import {Request} from '../lib/request'; import {Response} from '../lib/response'; import {AWSError} from '../lib/error'; import {Service} from '../lib/service'; import {ServiceConfigurationOptions} from '../lib/service'; import {ConfigBase as Config} from '../lib/config'; interface Blob {} declare class AppMesh extends Service { /** * Constructs a service object. This object has one method for each API operation. */ constructor(options?: AppMesh.Types.ClientConfiguration) config: Config & AppMesh.Types.ClientConfiguration; /** * Creates a new service mesh. A service mesh is a logical boundary for network traffic between the services that reside within it. After you create your service mesh, you can create virtual nodes, virtual routers, and routes to distribute traffic between the applications in your mesh. */ createMesh(params: AppMesh.Types.CreateMeshInput, callback?: (err: AWSError, data: AppMesh.Types.CreateMeshOutput) => void): Request; /** * Creates a new service mesh. A service mesh is a logical boundary for network traffic between the services that reside within it. After you create your service mesh, you can create virtual nodes, virtual routers, and routes to distribute traffic between the applications in your mesh. */ createMesh(callback?: (err: AWSError, data: AppMesh.Types.CreateMeshOutput) => void): Request; /** * Creates a new route that is associated with a virtual router. You can use the prefix parameter in your route specification for path-based routing of requests. For example, if your virtual router service name is my-service.local, and you want the route to match requests to my-service.local/metrics, then your prefix should be /metrics. If your route matches a request, you can distribute traffic to one or more target virtual nodes with relative weighting. */ createRoute(params: AppMesh.Types.CreateRouteInput, callback?: (err: AWSError, data: AppMesh.Types.CreateRouteOutput) => void): Request; /** * Creates a new route that is associated with a virtual router. You can use the prefix parameter in your route specification for path-based routing of requests. For example, if your virtual router service name is my-service.local, and you want the route to match requests to my-service.local/metrics, then your prefix should be /metrics. If your route matches a request, you can distribute traffic to one or more target virtual nodes with relative weighting. */ createRoute(callback?: (err: AWSError, data: AppMesh.Types.CreateRouteOutput) => void): Request; /** * Creates a new virtual node within a service mesh. A virtual node acts as logical pointer to a particular task group, such as an Amazon ECS service or a Kubernetes deployment. When you create a virtual node, you must specify the DNS service discovery name for your task group. Any inbound traffic that your virtual node expects should be specified as a listener. Any outbound traffic that your virtual node expects to reach should be specified as a backend. The response metadata for your new virtual node contains the arn that is associated with the virtual node. Set this value (either the full ARN or the truncated resource name, for example, mesh/default/virtualNode/simpleapp, as the APPMESH_VIRTUAL_NODE_NAME environment variable for your task group's Envoy proxy container in your task definition or pod spec. This is then mapped to the node.id and node.cluster Envoy parameters. If you require your Envoy stats or tracing to use a different name, you can override the node.cluster value that is set by APPMESH_VIRTUAL_NODE_NAME with the APPMESH_VIRTUAL_NODE_CLUSTER environment variable. */ createVirtualNode(params: AppMesh.Types.CreateVirtualNodeInput, callback?: (err: AWSError, data: AppMesh.Types.CreateVirtualNodeOutput) => void): Request; /** * Creates a new virtual node within a service mesh. A virtual node acts as logical pointer to a particular task group, such as an Amazon ECS service or a Kubernetes deployment. When you create a virtual node, you must specify the DNS service discovery name for your task group. Any inbound traffic that your virtual node expects should be specified as a listener. Any outbound traffic that your virtual node expects to reach should be specified as a backend. The response metadata for your new virtual node contains the arn that is associated with the virtual node. Set this value (either the full ARN or the truncated resource name, for example, mesh/default/virtualNode/simpleapp, as the APPMESH_VIRTUAL_NODE_NAME environment variable for your task group's Envoy proxy container in your task definition or pod spec. This is then mapped to the node.id and node.cluster Envoy parameters. If you require your Envoy stats or tracing to use a different name, you can override the node.cluster value that is set by APPMESH_VIRTUAL_NODE_NAME with the APPMESH_VIRTUAL_NODE_CLUSTER environment variable. */ createVirtualNode(callback?: (err: AWSError, data: AppMesh.Types.CreateVirtualNodeOutput) => void): Request; /** * Creates a new virtual router within a service mesh. Virtual routers handle traffic for one or more service names within your mesh. After you create your virtual router, create and associate routes for your virtual router that direct incoming requests to different virtual nodes. */ createVirtualRouter(params: AppMesh.Types.CreateVirtualRouterInput, callback?: (err: AWSError, data: AppMesh.Types.CreateVirtualRouterOutput) => void): Request; /** * Creates a new virtual router within a service mesh. Virtual routers handle traffic for one or more service names within your mesh. After you create your virtual router, create and associate routes for your virtual router that direct incoming requests to different virtual nodes. */ createVirtualRouter(callback?: (err: AWSError, data: AppMesh.Types.CreateVirtualRouterOutput) => void): Request; /** * Deletes an existing service mesh. You must delete all resources (routes, virtual routers, virtual nodes) in the service mesh before you can delete the mesh itself. */ deleteMesh(params: AppMesh.Types.DeleteMeshInput, callback?: (err: AWSError, data: AppMesh.Types.DeleteMeshOutput) => void): Request; /** * Deletes an existing service mesh. You must delete all resources (routes, virtual routers, virtual nodes) in the service mesh before you can delete the mesh itself. */ deleteMesh(callback?: (err: AWSError, data: AppMesh.Types.DeleteMeshOutput) => void): Request; /** * Deletes an existing route. */ deleteRoute(params: AppMesh.Types.DeleteRouteInput, callback?: (err: AWSError, data: AppMesh.Types.DeleteRouteOutput) => void): Request; /** * Deletes an existing route. */ deleteRoute(callback?: (err: AWSError, data: AppMesh.Types.DeleteRouteOutput) => void): Request; /** * Deletes an existing virtual node. */ deleteVirtualNode(params: AppMesh.Types.DeleteVirtualNodeInput, callback?: (err: AWSError, data: AppMesh.Types.DeleteVirtualNodeOutput) => void): Request; /** * Deletes an existing virtual node. */ deleteVirtualNode(callback?: (err: AWSError, data: AppMesh.Types.DeleteVirtualNodeOutput) => void): Request; /** * Deletes an existing virtual router. You must delete any routes associated with the virtual router before you can delete the router itself. */ deleteVirtualRouter(params: AppMesh.Types.DeleteVirtualRouterInput, callback?: (err: AWSError, data: AppMesh.Types.DeleteVirtualRouterOutput) => void): Request; /** * Deletes an existing virtual router. You must delete any routes associated with the virtual router before you can delete the router itself. */ deleteVirtualRouter(callback?: (err: AWSError, data: AppMesh.Types.DeleteVirtualRouterOutput) => void): Request; /** * Describes an existing cluster. */ describeMesh(params: AppMesh.Types.DescribeMeshInput, callback?: (err: AWSError, data: AppMesh.Types.DescribeMeshOutput) => void): Request; /** * Describes an existing cluster. */ describeMesh(callback?: (err: AWSError, data: AppMesh.Types.DescribeMeshOutput) => void): Request; /** * Describes an existing route. */ describeRoute(params: AppMesh.Types.DescribeRouteInput, callback?: (err: AWSError, data: AppMesh.Types.DescribeRouteOutput) => void): Request; /** * Describes an existing route. */ describeRoute(callback?: (err: AWSError, data: AppMesh.Types.DescribeRouteOutput) => void): Request; /** * Describes an existing virtual node. */ describeVirtualNode(params: AppMesh.Types.DescribeVirtualNodeInput, callback?: (err: AWSError, data: AppMesh.Types.DescribeVirtualNodeOutput) => void): Request; /** * Describes an existing virtual node. */ describeVirtualNode(callback?: (err: AWSError, data: AppMesh.Types.DescribeVirtualNodeOutput) => void): Request; /** * Describes an existing virtual router. */ describeVirtualRouter(params: AppMesh.Types.DescribeVirtualRouterInput, callback?: (err: AWSError, data: AppMesh.Types.DescribeVirtualRouterOutput) => void): Request; /** * Describes an existing virtual router. */ describeVirtualRouter(callback?: (err: AWSError, data: AppMesh.Types.DescribeVirtualRouterOutput) => void): Request; /** * Returns a list of existing service meshes. */ listMeshes(params: AppMesh.Types.ListMeshesInput, callback?: (err: AWSError, data: AppMesh.Types.ListMeshesOutput) => void): Request; /** * Returns a list of existing service meshes. */ listMeshes(callback?: (err: AWSError, data: AppMesh.Types.ListMeshesOutput) => void): Request; /** * Returns a list of existing routes in a service mesh. */ listRoutes(params: AppMesh.Types.ListRoutesInput, callback?: (err: AWSError, data: AppMesh.Types.ListRoutesOutput) => void): Request; /** * Returns a list of existing routes in a service mesh. */ listRoutes(callback?: (err: AWSError, data: AppMesh.Types.ListRoutesOutput) => void): Request; /** * Returns a list of existing virtual nodes. */ listVirtualNodes(params: AppMesh.Types.ListVirtualNodesInput, callback?: (err: AWSError, data: AppMesh.Types.ListVirtualNodesOutput) => void): Request; /** * Returns a list of existing virtual nodes. */ listVirtualNodes(callback?: (err: AWSError, data: AppMesh.Types.ListVirtualNodesOutput) => void): Request; /** * Returns a list of existing virtual routers in a service mesh. */ listVirtualRouters(params: AppMesh.Types.ListVirtualRoutersInput, callback?: (err: AWSError, data: AppMesh.Types.ListVirtualRoutersOutput) => void): Request; /** * Returns a list of existing virtual routers in a service mesh. */ listVirtualRouters(callback?: (err: AWSError, data: AppMesh.Types.ListVirtualRoutersOutput) => void): Request; /** * Updates an existing route for a specified service mesh and virtual router. */ updateRoute(params: AppMesh.Types.UpdateRouteInput, callback?: (err: AWSError, data: AppMesh.Types.UpdateRouteOutput) => void): Request; /** * Updates an existing route for a specified service mesh and virtual router. */ updateRoute(callback?: (err: AWSError, data: AppMesh.Types.UpdateRouteOutput) => void): Request; /** * Updates an existing virtual node in a specified service mesh. */ updateVirtualNode(params: AppMesh.Types.UpdateVirtualNodeInput, callback?: (err: AWSError, data: AppMesh.Types.UpdateVirtualNodeOutput) => void): Request; /** * Updates an existing virtual node in a specified service mesh. */ updateVirtualNode(callback?: (err: AWSError, data: AppMesh.Types.UpdateVirtualNodeOutput) => void): Request; /** * Updates an existing virtual router in a specified service mesh. */ updateVirtualRouter(params: AppMesh.Types.UpdateVirtualRouterInput, callback?: (err: AWSError, data: AppMesh.Types.UpdateVirtualRouterOutput) => void): Request; /** * Updates an existing virtual router in a specified service mesh. */ updateVirtualRouter(callback?: (err: AWSError, data: AppMesh.Types.UpdateVirtualRouterOutput) => void): Request; } declare namespace AppMesh { export type ServiceName = string; export interface DeleteMeshOutput { /** * The service mesh that was deleted. */ mesh?: MeshData; } export type Long = number; export interface UpdateVirtualRouterOutput { /** * A full description of the virtual router that was updated. */ virtualRouter?: VirtualRouterData; } export type MeshStatusCode = "ACTIVE"|"DELETED"|"INACTIVE"|string; export type PortNumber = number; export interface WeightedTarget { /** * The virtual node to associate with the weighted target. */ virtualNode?: ResourceName; /** * The relative weight of the weighted target. */ weight?: PercentInt; } export type VirtualNodeList = VirtualNodeRef[]; export interface CreateRouteOutput { /** * The full description of your mesh following the create call. */ route?: RouteData; } export type RouteList = RouteRef[]; export interface DeleteVirtualNodeInput { /** * The name of the service mesh in which to delete the virtual node. */ meshName: ResourceName; /** * The name of the virtual node to delete. */ virtualNodeName: ResourceName; } export type ListVirtualRoutersLimit = number; export interface DnsServiceDiscovery { /** * The DNS service name for your virtual node. */ serviceName?: ServiceName; } export interface VirtualNodeRef { /** * The full Amazon Resource Name (ARN) for the virtual node. */ arn?: Arn; /** * The name of the service mesh in which the virtual node resides. */ meshName?: ResourceName; /** * The name of the virtual node. */ virtualNodeName?: ResourceName; } export interface DescribeRouteOutput { /** * The full description of your route. */ route?: RouteData; } export interface ServiceDiscovery { /** * Specifies the DNS service name for the virtual node. */ dns?: DnsServiceDiscovery; } export interface MeshStatus { /** * The current mesh status. */ status?: MeshStatusCode; } export interface VirtualNodeData { /** * The name of the service mesh in which the virtual node resides. */ meshName: ResourceName; /** * The associated metadata for the virtual node. */ metadata?: ResourceMetadata; /** * The specifications of the virtual node. */ spec?: VirtualNodeSpec; /** * The current status for the virtual node. */ status?: VirtualNodeStatus; /** * The name of the virtual node. */ virtualNodeName: ResourceName; } export interface VirtualNodeSpec { /** * The backends to which the virtual node is expected to send outbound traffic. */ backends?: Backends; /** * The listeners from which the virtual node is expected to receive inbound traffic. */ listeners?: Listeners; /** * The service discovery information for the virtual node. */ serviceDiscovery?: ServiceDiscovery; } export type ServiceNames = ServiceName[]; export type DurationMillis = number; export type NonNegativeInt = number; export interface MeshRef { /** * The full Amazon Resource Name (ARN) of the service mesh. */ arn?: Arn; /** * The name of the service mesh. */ meshName?: ResourceName; } export interface DescribeVirtualRouterInput { /** * The name of the service mesh in which the virtual router resides. */ meshName: ResourceName; /** * The name of the virtual router to describe. */ virtualRouterName: ResourceName; } export interface DescribeVirtualRouterOutput { /** * The full description of your virtual router. */ virtualRouter?: VirtualRouterData; } export interface UpdateRouteOutput { /** * A full description of the route that was updated. */ route?: RouteData; } export interface HttpRouteAction { /** * The targets that traffic is routed to when a request matches the route. You can specify one or more targets and their relative weights with which to distribute traffic. */ weightedTargets?: WeightedTargets; } export interface CreateVirtualRouterOutput { /** * The full description of your virtual router following the create call. */ virtualRouter?: VirtualRouterData; } export interface CreateVirtualRouterInput { /** * Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. Up to 36 letters, numbers, hyphens, and underscores are allowed. */ clientToken?: String; /** * The name of the service mesh in which to create the virtual router. */ meshName: ResourceName; /** * The virtual router specification to apply. */ spec: VirtualRouterSpec; /** * The name to use for the virtual router. */ virtualRouterName: ResourceName; } export interface RouteStatus { /** * The current status for the route. */ status?: RouteStatusCode; } export interface ListMeshesInput { /** * The maximum number of mesh results returned by ListMeshes in paginated output. When this parameter is used, ListMeshes only returns limit results in a single page along with a nextToken response element. The remaining results of the initial request can be seen by sending another ListMeshes request with the returned nextToken value. This value can be between 1 and 100. If this parameter is not used, then ListMeshes returns up to 100 results and a nextToken value if applicable. */ limit?: ListMeshesLimit; /** * The nextToken value returned from a previous paginated ListMeshes request where limit was used and the results exceeded the value of that parameter. Pagination continues from the end of the previous results that returned the nextToken value. This token should be treated as an opaque identifier that is only used to retrieve the next items in a list and not for other programmatic purposes. */ nextToken?: String; } export interface VirtualRouterStatus { /** * The current status of the virtual router. */ status?: VirtualRouterStatusCode; } export interface ListMeshesOutput { /** * The list of existing service meshes. */ meshes: MeshList; /** * The nextToken value to include in a future ListMeshes request. When the results of a ListMeshes request exceed limit, 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; } export interface DescribeVirtualNodeOutput { /** * The full description of your virtual node. */ virtualNode?: VirtualNodeData; } export interface CreateMeshOutput { /** * The full description of your service mesh following the create call. */ mesh?: MeshData; } export type ResourceName = string; export interface RouteData { /** * The name of the service mesh in which the route resides. */ meshName: ResourceName; /** * The associated metadata for the route. */ metadata?: ResourceMetadata; /** * The name of the route. */ routeName: ResourceName; /** * The specifications of the route. */ spec?: RouteSpec; /** * The status of the route. */ status?: RouteStatus; /** * The virtual router with which the route is associated. */ virtualRouterName: ResourceName; } export type Arn = string; export interface UpdateVirtualNodeInput { /** * Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. Up to 36 letters, numbers, hyphens, and underscores are allowed. */ clientToken?: String; /** * The name of the service mesh in which the virtual node resides. */ meshName: ResourceName; /** * The new virtual node specification to apply. This overwrites the existing data. */ spec: VirtualNodeSpec; /** * The name of the virtual node to update. */ virtualNodeName: ResourceName; } export interface DeleteRouteInput { /** * The name of the service mesh in which to delete the route. */ meshName: ResourceName; /** * The name of the route to delete. */ routeName: ResourceName; /** * The name of the virtual router in which to delete the route. */ virtualRouterName: ResourceName; } export type Listeners = Listener[]; export interface ListRoutesInput { /** * The maximum number of mesh results returned by ListRoutes in paginated output. When this parameter is used, ListRoutes only returns limit results in a single page along with a nextToken response element. The remaining results of the initial request can be seen by sending another ListRoutes request with the returned nextToken value. This value can be between 1 and 100. If this parameter is not used, then ListRoutes returns up to 100 results and a nextToken value if applicable. */ limit?: ListRoutesLimit; /** * The name of the service mesh in which to list routes. */ meshName: ResourceName; /** * The nextToken value returned from a previous paginated ListRoutes request where limit 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. */ nextToken?: String; /** * The name of the virtual router in which to list routes. */ virtualRouterName: ResourceName; } export interface HttpRoute { /** * The action to take if a match is determined. */ action?: HttpRouteAction; /** * The criteria for determining an HTTP request match. */ match?: HttpRouteMatch; } export type Timestamp = Date; export interface ListRoutesOutput { /** * The nextToken value to include in a future ListRoutes request. When the results of a ListRoutes request exceed limit, 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; /** * The list of existing routes for the specified service mesh and virtual router. */ routes: RouteList; } export interface RouteSpec { /** * The HTTP routing information for the route. */ httpRoute?: HttpRoute; } export interface DescribeVirtualNodeInput { /** * The name of the service mesh in which the virtual node resides. */ meshName: ResourceName; /** * The name of the virtual node to describe. */ virtualNodeName: ResourceName; } export interface VirtualRouterRef { /** * The full Amazon Resource Name (ARN) for the virtual router. */ arn?: Arn; /** * The name of the service mesh in which the virtual router resides. */ meshName?: ResourceName; /** * The name of the virtual router. */ virtualRouterName?: ResourceName; } export type VirtualRouterStatusCode = "ACTIVE"|"DELETED"|"INACTIVE"|string; export interface ListVirtualNodesOutput { /** * The nextToken value to include in a future ListVirtualNodes request. When the results of a ListVirtualNodes request exceed limit, 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; /** * The list of existing virtual nodes for the specified service mesh. */ virtualNodes: VirtualNodeList; } export interface DeleteVirtualNodeOutput { /** * The virtual node that was deleted. */ virtualNode?: VirtualNodeData; } export interface UpdateVirtualRouterInput { /** * Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. Up to 36 letters, numbers, hyphens, and underscores are allowed. */ clientToken?: String; /** * The name of the service mesh in which the virtual router resides. */ meshName: ResourceName; /** * The new virtual router specification to apply. This overwrites the existing data. */ spec: VirtualRouterSpec; /** * The name of the virtual router to update. */ virtualRouterName: ResourceName; } export interface DescribeRouteInput { /** * The name of the service mesh in which the route resides. */ meshName: ResourceName; /** * The name of the route to describe. */ routeName: ResourceName; /** * The name of the virtual router with which the route is associated. */ virtualRouterName: ResourceName; } export interface ListVirtualRoutersOutput { /** * The nextToken value to include in a future ListVirtualRouters request. When the results of a ListVirtualRouters request exceed limit, 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; /** * The list of existing virtual routers for the specified service mesh. */ virtualRouters: VirtualRouterList; } export interface CreateVirtualNodeOutput { /** * The full description of your virtual node following the create call. */ virtualNode?: VirtualNodeData; } export interface DeleteVirtualRouterOutput { /** * The virtual router that was deleted. */ virtualRouter?: VirtualRouterData; } export type ListRoutesLimit = number; export type PortProtocol = "http"|"tcp"|string; export type MeshList = MeshRef[]; export interface ResourceMetadata { /** * The full Amazon Resource Name (ARN) for the resource. After you create a virtual node, set this value (either the full ARN or the truncated resource name, for example, mesh/default/virtualNode/simpleapp, as the APPMESH_VIRTUAL_NODE_NAME environment variable for your task group's Envoy proxy container in your task definition or pod spec. This is then mapped to the node.id and node.cluster Envoy parameters. If you require your Envoy stats or tracing to use a different name, you can override the node.cluster value that is set by APPMESH_VIRTUAL_NODE_NAME with the APPMESH_VIRTUAL_NODE_CLUSTER environment variable. */ arn?: Arn; /** * The Unix epoch timestamp in seconds for when the cluster was created. */ createdAt?: Timestamp; /** * The Unix epoch timestamp in seconds for when the cluster was last updated. */ lastUpdatedAt?: Timestamp; /** * The unique identifier for the resource. */ uid?: String; /** * The version of the resource. Resources are created at version 1, and this version is incremented each time they are updated. */ version?: Long; } export interface CreateMeshInput { /** * Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. Up to 36 letters, numbers, hyphens, and underscores are allowed. */ clientToken?: String; /** * The name to use for the service mesh. */ meshName: ResourceName; } export interface PortMapping { /** * The port used for the port mapping. */ port?: PortNumber; /** * The protocol used for the port mapping. */ protocol?: PortProtocol; } export type VirtualNodeStatusCode = "ACTIVE"|"DELETED"|"INACTIVE"|string; export interface DeleteVirtualRouterInput { /** * The name of the service mesh in which to delete the virtual router. */ meshName: ResourceName; /** * The name of the virtual router to delete. */ virtualRouterName: ResourceName; } export interface VirtualRouterSpec { /** * The service mesh service names to associate with the virtual router. */ serviceNames?: ServiceNames; } export interface UpdateRouteInput { /** * Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. Up to 36 letters, numbers, hyphens, and underscores are allowed. */ clientToken?: String; /** * The name of the service mesh in which the route resides. */ meshName: ResourceName; /** * The name of the route to update. */ routeName: ResourceName; /** * The new route specification to apply. This overwrites the existing data. */ spec: RouteSpec; /** * The name of the virtual router with which the route is associated. */ virtualRouterName: ResourceName; } export type PercentInt = number; export type ListMeshesLimit = number; export interface DescribeMeshInput { /** * The name of the service mesh to describe. */ meshName: ResourceName; } export interface DescribeMeshOutput { /** * The full description of your service mesh. */ mesh?: MeshData; } export interface VirtualRouterData { /** * The name of the service mesh in which the virtual router resides. */ meshName: ResourceName; /** * The associated metadata for the virtual router. */ metadata?: ResourceMetadata; /** * The specifications of the virtual router. */ spec?: VirtualRouterSpec; /** * The current status of the virtual router. */ status?: VirtualRouterStatus; /** * The name of the virtual router. */ virtualRouterName: ResourceName; } export type VirtualRouterList = VirtualRouterRef[]; export interface Listener { /** * The health check information for the listener. Listener health checks are not available during the App Mesh preview. */ healthCheck?: HealthCheckPolicy; /** * The port mapping information for the listener. */ portMapping?: PortMapping; } export type String = string; export interface HealthCheckPolicy { /** * The number of consecutive successful health checks that must occur before declaring listener healthy. */ healthyThreshold?: NonNegativeInt; /** * The time period in milliseconds between each health check execution. */ intervalMillis?: DurationMillis; /** * The destination path for the health check request. */ path?: String; /** * The destination port for the health check request. */ port?: PortNumber; /** * The protocol for the health check request. */ protocol?: PortProtocol; /** * The amount of time to wait when receiving a response from the health check, in milliseconds. */ timeoutMillis?: DurationMillis; /** * The number of consecutive failed health checks that must occur before declaring a virtual node unhealthy. */ unhealthyThreshold?: NonNegativeInt; } export interface ListVirtualRoutersInput { /** * The maximum number of mesh results returned by ListVirtualRouters in paginated output. When this parameter is used, ListVirtualRouters only returns limit results in a single page along with a nextToken response element. The remaining results of the initial request can be seen by sending another ListVirtualRouters request with the returned nextToken value. This value can be between 1 and 100. If this parameter is not used, then ListVirtualRouters returns up to 100 results and a nextToken value if applicable. */ limit?: ListVirtualRoutersLimit; /** * The name of the service mesh in which to list virtual routers. */ meshName: ResourceName; /** * The nextToken value returned from a previous paginated ListVirtualRouters request where limit 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. */ nextToken?: String; } export interface CreateVirtualNodeInput { /** * Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. Up to 36 letters, numbers, hyphens, and underscores are allowed. */ clientToken?: String; /** * The name of the service mesh in which to create the virtual node. */ meshName: ResourceName; /** * The virtual node specification to apply. */ spec: VirtualNodeSpec; /** * The name to use for the virtual node. */ virtualNodeName: ResourceName; } export interface MeshData { /** * The name of the service mesh. */ meshName: ResourceName; /** * The associated metadata for the service mesh. */ metadata: ResourceMetadata; /** * The status of the service mesh. */ status?: MeshStatus; } export type ListVirtualNodesLimit = number; export type WeightedTargets = WeightedTarget[]; export interface DeleteMeshInput { /** * The name of the service mesh to delete. */ meshName: ResourceName; } export interface HttpRouteMatch { /** * Specifies the path with which to match requests. This parameter must always start with /, which by itself matches all requests to the virtual router service name. You can also match for path-based routing of requests. For example, if your virtual router service name is my-service.local, and you want the route to match requests to my-service.local/metrics, then your prefix should be /metrics. */ prefix?: String; } export interface DeleteRouteOutput { /** * The route that was deleted. */ route?: RouteData; } export type Backends = ServiceName[]; export interface CreateRouteInput { /** * Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. Up to 36 letters, numbers, hyphens, and underscores are allowed. */ clientToken?: String; /** * The name of the service mesh in which to create the route. */ meshName: ResourceName; /** * The name to use for the route. */ routeName: ResourceName; /** * The route specification to apply. */ spec: RouteSpec; /** * The name of the virtual router in which to create the route. */ virtualRouterName: ResourceName; } export interface VirtualNodeStatus { /** * The current status of the virtual node. */ status?: VirtualNodeStatusCode; } export interface ListVirtualNodesInput { /** * The maximum number of mesh results returned by ListVirtualNodes in paginated output. When this parameter is used, ListVirtualNodes only returns limit results in a single page along with a nextToken response element. The remaining results of the initial request can be seen by sending another ListVirtualNodes request with the returned nextToken value. This value can be between 1 and 100. If this parameter is not used, then ListVirtualNodes returns up to 100 results and a nextToken value if applicable. */ limit?: ListVirtualNodesLimit; /** * The name of the service mesh in which to list virtual nodes. */ meshName: ResourceName; /** * The nextToken value returned from a previous paginated ListVirtualNodes request where limit 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. */ nextToken?: String; } export interface RouteRef { /** * The full Amazon Resource Name (ARN) for the route. */ arn?: Arn; /** * The name of the service mesh in which the route resides. */ meshName?: ResourceName; /** * The name of the route. */ routeName?: ResourceName; /** * The virtual router with which the route is associated. */ virtualRouterName?: ResourceName; } export type RouteStatusCode = "ACTIVE"|"DELETED"|"INACTIVE"|string; export interface UpdateVirtualNodeOutput { /** * A full description of the virtual node that was updated. */ virtualNode?: VirtualNodeData; } /** * A string in YYYY-MM-DD format that represents the latest possible API version that can be used in this service. Specify 'latest' to use the latest possible version. */ export type apiVersion = "2018-10-01"|"latest"|string; export interface ClientApiVersions { /** * A string in YYYY-MM-DD format that represents the latest possible API version that can be used in this service. Specify 'latest' to use the latest possible version. */ apiVersion?: apiVersion; } export type ClientConfiguration = ServiceConfigurationOptions & ClientApiVersions; /** * Contains interfaces for use with the AppMesh client. */ export import Types = AppMesh; } export = AppMesh;