returned.
	FamilyPrefix *string `locationName:"familyPrefix" type:"string"`

	// The maximum number of task definition family results returned by ListTaskDefinitionFamilies
	// in paginated output. When this parameter is used, ListTaskDefinitions only
	// returns maxResults results in a single page along with a nextToken response
	// element. The remaining results of the initial request can be seen by sending
	// another ListTaskDefinitionFamilies request with the returned nextToken value.
	// This value can be between 1 and 100. If this parameter is not used, then
	// ListTaskDefinitionFamilies returns up to 100 results and a nextToken value
	// if applicable.
	MaxResults *int64 `locationName:"maxResults" type:"integer"`

	// The nextToken value returned from a previous paginated ListTaskDefinitionFamilies
	// request where maxResults was used and the results exceeded the value of that
	// parameter. Pagination continues from the end of the previous results that
	// returned the nextToken value. This value is null when there are no more results
	// to return.
	//
	//  This token should be treated as an opaque identifier that is only used
	// to retrieve the next items in a list and not for other programmatic purposes.
	NextToken *string `locationName:"nextToken" type:"string"`

	// The task definition family status with which to filter the ListTaskDefinitionFamilies
	// results. By default, both ACTIVE and INACTIVE task definition families are
	// listed. If this parameter is set to ACTIVE, only task definition families
	// that have an ACTIVE task definition revision are returned. If this parameter
	// is set to INACTIVE, only task definition families that do not have any ACTIVE
	// task definition revisions are returned. If you paginate the resulting output,
	// be sure to keep the status value constant in each subsequent request.
	Status *string `locationName:"status" type:"string" enum:"TaskDefinitionFamilyStatus"`
}

// String returns the string representation
func (s ListTaskDefinitionFamiliesInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListTaskDefinitionFamiliesInput) GoString() string {
	return s.String()
}

type ListTaskDefinitionFamiliesOutput struct {
	_ struct{} `type:"structure"`

	// The list of task definition family names that match the ListTaskDefinitionFamilies
	// request.
	Families []*string `locationName:"families" type:"list"`

	// The nextToken value to include in a future ListTaskDefinitionFamilies request.
	// When the results of a ListTaskDefinitionFamilies request exceed maxResults,
	// this value can be used to retrieve the next page of results. This value is
	// null when there are no more results to return.
	NextToken *string `locationName:"nextToken" type:"string"`
}

// String returns the string representation
func (s ListTaskDefinitionFamiliesOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListTaskDefinitionFamiliesOutput) GoString() string {
	return s.String()
}

type ListTaskDefinitionsInput struct {
	_ struct{} `type:"structure"`

	// The full family name with which to filter the ListTaskDefinitions results.
	// Specifying a familyPrefix limits the listed task definitions to task definition
	// revisions that belong to that family.
	FamilyPrefix *string `locationName:"familyPrefix" type:"string"`

	// The maximum number of task definition results returned by ListTaskDefinitions
	// in paginated output. When this parameter is used, ListTaskDefinitions only
	// returns maxResults results in a single page along with a nextToken response
	// element. The remaining results of the initial request can be seen by sending
	// another ListTaskDefinitions request with the returned nextToken value. This
	// value can be between 1 and 100. If this parameter is not used, then ListTaskDefinitions
	// returns up to 100 results and a nextToken value if applicable.
	MaxResults *int64 `locationName:"maxResults" type:"integer"`

	// The nextToken value returned from a previous paginated ListTaskDefinitions
	// request where maxResults was used and the results exceeded the value of that
	// parameter. Pagination continues from the end of the previous results that
	// returned the nextToken value. This value is null when there are no more results
	// to return.
	//
	//  This token should be treated as an opaque identifier that is only used
	// to retrieve the next items in a list and not for other programmatic purposes.
	NextToken *string `locationName:"nextToken" type:"string"`

	// The order in which to sort the results. Valid values are ASC and DESC. By
	// default (ASC), task definitions are listed lexicographically by family name
	// and in ascending numerical order by revision so that the newest task definitions
	// in a family are listed last. Setting this parameter to DESC reverses the
	// sort order on family name and revision so that the newest task definitions
	// in a family are listed first.
	Sort *string `locationName:"sort" type:"string" enum:"SortOrder"`

	// The task definition status with which to filter the ListTaskDefinitions results.
	// By default, only ACTIVE task definitions are listed. By setting this parameter
	// to INACTIVE, you can view task definitions that are INACTIVE as long as an
	// active task or service still references them. If you paginate the resulting
	// output, be sure to keep the status value constant in each subsequent request.
	Status *string `locationName:"status" type:"string" enum:"TaskDefinitionStatus"`
}

// String returns the string representation
func (s ListTaskDefinitionsInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListTaskDefinitionsInput) GoString() string {
	return s.String()
}

type ListTaskDefinitionsOutput struct {
	_ struct{} `type:"structure"`

	// The nextToken value to include in a future ListTaskDefinitions request. When
	// the results of a ListTaskDefinitions request exceed maxResults, this value
	// can be used to retrieve the next page of results. This value is null when
	// there are no more results to return.
	NextToken *string `locationName:"nextToken" type:"string"`

	// The list of task definition Amazon Resource Name (ARN) entries for the ListTaskDefinitions
	// request.
	TaskDefinitionArns []*string `locationName:"taskDefinitionArns" type:"list"`
}

// String returns the string representation
func (s ListTaskDefinitionsOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListTaskDefinitionsOutput) GoString() string {
	return s.String()
}

type ListTasksInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the tasks to list. If you do not specify a cluster, the default cluster is
	// assumed..
	Cluster *string `locationName:"cluster" type:"string"`

	// The container instance ID or full Amazon Resource Name (ARN) of the container
	// instance with which to filter the ListTasks results. Specifying a containerInstance
	// limits the results to tasks that belong to that container instance.
	ContainerInstance *string `locationName:"containerInstance" type:"string"`

	// The task desired status with which to filter the ListTasks results. Specifying
	// a desiredStatus of STOPPED limits the results to tasks that ECS has set the
	// desired status to STOPPED, which can be useful for debugging tasks that are
	// not starting properly or have died or finished. The default status filter
	// is RUNNING, which shows tasks that ECS has set the desired status to RUNNING.
	//
	//  Although you can filter results based on a desired status of PENDING, this
	// will not return any results because ECS never sets the desired status of
	// a task to that value (only a task's lastStatus may have a value of PENDING).
	DesiredStatus *string `locationName:"desiredStatus" type:"string" enum:"DesiredStatus"`

	// The name of the family with which to filter the ListTasks results. Specifying
	// a family limits the results to tasks that belong to that family.
	Family *string `locationName:"family" type:"string"`

	// The maximum number of task results returned by ListTasks in paginated output.
	// When this parameter is used, ListTasks only returns maxResults results in
	// a single page along with a nextToken response element. The remaining results
	// of the initial request can be seen by sending another ListTasks request with
	// the returned nextToken value. This value can be between 1 and 100. If this
	// parameter is not used, then ListTasks returns up to 100 results and a nextToken
	// value if applicable.
	MaxResults *int64 `locationName:"maxResults" type:"integer"`

	// The nextToken value returned from a previous paginated ListTasks request
	// where maxResults was used and the results exceeded the value of that parameter.
	// Pagination continues from the end of the previous results that returned the
	// nextToken value. This value is null when there are no more results to return.
	//
	//  This token should be treated as an opaque identifier that is only used
	// to retrieve the next items in a list and not for other programmatic purposes.
	NextToken *string `locationName:"nextToken" type:"string"`

	// The name of the service with which to filter the ListTasks results. Specifying
	// a serviceName limits the results to tasks that belong to that service.
	ServiceName *string `locationName:"serviceName" type:"string"`

	// The startedBy value with which to filter the task results. Specifying a startedBy
	// value limits the results to tasks that were started with that value.
	StartedBy *string `locationName:"startedBy" type:"string"`
}

// String returns the string representation
func (s ListTasksInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListTasksInput) GoString() string {
	return s.String()
}

type ListTasksOutput struct {
	_ struct{} `type:"structure"`

	// The nextToken value to include in a future ListTasks request. When the results
	// of a ListTasks request exceed maxResults, this value can be used to retrieve
	// the next page of results. This value is null when there are no more results
	// to return.
	NextToken *string `locationName:"nextToken" type:"string"`

	// The list of task Amazon Resource Name (ARN) entries for the ListTasks request.
	TaskArns []*string `locationName:"taskArns" type:"list"`
}

// String returns the string representation
func (s ListTasksOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ListTasksOutput) GoString() string {
	return s.String()
}

// Details on a load balancer that is used with a service.
type LoadBalancer struct {
	_ struct{} `type:"structure"`

	// The name of the container (as it appears in a container definition) to associate
	// with the load balancer.
	ContainerName *string `locationName:"containerName" type:"string"`

	// The port on the container to associate with the load balancer. This port
	// must correspond to a containerPort in the service's task definition. Your
	// container instances must allow ingress traffic on the hostPort of the port
	// mapping.
	ContainerPort *int64 `locationName:"containerPort" type:"integer"`

	// The name of the load balancer.
	LoadBalancerName *string `locationName:"loadBalancerName" type:"string"`

	// The full Amazon Resource Name (ARN) of the Elastic Load Balancing target
	// group associated with a service.
	TargetGroupArn *string `locationName:"targetGroupArn" type:"string"`
}

// String returns the string representation
func (s LoadBalancer) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s LoadBalancer) GoString() string {
	return s.String()
}

// Log configuration options to send to a custom log driver for the container.
type LogConfiguration struct {
	_ struct{} `type:"structure"`

	// The log driver to use for the container. The valid values listed for this
	// parameter are log drivers that the Amazon ECS container agent can communicate
	// with by default.
	//
	//  If you have a custom driver that is not listed above that you would like
	// to work with the Amazon ECS container agent, you can fork the Amazon ECS
	// container agent project that is available on GitHub (https://github.com/aws/amazon-ecs-agent)
	// and customize it to work with that driver. We encourage you to submit pull
	// requests for changes that you would like to have included. However, Amazon
	// Web Services does not currently provide support for running modified copies
	// of this software.
	//
	//  This parameter requires version 1.18 of the Docker Remote API or greater
	// on your container instance. To check the Docker Remote API version on your
	// container instance, log into your container instance and run the following
	// command: sudo docker version | grep "Server API version"
	LogDriver *string `locationName:"logDriver" type:"string" required:"true" enum:"LogDriver"`

	// The configuration options to send to the log driver. This parameter requires
	// version 1.19 of the Docker Remote API or greater on your container instance.
	// To check the Docker Remote API version on your container instance, log into
	// your container instance and run the following command: sudo docker version
	// | grep "Server API version"
	Options map[string]*string `locationName:"options" type:"map"`
}

// String returns the string representation
func (s LogConfiguration) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s LogConfiguration) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *LogConfiguration) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "LogConfiguration"}
	if s.LogDriver == nil {
		invalidParams.Add(request.NewErrParamRequired("LogDriver"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

// Details on a volume mount point that is used in a container definition.
type MountPoint struct {
	_ struct{} `type:"structure"`

	// The path on the container to mount the host volume at.
	ContainerPath *string `locationName:"containerPath" type:"string"`

	// If this value is true, the container has read-only access to the volume.
	// If this value is false, then the container can write to the volume. The default
	// value is false.
	ReadOnly *bool `locationName:"readOnly" type:"boolean"`

	// The name of the volume to mount.
	SourceVolume *string `locationName:"sourceVolume" type:"string"`
}

// String returns the string representation
func (s MountPoint) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s MountPoint) GoString() string {
	return s.String()
}

// Details on the network bindings between a container and its host container
// instance. After a task reaches the RUNNING status, manual and automatic host
// and container port assignments are visible in the networkBindings section
// of DescribeTasks API responses.
type NetworkBinding struct {
	_ struct{} `type:"structure"`

	// The IP address that the container is bound to on the container instance.
	BindIP *string `locationName:"bindIP" type:"string"`

	// The port number on the container that is be used with the network binding.
	ContainerPort *int64 `locationName:"containerPort" type:"integer"`

	// The port number on the host that is used with the network binding.
	HostPort *int64 `locationName:"hostPort" type:"integer"`

	// The protocol used for the network binding.
	Protocol *string `locationName:"protocol" type:"string" enum:"TransportProtocol"`
}

// String returns the string representation
func (s NetworkBinding) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s NetworkBinding) GoString() string {
	return s.String()
}

// Port mappings allow containers to access ports on the host container instance
// to send or receive traffic. Port mappings are specified as part of the container
// definition. After a task reaches the RUNNING status, manual and automatic
// host and container port assignments are visible in the networkBindings section
// of DescribeTasks API responses.
type PortMapping struct {
	_ struct{} `type:"structure"`

	// The port number on the container that is bound to the user-specified or automatically
	// assigned host port. If you specify a container port and not a host port,
	// your container automatically receives a host port in the ephemeral port range
	// (for more information, see hostPort). Port mappings that are automatically
	// assigned in this way do not count toward the 100 reserved ports limit of
	// a container instance.
	ContainerPort *int64 `locationName:"containerPort" type:"integer"`

	// The port number on the container instance to reserve for your container.
	// You can specify a non-reserved host port for your container port mapping,
	// or you can omit the hostPort (or set it to 0) while specifying a containerPort
	// and your container automatically receives a port in the ephemeral port range
	// for your container instance operating system and Docker version.
	//
	// The default ephemeral port range is 49153 to 65535, and this range is used
	// for Docker versions prior to 1.6.0. For Docker version 1.6.0 and later, the
	// Docker daemon tries to read the ephemeral port range from /proc/sys/net/ipv4/ip_local_port_range;
	// if this kernel parameter is unavailable, the default ephemeral port range
	// is used. You should not attempt to specify a host port in the ephemeral port
	// range, because these are reserved for automatic assignment. In general, ports
	// below 32768 are outside of the ephemeral port range.
	//
	// The default reserved ports are 22 for SSH, the Docker ports 2375 and 2376,
	// and the Amazon ECS container agent port 51678. Any host port that was previously
	// specified in a running task is also reserved while the task is running (after
	// a task stops, the host port is released).The current reserved ports are displayed
	// in the remainingResources of DescribeContainerInstances output, and a container
	// instance may have up to 100 reserved ports at a time, including the default
	// reserved ports (automatically assigned ports do not count toward the 100
	// reserved ports limit).
	HostPort *int64 `locationName:"hostPort" type:"integer"`

	// The protocol used for the port mapping. Valid values are tcp and udp. The
	// default is tcp.
	Protocol *string `locationName:"protocol" type:"string" enum:"TransportProtocol"`
}

// String returns the string representation
func (s PortMapping) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s PortMapping) GoString() string {
	return s.String()
}

type RegisterContainerInstanceInput struct {
	_ struct{} `type:"structure"`

	// The container instance attributes that this container instance supports.
	Attributes []*Attribute `locationName:"attributes" type:"list"`

	// The short name or full Amazon Resource Name (ARN) of the cluster with which
	// to register your container instance. If you do not specify a cluster, the
	// default cluster is assumed..
	Cluster *string `locationName:"cluster" type:"string"`

	// The Amazon Resource Name (ARN) of the container instance (if it was previously
	// registered).
	ContainerInstanceArn *string `locationName:"containerInstanceArn" type:"string"`

	// The instance identity document for the EC2 instance to register. This document
	// can be found by running the following command from the instance: curl http://169.254.169.254/latest/dynamic/instance-identity/document/
	InstanceIdentityDocument *string `locationName:"instanceIdentityDocument" type:"string"`

	// The instance identity document signature for the EC2 instance to register.
	// This signature can be found by running the following command from the instance:
	// curl http://169.254.169.254/latest/dynamic/instance-identity/signature/
	InstanceIdentityDocumentSignature *string `locationName:"instanceIdentityDocumentSignature" type:"string"`

	// The resources available on the instance.
	TotalResources []*Resource `locationName:"totalResources" type:"list"`

	// The version information for the Amazon ECS container agent and Docker daemon
	// running on the container instance.
	VersionInfo *VersionInfo `locationName:"versionInfo" type:"structure"`
}

// String returns the string representation
func (s RegisterContainerInstanceInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s RegisterContainerInstanceInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *RegisterContainerInstanceInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "RegisterContainerInstanceInput"}
	if s.Attributes != nil {
		for i, v := range s.Attributes {
			if v == nil {
				continue
			}
			if err := v.Validate(); err != nil {
				invalidParams.AddNested(fmt.Sprintf("%s[%v]", "Attributes", i), err.(request.ErrInvalidParams))
			}
		}
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type RegisterContainerInstanceOutput struct {
	_ struct{} `type:"structure"`

	// An EC2 instance that is running the Amazon ECS agent and has been registered
	// with a cluster.
	ContainerInstance *ContainerInstance `locationName:"containerInstance" type:"structure"`
}

// String returns the string representation
func (s RegisterContainerInstanceOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s RegisterContainerInstanceOutput) GoString() string {
	return s.String()
}

type RegisterTaskDefinitionInput struct {
	_ struct{} `type:"structure"`

	// A list of container definitions in JSON format that describe the different
	// containers that make up your task.
	ContainerDefinitions []*ContainerDefinition `locationName:"containerDefinitions" type:"list" required:"true"`

	// You must specify a family for a task definition, which allows you to track
	// multiple versions of the same task definition. The family is used as a name
	// for your task definition. Up to 255 letters (uppercase and lowercase), numbers,
	// hyphens, and underscores are allowed.
	Family *string `locationName:"family" type:"string" required:"true"`

	// The Docker networking mode to use for the containers in the task. The valid
	// values are none, bridge, and host.
	//
	// The default Docker network mode is bridge. If the network mode is set to
	// none, you cannot specify port mappings in your container definitions, and
	// the task's containers do not have external connectivity. The host network
	// mode offers the highest networking performance for containers because they
	// use the host network stack instead of the virtualized network stack provided
	// by the bridge mode; however, exposed container ports are mapped directly
	// to the corresponding host port, so you cannot take advantage of dynamic host
	// port mappings or run multiple instantiations of the same task on a single
	// container instance if port mappings are used.
	//
	// For more information, see Network settings (https://docs.docker.com/engine/reference/run/#network-settings)
	// in the Docker run reference.
	NetworkMode *string `locationName:"networkMode" type:"string" enum:"NetworkMode"`

	// The Amazon Resource Name (ARN) of the IAM role that containers in this task
	// can assume. All containers in this task are granted the permissions that
	// are specified in this role.
	TaskRoleArn *string `locationName:"taskRoleArn" type:"string"`

	// A list of volume definitions in JSON format that containers in your task
	// may use.
	Volumes []*Volume `locationName:"volumes" type:"list"`
}

// String returns the string representation
func (s RegisterTaskDefinitionInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s RegisterTaskDefinitionInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *RegisterTaskDefinitionInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "RegisterTaskDefinitionInput"}
	if s.ContainerDefinitions == nil {
		invalidParams.Add(request.NewErrParamRequired("ContainerDefinitions"))
	}
	if s.Family == nil {
		invalidParams.Add(request.NewErrParamRequired("Family"))
	}
	if s.ContainerDefinitions != nil {
		for i, v := range s.ContainerDefinitions {
			if v == nil {
				continue
			}
			if err := v.Validate(); err != nil {
				invalidParams.AddNested(fmt.Sprintf("%s[%v]", "ContainerDefinitions", i), err.(request.ErrInvalidParams))
			}
		}
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type RegisterTaskDefinitionOutput struct {
	_ struct{} `type:"structure"`

	// The full description of the registered task definition.
	TaskDefinition *TaskDefinition `locationName:"taskDefinition" type:"structure"`
}

// String returns the string representation
func (s RegisterTaskDefinitionOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s RegisterTaskDefinitionOutput) GoString() string {
	return s.String()
}

// Describes the resources available for a container instance.
type Resource struct {
	_ struct{} `type:"structure"`

	// When the doubleValue type is set, the value of the resource must be a double
	// precision floating-point type.
	DoubleValue *float64 `locationName:"doubleValue" type:"double"`

	// When the integerValue type is set, the value of the resource must be an integer.
	IntegerValue *int64 `locationName:"integerValue" type:"integer"`

	// When the longValue type is set, the value of the resource must be an extended
	// precision floating-point type.
	LongValue *int64 `locationName:"longValue" type:"long"`

	// The name of the resource, such as CPU, MEMORY, PORTS, or a user-defined resource.
	Name *string `locationName:"name" type:"string"`

	// When the stringSetValue type is set, the value of the resource must be a
	// string type.
	StringSetValue []*string `locationName:"stringSetValue" type:"list"`

	// The type of the resource, such as INTEGER, DOUBLE, LONG, or STRINGSET.
	Type *string `locationName:"type" type:"string"`
}

// String returns the string representation
func (s Resource) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Resource) GoString() string {
	return s.String()
}

type RunTaskInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster on which
	// to run your task. If you do not specify a cluster, the default cluster is
	// assumed..
	Cluster *string `locationName:"cluster" type:"string"`

	// The number of instantiations of the specified task to place on your cluster.
	//
	//  The count parameter is limited to 10 tasks per call.
	Count *int64 `locationName:"count" type:"integer"`

	// A list of container overrides in JSON format that specify the name of a container
	// in the specified task definition and the overrides it should receive. You
	// can override the default command for a container (that is specified in the
	// task definition or Docker image) with a command override. You can also override
	// existing environment variables (that are specified in the task definition
	// or Docker image) on a container or add new environment variables to it with
	// an environment override.
	//
	//  A total of 8192 characters are allowed for overrides. This limit includes
	// the JSON formatting characters of the override structure.
	Overrides *TaskOverride `locationName:"overrides" type:"structure"`

	// An optional tag specified when a task is started. For example if you automatically
	// trigger a task to run a batch process job, you could apply a unique identifier
	// for that job to your task with the startedBy parameter. You can then identify
	// which tasks belong to that job by filtering the results of a ListTasks call
	// with the startedBy value. Up to 36 letters (uppercase and lowercase), numbers,
	// hyphens, and underscores are allowed.
	//
	// If a task is started by an Amazon ECS service, then the startedBy parameter
	// contains the deployment ID of the service that starts it.
	StartedBy *string `locationName:"startedBy" type:"string"`

	// The family and revision (family:revision) or full Amazon Resource Name (ARN)
	// of the task definition to run. If a revision is not specified, the latest
	// ACTIVE revision is used.
	TaskDefinition *string `locationName:"taskDefinition" type:"string" required:"true"`
}

// String returns the string representation
func (s RunTaskInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s RunTaskInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *RunTaskInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "RunTaskInput"}
	if s.TaskDefinition == nil {
		invalidParams.Add(request.NewErrParamRequired("TaskDefinition"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type RunTaskOutput struct {
	_ struct{} `type:"structure"`

	// Any failures associated with the call.
	Failures []*Failure `locationName:"failures" type:"list"`

	// A full description of the tasks that were run. Each task that was successfully
	// placed on your cluster are described here.
	Tasks []*Task `locationName:"tasks" type:"list"`
}

// String returns the string representation
func (s RunTaskOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s RunTaskOutput) GoString() string {
	return s.String()
}

// Details on a service within a cluster
type Service struct {
	_ struct{} `type:"structure"`

	// The Amazon Resource Name (ARN) of the cluster that hosts the service.
	ClusterArn *string `locationName:"clusterArn" type:"string"`

	// The Unix timestamp for when the service was created.
	CreatedAt *time.Time `locationName:"createdAt" type:"timestamp" timestampFormat:"unix"`

	// Optional deployment parameters that control how many tasks run during the
	// deployment and the ordering of stopping and starting tasks.
	DeploymentConfiguration *DeploymentConfiguration `locationName:"deploymentConfiguration" type:"structure"`

	// The current state of deployments for the service.
	Deployments []*Deployment `locationName:"deployments" type:"list"`

	// The desired number of instantiations of the task definition to keep running
	// on the service. This value is specified when the service is created with
	// CreateService, and it can be modified with UpdateService.
	DesiredCount *int64 `locationName:"desiredCount" type:"integer"`

	// The event stream for your service. A maximum of 100 of the latest events
	// are displayed.
	Events []*ServiceEvent `locationName:"events" type:"list"`

	// A list of Elastic Load Balancing load balancer objects, containing the load
	// balancer name, the container name (as it appears in a container definition),
	// and the container port to access from the load balancer.
	LoadBalancers []*LoadBalancer `locationName:"loadBalancers" type:"list"`

	// The number of tasks in the cluster that are in the PENDING state.
	PendingCount *int64 `locationName:"pendingCount" type:"integer"`

	// The Amazon Resource Name (ARN) of the IAM role associated with the service
	// that allows the Amazon ECS container agent to register container instances
	// with an Elastic Load Balancing load balancer.
	RoleArn *string `locationName:"roleArn" type:"string"`

	// The number of tasks in the cluster that are in the RUNNING state.
	RunningCount *int64 `locationName:"runningCount" type:"integer"`

	// The Amazon Resource Name (ARN) that identifies the service. The ARN contains
	// the arn:aws:ecs namespace, followed by the region of the service, the AWS
	// account ID of the service owner, the service namespace, and then the service
	// name. For example, arn:aws:ecs:region:012345678910:service/my-service .
	ServiceArn *string `locationName:"serviceArn" type:"string"`

	// The name of your service. Up to 255 letters (uppercase and lowercase), numbers,
	// hyphens, and underscores are allowed. Service names must be unique within
	// a cluster, but you can have similarly named services in multiple clusters
	// within a region or across multiple regions.
	ServiceName *string `locationName:"serviceName" type:"string"`

	// The status of the service. The valid values are ACTIVE, DRAINING, or INACTIVE.
	Status *string `locationName:"status" type:"string"`

	// The task definition to use for tasks in the service. This value is specified
	// when the service is created with CreateService, and it can be modified with
	// UpdateService.
	TaskDefinition *string `locationName:"taskDefinition" type:"string"`
}

// String returns the string representation
func (s Service) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Service) GoString() string {
	return s.String()
}

// Details on an event associated with a service.
type ServiceEvent struct {
	_ struct{} `type:"structure"`

	// The Unix timestamp for when the event was triggered.
	CreatedAt *time.Time `locationName:"createdAt" type:"timestamp" timestampFormat:"unix"`

	// The ID string of the event.
	Id *string `locationName:"id" type:"string"`

	// The event message.
	Message *string `locationName:"message" type:"string"`
}

// String returns the string representation
func (s ServiceEvent) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s ServiceEvent) GoString() string {
	return s.String()
}

type StartTaskInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster on which
	// to start your task. If you do not specify a cluster, the default cluster
	// is assumed..
	Cluster *string `locationName:"cluster" type:"string"`

	// The container instance IDs or full Amazon Resource Name (ARN) entries for
	// the container instances on which you would like to place your task.
	//
	//  The list of container instances to start tasks on is limited to 10.
	ContainerInstances []*string `locationName:"containerInstances" type:"list" required:"true"`

	// A list of container overrides in JSON format that specify the name of a container
	// in the specified task definition and the overrides it should receive. You
	// can override the default command for a container (that is specified in the
	// task definition or Docker image) with a command override. You can also override
	// existing environment variables (that are specified in the task definition
	// or Docker image) on a container or add new environment variables to it with
	// an environment override.
	//
	//  A total of 8192 characters are allowed for overrides. This limit includes
	// the JSON formatting characters of the override structure.
	Overrides *TaskOverride `locationName:"overrides" type:"structure"`

	// An optional tag specified when a task is started. For example if you automatically
	// trigger a task to run a batch process job, you could apply a unique identifier
	// for that job to your task with the startedBy parameter. You can then identify
	// which tasks belong to that job by filtering the results of a ListTasks call
	// with the startedBy value. Up to 36 letters (uppercase and lowercase), numbers,
	// hyphens, and underscores are allowed.
	//
	// If a task is started by an Amazon ECS service, then the startedBy parameter
	// contains the deployment ID of the service that starts it.
	StartedBy *string `locationName:"startedBy" type:"string"`

	// The family and revision (family:revision) or full Amazon Resource Name (ARN)
	// of the task definition to start. If a revision is not specified, the latest
	// ACTIVE revision is used.
	TaskDefinition *string `locationName:"taskDefinition" type:"string" required:"true"`
}

// String returns the string representation
func (s StartTaskInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s StartTaskInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *StartTaskInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "StartTaskInput"}
	if s.ContainerInstances == nil {
		invalidParams.Add(request.NewErrParamRequired("ContainerInstances"))
	}
	if s.TaskDefinition == nil {
		invalidParams.Add(request.NewErrParamRequired("TaskDefinition"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type StartTaskOutput struct {
	_ struct{} `type:"structure"`

	// Any failures associated with the call.
	Failures []*Failure `locationName:"failures" type:"list"`

	// A full description of the tasks that were started. Each task that was successfully
	// placed on your container instances are described here.
	Tasks []*Task `locationName:"tasks" type:"list"`
}

// String returns the string representation
func (s StartTaskOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s StartTaskOutput) GoString() string {
	return s.String()
}

type StopTaskInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the task to stop. If you do not specify a cluster, the default cluster is
	// assumed..
	Cluster *string `locationName:"cluster" type:"string"`

	// An optional message specified when a task is stopped. For example, if you
	// are using a custom scheduler, you can use this parameter to specify the reason
	// for stopping the task here, and the message will appear in subsequent DescribeTasks
	// API operations on this task. Up to 255 characters are allowed in this message.
	Reason *string `locationName:"reason" type:"string"`

	// The task ID or full Amazon Resource Name (ARN) entry of the task to stop.
	Task *string `locationName:"task" type:"string" required:"true"`
}

// String returns the string representation
func (s StopTaskInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s StopTaskInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *StopTaskInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "StopTaskInput"}
	if s.Task == nil {
		invalidParams.Add(request.NewErrParamRequired("Task"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type StopTaskOutput struct {
	_ struct{} `type:"structure"`

	// Details on a task in a cluster.
	Task *Task `locationName:"task" type:"structure"`
}

// String returns the string representation
func (s StopTaskOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s StopTaskOutput) GoString() string {
	return s.String()
}

type SubmitContainerStateChangeInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the container.
	Cluster *string `locationName:"cluster" type:"string"`

	// The name of the container.
	ContainerName *string `locationName:"containerName" type:"string"`

	// The exit code returned for the state change request.
	ExitCode *int64 `locationName:"exitCode" type:"integer"`

	// The network bindings of the container.
	NetworkBindings []*NetworkBinding `locationName:"networkBindings" type:"list"`

	// The reason for the state change request.
	Reason *string `locationName:"reason" type:"string"`

	// The status of the state change request.
	Status *string `locationName:"status" type:"string"`

	// The task ID or full Amazon Resource Name (ARN) of the task that hosts the
	// container.
	Task *string `locationName:"task" type:"string"`
}

// String returns the string representation
func (s SubmitContainerStateChangeInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s SubmitContainerStateChangeInput) GoString() string {
	return s.String()
}

type SubmitContainerStateChangeOutput struct {
	_ struct{} `type:"structure"`

	// Acknowledgement of the state change.
	Acknowledgment *string `locationName:"acknowledgment" type:"string"`
}

// String returns the string representation
func (s SubmitContainerStateChangeOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s SubmitContainerStateChangeOutput) GoString() string {
	return s.String()
}

type SubmitTaskStateChangeInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that hosts
	// the task.
	Cluster *string `locationName:"cluster" type:"string"`

	// The reason for the state change request.
	Reason *string `locationName:"reason" type:"string"`

	// The status of the state change request.
	Status *string `locationName:"status" type:"string"`

	// The task ID or full Amazon Resource Name (ARN) of the task in the state change
	// request.
	Task *string `locationName:"task" type:"string"`
}

// String returns the string representation
func (s SubmitTaskStateChangeInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s SubmitTaskStateChangeInput) GoString() string {
	return s.String()
}

type SubmitTaskStateChangeOutput struct {
	_ struct{} `type:"structure"`

	// Acknowledgement of the state change.
	Acknowledgment *string `locationName:"acknowledgment" type:"string"`
}

// String returns the string representation
func (s SubmitTaskStateChangeOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s SubmitTaskStateChangeOutput) GoString() string {
	return s.String()
}

// Details on a task in a cluster.
type Task struct {
	_ struct{} `type:"structure"`

	// The Amazon Resource Name (ARN) of the cluster that hosts the task.
	ClusterArn *string `locationName:"clusterArn" type:"string"`

	// The Amazon Resource Name (ARN) of the container instances that host the task.
	ContainerInstanceArn *string `locationName:"containerInstanceArn" type:"string"`

	// The containers associated with the task.
	Containers []*Container `locationName:"containers" type:"list"`

	// The Unix timestamp for when the task was created (the task entered the PENDING
	// state).
	CreatedAt *time.Time `locationName:"createdAt" type:"timestamp" timestampFormat:"unix"`

	// The desired status of the task.
	DesiredStatus *string `locationName:"desiredStatus" type:"string"`

	// The last known status of the task.
	LastStatus *string `locationName:"lastStatus" type:"string"`

	// One or more container overrides.
	Overrides *TaskOverride `locationName:"overrides" type:"structure"`

	// The Unix timestamp for when the task was started (the task transitioned from
	// the PENDING state to the RUNNING state).
	StartedAt *time.Time `locationName:"startedAt" type:"timestamp" timestampFormat:"unix"`

	// The tag specified when a task is started. If the task is started by an Amazon
	// ECS service, then the startedBy parameter contains the deployment ID of the
	// service that starts it.
	StartedBy *string `locationName:"startedBy" type:"string"`

	// The Unix timestamp for when the task was stopped (the task transitioned from
	// the RUNNING state to the STOPPED state).
	StoppedAt *time.Time `locationName:"stoppedAt" type:"timestamp" timestampFormat:"unix"`

	// The reason the task was stopped.
	StoppedReason *string `locationName:"stoppedReason" type:"string"`

	// The Amazon Resource Name (ARN) of the task.
	TaskArn *string `locationName:"taskArn" type:"string"`

	// The Amazon Resource Name (ARN) of the task definition that creates the task.
	TaskDefinitionArn *string `locationName:"taskDefinitionArn" type:"string"`
}

// String returns the string representation
func (s Task) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Task) GoString() string {
	return s.String()
}

// Details of a task definition.
type TaskDefinition struct {
	_ struct{} `type:"structure"`

	// A list of container definitions in JSON format that describe the different
	// containers that make up your task. For more information about container definition
	// parameters and defaults, see Amazon ECS Task Definitions (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_defintions.html)
	// in the Amazon EC2 Container Service Developer Guide.
	ContainerDefinitions []*ContainerDefinition `locationName:"containerDefinitions" type:"list"`

	// The family of your task definition, used as the definition name.
	Family *string `locationName:"family" type:"string"`

	// The Docker networking mode to use for the containers in the task. The valid
	// values are none, bridge, and host.
	//
	// If the network mode is none, the containers do not have external connectivity.
	// The default Docker network mode is bridge. The host network mode offers the
	// highest networking performance for containers because it uses the host network
	// stack instead of the virtualized network stack provided by the bridge mode.
	//
	// For more information, see Network settings (https://docs.docker.com/engine/reference/run/#network-settings)
	// in the Docker run reference.
	NetworkMode *string `locationName:"networkMode" type:"string" enum:"NetworkMode"`

	// The container instance attributes required by your task.
	RequiresAttributes []*Attribute `locationName:"requiresAttributes" type:"list"`

	// The revision of the task in a particular family. The revision is a version
	// number of a task definition in a family. When you register a task definition
	// for the first time, the revision is 1; each time you register a new revision
	// of a task definition in the same family, the revision value always increases
	// by one (even if you have deregistered previous revisions in this family).
	Revision *int64 `locationName:"revision" type:"integer"`

	// The status of the task definition.
	Status *string `locationName:"status" type:"string" enum:"TaskDefinitionStatus"`

	// The full Amazon Resource Name (ARN) of the task definition.
	TaskDefinitionArn *string `locationName:"taskDefinitionArn" type:"string"`

	// The Amazon Resource Name (ARN) of the IAM role that containers in this task
	// can assume. All containers in this task are granted the permissions that
	// are specified in this role.
	TaskRoleArn *string `locationName:"taskRoleArn" type:"string"`

	// The list of volumes in a task. For more information about volume definition
	// parameters and defaults, see Amazon ECS Task Definitions (http://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_defintions.html)
	// in the Amazon EC2 Container Service Developer Guide.
	Volumes []*Volume `locationName:"volumes" type:"list"`
}

// String returns the string representation
func (s TaskDefinition) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s TaskDefinition) GoString() string {
	return s.String()
}

// The overrides associated with a task.
type TaskOverride struct {
	_ struct{} `type:"structure"`

	// One or more container overrides sent to a task.
	ContainerOverrides []*ContainerOverride `locationName:"containerOverrides" type:"list"`

	// The Amazon Resource Name (ARN) of the IAM role that containers in this task
	// can assume. All containers in this task are granted the permissions that
	// are specified in this role.
	TaskRoleArn *string `locationName:"taskRoleArn" type:"string"`
}

// String returns the string representation
func (s TaskOverride) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s TaskOverride) GoString() string {
	return s.String()
}

// The ulimit settings to pass to the container.
type Ulimit struct {
	_ struct{} `type:"structure"`

	// The hard limit for the ulimit type.
	HardLimit *int64 `locationName:"hardLimit" type:"integer" required:"true"`

	// The type of the ulimit.
	Name *string `locationName:"name" type:"string" required:"true" enum:"UlimitName"`

	// The soft limit for the ulimit type.
	SoftLimit *int64 `locationName:"softLimit" type:"integer" required:"true"`
}

// String returns the string representation
func (s Ulimit) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Ulimit) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *Ulimit) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "Ulimit"}
	if s.HardLimit == nil {
		invalidParams.Add(request.NewErrParamRequired("HardLimit"))
	}
	if s.Name == nil {
		invalidParams.Add(request.NewErrParamRequired("Name"))
	}
	if s.SoftLimit == nil {
		invalidParams.Add(request.NewErrParamRequired("SoftLimit"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type UpdateContainerAgentInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that your
	// container instance is running on. If you do not specify a cluster, the default
	// cluster is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// The container instance ID or full Amazon Resource Name (ARN) entries for
	// the container instance on which you would like to update the Amazon ECS container
	// agent.
	ContainerInstance *string `locationName:"containerInstance" type:"string" required:"true"`
}

// String returns the string representation
func (s UpdateContainerAgentInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s UpdateContainerAgentInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *UpdateContainerAgentInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "UpdateContainerAgentInput"}
	if s.ContainerInstance == nil {
		invalidParams.Add(request.NewErrParamRequired("ContainerInstance"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type UpdateContainerAgentOutput struct {
	_ struct{} `type:"structure"`

	// An EC2 instance that is running the Amazon ECS agent and has been registered
	// with a cluster.
	ContainerInstance *ContainerInstance `locationName:"containerInstance" type:"structure"`
}

// String returns the string representation
func (s UpdateContainerAgentOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s UpdateContainerAgentOutput) GoString() string {
	return s.String()
}

type UpdateServiceInput struct {
	_ struct{} `type:"structure"`

	// The short name or full Amazon Resource Name (ARN) of the cluster that your
	// service is running on. If you do not specify a cluster, the default cluster
	// is assumed.
	Cluster *string `locationName:"cluster" type:"string"`

	// Optional deployment parameters that control how many tasks run during the
	// deployment and the ordering of stopping and starting tasks.
	DeploymentConfiguration *DeploymentConfiguration `locationName:"deploymentConfiguration" type:"structure"`

	// The number of instantiations of the task to place and keep running in your
	// service.
	DesiredCount *int64 `locationName:"desiredCount" type:"integer"`

	// The name of the service to update.
	Service *string `locationName:"service" type:"string" required:"true"`

	// The family and revision (family:revision) or full Amazon Resource Name (ARN)
	// of the task definition to run in your service. If a revision is not specified,
	// the latest ACTIVE revision is used. If you modify the task definition with
	// UpdateService, Amazon ECS spawns a task with the new version of the task
	// definition and then stops an old task after the new version is running.
	TaskDefinition *string `locationName:"taskDefinition" type:"string"`
}

// String returns the string representation
func (s UpdateServiceInput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s UpdateServiceInput) GoString() string {
	return s.String()
}

// Validate inspects the fields of the type to determine if they are valid.
func (s *UpdateServiceInput) Validate() error {
	invalidParams := request.ErrInvalidParams{Context: "UpdateServiceInput"}
	if s.Service == nil {
		invalidParams.Add(request.NewErrParamRequired("Service"))
	}

	if invalidParams.Len() > 0 {
		return invalidParams
	}
	return nil
}

type UpdateServiceOutput struct {
	_ struct{} `type:"structure"`

	// The full description of your service following the update call.
	Service *Service `locationName:"service" type:"structure"`
}

// String returns the string representation
func (s UpdateServiceOutput) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s UpdateServiceOutput) GoString() string {
	return s.String()
}

// The Docker and Amazon ECS container agent version information about a container
// instance.
type VersionInfo struct {
	_ struct{} `type:"structure"`

	// The Git commit hash for the Amazon ECS container agent build on the amazon-ecs-agent
	//  (https://github.com/aws/amazon-ecs-agent/commits/master) GitHub repository.
	AgentHash *string `locationName:"agentHash" type:"string"`

	// The version number of the Amazon ECS container agent.
	AgentVersion *string `locationName:"agentVersion" type:"string"`

	// The Docker version running on the container instance.
	DockerVersion *string `locationName:"dockerVersion" type:"string"`
}

// String returns the string representation
func (s VersionInfo) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s VersionInfo) GoString() string {
	return s.String()
}

// A data volume used in a task definition.
type Volume struct {
	_ struct{} `type:"structure"`

	// The contents of the host parameter determine whether your data volume persists
	// on the host container instance and where it is stored. If the host parameter
	// is empty, then the Docker daemon assigns a host path for your data volume,
	// but the data is not guaranteed to persist after the containers associated
	// with it stop running.
	Host *HostVolumeProperties `locationName:"host" type:"structure"`

	// The name of the volume. Up to 255 letters (uppercase and lowercase), numbers,
	// hyphens, and underscores are allowed. This name is referenced in the sourceVolume
	// parameter of container definition mountPoints.
	Name *string `locationName:"name" type:"string"`
}

// String returns the string representation
func (s Volume) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s Volume) GoString() string {
	return s.String()
}

// Details on a data volume from another container.
type VolumeFrom struct {
	_ struct{} `type:"structure"`

	// If this value is true, the container has read-only access to the volume.
	// If this value is false, then the container can write to the volume. The default
	// value is false.
	ReadOnly *bool `locationName:"readOnly" type:"boolean"`

	// The name of the container to mount volumes from.
	SourceContainer *string `locationName:"sourceContainer" type:"string"`
}

// String returns the string representation
func (s VolumeFrom) String() string {
	return awsutil.Prettify(s)
}

// GoString returns the string representation
func (s VolumeFrom) GoString() string {
	return s.String()
}

const (
	// @enum AgentUpdateStatus
	AgentUpdateStatusPending = "PENDING"
	// @enum AgentUpdateStatus
	AgentUpdateStatusStaging = "STAGING"
	// @enum AgentUpdateStatus
	AgentUpdateStatusStaged = "STAGED"
	// @enum AgentUpdateStatus
	AgentUpdateStatusUpdating = "UPDATING"
	// @enum AgentUpdateStatus
	AgentUpdateStatusUpdated = "UPDATED"
	// @enum AgentUpdateStatus
	AgentUpdateStatusFailed = "FAILED"
)

const (
	// @enum DesiredStatus
	DesiredStatusRunning = "RUNNING"
	// @enum DesiredStatus
	DesiredStatusPending = "PENDING"
	// @enum DesiredStatus
	DesiredStatusStopped = "STOPPED"
)

const (
	// @enum LogDriver
	LogDriverJsonFile = "json-file"
	// @enum LogDriver
	LogDriverSyslog = "syslog"
	// @enum LogDriver
	LogDriverJournald = "journald"
	// @enum LogDriver
	LogDriverGelf = "gelf"
	// @enum LogDriver
	LogDriverFluentd = "fluentd"
	// @enum LogDriver
	LogDriverAwslogs = "awslogs"
	// @enum LogDriver
	LogDriverSplunk = "splunk"
)

const (
	// @enum NetworkMode
	NetworkModeBridge = "bridge"
	// @enum NetworkMode
	NetworkModeHost = "host"
	// @enum NetworkMode
	NetworkModeNone = "none"
)

const (
	// @enum SortOrder
	SortOrderAsc = "ASC"
	// @enum SortOrder
	SortOrderDesc = "DESC"
)

const (
	// @enum TaskDefinitionFamilyStatus
	TaskDefinitionFamilyStatusActive = "ACTIVE"
	// @enum TaskDefinitionFamilyStatus
	TaskDefinitionFamilyStatusInactive = "INACTIVE"
	// @enum TaskDefinitionFamilyStatus
	TaskDefinitionFamilyStatusAll = "ALL"
)

const (
	// @enum TaskDefinitionStatus
	TaskDefinitionStatusActive = "ACTIVE"
	// @enum TaskDefinitionStatus
	TaskDefinitionStatusInactive = "INACTIVE"
)

const (
	// @enum TransportProtocol
	TransportProtocolTcp = "tcp"
	// @enum TransportProtocol
	TransportProtocolUdp = "udp"
)

const (
	// @enum UlimitName
	UlimitNameCore = "core"
	// @enum UlimitName
	UlimitNameCpu = "cpu"
	// @enum UlimitName
	UlimitNameData = "data"
	// @enum UlimitName
	UlimitNameFsize = "fsize"
	// @enum UlimitName
	UlimitNameLocks = "locks"
	// @enum UlimitName
	UlimitNameMemlock = "memlock"
	// @enum UlimitName
	UlimitNameMsgqueue = "msgqueue"
	// @enum UlimitName
	UlimitNameNice = "nice"
	// @enum UlimitName
	UlimitNameNofile = "nofile"
	// @enum UlimitName
	UlimitNameNproc = "nproc"
	// @enum UlimitName
	UlimitNameRss = "rss"
	// @enum UlimitName
	UlimitNameRtprio = "rtprio"
	// @enum UlimitName
	UlimitNameRttime = "rttime"
	// @enum UlimitName
	UlimitNameSigpending = "sigpending"
	// @enum UlimitName
	UlimitNameStack = "stack"
)