ec2.d.ts
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import {Request} from '../lib/request';
import {Response} from '../lib/response';
import {AWSError} from '../lib/error';
import {Service} from '../lib/service';
import {WaiterConfiguration} from '../lib/service';
import {ServiceConfigurationOptions} from '../lib/service';
import {ConfigBase as Config} from '../lib/config';
interface Blob {}
declare class EC2 extends Service {
/**
* Constructs a service object. This object has one method for each API operation.
*/
constructor(options?: EC2.Types.ClientConfiguration)
config: Config & EC2.Types.ClientConfiguration;
/**
* Accepts the Convertible Reserved Instance exchange quote described in the GetReservedInstancesExchangeQuote call.
*/
acceptReservedInstancesExchangeQuote(params: EC2.Types.AcceptReservedInstancesExchangeQuoteRequest, callback?: (err: AWSError, data: EC2.Types.AcceptReservedInstancesExchangeQuoteResult) => void): Request<EC2.Types.AcceptReservedInstancesExchangeQuoteResult, AWSError>;
/**
* Accepts the Convertible Reserved Instance exchange quote described in the GetReservedInstancesExchangeQuote call.
*/
acceptReservedInstancesExchangeQuote(callback?: (err: AWSError, data: EC2.Types.AcceptReservedInstancesExchangeQuoteResult) => void): Request<EC2.Types.AcceptReservedInstancesExchangeQuoteResult, AWSError>;
/**
* Accepts a request to attach a VPC to a transit gateway. The VPC attachment must be in the pendingAcceptance state. Use DescribeTransitGatewayVpcAttachments to view your pending VPC attachment requests. Use RejectTransitGatewayVpcAttachment to reject a VPC attachment request.
*/
acceptTransitGatewayVpcAttachment(params: EC2.Types.AcceptTransitGatewayVpcAttachmentRequest, callback?: (err: AWSError, data: EC2.Types.AcceptTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.AcceptTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Accepts a request to attach a VPC to a transit gateway. The VPC attachment must be in the pendingAcceptance state. Use DescribeTransitGatewayVpcAttachments to view your pending VPC attachment requests. Use RejectTransitGatewayVpcAttachment to reject a VPC attachment request.
*/
acceptTransitGatewayVpcAttachment(callback?: (err: AWSError, data: EC2.Types.AcceptTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.AcceptTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Accepts one or more interface VPC endpoint connection requests to your VPC endpoint service.
*/
acceptVpcEndpointConnections(params: EC2.Types.AcceptVpcEndpointConnectionsRequest, callback?: (err: AWSError, data: EC2.Types.AcceptVpcEndpointConnectionsResult) => void): Request<EC2.Types.AcceptVpcEndpointConnectionsResult, AWSError>;
/**
* Accepts one or more interface VPC endpoint connection requests to your VPC endpoint service.
*/
acceptVpcEndpointConnections(callback?: (err: AWSError, data: EC2.Types.AcceptVpcEndpointConnectionsResult) => void): Request<EC2.Types.AcceptVpcEndpointConnectionsResult, AWSError>;
/**
* Accept a VPC peering connection request. To accept a request, the VPC peering connection must be in the pending-acceptance state, and you must be the owner of the peer VPC. Use DescribeVpcPeeringConnections to view your outstanding VPC peering connection requests. For an inter-Region VPC peering connection request, you must accept the VPC peering connection in the Region of the accepter VPC.
*/
acceptVpcPeeringConnection(params: EC2.Types.AcceptVpcPeeringConnectionRequest, callback?: (err: AWSError, data: EC2.Types.AcceptVpcPeeringConnectionResult) => void): Request<EC2.Types.AcceptVpcPeeringConnectionResult, AWSError>;
/**
* Accept a VPC peering connection request. To accept a request, the VPC peering connection must be in the pending-acceptance state, and you must be the owner of the peer VPC. Use DescribeVpcPeeringConnections to view your outstanding VPC peering connection requests. For an inter-Region VPC peering connection request, you must accept the VPC peering connection in the Region of the accepter VPC.
*/
acceptVpcPeeringConnection(callback?: (err: AWSError, data: EC2.Types.AcceptVpcPeeringConnectionResult) => void): Request<EC2.Types.AcceptVpcPeeringConnectionResult, AWSError>;
/**
* Advertises an IPv4 address range that is provisioned for use with your AWS resources through bring your own IP addresses (BYOIP). You can perform this operation at most once every 10 seconds, even if you specify different address ranges each time. We recommend that you stop advertising the BYOIP CIDR from other locations when you advertise it from AWS. To minimize down time, you can configure your AWS resources to use an address from a BYOIP CIDR before it is advertised, and then simultaneously stop advertising it from the current location and start advertising it through AWS. It can take a few minutes before traffic to the specified addresses starts routing to AWS because of BGP propagation delays. To stop advertising the BYOIP CIDR, use WithdrawByoipCidr.
*/
advertiseByoipCidr(params: EC2.Types.AdvertiseByoipCidrRequest, callback?: (err: AWSError, data: EC2.Types.AdvertiseByoipCidrResult) => void): Request<EC2.Types.AdvertiseByoipCidrResult, AWSError>;
/**
* Advertises an IPv4 address range that is provisioned for use with your AWS resources through bring your own IP addresses (BYOIP). You can perform this operation at most once every 10 seconds, even if you specify different address ranges each time. We recommend that you stop advertising the BYOIP CIDR from other locations when you advertise it from AWS. To minimize down time, you can configure your AWS resources to use an address from a BYOIP CIDR before it is advertised, and then simultaneously stop advertising it from the current location and start advertising it through AWS. It can take a few minutes before traffic to the specified addresses starts routing to AWS because of BGP propagation delays. To stop advertising the BYOIP CIDR, use WithdrawByoipCidr.
*/
advertiseByoipCidr(callback?: (err: AWSError, data: EC2.Types.AdvertiseByoipCidrResult) => void): Request<EC2.Types.AdvertiseByoipCidrResult, AWSError>;
/**
* Allocates an Elastic IP address to your AWS account. After you allocate the Elastic IP address you can associate it with an instance or network interface. After you release an Elastic IP address, it is released to the IP address pool and can be allocated to a different AWS account. You can allocate an Elastic IP address from an address pool owned by AWS or from an address pool created from a public IPv4 address range that you have brought to AWS for use with your AWS resources using bring your own IP addresses (BYOIP). For more information, see Bring Your Own IP Addresses (BYOIP) in the Amazon Elastic Compute Cloud User Guide. [EC2-VPC] If you release an Elastic IP address, you might be able to recover it. You cannot recover an Elastic IP address that you released after it is allocated to another AWS account. You cannot recover an Elastic IP address for EC2-Classic. To attempt to recover an Elastic IP address that you released, specify it in this operation. An Elastic IP address is for use either in the EC2-Classic platform or in a VPC. By default, you can allocate 5 Elastic IP addresses for EC2-Classic per Region and 5 Elastic IP addresses for EC2-VPC per Region. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide.
*/
allocateAddress(params: EC2.Types.AllocateAddressRequest, callback?: (err: AWSError, data: EC2.Types.AllocateAddressResult) => void): Request<EC2.Types.AllocateAddressResult, AWSError>;
/**
* Allocates an Elastic IP address to your AWS account. After you allocate the Elastic IP address you can associate it with an instance or network interface. After you release an Elastic IP address, it is released to the IP address pool and can be allocated to a different AWS account. You can allocate an Elastic IP address from an address pool owned by AWS or from an address pool created from a public IPv4 address range that you have brought to AWS for use with your AWS resources using bring your own IP addresses (BYOIP). For more information, see Bring Your Own IP Addresses (BYOIP) in the Amazon Elastic Compute Cloud User Guide. [EC2-VPC] If you release an Elastic IP address, you might be able to recover it. You cannot recover an Elastic IP address that you released after it is allocated to another AWS account. You cannot recover an Elastic IP address for EC2-Classic. To attempt to recover an Elastic IP address that you released, specify it in this operation. An Elastic IP address is for use either in the EC2-Classic platform or in a VPC. By default, you can allocate 5 Elastic IP addresses for EC2-Classic per Region and 5 Elastic IP addresses for EC2-VPC per Region. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide.
*/
allocateAddress(callback?: (err: AWSError, data: EC2.Types.AllocateAddressResult) => void): Request<EC2.Types.AllocateAddressResult, AWSError>;
/**
* Allocates a Dedicated Host to your account. At a minimum, specify the instance size type, Availability Zone, and quantity of hosts to allocate.
*/
allocateHosts(params: EC2.Types.AllocateHostsRequest, callback?: (err: AWSError, data: EC2.Types.AllocateHostsResult) => void): Request<EC2.Types.AllocateHostsResult, AWSError>;
/**
* Allocates a Dedicated Host to your account. At a minimum, specify the instance size type, Availability Zone, and quantity of hosts to allocate.
*/
allocateHosts(callback?: (err: AWSError, data: EC2.Types.AllocateHostsResult) => void): Request<EC2.Types.AllocateHostsResult, AWSError>;
/**
* Applies a security group to the association between the target network and the Client VPN endpoint. This action replaces the existing security groups with the specified security groups.
*/
applySecurityGroupsToClientVpnTargetNetwork(params: EC2.Types.ApplySecurityGroupsToClientVpnTargetNetworkRequest, callback?: (err: AWSError, data: EC2.Types.ApplySecurityGroupsToClientVpnTargetNetworkResult) => void): Request<EC2.Types.ApplySecurityGroupsToClientVpnTargetNetworkResult, AWSError>;
/**
* Applies a security group to the association between the target network and the Client VPN endpoint. This action replaces the existing security groups with the specified security groups.
*/
applySecurityGroupsToClientVpnTargetNetwork(callback?: (err: AWSError, data: EC2.Types.ApplySecurityGroupsToClientVpnTargetNetworkResult) => void): Request<EC2.Types.ApplySecurityGroupsToClientVpnTargetNetworkResult, AWSError>;
/**
* Assigns one or more IPv6 addresses to the specified network interface. You can specify one or more specific IPv6 addresses, or you can specify the number of IPv6 addresses to be automatically assigned from within the subnet's IPv6 CIDR block range. You can assign as many IPv6 addresses to a network interface as you can assign private IPv4 addresses, and the limit varies per instance type. For information, see IP Addresses Per Network Interface Per Instance Type in the Amazon Elastic Compute Cloud User Guide.
*/
assignIpv6Addresses(params: EC2.Types.AssignIpv6AddressesRequest, callback?: (err: AWSError, data: EC2.Types.AssignIpv6AddressesResult) => void): Request<EC2.Types.AssignIpv6AddressesResult, AWSError>;
/**
* Assigns one or more IPv6 addresses to the specified network interface. You can specify one or more specific IPv6 addresses, or you can specify the number of IPv6 addresses to be automatically assigned from within the subnet's IPv6 CIDR block range. You can assign as many IPv6 addresses to a network interface as you can assign private IPv4 addresses, and the limit varies per instance type. For information, see IP Addresses Per Network Interface Per Instance Type in the Amazon Elastic Compute Cloud User Guide.
*/
assignIpv6Addresses(callback?: (err: AWSError, data: EC2.Types.AssignIpv6AddressesResult) => void): Request<EC2.Types.AssignIpv6AddressesResult, AWSError>;
/**
* Assigns one or more secondary private IP addresses to the specified network interface. You can specify one or more specific secondary IP addresses, or you can specify the number of secondary IP addresses to be automatically assigned within the subnet's CIDR block range. The number of secondary IP addresses that you can assign to an instance varies by instance type. For information about instance types, see Instance Types in the Amazon Elastic Compute Cloud User Guide. For more information about Elastic IP addresses, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide. When you move a secondary private IP address to another network interface, any Elastic IP address that is associated with the IP address is also moved. Remapping an IP address is an asynchronous operation. When you move an IP address from one network interface to another, check network/interfaces/macs/mac/local-ipv4s in the instance metadata to confirm that the remapping is complete.
*/
assignPrivateIpAddresses(params: EC2.Types.AssignPrivateIpAddressesRequest, callback?: (err: AWSError, data: EC2.Types.AssignPrivateIpAddressesResult) => void): Request<EC2.Types.AssignPrivateIpAddressesResult, AWSError>;
/**
* Assigns one or more secondary private IP addresses to the specified network interface. You can specify one or more specific secondary IP addresses, or you can specify the number of secondary IP addresses to be automatically assigned within the subnet's CIDR block range. The number of secondary IP addresses that you can assign to an instance varies by instance type. For information about instance types, see Instance Types in the Amazon Elastic Compute Cloud User Guide. For more information about Elastic IP addresses, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide. When you move a secondary private IP address to another network interface, any Elastic IP address that is associated with the IP address is also moved. Remapping an IP address is an asynchronous operation. When you move an IP address from one network interface to another, check network/interfaces/macs/mac/local-ipv4s in the instance metadata to confirm that the remapping is complete.
*/
assignPrivateIpAddresses(callback?: (err: AWSError, data: EC2.Types.AssignPrivateIpAddressesResult) => void): Request<EC2.Types.AssignPrivateIpAddressesResult, AWSError>;
/**
* Associates an Elastic IP address with an instance or a network interface. Before you can use an Elastic IP address, you must allocate it to your account. An Elastic IP address is for use in either the EC2-Classic platform or in a VPC. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide. [EC2-Classic, VPC in an EC2-VPC-only account] If the Elastic IP address is already associated with a different instance, it is disassociated from that instance and associated with the specified instance. If you associate an Elastic IP address with an instance that has an existing Elastic IP address, the existing address is disassociated from the instance, but remains allocated to your account. [VPC in an EC2-Classic account] If you don't specify a private IP address, the Elastic IP address is associated with the primary IP address. If the Elastic IP address is already associated with a different instance or a network interface, you get an error unless you allow reassociation. You cannot associate an Elastic IP address with an instance or network interface that has an existing Elastic IP address. This is an idempotent operation. If you perform the operation more than once, Amazon EC2 doesn't return an error, and you may be charged for each time the Elastic IP address is remapped to the same instance. For more information, see the Elastic IP Addresses section of Amazon EC2 Pricing.
*/
associateAddress(params: EC2.Types.AssociateAddressRequest, callback?: (err: AWSError, data: EC2.Types.AssociateAddressResult) => void): Request<EC2.Types.AssociateAddressResult, AWSError>;
/**
* Associates an Elastic IP address with an instance or a network interface. Before you can use an Elastic IP address, you must allocate it to your account. An Elastic IP address is for use in either the EC2-Classic platform or in a VPC. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide. [EC2-Classic, VPC in an EC2-VPC-only account] If the Elastic IP address is already associated with a different instance, it is disassociated from that instance and associated with the specified instance. If you associate an Elastic IP address with an instance that has an existing Elastic IP address, the existing address is disassociated from the instance, but remains allocated to your account. [VPC in an EC2-Classic account] If you don't specify a private IP address, the Elastic IP address is associated with the primary IP address. If the Elastic IP address is already associated with a different instance or a network interface, you get an error unless you allow reassociation. You cannot associate an Elastic IP address with an instance or network interface that has an existing Elastic IP address. This is an idempotent operation. If you perform the operation more than once, Amazon EC2 doesn't return an error, and you may be charged for each time the Elastic IP address is remapped to the same instance. For more information, see the Elastic IP Addresses section of Amazon EC2 Pricing.
*/
associateAddress(callback?: (err: AWSError, data: EC2.Types.AssociateAddressResult) => void): Request<EC2.Types.AssociateAddressResult, AWSError>;
/**
* Associates a target network with a Client VPN endpoint. A target network is a subnet in a VPC. You can associate multiple subnets from the same VPC with a Client VPN endpoint. You can associate only one subnet in each Availability Zone. We recommend that you associate at least two subnets to provide Availability Zone redundancy.
*/
associateClientVpnTargetNetwork(params: EC2.Types.AssociateClientVpnTargetNetworkRequest, callback?: (err: AWSError, data: EC2.Types.AssociateClientVpnTargetNetworkResult) => void): Request<EC2.Types.AssociateClientVpnTargetNetworkResult, AWSError>;
/**
* Associates a target network with a Client VPN endpoint. A target network is a subnet in a VPC. You can associate multiple subnets from the same VPC with a Client VPN endpoint. You can associate only one subnet in each Availability Zone. We recommend that you associate at least two subnets to provide Availability Zone redundancy.
*/
associateClientVpnTargetNetwork(callback?: (err: AWSError, data: EC2.Types.AssociateClientVpnTargetNetworkResult) => void): Request<EC2.Types.AssociateClientVpnTargetNetworkResult, AWSError>;
/**
* Associates a set of DHCP options (that you've previously created) with the specified VPC, or associates no DHCP options with the VPC. After you associate the options with the VPC, any existing instances and all new instances that you launch in that VPC use the options. You don't need to restart or relaunch the instances. They automatically pick up the changes within a few hours, depending on how frequently the instance renews its DHCP lease. You can explicitly renew the lease using the operating system on the instance. For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide.
*/
associateDhcpOptions(params: EC2.Types.AssociateDhcpOptionsRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Associates a set of DHCP options (that you've previously created) with the specified VPC, or associates no DHCP options with the VPC. After you associate the options with the VPC, any existing instances and all new instances that you launch in that VPC use the options. You don't need to restart or relaunch the instances. They automatically pick up the changes within a few hours, depending on how frequently the instance renews its DHCP lease. You can explicitly renew the lease using the operating system on the instance. For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide.
*/
associateDhcpOptions(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Associates an IAM instance profile with a running or stopped instance. You cannot associate more than one IAM instance profile with an instance.
*/
associateIamInstanceProfile(params: EC2.Types.AssociateIamInstanceProfileRequest, callback?: (err: AWSError, data: EC2.Types.AssociateIamInstanceProfileResult) => void): Request<EC2.Types.AssociateIamInstanceProfileResult, AWSError>;
/**
* Associates an IAM instance profile with a running or stopped instance. You cannot associate more than one IAM instance profile with an instance.
*/
associateIamInstanceProfile(callback?: (err: AWSError, data: EC2.Types.AssociateIamInstanceProfileResult) => void): Request<EC2.Types.AssociateIamInstanceProfileResult, AWSError>;
/**
* Associates a subnet with a route table. The subnet and route table must be in the same VPC. This association causes traffic originating from the subnet to be routed according to the routes in the route table. The action returns an association ID, which you need in order to disassociate the route table from the subnet later. A route table can be associated with multiple subnets. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
associateRouteTable(params: EC2.Types.AssociateRouteTableRequest, callback?: (err: AWSError, data: EC2.Types.AssociateRouteTableResult) => void): Request<EC2.Types.AssociateRouteTableResult, AWSError>;
/**
* Associates a subnet with a route table. The subnet and route table must be in the same VPC. This association causes traffic originating from the subnet to be routed according to the routes in the route table. The action returns an association ID, which you need in order to disassociate the route table from the subnet later. A route table can be associated with multiple subnets. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
associateRouteTable(callback?: (err: AWSError, data: EC2.Types.AssociateRouteTableResult) => void): Request<EC2.Types.AssociateRouteTableResult, AWSError>;
/**
* Associates a CIDR block with your subnet. You can only associate a single IPv6 CIDR block with your subnet. An IPv6 CIDR block must have a prefix length of /64.
*/
associateSubnetCidrBlock(params: EC2.Types.AssociateSubnetCidrBlockRequest, callback?: (err: AWSError, data: EC2.Types.AssociateSubnetCidrBlockResult) => void): Request<EC2.Types.AssociateSubnetCidrBlockResult, AWSError>;
/**
* Associates a CIDR block with your subnet. You can only associate a single IPv6 CIDR block with your subnet. An IPv6 CIDR block must have a prefix length of /64.
*/
associateSubnetCidrBlock(callback?: (err: AWSError, data: EC2.Types.AssociateSubnetCidrBlockResult) => void): Request<EC2.Types.AssociateSubnetCidrBlockResult, AWSError>;
/**
* Associates the specified attachment with the specified transit gateway route table. You can associate only one route table with an attachment.
*/
associateTransitGatewayRouteTable(params: EC2.Types.AssociateTransitGatewayRouteTableRequest, callback?: (err: AWSError, data: EC2.Types.AssociateTransitGatewayRouteTableResult) => void): Request<EC2.Types.AssociateTransitGatewayRouteTableResult, AWSError>;
/**
* Associates the specified attachment with the specified transit gateway route table. You can associate only one route table with an attachment.
*/
associateTransitGatewayRouteTable(callback?: (err: AWSError, data: EC2.Types.AssociateTransitGatewayRouteTableResult) => void): Request<EC2.Types.AssociateTransitGatewayRouteTableResult, AWSError>;
/**
* Associates a CIDR block with your VPC. You can associate a secondary IPv4 CIDR block, or you can associate an Amazon-provided IPv6 CIDR block. The IPv6 CIDR block size is fixed at /56. For more information about associating CIDR blocks with your VPC and applicable restrictions, see VPC and Subnet Sizing in the Amazon Virtual Private Cloud User Guide.
*/
associateVpcCidrBlock(params: EC2.Types.AssociateVpcCidrBlockRequest, callback?: (err: AWSError, data: EC2.Types.AssociateVpcCidrBlockResult) => void): Request<EC2.Types.AssociateVpcCidrBlockResult, AWSError>;
/**
* Associates a CIDR block with your VPC. You can associate a secondary IPv4 CIDR block, or you can associate an Amazon-provided IPv6 CIDR block. The IPv6 CIDR block size is fixed at /56. For more information about associating CIDR blocks with your VPC and applicable restrictions, see VPC and Subnet Sizing in the Amazon Virtual Private Cloud User Guide.
*/
associateVpcCidrBlock(callback?: (err: AWSError, data: EC2.Types.AssociateVpcCidrBlockResult) => void): Request<EC2.Types.AssociateVpcCidrBlockResult, AWSError>;
/**
* Links an EC2-Classic instance to a ClassicLink-enabled VPC through one or more of the VPC's security groups. You cannot link an EC2-Classic instance to more than one VPC at a time. You can only link an instance that's in the running state. An instance is automatically unlinked from a VPC when it's stopped - you can link it to the VPC again when you restart it. After you've linked an instance, you cannot change the VPC security groups that are associated with it. To change the security groups, you must first unlink the instance, and then link it again. Linking your instance to a VPC is sometimes referred to as attaching your instance.
*/
attachClassicLinkVpc(params: EC2.Types.AttachClassicLinkVpcRequest, callback?: (err: AWSError, data: EC2.Types.AttachClassicLinkVpcResult) => void): Request<EC2.Types.AttachClassicLinkVpcResult, AWSError>;
/**
* Links an EC2-Classic instance to a ClassicLink-enabled VPC through one or more of the VPC's security groups. You cannot link an EC2-Classic instance to more than one VPC at a time. You can only link an instance that's in the running state. An instance is automatically unlinked from a VPC when it's stopped - you can link it to the VPC again when you restart it. After you've linked an instance, you cannot change the VPC security groups that are associated with it. To change the security groups, you must first unlink the instance, and then link it again. Linking your instance to a VPC is sometimes referred to as attaching your instance.
*/
attachClassicLinkVpc(callback?: (err: AWSError, data: EC2.Types.AttachClassicLinkVpcResult) => void): Request<EC2.Types.AttachClassicLinkVpcResult, AWSError>;
/**
* Attaches an internet gateway to a VPC, enabling connectivity between the internet and the VPC. For more information about your VPC and internet gateway, see the Amazon Virtual Private Cloud User Guide.
*/
attachInternetGateway(params: EC2.Types.AttachInternetGatewayRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Attaches an internet gateway to a VPC, enabling connectivity between the internet and the VPC. For more information about your VPC and internet gateway, see the Amazon Virtual Private Cloud User Guide.
*/
attachInternetGateway(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Attaches a network interface to an instance.
*/
attachNetworkInterface(params: EC2.Types.AttachNetworkInterfaceRequest, callback?: (err: AWSError, data: EC2.Types.AttachNetworkInterfaceResult) => void): Request<EC2.Types.AttachNetworkInterfaceResult, AWSError>;
/**
* Attaches a network interface to an instance.
*/
attachNetworkInterface(callback?: (err: AWSError, data: EC2.Types.AttachNetworkInterfaceResult) => void): Request<EC2.Types.AttachNetworkInterfaceResult, AWSError>;
/**
* Attaches an EBS volume to a running or stopped instance and exposes it to the instance with the specified device name. Encrypted EBS volumes must be attached to instances that support Amazon EBS encryption. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide. After you attach an EBS volume, you must make it available. For more information, see Making an EBS Volume Available For Use. If a volume has an AWS Marketplace product code: The volume can be attached only to a stopped instance. AWS Marketplace product codes are copied from the volume to the instance. You must be subscribed to the product. The instance type and operating system of the instance must support the product. For example, you can't detach a volume from a Windows instance and attach it to a Linux instance. For more information, see Attaching Amazon EBS Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
attachVolume(params: EC2.Types.AttachVolumeRequest, callback?: (err: AWSError, data: EC2.Types.VolumeAttachment) => void): Request<EC2.Types.VolumeAttachment, AWSError>;
/**
* Attaches an EBS volume to a running or stopped instance and exposes it to the instance with the specified device name. Encrypted EBS volumes must be attached to instances that support Amazon EBS encryption. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide. After you attach an EBS volume, you must make it available. For more information, see Making an EBS Volume Available For Use. If a volume has an AWS Marketplace product code: The volume can be attached only to a stopped instance. AWS Marketplace product codes are copied from the volume to the instance. You must be subscribed to the product. The instance type and operating system of the instance must support the product. For example, you can't detach a volume from a Windows instance and attach it to a Linux instance. For more information, see Attaching Amazon EBS Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
attachVolume(callback?: (err: AWSError, data: EC2.Types.VolumeAttachment) => void): Request<EC2.Types.VolumeAttachment, AWSError>;
/**
* Attaches a virtual private gateway to a VPC. You can attach one virtual private gateway to one VPC at a time. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
attachVpnGateway(params: EC2.Types.AttachVpnGatewayRequest, callback?: (err: AWSError, data: EC2.Types.AttachVpnGatewayResult) => void): Request<EC2.Types.AttachVpnGatewayResult, AWSError>;
/**
* Attaches a virtual private gateway to a VPC. You can attach one virtual private gateway to one VPC at a time. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
attachVpnGateway(callback?: (err: AWSError, data: EC2.Types.AttachVpnGatewayResult) => void): Request<EC2.Types.AttachVpnGatewayResult, AWSError>;
/**
* Adds an ingress authorization rule to a Client VPN endpoint. Ingress authorization rules act as firewall rules that grant access to networks. You must configure ingress authorization rules to enable clients to access resources in AWS or on-premises networks.
*/
authorizeClientVpnIngress(params: EC2.Types.AuthorizeClientVpnIngressRequest, callback?: (err: AWSError, data: EC2.Types.AuthorizeClientVpnIngressResult) => void): Request<EC2.Types.AuthorizeClientVpnIngressResult, AWSError>;
/**
* Adds an ingress authorization rule to a Client VPN endpoint. Ingress authorization rules act as firewall rules that grant access to networks. You must configure ingress authorization rules to enable clients to access resources in AWS or on-premises networks.
*/
authorizeClientVpnIngress(callback?: (err: AWSError, data: EC2.Types.AuthorizeClientVpnIngressResult) => void): Request<EC2.Types.AuthorizeClientVpnIngressResult, AWSError>;
/**
* [VPC only] Adds the specified egress rules to a security group for use with a VPC. An outbound rule permits instances to send traffic to the specified IPv4 or IPv6 CIDR address ranges, or to the instances associated with the specified destination security groups. You specify a protocol for each rule (for example, TCP). For the TCP and UDP protocols, you must also specify the destination port or port range. For the ICMP protocol, you must also specify the ICMP type and code. You can use -1 for the type or code to mean all types or all codes. Rule changes are propagated to affected instances as quickly as possible. However, a small delay might occur. For more information about VPC security group limits, see Amazon VPC Limits.
*/
authorizeSecurityGroupEgress(params: EC2.Types.AuthorizeSecurityGroupEgressRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* [VPC only] Adds the specified egress rules to a security group for use with a VPC. An outbound rule permits instances to send traffic to the specified IPv4 or IPv6 CIDR address ranges, or to the instances associated with the specified destination security groups. You specify a protocol for each rule (for example, TCP). For the TCP and UDP protocols, you must also specify the destination port or port range. For the ICMP protocol, you must also specify the ICMP type and code. You can use -1 for the type or code to mean all types or all codes. Rule changes are propagated to affected instances as quickly as possible. However, a small delay might occur. For more information about VPC security group limits, see Amazon VPC Limits.
*/
authorizeSecurityGroupEgress(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Adds the specified ingress rules to a security group. An inbound rule permits instances to receive traffic from the specified IPv4 or IPv6 CIDR address ranges, or from the instances associated with the specified destination security groups. You specify a protocol for each rule (for example, TCP). For TCP and UDP, you must also specify the destination port or port range. For ICMP/ICMPv6, you must also specify the ICMP/ICMPv6 type and code. You can use -1 to mean all types or all codes. Rule changes are propagated to instances within the security group as quickly as possible. However, a small delay might occur. For more information about VPC security group limits, see Amazon VPC Limits.
*/
authorizeSecurityGroupIngress(params: EC2.Types.AuthorizeSecurityGroupIngressRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Adds the specified ingress rules to a security group. An inbound rule permits instances to receive traffic from the specified IPv4 or IPv6 CIDR address ranges, or from the instances associated with the specified destination security groups. You specify a protocol for each rule (for example, TCP). For TCP and UDP, you must also specify the destination port or port range. For ICMP/ICMPv6, you must also specify the ICMP/ICMPv6 type and code. You can use -1 to mean all types or all codes. Rule changes are propagated to instances within the security group as quickly as possible. However, a small delay might occur. For more information about VPC security group limits, see Amazon VPC Limits.
*/
authorizeSecurityGroupIngress(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Bundles an Amazon instance store-backed Windows instance. During bundling, only the root device volume (C:\) is bundled. Data on other instance store volumes is not preserved. This action is not applicable for Linux/Unix instances or Windows instances that are backed by Amazon EBS.
*/
bundleInstance(params: EC2.Types.BundleInstanceRequest, callback?: (err: AWSError, data: EC2.Types.BundleInstanceResult) => void): Request<EC2.Types.BundleInstanceResult, AWSError>;
/**
* Bundles an Amazon instance store-backed Windows instance. During bundling, only the root device volume (C:\) is bundled. Data on other instance store volumes is not preserved. This action is not applicable for Linux/Unix instances or Windows instances that are backed by Amazon EBS.
*/
bundleInstance(callback?: (err: AWSError, data: EC2.Types.BundleInstanceResult) => void): Request<EC2.Types.BundleInstanceResult, AWSError>;
/**
* Cancels a bundling operation for an instance store-backed Windows instance.
*/
cancelBundleTask(params: EC2.Types.CancelBundleTaskRequest, callback?: (err: AWSError, data: EC2.Types.CancelBundleTaskResult) => void): Request<EC2.Types.CancelBundleTaskResult, AWSError>;
/**
* Cancels a bundling operation for an instance store-backed Windows instance.
*/
cancelBundleTask(callback?: (err: AWSError, data: EC2.Types.CancelBundleTaskResult) => void): Request<EC2.Types.CancelBundleTaskResult, AWSError>;
/**
* Cancels the specified Capacity Reservation, releases the reserved capacity, and changes the Capacity Reservation's state to cancelled. Instances running in the reserved capacity continue running until you stop them. Stopped instances that target the Capacity Reservation can no longer launch. Modify these instances to either target a different Capacity Reservation, launch On-Demand Instance capacity, or run in any open Capacity Reservation that has matching attributes and sufficient capacity.
*/
cancelCapacityReservation(params: EC2.Types.CancelCapacityReservationRequest, callback?: (err: AWSError, data: EC2.Types.CancelCapacityReservationResult) => void): Request<EC2.Types.CancelCapacityReservationResult, AWSError>;
/**
* Cancels the specified Capacity Reservation, releases the reserved capacity, and changes the Capacity Reservation's state to cancelled. Instances running in the reserved capacity continue running until you stop them. Stopped instances that target the Capacity Reservation can no longer launch. Modify these instances to either target a different Capacity Reservation, launch On-Demand Instance capacity, or run in any open Capacity Reservation that has matching attributes and sufficient capacity.
*/
cancelCapacityReservation(callback?: (err: AWSError, data: EC2.Types.CancelCapacityReservationResult) => void): Request<EC2.Types.CancelCapacityReservationResult, AWSError>;
/**
* Cancels an active conversion task. The task can be the import of an instance or volume. The action removes all artifacts of the conversion, including a partially uploaded volume or instance. If the conversion is complete or is in the process of transferring the final disk image, the command fails and returns an exception. For more information, see Importing a Virtual Machine Using the Amazon EC2 CLI.
*/
cancelConversionTask(params: EC2.Types.CancelConversionRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Cancels an active conversion task. The task can be the import of an instance or volume. The action removes all artifacts of the conversion, including a partially uploaded volume or instance. If the conversion is complete or is in the process of transferring the final disk image, the command fails and returns an exception. For more information, see Importing a Virtual Machine Using the Amazon EC2 CLI.
*/
cancelConversionTask(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Cancels an active export task. The request removes all artifacts of the export, including any partially-created Amazon S3 objects. If the export task is complete or is in the process of transferring the final disk image, the command fails and returns an error.
*/
cancelExportTask(params: EC2.Types.CancelExportTaskRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Cancels an active export task. The request removes all artifacts of the export, including any partially-created Amazon S3 objects. If the export task is complete or is in the process of transferring the final disk image, the command fails and returns an error.
*/
cancelExportTask(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Cancels an in-process import virtual machine or import snapshot task.
*/
cancelImportTask(params: EC2.Types.CancelImportTaskRequest, callback?: (err: AWSError, data: EC2.Types.CancelImportTaskResult) => void): Request<EC2.Types.CancelImportTaskResult, AWSError>;
/**
* Cancels an in-process import virtual machine or import snapshot task.
*/
cancelImportTask(callback?: (err: AWSError, data: EC2.Types.CancelImportTaskResult) => void): Request<EC2.Types.CancelImportTaskResult, AWSError>;
/**
* Cancels the specified Reserved Instance listing in the Reserved Instance Marketplace. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
cancelReservedInstancesListing(params: EC2.Types.CancelReservedInstancesListingRequest, callback?: (err: AWSError, data: EC2.Types.CancelReservedInstancesListingResult) => void): Request<EC2.Types.CancelReservedInstancesListingResult, AWSError>;
/**
* Cancels the specified Reserved Instance listing in the Reserved Instance Marketplace. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
cancelReservedInstancesListing(callback?: (err: AWSError, data: EC2.Types.CancelReservedInstancesListingResult) => void): Request<EC2.Types.CancelReservedInstancesListingResult, AWSError>;
/**
* Cancels the specified Spot Fleet requests. After you cancel a Spot Fleet request, the Spot Fleet launches no new Spot Instances. You must specify whether the Spot Fleet should also terminate its Spot Instances. If you terminate the instances, the Spot Fleet request enters the cancelled_terminating state. Otherwise, the Spot Fleet request enters the cancelled_running state and the instances continue to run until they are interrupted or you terminate them manually.
*/
cancelSpotFleetRequests(params: EC2.Types.CancelSpotFleetRequestsRequest, callback?: (err: AWSError, data: EC2.Types.CancelSpotFleetRequestsResponse) => void): Request<EC2.Types.CancelSpotFleetRequestsResponse, AWSError>;
/**
* Cancels the specified Spot Fleet requests. After you cancel a Spot Fleet request, the Spot Fleet launches no new Spot Instances. You must specify whether the Spot Fleet should also terminate its Spot Instances. If you terminate the instances, the Spot Fleet request enters the cancelled_terminating state. Otherwise, the Spot Fleet request enters the cancelled_running state and the instances continue to run until they are interrupted or you terminate them manually.
*/
cancelSpotFleetRequests(callback?: (err: AWSError, data: EC2.Types.CancelSpotFleetRequestsResponse) => void): Request<EC2.Types.CancelSpotFleetRequestsResponse, AWSError>;
/**
* Cancels one or more Spot Instance requests. Canceling a Spot Instance request does not terminate running Spot Instances associated with the request.
*/
cancelSpotInstanceRequests(params: EC2.Types.CancelSpotInstanceRequestsRequest, callback?: (err: AWSError, data: EC2.Types.CancelSpotInstanceRequestsResult) => void): Request<EC2.Types.CancelSpotInstanceRequestsResult, AWSError>;
/**
* Cancels one or more Spot Instance requests. Canceling a Spot Instance request does not terminate running Spot Instances associated with the request.
*/
cancelSpotInstanceRequests(callback?: (err: AWSError, data: EC2.Types.CancelSpotInstanceRequestsResult) => void): Request<EC2.Types.CancelSpotInstanceRequestsResult, AWSError>;
/**
* Determines whether a product code is associated with an instance. This action can only be used by the owner of the product code. It is useful when a product code owner must verify whether another user's instance is eligible for support.
*/
confirmProductInstance(params: EC2.Types.ConfirmProductInstanceRequest, callback?: (err: AWSError, data: EC2.Types.ConfirmProductInstanceResult) => void): Request<EC2.Types.ConfirmProductInstanceResult, AWSError>;
/**
* Determines whether a product code is associated with an instance. This action can only be used by the owner of the product code. It is useful when a product code owner must verify whether another user's instance is eligible for support.
*/
confirmProductInstance(callback?: (err: AWSError, data: EC2.Types.ConfirmProductInstanceResult) => void): Request<EC2.Types.ConfirmProductInstanceResult, AWSError>;
/**
* Copies the specified Amazon FPGA Image (AFI) to the current Region.
*/
copyFpgaImage(params: EC2.Types.CopyFpgaImageRequest, callback?: (err: AWSError, data: EC2.Types.CopyFpgaImageResult) => void): Request<EC2.Types.CopyFpgaImageResult, AWSError>;
/**
* Copies the specified Amazon FPGA Image (AFI) to the current Region.
*/
copyFpgaImage(callback?: (err: AWSError, data: EC2.Types.CopyFpgaImageResult) => void): Request<EC2.Types.CopyFpgaImageResult, AWSError>;
/**
* Initiates the copy of an AMI from the specified source Region to the current Region. You specify the destination Region by using its endpoint when making the request. Copies of encrypted backing snapshots for the AMI are encrypted. Copies of unencrypted backing snapshots remain unencrypted, unless you set Encrypted during the copy operation. You cannot create an unencrypted copy of an encrypted backing snapshot. For more information about the prerequisites and limits when copying an AMI, see Copying an AMI in the Amazon Elastic Compute Cloud User Guide.
*/
copyImage(params: EC2.Types.CopyImageRequest, callback?: (err: AWSError, data: EC2.Types.CopyImageResult) => void): Request<EC2.Types.CopyImageResult, AWSError>;
/**
* Initiates the copy of an AMI from the specified source Region to the current Region. You specify the destination Region by using its endpoint when making the request. Copies of encrypted backing snapshots for the AMI are encrypted. Copies of unencrypted backing snapshots remain unencrypted, unless you set Encrypted during the copy operation. You cannot create an unencrypted copy of an encrypted backing snapshot. For more information about the prerequisites and limits when copying an AMI, see Copying an AMI in the Amazon Elastic Compute Cloud User Guide.
*/
copyImage(callback?: (err: AWSError, data: EC2.Types.CopyImageResult) => void): Request<EC2.Types.CopyImageResult, AWSError>;
/**
* Copies a point-in-time snapshot of an EBS volume and stores it in Amazon S3. You can copy the snapshot within the same Region or from one Region to another. You can use the snapshot to create EBS volumes or Amazon Machine Images (AMIs). Copies of encrypted EBS snapshots remain encrypted. Copies of unencrypted snapshots remain unencrypted, unless you enable encryption for the snapshot copy operation. By default, encrypted snapshot copies use the default AWS Key Management Service (AWS KMS) customer master key (CMK); however, you can specify a different CMK. To copy an encrypted snapshot that has been shared from another account, you must have permissions for the CMK used to encrypt the snapshot. Snapshots created by copying another snapshot have an arbitrary volume ID that should not be used for any purpose. For more information, see Copying an Amazon EBS Snapshot in the Amazon Elastic Compute Cloud User Guide.
*/
copySnapshot(params: EC2.Types.CopySnapshotRequest, callback?: (err: AWSError, data: EC2.Types.CopySnapshotResult) => void): Request<EC2.Types.CopySnapshotResult, AWSError>;
/**
* Copies a point-in-time snapshot of an EBS volume and stores it in Amazon S3. You can copy the snapshot within the same Region or from one Region to another. You can use the snapshot to create EBS volumes or Amazon Machine Images (AMIs). Copies of encrypted EBS snapshots remain encrypted. Copies of unencrypted snapshots remain unencrypted, unless you enable encryption for the snapshot copy operation. By default, encrypted snapshot copies use the default AWS Key Management Service (AWS KMS) customer master key (CMK); however, you can specify a different CMK. To copy an encrypted snapshot that has been shared from another account, you must have permissions for the CMK used to encrypt the snapshot. Snapshots created by copying another snapshot have an arbitrary volume ID that should not be used for any purpose. For more information, see Copying an Amazon EBS Snapshot in the Amazon Elastic Compute Cloud User Guide.
*/
copySnapshot(callback?: (err: AWSError, data: EC2.Types.CopySnapshotResult) => void): Request<EC2.Types.CopySnapshotResult, AWSError>;
/**
* Creates a new Capacity Reservation with the specified attributes. Capacity Reservations enable you to reserve capacity for your Amazon EC2 instances in a specific Availability Zone for any duration. This gives you the flexibility to selectively add capacity reservations and still get the Regional RI discounts for that usage. By creating Capacity Reservations, you ensure that you always have access to Amazon EC2 capacity when you need it, for as long as you need it. For more information, see Capacity Reservations in the Amazon Elastic Compute Cloud User Guide. Your request to create a Capacity Reservation could fail if Amazon EC2 does not have sufficient capacity to fulfill the request. If your request fails due to Amazon EC2 capacity constraints, either try again at a later time, try in a different Availability Zone, or request a smaller capacity reservation. If your application is flexible across instance types and sizes, try to create a Capacity Reservation with different instance attributes. Your request could also fail if the requested quantity exceeds your On-Demand Instance limit for the selected instance type. If your request fails due to limit constraints, increase your On-Demand Instance limit for the required instance type and try again. For more information about increasing your instance limits, see Amazon EC2 Service Limits in the Amazon Elastic Compute Cloud User Guide.
*/
createCapacityReservation(params: EC2.Types.CreateCapacityReservationRequest, callback?: (err: AWSError, data: EC2.Types.CreateCapacityReservationResult) => void): Request<EC2.Types.CreateCapacityReservationResult, AWSError>;
/**
* Creates a new Capacity Reservation with the specified attributes. Capacity Reservations enable you to reserve capacity for your Amazon EC2 instances in a specific Availability Zone for any duration. This gives you the flexibility to selectively add capacity reservations and still get the Regional RI discounts for that usage. By creating Capacity Reservations, you ensure that you always have access to Amazon EC2 capacity when you need it, for as long as you need it. For more information, see Capacity Reservations in the Amazon Elastic Compute Cloud User Guide. Your request to create a Capacity Reservation could fail if Amazon EC2 does not have sufficient capacity to fulfill the request. If your request fails due to Amazon EC2 capacity constraints, either try again at a later time, try in a different Availability Zone, or request a smaller capacity reservation. If your application is flexible across instance types and sizes, try to create a Capacity Reservation with different instance attributes. Your request could also fail if the requested quantity exceeds your On-Demand Instance limit for the selected instance type. If your request fails due to limit constraints, increase your On-Demand Instance limit for the required instance type and try again. For more information about increasing your instance limits, see Amazon EC2 Service Limits in the Amazon Elastic Compute Cloud User Guide.
*/
createCapacityReservation(callback?: (err: AWSError, data: EC2.Types.CreateCapacityReservationResult) => void): Request<EC2.Types.CreateCapacityReservationResult, AWSError>;
/**
* Creates a Client VPN endpoint. A Client VPN endpoint is the resource you create and configure to enable and manage client VPN sessions. It is the destination endpoint at which all client VPN sessions are terminated.
*/
createClientVpnEndpoint(params: EC2.Types.CreateClientVpnEndpointRequest, callback?: (err: AWSError, data: EC2.Types.CreateClientVpnEndpointResult) => void): Request<EC2.Types.CreateClientVpnEndpointResult, AWSError>;
/**
* Creates a Client VPN endpoint. A Client VPN endpoint is the resource you create and configure to enable and manage client VPN sessions. It is the destination endpoint at which all client VPN sessions are terminated.
*/
createClientVpnEndpoint(callback?: (err: AWSError, data: EC2.Types.CreateClientVpnEndpointResult) => void): Request<EC2.Types.CreateClientVpnEndpointResult, AWSError>;
/**
* Adds a route to a network to a Client VPN endpoint. Each Client VPN endpoint has a route table that describes the available destination network routes. Each route in the route table specifies the path for traffic to specific resources or networks.
*/
createClientVpnRoute(params: EC2.Types.CreateClientVpnRouteRequest, callback?: (err: AWSError, data: EC2.Types.CreateClientVpnRouteResult) => void): Request<EC2.Types.CreateClientVpnRouteResult, AWSError>;
/**
* Adds a route to a network to a Client VPN endpoint. Each Client VPN endpoint has a route table that describes the available destination network routes. Each route in the route table specifies the path for traffic to specific resources or networks.
*/
createClientVpnRoute(callback?: (err: AWSError, data: EC2.Types.CreateClientVpnRouteResult) => void): Request<EC2.Types.CreateClientVpnRouteResult, AWSError>;
/**
* Provides information to AWS about your VPN customer gateway device. The customer gateway is the appliance at your end of the VPN connection. (The device on the AWS side of the VPN connection is the virtual private gateway.) You must provide the Internet-routable IP address of the customer gateway's external interface. The IP address must be static and can be behind a device performing network address translation (NAT). For devices that use Border Gateway Protocol (BGP), you can also provide the device's BGP Autonomous System Number (ASN). You can use an existing ASN assigned to your network. If you don't have an ASN already, you can use a private ASN (in the 64512 - 65534 range). Amazon EC2 supports all 2-byte ASN numbers in the range of 1 - 65534, with the exception of 7224, which is reserved in the us-east-1 Region, and 9059, which is reserved in the eu-west-1 Region. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide. You cannot create more than one customer gateway with the same VPN type, IP address, and BGP ASN parameter values. If you run an identical request more than one time, the first request creates the customer gateway, and subsequent requests return information about the existing customer gateway. The subsequent requests do not create new customer gateway resources.
*/
createCustomerGateway(params: EC2.Types.CreateCustomerGatewayRequest, callback?: (err: AWSError, data: EC2.Types.CreateCustomerGatewayResult) => void): Request<EC2.Types.CreateCustomerGatewayResult, AWSError>;
/**
* Provides information to AWS about your VPN customer gateway device. The customer gateway is the appliance at your end of the VPN connection. (The device on the AWS side of the VPN connection is the virtual private gateway.) You must provide the Internet-routable IP address of the customer gateway's external interface. The IP address must be static and can be behind a device performing network address translation (NAT). For devices that use Border Gateway Protocol (BGP), you can also provide the device's BGP Autonomous System Number (ASN). You can use an existing ASN assigned to your network. If you don't have an ASN already, you can use a private ASN (in the 64512 - 65534 range). Amazon EC2 supports all 2-byte ASN numbers in the range of 1 - 65534, with the exception of 7224, which is reserved in the us-east-1 Region, and 9059, which is reserved in the eu-west-1 Region. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide. You cannot create more than one customer gateway with the same VPN type, IP address, and BGP ASN parameter values. If you run an identical request more than one time, the first request creates the customer gateway, and subsequent requests return information about the existing customer gateway. The subsequent requests do not create new customer gateway resources.
*/
createCustomerGateway(callback?: (err: AWSError, data: EC2.Types.CreateCustomerGatewayResult) => void): Request<EC2.Types.CreateCustomerGatewayResult, AWSError>;
/**
* Creates a default subnet with a size /20 IPv4 CIDR block in the specified Availability Zone in your default VPC. You can have only one default subnet per Availability Zone. For more information, see Creating a Default Subnet in the Amazon Virtual Private Cloud User Guide.
*/
createDefaultSubnet(params: EC2.Types.CreateDefaultSubnetRequest, callback?: (err: AWSError, data: EC2.Types.CreateDefaultSubnetResult) => void): Request<EC2.Types.CreateDefaultSubnetResult, AWSError>;
/**
* Creates a default subnet with a size /20 IPv4 CIDR block in the specified Availability Zone in your default VPC. You can have only one default subnet per Availability Zone. For more information, see Creating a Default Subnet in the Amazon Virtual Private Cloud User Guide.
*/
createDefaultSubnet(callback?: (err: AWSError, data: EC2.Types.CreateDefaultSubnetResult) => void): Request<EC2.Types.CreateDefaultSubnetResult, AWSError>;
/**
* Creates a default VPC with a size /16 IPv4 CIDR block and a default subnet in each Availability Zone. For more information about the components of a default VPC, see Default VPC and Default Subnets in the Amazon Virtual Private Cloud User Guide. You cannot specify the components of the default VPC yourself. If you deleted your previous default VPC, you can create a default VPC. You cannot have more than one default VPC per Region. If your account supports EC2-Classic, you cannot use this action to create a default VPC in a Region that supports EC2-Classic. If you want a default VPC in a Region that supports EC2-Classic, see "I really want a default VPC for my existing EC2 account. Is that possible?" in the Default VPCs FAQ.
*/
createDefaultVpc(params: EC2.Types.CreateDefaultVpcRequest, callback?: (err: AWSError, data: EC2.Types.CreateDefaultVpcResult) => void): Request<EC2.Types.CreateDefaultVpcResult, AWSError>;
/**
* Creates a default VPC with a size /16 IPv4 CIDR block and a default subnet in each Availability Zone. For more information about the components of a default VPC, see Default VPC and Default Subnets in the Amazon Virtual Private Cloud User Guide. You cannot specify the components of the default VPC yourself. If you deleted your previous default VPC, you can create a default VPC. You cannot have more than one default VPC per Region. If your account supports EC2-Classic, you cannot use this action to create a default VPC in a Region that supports EC2-Classic. If you want a default VPC in a Region that supports EC2-Classic, see "I really want a default VPC for my existing EC2 account. Is that possible?" in the Default VPCs FAQ.
*/
createDefaultVpc(callback?: (err: AWSError, data: EC2.Types.CreateDefaultVpcResult) => void): Request<EC2.Types.CreateDefaultVpcResult, AWSError>;
/**
* Creates a set of DHCP options for your VPC. After creating the set, you must associate it with the VPC, causing all existing and new instances that you launch in the VPC to use this set of DHCP options. The following are the individual DHCP options you can specify. For more information about the options, see RFC 2132. domain-name-servers - The IP addresses of up to four domain name servers, or AmazonProvidedDNS. The default DHCP option set specifies AmazonProvidedDNS. If specifying more than one domain name server, specify the IP addresses in a single parameter, separated by commas. To have your instance receive a custom DNS hostname as specified in domain-name, you must set domain-name-servers to a custom DNS server. domain-name - If you're using AmazonProvidedDNS in us-east-1, specify ec2.internal. If you're using AmazonProvidedDNS in another Region, specify region.compute.internal (for example, ap-northeast-1.compute.internal). Otherwise, specify a domain name (for example, MyCompany.com). This value is used to complete unqualified DNS hostnames. Important: Some Linux operating systems accept multiple domain names separated by spaces. However, Windows and other Linux operating systems treat the value as a single domain, which results in unexpected behavior. If your DHCP options set is associated with a VPC that has instances with multiple operating systems, specify only one domain name. ntp-servers - The IP addresses of up to four Network Time Protocol (NTP) servers. netbios-name-servers - The IP addresses of up to four NetBIOS name servers. netbios-node-type - The NetBIOS node type (1, 2, 4, or 8). We recommend that you specify 2 (broadcast and multicast are not currently supported). For more information about these node types, see RFC 2132. Your VPC automatically starts out with a set of DHCP options that includes only a DNS server that we provide (AmazonProvidedDNS). If you create a set of options, and if your VPC has an internet gateway, make sure to set the domain-name-servers option either to AmazonProvidedDNS or to a domain name server of your choice. For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide.
*/
createDhcpOptions(params: EC2.Types.CreateDhcpOptionsRequest, callback?: (err: AWSError, data: EC2.Types.CreateDhcpOptionsResult) => void): Request<EC2.Types.CreateDhcpOptionsResult, AWSError>;
/**
* Creates a set of DHCP options for your VPC. After creating the set, you must associate it with the VPC, causing all existing and new instances that you launch in the VPC to use this set of DHCP options. The following are the individual DHCP options you can specify. For more information about the options, see RFC 2132. domain-name-servers - The IP addresses of up to four domain name servers, or AmazonProvidedDNS. The default DHCP option set specifies AmazonProvidedDNS. If specifying more than one domain name server, specify the IP addresses in a single parameter, separated by commas. To have your instance receive a custom DNS hostname as specified in domain-name, you must set domain-name-servers to a custom DNS server. domain-name - If you're using AmazonProvidedDNS in us-east-1, specify ec2.internal. If you're using AmazonProvidedDNS in another Region, specify region.compute.internal (for example, ap-northeast-1.compute.internal). Otherwise, specify a domain name (for example, MyCompany.com). This value is used to complete unqualified DNS hostnames. Important: Some Linux operating systems accept multiple domain names separated by spaces. However, Windows and other Linux operating systems treat the value as a single domain, which results in unexpected behavior. If your DHCP options set is associated with a VPC that has instances with multiple operating systems, specify only one domain name. ntp-servers - The IP addresses of up to four Network Time Protocol (NTP) servers. netbios-name-servers - The IP addresses of up to four NetBIOS name servers. netbios-node-type - The NetBIOS node type (1, 2, 4, or 8). We recommend that you specify 2 (broadcast and multicast are not currently supported). For more information about these node types, see RFC 2132. Your VPC automatically starts out with a set of DHCP options that includes only a DNS server that we provide (AmazonProvidedDNS). If you create a set of options, and if your VPC has an internet gateway, make sure to set the domain-name-servers option either to AmazonProvidedDNS or to a domain name server of your choice. For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide.
*/
createDhcpOptions(callback?: (err: AWSError, data: EC2.Types.CreateDhcpOptionsResult) => void): Request<EC2.Types.CreateDhcpOptionsResult, AWSError>;
/**
* [IPv6 only] Creates an egress-only internet gateway for your VPC. An egress-only internet gateway is used to enable outbound communication over IPv6 from instances in your VPC to the internet, and prevents hosts outside of your VPC from initiating an IPv6 connection with your instance.
*/
createEgressOnlyInternetGateway(params: EC2.Types.CreateEgressOnlyInternetGatewayRequest, callback?: (err: AWSError, data: EC2.Types.CreateEgressOnlyInternetGatewayResult) => void): Request<EC2.Types.CreateEgressOnlyInternetGatewayResult, AWSError>;
/**
* [IPv6 only] Creates an egress-only internet gateway for your VPC. An egress-only internet gateway is used to enable outbound communication over IPv6 from instances in your VPC to the internet, and prevents hosts outside of your VPC from initiating an IPv6 connection with your instance.
*/
createEgressOnlyInternetGateway(callback?: (err: AWSError, data: EC2.Types.CreateEgressOnlyInternetGatewayResult) => void): Request<EC2.Types.CreateEgressOnlyInternetGatewayResult, AWSError>;
/**
* Launches an EC2 Fleet. You can create a single EC2 Fleet that includes multiple launch specifications that vary by instance type, AMI, Availability Zone, or subnet. For more information, see Launching an EC2 Fleet in the Amazon Elastic Compute Cloud User Guide.
*/
createFleet(params: EC2.Types.CreateFleetRequest, callback?: (err: AWSError, data: EC2.Types.CreateFleetResult) => void): Request<EC2.Types.CreateFleetResult, AWSError>;
/**
* Launches an EC2 Fleet. You can create a single EC2 Fleet that includes multiple launch specifications that vary by instance type, AMI, Availability Zone, or subnet. For more information, see Launching an EC2 Fleet in the Amazon Elastic Compute Cloud User Guide.
*/
createFleet(callback?: (err: AWSError, data: EC2.Types.CreateFleetResult) => void): Request<EC2.Types.CreateFleetResult, AWSError>;
/**
* Creates one or more flow logs to capture information about IP traffic for a specific network interface, subnet, or VPC. Flow log data for a monitored network interface is recorded as flow log records, which are log events consisting of fields that describe the traffic flow. For more information, see Flow Log Records in the Amazon Virtual Private Cloud User Guide. When publishing to CloudWatch Logs, flow log records are published to a log group, and each network interface has a unique log stream in the log group. When publishing to Amazon S3, flow log records for all of the monitored network interfaces are published to a single log file object that is stored in the specified bucket. For more information, see VPC Flow Logs in the Amazon Virtual Private Cloud User Guide.
*/
createFlowLogs(params: EC2.Types.CreateFlowLogsRequest, callback?: (err: AWSError, data: EC2.Types.CreateFlowLogsResult) => void): Request<EC2.Types.CreateFlowLogsResult, AWSError>;
/**
* Creates one or more flow logs to capture information about IP traffic for a specific network interface, subnet, or VPC. Flow log data for a monitored network interface is recorded as flow log records, which are log events consisting of fields that describe the traffic flow. For more information, see Flow Log Records in the Amazon Virtual Private Cloud User Guide. When publishing to CloudWatch Logs, flow log records are published to a log group, and each network interface has a unique log stream in the log group. When publishing to Amazon S3, flow log records for all of the monitored network interfaces are published to a single log file object that is stored in the specified bucket. For more information, see VPC Flow Logs in the Amazon Virtual Private Cloud User Guide.
*/
createFlowLogs(callback?: (err: AWSError, data: EC2.Types.CreateFlowLogsResult) => void): Request<EC2.Types.CreateFlowLogsResult, AWSError>;
/**
* Creates an Amazon FPGA Image (AFI) from the specified design checkpoint (DCP). The create operation is asynchronous. To verify that the AFI is ready for use, check the output logs. An AFI contains the FPGA bitstream that is ready to download to an FPGA. You can securely deploy an AFI on multiple FPGA-accelerated instances. For more information, see the AWS FPGA Hardware Development Kit.
*/
createFpgaImage(params: EC2.Types.CreateFpgaImageRequest, callback?: (err: AWSError, data: EC2.Types.CreateFpgaImageResult) => void): Request<EC2.Types.CreateFpgaImageResult, AWSError>;
/**
* Creates an Amazon FPGA Image (AFI) from the specified design checkpoint (DCP). The create operation is asynchronous. To verify that the AFI is ready for use, check the output logs. An AFI contains the FPGA bitstream that is ready to download to an FPGA. You can securely deploy an AFI on multiple FPGA-accelerated instances. For more information, see the AWS FPGA Hardware Development Kit.
*/
createFpgaImage(callback?: (err: AWSError, data: EC2.Types.CreateFpgaImageResult) => void): Request<EC2.Types.CreateFpgaImageResult, AWSError>;
/**
* Creates an Amazon EBS-backed AMI from an Amazon EBS-backed instance that is either running or stopped. If you customized your instance with instance store volumes or EBS volumes in addition to the root device volume, the new AMI contains block device mapping information for those volumes. When you launch an instance from this new AMI, the instance automatically launches with those additional volumes. For more information, see Creating Amazon EBS-Backed Linux AMIs in the Amazon Elastic Compute Cloud User Guide.
*/
createImage(params: EC2.Types.CreateImageRequest, callback?: (err: AWSError, data: EC2.Types.CreateImageResult) => void): Request<EC2.Types.CreateImageResult, AWSError>;
/**
* Creates an Amazon EBS-backed AMI from an Amazon EBS-backed instance that is either running or stopped. If you customized your instance with instance store volumes or EBS volumes in addition to the root device volume, the new AMI contains block device mapping information for those volumes. When you launch an instance from this new AMI, the instance automatically launches with those additional volumes. For more information, see Creating Amazon EBS-Backed Linux AMIs in the Amazon Elastic Compute Cloud User Guide.
*/
createImage(callback?: (err: AWSError, data: EC2.Types.CreateImageResult) => void): Request<EC2.Types.CreateImageResult, AWSError>;
/**
* Exports a running or stopped instance to an S3 bucket. For information about the supported operating systems, image formats, and known limitations for the types of instances you can export, see Exporting an Instance as a VM Using VM Import/Export in the VM Import/Export User Guide.
*/
createInstanceExportTask(params: EC2.Types.CreateInstanceExportTaskRequest, callback?: (err: AWSError, data: EC2.Types.CreateInstanceExportTaskResult) => void): Request<EC2.Types.CreateInstanceExportTaskResult, AWSError>;
/**
* Exports a running or stopped instance to an S3 bucket. For information about the supported operating systems, image formats, and known limitations for the types of instances you can export, see Exporting an Instance as a VM Using VM Import/Export in the VM Import/Export User Guide.
*/
createInstanceExportTask(callback?: (err: AWSError, data: EC2.Types.CreateInstanceExportTaskResult) => void): Request<EC2.Types.CreateInstanceExportTaskResult, AWSError>;
/**
* Creates an internet gateway for use with a VPC. After creating the internet gateway, you attach it to a VPC using AttachInternetGateway. For more information about your VPC and internet gateway, see the Amazon Virtual Private Cloud User Guide.
*/
createInternetGateway(params: EC2.Types.CreateInternetGatewayRequest, callback?: (err: AWSError, data: EC2.Types.CreateInternetGatewayResult) => void): Request<EC2.Types.CreateInternetGatewayResult, AWSError>;
/**
* Creates an internet gateway for use with a VPC. After creating the internet gateway, you attach it to a VPC using AttachInternetGateway. For more information about your VPC and internet gateway, see the Amazon Virtual Private Cloud User Guide.
*/
createInternetGateway(callback?: (err: AWSError, data: EC2.Types.CreateInternetGatewayResult) => void): Request<EC2.Types.CreateInternetGatewayResult, AWSError>;
/**
* Creates a 2048-bit RSA key pair with the specified name. Amazon EC2 stores the public key and displays the private key for you to save to a file. The private key is returned as an unencrypted PEM encoded PKCS#1 private key. If a key with the specified name already exists, Amazon EC2 returns an error. You can have up to five thousand key pairs per Region. The key pair returned to you is available only in the Region in which you create it. If you prefer, you can create your own key pair using a third-party tool and upload it to any Region using ImportKeyPair. For more information, see Key Pairs in the Amazon Elastic Compute Cloud User Guide.
*/
createKeyPair(params: EC2.Types.CreateKeyPairRequest, callback?: (err: AWSError, data: EC2.Types.KeyPair) => void): Request<EC2.Types.KeyPair, AWSError>;
/**
* Creates a 2048-bit RSA key pair with the specified name. Amazon EC2 stores the public key and displays the private key for you to save to a file. The private key is returned as an unencrypted PEM encoded PKCS#1 private key. If a key with the specified name already exists, Amazon EC2 returns an error. You can have up to five thousand key pairs per Region. The key pair returned to you is available only in the Region in which you create it. If you prefer, you can create your own key pair using a third-party tool and upload it to any Region using ImportKeyPair. For more information, see Key Pairs in the Amazon Elastic Compute Cloud User Guide.
*/
createKeyPair(callback?: (err: AWSError, data: EC2.Types.KeyPair) => void): Request<EC2.Types.KeyPair, AWSError>;
/**
* Creates a launch template. A launch template contains the parameters to launch an instance. When you launch an instance using RunInstances, you can specify a launch template instead of providing the launch parameters in the request.
*/
createLaunchTemplate(params: EC2.Types.CreateLaunchTemplateRequest, callback?: (err: AWSError, data: EC2.Types.CreateLaunchTemplateResult) => void): Request<EC2.Types.CreateLaunchTemplateResult, AWSError>;
/**
* Creates a launch template. A launch template contains the parameters to launch an instance. When you launch an instance using RunInstances, you can specify a launch template instead of providing the launch parameters in the request.
*/
createLaunchTemplate(callback?: (err: AWSError, data: EC2.Types.CreateLaunchTemplateResult) => void): Request<EC2.Types.CreateLaunchTemplateResult, AWSError>;
/**
* Creates a new version for a launch template. You can specify an existing version of launch template from which to base the new version. Launch template versions are numbered in the order in which they are created. You cannot specify, change, or replace the numbering of launch template versions.
*/
createLaunchTemplateVersion(params: EC2.Types.CreateLaunchTemplateVersionRequest, callback?: (err: AWSError, data: EC2.Types.CreateLaunchTemplateVersionResult) => void): Request<EC2.Types.CreateLaunchTemplateVersionResult, AWSError>;
/**
* Creates a new version for a launch template. You can specify an existing version of launch template from which to base the new version. Launch template versions are numbered in the order in which they are created. You cannot specify, change, or replace the numbering of launch template versions.
*/
createLaunchTemplateVersion(callback?: (err: AWSError, data: EC2.Types.CreateLaunchTemplateVersionResult) => void): Request<EC2.Types.CreateLaunchTemplateVersionResult, AWSError>;
/**
* Creates a NAT gateway in the specified public subnet. This action creates a network interface in the specified subnet with a private IP address from the IP address range of the subnet. Internet-bound traffic from a private subnet can be routed to the NAT gateway, therefore enabling instances in the private subnet to connect to the internet. For more information, see NAT Gateways in the Amazon Virtual Private Cloud User Guide.
*/
createNatGateway(params: EC2.Types.CreateNatGatewayRequest, callback?: (err: AWSError, data: EC2.Types.CreateNatGatewayResult) => void): Request<EC2.Types.CreateNatGatewayResult, AWSError>;
/**
* Creates a NAT gateway in the specified public subnet. This action creates a network interface in the specified subnet with a private IP address from the IP address range of the subnet. Internet-bound traffic from a private subnet can be routed to the NAT gateway, therefore enabling instances in the private subnet to connect to the internet. For more information, see NAT Gateways in the Amazon Virtual Private Cloud User Guide.
*/
createNatGateway(callback?: (err: AWSError, data: EC2.Types.CreateNatGatewayResult) => void): Request<EC2.Types.CreateNatGatewayResult, AWSError>;
/**
* Creates a network ACL in a VPC. Network ACLs provide an optional layer of security (in addition to security groups) for the instances in your VPC. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
createNetworkAcl(params: EC2.Types.CreateNetworkAclRequest, callback?: (err: AWSError, data: EC2.Types.CreateNetworkAclResult) => void): Request<EC2.Types.CreateNetworkAclResult, AWSError>;
/**
* Creates a network ACL in a VPC. Network ACLs provide an optional layer of security (in addition to security groups) for the instances in your VPC. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
createNetworkAcl(callback?: (err: AWSError, data: EC2.Types.CreateNetworkAclResult) => void): Request<EC2.Types.CreateNetworkAclResult, AWSError>;
/**
* Creates an entry (a rule) in a network ACL with the specified rule number. Each network ACL has a set of numbered ingress rules and a separate set of numbered egress rules. When determining whether a packet should be allowed in or out of a subnet associated with the ACL, we process the entries in the ACL according to the rule numbers, in ascending order. Each network ACL has a set of ingress rules and a separate set of egress rules. We recommend that you leave room between the rule numbers (for example, 100, 110, 120, ...), and not number them one right after the other (for example, 101, 102, 103, ...). This makes it easier to add a rule between existing ones without having to renumber the rules. After you add an entry, you can't modify it; you must either replace it, or create an entry and delete the old one. For more information about network ACLs, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
createNetworkAclEntry(params: EC2.Types.CreateNetworkAclEntryRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates an entry (a rule) in a network ACL with the specified rule number. Each network ACL has a set of numbered ingress rules and a separate set of numbered egress rules. When determining whether a packet should be allowed in or out of a subnet associated with the ACL, we process the entries in the ACL according to the rule numbers, in ascending order. Each network ACL has a set of ingress rules and a separate set of egress rules. We recommend that you leave room between the rule numbers (for example, 100, 110, 120, ...), and not number them one right after the other (for example, 101, 102, 103, ...). This makes it easier to add a rule between existing ones without having to renumber the rules. After you add an entry, you can't modify it; you must either replace it, or create an entry and delete the old one. For more information about network ACLs, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
createNetworkAclEntry(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates a network interface in the specified subnet. For more information about network interfaces, see Elastic Network Interfaces in the Amazon Virtual Private Cloud User Guide.
*/
createNetworkInterface(params: EC2.Types.CreateNetworkInterfaceRequest, callback?: (err: AWSError, data: EC2.Types.CreateNetworkInterfaceResult) => void): Request<EC2.Types.CreateNetworkInterfaceResult, AWSError>;
/**
* Creates a network interface in the specified subnet. For more information about network interfaces, see Elastic Network Interfaces in the Amazon Virtual Private Cloud User Guide.
*/
createNetworkInterface(callback?: (err: AWSError, data: EC2.Types.CreateNetworkInterfaceResult) => void): Request<EC2.Types.CreateNetworkInterfaceResult, AWSError>;
/**
* Grants an AWS-authorized account permission to attach the specified network interface to an instance in their account. You can grant permission to a single AWS account only, and only one account at a time.
*/
createNetworkInterfacePermission(params: EC2.Types.CreateNetworkInterfacePermissionRequest, callback?: (err: AWSError, data: EC2.Types.CreateNetworkInterfacePermissionResult) => void): Request<EC2.Types.CreateNetworkInterfacePermissionResult, AWSError>;
/**
* Grants an AWS-authorized account permission to attach the specified network interface to an instance in their account. You can grant permission to a single AWS account only, and only one account at a time.
*/
createNetworkInterfacePermission(callback?: (err: AWSError, data: EC2.Types.CreateNetworkInterfacePermissionResult) => void): Request<EC2.Types.CreateNetworkInterfacePermissionResult, AWSError>;
/**
* Creates a placement group in which to launch instances. The strategy of the placement group determines how the instances are organized within the group. A cluster placement group is a logical grouping of instances within a single Availability Zone that benefit from low network latency, high network throughput. A spread placement group places instances on distinct hardware. A partition placement group places groups of instances in different partitions, where instances in one partition do not share the same hardware with instances in another partition. For more information, see Placement Groups in the Amazon Elastic Compute Cloud User Guide.
*/
createPlacementGroup(params: EC2.Types.CreatePlacementGroupRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates a placement group in which to launch instances. The strategy of the placement group determines how the instances are organized within the group. A cluster placement group is a logical grouping of instances within a single Availability Zone that benefit from low network latency, high network throughput. A spread placement group places instances on distinct hardware. A partition placement group places groups of instances in different partitions, where instances in one partition do not share the same hardware with instances in another partition. For more information, see Placement Groups in the Amazon Elastic Compute Cloud User Guide.
*/
createPlacementGroup(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates a listing for Amazon EC2 Standard Reserved Instances to be sold in the Reserved Instance Marketplace. You can submit one Standard Reserved Instance listing at a time. To get a list of your Standard Reserved Instances, you can use the DescribeReservedInstances operation. Only Standard Reserved Instances can be sold in the Reserved Instance Marketplace. Convertible Reserved Instances cannot be sold. The Reserved Instance Marketplace matches sellers who want to resell Standard Reserved Instance capacity that they no longer need with buyers who want to purchase additional capacity. Reserved Instances bought and sold through the Reserved Instance Marketplace work like any other Reserved Instances. To sell your Standard Reserved Instances, you must first register as a seller in the Reserved Instance Marketplace. After completing the registration process, you can create a Reserved Instance Marketplace listing of some or all of your Standard Reserved Instances, and specify the upfront price to receive for them. Your Standard Reserved Instance listings then become available for purchase. To view the details of your Standard Reserved Instance listing, you can use the DescribeReservedInstancesListings operation. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
createReservedInstancesListing(params: EC2.Types.CreateReservedInstancesListingRequest, callback?: (err: AWSError, data: EC2.Types.CreateReservedInstancesListingResult) => void): Request<EC2.Types.CreateReservedInstancesListingResult, AWSError>;
/**
* Creates a listing for Amazon EC2 Standard Reserved Instances to be sold in the Reserved Instance Marketplace. You can submit one Standard Reserved Instance listing at a time. To get a list of your Standard Reserved Instances, you can use the DescribeReservedInstances operation. Only Standard Reserved Instances can be sold in the Reserved Instance Marketplace. Convertible Reserved Instances cannot be sold. The Reserved Instance Marketplace matches sellers who want to resell Standard Reserved Instance capacity that they no longer need with buyers who want to purchase additional capacity. Reserved Instances bought and sold through the Reserved Instance Marketplace work like any other Reserved Instances. To sell your Standard Reserved Instances, you must first register as a seller in the Reserved Instance Marketplace. After completing the registration process, you can create a Reserved Instance Marketplace listing of some or all of your Standard Reserved Instances, and specify the upfront price to receive for them. Your Standard Reserved Instance listings then become available for purchase. To view the details of your Standard Reserved Instance listing, you can use the DescribeReservedInstancesListings operation. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
createReservedInstancesListing(callback?: (err: AWSError, data: EC2.Types.CreateReservedInstancesListingResult) => void): Request<EC2.Types.CreateReservedInstancesListingResult, AWSError>;
/**
* Creates a route in a route table within a VPC. You must specify one of the following targets: internet gateway or virtual private gateway, NAT instance, NAT gateway, VPC peering connection, network interface, or egress-only internet gateway. When determining how to route traffic, we use the route with the most specific match. For example, traffic is destined for the IPv4 address 192.0.2.3, and the route table includes the following two IPv4 routes: 192.0.2.0/24 (goes to some target A) 192.0.2.0/28 (goes to some target B) Both routes apply to the traffic destined for 192.0.2.3. However, the second route in the list covers a smaller number of IP addresses and is therefore more specific, so we use that route to determine where to target the traffic. For more information about route tables, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
createRoute(params: EC2.Types.CreateRouteRequest, callback?: (err: AWSError, data: EC2.Types.CreateRouteResult) => void): Request<EC2.Types.CreateRouteResult, AWSError>;
/**
* Creates a route in a route table within a VPC. You must specify one of the following targets: internet gateway or virtual private gateway, NAT instance, NAT gateway, VPC peering connection, network interface, or egress-only internet gateway. When determining how to route traffic, we use the route with the most specific match. For example, traffic is destined for the IPv4 address 192.0.2.3, and the route table includes the following two IPv4 routes: 192.0.2.0/24 (goes to some target A) 192.0.2.0/28 (goes to some target B) Both routes apply to the traffic destined for 192.0.2.3. However, the second route in the list covers a smaller number of IP addresses and is therefore more specific, so we use that route to determine where to target the traffic. For more information about route tables, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
createRoute(callback?: (err: AWSError, data: EC2.Types.CreateRouteResult) => void): Request<EC2.Types.CreateRouteResult, AWSError>;
/**
* Creates a route table for the specified VPC. After you create a route table, you can add routes and associate the table with a subnet. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
createRouteTable(params: EC2.Types.CreateRouteTableRequest, callback?: (err: AWSError, data: EC2.Types.CreateRouteTableResult) => void): Request<EC2.Types.CreateRouteTableResult, AWSError>;
/**
* Creates a route table for the specified VPC. After you create a route table, you can add routes and associate the table with a subnet. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
createRouteTable(callback?: (err: AWSError, data: EC2.Types.CreateRouteTableResult) => void): Request<EC2.Types.CreateRouteTableResult, AWSError>;
/**
* Creates a security group. A security group acts as a virtual firewall for your instance to control inbound and outbound traffic. For more information, see Amazon EC2 Security Groups in the Amazon Elastic Compute Cloud User Guide and Security Groups for Your VPC in the Amazon Virtual Private Cloud User Guide. When you create a security group, you specify a friendly name of your choice. You can have a security group for use in EC2-Classic with the same name as a security group for use in a VPC. However, you can't have two security groups for use in EC2-Classic with the same name or two security groups for use in a VPC with the same name. You have a default security group for use in EC2-Classic and a default security group for use in your VPC. If you don't specify a security group when you launch an instance, the instance is launched into the appropriate default security group. A default security group includes a default rule that grants instances unrestricted network access to each other. You can add or remove rules from your security groups using AuthorizeSecurityGroupIngress, AuthorizeSecurityGroupEgress, RevokeSecurityGroupIngress, and RevokeSecurityGroupEgress. For more information about VPC security group limits, see Amazon VPC Limits.
*/
createSecurityGroup(params: EC2.Types.CreateSecurityGroupRequest, callback?: (err: AWSError, data: EC2.Types.CreateSecurityGroupResult) => void): Request<EC2.Types.CreateSecurityGroupResult, AWSError>;
/**
* Creates a security group. A security group acts as a virtual firewall for your instance to control inbound and outbound traffic. For more information, see Amazon EC2 Security Groups in the Amazon Elastic Compute Cloud User Guide and Security Groups for Your VPC in the Amazon Virtual Private Cloud User Guide. When you create a security group, you specify a friendly name of your choice. You can have a security group for use in EC2-Classic with the same name as a security group for use in a VPC. However, you can't have two security groups for use in EC2-Classic with the same name or two security groups for use in a VPC with the same name. You have a default security group for use in EC2-Classic and a default security group for use in your VPC. If you don't specify a security group when you launch an instance, the instance is launched into the appropriate default security group. A default security group includes a default rule that grants instances unrestricted network access to each other. You can add or remove rules from your security groups using AuthorizeSecurityGroupIngress, AuthorizeSecurityGroupEgress, RevokeSecurityGroupIngress, and RevokeSecurityGroupEgress. For more information about VPC security group limits, see Amazon VPC Limits.
*/
createSecurityGroup(callback?: (err: AWSError, data: EC2.Types.CreateSecurityGroupResult) => void): Request<EC2.Types.CreateSecurityGroupResult, AWSError>;
/**
* Creates a snapshot of an EBS volume and stores it in Amazon S3. You can use snapshots for backups, to make copies of EBS volumes, and to save data before shutting down an instance. When a snapshot is created, any AWS Marketplace product codes that are associated with the source volume are propagated to the snapshot. You can take a snapshot of an attached volume that is in use. However, snapshots only capture data that has been written to your EBS volume at the time the snapshot command is issued; this may exclude any data that has been cached by any applications or the operating system. If you can pause any file systems on the volume long enough to take a snapshot, your snapshot should be complete. However, if you cannot pause all file writes to the volume, you should unmount the volume from within the instance, issue the snapshot command, and then remount the volume to ensure a consistent and complete snapshot. You may remount and use your volume while the snapshot status is pending. To create a snapshot for EBS volumes that serve as root devices, you should stop the instance before taking the snapshot. Snapshots that are taken from encrypted volumes are automatically encrypted. Volumes that are created from encrypted snapshots are also automatically encrypted. Your encrypted volumes and any associated snapshots always remain protected. You can tag your snapshots during creation. For more information, see Tagging Your Amazon EC2 Resources in the Amazon Elastic Compute Cloud User Guide. For more information, see Amazon Elastic Block Store and Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
createSnapshot(params: EC2.Types.CreateSnapshotRequest, callback?: (err: AWSError, data: EC2.Types.Snapshot) => void): Request<EC2.Types.Snapshot, AWSError>;
/**
* Creates a snapshot of an EBS volume and stores it in Amazon S3. You can use snapshots for backups, to make copies of EBS volumes, and to save data before shutting down an instance. When a snapshot is created, any AWS Marketplace product codes that are associated with the source volume are propagated to the snapshot. You can take a snapshot of an attached volume that is in use. However, snapshots only capture data that has been written to your EBS volume at the time the snapshot command is issued; this may exclude any data that has been cached by any applications or the operating system. If you can pause any file systems on the volume long enough to take a snapshot, your snapshot should be complete. However, if you cannot pause all file writes to the volume, you should unmount the volume from within the instance, issue the snapshot command, and then remount the volume to ensure a consistent and complete snapshot. You may remount and use your volume while the snapshot status is pending. To create a snapshot for EBS volumes that serve as root devices, you should stop the instance before taking the snapshot. Snapshots that are taken from encrypted volumes are automatically encrypted. Volumes that are created from encrypted snapshots are also automatically encrypted. Your encrypted volumes and any associated snapshots always remain protected. You can tag your snapshots during creation. For more information, see Tagging Your Amazon EC2 Resources in the Amazon Elastic Compute Cloud User Guide. For more information, see Amazon Elastic Block Store and Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
createSnapshot(callback?: (err: AWSError, data: EC2.Types.Snapshot) => void): Request<EC2.Types.Snapshot, AWSError>;
/**
* Creates crash-consistent snapshots of multiple EBS volumes and stores the data in S3. Volumes are chosen by specifying an instance. Any attached volumes will produce one snapshot each that is crash-consistent across the instance. Boot volumes can be excluded by changing the parameters.
*/
createSnapshots(params: EC2.Types.CreateSnapshotsRequest, callback?: (err: AWSError, data: EC2.Types.CreateSnapshotsResult) => void): Request<EC2.Types.CreateSnapshotsResult, AWSError>;
/**
* Creates crash-consistent snapshots of multiple EBS volumes and stores the data in S3. Volumes are chosen by specifying an instance. Any attached volumes will produce one snapshot each that is crash-consistent across the instance. Boot volumes can be excluded by changing the parameters.
*/
createSnapshots(callback?: (err: AWSError, data: EC2.Types.CreateSnapshotsResult) => void): Request<EC2.Types.CreateSnapshotsResult, AWSError>;
/**
* Creates a data feed for Spot Instances, enabling you to view Spot Instance usage logs. You can create one data feed per AWS account. For more information, see Spot Instance Data Feed in the Amazon EC2 User Guide for Linux Instances.
*/
createSpotDatafeedSubscription(params: EC2.Types.CreateSpotDatafeedSubscriptionRequest, callback?: (err: AWSError, data: EC2.Types.CreateSpotDatafeedSubscriptionResult) => void): Request<EC2.Types.CreateSpotDatafeedSubscriptionResult, AWSError>;
/**
* Creates a data feed for Spot Instances, enabling you to view Spot Instance usage logs. You can create one data feed per AWS account. For more information, see Spot Instance Data Feed in the Amazon EC2 User Guide for Linux Instances.
*/
createSpotDatafeedSubscription(callback?: (err: AWSError, data: EC2.Types.CreateSpotDatafeedSubscriptionResult) => void): Request<EC2.Types.CreateSpotDatafeedSubscriptionResult, AWSError>;
/**
* Creates a subnet in an existing VPC. When you create each subnet, you provide the VPC ID and IPv4 CIDR block for the subnet. After you create a subnet, you can't change its CIDR block. The size of the subnet's IPv4 CIDR block can be the same as a VPC's IPv4 CIDR block, or a subset of a VPC's IPv4 CIDR block. If you create more than one subnet in a VPC, the subnets' CIDR blocks must not overlap. The smallest IPv4 subnet (and VPC) you can create uses a /28 netmask (16 IPv4 addresses), and the largest uses a /16 netmask (65,536 IPv4 addresses). If you've associated an IPv6 CIDR block with your VPC, you can create a subnet with an IPv6 CIDR block that uses a /64 prefix length. AWS reserves both the first four and the last IPv4 address in each subnet's CIDR block. They're not available for use. If you add more than one subnet to a VPC, they're set up in a star topology with a logical router in the middle. If you launch an instance in a VPC using an Amazon EBS-backed AMI, the IP address doesn't change if you stop and restart the instance (unlike a similar instance launched outside a VPC, which gets a new IP address when restarted). It's therefore possible to have a subnet with no running instances (they're all stopped), but no remaining IP addresses available. For more information about subnets, see Your VPC and Subnets in the Amazon Virtual Private Cloud User Guide.
*/
createSubnet(params: EC2.Types.CreateSubnetRequest, callback?: (err: AWSError, data: EC2.Types.CreateSubnetResult) => void): Request<EC2.Types.CreateSubnetResult, AWSError>;
/**
* Creates a subnet in an existing VPC. When you create each subnet, you provide the VPC ID and IPv4 CIDR block for the subnet. After you create a subnet, you can't change its CIDR block. The size of the subnet's IPv4 CIDR block can be the same as a VPC's IPv4 CIDR block, or a subset of a VPC's IPv4 CIDR block. If you create more than one subnet in a VPC, the subnets' CIDR blocks must not overlap. The smallest IPv4 subnet (and VPC) you can create uses a /28 netmask (16 IPv4 addresses), and the largest uses a /16 netmask (65,536 IPv4 addresses). If you've associated an IPv6 CIDR block with your VPC, you can create a subnet with an IPv6 CIDR block that uses a /64 prefix length. AWS reserves both the first four and the last IPv4 address in each subnet's CIDR block. They're not available for use. If you add more than one subnet to a VPC, they're set up in a star topology with a logical router in the middle. If you launch an instance in a VPC using an Amazon EBS-backed AMI, the IP address doesn't change if you stop and restart the instance (unlike a similar instance launched outside a VPC, which gets a new IP address when restarted). It's therefore possible to have a subnet with no running instances (they're all stopped), but no remaining IP addresses available. For more information about subnets, see Your VPC and Subnets in the Amazon Virtual Private Cloud User Guide.
*/
createSubnet(callback?: (err: AWSError, data: EC2.Types.CreateSubnetResult) => void): Request<EC2.Types.CreateSubnetResult, AWSError>;
/**
* Adds or overwrites the specified tags for the specified Amazon EC2 resource or resources. Each resource can have a maximum of 50 tags. Each tag consists of a key and optional value. Tag keys must be unique per resource. For more information about tags, see Tagging Your Resources in the Amazon Elastic Compute Cloud User Guide. For more information about creating IAM policies that control users' access to resources based on tags, see Supported Resource-Level Permissions for Amazon EC2 API Actions in the Amazon Elastic Compute Cloud User Guide.
*/
createTags(params: EC2.Types.CreateTagsRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Adds or overwrites the specified tags for the specified Amazon EC2 resource or resources. Each resource can have a maximum of 50 tags. Each tag consists of a key and optional value. Tag keys must be unique per resource. For more information about tags, see Tagging Your Resources in the Amazon Elastic Compute Cloud User Guide. For more information about creating IAM policies that control users' access to resources based on tags, see Supported Resource-Level Permissions for Amazon EC2 API Actions in the Amazon Elastic Compute Cloud User Guide.
*/
createTags(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates a Traffic Mirror filter. A Traffic Mirror filter is a set of rules that defines the traffic to mirror. By default, no traffic is mirrored. To mirror traffic, use CreateTrafficMirrorFilterRule to add Traffic Mirror rules to the filter. The rules you add define what traffic gets mirrored. You can also use ModifyTrafficMirrorFilterNetworkServices to mirror supported network services.
*/
createTrafficMirrorFilter(params: EC2.Types.CreateTrafficMirrorFilterRequest, callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorFilterResult) => void): Request<EC2.Types.CreateTrafficMirrorFilterResult, AWSError>;
/**
* Creates a Traffic Mirror filter. A Traffic Mirror filter is a set of rules that defines the traffic to mirror. By default, no traffic is mirrored. To mirror traffic, use CreateTrafficMirrorFilterRule to add Traffic Mirror rules to the filter. The rules you add define what traffic gets mirrored. You can also use ModifyTrafficMirrorFilterNetworkServices to mirror supported network services.
*/
createTrafficMirrorFilter(callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorFilterResult) => void): Request<EC2.Types.CreateTrafficMirrorFilterResult, AWSError>;
/**
* Creates a Traffic Mirror filter rule. A Traffic Mirror rule defines the Traffic Mirror source traffic to mirror. You need the Traffic Mirror filter ID when you create the rule.
*/
createTrafficMirrorFilterRule(params: EC2.Types.CreateTrafficMirrorFilterRuleRequest, callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorFilterRuleResult) => void): Request<EC2.Types.CreateTrafficMirrorFilterRuleResult, AWSError>;
/**
* Creates a Traffic Mirror filter rule. A Traffic Mirror rule defines the Traffic Mirror source traffic to mirror. You need the Traffic Mirror filter ID when you create the rule.
*/
createTrafficMirrorFilterRule(callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorFilterRuleResult) => void): Request<EC2.Types.CreateTrafficMirrorFilterRuleResult, AWSError>;
/**
* Creates a Traffic Mirror session. A Traffic Mirror session actively copies packets from a Traffic Mirror source to a Traffic Mirror target. Create a filter, and then assign it to the session to define a subset of the traffic to mirror, for example all TCP traffic. The Traffic Mirror source and the Traffic Mirror target (monitoring appliances) can be in the same VPC, or in a different VPC connected via VPC peering or a transit gateway. By default, no traffic is mirrored. Use CreateTrafficMirrorFilter to create filter rules that specify the traffic to mirror.
*/
createTrafficMirrorSession(params: EC2.Types.CreateTrafficMirrorSessionRequest, callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorSessionResult) => void): Request<EC2.Types.CreateTrafficMirrorSessionResult, AWSError>;
/**
* Creates a Traffic Mirror session. A Traffic Mirror session actively copies packets from a Traffic Mirror source to a Traffic Mirror target. Create a filter, and then assign it to the session to define a subset of the traffic to mirror, for example all TCP traffic. The Traffic Mirror source and the Traffic Mirror target (monitoring appliances) can be in the same VPC, or in a different VPC connected via VPC peering or a transit gateway. By default, no traffic is mirrored. Use CreateTrafficMirrorFilter to create filter rules that specify the traffic to mirror.
*/
createTrafficMirrorSession(callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorSessionResult) => void): Request<EC2.Types.CreateTrafficMirrorSessionResult, AWSError>;
/**
* Creates a target for your Traffic Mirror session. A Traffic Mirror target is the destination for mirrored traffic. The Traffic Mirror source and the Traffic Mirror target (monitoring appliances) can be in the same VPC, or in different VPCs connected via VPC peering or a transit gateway. A Traffic Mirror target can be a network interface, or a Network Load Balancer. To use the target in a Traffic Mirror session, use CreateTrafficMirrorSession.
*/
createTrafficMirrorTarget(params: EC2.Types.CreateTrafficMirrorTargetRequest, callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorTargetResult) => void): Request<EC2.Types.CreateTrafficMirrorTargetResult, AWSError>;
/**
* Creates a target for your Traffic Mirror session. A Traffic Mirror target is the destination for mirrored traffic. The Traffic Mirror source and the Traffic Mirror target (monitoring appliances) can be in the same VPC, or in different VPCs connected via VPC peering or a transit gateway. A Traffic Mirror target can be a network interface, or a Network Load Balancer. To use the target in a Traffic Mirror session, use CreateTrafficMirrorSession.
*/
createTrafficMirrorTarget(callback?: (err: AWSError, data: EC2.Types.CreateTrafficMirrorTargetResult) => void): Request<EC2.Types.CreateTrafficMirrorTargetResult, AWSError>;
/**
* Creates a transit gateway. You can use a transit gateway to interconnect your virtual private clouds (VPC) and on-premises networks. After the transit gateway enters the available state, you can attach your VPCs and VPN connections to the transit gateway. To attach your VPCs, use CreateTransitGatewayVpcAttachment. To attach a VPN connection, use CreateCustomerGateway to create a customer gateway and specify the ID of the customer gateway and the ID of the transit gateway in a call to CreateVpnConnection. When you create a transit gateway, we create a default transit gateway route table and use it as the default association route table and the default propagation route table. You can use CreateTransitGatewayRouteTable to create additional transit gateway route tables. If you disable automatic route propagation, we do not create a default transit gateway route table. You can use EnableTransitGatewayRouteTablePropagation to propagate routes from a resource attachment to a transit gateway route table. If you disable automatic associations, you can use AssociateTransitGatewayRouteTable to associate a resource attachment with a transit gateway route table.
*/
createTransitGateway(params: EC2.Types.CreateTransitGatewayRequest, callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayResult) => void): Request<EC2.Types.CreateTransitGatewayResult, AWSError>;
/**
* Creates a transit gateway. You can use a transit gateway to interconnect your virtual private clouds (VPC) and on-premises networks. After the transit gateway enters the available state, you can attach your VPCs and VPN connections to the transit gateway. To attach your VPCs, use CreateTransitGatewayVpcAttachment. To attach a VPN connection, use CreateCustomerGateway to create a customer gateway and specify the ID of the customer gateway and the ID of the transit gateway in a call to CreateVpnConnection. When you create a transit gateway, we create a default transit gateway route table and use it as the default association route table and the default propagation route table. You can use CreateTransitGatewayRouteTable to create additional transit gateway route tables. If you disable automatic route propagation, we do not create a default transit gateway route table. You can use EnableTransitGatewayRouteTablePropagation to propagate routes from a resource attachment to a transit gateway route table. If you disable automatic associations, you can use AssociateTransitGatewayRouteTable to associate a resource attachment with a transit gateway route table.
*/
createTransitGateway(callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayResult) => void): Request<EC2.Types.CreateTransitGatewayResult, AWSError>;
/**
* Creates a static route for the specified transit gateway route table.
*/
createTransitGatewayRoute(params: EC2.Types.CreateTransitGatewayRouteRequest, callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayRouteResult) => void): Request<EC2.Types.CreateTransitGatewayRouteResult, AWSError>;
/**
* Creates a static route for the specified transit gateway route table.
*/
createTransitGatewayRoute(callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayRouteResult) => void): Request<EC2.Types.CreateTransitGatewayRouteResult, AWSError>;
/**
* Creates a route table for the specified transit gateway.
*/
createTransitGatewayRouteTable(params: EC2.Types.CreateTransitGatewayRouteTableRequest, callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayRouteTableResult) => void): Request<EC2.Types.CreateTransitGatewayRouteTableResult, AWSError>;
/**
* Creates a route table for the specified transit gateway.
*/
createTransitGatewayRouteTable(callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayRouteTableResult) => void): Request<EC2.Types.CreateTransitGatewayRouteTableResult, AWSError>;
/**
* Attaches the specified VPC to the specified transit gateway. If you attach a VPC with a CIDR range that overlaps the CIDR range of a VPC that is already attached, the new VPC CIDR range is not propagated to the default propagation route table. To send VPC traffic to an attached transit gateway, add a route to the VPC route table using CreateRoute.
*/
createTransitGatewayVpcAttachment(params: EC2.Types.CreateTransitGatewayVpcAttachmentRequest, callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.CreateTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Attaches the specified VPC to the specified transit gateway. If you attach a VPC with a CIDR range that overlaps the CIDR range of a VPC that is already attached, the new VPC CIDR range is not propagated to the default propagation route table. To send VPC traffic to an attached transit gateway, add a route to the VPC route table using CreateRoute.
*/
createTransitGatewayVpcAttachment(callback?: (err: AWSError, data: EC2.Types.CreateTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.CreateTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Creates an EBS volume that can be attached to an instance in the same Availability Zone. The volume is created in the regional endpoint that you send the HTTP request to. For more information see Regions and Endpoints. You can create a new empty volume or restore a volume from an EBS snapshot. Any AWS Marketplace product codes from the snapshot are propagated to the volume. You can create encrypted volumes. Encrypted volumes must be attached to instances that support Amazon EBS encryption. Volumes that are created from encrypted snapshots are also automatically encrypted. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide. You can tag your volumes during creation. For more information, see Tagging Your Amazon EC2 Resources in the Amazon Elastic Compute Cloud User Guide. For more information, see Creating an Amazon EBS Volume in the Amazon Elastic Compute Cloud User Guide.
*/
createVolume(params: EC2.Types.CreateVolumeRequest, callback?: (err: AWSError, data: EC2.Types.Volume) => void): Request<EC2.Types.Volume, AWSError>;
/**
* Creates an EBS volume that can be attached to an instance in the same Availability Zone. The volume is created in the regional endpoint that you send the HTTP request to. For more information see Regions and Endpoints. You can create a new empty volume or restore a volume from an EBS snapshot. Any AWS Marketplace product codes from the snapshot are propagated to the volume. You can create encrypted volumes. Encrypted volumes must be attached to instances that support Amazon EBS encryption. Volumes that are created from encrypted snapshots are also automatically encrypted. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide. You can tag your volumes during creation. For more information, see Tagging Your Amazon EC2 Resources in the Amazon Elastic Compute Cloud User Guide. For more information, see Creating an Amazon EBS Volume in the Amazon Elastic Compute Cloud User Guide.
*/
createVolume(callback?: (err: AWSError, data: EC2.Types.Volume) => void): Request<EC2.Types.Volume, AWSError>;
/**
* Creates a VPC with the specified IPv4 CIDR block. The smallest VPC you can create uses a /28 netmask (16 IPv4 addresses), and the largest uses a /16 netmask (65,536 IPv4 addresses). For more information about how large to make your VPC, see Your VPC and Subnets in the Amazon Virtual Private Cloud User Guide. You can optionally request an Amazon-provided IPv6 CIDR block for the VPC. The IPv6 CIDR block uses a /56 prefix length, and is allocated from Amazon's pool of IPv6 addresses. You cannot choose the IPv6 range for your VPC. By default, each instance you launch in the VPC has the default DHCP options, which include only a default DNS server that we provide (AmazonProvidedDNS). For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide. You can specify the instance tenancy value for the VPC when you create it. You can't change this value for the VPC after you create it. For more information, see Dedicated Instances in the Amazon Elastic Compute Cloud User Guide.
*/
createVpc(params: EC2.Types.CreateVpcRequest, callback?: (err: AWSError, data: EC2.Types.CreateVpcResult) => void): Request<EC2.Types.CreateVpcResult, AWSError>;
/**
* Creates a VPC with the specified IPv4 CIDR block. The smallest VPC you can create uses a /28 netmask (16 IPv4 addresses), and the largest uses a /16 netmask (65,536 IPv4 addresses). For more information about how large to make your VPC, see Your VPC and Subnets in the Amazon Virtual Private Cloud User Guide. You can optionally request an Amazon-provided IPv6 CIDR block for the VPC. The IPv6 CIDR block uses a /56 prefix length, and is allocated from Amazon's pool of IPv6 addresses. You cannot choose the IPv6 range for your VPC. By default, each instance you launch in the VPC has the default DHCP options, which include only a default DNS server that we provide (AmazonProvidedDNS). For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide. You can specify the instance tenancy value for the VPC when you create it. You can't change this value for the VPC after you create it. For more information, see Dedicated Instances in the Amazon Elastic Compute Cloud User Guide.
*/
createVpc(callback?: (err: AWSError, data: EC2.Types.CreateVpcResult) => void): Request<EC2.Types.CreateVpcResult, AWSError>;
/**
* Creates a VPC endpoint for a specified service. An endpoint enables you to create a private connection between your VPC and the service. The service may be provided by AWS, an AWS Marketplace partner, or another AWS account. For more information, see VPC Endpoints in the Amazon Virtual Private Cloud User Guide. A gateway endpoint serves as a target for a route in your route table for traffic destined for the AWS service. You can specify an endpoint policy to attach to the endpoint that will control access to the service from your VPC. You can also specify the VPC route tables that use the endpoint. An interface endpoint is a network interface in your subnet that serves as an endpoint for communicating with the specified service. You can specify the subnets in which to create an endpoint, and the security groups to associate with the endpoint network interface. Use DescribeVpcEndpointServices to get a list of supported services.
*/
createVpcEndpoint(params: EC2.Types.CreateVpcEndpointRequest, callback?: (err: AWSError, data: EC2.Types.CreateVpcEndpointResult) => void): Request<EC2.Types.CreateVpcEndpointResult, AWSError>;
/**
* Creates a VPC endpoint for a specified service. An endpoint enables you to create a private connection between your VPC and the service. The service may be provided by AWS, an AWS Marketplace partner, or another AWS account. For more information, see VPC Endpoints in the Amazon Virtual Private Cloud User Guide. A gateway endpoint serves as a target for a route in your route table for traffic destined for the AWS service. You can specify an endpoint policy to attach to the endpoint that will control access to the service from your VPC. You can also specify the VPC route tables that use the endpoint. An interface endpoint is a network interface in your subnet that serves as an endpoint for communicating with the specified service. You can specify the subnets in which to create an endpoint, and the security groups to associate with the endpoint network interface. Use DescribeVpcEndpointServices to get a list of supported services.
*/
createVpcEndpoint(callback?: (err: AWSError, data: EC2.Types.CreateVpcEndpointResult) => void): Request<EC2.Types.CreateVpcEndpointResult, AWSError>;
/**
* Creates a connection notification for a specified VPC endpoint or VPC endpoint service. A connection notification notifies you of specific endpoint events. You must create an SNS topic to receive notifications. For more information, see Create a Topic in the Amazon Simple Notification Service Developer Guide. You can create a connection notification for interface endpoints only.
*/
createVpcEndpointConnectionNotification(params: EC2.Types.CreateVpcEndpointConnectionNotificationRequest, callback?: (err: AWSError, data: EC2.Types.CreateVpcEndpointConnectionNotificationResult) => void): Request<EC2.Types.CreateVpcEndpointConnectionNotificationResult, AWSError>;
/**
* Creates a connection notification for a specified VPC endpoint or VPC endpoint service. A connection notification notifies you of specific endpoint events. You must create an SNS topic to receive notifications. For more information, see Create a Topic in the Amazon Simple Notification Service Developer Guide. You can create a connection notification for interface endpoints only.
*/
createVpcEndpointConnectionNotification(callback?: (err: AWSError, data: EC2.Types.CreateVpcEndpointConnectionNotificationResult) => void): Request<EC2.Types.CreateVpcEndpointConnectionNotificationResult, AWSError>;
/**
* Creates a VPC endpoint service configuration to which service consumers (AWS accounts, IAM users, and IAM roles) can connect. Service consumers can create an interface VPC endpoint to connect to your service. To create an endpoint service configuration, you must first create a Network Load Balancer for your service. For more information, see VPC Endpoint Services in the Amazon Virtual Private Cloud User Guide.
*/
createVpcEndpointServiceConfiguration(params: EC2.Types.CreateVpcEndpointServiceConfigurationRequest, callback?: (err: AWSError, data: EC2.Types.CreateVpcEndpointServiceConfigurationResult) => void): Request<EC2.Types.CreateVpcEndpointServiceConfigurationResult, AWSError>;
/**
* Creates a VPC endpoint service configuration to which service consumers (AWS accounts, IAM users, and IAM roles) can connect. Service consumers can create an interface VPC endpoint to connect to your service. To create an endpoint service configuration, you must first create a Network Load Balancer for your service. For more information, see VPC Endpoint Services in the Amazon Virtual Private Cloud User Guide.
*/
createVpcEndpointServiceConfiguration(callback?: (err: AWSError, data: EC2.Types.CreateVpcEndpointServiceConfigurationResult) => void): Request<EC2.Types.CreateVpcEndpointServiceConfigurationResult, AWSError>;
/**
* Requests a VPC peering connection between two VPCs: a requester VPC that you own and an accepter VPC with which to create the connection. The accepter VPC can belong to another AWS account and can be in a different Region to the requester VPC. The requester VPC and accepter VPC cannot have overlapping CIDR blocks. Limitations and rules apply to a VPC peering connection. For more information, see the limitations section in the VPC Peering Guide. The owner of the accepter VPC must accept the peering request to activate the peering connection. The VPC peering connection request expires after 7 days, after which it cannot be accepted or rejected. If you create a VPC peering connection request between VPCs with overlapping CIDR blocks, the VPC peering connection has a status of failed.
*/
createVpcPeeringConnection(params: EC2.Types.CreateVpcPeeringConnectionRequest, callback?: (err: AWSError, data: EC2.Types.CreateVpcPeeringConnectionResult) => void): Request<EC2.Types.CreateVpcPeeringConnectionResult, AWSError>;
/**
* Requests a VPC peering connection between two VPCs: a requester VPC that you own and an accepter VPC with which to create the connection. The accepter VPC can belong to another AWS account and can be in a different Region to the requester VPC. The requester VPC and accepter VPC cannot have overlapping CIDR blocks. Limitations and rules apply to a VPC peering connection. For more information, see the limitations section in the VPC Peering Guide. The owner of the accepter VPC must accept the peering request to activate the peering connection. The VPC peering connection request expires after 7 days, after which it cannot be accepted or rejected. If you create a VPC peering connection request between VPCs with overlapping CIDR blocks, the VPC peering connection has a status of failed.
*/
createVpcPeeringConnection(callback?: (err: AWSError, data: EC2.Types.CreateVpcPeeringConnectionResult) => void): Request<EC2.Types.CreateVpcPeeringConnectionResult, AWSError>;
/**
* Creates a VPN connection between an existing virtual private gateway and a VPN customer gateway. The supported connection type is ipsec.1. The response includes information that you need to give to your network administrator to configure your customer gateway. We strongly recommend that you use HTTPS when calling this operation because the response contains sensitive cryptographic information for configuring your customer gateway. If you decide to shut down your VPN connection for any reason and later create a new VPN connection, you must reconfigure your customer gateway with the new information returned from this call. This is an idempotent operation. If you perform the operation more than once, Amazon EC2 doesn't return an error. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
createVpnConnection(params: EC2.Types.CreateVpnConnectionRequest, callback?: (err: AWSError, data: EC2.Types.CreateVpnConnectionResult) => void): Request<EC2.Types.CreateVpnConnectionResult, AWSError>;
/**
* Creates a VPN connection between an existing virtual private gateway and a VPN customer gateway. The supported connection type is ipsec.1. The response includes information that you need to give to your network administrator to configure your customer gateway. We strongly recommend that you use HTTPS when calling this operation because the response contains sensitive cryptographic information for configuring your customer gateway. If you decide to shut down your VPN connection for any reason and later create a new VPN connection, you must reconfigure your customer gateway with the new information returned from this call. This is an idempotent operation. If you perform the operation more than once, Amazon EC2 doesn't return an error. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
createVpnConnection(callback?: (err: AWSError, data: EC2.Types.CreateVpnConnectionResult) => void): Request<EC2.Types.CreateVpnConnectionResult, AWSError>;
/**
* Creates a static route associated with a VPN connection between an existing virtual private gateway and a VPN customer gateway. The static route allows traffic to be routed from the virtual private gateway to the VPN customer gateway. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
createVpnConnectionRoute(params: EC2.Types.CreateVpnConnectionRouteRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates a static route associated with a VPN connection between an existing virtual private gateway and a VPN customer gateway. The static route allows traffic to be routed from the virtual private gateway to the VPN customer gateway. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
createVpnConnectionRoute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates a virtual private gateway. A virtual private gateway is the endpoint on the VPC side of your VPN connection. You can create a virtual private gateway before creating the VPC itself. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
createVpnGateway(params: EC2.Types.CreateVpnGatewayRequest, callback?: (err: AWSError, data: EC2.Types.CreateVpnGatewayResult) => void): Request<EC2.Types.CreateVpnGatewayResult, AWSError>;
/**
* Creates a virtual private gateway. A virtual private gateway is the endpoint on the VPC side of your VPN connection. You can create a virtual private gateway before creating the VPC itself. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
createVpnGateway(callback?: (err: AWSError, data: EC2.Types.CreateVpnGatewayResult) => void): Request<EC2.Types.CreateVpnGatewayResult, AWSError>;
/**
* Deletes the specified Client VPN endpoint. You must disassociate all target networks before you can delete a Client VPN endpoint.
*/
deleteClientVpnEndpoint(params: EC2.Types.DeleteClientVpnEndpointRequest, callback?: (err: AWSError, data: EC2.Types.DeleteClientVpnEndpointResult) => void): Request<EC2.Types.DeleteClientVpnEndpointResult, AWSError>;
/**
* Deletes the specified Client VPN endpoint. You must disassociate all target networks before you can delete a Client VPN endpoint.
*/
deleteClientVpnEndpoint(callback?: (err: AWSError, data: EC2.Types.DeleteClientVpnEndpointResult) => void): Request<EC2.Types.DeleteClientVpnEndpointResult, AWSError>;
/**
* Deletes a route from a Client VPN endpoint. You can only delete routes that you manually added using the CreateClientVpnRoute action. You cannot delete routes that were automatically added when associating a subnet. To remove routes that have been automatically added, disassociate the target subnet from the Client VPN endpoint.
*/
deleteClientVpnRoute(params: EC2.Types.DeleteClientVpnRouteRequest, callback?: (err: AWSError, data: EC2.Types.DeleteClientVpnRouteResult) => void): Request<EC2.Types.DeleteClientVpnRouteResult, AWSError>;
/**
* Deletes a route from a Client VPN endpoint. You can only delete routes that you manually added using the CreateClientVpnRoute action. You cannot delete routes that were automatically added when associating a subnet. To remove routes that have been automatically added, disassociate the target subnet from the Client VPN endpoint.
*/
deleteClientVpnRoute(callback?: (err: AWSError, data: EC2.Types.DeleteClientVpnRouteResult) => void): Request<EC2.Types.DeleteClientVpnRouteResult, AWSError>;
/**
* Deletes the specified customer gateway. You must delete the VPN connection before you can delete the customer gateway.
*/
deleteCustomerGateway(params: EC2.Types.DeleteCustomerGatewayRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified customer gateway. You must delete the VPN connection before you can delete the customer gateway.
*/
deleteCustomerGateway(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified set of DHCP options. You must disassociate the set of DHCP options before you can delete it. You can disassociate the set of DHCP options by associating either a new set of options or the default set of options with the VPC.
*/
deleteDhcpOptions(params: EC2.Types.DeleteDhcpOptionsRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified set of DHCP options. You must disassociate the set of DHCP options before you can delete it. You can disassociate the set of DHCP options by associating either a new set of options or the default set of options with the VPC.
*/
deleteDhcpOptions(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes an egress-only internet gateway.
*/
deleteEgressOnlyInternetGateway(params: EC2.Types.DeleteEgressOnlyInternetGatewayRequest, callback?: (err: AWSError, data: EC2.Types.DeleteEgressOnlyInternetGatewayResult) => void): Request<EC2.Types.DeleteEgressOnlyInternetGatewayResult, AWSError>;
/**
* Deletes an egress-only internet gateway.
*/
deleteEgressOnlyInternetGateway(callback?: (err: AWSError, data: EC2.Types.DeleteEgressOnlyInternetGatewayResult) => void): Request<EC2.Types.DeleteEgressOnlyInternetGatewayResult, AWSError>;
/**
* Deletes the specified EC2 Fleet. After you delete an EC2 Fleet, it launches no new instances. You must specify whether an EC2 Fleet should also terminate its instances. If you terminate the instances, the EC2 Fleet enters the deleted_terminating state. Otherwise, the EC2 Fleet enters the deleted_running state, and the instances continue to run until they are interrupted or you terminate them manually.
*/
deleteFleets(params: EC2.Types.DeleteFleetsRequest, callback?: (err: AWSError, data: EC2.Types.DeleteFleetsResult) => void): Request<EC2.Types.DeleteFleetsResult, AWSError>;
/**
* Deletes the specified EC2 Fleet. After you delete an EC2 Fleet, it launches no new instances. You must specify whether an EC2 Fleet should also terminate its instances. If you terminate the instances, the EC2 Fleet enters the deleted_terminating state. Otherwise, the EC2 Fleet enters the deleted_running state, and the instances continue to run until they are interrupted or you terminate them manually.
*/
deleteFleets(callback?: (err: AWSError, data: EC2.Types.DeleteFleetsResult) => void): Request<EC2.Types.DeleteFleetsResult, AWSError>;
/**
* Deletes one or more flow logs.
*/
deleteFlowLogs(params: EC2.Types.DeleteFlowLogsRequest, callback?: (err: AWSError, data: EC2.Types.DeleteFlowLogsResult) => void): Request<EC2.Types.DeleteFlowLogsResult, AWSError>;
/**
* Deletes one or more flow logs.
*/
deleteFlowLogs(callback?: (err: AWSError, data: EC2.Types.DeleteFlowLogsResult) => void): Request<EC2.Types.DeleteFlowLogsResult, AWSError>;
/**
* Deletes the specified Amazon FPGA Image (AFI).
*/
deleteFpgaImage(params: EC2.Types.DeleteFpgaImageRequest, callback?: (err: AWSError, data: EC2.Types.DeleteFpgaImageResult) => void): Request<EC2.Types.DeleteFpgaImageResult, AWSError>;
/**
* Deletes the specified Amazon FPGA Image (AFI).
*/
deleteFpgaImage(callback?: (err: AWSError, data: EC2.Types.DeleteFpgaImageResult) => void): Request<EC2.Types.DeleteFpgaImageResult, AWSError>;
/**
* Deletes the specified internet gateway. You must detach the internet gateway from the VPC before you can delete it.
*/
deleteInternetGateway(params: EC2.Types.DeleteInternetGatewayRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified internet gateway. You must detach the internet gateway from the VPC before you can delete it.
*/
deleteInternetGateway(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified key pair, by removing the public key from Amazon EC2.
*/
deleteKeyPair(params: EC2.Types.DeleteKeyPairRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified key pair, by removing the public key from Amazon EC2.
*/
deleteKeyPair(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes a launch template. Deleting a launch template deletes all of its versions.
*/
deleteLaunchTemplate(params: EC2.Types.DeleteLaunchTemplateRequest, callback?: (err: AWSError, data: EC2.Types.DeleteLaunchTemplateResult) => void): Request<EC2.Types.DeleteLaunchTemplateResult, AWSError>;
/**
* Deletes a launch template. Deleting a launch template deletes all of its versions.
*/
deleteLaunchTemplate(callback?: (err: AWSError, data: EC2.Types.DeleteLaunchTemplateResult) => void): Request<EC2.Types.DeleteLaunchTemplateResult, AWSError>;
/**
* Deletes one or more versions of a launch template. You cannot delete the default version of a launch template; you must first assign a different version as the default. If the default version is the only version for the launch template, you must delete the entire launch template using DeleteLaunchTemplate.
*/
deleteLaunchTemplateVersions(params: EC2.Types.DeleteLaunchTemplateVersionsRequest, callback?: (err: AWSError, data: EC2.Types.DeleteLaunchTemplateVersionsResult) => void): Request<EC2.Types.DeleteLaunchTemplateVersionsResult, AWSError>;
/**
* Deletes one or more versions of a launch template. You cannot delete the default version of a launch template; you must first assign a different version as the default. If the default version is the only version for the launch template, you must delete the entire launch template using DeleteLaunchTemplate.
*/
deleteLaunchTemplateVersions(callback?: (err: AWSError, data: EC2.Types.DeleteLaunchTemplateVersionsResult) => void): Request<EC2.Types.DeleteLaunchTemplateVersionsResult, AWSError>;
/**
* Deletes the specified NAT gateway. Deleting a NAT gateway disassociates its Elastic IP address, but does not release the address from your account. Deleting a NAT gateway does not delete any NAT gateway routes in your route tables.
*/
deleteNatGateway(params: EC2.Types.DeleteNatGatewayRequest, callback?: (err: AWSError, data: EC2.Types.DeleteNatGatewayResult) => void): Request<EC2.Types.DeleteNatGatewayResult, AWSError>;
/**
* Deletes the specified NAT gateway. Deleting a NAT gateway disassociates its Elastic IP address, but does not release the address from your account. Deleting a NAT gateway does not delete any NAT gateway routes in your route tables.
*/
deleteNatGateway(callback?: (err: AWSError, data: EC2.Types.DeleteNatGatewayResult) => void): Request<EC2.Types.DeleteNatGatewayResult, AWSError>;
/**
* Deletes the specified network ACL. You can't delete the ACL if it's associated with any subnets. You can't delete the default network ACL.
*/
deleteNetworkAcl(params: EC2.Types.DeleteNetworkAclRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified network ACL. You can't delete the ACL if it's associated with any subnets. You can't delete the default network ACL.
*/
deleteNetworkAcl(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified ingress or egress entry (rule) from the specified network ACL.
*/
deleteNetworkAclEntry(params: EC2.Types.DeleteNetworkAclEntryRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified ingress or egress entry (rule) from the specified network ACL.
*/
deleteNetworkAclEntry(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified network interface. You must detach the network interface before you can delete it.
*/
deleteNetworkInterface(params: EC2.Types.DeleteNetworkInterfaceRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified network interface. You must detach the network interface before you can delete it.
*/
deleteNetworkInterface(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes a permission for a network interface. By default, you cannot delete the permission if the account for which you're removing the permission has attached the network interface to an instance. However, you can force delete the permission, regardless of any attachment.
*/
deleteNetworkInterfacePermission(params: EC2.Types.DeleteNetworkInterfacePermissionRequest, callback?: (err: AWSError, data: EC2.Types.DeleteNetworkInterfacePermissionResult) => void): Request<EC2.Types.DeleteNetworkInterfacePermissionResult, AWSError>;
/**
* Deletes a permission for a network interface. By default, you cannot delete the permission if the account for which you're removing the permission has attached the network interface to an instance. However, you can force delete the permission, regardless of any attachment.
*/
deleteNetworkInterfacePermission(callback?: (err: AWSError, data: EC2.Types.DeleteNetworkInterfacePermissionResult) => void): Request<EC2.Types.DeleteNetworkInterfacePermissionResult, AWSError>;
/**
* Deletes the specified placement group. You must terminate all instances in the placement group before you can delete the placement group. For more information, see Placement Groups in the Amazon Elastic Compute Cloud User Guide.
*/
deletePlacementGroup(params: EC2.Types.DeletePlacementGroupRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified placement group. You must terminate all instances in the placement group before you can delete the placement group. For more information, see Placement Groups in the Amazon Elastic Compute Cloud User Guide.
*/
deletePlacementGroup(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the queued purchases for the specified Reserved Instances.
*/
deleteQueuedReservedInstances(params: EC2.Types.DeleteQueuedReservedInstancesRequest, callback?: (err: AWSError, data: EC2.Types.DeleteQueuedReservedInstancesResult) => void): Request<EC2.Types.DeleteQueuedReservedInstancesResult, AWSError>;
/**
* Deletes the queued purchases for the specified Reserved Instances.
*/
deleteQueuedReservedInstances(callback?: (err: AWSError, data: EC2.Types.DeleteQueuedReservedInstancesResult) => void): Request<EC2.Types.DeleteQueuedReservedInstancesResult, AWSError>;
/**
* Deletes the specified route from the specified route table.
*/
deleteRoute(params: EC2.Types.DeleteRouteRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified route from the specified route table.
*/
deleteRoute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified route table. You must disassociate the route table from any subnets before you can delete it. You can't delete the main route table.
*/
deleteRouteTable(params: EC2.Types.DeleteRouteTableRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified route table. You must disassociate the route table from any subnets before you can delete it. You can't delete the main route table.
*/
deleteRouteTable(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes a security group. If you attempt to delete a security group that is associated with an instance, or is referenced by another security group, the operation fails with InvalidGroup.InUse in EC2-Classic or DependencyViolation in EC2-VPC.
*/
deleteSecurityGroup(params: EC2.Types.DeleteSecurityGroupRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes a security group. If you attempt to delete a security group that is associated with an instance, or is referenced by another security group, the operation fails with InvalidGroup.InUse in EC2-Classic or DependencyViolation in EC2-VPC.
*/
deleteSecurityGroup(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified snapshot. When you make periodic snapshots of a volume, the snapshots are incremental, and only the blocks on the device that have changed since your last snapshot are saved in the new snapshot. When you delete a snapshot, only the data not needed for any other snapshot is removed. So regardless of which prior snapshots have been deleted, all active snapshots will have access to all the information needed to restore the volume. You cannot delete a snapshot of the root device of an EBS volume used by a registered AMI. You must first de-register the AMI before you can delete the snapshot. For more information, see Deleting an Amazon EBS Snapshot in the Amazon Elastic Compute Cloud User Guide.
*/
deleteSnapshot(params: EC2.Types.DeleteSnapshotRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified snapshot. When you make periodic snapshots of a volume, the snapshots are incremental, and only the blocks on the device that have changed since your last snapshot are saved in the new snapshot. When you delete a snapshot, only the data not needed for any other snapshot is removed. So regardless of which prior snapshots have been deleted, all active snapshots will have access to all the information needed to restore the volume. You cannot delete a snapshot of the root device of an EBS volume used by a registered AMI. You must first de-register the AMI before you can delete the snapshot. For more information, see Deleting an Amazon EBS Snapshot in the Amazon Elastic Compute Cloud User Guide.
*/
deleteSnapshot(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the data feed for Spot Instances.
*/
deleteSpotDatafeedSubscription(params: EC2.Types.DeleteSpotDatafeedSubscriptionRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the data feed for Spot Instances.
*/
deleteSpotDatafeedSubscription(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified subnet. You must terminate all running instances in the subnet before you can delete the subnet.
*/
deleteSubnet(params: EC2.Types.DeleteSubnetRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified subnet. You must terminate all running instances in the subnet before you can delete the subnet.
*/
deleteSubnet(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified set of tags from the specified set of resources. To list the current tags, use DescribeTags. For more information about tags, see Tagging Your Resources in the Amazon Elastic Compute Cloud User Guide.
*/
deleteTags(params: EC2.Types.DeleteTagsRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified set of tags from the specified set of resources. To list the current tags, use DescribeTags. For more information about tags, see Tagging Your Resources in the Amazon Elastic Compute Cloud User Guide.
*/
deleteTags(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified Traffic Mirror filter. You cannot delete a Traffic Mirror filter that is in use by a Traffic Mirror session.
*/
deleteTrafficMirrorFilter(params: EC2.Types.DeleteTrafficMirrorFilterRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorFilterResult) => void): Request<EC2.Types.DeleteTrafficMirrorFilterResult, AWSError>;
/**
* Deletes the specified Traffic Mirror filter. You cannot delete a Traffic Mirror filter that is in use by a Traffic Mirror session.
*/
deleteTrafficMirrorFilter(callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorFilterResult) => void): Request<EC2.Types.DeleteTrafficMirrorFilterResult, AWSError>;
/**
* Deletes the specified Traffic Mirror rule.
*/
deleteTrafficMirrorFilterRule(params: EC2.Types.DeleteTrafficMirrorFilterRuleRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorFilterRuleResult) => void): Request<EC2.Types.DeleteTrafficMirrorFilterRuleResult, AWSError>;
/**
* Deletes the specified Traffic Mirror rule.
*/
deleteTrafficMirrorFilterRule(callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorFilterRuleResult) => void): Request<EC2.Types.DeleteTrafficMirrorFilterRuleResult, AWSError>;
/**
* Deletes the specified Traffic Mirror session.
*/
deleteTrafficMirrorSession(params: EC2.Types.DeleteTrafficMirrorSessionRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorSessionResult) => void): Request<EC2.Types.DeleteTrafficMirrorSessionResult, AWSError>;
/**
* Deletes the specified Traffic Mirror session.
*/
deleteTrafficMirrorSession(callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorSessionResult) => void): Request<EC2.Types.DeleteTrafficMirrorSessionResult, AWSError>;
/**
* Deletes the specified Traffic Mirror target. You cannot delete a Traffic Mirror target that is in use by a Traffic Mirror session.
*/
deleteTrafficMirrorTarget(params: EC2.Types.DeleteTrafficMirrorTargetRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorTargetResult) => void): Request<EC2.Types.DeleteTrafficMirrorTargetResult, AWSError>;
/**
* Deletes the specified Traffic Mirror target. You cannot delete a Traffic Mirror target that is in use by a Traffic Mirror session.
*/
deleteTrafficMirrorTarget(callback?: (err: AWSError, data: EC2.Types.DeleteTrafficMirrorTargetResult) => void): Request<EC2.Types.DeleteTrafficMirrorTargetResult, AWSError>;
/**
* Deletes the specified transit gateway.
*/
deleteTransitGateway(params: EC2.Types.DeleteTransitGatewayRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayResult) => void): Request<EC2.Types.DeleteTransitGatewayResult, AWSError>;
/**
* Deletes the specified transit gateway.
*/
deleteTransitGateway(callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayResult) => void): Request<EC2.Types.DeleteTransitGatewayResult, AWSError>;
/**
* Deletes the specified route from the specified transit gateway route table.
*/
deleteTransitGatewayRoute(params: EC2.Types.DeleteTransitGatewayRouteRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayRouteResult) => void): Request<EC2.Types.DeleteTransitGatewayRouteResult, AWSError>;
/**
* Deletes the specified route from the specified transit gateway route table.
*/
deleteTransitGatewayRoute(callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayRouteResult) => void): Request<EC2.Types.DeleteTransitGatewayRouteResult, AWSError>;
/**
* Deletes the specified transit gateway route table. You must disassociate the route table from any transit gateway route tables before you can delete it.
*/
deleteTransitGatewayRouteTable(params: EC2.Types.DeleteTransitGatewayRouteTableRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayRouteTableResult) => void): Request<EC2.Types.DeleteTransitGatewayRouteTableResult, AWSError>;
/**
* Deletes the specified transit gateway route table. You must disassociate the route table from any transit gateway route tables before you can delete it.
*/
deleteTransitGatewayRouteTable(callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayRouteTableResult) => void): Request<EC2.Types.DeleteTransitGatewayRouteTableResult, AWSError>;
/**
* Deletes the specified VPC attachment.
*/
deleteTransitGatewayVpcAttachment(params: EC2.Types.DeleteTransitGatewayVpcAttachmentRequest, callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.DeleteTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Deletes the specified VPC attachment.
*/
deleteTransitGatewayVpcAttachment(callback?: (err: AWSError, data: EC2.Types.DeleteTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.DeleteTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Deletes the specified EBS volume. The volume must be in the available state (not attached to an instance). The volume can remain in the deleting state for several minutes. For more information, see Deleting an Amazon EBS Volume in the Amazon Elastic Compute Cloud User Guide.
*/
deleteVolume(params: EC2.Types.DeleteVolumeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified EBS volume. The volume must be in the available state (not attached to an instance). The volume can remain in the deleting state for several minutes. For more information, see Deleting an Amazon EBS Volume in the Amazon Elastic Compute Cloud User Guide.
*/
deleteVolume(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified VPC. You must detach or delete all gateways and resources that are associated with the VPC before you can delete it. For example, you must terminate all instances running in the VPC, delete all security groups associated with the VPC (except the default one), delete all route tables associated with the VPC (except the default one), and so on.
*/
deleteVpc(params: EC2.Types.DeleteVpcRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified VPC. You must detach or delete all gateways and resources that are associated with the VPC before you can delete it. For example, you must terminate all instances running in the VPC, delete all security groups associated with the VPC (except the default one), delete all route tables associated with the VPC (except the default one), and so on.
*/
deleteVpc(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes one or more VPC endpoint connection notifications.
*/
deleteVpcEndpointConnectionNotifications(params: EC2.Types.DeleteVpcEndpointConnectionNotificationsRequest, callback?: (err: AWSError, data: EC2.Types.DeleteVpcEndpointConnectionNotificationsResult) => void): Request<EC2.Types.DeleteVpcEndpointConnectionNotificationsResult, AWSError>;
/**
* Deletes one or more VPC endpoint connection notifications.
*/
deleteVpcEndpointConnectionNotifications(callback?: (err: AWSError, data: EC2.Types.DeleteVpcEndpointConnectionNotificationsResult) => void): Request<EC2.Types.DeleteVpcEndpointConnectionNotificationsResult, AWSError>;
/**
* Deletes one or more VPC endpoint service configurations in your account. Before you delete the endpoint service configuration, you must reject any Available or PendingAcceptance interface endpoint connections that are attached to the service.
*/
deleteVpcEndpointServiceConfigurations(params: EC2.Types.DeleteVpcEndpointServiceConfigurationsRequest, callback?: (err: AWSError, data: EC2.Types.DeleteVpcEndpointServiceConfigurationsResult) => void): Request<EC2.Types.DeleteVpcEndpointServiceConfigurationsResult, AWSError>;
/**
* Deletes one or more VPC endpoint service configurations in your account. Before you delete the endpoint service configuration, you must reject any Available or PendingAcceptance interface endpoint connections that are attached to the service.
*/
deleteVpcEndpointServiceConfigurations(callback?: (err: AWSError, data: EC2.Types.DeleteVpcEndpointServiceConfigurationsResult) => void): Request<EC2.Types.DeleteVpcEndpointServiceConfigurationsResult, AWSError>;
/**
* Deletes one or more specified VPC endpoints. Deleting a gateway endpoint also deletes the endpoint routes in the route tables that were associated with the endpoint. Deleting an interface endpoint deletes the endpoint network interfaces.
*/
deleteVpcEndpoints(params: EC2.Types.DeleteVpcEndpointsRequest, callback?: (err: AWSError, data: EC2.Types.DeleteVpcEndpointsResult) => void): Request<EC2.Types.DeleteVpcEndpointsResult, AWSError>;
/**
* Deletes one or more specified VPC endpoints. Deleting a gateway endpoint also deletes the endpoint routes in the route tables that were associated with the endpoint. Deleting an interface endpoint deletes the endpoint network interfaces.
*/
deleteVpcEndpoints(callback?: (err: AWSError, data: EC2.Types.DeleteVpcEndpointsResult) => void): Request<EC2.Types.DeleteVpcEndpointsResult, AWSError>;
/**
* Deletes a VPC peering connection. Either the owner of the requester VPC or the owner of the accepter VPC can delete the VPC peering connection if it's in the active state. The owner of the requester VPC can delete a VPC peering connection in the pending-acceptance state. You cannot delete a VPC peering connection that's in the failed state.
*/
deleteVpcPeeringConnection(params: EC2.Types.DeleteVpcPeeringConnectionRequest, callback?: (err: AWSError, data: EC2.Types.DeleteVpcPeeringConnectionResult) => void): Request<EC2.Types.DeleteVpcPeeringConnectionResult, AWSError>;
/**
* Deletes a VPC peering connection. Either the owner of the requester VPC or the owner of the accepter VPC can delete the VPC peering connection if it's in the active state. The owner of the requester VPC can delete a VPC peering connection in the pending-acceptance state. You cannot delete a VPC peering connection that's in the failed state.
*/
deleteVpcPeeringConnection(callback?: (err: AWSError, data: EC2.Types.DeleteVpcPeeringConnectionResult) => void): Request<EC2.Types.DeleteVpcPeeringConnectionResult, AWSError>;
/**
* Deletes the specified VPN connection. If you're deleting the VPC and its associated components, we recommend that you detach the virtual private gateway from the VPC and delete the VPC before deleting the VPN connection. If you believe that the tunnel credentials for your VPN connection have been compromised, you can delete the VPN connection and create a new one that has new keys, without needing to delete the VPC or virtual private gateway. If you create a new VPN connection, you must reconfigure the customer gateway using the new configuration information returned with the new VPN connection ID.
*/
deleteVpnConnection(params: EC2.Types.DeleteVpnConnectionRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified VPN connection. If you're deleting the VPC and its associated components, we recommend that you detach the virtual private gateway from the VPC and delete the VPC before deleting the VPN connection. If you believe that the tunnel credentials for your VPN connection have been compromised, you can delete the VPN connection and create a new one that has new keys, without needing to delete the VPC or virtual private gateway. If you create a new VPN connection, you must reconfigure the customer gateway using the new configuration information returned with the new VPN connection ID.
*/
deleteVpnConnection(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified static route associated with a VPN connection between an existing virtual private gateway and a VPN customer gateway. The static route allows traffic to be routed from the virtual private gateway to the VPN customer gateway.
*/
deleteVpnConnectionRoute(params: EC2.Types.DeleteVpnConnectionRouteRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified static route associated with a VPN connection between an existing virtual private gateway and a VPN customer gateway. The static route allows traffic to be routed from the virtual private gateway to the VPN customer gateway.
*/
deleteVpnConnectionRoute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified virtual private gateway. We recommend that before you delete a virtual private gateway, you detach it from the VPC and delete the VPN connection. Note that you don't need to delete the virtual private gateway if you plan to delete and recreate the VPN connection between your VPC and your network.
*/
deleteVpnGateway(params: EC2.Types.DeleteVpnGatewayRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deletes the specified virtual private gateway. We recommend that before you delete a virtual private gateway, you detach it from the VPC and delete the VPN connection. Note that you don't need to delete the virtual private gateway if you plan to delete and recreate the VPN connection between your VPC and your network.
*/
deleteVpnGateway(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Releases the specified address range that you provisioned for use with your AWS resources through bring your own IP addresses (BYOIP) and deletes the corresponding address pool. Before you can release an address range, you must stop advertising it using WithdrawByoipCidr and you must not have any IP addresses allocated from its address range.
*/
deprovisionByoipCidr(params: EC2.Types.DeprovisionByoipCidrRequest, callback?: (err: AWSError, data: EC2.Types.DeprovisionByoipCidrResult) => void): Request<EC2.Types.DeprovisionByoipCidrResult, AWSError>;
/**
* Releases the specified address range that you provisioned for use with your AWS resources through bring your own IP addresses (BYOIP) and deletes the corresponding address pool. Before you can release an address range, you must stop advertising it using WithdrawByoipCidr and you must not have any IP addresses allocated from its address range.
*/
deprovisionByoipCidr(callback?: (err: AWSError, data: EC2.Types.DeprovisionByoipCidrResult) => void): Request<EC2.Types.DeprovisionByoipCidrResult, AWSError>;
/**
* Deregisters the specified AMI. After you deregister an AMI, it can't be used to launch new instances; however, it doesn't affect any instances that you've already launched from the AMI. You'll continue to incur usage costs for those instances until you terminate them. When you deregister an Amazon EBS-backed AMI, it doesn't affect the snapshot that was created for the root volume of the instance during the AMI creation process. When you deregister an instance store-backed AMI, it doesn't affect the files that you uploaded to Amazon S3 when you created the AMI.
*/
deregisterImage(params: EC2.Types.DeregisterImageRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Deregisters the specified AMI. After you deregister an AMI, it can't be used to launch new instances; however, it doesn't affect any instances that you've already launched from the AMI. You'll continue to incur usage costs for those instances until you terminate them. When you deregister an Amazon EBS-backed AMI, it doesn't affect the snapshot that was created for the root volume of the instance during the AMI creation process. When you deregister an instance store-backed AMI, it doesn't affect the files that you uploaded to Amazon S3 when you created the AMI.
*/
deregisterImage(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Describes attributes of your AWS account. The following are the supported account attributes: supported-platforms: Indicates whether your account can launch instances into EC2-Classic and EC2-VPC, or only into EC2-VPC. default-vpc: The ID of the default VPC for your account, or none. max-instances: The maximum number of On-Demand Instances that you can run. vpc-max-security-groups-per-interface: The maximum number of security groups that you can assign to a network interface. max-elastic-ips: The maximum number of Elastic IP addresses that you can allocate for use with EC2-Classic. vpc-max-elastic-ips: The maximum number of Elastic IP addresses that you can allocate for use with EC2-VPC.
*/
describeAccountAttributes(params: EC2.Types.DescribeAccountAttributesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeAccountAttributesResult) => void): Request<EC2.Types.DescribeAccountAttributesResult, AWSError>;
/**
* Describes attributes of your AWS account. The following are the supported account attributes: supported-platforms: Indicates whether your account can launch instances into EC2-Classic and EC2-VPC, or only into EC2-VPC. default-vpc: The ID of the default VPC for your account, or none. max-instances: The maximum number of On-Demand Instances that you can run. vpc-max-security-groups-per-interface: The maximum number of security groups that you can assign to a network interface. max-elastic-ips: The maximum number of Elastic IP addresses that you can allocate for use with EC2-Classic. vpc-max-elastic-ips: The maximum number of Elastic IP addresses that you can allocate for use with EC2-VPC.
*/
describeAccountAttributes(callback?: (err: AWSError, data: EC2.Types.DescribeAccountAttributesResult) => void): Request<EC2.Types.DescribeAccountAttributesResult, AWSError>;
/**
* Describes the specified Elastic IP addresses or all of your Elastic IP addresses. An Elastic IP address is for use in either the EC2-Classic platform or in a VPC. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide.
*/
describeAddresses(params: EC2.Types.DescribeAddressesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeAddressesResult) => void): Request<EC2.Types.DescribeAddressesResult, AWSError>;
/**
* Describes the specified Elastic IP addresses or all of your Elastic IP addresses. An Elastic IP address is for use in either the EC2-Classic platform or in a VPC. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide.
*/
describeAddresses(callback?: (err: AWSError, data: EC2.Types.DescribeAddressesResult) => void): Request<EC2.Types.DescribeAddressesResult, AWSError>;
/**
* Describes the longer ID format settings for all resource types in a specific Region. This request is useful for performing a quick audit to determine whether a specific Region is fully opted in for longer IDs (17-character IDs). This request only returns information about resource types that support longer IDs. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway.
*/
describeAggregateIdFormat(params: EC2.Types.DescribeAggregateIdFormatRequest, callback?: (err: AWSError, data: EC2.Types.DescribeAggregateIdFormatResult) => void): Request<EC2.Types.DescribeAggregateIdFormatResult, AWSError>;
/**
* Describes the longer ID format settings for all resource types in a specific Region. This request is useful for performing a quick audit to determine whether a specific Region is fully opted in for longer IDs (17-character IDs). This request only returns information about resource types that support longer IDs. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway.
*/
describeAggregateIdFormat(callback?: (err: AWSError, data: EC2.Types.DescribeAggregateIdFormatResult) => void): Request<EC2.Types.DescribeAggregateIdFormatResult, AWSError>;
/**
* Describes the Availability Zones that are available to you. The results include zones only for the Region you're currently using. If there is an event impacting an Availability Zone, you can use this request to view the state and any provided message for that Availability Zone. For more information, see Regions and Availability Zones in the Amazon Elastic Compute Cloud User Guide.
*/
describeAvailabilityZones(params: EC2.Types.DescribeAvailabilityZonesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeAvailabilityZonesResult) => void): Request<EC2.Types.DescribeAvailabilityZonesResult, AWSError>;
/**
* Describes the Availability Zones that are available to you. The results include zones only for the Region you're currently using. If there is an event impacting an Availability Zone, you can use this request to view the state and any provided message for that Availability Zone. For more information, see Regions and Availability Zones in the Amazon Elastic Compute Cloud User Guide.
*/
describeAvailabilityZones(callback?: (err: AWSError, data: EC2.Types.DescribeAvailabilityZonesResult) => void): Request<EC2.Types.DescribeAvailabilityZonesResult, AWSError>;
/**
* Describes the specified bundle tasks or all of your bundle tasks. Completed bundle tasks are listed for only a limited time. If your bundle task is no longer in the list, you can still register an AMI from it. Just use RegisterImage with the Amazon S3 bucket name and image manifest name you provided to the bundle task.
*/
describeBundleTasks(params: EC2.Types.DescribeBundleTasksRequest, callback?: (err: AWSError, data: EC2.Types.DescribeBundleTasksResult) => void): Request<EC2.Types.DescribeBundleTasksResult, AWSError>;
/**
* Describes the specified bundle tasks or all of your bundle tasks. Completed bundle tasks are listed for only a limited time. If your bundle task is no longer in the list, you can still register an AMI from it. Just use RegisterImage with the Amazon S3 bucket name and image manifest name you provided to the bundle task.
*/
describeBundleTasks(callback?: (err: AWSError, data: EC2.Types.DescribeBundleTasksResult) => void): Request<EC2.Types.DescribeBundleTasksResult, AWSError>;
/**
* Describes the IP address ranges that were specified in calls to ProvisionByoipCidr. To describe the address pools that were created when you provisioned the address ranges, use DescribePublicIpv4Pools.
*/
describeByoipCidrs(params: EC2.Types.DescribeByoipCidrsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeByoipCidrsResult) => void): Request<EC2.Types.DescribeByoipCidrsResult, AWSError>;
/**
* Describes the IP address ranges that were specified in calls to ProvisionByoipCidr. To describe the address pools that were created when you provisioned the address ranges, use DescribePublicIpv4Pools.
*/
describeByoipCidrs(callback?: (err: AWSError, data: EC2.Types.DescribeByoipCidrsResult) => void): Request<EC2.Types.DescribeByoipCidrsResult, AWSError>;
/**
* Describes one or more of your Capacity Reservations. The results describe only the Capacity Reservations in the AWS Region that you're currently using.
*/
describeCapacityReservations(params: EC2.Types.DescribeCapacityReservationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeCapacityReservationsResult) => void): Request<EC2.Types.DescribeCapacityReservationsResult, AWSError>;
/**
* Describes one or more of your Capacity Reservations. The results describe only the Capacity Reservations in the AWS Region that you're currently using.
*/
describeCapacityReservations(callback?: (err: AWSError, data: EC2.Types.DescribeCapacityReservationsResult) => void): Request<EC2.Types.DescribeCapacityReservationsResult, AWSError>;
/**
* Describes one or more of your linked EC2-Classic instances. This request only returns information about EC2-Classic instances linked to a VPC through ClassicLink. You cannot use this request to return information about other instances.
*/
describeClassicLinkInstances(params: EC2.Types.DescribeClassicLinkInstancesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeClassicLinkInstancesResult) => void): Request<EC2.Types.DescribeClassicLinkInstancesResult, AWSError>;
/**
* Describes one or more of your linked EC2-Classic instances. This request only returns information about EC2-Classic instances linked to a VPC through ClassicLink. You cannot use this request to return information about other instances.
*/
describeClassicLinkInstances(callback?: (err: AWSError, data: EC2.Types.DescribeClassicLinkInstancesResult) => void): Request<EC2.Types.DescribeClassicLinkInstancesResult, AWSError>;
/**
* Describes the authorization rules for a specified Client VPN endpoint.
*/
describeClientVpnAuthorizationRules(params: EC2.Types.DescribeClientVpnAuthorizationRulesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnAuthorizationRulesResult) => void): Request<EC2.Types.DescribeClientVpnAuthorizationRulesResult, AWSError>;
/**
* Describes the authorization rules for a specified Client VPN endpoint.
*/
describeClientVpnAuthorizationRules(callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnAuthorizationRulesResult) => void): Request<EC2.Types.DescribeClientVpnAuthorizationRulesResult, AWSError>;
/**
* Describes active client connections and connections that have been terminated within the last 60 minutes for the specified Client VPN endpoint.
*/
describeClientVpnConnections(params: EC2.Types.DescribeClientVpnConnectionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnConnectionsResult) => void): Request<EC2.Types.DescribeClientVpnConnectionsResult, AWSError>;
/**
* Describes active client connections and connections that have been terminated within the last 60 minutes for the specified Client VPN endpoint.
*/
describeClientVpnConnections(callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnConnectionsResult) => void): Request<EC2.Types.DescribeClientVpnConnectionsResult, AWSError>;
/**
* Describes one or more Client VPN endpoints in the account.
*/
describeClientVpnEndpoints(params: EC2.Types.DescribeClientVpnEndpointsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnEndpointsResult) => void): Request<EC2.Types.DescribeClientVpnEndpointsResult, AWSError>;
/**
* Describes one or more Client VPN endpoints in the account.
*/
describeClientVpnEndpoints(callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnEndpointsResult) => void): Request<EC2.Types.DescribeClientVpnEndpointsResult, AWSError>;
/**
* Describes the routes for the specified Client VPN endpoint.
*/
describeClientVpnRoutes(params: EC2.Types.DescribeClientVpnRoutesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnRoutesResult) => void): Request<EC2.Types.DescribeClientVpnRoutesResult, AWSError>;
/**
* Describes the routes for the specified Client VPN endpoint.
*/
describeClientVpnRoutes(callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnRoutesResult) => void): Request<EC2.Types.DescribeClientVpnRoutesResult, AWSError>;
/**
* Describes the target networks associated with the specified Client VPN endpoint.
*/
describeClientVpnTargetNetworks(params: EC2.Types.DescribeClientVpnTargetNetworksRequest, callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnTargetNetworksResult) => void): Request<EC2.Types.DescribeClientVpnTargetNetworksResult, AWSError>;
/**
* Describes the target networks associated with the specified Client VPN endpoint.
*/
describeClientVpnTargetNetworks(callback?: (err: AWSError, data: EC2.Types.DescribeClientVpnTargetNetworksResult) => void): Request<EC2.Types.DescribeClientVpnTargetNetworksResult, AWSError>;
/**
* Describes the specified conversion tasks or all your conversion tasks. For more information, see the VM Import/Export User Guide. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
describeConversionTasks(params: EC2.Types.DescribeConversionTasksRequest, callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Describes the specified conversion tasks or all your conversion tasks. For more information, see the VM Import/Export User Guide. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
describeConversionTasks(callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Describes one or more of your VPN customer gateways. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
describeCustomerGateways(params: EC2.Types.DescribeCustomerGatewaysRequest, callback?: (err: AWSError, data: EC2.Types.DescribeCustomerGatewaysResult) => void): Request<EC2.Types.DescribeCustomerGatewaysResult, AWSError>;
/**
* Describes one or more of your VPN customer gateways. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
describeCustomerGateways(callback?: (err: AWSError, data: EC2.Types.DescribeCustomerGatewaysResult) => void): Request<EC2.Types.DescribeCustomerGatewaysResult, AWSError>;
/**
* Describes one or more of your DHCP options sets. For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide.
*/
describeDhcpOptions(params: EC2.Types.DescribeDhcpOptionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeDhcpOptionsResult) => void): Request<EC2.Types.DescribeDhcpOptionsResult, AWSError>;
/**
* Describes one or more of your DHCP options sets. For more information, see DHCP Options Sets in the Amazon Virtual Private Cloud User Guide.
*/
describeDhcpOptions(callback?: (err: AWSError, data: EC2.Types.DescribeDhcpOptionsResult) => void): Request<EC2.Types.DescribeDhcpOptionsResult, AWSError>;
/**
* Describes one or more of your egress-only internet gateways.
*/
describeEgressOnlyInternetGateways(params: EC2.Types.DescribeEgressOnlyInternetGatewaysRequest, callback?: (err: AWSError, data: EC2.Types.DescribeEgressOnlyInternetGatewaysResult) => void): Request<EC2.Types.DescribeEgressOnlyInternetGatewaysResult, AWSError>;
/**
* Describes one or more of your egress-only internet gateways.
*/
describeEgressOnlyInternetGateways(callback?: (err: AWSError, data: EC2.Types.DescribeEgressOnlyInternetGatewaysResult) => void): Request<EC2.Types.DescribeEgressOnlyInternetGatewaysResult, AWSError>;
/**
* Describes the Elastic Graphics accelerator associated with your instances. For more information about Elastic Graphics, see Amazon Elastic Graphics.
*/
describeElasticGpus(params: EC2.Types.DescribeElasticGpusRequest, callback?: (err: AWSError, data: EC2.Types.DescribeElasticGpusResult) => void): Request<EC2.Types.DescribeElasticGpusResult, AWSError>;
/**
* Describes the Elastic Graphics accelerator associated with your instances. For more information about Elastic Graphics, see Amazon Elastic Graphics.
*/
describeElasticGpus(callback?: (err: AWSError, data: EC2.Types.DescribeElasticGpusResult) => void): Request<EC2.Types.DescribeElasticGpusResult, AWSError>;
/**
* Describes the specified export image tasks or all your export image tasks.
*/
describeExportImageTasks(params: EC2.Types.DescribeExportImageTasksRequest, callback?: (err: AWSError, data: EC2.Types.DescribeExportImageTasksResult) => void): Request<EC2.Types.DescribeExportImageTasksResult, AWSError>;
/**
* Describes the specified export image tasks or all your export image tasks.
*/
describeExportImageTasks(callback?: (err: AWSError, data: EC2.Types.DescribeExportImageTasksResult) => void): Request<EC2.Types.DescribeExportImageTasksResult, AWSError>;
/**
* Describes the specified export instance tasks or all your export instance tasks.
*/
describeExportTasks(params: EC2.Types.DescribeExportTasksRequest, callback?: (err: AWSError, data: EC2.Types.DescribeExportTasksResult) => void): Request<EC2.Types.DescribeExportTasksResult, AWSError>;
/**
* Describes the specified export instance tasks or all your export instance tasks.
*/
describeExportTasks(callback?: (err: AWSError, data: EC2.Types.DescribeExportTasksResult) => void): Request<EC2.Types.DescribeExportTasksResult, AWSError>;
/**
* Describes the events for the specified EC2 Fleet during the specified time.
*/
describeFleetHistory(params: EC2.Types.DescribeFleetHistoryRequest, callback?: (err: AWSError, data: EC2.Types.DescribeFleetHistoryResult) => void): Request<EC2.Types.DescribeFleetHistoryResult, AWSError>;
/**
* Describes the events for the specified EC2 Fleet during the specified time.
*/
describeFleetHistory(callback?: (err: AWSError, data: EC2.Types.DescribeFleetHistoryResult) => void): Request<EC2.Types.DescribeFleetHistoryResult, AWSError>;
/**
* Describes the running instances for the specified EC2 Fleet.
*/
describeFleetInstances(params: EC2.Types.DescribeFleetInstancesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeFleetInstancesResult) => void): Request<EC2.Types.DescribeFleetInstancesResult, AWSError>;
/**
* Describes the running instances for the specified EC2 Fleet.
*/
describeFleetInstances(callback?: (err: AWSError, data: EC2.Types.DescribeFleetInstancesResult) => void): Request<EC2.Types.DescribeFleetInstancesResult, AWSError>;
/**
* Describes the specified EC2 Fleets or all your EC2 Fleets.
*/
describeFleets(params: EC2.Types.DescribeFleetsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeFleetsResult) => void): Request<EC2.Types.DescribeFleetsResult, AWSError>;
/**
* Describes the specified EC2 Fleets or all your EC2 Fleets.
*/
describeFleets(callback?: (err: AWSError, data: EC2.Types.DescribeFleetsResult) => void): Request<EC2.Types.DescribeFleetsResult, AWSError>;
/**
* Describes one or more flow logs. To view the information in your flow logs (the log streams for the network interfaces), you must use the CloudWatch Logs console or the CloudWatch Logs API.
*/
describeFlowLogs(params: EC2.Types.DescribeFlowLogsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeFlowLogsResult) => void): Request<EC2.Types.DescribeFlowLogsResult, AWSError>;
/**
* Describes one or more flow logs. To view the information in your flow logs (the log streams for the network interfaces), you must use the CloudWatch Logs console or the CloudWatch Logs API.
*/
describeFlowLogs(callback?: (err: AWSError, data: EC2.Types.DescribeFlowLogsResult) => void): Request<EC2.Types.DescribeFlowLogsResult, AWSError>;
/**
* Describes the specified attribute of the specified Amazon FPGA Image (AFI).
*/
describeFpgaImageAttribute(params: EC2.Types.DescribeFpgaImageAttributeRequest, callback?: (err: AWSError, data: EC2.Types.DescribeFpgaImageAttributeResult) => void): Request<EC2.Types.DescribeFpgaImageAttributeResult, AWSError>;
/**
* Describes the specified attribute of the specified Amazon FPGA Image (AFI).
*/
describeFpgaImageAttribute(callback?: (err: AWSError, data: EC2.Types.DescribeFpgaImageAttributeResult) => void): Request<EC2.Types.DescribeFpgaImageAttributeResult, AWSError>;
/**
* Describes the Amazon FPGA Images (AFIs) available to you. These include public AFIs, private AFIs that you own, and AFIs owned by other AWS accounts for which you have load permissions.
*/
describeFpgaImages(params: EC2.Types.DescribeFpgaImagesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeFpgaImagesResult) => void): Request<EC2.Types.DescribeFpgaImagesResult, AWSError>;
/**
* Describes the Amazon FPGA Images (AFIs) available to you. These include public AFIs, private AFIs that you own, and AFIs owned by other AWS accounts for which you have load permissions.
*/
describeFpgaImages(callback?: (err: AWSError, data: EC2.Types.DescribeFpgaImagesResult) => void): Request<EC2.Types.DescribeFpgaImagesResult, AWSError>;
/**
* Describes the Dedicated Host reservations that are available to purchase. The results describe all the Dedicated Host reservation offerings, including offerings that may not match the instance family and Region of your Dedicated Hosts. When purchasing an offering, ensure that the instance family and Region of the offering matches that of the Dedicated Hosts with which it is to be associated. For more information about supported instance types, see Dedicated Hosts Overview in the Amazon Elastic Compute Cloud User Guide.
*/
describeHostReservationOfferings(params: EC2.Types.DescribeHostReservationOfferingsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeHostReservationOfferingsResult) => void): Request<EC2.Types.DescribeHostReservationOfferingsResult, AWSError>;
/**
* Describes the Dedicated Host reservations that are available to purchase. The results describe all the Dedicated Host reservation offerings, including offerings that may not match the instance family and Region of your Dedicated Hosts. When purchasing an offering, ensure that the instance family and Region of the offering matches that of the Dedicated Hosts with which it is to be associated. For more information about supported instance types, see Dedicated Hosts Overview in the Amazon Elastic Compute Cloud User Guide.
*/
describeHostReservationOfferings(callback?: (err: AWSError, data: EC2.Types.DescribeHostReservationOfferingsResult) => void): Request<EC2.Types.DescribeHostReservationOfferingsResult, AWSError>;
/**
* Describes reservations that are associated with Dedicated Hosts in your account.
*/
describeHostReservations(params: EC2.Types.DescribeHostReservationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeHostReservationsResult) => void): Request<EC2.Types.DescribeHostReservationsResult, AWSError>;
/**
* Describes reservations that are associated with Dedicated Hosts in your account.
*/
describeHostReservations(callback?: (err: AWSError, data: EC2.Types.DescribeHostReservationsResult) => void): Request<EC2.Types.DescribeHostReservationsResult, AWSError>;
/**
* Describes the specified Dedicated Hosts or all your Dedicated Hosts. The results describe only the Dedicated Hosts in the Region you're currently using. All listed instances consume capacity on your Dedicated Host. Dedicated Hosts that have recently been released are listed with the state released.
*/
describeHosts(params: EC2.Types.DescribeHostsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeHostsResult) => void): Request<EC2.Types.DescribeHostsResult, AWSError>;
/**
* Describes the specified Dedicated Hosts or all your Dedicated Hosts. The results describe only the Dedicated Hosts in the Region you're currently using. All listed instances consume capacity on your Dedicated Host. Dedicated Hosts that have recently been released are listed with the state released.
*/
describeHosts(callback?: (err: AWSError, data: EC2.Types.DescribeHostsResult) => void): Request<EC2.Types.DescribeHostsResult, AWSError>;
/**
* Describes your IAM instance profile associations.
*/
describeIamInstanceProfileAssociations(params: EC2.Types.DescribeIamInstanceProfileAssociationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeIamInstanceProfileAssociationsResult) => void): Request<EC2.Types.DescribeIamInstanceProfileAssociationsResult, AWSError>;
/**
* Describes your IAM instance profile associations.
*/
describeIamInstanceProfileAssociations(callback?: (err: AWSError, data: EC2.Types.DescribeIamInstanceProfileAssociationsResult) => void): Request<EC2.Types.DescribeIamInstanceProfileAssociationsResult, AWSError>;
/**
* Describes the ID format settings for your resources on a per-Region basis, for example, to view which resource types are enabled for longer IDs. This request only returns information about resource types whose ID formats can be modified; it does not return information about other resource types. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. These settings apply to the IAM user who makes the request; they do not apply to the entire AWS account. By default, an IAM user defaults to the same settings as the root user, unless they explicitly override the settings by running the ModifyIdFormat command. Resources created with longer IDs are visible to all IAM users, regardless of these settings and provided that they have permission to use the relevant Describe command for the resource type.
*/
describeIdFormat(params: EC2.Types.DescribeIdFormatRequest, callback?: (err: AWSError, data: EC2.Types.DescribeIdFormatResult) => void): Request<EC2.Types.DescribeIdFormatResult, AWSError>;
/**
* Describes the ID format settings for your resources on a per-Region basis, for example, to view which resource types are enabled for longer IDs. This request only returns information about resource types whose ID formats can be modified; it does not return information about other resource types. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. These settings apply to the IAM user who makes the request; they do not apply to the entire AWS account. By default, an IAM user defaults to the same settings as the root user, unless they explicitly override the settings by running the ModifyIdFormat command. Resources created with longer IDs are visible to all IAM users, regardless of these settings and provided that they have permission to use the relevant Describe command for the resource type.
*/
describeIdFormat(callback?: (err: AWSError, data: EC2.Types.DescribeIdFormatResult) => void): Request<EC2.Types.DescribeIdFormatResult, AWSError>;
/**
* Describes the ID format settings for resources for the specified IAM user, IAM role, or root user. For example, you can view the resource types that are enabled for longer IDs. This request only returns information about resource types whose ID formats can be modified; it does not return information about other resource types. For more information, see Resource IDs in the Amazon Elastic Compute Cloud User Guide. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. These settings apply to the principal specified in the request. They do not apply to the principal that makes the request.
*/
describeIdentityIdFormat(params: EC2.Types.DescribeIdentityIdFormatRequest, callback?: (err: AWSError, data: EC2.Types.DescribeIdentityIdFormatResult) => void): Request<EC2.Types.DescribeIdentityIdFormatResult, AWSError>;
/**
* Describes the ID format settings for resources for the specified IAM user, IAM role, or root user. For example, you can view the resource types that are enabled for longer IDs. This request only returns information about resource types whose ID formats can be modified; it does not return information about other resource types. For more information, see Resource IDs in the Amazon Elastic Compute Cloud User Guide. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. These settings apply to the principal specified in the request. They do not apply to the principal that makes the request.
*/
describeIdentityIdFormat(callback?: (err: AWSError, data: EC2.Types.DescribeIdentityIdFormatResult) => void): Request<EC2.Types.DescribeIdentityIdFormatResult, AWSError>;
/**
* Describes the specified attribute of the specified AMI. You can specify only one attribute at a time.
*/
describeImageAttribute(params: EC2.Types.DescribeImageAttributeRequest, callback?: (err: AWSError, data: EC2.Types.ImageAttribute) => void): Request<EC2.Types.ImageAttribute, AWSError>;
/**
* Describes the specified attribute of the specified AMI. You can specify only one attribute at a time.
*/
describeImageAttribute(callback?: (err: AWSError, data: EC2.Types.ImageAttribute) => void): Request<EC2.Types.ImageAttribute, AWSError>;
/**
* Describes the specified images (AMIs, AKIs, and ARIs) available to you or all of the images available to you. The images available to you include public images, private images that you own, and private images owned by other AWS accounts for which you have explicit launch permissions. Recently deregistered images appear in the returned results for a short interval and then return empty results. After all instances that reference a deregistered AMI are terminated, specifying the ID of the image results in an error indicating that the AMI ID cannot be found.
*/
describeImages(params: EC2.Types.DescribeImagesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeImagesResult) => void): Request<EC2.Types.DescribeImagesResult, AWSError>;
/**
* Describes the specified images (AMIs, AKIs, and ARIs) available to you or all of the images available to you. The images available to you include public images, private images that you own, and private images owned by other AWS accounts for which you have explicit launch permissions. Recently deregistered images appear in the returned results for a short interval and then return empty results. After all instances that reference a deregistered AMI are terminated, specifying the ID of the image results in an error indicating that the AMI ID cannot be found.
*/
describeImages(callback?: (err: AWSError, data: EC2.Types.DescribeImagesResult) => void): Request<EC2.Types.DescribeImagesResult, AWSError>;
/**
* Displays details about an import virtual machine or import snapshot tasks that are already created.
*/
describeImportImageTasks(params: EC2.Types.DescribeImportImageTasksRequest, callback?: (err: AWSError, data: EC2.Types.DescribeImportImageTasksResult) => void): Request<EC2.Types.DescribeImportImageTasksResult, AWSError>;
/**
* Displays details about an import virtual machine or import snapshot tasks that are already created.
*/
describeImportImageTasks(callback?: (err: AWSError, data: EC2.Types.DescribeImportImageTasksResult) => void): Request<EC2.Types.DescribeImportImageTasksResult, AWSError>;
/**
* Describes your import snapshot tasks.
*/
describeImportSnapshotTasks(params: EC2.Types.DescribeImportSnapshotTasksRequest, callback?: (err: AWSError, data: EC2.Types.DescribeImportSnapshotTasksResult) => void): Request<EC2.Types.DescribeImportSnapshotTasksResult, AWSError>;
/**
* Describes your import snapshot tasks.
*/
describeImportSnapshotTasks(callback?: (err: AWSError, data: EC2.Types.DescribeImportSnapshotTasksResult) => void): Request<EC2.Types.DescribeImportSnapshotTasksResult, AWSError>;
/**
* Describes the specified attribute of the specified instance. You can specify only one attribute at a time. Valid attribute values are: instanceType | kernel | ramdisk | userData | disableApiTermination | instanceInitiatedShutdownBehavior | rootDeviceName | blockDeviceMapping | productCodes | sourceDestCheck | groupSet | ebsOptimized | sriovNetSupport
*/
describeInstanceAttribute(params: EC2.Types.DescribeInstanceAttributeRequest, callback?: (err: AWSError, data: EC2.Types.InstanceAttribute) => void): Request<EC2.Types.InstanceAttribute, AWSError>;
/**
* Describes the specified attribute of the specified instance. You can specify only one attribute at a time. Valid attribute values are: instanceType | kernel | ramdisk | userData | disableApiTermination | instanceInitiatedShutdownBehavior | rootDeviceName | blockDeviceMapping | productCodes | sourceDestCheck | groupSet | ebsOptimized | sriovNetSupport
*/
describeInstanceAttribute(callback?: (err: AWSError, data: EC2.Types.InstanceAttribute) => void): Request<EC2.Types.InstanceAttribute, AWSError>;
/**
* Describes the credit option for CPU usage of the specified T2 or T3 instances. The credit options are standard and unlimited. If you do not specify an instance ID, Amazon EC2 returns T2 and T3 instances with the unlimited credit option, as well as instances that were previously configured as T2 or T3 with the unlimited credit option. For example, if you resize a T2 instance, while it is configured as unlimited, to an M4 instance, Amazon EC2 returns the M4 instance. If you specify one or more instance IDs, Amazon EC2 returns the credit option (standard or unlimited) of those instances. If you specify an instance ID that is not valid, such as an instance that is not a T2 or T3 instance, an error is returned. Recently terminated instances might appear in the returned results. This interval is usually less than one hour. If an Availability Zone is experiencing a service disruption and you specify instance IDs in the affected zone, or do not specify any instance IDs at all, the call fails. If you specify only instance IDs in an unaffected zone, the call works normally. For more information, see Burstable Performance Instances in the Amazon Elastic Compute Cloud User Guide.
*/
describeInstanceCreditSpecifications(params: EC2.Types.DescribeInstanceCreditSpecificationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeInstanceCreditSpecificationsResult) => void): Request<EC2.Types.DescribeInstanceCreditSpecificationsResult, AWSError>;
/**
* Describes the credit option for CPU usage of the specified T2 or T3 instances. The credit options are standard and unlimited. If you do not specify an instance ID, Amazon EC2 returns T2 and T3 instances with the unlimited credit option, as well as instances that were previously configured as T2 or T3 with the unlimited credit option. For example, if you resize a T2 instance, while it is configured as unlimited, to an M4 instance, Amazon EC2 returns the M4 instance. If you specify one or more instance IDs, Amazon EC2 returns the credit option (standard or unlimited) of those instances. If you specify an instance ID that is not valid, such as an instance that is not a T2 or T3 instance, an error is returned. Recently terminated instances might appear in the returned results. This interval is usually less than one hour. If an Availability Zone is experiencing a service disruption and you specify instance IDs in the affected zone, or do not specify any instance IDs at all, the call fails. If you specify only instance IDs in an unaffected zone, the call works normally. For more information, see Burstable Performance Instances in the Amazon Elastic Compute Cloud User Guide.
*/
describeInstanceCreditSpecifications(callback?: (err: AWSError, data: EC2.Types.DescribeInstanceCreditSpecificationsResult) => void): Request<EC2.Types.DescribeInstanceCreditSpecificationsResult, AWSError>;
/**
* Describes the status of the specified instances or all of your instances. By default, only running instances are described, unless you specifically indicate to return the status of all instances. Instance status includes the following components: Status checks - Amazon EC2 performs status checks on running EC2 instances to identify hardware and software issues. For more information, see Status Checks for Your Instances and Troubleshooting Instances with Failed Status Checks in the Amazon Elastic Compute Cloud User Guide. Scheduled events - Amazon EC2 can schedule events (such as reboot, stop, or terminate) for your instances related to hardware issues, software updates, or system maintenance. For more information, see Scheduled Events for Your Instances in the Amazon Elastic Compute Cloud User Guide. Instance state - You can manage your instances from the moment you launch them through their termination. For more information, see Instance Lifecycle in the Amazon Elastic Compute Cloud User Guide.
*/
describeInstanceStatus(params: EC2.Types.DescribeInstanceStatusRequest, callback?: (err: AWSError, data: EC2.Types.DescribeInstanceStatusResult) => void): Request<EC2.Types.DescribeInstanceStatusResult, AWSError>;
/**
* Describes the status of the specified instances or all of your instances. By default, only running instances are described, unless you specifically indicate to return the status of all instances. Instance status includes the following components: Status checks - Amazon EC2 performs status checks on running EC2 instances to identify hardware and software issues. For more information, see Status Checks for Your Instances and Troubleshooting Instances with Failed Status Checks in the Amazon Elastic Compute Cloud User Guide. Scheduled events - Amazon EC2 can schedule events (such as reboot, stop, or terminate) for your instances related to hardware issues, software updates, or system maintenance. For more information, see Scheduled Events for Your Instances in the Amazon Elastic Compute Cloud User Guide. Instance state - You can manage your instances from the moment you launch them through their termination. For more information, see Instance Lifecycle in the Amazon Elastic Compute Cloud User Guide.
*/
describeInstanceStatus(callback?: (err: AWSError, data: EC2.Types.DescribeInstanceStatusResult) => void): Request<EC2.Types.DescribeInstanceStatusResult, AWSError>;
/**
* Describes the specified instances or all of AWS account's instances. If you specify one or more instance IDs, Amazon EC2 returns information for those instances. If you do not specify instance IDs, Amazon EC2 returns information for all relevant instances. If you specify an instance ID that is not valid, an error is returned. If you specify an instance that you do not own, it is not included in the returned results. Recently terminated instances might appear in the returned results. This interval is usually less than one hour. If you describe instances in the rare case where an Availability Zone is experiencing a service disruption and you specify instance IDs that are in the affected zone, or do not specify any instance IDs at all, the call fails. If you describe instances and specify only instance IDs that are in an unaffected zone, the call works normally.
*/
describeInstances(params: EC2.Types.DescribeInstancesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Describes the specified instances or all of AWS account's instances. If you specify one or more instance IDs, Amazon EC2 returns information for those instances. If you do not specify instance IDs, Amazon EC2 returns information for all relevant instances. If you specify an instance ID that is not valid, an error is returned. If you specify an instance that you do not own, it is not included in the returned results. Recently terminated instances might appear in the returned results. This interval is usually less than one hour. If you describe instances in the rare case where an Availability Zone is experiencing a service disruption and you specify instance IDs that are in the affected zone, or do not specify any instance IDs at all, the call fails. If you describe instances and specify only instance IDs that are in an unaffected zone, the call works normally.
*/
describeInstances(callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Describes one or more of your internet gateways.
*/
describeInternetGateways(params: EC2.Types.DescribeInternetGatewaysRequest, callback?: (err: AWSError, data: EC2.Types.DescribeInternetGatewaysResult) => void): Request<EC2.Types.DescribeInternetGatewaysResult, AWSError>;
/**
* Describes one or more of your internet gateways.
*/
describeInternetGateways(callback?: (err: AWSError, data: EC2.Types.DescribeInternetGatewaysResult) => void): Request<EC2.Types.DescribeInternetGatewaysResult, AWSError>;
/**
* Describes the specified key pairs or all of your key pairs. For more information about key pairs, see Key Pairs in the Amazon Elastic Compute Cloud User Guide.
*/
describeKeyPairs(params: EC2.Types.DescribeKeyPairsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeKeyPairsResult) => void): Request<EC2.Types.DescribeKeyPairsResult, AWSError>;
/**
* Describes the specified key pairs or all of your key pairs. For more information about key pairs, see Key Pairs in the Amazon Elastic Compute Cloud User Guide.
*/
describeKeyPairs(callback?: (err: AWSError, data: EC2.Types.DescribeKeyPairsResult) => void): Request<EC2.Types.DescribeKeyPairsResult, AWSError>;
/**
* Describes one or more versions of a specified launch template. You can describe all versions, individual versions, or a range of versions.
*/
describeLaunchTemplateVersions(params: EC2.Types.DescribeLaunchTemplateVersionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeLaunchTemplateVersionsResult) => void): Request<EC2.Types.DescribeLaunchTemplateVersionsResult, AWSError>;
/**
* Describes one or more versions of a specified launch template. You can describe all versions, individual versions, or a range of versions.
*/
describeLaunchTemplateVersions(callback?: (err: AWSError, data: EC2.Types.DescribeLaunchTemplateVersionsResult) => void): Request<EC2.Types.DescribeLaunchTemplateVersionsResult, AWSError>;
/**
* Describes one or more launch templates.
*/
describeLaunchTemplates(params: EC2.Types.DescribeLaunchTemplatesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeLaunchTemplatesResult) => void): Request<EC2.Types.DescribeLaunchTemplatesResult, AWSError>;
/**
* Describes one or more launch templates.
*/
describeLaunchTemplates(callback?: (err: AWSError, data: EC2.Types.DescribeLaunchTemplatesResult) => void): Request<EC2.Types.DescribeLaunchTemplatesResult, AWSError>;
/**
* Describes your Elastic IP addresses that are being moved to the EC2-VPC platform, or that are being restored to the EC2-Classic platform. This request does not return information about any other Elastic IP addresses in your account.
*/
describeMovingAddresses(params: EC2.Types.DescribeMovingAddressesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeMovingAddressesResult) => void): Request<EC2.Types.DescribeMovingAddressesResult, AWSError>;
/**
* Describes your Elastic IP addresses that are being moved to the EC2-VPC platform, or that are being restored to the EC2-Classic platform. This request does not return information about any other Elastic IP addresses in your account.
*/
describeMovingAddresses(callback?: (err: AWSError, data: EC2.Types.DescribeMovingAddressesResult) => void): Request<EC2.Types.DescribeMovingAddressesResult, AWSError>;
/**
* Describes one or more of your NAT gateways.
*/
describeNatGateways(params: EC2.Types.DescribeNatGatewaysRequest, callback?: (err: AWSError, data: EC2.Types.DescribeNatGatewaysResult) => void): Request<EC2.Types.DescribeNatGatewaysResult, AWSError>;
/**
* Describes one or more of your NAT gateways.
*/
describeNatGateways(callback?: (err: AWSError, data: EC2.Types.DescribeNatGatewaysResult) => void): Request<EC2.Types.DescribeNatGatewaysResult, AWSError>;
/**
* Describes one or more of your network ACLs. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
describeNetworkAcls(params: EC2.Types.DescribeNetworkAclsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeNetworkAclsResult) => void): Request<EC2.Types.DescribeNetworkAclsResult, AWSError>;
/**
* Describes one or more of your network ACLs. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
describeNetworkAcls(callback?: (err: AWSError, data: EC2.Types.DescribeNetworkAclsResult) => void): Request<EC2.Types.DescribeNetworkAclsResult, AWSError>;
/**
* Describes a network interface attribute. You can specify only one attribute at a time.
*/
describeNetworkInterfaceAttribute(params: EC2.Types.DescribeNetworkInterfaceAttributeRequest, callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfaceAttributeResult) => void): Request<EC2.Types.DescribeNetworkInterfaceAttributeResult, AWSError>;
/**
* Describes a network interface attribute. You can specify only one attribute at a time.
*/
describeNetworkInterfaceAttribute(callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfaceAttributeResult) => void): Request<EC2.Types.DescribeNetworkInterfaceAttributeResult, AWSError>;
/**
* Describes the permissions for your network interfaces.
*/
describeNetworkInterfacePermissions(params: EC2.Types.DescribeNetworkInterfacePermissionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfacePermissionsResult) => void): Request<EC2.Types.DescribeNetworkInterfacePermissionsResult, AWSError>;
/**
* Describes the permissions for your network interfaces.
*/
describeNetworkInterfacePermissions(callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfacePermissionsResult) => void): Request<EC2.Types.DescribeNetworkInterfacePermissionsResult, AWSError>;
/**
* Describes one or more of your network interfaces.
*/
describeNetworkInterfaces(params: EC2.Types.DescribeNetworkInterfacesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfacesResult) => void): Request<EC2.Types.DescribeNetworkInterfacesResult, AWSError>;
/**
* Describes one or more of your network interfaces.
*/
describeNetworkInterfaces(callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfacesResult) => void): Request<EC2.Types.DescribeNetworkInterfacesResult, AWSError>;
/**
* Describes the specified placement groups or all of your placement groups. For more information, see Placement Groups in the Amazon Elastic Compute Cloud User Guide.
*/
describePlacementGroups(params: EC2.Types.DescribePlacementGroupsRequest, callback?: (err: AWSError, data: EC2.Types.DescribePlacementGroupsResult) => void): Request<EC2.Types.DescribePlacementGroupsResult, AWSError>;
/**
* Describes the specified placement groups or all of your placement groups. For more information, see Placement Groups in the Amazon Elastic Compute Cloud User Guide.
*/
describePlacementGroups(callback?: (err: AWSError, data: EC2.Types.DescribePlacementGroupsResult) => void): Request<EC2.Types.DescribePlacementGroupsResult, AWSError>;
/**
* Describes available AWS services in a prefix list format, which includes the prefix list name and prefix list ID of the service and the IP address range for the service. A prefix list ID is required for creating an outbound security group rule that allows traffic from a VPC to access an AWS service through a gateway VPC endpoint. Currently, the services that support this action are Amazon S3 and Amazon DynamoDB.
*/
describePrefixLists(params: EC2.Types.DescribePrefixListsRequest, callback?: (err: AWSError, data: EC2.Types.DescribePrefixListsResult) => void): Request<EC2.Types.DescribePrefixListsResult, AWSError>;
/**
* Describes available AWS services in a prefix list format, which includes the prefix list name and prefix list ID of the service and the IP address range for the service. A prefix list ID is required for creating an outbound security group rule that allows traffic from a VPC to access an AWS service through a gateway VPC endpoint. Currently, the services that support this action are Amazon S3 and Amazon DynamoDB.
*/
describePrefixLists(callback?: (err: AWSError, data: EC2.Types.DescribePrefixListsResult) => void): Request<EC2.Types.DescribePrefixListsResult, AWSError>;
/**
* Describes the ID format settings for the root user and all IAM roles and IAM users that have explicitly specified a longer ID (17-character ID) preference. By default, all IAM roles and IAM users default to the same ID settings as the root user, unless they explicitly override the settings. This request is useful for identifying those IAM users and IAM roles that have overridden the default ID settings. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway.
*/
describePrincipalIdFormat(params: EC2.Types.DescribePrincipalIdFormatRequest, callback?: (err: AWSError, data: EC2.Types.DescribePrincipalIdFormatResult) => void): Request<EC2.Types.DescribePrincipalIdFormatResult, AWSError>;
/**
* Describes the ID format settings for the root user and all IAM roles and IAM users that have explicitly specified a longer ID (17-character ID) preference. By default, all IAM roles and IAM users default to the same ID settings as the root user, unless they explicitly override the settings. This request is useful for identifying those IAM users and IAM roles that have overridden the default ID settings. The following resource types support longer IDs: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway.
*/
describePrincipalIdFormat(callback?: (err: AWSError, data: EC2.Types.DescribePrincipalIdFormatResult) => void): Request<EC2.Types.DescribePrincipalIdFormatResult, AWSError>;
/**
* Describes the specified IPv4 address pools.
*/
describePublicIpv4Pools(params: EC2.Types.DescribePublicIpv4PoolsRequest, callback?: (err: AWSError, data: EC2.Types.DescribePublicIpv4PoolsResult) => void): Request<EC2.Types.DescribePublicIpv4PoolsResult, AWSError>;
/**
* Describes the specified IPv4 address pools.
*/
describePublicIpv4Pools(callback?: (err: AWSError, data: EC2.Types.DescribePublicIpv4PoolsResult) => void): Request<EC2.Types.DescribePublicIpv4PoolsResult, AWSError>;
/**
* Describes the Regions that are enabled for your account, or all Regions. For a list of the Regions supported by Amazon EC2, see Regions and Endpoints. For information about enabling and disabling Regions for your account, see Managing AWS Regions in the AWS General Reference.
*/
describeRegions(params: EC2.Types.DescribeRegionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeRegionsResult) => void): Request<EC2.Types.DescribeRegionsResult, AWSError>;
/**
* Describes the Regions that are enabled for your account, or all Regions. For a list of the Regions supported by Amazon EC2, see Regions and Endpoints. For information about enabling and disabling Regions for your account, see Managing AWS Regions in the AWS General Reference.
*/
describeRegions(callback?: (err: AWSError, data: EC2.Types.DescribeRegionsResult) => void): Request<EC2.Types.DescribeRegionsResult, AWSError>;
/**
* Describes one or more of the Reserved Instances that you purchased. For more information about Reserved Instances, see Reserved Instances in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstances(params: EC2.Types.DescribeReservedInstancesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesResult) => void): Request<EC2.Types.DescribeReservedInstancesResult, AWSError>;
/**
* Describes one or more of the Reserved Instances that you purchased. For more information about Reserved Instances, see Reserved Instances in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstances(callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesResult) => void): Request<EC2.Types.DescribeReservedInstancesResult, AWSError>;
/**
* Describes your account's Reserved Instance listings in the Reserved Instance Marketplace. The Reserved Instance Marketplace matches sellers who want to resell Reserved Instance capacity that they no longer need with buyers who want to purchase additional capacity. Reserved Instances bought and sold through the Reserved Instance Marketplace work like any other Reserved Instances. As a seller, you choose to list some or all of your Reserved Instances, and you specify the upfront price to receive for them. Your Reserved Instances are then listed in the Reserved Instance Marketplace and are available for purchase. As a buyer, you specify the configuration of the Reserved Instance to purchase, and the Marketplace matches what you're searching for with what's available. The Marketplace first sells the lowest priced Reserved Instances to you, and continues to sell available Reserved Instance listings to you until your demand is met. You are charged based on the total price of all of the listings that you purchase. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstancesListings(params: EC2.Types.DescribeReservedInstancesListingsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesListingsResult) => void): Request<EC2.Types.DescribeReservedInstancesListingsResult, AWSError>;
/**
* Describes your account's Reserved Instance listings in the Reserved Instance Marketplace. The Reserved Instance Marketplace matches sellers who want to resell Reserved Instance capacity that they no longer need with buyers who want to purchase additional capacity. Reserved Instances bought and sold through the Reserved Instance Marketplace work like any other Reserved Instances. As a seller, you choose to list some or all of your Reserved Instances, and you specify the upfront price to receive for them. Your Reserved Instances are then listed in the Reserved Instance Marketplace and are available for purchase. As a buyer, you specify the configuration of the Reserved Instance to purchase, and the Marketplace matches what you're searching for with what's available. The Marketplace first sells the lowest priced Reserved Instances to you, and continues to sell available Reserved Instance listings to you until your demand is met. You are charged based on the total price of all of the listings that you purchase. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstancesListings(callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesListingsResult) => void): Request<EC2.Types.DescribeReservedInstancesListingsResult, AWSError>;
/**
* Describes the modifications made to your Reserved Instances. If no parameter is specified, information about all your Reserved Instances modification requests is returned. If a modification ID is specified, only information about the specific modification is returned. For more information, see Modifying Reserved Instances in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstancesModifications(params: EC2.Types.DescribeReservedInstancesModificationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesModificationsResult) => void): Request<EC2.Types.DescribeReservedInstancesModificationsResult, AWSError>;
/**
* Describes the modifications made to your Reserved Instances. If no parameter is specified, information about all your Reserved Instances modification requests is returned. If a modification ID is specified, only information about the specific modification is returned. For more information, see Modifying Reserved Instances in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstancesModifications(callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesModificationsResult) => void): Request<EC2.Types.DescribeReservedInstancesModificationsResult, AWSError>;
/**
* Describes Reserved Instance offerings that are available for purchase. With Reserved Instances, you purchase the right to launch instances for a period of time. During that time period, you do not receive insufficient capacity errors, and you pay a lower usage rate than the rate charged for On-Demand instances for the actual time used. If you have listed your own Reserved Instances for sale in the Reserved Instance Marketplace, they will be excluded from these results. This is to ensure that you do not purchase your own Reserved Instances. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstancesOfferings(params: EC2.Types.DescribeReservedInstancesOfferingsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesOfferingsResult) => void): Request<EC2.Types.DescribeReservedInstancesOfferingsResult, AWSError>;
/**
* Describes Reserved Instance offerings that are available for purchase. With Reserved Instances, you purchase the right to launch instances for a period of time. During that time period, you do not receive insufficient capacity errors, and you pay a lower usage rate than the rate charged for On-Demand instances for the actual time used. If you have listed your own Reserved Instances for sale in the Reserved Instance Marketplace, they will be excluded from these results. This is to ensure that you do not purchase your own Reserved Instances. For more information, see Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
describeReservedInstancesOfferings(callback?: (err: AWSError, data: EC2.Types.DescribeReservedInstancesOfferingsResult) => void): Request<EC2.Types.DescribeReservedInstancesOfferingsResult, AWSError>;
/**
* Describes one or more of your route tables. Each subnet in your VPC must be associated with a route table. If a subnet is not explicitly associated with any route table, it is implicitly associated with the main route table. This command does not return the subnet ID for implicit associations. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
describeRouteTables(params: EC2.Types.DescribeRouteTablesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeRouteTablesResult) => void): Request<EC2.Types.DescribeRouteTablesResult, AWSError>;
/**
* Describes one or more of your route tables. Each subnet in your VPC must be associated with a route table. If a subnet is not explicitly associated with any route table, it is implicitly associated with the main route table. This command does not return the subnet ID for implicit associations. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
describeRouteTables(callback?: (err: AWSError, data: EC2.Types.DescribeRouteTablesResult) => void): Request<EC2.Types.DescribeRouteTablesResult, AWSError>;
/**
* Finds available schedules that meet the specified criteria. You can search for an available schedule no more than 3 months in advance. You must meet the minimum required duration of 1,200 hours per year. For example, the minimum daily schedule is 4 hours, the minimum weekly schedule is 24 hours, and the minimum monthly schedule is 100 hours. After you find a schedule that meets your needs, call PurchaseScheduledInstances to purchase Scheduled Instances with that schedule.
*/
describeScheduledInstanceAvailability(params: EC2.Types.DescribeScheduledInstanceAvailabilityRequest, callback?: (err: AWSError, data: EC2.Types.DescribeScheduledInstanceAvailabilityResult) => void): Request<EC2.Types.DescribeScheduledInstanceAvailabilityResult, AWSError>;
/**
* Finds available schedules that meet the specified criteria. You can search for an available schedule no more than 3 months in advance. You must meet the minimum required duration of 1,200 hours per year. For example, the minimum daily schedule is 4 hours, the minimum weekly schedule is 24 hours, and the minimum monthly schedule is 100 hours. After you find a schedule that meets your needs, call PurchaseScheduledInstances to purchase Scheduled Instances with that schedule.
*/
describeScheduledInstanceAvailability(callback?: (err: AWSError, data: EC2.Types.DescribeScheduledInstanceAvailabilityResult) => void): Request<EC2.Types.DescribeScheduledInstanceAvailabilityResult, AWSError>;
/**
* Describes the specified Scheduled Instances or all your Scheduled Instances.
*/
describeScheduledInstances(params: EC2.Types.DescribeScheduledInstancesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeScheduledInstancesResult) => void): Request<EC2.Types.DescribeScheduledInstancesResult, AWSError>;
/**
* Describes the specified Scheduled Instances or all your Scheduled Instances.
*/
describeScheduledInstances(callback?: (err: AWSError, data: EC2.Types.DescribeScheduledInstancesResult) => void): Request<EC2.Types.DescribeScheduledInstancesResult, AWSError>;
/**
* [VPC only] Describes the VPCs on the other side of a VPC peering connection that are referencing the security groups you've specified in this request.
*/
describeSecurityGroupReferences(params: EC2.Types.DescribeSecurityGroupReferencesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSecurityGroupReferencesResult) => void): Request<EC2.Types.DescribeSecurityGroupReferencesResult, AWSError>;
/**
* [VPC only] Describes the VPCs on the other side of a VPC peering connection that are referencing the security groups you've specified in this request.
*/
describeSecurityGroupReferences(callback?: (err: AWSError, data: EC2.Types.DescribeSecurityGroupReferencesResult) => void): Request<EC2.Types.DescribeSecurityGroupReferencesResult, AWSError>;
/**
* Describes the specified security groups or all of your security groups. A security group is for use with instances either in the EC2-Classic platform or in a specific VPC. For more information, see Amazon EC2 Security Groups in the Amazon Elastic Compute Cloud User Guide and Security Groups for Your VPC in the Amazon Virtual Private Cloud User Guide.
*/
describeSecurityGroups(params: EC2.Types.DescribeSecurityGroupsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSecurityGroupsResult) => void): Request<EC2.Types.DescribeSecurityGroupsResult, AWSError>;
/**
* Describes the specified security groups or all of your security groups. A security group is for use with instances either in the EC2-Classic platform or in a specific VPC. For more information, see Amazon EC2 Security Groups in the Amazon Elastic Compute Cloud User Guide and Security Groups for Your VPC in the Amazon Virtual Private Cloud User Guide.
*/
describeSecurityGroups(callback?: (err: AWSError, data: EC2.Types.DescribeSecurityGroupsResult) => void): Request<EC2.Types.DescribeSecurityGroupsResult, AWSError>;
/**
* Describes the specified attribute of the specified snapshot. You can specify only one attribute at a time. For more information about EBS snapshots, see Amazon EBS Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
describeSnapshotAttribute(params: EC2.Types.DescribeSnapshotAttributeRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSnapshotAttributeResult) => void): Request<EC2.Types.DescribeSnapshotAttributeResult, AWSError>;
/**
* Describes the specified attribute of the specified snapshot. You can specify only one attribute at a time. For more information about EBS snapshots, see Amazon EBS Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
describeSnapshotAttribute(callback?: (err: AWSError, data: EC2.Types.DescribeSnapshotAttributeResult) => void): Request<EC2.Types.DescribeSnapshotAttributeResult, AWSError>;
/**
* Describes the specified EBS snapshots available to you or all of the EBS snapshots available to you. The snapshots available to you include public snapshots, private snapshots that you own, and private snapshots owned by other AWS accounts for which you have explicit create volume permissions. The create volume permissions fall into the following categories: public: The owner of the snapshot granted create volume permissions for the snapshot to the all group. All AWS accounts have create volume permissions for these snapshots. explicit: The owner of the snapshot granted create volume permissions to a specific AWS account. implicit: An AWS account has implicit create volume permissions for all snapshots it owns. The list of snapshots returned can be modified by specifying snapshot IDs, snapshot owners, or AWS accounts with create volume permissions. If no options are specified, Amazon EC2 returns all snapshots for which you have create volume permissions. If you specify one or more snapshot IDs, only snapshots that have the specified IDs are returned. If you specify an invalid snapshot ID, an error is returned. If you specify a snapshot ID for which you do not have access, it is not included in the returned results. If you specify one or more snapshot owners using the OwnerIds option, only snapshots from the specified owners and for which you have access are returned. The results can include the AWS account IDs of the specified owners, amazon for snapshots owned by Amazon, or self for snapshots that you own. If you specify a list of restorable users, only snapshots with create snapshot permissions for those users are returned. You can specify AWS account IDs (if you own the snapshots), self for snapshots for which you own or have explicit permissions, or all for public snapshots. If you are describing a long list of snapshots, you can paginate the output to make the list more manageable. The MaxResults parameter sets the maximum number of results returned in a single page. If the list of results exceeds your MaxResults value, then that number of results is returned along with a NextToken value that can be passed to a subsequent DescribeSnapshots request to retrieve the remaining results. For more information about EBS snapshots, see Amazon EBS Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
describeSnapshots(params: EC2.Types.DescribeSnapshotsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSnapshotsResult) => void): Request<EC2.Types.DescribeSnapshotsResult, AWSError>;
/**
* Describes the specified EBS snapshots available to you or all of the EBS snapshots available to you. The snapshots available to you include public snapshots, private snapshots that you own, and private snapshots owned by other AWS accounts for which you have explicit create volume permissions. The create volume permissions fall into the following categories: public: The owner of the snapshot granted create volume permissions for the snapshot to the all group. All AWS accounts have create volume permissions for these snapshots. explicit: The owner of the snapshot granted create volume permissions to a specific AWS account. implicit: An AWS account has implicit create volume permissions for all snapshots it owns. The list of snapshots returned can be modified by specifying snapshot IDs, snapshot owners, or AWS accounts with create volume permissions. If no options are specified, Amazon EC2 returns all snapshots for which you have create volume permissions. If you specify one or more snapshot IDs, only snapshots that have the specified IDs are returned. If you specify an invalid snapshot ID, an error is returned. If you specify a snapshot ID for which you do not have access, it is not included in the returned results. If you specify one or more snapshot owners using the OwnerIds option, only snapshots from the specified owners and for which you have access are returned. The results can include the AWS account IDs of the specified owners, amazon for snapshots owned by Amazon, or self for snapshots that you own. If you specify a list of restorable users, only snapshots with create snapshot permissions for those users are returned. You can specify AWS account IDs (if you own the snapshots), self for snapshots for which you own or have explicit permissions, or all for public snapshots. If you are describing a long list of snapshots, you can paginate the output to make the list more manageable. The MaxResults parameter sets the maximum number of results returned in a single page. If the list of results exceeds your MaxResults value, then that number of results is returned along with a NextToken value that can be passed to a subsequent DescribeSnapshots request to retrieve the remaining results. For more information about EBS snapshots, see Amazon EBS Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
describeSnapshots(callback?: (err: AWSError, data: EC2.Types.DescribeSnapshotsResult) => void): Request<EC2.Types.DescribeSnapshotsResult, AWSError>;
/**
* Describes the data feed for Spot Instances. For more information, see Spot Instance Data Feed in the Amazon EC2 User Guide for Linux Instances.
*/
describeSpotDatafeedSubscription(params: EC2.Types.DescribeSpotDatafeedSubscriptionRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSpotDatafeedSubscriptionResult) => void): Request<EC2.Types.DescribeSpotDatafeedSubscriptionResult, AWSError>;
/**
* Describes the data feed for Spot Instances. For more information, see Spot Instance Data Feed in the Amazon EC2 User Guide for Linux Instances.
*/
describeSpotDatafeedSubscription(callback?: (err: AWSError, data: EC2.Types.DescribeSpotDatafeedSubscriptionResult) => void): Request<EC2.Types.DescribeSpotDatafeedSubscriptionResult, AWSError>;
/**
* Describes the running instances for the specified Spot Fleet.
*/
describeSpotFleetInstances(params: EC2.Types.DescribeSpotFleetInstancesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSpotFleetInstancesResponse) => void): Request<EC2.Types.DescribeSpotFleetInstancesResponse, AWSError>;
/**
* Describes the running instances for the specified Spot Fleet.
*/
describeSpotFleetInstances(callback?: (err: AWSError, data: EC2.Types.DescribeSpotFleetInstancesResponse) => void): Request<EC2.Types.DescribeSpotFleetInstancesResponse, AWSError>;
/**
* Describes the events for the specified Spot Fleet request during the specified time. Spot Fleet events are delayed by up to 30 seconds before they can be described. This ensures that you can query by the last evaluated time and not miss a recorded event. Spot Fleet events are available for 48 hours.
*/
describeSpotFleetRequestHistory(params: EC2.Types.DescribeSpotFleetRequestHistoryRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSpotFleetRequestHistoryResponse) => void): Request<EC2.Types.DescribeSpotFleetRequestHistoryResponse, AWSError>;
/**
* Describes the events for the specified Spot Fleet request during the specified time. Spot Fleet events are delayed by up to 30 seconds before they can be described. This ensures that you can query by the last evaluated time and not miss a recorded event. Spot Fleet events are available for 48 hours.
*/
describeSpotFleetRequestHistory(callback?: (err: AWSError, data: EC2.Types.DescribeSpotFleetRequestHistoryResponse) => void): Request<EC2.Types.DescribeSpotFleetRequestHistoryResponse, AWSError>;
/**
* Describes your Spot Fleet requests. Spot Fleet requests are deleted 48 hours after they are canceled and their instances are terminated.
*/
describeSpotFleetRequests(params: EC2.Types.DescribeSpotFleetRequestsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSpotFleetRequestsResponse) => void): Request<EC2.Types.DescribeSpotFleetRequestsResponse, AWSError>;
/**
* Describes your Spot Fleet requests. Spot Fleet requests are deleted 48 hours after they are canceled and their instances are terminated.
*/
describeSpotFleetRequests(callback?: (err: AWSError, data: EC2.Types.DescribeSpotFleetRequestsResponse) => void): Request<EC2.Types.DescribeSpotFleetRequestsResponse, AWSError>;
/**
* Describes the specified Spot Instance requests. You can use DescribeSpotInstanceRequests to find a running Spot Instance by examining the response. If the status of the Spot Instance is fulfilled, the instance ID appears in the response and contains the identifier of the instance. Alternatively, you can use DescribeInstances with a filter to look for instances where the instance lifecycle is spot. We recommend that you set MaxResults to a value between 5 and 1000 to limit the number of results returned. This paginates the output, which makes the list more manageable and returns the results faster. If the list of results exceeds your MaxResults value, then that number of results is returned along with a NextToken value that can be passed to a subsequent DescribeSpotInstanceRequests request to retrieve the remaining results. Spot Instance requests are deleted four hours after they are canceled and their instances are terminated.
*/
describeSpotInstanceRequests(params: EC2.Types.DescribeSpotInstanceRequestsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSpotInstanceRequestsResult) => void): Request<EC2.Types.DescribeSpotInstanceRequestsResult, AWSError>;
/**
* Describes the specified Spot Instance requests. You can use DescribeSpotInstanceRequests to find a running Spot Instance by examining the response. If the status of the Spot Instance is fulfilled, the instance ID appears in the response and contains the identifier of the instance. Alternatively, you can use DescribeInstances with a filter to look for instances where the instance lifecycle is spot. We recommend that you set MaxResults to a value between 5 and 1000 to limit the number of results returned. This paginates the output, which makes the list more manageable and returns the results faster. If the list of results exceeds your MaxResults value, then that number of results is returned along with a NextToken value that can be passed to a subsequent DescribeSpotInstanceRequests request to retrieve the remaining results. Spot Instance requests are deleted four hours after they are canceled and their instances are terminated.
*/
describeSpotInstanceRequests(callback?: (err: AWSError, data: EC2.Types.DescribeSpotInstanceRequestsResult) => void): Request<EC2.Types.DescribeSpotInstanceRequestsResult, AWSError>;
/**
* Describes the Spot price history. For more information, see Spot Instance Pricing History in the Amazon EC2 User Guide for Linux Instances. When you specify a start and end time, this operation returns the prices of the instance types within the time range that you specified and the time when the price changed. The price is valid within the time period that you specified; the response merely indicates the last time that the price changed.
*/
describeSpotPriceHistory(params: EC2.Types.DescribeSpotPriceHistoryRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSpotPriceHistoryResult) => void): Request<EC2.Types.DescribeSpotPriceHistoryResult, AWSError>;
/**
* Describes the Spot price history. For more information, see Spot Instance Pricing History in the Amazon EC2 User Guide for Linux Instances. When you specify a start and end time, this operation returns the prices of the instance types within the time range that you specified and the time when the price changed. The price is valid within the time period that you specified; the response merely indicates the last time that the price changed.
*/
describeSpotPriceHistory(callback?: (err: AWSError, data: EC2.Types.DescribeSpotPriceHistoryResult) => void): Request<EC2.Types.DescribeSpotPriceHistoryResult, AWSError>;
/**
* [VPC only] Describes the stale security group rules for security groups in a specified VPC. Rules are stale when they reference a deleted security group in a peer VPC, or a security group in a peer VPC for which the VPC peering connection has been deleted.
*/
describeStaleSecurityGroups(params: EC2.Types.DescribeStaleSecurityGroupsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeStaleSecurityGroupsResult) => void): Request<EC2.Types.DescribeStaleSecurityGroupsResult, AWSError>;
/**
* [VPC only] Describes the stale security group rules for security groups in a specified VPC. Rules are stale when they reference a deleted security group in a peer VPC, or a security group in a peer VPC for which the VPC peering connection has been deleted.
*/
describeStaleSecurityGroups(callback?: (err: AWSError, data: EC2.Types.DescribeStaleSecurityGroupsResult) => void): Request<EC2.Types.DescribeStaleSecurityGroupsResult, AWSError>;
/**
* Describes one or more of your subnets. For more information, see Your VPC and Subnets in the Amazon Virtual Private Cloud User Guide.
*/
describeSubnets(params: EC2.Types.DescribeSubnetsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeSubnetsResult) => void): Request<EC2.Types.DescribeSubnetsResult, AWSError>;
/**
* Describes one or more of your subnets. For more information, see Your VPC and Subnets in the Amazon Virtual Private Cloud User Guide.
*/
describeSubnets(callback?: (err: AWSError, data: EC2.Types.DescribeSubnetsResult) => void): Request<EC2.Types.DescribeSubnetsResult, AWSError>;
/**
* Describes the specified tags for your EC2 resources. For more information about tags, see Tagging Your Resources in the Amazon Elastic Compute Cloud User Guide.
*/
describeTags(params: EC2.Types.DescribeTagsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTagsResult) => void): Request<EC2.Types.DescribeTagsResult, AWSError>;
/**
* Describes the specified tags for your EC2 resources. For more information about tags, see Tagging Your Resources in the Amazon Elastic Compute Cloud User Guide.
*/
describeTags(callback?: (err: AWSError, data: EC2.Types.DescribeTagsResult) => void): Request<EC2.Types.DescribeTagsResult, AWSError>;
/**
* Describes one or more Traffic Mirror filters.
*/
describeTrafficMirrorFilters(params: EC2.Types.DescribeTrafficMirrorFiltersRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTrafficMirrorFiltersResult) => void): Request<EC2.Types.DescribeTrafficMirrorFiltersResult, AWSError>;
/**
* Describes one or more Traffic Mirror filters.
*/
describeTrafficMirrorFilters(callback?: (err: AWSError, data: EC2.Types.DescribeTrafficMirrorFiltersResult) => void): Request<EC2.Types.DescribeTrafficMirrorFiltersResult, AWSError>;
/**
* Describes one or more Traffic Mirror sessions. By default, all Traffic Mirror sessions are described. Alternatively, you can filter the results.
*/
describeTrafficMirrorSessions(params: EC2.Types.DescribeTrafficMirrorSessionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTrafficMirrorSessionsResult) => void): Request<EC2.Types.DescribeTrafficMirrorSessionsResult, AWSError>;
/**
* Describes one or more Traffic Mirror sessions. By default, all Traffic Mirror sessions are described. Alternatively, you can filter the results.
*/
describeTrafficMirrorSessions(callback?: (err: AWSError, data: EC2.Types.DescribeTrafficMirrorSessionsResult) => void): Request<EC2.Types.DescribeTrafficMirrorSessionsResult, AWSError>;
/**
* Information about one or more Traffic Mirror targets.
*/
describeTrafficMirrorTargets(params: EC2.Types.DescribeTrafficMirrorTargetsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTrafficMirrorTargetsResult) => void): Request<EC2.Types.DescribeTrafficMirrorTargetsResult, AWSError>;
/**
* Information about one or more Traffic Mirror targets.
*/
describeTrafficMirrorTargets(callback?: (err: AWSError, data: EC2.Types.DescribeTrafficMirrorTargetsResult) => void): Request<EC2.Types.DescribeTrafficMirrorTargetsResult, AWSError>;
/**
* Describes one or more attachments between resources and transit gateways. By default, all attachments are described. Alternatively, you can filter the results by attachment ID, attachment state, resource ID, or resource owner.
*/
describeTransitGatewayAttachments(params: EC2.Types.DescribeTransitGatewayAttachmentsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewayAttachmentsResult) => void): Request<EC2.Types.DescribeTransitGatewayAttachmentsResult, AWSError>;
/**
* Describes one or more attachments between resources and transit gateways. By default, all attachments are described. Alternatively, you can filter the results by attachment ID, attachment state, resource ID, or resource owner.
*/
describeTransitGatewayAttachments(callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewayAttachmentsResult) => void): Request<EC2.Types.DescribeTransitGatewayAttachmentsResult, AWSError>;
/**
* Describes one or more transit gateway route tables. By default, all transit gateway route tables are described. Alternatively, you can filter the results.
*/
describeTransitGatewayRouteTables(params: EC2.Types.DescribeTransitGatewayRouteTablesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewayRouteTablesResult) => void): Request<EC2.Types.DescribeTransitGatewayRouteTablesResult, AWSError>;
/**
* Describes one or more transit gateway route tables. By default, all transit gateway route tables are described. Alternatively, you can filter the results.
*/
describeTransitGatewayRouteTables(callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewayRouteTablesResult) => void): Request<EC2.Types.DescribeTransitGatewayRouteTablesResult, AWSError>;
/**
* Describes one or more VPC attachments. By default, all VPC attachments are described. Alternatively, you can filter the results.
*/
describeTransitGatewayVpcAttachments(params: EC2.Types.DescribeTransitGatewayVpcAttachmentsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewayVpcAttachmentsResult) => void): Request<EC2.Types.DescribeTransitGatewayVpcAttachmentsResult, AWSError>;
/**
* Describes one or more VPC attachments. By default, all VPC attachments are described. Alternatively, you can filter the results.
*/
describeTransitGatewayVpcAttachments(callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewayVpcAttachmentsResult) => void): Request<EC2.Types.DescribeTransitGatewayVpcAttachmentsResult, AWSError>;
/**
* Describes one or more transit gateways. By default, all transit gateways are described. Alternatively, you can filter the results.
*/
describeTransitGateways(params: EC2.Types.DescribeTransitGatewaysRequest, callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewaysResult) => void): Request<EC2.Types.DescribeTransitGatewaysResult, AWSError>;
/**
* Describes one or more transit gateways. By default, all transit gateways are described. Alternatively, you can filter the results.
*/
describeTransitGateways(callback?: (err: AWSError, data: EC2.Types.DescribeTransitGatewaysResult) => void): Request<EC2.Types.DescribeTransitGatewaysResult, AWSError>;
/**
* Describes the specified attribute of the specified volume. You can specify only one attribute at a time. For more information about EBS volumes, see Amazon EBS Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
describeVolumeAttribute(params: EC2.Types.DescribeVolumeAttributeRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVolumeAttributeResult) => void): Request<EC2.Types.DescribeVolumeAttributeResult, AWSError>;
/**
* Describes the specified attribute of the specified volume. You can specify only one attribute at a time. For more information about EBS volumes, see Amazon EBS Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
describeVolumeAttribute(callback?: (err: AWSError, data: EC2.Types.DescribeVolumeAttributeResult) => void): Request<EC2.Types.DescribeVolumeAttributeResult, AWSError>;
/**
* Describes the status of the specified volumes. Volume status provides the result of the checks performed on your volumes to determine events that can impair the performance of your volumes. The performance of a volume can be affected if an issue occurs on the volume's underlying host. If the volume's underlying host experiences a power outage or system issue, after the system is restored, there could be data inconsistencies on the volume. Volume events notify you if this occurs. Volume actions notify you if any action needs to be taken in response to the event. The DescribeVolumeStatus operation provides the following information about the specified volumes: Status: Reflects the current status of the volume. The possible values are ok, impaired , warning, or insufficient-data. If all checks pass, the overall status of the volume is ok. If the check fails, the overall status is impaired. If the status is insufficient-data, then the checks may still be taking place on your volume at the time. We recommend that you retry the request. For more information about volume status, see Monitoring the Status of Your Volumes in the Amazon Elastic Compute Cloud User Guide. Events: Reflect the cause of a volume status and may require you to take action. For example, if your volume returns an impaired status, then the volume event might be potential-data-inconsistency. This means that your volume has been affected by an issue with the underlying host, has all I/O operations disabled, and may have inconsistent data. Actions: Reflect the actions you may have to take in response to an event. For example, if the status of the volume is impaired and the volume event shows potential-data-inconsistency, then the action shows enable-volume-io. This means that you may want to enable the I/O operations for the volume by calling the EnableVolumeIO action and then check the volume for data consistency. Volume status is based on the volume status checks, and does not reflect the volume state. Therefore, volume status does not indicate volumes in the error state (for example, when a volume is incapable of accepting I/O.)
*/
describeVolumeStatus(params: EC2.Types.DescribeVolumeStatusRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVolumeStatusResult) => void): Request<EC2.Types.DescribeVolumeStatusResult, AWSError>;
/**
* Describes the status of the specified volumes. Volume status provides the result of the checks performed on your volumes to determine events that can impair the performance of your volumes. The performance of a volume can be affected if an issue occurs on the volume's underlying host. If the volume's underlying host experiences a power outage or system issue, after the system is restored, there could be data inconsistencies on the volume. Volume events notify you if this occurs. Volume actions notify you if any action needs to be taken in response to the event. The DescribeVolumeStatus operation provides the following information about the specified volumes: Status: Reflects the current status of the volume. The possible values are ok, impaired , warning, or insufficient-data. If all checks pass, the overall status of the volume is ok. If the check fails, the overall status is impaired. If the status is insufficient-data, then the checks may still be taking place on your volume at the time. We recommend that you retry the request. For more information about volume status, see Monitoring the Status of Your Volumes in the Amazon Elastic Compute Cloud User Guide. Events: Reflect the cause of a volume status and may require you to take action. For example, if your volume returns an impaired status, then the volume event might be potential-data-inconsistency. This means that your volume has been affected by an issue with the underlying host, has all I/O operations disabled, and may have inconsistent data. Actions: Reflect the actions you may have to take in response to an event. For example, if the status of the volume is impaired and the volume event shows potential-data-inconsistency, then the action shows enable-volume-io. This means that you may want to enable the I/O operations for the volume by calling the EnableVolumeIO action and then check the volume for data consistency. Volume status is based on the volume status checks, and does not reflect the volume state. Therefore, volume status does not indicate volumes in the error state (for example, when a volume is incapable of accepting I/O.)
*/
describeVolumeStatus(callback?: (err: AWSError, data: EC2.Types.DescribeVolumeStatusResult) => void): Request<EC2.Types.DescribeVolumeStatusResult, AWSError>;
/**
* Describes the specified EBS volumes or all of your EBS volumes. If you are describing a long list of volumes, you can paginate the output to make the list more manageable. The MaxResults parameter sets the maximum number of results returned in a single page. If the list of results exceeds your MaxResults value, then that number of results is returned along with a NextToken value that can be passed to a subsequent DescribeVolumes request to retrieve the remaining results. For more information about EBS volumes, see Amazon EBS Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
describeVolumes(params: EC2.Types.DescribeVolumesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Describes the specified EBS volumes or all of your EBS volumes. If you are describing a long list of volumes, you can paginate the output to make the list more manageable. The MaxResults parameter sets the maximum number of results returned in a single page. If the list of results exceeds your MaxResults value, then that number of results is returned along with a NextToken value that can be passed to a subsequent DescribeVolumes request to retrieve the remaining results. For more information about EBS volumes, see Amazon EBS Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
describeVolumes(callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Reports the current modification status of EBS volumes. Current-generation EBS volumes support modification of attributes including type, size, and (for io1 volumes) IOPS provisioning while either attached to or detached from an instance. Following an action from the API or the console to modify a volume, the status of the modification may be modifying, optimizing, completed, or failed. If a volume has never been modified, then certain elements of the returned VolumeModification objects are null. You can also use CloudWatch Events to check the status of a modification to an EBS volume. For information about CloudWatch Events, see the Amazon CloudWatch Events User Guide. For more information, see Monitoring Volume Modifications" in the Amazon Elastic Compute Cloud User Guide.
*/
describeVolumesModifications(params: EC2.Types.DescribeVolumesModificationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVolumesModificationsResult) => void): Request<EC2.Types.DescribeVolumesModificationsResult, AWSError>;
/**
* Reports the current modification status of EBS volumes. Current-generation EBS volumes support modification of attributes including type, size, and (for io1 volumes) IOPS provisioning while either attached to or detached from an instance. Following an action from the API or the console to modify a volume, the status of the modification may be modifying, optimizing, completed, or failed. If a volume has never been modified, then certain elements of the returned VolumeModification objects are null. You can also use CloudWatch Events to check the status of a modification to an EBS volume. For information about CloudWatch Events, see the Amazon CloudWatch Events User Guide. For more information, see Monitoring Volume Modifications" in the Amazon Elastic Compute Cloud User Guide.
*/
describeVolumesModifications(callback?: (err: AWSError, data: EC2.Types.DescribeVolumesModificationsResult) => void): Request<EC2.Types.DescribeVolumesModificationsResult, AWSError>;
/**
* Describes the specified attribute of the specified VPC. You can specify only one attribute at a time.
*/
describeVpcAttribute(params: EC2.Types.DescribeVpcAttributeRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcAttributeResult) => void): Request<EC2.Types.DescribeVpcAttributeResult, AWSError>;
/**
* Describes the specified attribute of the specified VPC. You can specify only one attribute at a time.
*/
describeVpcAttribute(callback?: (err: AWSError, data: EC2.Types.DescribeVpcAttributeResult) => void): Request<EC2.Types.DescribeVpcAttributeResult, AWSError>;
/**
* Describes the ClassicLink status of one or more VPCs.
*/
describeVpcClassicLink(params: EC2.Types.DescribeVpcClassicLinkRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcClassicLinkResult) => void): Request<EC2.Types.DescribeVpcClassicLinkResult, AWSError>;
/**
* Describes the ClassicLink status of one or more VPCs.
*/
describeVpcClassicLink(callback?: (err: AWSError, data: EC2.Types.DescribeVpcClassicLinkResult) => void): Request<EC2.Types.DescribeVpcClassicLinkResult, AWSError>;
/**
* Describes the ClassicLink DNS support status of one or more VPCs. If enabled, the DNS hostname of a linked EC2-Classic instance resolves to its private IP address when addressed from an instance in the VPC to which it's linked. Similarly, the DNS hostname of an instance in a VPC resolves to its private IP address when addressed from a linked EC2-Classic instance. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
describeVpcClassicLinkDnsSupport(params: EC2.Types.DescribeVpcClassicLinkDnsSupportRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcClassicLinkDnsSupportResult) => void): Request<EC2.Types.DescribeVpcClassicLinkDnsSupportResult, AWSError>;
/**
* Describes the ClassicLink DNS support status of one or more VPCs. If enabled, the DNS hostname of a linked EC2-Classic instance resolves to its private IP address when addressed from an instance in the VPC to which it's linked. Similarly, the DNS hostname of an instance in a VPC resolves to its private IP address when addressed from a linked EC2-Classic instance. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
describeVpcClassicLinkDnsSupport(callback?: (err: AWSError, data: EC2.Types.DescribeVpcClassicLinkDnsSupportResult) => void): Request<EC2.Types.DescribeVpcClassicLinkDnsSupportResult, AWSError>;
/**
* Describes the connection notifications for VPC endpoints and VPC endpoint services.
*/
describeVpcEndpointConnectionNotifications(params: EC2.Types.DescribeVpcEndpointConnectionNotificationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointConnectionNotificationsResult) => void): Request<EC2.Types.DescribeVpcEndpointConnectionNotificationsResult, AWSError>;
/**
* Describes the connection notifications for VPC endpoints and VPC endpoint services.
*/
describeVpcEndpointConnectionNotifications(callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointConnectionNotificationsResult) => void): Request<EC2.Types.DescribeVpcEndpointConnectionNotificationsResult, AWSError>;
/**
* Describes the VPC endpoint connections to your VPC endpoint services, including any endpoints that are pending your acceptance.
*/
describeVpcEndpointConnections(params: EC2.Types.DescribeVpcEndpointConnectionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointConnectionsResult) => void): Request<EC2.Types.DescribeVpcEndpointConnectionsResult, AWSError>;
/**
* Describes the VPC endpoint connections to your VPC endpoint services, including any endpoints that are pending your acceptance.
*/
describeVpcEndpointConnections(callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointConnectionsResult) => void): Request<EC2.Types.DescribeVpcEndpointConnectionsResult, AWSError>;
/**
* Describes the VPC endpoint service configurations in your account (your services).
*/
describeVpcEndpointServiceConfigurations(params: EC2.Types.DescribeVpcEndpointServiceConfigurationsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointServiceConfigurationsResult) => void): Request<EC2.Types.DescribeVpcEndpointServiceConfigurationsResult, AWSError>;
/**
* Describes the VPC endpoint service configurations in your account (your services).
*/
describeVpcEndpointServiceConfigurations(callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointServiceConfigurationsResult) => void): Request<EC2.Types.DescribeVpcEndpointServiceConfigurationsResult, AWSError>;
/**
* Describes the principals (service consumers) that are permitted to discover your VPC endpoint service.
*/
describeVpcEndpointServicePermissions(params: EC2.Types.DescribeVpcEndpointServicePermissionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointServicePermissionsResult) => void): Request<EC2.Types.DescribeVpcEndpointServicePermissionsResult, AWSError>;
/**
* Describes the principals (service consumers) that are permitted to discover your VPC endpoint service.
*/
describeVpcEndpointServicePermissions(callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointServicePermissionsResult) => void): Request<EC2.Types.DescribeVpcEndpointServicePermissionsResult, AWSError>;
/**
* Describes available services to which you can create a VPC endpoint.
*/
describeVpcEndpointServices(params: EC2.Types.DescribeVpcEndpointServicesRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointServicesResult) => void): Request<EC2.Types.DescribeVpcEndpointServicesResult, AWSError>;
/**
* Describes available services to which you can create a VPC endpoint.
*/
describeVpcEndpointServices(callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointServicesResult) => void): Request<EC2.Types.DescribeVpcEndpointServicesResult, AWSError>;
/**
* Describes one or more of your VPC endpoints.
*/
describeVpcEndpoints(params: EC2.Types.DescribeVpcEndpointsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointsResult) => void): Request<EC2.Types.DescribeVpcEndpointsResult, AWSError>;
/**
* Describes one or more of your VPC endpoints.
*/
describeVpcEndpoints(callback?: (err: AWSError, data: EC2.Types.DescribeVpcEndpointsResult) => void): Request<EC2.Types.DescribeVpcEndpointsResult, AWSError>;
/**
* Describes one or more of your VPC peering connections.
*/
describeVpcPeeringConnections(params: EC2.Types.DescribeVpcPeeringConnectionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcPeeringConnectionsResult) => void): Request<EC2.Types.DescribeVpcPeeringConnectionsResult, AWSError>;
/**
* Describes one or more of your VPC peering connections.
*/
describeVpcPeeringConnections(callback?: (err: AWSError, data: EC2.Types.DescribeVpcPeeringConnectionsResult) => void): Request<EC2.Types.DescribeVpcPeeringConnectionsResult, AWSError>;
/**
* Describes one or more of your VPCs.
*/
describeVpcs(params: EC2.Types.DescribeVpcsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpcsResult) => void): Request<EC2.Types.DescribeVpcsResult, AWSError>;
/**
* Describes one or more of your VPCs.
*/
describeVpcs(callback?: (err: AWSError, data: EC2.Types.DescribeVpcsResult) => void): Request<EC2.Types.DescribeVpcsResult, AWSError>;
/**
* Describes one or more of your VPN connections. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
describeVpnConnections(params: EC2.Types.DescribeVpnConnectionsRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpnConnectionsResult) => void): Request<EC2.Types.DescribeVpnConnectionsResult, AWSError>;
/**
* Describes one or more of your VPN connections. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
describeVpnConnections(callback?: (err: AWSError, data: EC2.Types.DescribeVpnConnectionsResult) => void): Request<EC2.Types.DescribeVpnConnectionsResult, AWSError>;
/**
* Describes one or more of your virtual private gateways. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
describeVpnGateways(params: EC2.Types.DescribeVpnGatewaysRequest, callback?: (err: AWSError, data: EC2.Types.DescribeVpnGatewaysResult) => void): Request<EC2.Types.DescribeVpnGatewaysResult, AWSError>;
/**
* Describes one or more of your virtual private gateways. For more information, see AWS Site-to-Site VPN in the AWS Site-to-Site VPN User Guide.
*/
describeVpnGateways(callback?: (err: AWSError, data: EC2.Types.DescribeVpnGatewaysResult) => void): Request<EC2.Types.DescribeVpnGatewaysResult, AWSError>;
/**
* Unlinks (detaches) a linked EC2-Classic instance from a VPC. After the instance has been unlinked, the VPC security groups are no longer associated with it. An instance is automatically unlinked from a VPC when it's stopped.
*/
detachClassicLinkVpc(params: EC2.Types.DetachClassicLinkVpcRequest, callback?: (err: AWSError, data: EC2.Types.DetachClassicLinkVpcResult) => void): Request<EC2.Types.DetachClassicLinkVpcResult, AWSError>;
/**
* Unlinks (detaches) a linked EC2-Classic instance from a VPC. After the instance has been unlinked, the VPC security groups are no longer associated with it. An instance is automatically unlinked from a VPC when it's stopped.
*/
detachClassicLinkVpc(callback?: (err: AWSError, data: EC2.Types.DetachClassicLinkVpcResult) => void): Request<EC2.Types.DetachClassicLinkVpcResult, AWSError>;
/**
* Detaches an internet gateway from a VPC, disabling connectivity between the internet and the VPC. The VPC must not contain any running instances with Elastic IP addresses or public IPv4 addresses.
*/
detachInternetGateway(params: EC2.Types.DetachInternetGatewayRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Detaches an internet gateway from a VPC, disabling connectivity between the internet and the VPC. The VPC must not contain any running instances with Elastic IP addresses or public IPv4 addresses.
*/
detachInternetGateway(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Detaches a network interface from an instance.
*/
detachNetworkInterface(params: EC2.Types.DetachNetworkInterfaceRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Detaches a network interface from an instance.
*/
detachNetworkInterface(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Detaches an EBS volume from an instance. Make sure to unmount any file systems on the device within your operating system before detaching the volume. Failure to do so can result in the volume becoming stuck in the busy state while detaching. If this happens, detachment can be delayed indefinitely until you unmount the volume, force detachment, reboot the instance, or all three. If an EBS volume is the root device of an instance, it can't be detached while the instance is running. To detach the root volume, stop the instance first. When a volume with an AWS Marketplace product code is detached from an instance, the product code is no longer associated with the instance. For more information, see Detaching an Amazon EBS Volume in the Amazon Elastic Compute Cloud User Guide.
*/
detachVolume(params: EC2.Types.DetachVolumeRequest, callback?: (err: AWSError, data: EC2.Types.VolumeAttachment) => void): Request<EC2.Types.VolumeAttachment, AWSError>;
/**
* Detaches an EBS volume from an instance. Make sure to unmount any file systems on the device within your operating system before detaching the volume. Failure to do so can result in the volume becoming stuck in the busy state while detaching. If this happens, detachment can be delayed indefinitely until you unmount the volume, force detachment, reboot the instance, or all three. If an EBS volume is the root device of an instance, it can't be detached while the instance is running. To detach the root volume, stop the instance first. When a volume with an AWS Marketplace product code is detached from an instance, the product code is no longer associated with the instance. For more information, see Detaching an Amazon EBS Volume in the Amazon Elastic Compute Cloud User Guide.
*/
detachVolume(callback?: (err: AWSError, data: EC2.Types.VolumeAttachment) => void): Request<EC2.Types.VolumeAttachment, AWSError>;
/**
* Detaches a virtual private gateway from a VPC. You do this if you're planning to turn off the VPC and not use it anymore. You can confirm a virtual private gateway has been completely detached from a VPC by describing the virtual private gateway (any attachments to the virtual private gateway are also described). You must wait for the attachment's state to switch to detached before you can delete the VPC or attach a different VPC to the virtual private gateway.
*/
detachVpnGateway(params: EC2.Types.DetachVpnGatewayRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Detaches a virtual private gateway from a VPC. You do this if you're planning to turn off the VPC and not use it anymore. You can confirm a virtual private gateway has been completely detached from a VPC by describing the virtual private gateway (any attachments to the virtual private gateway are also described). You must wait for the attachment's state to switch to detached before you can delete the VPC or attach a different VPC to the virtual private gateway.
*/
detachVpnGateway(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disables EBS encryption by default for your account in the current Region. After you disable encryption by default, you can still create encrypted volumes by enabling encryption when you create each volume. Disabling encryption by default does not change the encryption status of your existing volumes. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
disableEbsEncryptionByDefault(params: EC2.Types.DisableEbsEncryptionByDefaultRequest, callback?: (err: AWSError, data: EC2.Types.DisableEbsEncryptionByDefaultResult) => void): Request<EC2.Types.DisableEbsEncryptionByDefaultResult, AWSError>;
/**
* Disables EBS encryption by default for your account in the current Region. After you disable encryption by default, you can still create encrypted volumes by enabling encryption when you create each volume. Disabling encryption by default does not change the encryption status of your existing volumes. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
disableEbsEncryptionByDefault(callback?: (err: AWSError, data: EC2.Types.DisableEbsEncryptionByDefaultResult) => void): Request<EC2.Types.DisableEbsEncryptionByDefaultResult, AWSError>;
/**
* Disables the specified resource attachment from propagating routes to the specified propagation route table.
*/
disableTransitGatewayRouteTablePropagation(params: EC2.Types.DisableTransitGatewayRouteTablePropagationRequest, callback?: (err: AWSError, data: EC2.Types.DisableTransitGatewayRouteTablePropagationResult) => void): Request<EC2.Types.DisableTransitGatewayRouteTablePropagationResult, AWSError>;
/**
* Disables the specified resource attachment from propagating routes to the specified propagation route table.
*/
disableTransitGatewayRouteTablePropagation(callback?: (err: AWSError, data: EC2.Types.DisableTransitGatewayRouteTablePropagationResult) => void): Request<EC2.Types.DisableTransitGatewayRouteTablePropagationResult, AWSError>;
/**
* Disables a virtual private gateway (VGW) from propagating routes to a specified route table of a VPC.
*/
disableVgwRoutePropagation(params: EC2.Types.DisableVgwRoutePropagationRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disables a virtual private gateway (VGW) from propagating routes to a specified route table of a VPC.
*/
disableVgwRoutePropagation(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disables ClassicLink for a VPC. You cannot disable ClassicLink for a VPC that has EC2-Classic instances linked to it.
*/
disableVpcClassicLink(params: EC2.Types.DisableVpcClassicLinkRequest, callback?: (err: AWSError, data: EC2.Types.DisableVpcClassicLinkResult) => void): Request<EC2.Types.DisableVpcClassicLinkResult, AWSError>;
/**
* Disables ClassicLink for a VPC. You cannot disable ClassicLink for a VPC that has EC2-Classic instances linked to it.
*/
disableVpcClassicLink(callback?: (err: AWSError, data: EC2.Types.DisableVpcClassicLinkResult) => void): Request<EC2.Types.DisableVpcClassicLinkResult, AWSError>;
/**
* Disables ClassicLink DNS support for a VPC. If disabled, DNS hostnames resolve to public IP addresses when addressed between a linked EC2-Classic instance and instances in the VPC to which it's linked. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
disableVpcClassicLinkDnsSupport(params: EC2.Types.DisableVpcClassicLinkDnsSupportRequest, callback?: (err: AWSError, data: EC2.Types.DisableVpcClassicLinkDnsSupportResult) => void): Request<EC2.Types.DisableVpcClassicLinkDnsSupportResult, AWSError>;
/**
* Disables ClassicLink DNS support for a VPC. If disabled, DNS hostnames resolve to public IP addresses when addressed between a linked EC2-Classic instance and instances in the VPC to which it's linked. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
disableVpcClassicLinkDnsSupport(callback?: (err: AWSError, data: EC2.Types.DisableVpcClassicLinkDnsSupportResult) => void): Request<EC2.Types.DisableVpcClassicLinkDnsSupportResult, AWSError>;
/**
* Disassociates an Elastic IP address from the instance or network interface it's associated with. An Elastic IP address is for use in either the EC2-Classic platform or in a VPC. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide. This is an idempotent operation. If you perform the operation more than once, Amazon EC2 doesn't return an error.
*/
disassociateAddress(params: EC2.Types.DisassociateAddressRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disassociates an Elastic IP address from the instance or network interface it's associated with. An Elastic IP address is for use in either the EC2-Classic platform or in a VPC. For more information, see Elastic IP Addresses in the Amazon Elastic Compute Cloud User Guide. This is an idempotent operation. If you perform the operation more than once, Amazon EC2 doesn't return an error.
*/
disassociateAddress(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disassociates a target network from the specified Client VPN endpoint. When you disassociate the last target network from a Client VPN, the following happens: The route that was automatically added for the VPC is deleted All active client connections are terminated New client connections are disallowed The Client VPN endpoint's status changes to pending-associate
*/
disassociateClientVpnTargetNetwork(params: EC2.Types.DisassociateClientVpnTargetNetworkRequest, callback?: (err: AWSError, data: EC2.Types.DisassociateClientVpnTargetNetworkResult) => void): Request<EC2.Types.DisassociateClientVpnTargetNetworkResult, AWSError>;
/**
* Disassociates a target network from the specified Client VPN endpoint. When you disassociate the last target network from a Client VPN, the following happens: The route that was automatically added for the VPC is deleted All active client connections are terminated New client connections are disallowed The Client VPN endpoint's status changes to pending-associate
*/
disassociateClientVpnTargetNetwork(callback?: (err: AWSError, data: EC2.Types.DisassociateClientVpnTargetNetworkResult) => void): Request<EC2.Types.DisassociateClientVpnTargetNetworkResult, AWSError>;
/**
* Disassociates an IAM instance profile from a running or stopped instance. Use DescribeIamInstanceProfileAssociations to get the association ID.
*/
disassociateIamInstanceProfile(params: EC2.Types.DisassociateIamInstanceProfileRequest, callback?: (err: AWSError, data: EC2.Types.DisassociateIamInstanceProfileResult) => void): Request<EC2.Types.DisassociateIamInstanceProfileResult, AWSError>;
/**
* Disassociates an IAM instance profile from a running or stopped instance. Use DescribeIamInstanceProfileAssociations to get the association ID.
*/
disassociateIamInstanceProfile(callback?: (err: AWSError, data: EC2.Types.DisassociateIamInstanceProfileResult) => void): Request<EC2.Types.DisassociateIamInstanceProfileResult, AWSError>;
/**
* Disassociates a subnet from a route table. After you perform this action, the subnet no longer uses the routes in the route table. Instead, it uses the routes in the VPC's main route table. For more information about route tables, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
disassociateRouteTable(params: EC2.Types.DisassociateRouteTableRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disassociates a subnet from a route table. After you perform this action, the subnet no longer uses the routes in the route table. Instead, it uses the routes in the VPC's main route table. For more information about route tables, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
disassociateRouteTable(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disassociates a CIDR block from a subnet. Currently, you can disassociate an IPv6 CIDR block only. You must detach or delete all gateways and resources that are associated with the CIDR block before you can disassociate it.
*/
disassociateSubnetCidrBlock(params: EC2.Types.DisassociateSubnetCidrBlockRequest, callback?: (err: AWSError, data: EC2.Types.DisassociateSubnetCidrBlockResult) => void): Request<EC2.Types.DisassociateSubnetCidrBlockResult, AWSError>;
/**
* Disassociates a CIDR block from a subnet. Currently, you can disassociate an IPv6 CIDR block only. You must detach or delete all gateways and resources that are associated with the CIDR block before you can disassociate it.
*/
disassociateSubnetCidrBlock(callback?: (err: AWSError, data: EC2.Types.DisassociateSubnetCidrBlockResult) => void): Request<EC2.Types.DisassociateSubnetCidrBlockResult, AWSError>;
/**
* Disassociates a resource attachment from a transit gateway route table.
*/
disassociateTransitGatewayRouteTable(params: EC2.Types.DisassociateTransitGatewayRouteTableRequest, callback?: (err: AWSError, data: EC2.Types.DisassociateTransitGatewayRouteTableResult) => void): Request<EC2.Types.DisassociateTransitGatewayRouteTableResult, AWSError>;
/**
* Disassociates a resource attachment from a transit gateway route table.
*/
disassociateTransitGatewayRouteTable(callback?: (err: AWSError, data: EC2.Types.DisassociateTransitGatewayRouteTableResult) => void): Request<EC2.Types.DisassociateTransitGatewayRouteTableResult, AWSError>;
/**
* Disassociates a CIDR block from a VPC. To disassociate the CIDR block, you must specify its association ID. You can get the association ID by using DescribeVpcs. You must detach or delete all gateways and resources that are associated with the CIDR block before you can disassociate it. You cannot disassociate the CIDR block with which you originally created the VPC (the primary CIDR block).
*/
disassociateVpcCidrBlock(params: EC2.Types.DisassociateVpcCidrBlockRequest, callback?: (err: AWSError, data: EC2.Types.DisassociateVpcCidrBlockResult) => void): Request<EC2.Types.DisassociateVpcCidrBlockResult, AWSError>;
/**
* Disassociates a CIDR block from a VPC. To disassociate the CIDR block, you must specify its association ID. You can get the association ID by using DescribeVpcs. You must detach or delete all gateways and resources that are associated with the CIDR block before you can disassociate it. You cannot disassociate the CIDR block with which you originally created the VPC (the primary CIDR block).
*/
disassociateVpcCidrBlock(callback?: (err: AWSError, data: EC2.Types.DisassociateVpcCidrBlockResult) => void): Request<EC2.Types.DisassociateVpcCidrBlockResult, AWSError>;
/**
* Enables EBS encryption by default for your account in the current Region. After you enable encryption by default, the EBS volumes that you create are are always encrypted, either using the default CMK or the CMK that you specified when you created each volume. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide. You can specify the default CMK for encryption by default using ModifyEbsDefaultKmsKeyId or ResetEbsDefaultKmsKeyId. Enabling encryption by default has no effect on the encryption status of your existing volumes. After you enable encryption by default, you can no longer launch instances using instance types that do not support encryption. For more information, see Supported Instance Types.
*/
enableEbsEncryptionByDefault(params: EC2.Types.EnableEbsEncryptionByDefaultRequest, callback?: (err: AWSError, data: EC2.Types.EnableEbsEncryptionByDefaultResult) => void): Request<EC2.Types.EnableEbsEncryptionByDefaultResult, AWSError>;
/**
* Enables EBS encryption by default for your account in the current Region. After you enable encryption by default, the EBS volumes that you create are are always encrypted, either using the default CMK or the CMK that you specified when you created each volume. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide. You can specify the default CMK for encryption by default using ModifyEbsDefaultKmsKeyId or ResetEbsDefaultKmsKeyId. Enabling encryption by default has no effect on the encryption status of your existing volumes. After you enable encryption by default, you can no longer launch instances using instance types that do not support encryption. For more information, see Supported Instance Types.
*/
enableEbsEncryptionByDefault(callback?: (err: AWSError, data: EC2.Types.EnableEbsEncryptionByDefaultResult) => void): Request<EC2.Types.EnableEbsEncryptionByDefaultResult, AWSError>;
/**
* Enables the specified attachment to propagate routes to the specified propagation route table.
*/
enableTransitGatewayRouteTablePropagation(params: EC2.Types.EnableTransitGatewayRouteTablePropagationRequest, callback?: (err: AWSError, data: EC2.Types.EnableTransitGatewayRouteTablePropagationResult) => void): Request<EC2.Types.EnableTransitGatewayRouteTablePropagationResult, AWSError>;
/**
* Enables the specified attachment to propagate routes to the specified propagation route table.
*/
enableTransitGatewayRouteTablePropagation(callback?: (err: AWSError, data: EC2.Types.EnableTransitGatewayRouteTablePropagationResult) => void): Request<EC2.Types.EnableTransitGatewayRouteTablePropagationResult, AWSError>;
/**
* Enables a virtual private gateway (VGW) to propagate routes to the specified route table of a VPC.
*/
enableVgwRoutePropagation(params: EC2.Types.EnableVgwRoutePropagationRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Enables a virtual private gateway (VGW) to propagate routes to the specified route table of a VPC.
*/
enableVgwRoutePropagation(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Enables I/O operations for a volume that had I/O operations disabled because the data on the volume was potentially inconsistent.
*/
enableVolumeIO(params: EC2.Types.EnableVolumeIORequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Enables I/O operations for a volume that had I/O operations disabled because the data on the volume was potentially inconsistent.
*/
enableVolumeIO(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Enables a VPC for ClassicLink. You can then link EC2-Classic instances to your ClassicLink-enabled VPC to allow communication over private IP addresses. You cannot enable your VPC for ClassicLink if any of your VPC route tables have existing routes for address ranges within the 10.0.0.0/8 IP address range, excluding local routes for VPCs in the 10.0.0.0/16 and 10.1.0.0/16 IP address ranges. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
enableVpcClassicLink(params: EC2.Types.EnableVpcClassicLinkRequest, callback?: (err: AWSError, data: EC2.Types.EnableVpcClassicLinkResult) => void): Request<EC2.Types.EnableVpcClassicLinkResult, AWSError>;
/**
* Enables a VPC for ClassicLink. You can then link EC2-Classic instances to your ClassicLink-enabled VPC to allow communication over private IP addresses. You cannot enable your VPC for ClassicLink if any of your VPC route tables have existing routes for address ranges within the 10.0.0.0/8 IP address range, excluding local routes for VPCs in the 10.0.0.0/16 and 10.1.0.0/16 IP address ranges. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
enableVpcClassicLink(callback?: (err: AWSError, data: EC2.Types.EnableVpcClassicLinkResult) => void): Request<EC2.Types.EnableVpcClassicLinkResult, AWSError>;
/**
* Enables a VPC to support DNS hostname resolution for ClassicLink. If enabled, the DNS hostname of a linked EC2-Classic instance resolves to its private IP address when addressed from an instance in the VPC to which it's linked. Similarly, the DNS hostname of an instance in a VPC resolves to its private IP address when addressed from a linked EC2-Classic instance. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
enableVpcClassicLinkDnsSupport(params: EC2.Types.EnableVpcClassicLinkDnsSupportRequest, callback?: (err: AWSError, data: EC2.Types.EnableVpcClassicLinkDnsSupportResult) => void): Request<EC2.Types.EnableVpcClassicLinkDnsSupportResult, AWSError>;
/**
* Enables a VPC to support DNS hostname resolution for ClassicLink. If enabled, the DNS hostname of a linked EC2-Classic instance resolves to its private IP address when addressed from an instance in the VPC to which it's linked. Similarly, the DNS hostname of an instance in a VPC resolves to its private IP address when addressed from a linked EC2-Classic instance. For more information, see ClassicLink in the Amazon Elastic Compute Cloud User Guide.
*/
enableVpcClassicLinkDnsSupport(callback?: (err: AWSError, data: EC2.Types.EnableVpcClassicLinkDnsSupportResult) => void): Request<EC2.Types.EnableVpcClassicLinkDnsSupportResult, AWSError>;
/**
* Downloads the client certificate revocation list for the specified Client VPN endpoint.
*/
exportClientVpnClientCertificateRevocationList(params: EC2.Types.ExportClientVpnClientCertificateRevocationListRequest, callback?: (err: AWSError, data: EC2.Types.ExportClientVpnClientCertificateRevocationListResult) => void): Request<EC2.Types.ExportClientVpnClientCertificateRevocationListResult, AWSError>;
/**
* Downloads the client certificate revocation list for the specified Client VPN endpoint.
*/
exportClientVpnClientCertificateRevocationList(callback?: (err: AWSError, data: EC2.Types.ExportClientVpnClientCertificateRevocationListResult) => void): Request<EC2.Types.ExportClientVpnClientCertificateRevocationListResult, AWSError>;
/**
* Downloads the contents of the Client VPN endpoint configuration file for the specified Client VPN endpoint. The Client VPN endpoint configuration file includes the Client VPN endpoint and certificate information clients need to establish a connection with the Client VPN endpoint.
*/
exportClientVpnClientConfiguration(params: EC2.Types.ExportClientVpnClientConfigurationRequest, callback?: (err: AWSError, data: EC2.Types.ExportClientVpnClientConfigurationResult) => void): Request<EC2.Types.ExportClientVpnClientConfigurationResult, AWSError>;
/**
* Downloads the contents of the Client VPN endpoint configuration file for the specified Client VPN endpoint. The Client VPN endpoint configuration file includes the Client VPN endpoint and certificate information clients need to establish a connection with the Client VPN endpoint.
*/
exportClientVpnClientConfiguration(callback?: (err: AWSError, data: EC2.Types.ExportClientVpnClientConfigurationResult) => void): Request<EC2.Types.ExportClientVpnClientConfigurationResult, AWSError>;
/**
* Exports an Amazon Machine Image (AMI) to a VM file. For more information, see Exporting a VM Directory from an Amazon Machine Image (AMI) in the VM Import/Export User Guide.
*/
exportImage(params: EC2.Types.ExportImageRequest, callback?: (err: AWSError, data: EC2.Types.ExportImageResult) => void): Request<EC2.Types.ExportImageResult, AWSError>;
/**
* Exports an Amazon Machine Image (AMI) to a VM file. For more information, see Exporting a VM Directory from an Amazon Machine Image (AMI) in the VM Import/Export User Guide.
*/
exportImage(callback?: (err: AWSError, data: EC2.Types.ExportImageResult) => void): Request<EC2.Types.ExportImageResult, AWSError>;
/**
* Exports routes from the specified transit gateway route table to the specified S3 bucket. By default, all routes are exported. Alternatively, you can filter by CIDR range.
*/
exportTransitGatewayRoutes(params: EC2.Types.ExportTransitGatewayRoutesRequest, callback?: (err: AWSError, data: EC2.Types.ExportTransitGatewayRoutesResult) => void): Request<EC2.Types.ExportTransitGatewayRoutesResult, AWSError>;
/**
* Exports routes from the specified transit gateway route table to the specified S3 bucket. By default, all routes are exported. Alternatively, you can filter by CIDR range.
*/
exportTransitGatewayRoutes(callback?: (err: AWSError, data: EC2.Types.ExportTransitGatewayRoutesResult) => void): Request<EC2.Types.ExportTransitGatewayRoutesResult, AWSError>;
/**
* Gets usage information about a Capacity Reservation. If the Capacity Reservation is shared, it shows usage information for the Capacity Reservation owner and each AWS account that is currently using the shared capacity. If the Capacity Reservation is not shared, it shows only the Capacity Reservation owner's usage.
*/
getCapacityReservationUsage(params: EC2.Types.GetCapacityReservationUsageRequest, callback?: (err: AWSError, data: EC2.Types.GetCapacityReservationUsageResult) => void): Request<EC2.Types.GetCapacityReservationUsageResult, AWSError>;
/**
* Gets usage information about a Capacity Reservation. If the Capacity Reservation is shared, it shows usage information for the Capacity Reservation owner and each AWS account that is currently using the shared capacity. If the Capacity Reservation is not shared, it shows only the Capacity Reservation owner's usage.
*/
getCapacityReservationUsage(callback?: (err: AWSError, data: EC2.Types.GetCapacityReservationUsageResult) => void): Request<EC2.Types.GetCapacityReservationUsageResult, AWSError>;
/**
* Gets the console output for the specified instance. For Linux instances, the instance console output displays the exact console output that would normally be displayed on a physical monitor attached to a computer. For Windows instances, the instance console output includes the last three system event log errors. By default, the console output returns buffered information that was posted shortly after an instance transition state (start, stop, reboot, or terminate). This information is available for at least one hour after the most recent post. Only the most recent 64 KB of console output is available. You can optionally retrieve the latest serial console output at any time during the instance lifecycle. This option is supported on instance types that use the Nitro hypervisor. For more information, see Instance Console Output in the Amazon Elastic Compute Cloud User Guide.
*/
getConsoleOutput(params: EC2.Types.GetConsoleOutputRequest, callback?: (err: AWSError, data: EC2.Types.GetConsoleOutputResult) => void): Request<EC2.Types.GetConsoleOutputResult, AWSError>;
/**
* Gets the console output for the specified instance. For Linux instances, the instance console output displays the exact console output that would normally be displayed on a physical monitor attached to a computer. For Windows instances, the instance console output includes the last three system event log errors. By default, the console output returns buffered information that was posted shortly after an instance transition state (start, stop, reboot, or terminate). This information is available for at least one hour after the most recent post. Only the most recent 64 KB of console output is available. You can optionally retrieve the latest serial console output at any time during the instance lifecycle. This option is supported on instance types that use the Nitro hypervisor. For more information, see Instance Console Output in the Amazon Elastic Compute Cloud User Guide.
*/
getConsoleOutput(callback?: (err: AWSError, data: EC2.Types.GetConsoleOutputResult) => void): Request<EC2.Types.GetConsoleOutputResult, AWSError>;
/**
* Retrieve a JPG-format screenshot of a running instance to help with troubleshooting. The returned content is Base64-encoded.
*/
getConsoleScreenshot(params: EC2.Types.GetConsoleScreenshotRequest, callback?: (err: AWSError, data: EC2.Types.GetConsoleScreenshotResult) => void): Request<EC2.Types.GetConsoleScreenshotResult, AWSError>;
/**
* Retrieve a JPG-format screenshot of a running instance to help with troubleshooting. The returned content is Base64-encoded.
*/
getConsoleScreenshot(callback?: (err: AWSError, data: EC2.Types.GetConsoleScreenshotResult) => void): Request<EC2.Types.GetConsoleScreenshotResult, AWSError>;
/**
* Describes the default customer master key (CMK) for EBS encryption by default for your account in this Region. You can change the default CMK for encryption by default using ModifyEbsDefaultKmsKeyId or ResetEbsDefaultKmsKeyId. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
getEbsDefaultKmsKeyId(params: EC2.Types.GetEbsDefaultKmsKeyIdRequest, callback?: (err: AWSError, data: EC2.Types.GetEbsDefaultKmsKeyIdResult) => void): Request<EC2.Types.GetEbsDefaultKmsKeyIdResult, AWSError>;
/**
* Describes the default customer master key (CMK) for EBS encryption by default for your account in this Region. You can change the default CMK for encryption by default using ModifyEbsDefaultKmsKeyId or ResetEbsDefaultKmsKeyId. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
getEbsDefaultKmsKeyId(callback?: (err: AWSError, data: EC2.Types.GetEbsDefaultKmsKeyIdResult) => void): Request<EC2.Types.GetEbsDefaultKmsKeyIdResult, AWSError>;
/**
* Describes whether EBS encryption by default is enabled for your account in the current Region. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
getEbsEncryptionByDefault(params: EC2.Types.GetEbsEncryptionByDefaultRequest, callback?: (err: AWSError, data: EC2.Types.GetEbsEncryptionByDefaultResult) => void): Request<EC2.Types.GetEbsEncryptionByDefaultResult, AWSError>;
/**
* Describes whether EBS encryption by default is enabled for your account in the current Region. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
getEbsEncryptionByDefault(callback?: (err: AWSError, data: EC2.Types.GetEbsEncryptionByDefaultResult) => void): Request<EC2.Types.GetEbsEncryptionByDefaultResult, AWSError>;
/**
* Preview a reservation purchase with configurations that match those of your Dedicated Host. You must have active Dedicated Hosts in your account before you purchase a reservation. This is a preview of the PurchaseHostReservation action and does not result in the offering being purchased.
*/
getHostReservationPurchasePreview(params: EC2.Types.GetHostReservationPurchasePreviewRequest, callback?: (err: AWSError, data: EC2.Types.GetHostReservationPurchasePreviewResult) => void): Request<EC2.Types.GetHostReservationPurchasePreviewResult, AWSError>;
/**
* Preview a reservation purchase with configurations that match those of your Dedicated Host. You must have active Dedicated Hosts in your account before you purchase a reservation. This is a preview of the PurchaseHostReservation action and does not result in the offering being purchased.
*/
getHostReservationPurchasePreview(callback?: (err: AWSError, data: EC2.Types.GetHostReservationPurchasePreviewResult) => void): Request<EC2.Types.GetHostReservationPurchasePreviewResult, AWSError>;
/**
* Retrieves the configuration data of the specified instance. You can use this data to create a launch template.
*/
getLaunchTemplateData(params: EC2.Types.GetLaunchTemplateDataRequest, callback?: (err: AWSError, data: EC2.Types.GetLaunchTemplateDataResult) => void): Request<EC2.Types.GetLaunchTemplateDataResult, AWSError>;
/**
* Retrieves the configuration data of the specified instance. You can use this data to create a launch template.
*/
getLaunchTemplateData(callback?: (err: AWSError, data: EC2.Types.GetLaunchTemplateDataResult) => void): Request<EC2.Types.GetLaunchTemplateDataResult, AWSError>;
/**
* Retrieves the encrypted administrator password for a running Windows instance. The Windows password is generated at boot by the EC2Config service or EC2Launch scripts (Windows Server 2016 and later). This usually only happens the first time an instance is launched. For more information, see EC2Config and EC2Launch in the Amazon Elastic Compute Cloud User Guide. For the EC2Config service, the password is not generated for rebundled AMIs unless Ec2SetPassword is enabled before bundling. The password is encrypted using the key pair that you specified when you launched the instance. You must provide the corresponding key pair file. When you launch an instance, password generation and encryption may take a few minutes. If you try to retrieve the password before it's available, the output returns an empty string. We recommend that you wait up to 15 minutes after launching an instance before trying to retrieve the generated password.
*/
getPasswordData(params: EC2.Types.GetPasswordDataRequest, callback?: (err: AWSError, data: EC2.Types.GetPasswordDataResult) => void): Request<EC2.Types.GetPasswordDataResult, AWSError>;
/**
* Retrieves the encrypted administrator password for a running Windows instance. The Windows password is generated at boot by the EC2Config service or EC2Launch scripts (Windows Server 2016 and later). This usually only happens the first time an instance is launched. For more information, see EC2Config and EC2Launch in the Amazon Elastic Compute Cloud User Guide. For the EC2Config service, the password is not generated for rebundled AMIs unless Ec2SetPassword is enabled before bundling. The password is encrypted using the key pair that you specified when you launched the instance. You must provide the corresponding key pair file. When you launch an instance, password generation and encryption may take a few minutes. If you try to retrieve the password before it's available, the output returns an empty string. We recommend that you wait up to 15 minutes after launching an instance before trying to retrieve the generated password.
*/
getPasswordData(callback?: (err: AWSError, data: EC2.Types.GetPasswordDataResult) => void): Request<EC2.Types.GetPasswordDataResult, AWSError>;
/**
* Returns a quote and exchange information for exchanging one or more specified Convertible Reserved Instances for a new Convertible Reserved Instance. If the exchange cannot be performed, the reason is returned in the response. Use AcceptReservedInstancesExchangeQuote to perform the exchange.
*/
getReservedInstancesExchangeQuote(params: EC2.Types.GetReservedInstancesExchangeQuoteRequest, callback?: (err: AWSError, data: EC2.Types.GetReservedInstancesExchangeQuoteResult) => void): Request<EC2.Types.GetReservedInstancesExchangeQuoteResult, AWSError>;
/**
* Returns a quote and exchange information for exchanging one or more specified Convertible Reserved Instances for a new Convertible Reserved Instance. If the exchange cannot be performed, the reason is returned in the response. Use AcceptReservedInstancesExchangeQuote to perform the exchange.
*/
getReservedInstancesExchangeQuote(callback?: (err: AWSError, data: EC2.Types.GetReservedInstancesExchangeQuoteResult) => void): Request<EC2.Types.GetReservedInstancesExchangeQuoteResult, AWSError>;
/**
* Lists the route tables to which the specified resource attachment propagates routes.
*/
getTransitGatewayAttachmentPropagations(params: EC2.Types.GetTransitGatewayAttachmentPropagationsRequest, callback?: (err: AWSError, data: EC2.Types.GetTransitGatewayAttachmentPropagationsResult) => void): Request<EC2.Types.GetTransitGatewayAttachmentPropagationsResult, AWSError>;
/**
* Lists the route tables to which the specified resource attachment propagates routes.
*/
getTransitGatewayAttachmentPropagations(callback?: (err: AWSError, data: EC2.Types.GetTransitGatewayAttachmentPropagationsResult) => void): Request<EC2.Types.GetTransitGatewayAttachmentPropagationsResult, AWSError>;
/**
* Gets information about the associations for the specified transit gateway route table.
*/
getTransitGatewayRouteTableAssociations(params: EC2.Types.GetTransitGatewayRouteTableAssociationsRequest, callback?: (err: AWSError, data: EC2.Types.GetTransitGatewayRouteTableAssociationsResult) => void): Request<EC2.Types.GetTransitGatewayRouteTableAssociationsResult, AWSError>;
/**
* Gets information about the associations for the specified transit gateway route table.
*/
getTransitGatewayRouteTableAssociations(callback?: (err: AWSError, data: EC2.Types.GetTransitGatewayRouteTableAssociationsResult) => void): Request<EC2.Types.GetTransitGatewayRouteTableAssociationsResult, AWSError>;
/**
* Gets information about the route table propagations for the specified transit gateway route table.
*/
getTransitGatewayRouteTablePropagations(params: EC2.Types.GetTransitGatewayRouteTablePropagationsRequest, callback?: (err: AWSError, data: EC2.Types.GetTransitGatewayRouteTablePropagationsResult) => void): Request<EC2.Types.GetTransitGatewayRouteTablePropagationsResult, AWSError>;
/**
* Gets information about the route table propagations for the specified transit gateway route table.
*/
getTransitGatewayRouteTablePropagations(callback?: (err: AWSError, data: EC2.Types.GetTransitGatewayRouteTablePropagationsResult) => void): Request<EC2.Types.GetTransitGatewayRouteTablePropagationsResult, AWSError>;
/**
* Uploads a client certificate revocation list to the specified Client VPN endpoint. Uploading a client certificate revocation list overwrites the existing client certificate revocation list. Uploading a client certificate revocation list resets existing client connections.
*/
importClientVpnClientCertificateRevocationList(params: EC2.Types.ImportClientVpnClientCertificateRevocationListRequest, callback?: (err: AWSError, data: EC2.Types.ImportClientVpnClientCertificateRevocationListResult) => void): Request<EC2.Types.ImportClientVpnClientCertificateRevocationListResult, AWSError>;
/**
* Uploads a client certificate revocation list to the specified Client VPN endpoint. Uploading a client certificate revocation list overwrites the existing client certificate revocation list. Uploading a client certificate revocation list resets existing client connections.
*/
importClientVpnClientCertificateRevocationList(callback?: (err: AWSError, data: EC2.Types.ImportClientVpnClientCertificateRevocationListResult) => void): Request<EC2.Types.ImportClientVpnClientCertificateRevocationListResult, AWSError>;
/**
* Import single or multi-volume disk images or EBS snapshots into an Amazon Machine Image (AMI). For more information, see Importing a VM as an Image Using VM Import/Export in the VM Import/Export User Guide.
*/
importImage(params: EC2.Types.ImportImageRequest, callback?: (err: AWSError, data: EC2.Types.ImportImageResult) => void): Request<EC2.Types.ImportImageResult, AWSError>;
/**
* Import single or multi-volume disk images or EBS snapshots into an Amazon Machine Image (AMI). For more information, see Importing a VM as an Image Using VM Import/Export in the VM Import/Export User Guide.
*/
importImage(callback?: (err: AWSError, data: EC2.Types.ImportImageResult) => void): Request<EC2.Types.ImportImageResult, AWSError>;
/**
* Creates an import instance task using metadata from the specified disk image. ImportInstance only supports single-volume VMs. To import multi-volume VMs, use ImportImage. For more information, see Importing a Virtual Machine Using the Amazon EC2 CLI. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
importInstance(params: EC2.Types.ImportInstanceRequest, callback?: (err: AWSError, data: EC2.Types.ImportInstanceResult) => void): Request<EC2.Types.ImportInstanceResult, AWSError>;
/**
* Creates an import instance task using metadata from the specified disk image. ImportInstance only supports single-volume VMs. To import multi-volume VMs, use ImportImage. For more information, see Importing a Virtual Machine Using the Amazon EC2 CLI. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
importInstance(callback?: (err: AWSError, data: EC2.Types.ImportInstanceResult) => void): Request<EC2.Types.ImportInstanceResult, AWSError>;
/**
* Imports the public key from an RSA key pair that you created with a third-party tool. Compare this with CreateKeyPair, in which AWS creates the key pair and gives the keys to you (AWS keeps a copy of the public key). With ImportKeyPair, you create the key pair and give AWS just the public key. The private key is never transferred between you and AWS. For more information about key pairs, see Key Pairs in the Amazon Elastic Compute Cloud User Guide.
*/
importKeyPair(params: EC2.Types.ImportKeyPairRequest, callback?: (err: AWSError, data: EC2.Types.ImportKeyPairResult) => void): Request<EC2.Types.ImportKeyPairResult, AWSError>;
/**
* Imports the public key from an RSA key pair that you created with a third-party tool. Compare this with CreateKeyPair, in which AWS creates the key pair and gives the keys to you (AWS keeps a copy of the public key). With ImportKeyPair, you create the key pair and give AWS just the public key. The private key is never transferred between you and AWS. For more information about key pairs, see Key Pairs in the Amazon Elastic Compute Cloud User Guide.
*/
importKeyPair(callback?: (err: AWSError, data: EC2.Types.ImportKeyPairResult) => void): Request<EC2.Types.ImportKeyPairResult, AWSError>;
/**
* Imports a disk into an EBS snapshot.
*/
importSnapshot(params: EC2.Types.ImportSnapshotRequest, callback?: (err: AWSError, data: EC2.Types.ImportSnapshotResult) => void): Request<EC2.Types.ImportSnapshotResult, AWSError>;
/**
* Imports a disk into an EBS snapshot.
*/
importSnapshot(callback?: (err: AWSError, data: EC2.Types.ImportSnapshotResult) => void): Request<EC2.Types.ImportSnapshotResult, AWSError>;
/**
* Creates an import volume task using metadata from the specified disk image.For more information, see Importing Disks to Amazon EBS. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
importVolume(params: EC2.Types.ImportVolumeRequest, callback?: (err: AWSError, data: EC2.Types.ImportVolumeResult) => void): Request<EC2.Types.ImportVolumeResult, AWSError>;
/**
* Creates an import volume task using metadata from the specified disk image.For more information, see Importing Disks to Amazon EBS. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
importVolume(callback?: (err: AWSError, data: EC2.Types.ImportVolumeResult) => void): Request<EC2.Types.ImportVolumeResult, AWSError>;
/**
* Modifies a Capacity Reservation's capacity and the conditions under which it is to be released. You cannot change a Capacity Reservation's instance type, EBS optimization, instance store settings, platform, Availability Zone, or instance eligibility. If you need to modify any of these attributes, we recommend that you cancel the Capacity Reservation, and then create a new one with the required attributes.
*/
modifyCapacityReservation(params: EC2.Types.ModifyCapacityReservationRequest, callback?: (err: AWSError, data: EC2.Types.ModifyCapacityReservationResult) => void): Request<EC2.Types.ModifyCapacityReservationResult, AWSError>;
/**
* Modifies a Capacity Reservation's capacity and the conditions under which it is to be released. You cannot change a Capacity Reservation's instance type, EBS optimization, instance store settings, platform, Availability Zone, or instance eligibility. If you need to modify any of these attributes, we recommend that you cancel the Capacity Reservation, and then create a new one with the required attributes.
*/
modifyCapacityReservation(callback?: (err: AWSError, data: EC2.Types.ModifyCapacityReservationResult) => void): Request<EC2.Types.ModifyCapacityReservationResult, AWSError>;
/**
* Modifies the specified Client VPN endpoint. You can only modify an endpoint's server certificate information, client connection logging information, DNS server, and description. Modifying the DNS server resets existing client connections.
*/
modifyClientVpnEndpoint(params: EC2.Types.ModifyClientVpnEndpointRequest, callback?: (err: AWSError, data: EC2.Types.ModifyClientVpnEndpointResult) => void): Request<EC2.Types.ModifyClientVpnEndpointResult, AWSError>;
/**
* Modifies the specified Client VPN endpoint. You can only modify an endpoint's server certificate information, client connection logging information, DNS server, and description. Modifying the DNS server resets existing client connections.
*/
modifyClientVpnEndpoint(callback?: (err: AWSError, data: EC2.Types.ModifyClientVpnEndpointResult) => void): Request<EC2.Types.ModifyClientVpnEndpointResult, AWSError>;
/**
* Changes the default customer master key (CMK) for EBS encryption by default for your account in this Region. AWS creates a unique AWS managed CMK in each Region for use with encryption by default. If you change the default CMK to a customer managed CMK, it is used instead of the AWS managed CMK. To reset the default CMK to the AWS managed CMK for EBS, use ResetEbsDefaultKmsKeyId. If you delete or disable the customer managed CMK that you specified for use with encryption by default, your instances will fail to launch. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
modifyEbsDefaultKmsKeyId(params: EC2.Types.ModifyEbsDefaultKmsKeyIdRequest, callback?: (err: AWSError, data: EC2.Types.ModifyEbsDefaultKmsKeyIdResult) => void): Request<EC2.Types.ModifyEbsDefaultKmsKeyIdResult, AWSError>;
/**
* Changes the default customer master key (CMK) for EBS encryption by default for your account in this Region. AWS creates a unique AWS managed CMK in each Region for use with encryption by default. If you change the default CMK to a customer managed CMK, it is used instead of the AWS managed CMK. To reset the default CMK to the AWS managed CMK for EBS, use ResetEbsDefaultKmsKeyId. If you delete or disable the customer managed CMK that you specified for use with encryption by default, your instances will fail to launch. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
modifyEbsDefaultKmsKeyId(callback?: (err: AWSError, data: EC2.Types.ModifyEbsDefaultKmsKeyIdResult) => void): Request<EC2.Types.ModifyEbsDefaultKmsKeyIdResult, AWSError>;
/**
* Modifies the specified EC2 Fleet. You can only modify an EC2 Fleet request of type maintain. While the EC2 Fleet is being modified, it is in the modifying state. To scale up your EC2 Fleet, increase its target capacity. The EC2 Fleet launches the additional Spot Instances according to the allocation strategy for the EC2 Fleet request. If the allocation strategy is lowest-price, the EC2 Fleet launches instances using the Spot Instance pool with the lowest price. If the allocation strategy is diversified, the EC2 Fleet distributes the instances across the Spot Instance pools. If the allocation strategy is capacity-optimized, EC2 Fleet launches instances from Spot Instance pools with optimal capacity for the number of instances that are launching. To scale down your EC2 Fleet, decrease its target capacity. First, the EC2 Fleet cancels any open requests that exceed the new target capacity. You can request that the EC2 Fleet terminate Spot Instances until the size of the fleet no longer exceeds the new target capacity. If the allocation strategy is lowest-price, the EC2 Fleet terminates the instances with the highest price per unit. If the allocation strategy is capacity-optimized, the EC2 Fleet terminates the instances in the Spot Instance pools that have the least available Spot Instance capacity. If the allocation strategy is diversified, the EC2 Fleet terminates instances across the Spot Instance pools. Alternatively, you can request that the EC2 Fleet keep the fleet at its current size, but not replace any Spot Instances that are interrupted or that you terminate manually. If you are finished with your EC2 Fleet for now, but will use it again later, you can set the target capacity to 0.
*/
modifyFleet(params: EC2.Types.ModifyFleetRequest, callback?: (err: AWSError, data: EC2.Types.ModifyFleetResult) => void): Request<EC2.Types.ModifyFleetResult, AWSError>;
/**
* Modifies the specified EC2 Fleet. You can only modify an EC2 Fleet request of type maintain. While the EC2 Fleet is being modified, it is in the modifying state. To scale up your EC2 Fleet, increase its target capacity. The EC2 Fleet launches the additional Spot Instances according to the allocation strategy for the EC2 Fleet request. If the allocation strategy is lowest-price, the EC2 Fleet launches instances using the Spot Instance pool with the lowest price. If the allocation strategy is diversified, the EC2 Fleet distributes the instances across the Spot Instance pools. If the allocation strategy is capacity-optimized, EC2 Fleet launches instances from Spot Instance pools with optimal capacity for the number of instances that are launching. To scale down your EC2 Fleet, decrease its target capacity. First, the EC2 Fleet cancels any open requests that exceed the new target capacity. You can request that the EC2 Fleet terminate Spot Instances until the size of the fleet no longer exceeds the new target capacity. If the allocation strategy is lowest-price, the EC2 Fleet terminates the instances with the highest price per unit. If the allocation strategy is capacity-optimized, the EC2 Fleet terminates the instances in the Spot Instance pools that have the least available Spot Instance capacity. If the allocation strategy is diversified, the EC2 Fleet terminates instances across the Spot Instance pools. Alternatively, you can request that the EC2 Fleet keep the fleet at its current size, but not replace any Spot Instances that are interrupted or that you terminate manually. If you are finished with your EC2 Fleet for now, but will use it again later, you can set the target capacity to 0.
*/
modifyFleet(callback?: (err: AWSError, data: EC2.Types.ModifyFleetResult) => void): Request<EC2.Types.ModifyFleetResult, AWSError>;
/**
* Modifies the specified attribute of the specified Amazon FPGA Image (AFI).
*/
modifyFpgaImageAttribute(params: EC2.Types.ModifyFpgaImageAttributeRequest, callback?: (err: AWSError, data: EC2.Types.ModifyFpgaImageAttributeResult) => void): Request<EC2.Types.ModifyFpgaImageAttributeResult, AWSError>;
/**
* Modifies the specified attribute of the specified Amazon FPGA Image (AFI).
*/
modifyFpgaImageAttribute(callback?: (err: AWSError, data: EC2.Types.ModifyFpgaImageAttributeResult) => void): Request<EC2.Types.ModifyFpgaImageAttributeResult, AWSError>;
/**
* Modify the auto-placement setting of a Dedicated Host. When auto-placement is enabled, any instances that you launch with a tenancy of host but without a specific host ID are placed onto any available Dedicated Host in your account that has auto-placement enabled. When auto-placement is disabled, you need to provide a host ID to have the instance launch onto a specific host. If no host ID is provided, the instance is launched onto a suitable host with auto-placement enabled.
*/
modifyHosts(params: EC2.Types.ModifyHostsRequest, callback?: (err: AWSError, data: EC2.Types.ModifyHostsResult) => void): Request<EC2.Types.ModifyHostsResult, AWSError>;
/**
* Modify the auto-placement setting of a Dedicated Host. When auto-placement is enabled, any instances that you launch with a tenancy of host but without a specific host ID are placed onto any available Dedicated Host in your account that has auto-placement enabled. When auto-placement is disabled, you need to provide a host ID to have the instance launch onto a specific host. If no host ID is provided, the instance is launched onto a suitable host with auto-placement enabled.
*/
modifyHosts(callback?: (err: AWSError, data: EC2.Types.ModifyHostsResult) => void): Request<EC2.Types.ModifyHostsResult, AWSError>;
/**
* Modifies the ID format for the specified resource on a per-Region basis. You can specify that resources should receive longer IDs (17-character IDs) when they are created. This request can only be used to modify longer ID settings for resource types that are within the opt-in period. Resources currently in their opt-in period include: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | route-table | route-table-association | security-group | subnet | subnet-cidr-block-association | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. This setting applies to the IAM user who makes the request; it does not apply to the entire AWS account. By default, an IAM user defaults to the same settings as the root user. If you're using this action as the root user, then these settings apply to the entire account, unless an IAM user explicitly overrides these settings for themselves. For more information, see Resource IDs in the Amazon Elastic Compute Cloud User Guide. Resources created with longer IDs are visible to all IAM roles and users, regardless of these settings and provided that they have permission to use the relevant Describe command for the resource type.
*/
modifyIdFormat(params: EC2.Types.ModifyIdFormatRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the ID format for the specified resource on a per-Region basis. You can specify that resources should receive longer IDs (17-character IDs) when they are created. This request can only be used to modify longer ID settings for resource types that are within the opt-in period. Resources currently in their opt-in period include: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | route-table | route-table-association | security-group | subnet | subnet-cidr-block-association | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. This setting applies to the IAM user who makes the request; it does not apply to the entire AWS account. By default, an IAM user defaults to the same settings as the root user. If you're using this action as the root user, then these settings apply to the entire account, unless an IAM user explicitly overrides these settings for themselves. For more information, see Resource IDs in the Amazon Elastic Compute Cloud User Guide. Resources created with longer IDs are visible to all IAM roles and users, regardless of these settings and provided that they have permission to use the relevant Describe command for the resource type.
*/
modifyIdFormat(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the ID format of a resource for a specified IAM user, IAM role, or the root user for an account; or all IAM users, IAM roles, and the root user for an account. You can specify that resources should receive longer IDs (17-character IDs) when they are created. This request can only be used to modify longer ID settings for resource types that are within the opt-in period. Resources currently in their opt-in period include: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | route-table | route-table-association | security-group | subnet | subnet-cidr-block-association | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. For more information, see Resource IDs in the Amazon Elastic Compute Cloud User Guide. This setting applies to the principal specified in the request; it does not apply to the principal that makes the request. Resources created with longer IDs are visible to all IAM roles and users, regardless of these settings and provided that they have permission to use the relevant Describe command for the resource type.
*/
modifyIdentityIdFormat(params: EC2.Types.ModifyIdentityIdFormatRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the ID format of a resource for a specified IAM user, IAM role, or the root user for an account; or all IAM users, IAM roles, and the root user for an account. You can specify that resources should receive longer IDs (17-character IDs) when they are created. This request can only be used to modify longer ID settings for resource types that are within the opt-in period. Resources currently in their opt-in period include: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | route-table | route-table-association | security-group | subnet | subnet-cidr-block-association | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. For more information, see Resource IDs in the Amazon Elastic Compute Cloud User Guide. This setting applies to the principal specified in the request; it does not apply to the principal that makes the request. Resources created with longer IDs are visible to all IAM roles and users, regardless of these settings and provided that they have permission to use the relevant Describe command for the resource type.
*/
modifyIdentityIdFormat(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified attribute of the specified AMI. You can specify only one attribute at a time. You can use the Attribute parameter to specify the attribute or one of the following parameters: Description, LaunchPermission, or ProductCode. AWS Marketplace product codes cannot be modified. Images with an AWS Marketplace product code cannot be made public. To enable the SriovNetSupport enhanced networking attribute of an image, enable SriovNetSupport on an instance and create an AMI from the instance.
*/
modifyImageAttribute(params: EC2.Types.ModifyImageAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified attribute of the specified AMI. You can specify only one attribute at a time. You can use the Attribute parameter to specify the attribute or one of the following parameters: Description, LaunchPermission, or ProductCode. AWS Marketplace product codes cannot be modified. Images with an AWS Marketplace product code cannot be made public. To enable the SriovNetSupport enhanced networking attribute of an image, enable SriovNetSupport on an instance and create an AMI from the instance.
*/
modifyImageAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified attribute of the specified instance. You can specify only one attribute at a time. Note: Using this action to change the security groups associated with an elastic network interface (ENI) attached to an instance in a VPC can result in an error if the instance has more than one ENI. To change the security groups associated with an ENI attached to an instance that has multiple ENIs, we recommend that you use the ModifyNetworkInterfaceAttribute action. To modify some attributes, the instance must be stopped. For more information, see Modifying Attributes of a Stopped Instance in the Amazon Elastic Compute Cloud User Guide.
*/
modifyInstanceAttribute(params: EC2.Types.ModifyInstanceAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified attribute of the specified instance. You can specify only one attribute at a time. Note: Using this action to change the security groups associated with an elastic network interface (ENI) attached to an instance in a VPC can result in an error if the instance has more than one ENI. To change the security groups associated with an ENI attached to an instance that has multiple ENIs, we recommend that you use the ModifyNetworkInterfaceAttribute action. To modify some attributes, the instance must be stopped. For more information, see Modifying Attributes of a Stopped Instance in the Amazon Elastic Compute Cloud User Guide.
*/
modifyInstanceAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the Capacity Reservation settings for a stopped instance. Use this action to configure an instance to target a specific Capacity Reservation, run in any open Capacity Reservation with matching attributes, or run On-Demand Instance capacity.
*/
modifyInstanceCapacityReservationAttributes(params: EC2.Types.ModifyInstanceCapacityReservationAttributesRequest, callback?: (err: AWSError, data: EC2.Types.ModifyInstanceCapacityReservationAttributesResult) => void): Request<EC2.Types.ModifyInstanceCapacityReservationAttributesResult, AWSError>;
/**
* Modifies the Capacity Reservation settings for a stopped instance. Use this action to configure an instance to target a specific Capacity Reservation, run in any open Capacity Reservation with matching attributes, or run On-Demand Instance capacity.
*/
modifyInstanceCapacityReservationAttributes(callback?: (err: AWSError, data: EC2.Types.ModifyInstanceCapacityReservationAttributesResult) => void): Request<EC2.Types.ModifyInstanceCapacityReservationAttributesResult, AWSError>;
/**
* Modifies the credit option for CPU usage on a running or stopped T2 or T3 instance. The credit options are standard and unlimited. For more information, see Burstable Performance Instances in the Amazon Elastic Compute Cloud User Guide.
*/
modifyInstanceCreditSpecification(params: EC2.Types.ModifyInstanceCreditSpecificationRequest, callback?: (err: AWSError, data: EC2.Types.ModifyInstanceCreditSpecificationResult) => void): Request<EC2.Types.ModifyInstanceCreditSpecificationResult, AWSError>;
/**
* Modifies the credit option for CPU usage on a running or stopped T2 or T3 instance. The credit options are standard and unlimited. For more information, see Burstable Performance Instances in the Amazon Elastic Compute Cloud User Guide.
*/
modifyInstanceCreditSpecification(callback?: (err: AWSError, data: EC2.Types.ModifyInstanceCreditSpecificationResult) => void): Request<EC2.Types.ModifyInstanceCreditSpecificationResult, AWSError>;
/**
* Modifies the start time for a scheduled Amazon EC2 instance event.
*/
modifyInstanceEventStartTime(params: EC2.Types.ModifyInstanceEventStartTimeRequest, callback?: (err: AWSError, data: EC2.Types.ModifyInstanceEventStartTimeResult) => void): Request<EC2.Types.ModifyInstanceEventStartTimeResult, AWSError>;
/**
* Modifies the start time for a scheduled Amazon EC2 instance event.
*/
modifyInstanceEventStartTime(callback?: (err: AWSError, data: EC2.Types.ModifyInstanceEventStartTimeResult) => void): Request<EC2.Types.ModifyInstanceEventStartTimeResult, AWSError>;
/**
* Modifies the placement attributes for a specified instance. You can do the following: Modify the affinity between an instance and a Dedicated Host. When affinity is set to host and the instance is not associated with a specific Dedicated Host, the next time the instance is launched, it is automatically associated with the host on which it lands. If the instance is restarted or rebooted, this relationship persists. Change the Dedicated Host with which an instance is associated. Change the instance tenancy of an instance from host to dedicated, or from dedicated to host. Move an instance to or from a placement group. At least one attribute for affinity, host ID, tenancy, or placement group name must be specified in the request. Affinity and tenancy can be modified in the same request. To modify the host ID, tenancy, placement group, or partition for an instance, the instance must be in the stopped state.
*/
modifyInstancePlacement(params: EC2.Types.ModifyInstancePlacementRequest, callback?: (err: AWSError, data: EC2.Types.ModifyInstancePlacementResult) => void): Request<EC2.Types.ModifyInstancePlacementResult, AWSError>;
/**
* Modifies the placement attributes for a specified instance. You can do the following: Modify the affinity between an instance and a Dedicated Host. When affinity is set to host and the instance is not associated with a specific Dedicated Host, the next time the instance is launched, it is automatically associated with the host on which it lands. If the instance is restarted or rebooted, this relationship persists. Change the Dedicated Host with which an instance is associated. Change the instance tenancy of an instance from host to dedicated, or from dedicated to host. Move an instance to or from a placement group. At least one attribute for affinity, host ID, tenancy, or placement group name must be specified in the request. Affinity and tenancy can be modified in the same request. To modify the host ID, tenancy, placement group, or partition for an instance, the instance must be in the stopped state.
*/
modifyInstancePlacement(callback?: (err: AWSError, data: EC2.Types.ModifyInstancePlacementResult) => void): Request<EC2.Types.ModifyInstancePlacementResult, AWSError>;
/**
* Modifies a launch template. You can specify which version of the launch template to set as the default version. When launching an instance, the default version applies when a launch template version is not specified.
*/
modifyLaunchTemplate(params: EC2.Types.ModifyLaunchTemplateRequest, callback?: (err: AWSError, data: EC2.Types.ModifyLaunchTemplateResult) => void): Request<EC2.Types.ModifyLaunchTemplateResult, AWSError>;
/**
* Modifies a launch template. You can specify which version of the launch template to set as the default version. When launching an instance, the default version applies when a launch template version is not specified.
*/
modifyLaunchTemplate(callback?: (err: AWSError, data: EC2.Types.ModifyLaunchTemplateResult) => void): Request<EC2.Types.ModifyLaunchTemplateResult, AWSError>;
/**
* Modifies the specified network interface attribute. You can specify only one attribute at a time. You can use this action to attach and detach security groups from an existing EC2 instance.
*/
modifyNetworkInterfaceAttribute(params: EC2.Types.ModifyNetworkInterfaceAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified network interface attribute. You can specify only one attribute at a time. You can use this action to attach and detach security groups from an existing EC2 instance.
*/
modifyNetworkInterfaceAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the Availability Zone, instance count, instance type, or network platform (EC2-Classic or EC2-VPC) of your Reserved Instances. The Reserved Instances to be modified must be identical, except for Availability Zone, network platform, and instance type. For more information, see Modifying Reserved Instances in the Amazon Elastic Compute Cloud User Guide.
*/
modifyReservedInstances(params: EC2.Types.ModifyReservedInstancesRequest, callback?: (err: AWSError, data: EC2.Types.ModifyReservedInstancesResult) => void): Request<EC2.Types.ModifyReservedInstancesResult, AWSError>;
/**
* Modifies the Availability Zone, instance count, instance type, or network platform (EC2-Classic or EC2-VPC) of your Reserved Instances. The Reserved Instances to be modified must be identical, except for Availability Zone, network platform, and instance type. For more information, see Modifying Reserved Instances in the Amazon Elastic Compute Cloud User Guide.
*/
modifyReservedInstances(callback?: (err: AWSError, data: EC2.Types.ModifyReservedInstancesResult) => void): Request<EC2.Types.ModifyReservedInstancesResult, AWSError>;
/**
* Adds or removes permission settings for the specified snapshot. You may add or remove specified AWS account IDs from a snapshot's list of create volume permissions, but you cannot do both in a single operation. If you need to both add and remove account IDs for a snapshot, you must use multiple operations. You can make up to 500 modifications to a snapshot in a single operation. Encrypted snapshots and snapshots with AWS Marketplace product codes cannot be made public. Snapshots encrypted with your default CMK cannot be shared with other accounts. For more information about modifying snapshot permissions, see Sharing Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
modifySnapshotAttribute(params: EC2.Types.ModifySnapshotAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Adds or removes permission settings for the specified snapshot. You may add or remove specified AWS account IDs from a snapshot's list of create volume permissions, but you cannot do both in a single operation. If you need to both add and remove account IDs for a snapshot, you must use multiple operations. You can make up to 500 modifications to a snapshot in a single operation. Encrypted snapshots and snapshots with AWS Marketplace product codes cannot be made public. Snapshots encrypted with your default CMK cannot be shared with other accounts. For more information about modifying snapshot permissions, see Sharing Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
modifySnapshotAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified Spot Fleet request. You can only modify a Spot Fleet request of type maintain. While the Spot Fleet request is being modified, it is in the modifying state. To scale up your Spot Fleet, increase its target capacity. The Spot Fleet launches the additional Spot Instances according to the allocation strategy for the Spot Fleet request. If the allocation strategy is lowestPrice, the Spot Fleet launches instances using the Spot Instance pool with the lowest price. If the allocation strategy is diversified, the Spot Fleet distributes the instances across the Spot Instance pools. If the allocation strategy is capacityOptimized, Spot Fleet launches instances from Spot Instance pools with optimal capacity for the number of instances that are launching. To scale down your Spot Fleet, decrease its target capacity. First, the Spot Fleet cancels any open requests that exceed the new target capacity. You can request that the Spot Fleet terminate Spot Instances until the size of the fleet no longer exceeds the new target capacity. If the allocation strategy is lowestPrice, the Spot Fleet terminates the instances with the highest price per unit. If the allocation strategy is capacityOptimized, the Spot Fleet terminates the instances in the Spot Instance pools that have the least available Spot Instance capacity. If the allocation strategy is diversified, the Spot Fleet terminates instances across the Spot Instance pools. Alternatively, you can request that the Spot Fleet keep the fleet at its current size, but not replace any Spot Instances that are interrupted or that you terminate manually. If you are finished with your Spot Fleet for now, but will use it again later, you can set the target capacity to 0.
*/
modifySpotFleetRequest(params: EC2.Types.ModifySpotFleetRequestRequest, callback?: (err: AWSError, data: EC2.Types.ModifySpotFleetRequestResponse) => void): Request<EC2.Types.ModifySpotFleetRequestResponse, AWSError>;
/**
* Modifies the specified Spot Fleet request. You can only modify a Spot Fleet request of type maintain. While the Spot Fleet request is being modified, it is in the modifying state. To scale up your Spot Fleet, increase its target capacity. The Spot Fleet launches the additional Spot Instances according to the allocation strategy for the Spot Fleet request. If the allocation strategy is lowestPrice, the Spot Fleet launches instances using the Spot Instance pool with the lowest price. If the allocation strategy is diversified, the Spot Fleet distributes the instances across the Spot Instance pools. If the allocation strategy is capacityOptimized, Spot Fleet launches instances from Spot Instance pools with optimal capacity for the number of instances that are launching. To scale down your Spot Fleet, decrease its target capacity. First, the Spot Fleet cancels any open requests that exceed the new target capacity. You can request that the Spot Fleet terminate Spot Instances until the size of the fleet no longer exceeds the new target capacity. If the allocation strategy is lowestPrice, the Spot Fleet terminates the instances with the highest price per unit. If the allocation strategy is capacityOptimized, the Spot Fleet terminates the instances in the Spot Instance pools that have the least available Spot Instance capacity. If the allocation strategy is diversified, the Spot Fleet terminates instances across the Spot Instance pools. Alternatively, you can request that the Spot Fleet keep the fleet at its current size, but not replace any Spot Instances that are interrupted or that you terminate manually. If you are finished with your Spot Fleet for now, but will use it again later, you can set the target capacity to 0.
*/
modifySpotFleetRequest(callback?: (err: AWSError, data: EC2.Types.ModifySpotFleetRequestResponse) => void): Request<EC2.Types.ModifySpotFleetRequestResponse, AWSError>;
/**
* Modifies a subnet attribute. You can only modify one attribute at a time.
*/
modifySubnetAttribute(params: EC2.Types.ModifySubnetAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies a subnet attribute. You can only modify one attribute at a time.
*/
modifySubnetAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Allows or restricts mirroring network services. By default, Amazon DNS network services are not eligible for Traffic Mirror. Use AddNetworkServices to add network services to a Traffic Mirror filter. When a network service is added to the Traffic Mirror filter, all traffic related to that network service will be mirrored. When you no longer want to mirror network services, use RemoveNetworkServices to remove the network services from the Traffic Mirror filter. For information about filter rule properties, see Network Services in the Traffic Mirroring User Guide .
*/
modifyTrafficMirrorFilterNetworkServices(params: EC2.Types.ModifyTrafficMirrorFilterNetworkServicesRequest, callback?: (err: AWSError, data: EC2.Types.ModifyTrafficMirrorFilterNetworkServicesResult) => void): Request<EC2.Types.ModifyTrafficMirrorFilterNetworkServicesResult, AWSError>;
/**
* Allows or restricts mirroring network services. By default, Amazon DNS network services are not eligible for Traffic Mirror. Use AddNetworkServices to add network services to a Traffic Mirror filter. When a network service is added to the Traffic Mirror filter, all traffic related to that network service will be mirrored. When you no longer want to mirror network services, use RemoveNetworkServices to remove the network services from the Traffic Mirror filter. For information about filter rule properties, see Network Services in the Traffic Mirroring User Guide .
*/
modifyTrafficMirrorFilterNetworkServices(callback?: (err: AWSError, data: EC2.Types.ModifyTrafficMirrorFilterNetworkServicesResult) => void): Request<EC2.Types.ModifyTrafficMirrorFilterNetworkServicesResult, AWSError>;
/**
* Modifies the specified Traffic Mirror rule. DestinationCidrBlock and SourceCidrBlock must both be an IPv4 range or an IPv6 range.
*/
modifyTrafficMirrorFilterRule(params: EC2.Types.ModifyTrafficMirrorFilterRuleRequest, callback?: (err: AWSError, data: EC2.Types.ModifyTrafficMirrorFilterRuleResult) => void): Request<EC2.Types.ModifyTrafficMirrorFilterRuleResult, AWSError>;
/**
* Modifies the specified Traffic Mirror rule. DestinationCidrBlock and SourceCidrBlock must both be an IPv4 range or an IPv6 range.
*/
modifyTrafficMirrorFilterRule(callback?: (err: AWSError, data: EC2.Types.ModifyTrafficMirrorFilterRuleResult) => void): Request<EC2.Types.ModifyTrafficMirrorFilterRuleResult, AWSError>;
/**
* Modifies a Traffic Mirror session.
*/
modifyTrafficMirrorSession(params: EC2.Types.ModifyTrafficMirrorSessionRequest, callback?: (err: AWSError, data: EC2.Types.ModifyTrafficMirrorSessionResult) => void): Request<EC2.Types.ModifyTrafficMirrorSessionResult, AWSError>;
/**
* Modifies a Traffic Mirror session.
*/
modifyTrafficMirrorSession(callback?: (err: AWSError, data: EC2.Types.ModifyTrafficMirrorSessionResult) => void): Request<EC2.Types.ModifyTrafficMirrorSessionResult, AWSError>;
/**
* Modifies the specified VPC attachment.
*/
modifyTransitGatewayVpcAttachment(params: EC2.Types.ModifyTransitGatewayVpcAttachmentRequest, callback?: (err: AWSError, data: EC2.Types.ModifyTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.ModifyTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Modifies the specified VPC attachment.
*/
modifyTransitGatewayVpcAttachment(callback?: (err: AWSError, data: EC2.Types.ModifyTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.ModifyTransitGatewayVpcAttachmentResult, AWSError>;
/**
* You can modify several parameters of an existing EBS volume, including volume size, volume type, and IOPS capacity. If your EBS volume is attached to a current-generation EC2 instance type, you may be able to apply these changes without stopping the instance or detaching the volume from it. For more information about modifying an EBS volume running Linux, see Modifying the Size, IOPS, or Type of an EBS Volume on Linux. For more information about modifying an EBS volume running Windows, see Modifying the Size, IOPS, or Type of an EBS Volume on Windows. When you complete a resize operation on your volume, you need to extend the volume's file-system size to take advantage of the new storage capacity. For information about extending a Linux file system, see Extending a Linux File System. For information about extending a Windows file system, see Extending a Windows File System. You can use CloudWatch Events to check the status of a modification to an EBS volume. For information about CloudWatch Events, see the Amazon CloudWatch Events User Guide. You can also track the status of a modification using DescribeVolumesModifications. For information about tracking status changes using either method, see Monitoring Volume Modifications. With previous-generation instance types, resizing an EBS volume may require detaching and reattaching the volume or stopping and restarting the instance. For more information, see Modifying the Size, IOPS, or Type of an EBS Volume on Linux and Modifying the Size, IOPS, or Type of an EBS Volume on Windows. If you reach the maximum volume modification rate per volume limit, you will need to wait at least six hours before applying further modifications to the affected EBS volume.
*/
modifyVolume(params: EC2.Types.ModifyVolumeRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVolumeResult) => void): Request<EC2.Types.ModifyVolumeResult, AWSError>;
/**
* You can modify several parameters of an existing EBS volume, including volume size, volume type, and IOPS capacity. If your EBS volume is attached to a current-generation EC2 instance type, you may be able to apply these changes without stopping the instance or detaching the volume from it. For more information about modifying an EBS volume running Linux, see Modifying the Size, IOPS, or Type of an EBS Volume on Linux. For more information about modifying an EBS volume running Windows, see Modifying the Size, IOPS, or Type of an EBS Volume on Windows. When you complete a resize operation on your volume, you need to extend the volume's file-system size to take advantage of the new storage capacity. For information about extending a Linux file system, see Extending a Linux File System. For information about extending a Windows file system, see Extending a Windows File System. You can use CloudWatch Events to check the status of a modification to an EBS volume. For information about CloudWatch Events, see the Amazon CloudWatch Events User Guide. You can also track the status of a modification using DescribeVolumesModifications. For information about tracking status changes using either method, see Monitoring Volume Modifications. With previous-generation instance types, resizing an EBS volume may require detaching and reattaching the volume or stopping and restarting the instance. For more information, see Modifying the Size, IOPS, or Type of an EBS Volume on Linux and Modifying the Size, IOPS, or Type of an EBS Volume on Windows. If you reach the maximum volume modification rate per volume limit, you will need to wait at least six hours before applying further modifications to the affected EBS volume.
*/
modifyVolume(callback?: (err: AWSError, data: EC2.Types.ModifyVolumeResult) => void): Request<EC2.Types.ModifyVolumeResult, AWSError>;
/**
* Modifies a volume attribute. By default, all I/O operations for the volume are suspended when the data on the volume is determined to be potentially inconsistent, to prevent undetectable, latent data corruption. The I/O access to the volume can be resumed by first enabling I/O access and then checking the data consistency on your volume. You can change the default behavior to resume I/O operations. We recommend that you change this only for boot volumes or for volumes that are stateless or disposable.
*/
modifyVolumeAttribute(params: EC2.Types.ModifyVolumeAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies a volume attribute. By default, all I/O operations for the volume are suspended when the data on the volume is determined to be potentially inconsistent, to prevent undetectable, latent data corruption. The I/O access to the volume can be resumed by first enabling I/O access and then checking the data consistency on your volume. You can change the default behavior to resume I/O operations. We recommend that you change this only for boot volumes or for volumes that are stateless or disposable.
*/
modifyVolumeAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified attribute of the specified VPC.
*/
modifyVpcAttribute(params: EC2.Types.ModifyVpcAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies the specified attribute of the specified VPC.
*/
modifyVpcAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Modifies attributes of a specified VPC endpoint. The attributes that you can modify depend on the type of VPC endpoint (interface or gateway). For more information, see VPC Endpoints in the Amazon Virtual Private Cloud User Guide.
*/
modifyVpcEndpoint(params: EC2.Types.ModifyVpcEndpointRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointResult) => void): Request<EC2.Types.ModifyVpcEndpointResult, AWSError>;
/**
* Modifies attributes of a specified VPC endpoint. The attributes that you can modify depend on the type of VPC endpoint (interface or gateway). For more information, see VPC Endpoints in the Amazon Virtual Private Cloud User Guide.
*/
modifyVpcEndpoint(callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointResult) => void): Request<EC2.Types.ModifyVpcEndpointResult, AWSError>;
/**
* Modifies a connection notification for VPC endpoint or VPC endpoint service. You can change the SNS topic for the notification, or the events for which to be notified.
*/
modifyVpcEndpointConnectionNotification(params: EC2.Types.ModifyVpcEndpointConnectionNotificationRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointConnectionNotificationResult) => void): Request<EC2.Types.ModifyVpcEndpointConnectionNotificationResult, AWSError>;
/**
* Modifies a connection notification for VPC endpoint or VPC endpoint service. You can change the SNS topic for the notification, or the events for which to be notified.
*/
modifyVpcEndpointConnectionNotification(callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointConnectionNotificationResult) => void): Request<EC2.Types.ModifyVpcEndpointConnectionNotificationResult, AWSError>;
/**
* Modifies the attributes of your VPC endpoint service configuration. You can change the Network Load Balancers for your service, and you can specify whether acceptance is required for requests to connect to your endpoint service through an interface VPC endpoint.
*/
modifyVpcEndpointServiceConfiguration(params: EC2.Types.ModifyVpcEndpointServiceConfigurationRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointServiceConfigurationResult) => void): Request<EC2.Types.ModifyVpcEndpointServiceConfigurationResult, AWSError>;
/**
* Modifies the attributes of your VPC endpoint service configuration. You can change the Network Load Balancers for your service, and you can specify whether acceptance is required for requests to connect to your endpoint service through an interface VPC endpoint.
*/
modifyVpcEndpointServiceConfiguration(callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointServiceConfigurationResult) => void): Request<EC2.Types.ModifyVpcEndpointServiceConfigurationResult, AWSError>;
/**
* Modifies the permissions for your VPC endpoint service. You can add or remove permissions for service consumers (IAM users, IAM roles, and AWS accounts) to connect to your endpoint service. If you grant permissions to all principals, the service is public. Any users who know the name of a public service can send a request to attach an endpoint. If the service does not require manual approval, attachments are automatically approved.
*/
modifyVpcEndpointServicePermissions(params: EC2.Types.ModifyVpcEndpointServicePermissionsRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointServicePermissionsResult) => void): Request<EC2.Types.ModifyVpcEndpointServicePermissionsResult, AWSError>;
/**
* Modifies the permissions for your VPC endpoint service. You can add or remove permissions for service consumers (IAM users, IAM roles, and AWS accounts) to connect to your endpoint service. If you grant permissions to all principals, the service is public. Any users who know the name of a public service can send a request to attach an endpoint. If the service does not require manual approval, attachments are automatically approved.
*/
modifyVpcEndpointServicePermissions(callback?: (err: AWSError, data: EC2.Types.ModifyVpcEndpointServicePermissionsResult) => void): Request<EC2.Types.ModifyVpcEndpointServicePermissionsResult, AWSError>;
/**
* Modifies the VPC peering connection options on one side of a VPC peering connection. You can do the following: Enable/disable communication over the peering connection between an EC2-Classic instance that's linked to your VPC (using ClassicLink) and instances in the peer VPC. Enable/disable communication over the peering connection between instances in your VPC and an EC2-Classic instance that's linked to the peer VPC. Enable/disable the ability to resolve public DNS hostnames to private IP addresses when queried from instances in the peer VPC. If the peered VPCs are in the same AWS account, you can enable DNS resolution for queries from the local VPC. This ensures that queries from the local VPC resolve to private IP addresses in the peer VPC. This option is not available if the peered VPCs are in different AWS accounts or different Regions. For peered VPCs in different AWS accounts, each AWS account owner must initiate a separate request to modify the peering connection options. For inter-region peering connections, you must use the Region for the requester VPC to modify the requester VPC peering options and the Region for the accepter VPC to modify the accepter VPC peering options. To verify which VPCs are the accepter and the requester for a VPC peering connection, use the DescribeVpcPeeringConnections command.
*/
modifyVpcPeeringConnectionOptions(params: EC2.Types.ModifyVpcPeeringConnectionOptionsRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpcPeeringConnectionOptionsResult) => void): Request<EC2.Types.ModifyVpcPeeringConnectionOptionsResult, AWSError>;
/**
* Modifies the VPC peering connection options on one side of a VPC peering connection. You can do the following: Enable/disable communication over the peering connection between an EC2-Classic instance that's linked to your VPC (using ClassicLink) and instances in the peer VPC. Enable/disable communication over the peering connection between instances in your VPC and an EC2-Classic instance that's linked to the peer VPC. Enable/disable the ability to resolve public DNS hostnames to private IP addresses when queried from instances in the peer VPC. If the peered VPCs are in the same AWS account, you can enable DNS resolution for queries from the local VPC. This ensures that queries from the local VPC resolve to private IP addresses in the peer VPC. This option is not available if the peered VPCs are in different AWS accounts or different Regions. For peered VPCs in different AWS accounts, each AWS account owner must initiate a separate request to modify the peering connection options. For inter-region peering connections, you must use the Region for the requester VPC to modify the requester VPC peering options and the Region for the accepter VPC to modify the accepter VPC peering options. To verify which VPCs are the accepter and the requester for a VPC peering connection, use the DescribeVpcPeeringConnections command.
*/
modifyVpcPeeringConnectionOptions(callback?: (err: AWSError, data: EC2.Types.ModifyVpcPeeringConnectionOptionsResult) => void): Request<EC2.Types.ModifyVpcPeeringConnectionOptionsResult, AWSError>;
/**
* Modifies the instance tenancy attribute of the specified VPC. You can change the instance tenancy attribute of a VPC to default only. You cannot change the instance tenancy attribute to dedicated. After you modify the tenancy of the VPC, any new instances that you launch into the VPC have a tenancy of default, unless you specify otherwise during launch. The tenancy of any existing instances in the VPC is not affected. For more information, see Dedicated Instances in the Amazon Elastic Compute Cloud User Guide.
*/
modifyVpcTenancy(params: EC2.Types.ModifyVpcTenancyRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpcTenancyResult) => void): Request<EC2.Types.ModifyVpcTenancyResult, AWSError>;
/**
* Modifies the instance tenancy attribute of the specified VPC. You can change the instance tenancy attribute of a VPC to default only. You cannot change the instance tenancy attribute to dedicated. After you modify the tenancy of the VPC, any new instances that you launch into the VPC have a tenancy of default, unless you specify otherwise during launch. The tenancy of any existing instances in the VPC is not affected. For more information, see Dedicated Instances in the Amazon Elastic Compute Cloud User Guide.
*/
modifyVpcTenancy(callback?: (err: AWSError, data: EC2.Types.ModifyVpcTenancyResult) => void): Request<EC2.Types.ModifyVpcTenancyResult, AWSError>;
/**
* Modifies the target gateway of an AWS Site-to-Site VPN connection. The following migration options are available: An existing virtual private gateway to a new virtual private gateway An existing virtual private gateway to a transit gateway An existing transit gateway to a new transit gateway An existing transit gateway to a virtual private gateway Before you perform the migration to the new gateway, you must configure the new gateway. Use CreateVpnGateway to create a virtual private gateway, or CreateTransitGateway to create a transit gateway. This step is required when you migrate from a virtual private gateway with static routes to a transit gateway. You must delete the static routes before you migrate to the new gateway. Keep a copy of the static route before you delete it. You will need to add back these routes to the transit gateway after the VPN connection migration is complete. After you migrate to the new gateway, you might need to modify your VPC route table. Use CreateRoute and DeleteRoute to make the changes described in VPN Gateway Target Modification Required VPC Route Table Updates in the AWS Site-to-Site VPN User Guide. When the new gateway is a transit gateway, modify the transit gateway route table to allow traffic between the VPC and the AWS Site-to-Site VPN connection. Use CreateTransitGatewayRoute to add the routes. If you deleted VPN static routes, you must add the static routes to the transit gateway route table. After you perform this operation, the AWS VPN endpoint's IP addresses on the AWS side and the tunnel options remain intact. Your s2slong; connection will be temporarily unavailable for approximately 10 minutes while we provision the new endpoints
*/
modifyVpnConnection(params: EC2.Types.ModifyVpnConnectionRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpnConnectionResult) => void): Request<EC2.Types.ModifyVpnConnectionResult, AWSError>;
/**
* Modifies the target gateway of an AWS Site-to-Site VPN connection. The following migration options are available: An existing virtual private gateway to a new virtual private gateway An existing virtual private gateway to a transit gateway An existing transit gateway to a new transit gateway An existing transit gateway to a virtual private gateway Before you perform the migration to the new gateway, you must configure the new gateway. Use CreateVpnGateway to create a virtual private gateway, or CreateTransitGateway to create a transit gateway. This step is required when you migrate from a virtual private gateway with static routes to a transit gateway. You must delete the static routes before you migrate to the new gateway. Keep a copy of the static route before you delete it. You will need to add back these routes to the transit gateway after the VPN connection migration is complete. After you migrate to the new gateway, you might need to modify your VPC route table. Use CreateRoute and DeleteRoute to make the changes described in VPN Gateway Target Modification Required VPC Route Table Updates in the AWS Site-to-Site VPN User Guide. When the new gateway is a transit gateway, modify the transit gateway route table to allow traffic between the VPC and the AWS Site-to-Site VPN connection. Use CreateTransitGatewayRoute to add the routes. If you deleted VPN static routes, you must add the static routes to the transit gateway route table. After you perform this operation, the AWS VPN endpoint's IP addresses on the AWS side and the tunnel options remain intact. Your s2slong; connection will be temporarily unavailable for approximately 10 minutes while we provision the new endpoints
*/
modifyVpnConnection(callback?: (err: AWSError, data: EC2.Types.ModifyVpnConnectionResult) => void): Request<EC2.Types.ModifyVpnConnectionResult, AWSError>;
/**
* Modifies the VPN tunnel endpoint certificate.
*/
modifyVpnTunnelCertificate(params: EC2.Types.ModifyVpnTunnelCertificateRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpnTunnelCertificateResult) => void): Request<EC2.Types.ModifyVpnTunnelCertificateResult, AWSError>;
/**
* Modifies the VPN tunnel endpoint certificate.
*/
modifyVpnTunnelCertificate(callback?: (err: AWSError, data: EC2.Types.ModifyVpnTunnelCertificateResult) => void): Request<EC2.Types.ModifyVpnTunnelCertificateResult, AWSError>;
/**
* Modifies the options for a VPN tunnel in an AWS Site-to-Site VPN connection. You can modify multiple options for a tunnel in a single request, but you can only modify one tunnel at a time. For more information, see Site-to-Site VPN Tunnel Options for Your Site-to-Site VPN Connection in the AWS Site-to-Site VPN User Guide.
*/
modifyVpnTunnelOptions(params: EC2.Types.ModifyVpnTunnelOptionsRequest, callback?: (err: AWSError, data: EC2.Types.ModifyVpnTunnelOptionsResult) => void): Request<EC2.Types.ModifyVpnTunnelOptionsResult, AWSError>;
/**
* Modifies the options for a VPN tunnel in an AWS Site-to-Site VPN connection. You can modify multiple options for a tunnel in a single request, but you can only modify one tunnel at a time. For more information, see Site-to-Site VPN Tunnel Options for Your Site-to-Site VPN Connection in the AWS Site-to-Site VPN User Guide.
*/
modifyVpnTunnelOptions(callback?: (err: AWSError, data: EC2.Types.ModifyVpnTunnelOptionsResult) => void): Request<EC2.Types.ModifyVpnTunnelOptionsResult, AWSError>;
/**
* Enables detailed monitoring for a running instance. Otherwise, basic monitoring is enabled. For more information, see Monitoring Your Instances and Volumes in the Amazon Elastic Compute Cloud User Guide. To disable detailed monitoring, see .
*/
monitorInstances(params: EC2.Types.MonitorInstancesRequest, callback?: (err: AWSError, data: EC2.Types.MonitorInstancesResult) => void): Request<EC2.Types.MonitorInstancesResult, AWSError>;
/**
* Enables detailed monitoring for a running instance. Otherwise, basic monitoring is enabled. For more information, see Monitoring Your Instances and Volumes in the Amazon Elastic Compute Cloud User Guide. To disable detailed monitoring, see .
*/
monitorInstances(callback?: (err: AWSError, data: EC2.Types.MonitorInstancesResult) => void): Request<EC2.Types.MonitorInstancesResult, AWSError>;
/**
* Moves an Elastic IP address from the EC2-Classic platform to the EC2-VPC platform. The Elastic IP address must be allocated to your account for more than 24 hours, and it must not be associated with an instance. After the Elastic IP address is moved, it is no longer available for use in the EC2-Classic platform, unless you move it back using the RestoreAddressToClassic request. You cannot move an Elastic IP address that was originally allocated for use in the EC2-VPC platform to the EC2-Classic platform.
*/
moveAddressToVpc(params: EC2.Types.MoveAddressToVpcRequest, callback?: (err: AWSError, data: EC2.Types.MoveAddressToVpcResult) => void): Request<EC2.Types.MoveAddressToVpcResult, AWSError>;
/**
* Moves an Elastic IP address from the EC2-Classic platform to the EC2-VPC platform. The Elastic IP address must be allocated to your account for more than 24 hours, and it must not be associated with an instance. After the Elastic IP address is moved, it is no longer available for use in the EC2-Classic platform, unless you move it back using the RestoreAddressToClassic request. You cannot move an Elastic IP address that was originally allocated for use in the EC2-VPC platform to the EC2-Classic platform.
*/
moveAddressToVpc(callback?: (err: AWSError, data: EC2.Types.MoveAddressToVpcResult) => void): Request<EC2.Types.MoveAddressToVpcResult, AWSError>;
/**
* Provisions an address range for use with your AWS resources through bring your own IP addresses (BYOIP) and creates a corresponding address pool. After the address range is provisioned, it is ready to be advertised using AdvertiseByoipCidr. AWS verifies that you own the address range and are authorized to advertise it. You must ensure that the address range is registered to you and that you created an RPKI ROA to authorize Amazon ASNs 16509 and 14618 to advertise the address range. For more information, see Bring Your Own IP Addresses (BYOIP) in the Amazon Elastic Compute Cloud User Guide. Provisioning an address range is an asynchronous operation, so the call returns immediately, but the address range is not ready to use until its status changes from pending-provision to provisioned. To monitor the status of an address range, use DescribeByoipCidrs. To allocate an Elastic IP address from your address pool, use AllocateAddress with either the specific address from the address pool or the ID of the address pool.
*/
provisionByoipCidr(params: EC2.Types.ProvisionByoipCidrRequest, callback?: (err: AWSError, data: EC2.Types.ProvisionByoipCidrResult) => void): Request<EC2.Types.ProvisionByoipCidrResult, AWSError>;
/**
* Provisions an address range for use with your AWS resources through bring your own IP addresses (BYOIP) and creates a corresponding address pool. After the address range is provisioned, it is ready to be advertised using AdvertiseByoipCidr. AWS verifies that you own the address range and are authorized to advertise it. You must ensure that the address range is registered to you and that you created an RPKI ROA to authorize Amazon ASNs 16509 and 14618 to advertise the address range. For more information, see Bring Your Own IP Addresses (BYOIP) in the Amazon Elastic Compute Cloud User Guide. Provisioning an address range is an asynchronous operation, so the call returns immediately, but the address range is not ready to use until its status changes from pending-provision to provisioned. To monitor the status of an address range, use DescribeByoipCidrs. To allocate an Elastic IP address from your address pool, use AllocateAddress with either the specific address from the address pool or the ID of the address pool.
*/
provisionByoipCidr(callback?: (err: AWSError, data: EC2.Types.ProvisionByoipCidrResult) => void): Request<EC2.Types.ProvisionByoipCidrResult, AWSError>;
/**
* Purchase a reservation with configurations that match those of your Dedicated Host. You must have active Dedicated Hosts in your account before you purchase a reservation. This action results in the specified reservation being purchased and charged to your account.
*/
purchaseHostReservation(params: EC2.Types.PurchaseHostReservationRequest, callback?: (err: AWSError, data: EC2.Types.PurchaseHostReservationResult) => void): Request<EC2.Types.PurchaseHostReservationResult, AWSError>;
/**
* Purchase a reservation with configurations that match those of your Dedicated Host. You must have active Dedicated Hosts in your account before you purchase a reservation. This action results in the specified reservation being purchased and charged to your account.
*/
purchaseHostReservation(callback?: (err: AWSError, data: EC2.Types.PurchaseHostReservationResult) => void): Request<EC2.Types.PurchaseHostReservationResult, AWSError>;
/**
* Purchases a Reserved Instance for use with your account. With Reserved Instances, you pay a lower hourly rate compared to On-Demand instance pricing. Use DescribeReservedInstancesOfferings to get a list of Reserved Instance offerings that match your specifications. After you've purchased a Reserved Instance, you can check for your new Reserved Instance with DescribeReservedInstances. To queue a purchase for a future date and time, specify a purchase time. If you do not specify a purchase time, the default is the current time. For more information, see Reserved Instances and Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
purchaseReservedInstancesOffering(params: EC2.Types.PurchaseReservedInstancesOfferingRequest, callback?: (err: AWSError, data: EC2.Types.PurchaseReservedInstancesOfferingResult) => void): Request<EC2.Types.PurchaseReservedInstancesOfferingResult, AWSError>;
/**
* Purchases a Reserved Instance for use with your account. With Reserved Instances, you pay a lower hourly rate compared to On-Demand instance pricing. Use DescribeReservedInstancesOfferings to get a list of Reserved Instance offerings that match your specifications. After you've purchased a Reserved Instance, you can check for your new Reserved Instance with DescribeReservedInstances. To queue a purchase for a future date and time, specify a purchase time. If you do not specify a purchase time, the default is the current time. For more information, see Reserved Instances and Reserved Instance Marketplace in the Amazon Elastic Compute Cloud User Guide.
*/
purchaseReservedInstancesOffering(callback?: (err: AWSError, data: EC2.Types.PurchaseReservedInstancesOfferingResult) => void): Request<EC2.Types.PurchaseReservedInstancesOfferingResult, AWSError>;
/**
* Purchases the Scheduled Instances with the specified schedule. Scheduled Instances enable you to purchase Amazon EC2 compute capacity by the hour for a one-year term. Before you can purchase a Scheduled Instance, you must call DescribeScheduledInstanceAvailability to check for available schedules and obtain a purchase token. After you purchase a Scheduled Instance, you must call RunScheduledInstances during each scheduled time period. After you purchase a Scheduled Instance, you can't cancel, modify, or resell your purchase.
*/
purchaseScheduledInstances(params: EC2.Types.PurchaseScheduledInstancesRequest, callback?: (err: AWSError, data: EC2.Types.PurchaseScheduledInstancesResult) => void): Request<EC2.Types.PurchaseScheduledInstancesResult, AWSError>;
/**
* Purchases the Scheduled Instances with the specified schedule. Scheduled Instances enable you to purchase Amazon EC2 compute capacity by the hour for a one-year term. Before you can purchase a Scheduled Instance, you must call DescribeScheduledInstanceAvailability to check for available schedules and obtain a purchase token. After you purchase a Scheduled Instance, you must call RunScheduledInstances during each scheduled time period. After you purchase a Scheduled Instance, you can't cancel, modify, or resell your purchase.
*/
purchaseScheduledInstances(callback?: (err: AWSError, data: EC2.Types.PurchaseScheduledInstancesResult) => void): Request<EC2.Types.PurchaseScheduledInstancesResult, AWSError>;
/**
* Requests a reboot of the specified instances. This operation is asynchronous; it only queues a request to reboot the specified instances. The operation succeeds if the instances are valid and belong to you. Requests to reboot terminated instances are ignored. If an instance does not cleanly shut down within four minutes, Amazon EC2 performs a hard reboot. For more information about troubleshooting, see Getting Console Output and Rebooting Instances in the Amazon Elastic Compute Cloud User Guide.
*/
rebootInstances(params: EC2.Types.RebootInstancesRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Requests a reboot of the specified instances. This operation is asynchronous; it only queues a request to reboot the specified instances. The operation succeeds if the instances are valid and belong to you. Requests to reboot terminated instances are ignored. If an instance does not cleanly shut down within four minutes, Amazon EC2 performs a hard reboot. For more information about troubleshooting, see Getting Console Output and Rebooting Instances in the Amazon Elastic Compute Cloud User Guide.
*/
rebootInstances(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Registers an AMI. When you're creating an AMI, this is the final step you must complete before you can launch an instance from the AMI. For more information about creating AMIs, see Creating Your Own AMIs in the Amazon Elastic Compute Cloud User Guide. For Amazon EBS-backed instances, CreateImage creates and registers the AMI in a single request, so you don't have to register the AMI yourself. You can also use RegisterImage to create an Amazon EBS-backed Linux AMI from a snapshot of a root device volume. You specify the snapshot using the block device mapping. For more information, see Launching a Linux Instance from a Backup in the Amazon Elastic Compute Cloud User Guide. You can't register an image where a secondary (non-root) snapshot has AWS Marketplace product codes. Windows and some Linux distributions, such as Red Hat Enterprise Linux (RHEL) and SUSE Linux Enterprise Server (SLES), use the EC2 billing product code associated with an AMI to verify the subscription status for package updates. To create a new AMI for operating systems that require a billing product code, do the following: Launch an instance from an existing AMI with that billing product code. Customize the instance. Create a new AMI from the instance using CreateImage to preserve the billing product code association. If you purchase a Reserved Instance to apply to an On-Demand Instance that was launched from an AMI with a billing product code, make sure that the Reserved Instance has the matching billing product code. If you purchase a Reserved Instance without the matching billing product code, the Reserved Instance will not be applied to the On-Demand Instance. If needed, you can deregister an AMI at any time. Any modifications you make to an AMI backed by an instance store volume invalidates its registration. If you make changes to an image, deregister the previous image and register the new image.
*/
registerImage(params: EC2.Types.RegisterImageRequest, callback?: (err: AWSError, data: EC2.Types.RegisterImageResult) => void): Request<EC2.Types.RegisterImageResult, AWSError>;
/**
* Registers an AMI. When you're creating an AMI, this is the final step you must complete before you can launch an instance from the AMI. For more information about creating AMIs, see Creating Your Own AMIs in the Amazon Elastic Compute Cloud User Guide. For Amazon EBS-backed instances, CreateImage creates and registers the AMI in a single request, so you don't have to register the AMI yourself. You can also use RegisterImage to create an Amazon EBS-backed Linux AMI from a snapshot of a root device volume. You specify the snapshot using the block device mapping. For more information, see Launching a Linux Instance from a Backup in the Amazon Elastic Compute Cloud User Guide. You can't register an image where a secondary (non-root) snapshot has AWS Marketplace product codes. Windows and some Linux distributions, such as Red Hat Enterprise Linux (RHEL) and SUSE Linux Enterprise Server (SLES), use the EC2 billing product code associated with an AMI to verify the subscription status for package updates. To create a new AMI for operating systems that require a billing product code, do the following: Launch an instance from an existing AMI with that billing product code. Customize the instance. Create a new AMI from the instance using CreateImage to preserve the billing product code association. If you purchase a Reserved Instance to apply to an On-Demand Instance that was launched from an AMI with a billing product code, make sure that the Reserved Instance has the matching billing product code. If you purchase a Reserved Instance without the matching billing product code, the Reserved Instance will not be applied to the On-Demand Instance. If needed, you can deregister an AMI at any time. Any modifications you make to an AMI backed by an instance store volume invalidates its registration. If you make changes to an image, deregister the previous image and register the new image.
*/
registerImage(callback?: (err: AWSError, data: EC2.Types.RegisterImageResult) => void): Request<EC2.Types.RegisterImageResult, AWSError>;
/**
* Rejects a request to attach a VPC to a transit gateway. The VPC attachment must be in the pendingAcceptance state. Use DescribeTransitGatewayVpcAttachments to view your pending VPC attachment requests. Use AcceptTransitGatewayVpcAttachment to accept a VPC attachment request.
*/
rejectTransitGatewayVpcAttachment(params: EC2.Types.RejectTransitGatewayVpcAttachmentRequest, callback?: (err: AWSError, data: EC2.Types.RejectTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.RejectTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Rejects a request to attach a VPC to a transit gateway. The VPC attachment must be in the pendingAcceptance state. Use DescribeTransitGatewayVpcAttachments to view your pending VPC attachment requests. Use AcceptTransitGatewayVpcAttachment to accept a VPC attachment request.
*/
rejectTransitGatewayVpcAttachment(callback?: (err: AWSError, data: EC2.Types.RejectTransitGatewayVpcAttachmentResult) => void): Request<EC2.Types.RejectTransitGatewayVpcAttachmentResult, AWSError>;
/**
* Rejects one or more VPC endpoint connection requests to your VPC endpoint service.
*/
rejectVpcEndpointConnections(params: EC2.Types.RejectVpcEndpointConnectionsRequest, callback?: (err: AWSError, data: EC2.Types.RejectVpcEndpointConnectionsResult) => void): Request<EC2.Types.RejectVpcEndpointConnectionsResult, AWSError>;
/**
* Rejects one or more VPC endpoint connection requests to your VPC endpoint service.
*/
rejectVpcEndpointConnections(callback?: (err: AWSError, data: EC2.Types.RejectVpcEndpointConnectionsResult) => void): Request<EC2.Types.RejectVpcEndpointConnectionsResult, AWSError>;
/**
* Rejects a VPC peering connection request. The VPC peering connection must be in the pending-acceptance state. Use the DescribeVpcPeeringConnections request to view your outstanding VPC peering connection requests. To delete an active VPC peering connection, or to delete a VPC peering connection request that you initiated, use DeleteVpcPeeringConnection.
*/
rejectVpcPeeringConnection(params: EC2.Types.RejectVpcPeeringConnectionRequest, callback?: (err: AWSError, data: EC2.Types.RejectVpcPeeringConnectionResult) => void): Request<EC2.Types.RejectVpcPeeringConnectionResult, AWSError>;
/**
* Rejects a VPC peering connection request. The VPC peering connection must be in the pending-acceptance state. Use the DescribeVpcPeeringConnections request to view your outstanding VPC peering connection requests. To delete an active VPC peering connection, or to delete a VPC peering connection request that you initiated, use DeleteVpcPeeringConnection.
*/
rejectVpcPeeringConnection(callback?: (err: AWSError, data: EC2.Types.RejectVpcPeeringConnectionResult) => void): Request<EC2.Types.RejectVpcPeeringConnectionResult, AWSError>;
/**
* Releases the specified Elastic IP address. [EC2-Classic, default VPC] Releasing an Elastic IP address automatically disassociates it from any instance that it's associated with. To disassociate an Elastic IP address without releasing it, use DisassociateAddress. [Nondefault VPC] You must use DisassociateAddress to disassociate the Elastic IP address before you can release it. Otherwise, Amazon EC2 returns an error (InvalidIPAddress.InUse). After releasing an Elastic IP address, it is released to the IP address pool. Be sure to update your DNS records and any servers or devices that communicate with the address. If you attempt to release an Elastic IP address that you already released, you'll get an AuthFailure error if the address is already allocated to another AWS account. [EC2-VPC] After you release an Elastic IP address for use in a VPC, you might be able to recover it. For more information, see AllocateAddress.
*/
releaseAddress(params: EC2.Types.ReleaseAddressRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Releases the specified Elastic IP address. [EC2-Classic, default VPC] Releasing an Elastic IP address automatically disassociates it from any instance that it's associated with. To disassociate an Elastic IP address without releasing it, use DisassociateAddress. [Nondefault VPC] You must use DisassociateAddress to disassociate the Elastic IP address before you can release it. Otherwise, Amazon EC2 returns an error (InvalidIPAddress.InUse). After releasing an Elastic IP address, it is released to the IP address pool. Be sure to update your DNS records and any servers or devices that communicate with the address. If you attempt to release an Elastic IP address that you already released, you'll get an AuthFailure error if the address is already allocated to another AWS account. [EC2-VPC] After you release an Elastic IP address for use in a VPC, you might be able to recover it. For more information, see AllocateAddress.
*/
releaseAddress(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* When you no longer want to use an On-Demand Dedicated Host it can be released. On-Demand billing is stopped and the host goes into released state. The host ID of Dedicated Hosts that have been released can no longer be specified in another request, for example, to modify the host. You must stop or terminate all instances on a host before it can be released. When Dedicated Hosts are released, it may take some time for them to stop counting toward your limit and you may receive capacity errors when trying to allocate new Dedicated Hosts. Wait a few minutes and then try again. Released hosts still appear in a DescribeHosts response.
*/
releaseHosts(params: EC2.Types.ReleaseHostsRequest, callback?: (err: AWSError, data: EC2.Types.ReleaseHostsResult) => void): Request<EC2.Types.ReleaseHostsResult, AWSError>;
/**
* When you no longer want to use an On-Demand Dedicated Host it can be released. On-Demand billing is stopped and the host goes into released state. The host ID of Dedicated Hosts that have been released can no longer be specified in another request, for example, to modify the host. You must stop or terminate all instances on a host before it can be released. When Dedicated Hosts are released, it may take some time for them to stop counting toward your limit and you may receive capacity errors when trying to allocate new Dedicated Hosts. Wait a few minutes and then try again. Released hosts still appear in a DescribeHosts response.
*/
releaseHosts(callback?: (err: AWSError, data: EC2.Types.ReleaseHostsResult) => void): Request<EC2.Types.ReleaseHostsResult, AWSError>;
/**
* Replaces an IAM instance profile for the specified running instance. You can use this action to change the IAM instance profile that's associated with an instance without having to disassociate the existing IAM instance profile first. Use DescribeIamInstanceProfileAssociations to get the association ID.
*/
replaceIamInstanceProfileAssociation(params: EC2.Types.ReplaceIamInstanceProfileAssociationRequest, callback?: (err: AWSError, data: EC2.Types.ReplaceIamInstanceProfileAssociationResult) => void): Request<EC2.Types.ReplaceIamInstanceProfileAssociationResult, AWSError>;
/**
* Replaces an IAM instance profile for the specified running instance. You can use this action to change the IAM instance profile that's associated with an instance without having to disassociate the existing IAM instance profile first. Use DescribeIamInstanceProfileAssociations to get the association ID.
*/
replaceIamInstanceProfileAssociation(callback?: (err: AWSError, data: EC2.Types.ReplaceIamInstanceProfileAssociationResult) => void): Request<EC2.Types.ReplaceIamInstanceProfileAssociationResult, AWSError>;
/**
* Changes which network ACL a subnet is associated with. By default when you create a subnet, it's automatically associated with the default network ACL. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide. This is an idempotent operation.
*/
replaceNetworkAclAssociation(params: EC2.Types.ReplaceNetworkAclAssociationRequest, callback?: (err: AWSError, data: EC2.Types.ReplaceNetworkAclAssociationResult) => void): Request<EC2.Types.ReplaceNetworkAclAssociationResult, AWSError>;
/**
* Changes which network ACL a subnet is associated with. By default when you create a subnet, it's automatically associated with the default network ACL. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide. This is an idempotent operation.
*/
replaceNetworkAclAssociation(callback?: (err: AWSError, data: EC2.Types.ReplaceNetworkAclAssociationResult) => void): Request<EC2.Types.ReplaceNetworkAclAssociationResult, AWSError>;
/**
* Replaces an entry (rule) in a network ACL. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
replaceNetworkAclEntry(params: EC2.Types.ReplaceNetworkAclEntryRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Replaces an entry (rule) in a network ACL. For more information, see Network ACLs in the Amazon Virtual Private Cloud User Guide.
*/
replaceNetworkAclEntry(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Replaces an existing route within a route table in a VPC. You must provide only one of the following: internet gateway or virtual private gateway, NAT instance, NAT gateway, VPC peering connection, network interface, or egress-only internet gateway. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
replaceRoute(params: EC2.Types.ReplaceRouteRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Replaces an existing route within a route table in a VPC. You must provide only one of the following: internet gateway or virtual private gateway, NAT instance, NAT gateway, VPC peering connection, network interface, or egress-only internet gateway. For more information, see Route Tables in the Amazon Virtual Private Cloud User Guide.
*/
replaceRoute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Changes the route table associated with a given subnet in a VPC. After the operation completes, the subnet uses the routes in the new route table it's associated with. For more information about route tables, see Route Tables in the Amazon Virtual Private Cloud User Guide. You can also use ReplaceRouteTableAssociation to change which table is the main route table in the VPC. You just specify the main route table's association ID and the route table to be the new main route table.
*/
replaceRouteTableAssociation(params: EC2.Types.ReplaceRouteTableAssociationRequest, callback?: (err: AWSError, data: EC2.Types.ReplaceRouteTableAssociationResult) => void): Request<EC2.Types.ReplaceRouteTableAssociationResult, AWSError>;
/**
* Changes the route table associated with a given subnet in a VPC. After the operation completes, the subnet uses the routes in the new route table it's associated with. For more information about route tables, see Route Tables in the Amazon Virtual Private Cloud User Guide. You can also use ReplaceRouteTableAssociation to change which table is the main route table in the VPC. You just specify the main route table's association ID and the route table to be the new main route table.
*/
replaceRouteTableAssociation(callback?: (err: AWSError, data: EC2.Types.ReplaceRouteTableAssociationResult) => void): Request<EC2.Types.ReplaceRouteTableAssociationResult, AWSError>;
/**
* Replaces the specified route in the specified transit gateway route table.
*/
replaceTransitGatewayRoute(params: EC2.Types.ReplaceTransitGatewayRouteRequest, callback?: (err: AWSError, data: EC2.Types.ReplaceTransitGatewayRouteResult) => void): Request<EC2.Types.ReplaceTransitGatewayRouteResult, AWSError>;
/**
* Replaces the specified route in the specified transit gateway route table.
*/
replaceTransitGatewayRoute(callback?: (err: AWSError, data: EC2.Types.ReplaceTransitGatewayRouteResult) => void): Request<EC2.Types.ReplaceTransitGatewayRouteResult, AWSError>;
/**
* Submits feedback about the status of an instance. The instance must be in the running state. If your experience with the instance differs from the instance status returned by DescribeInstanceStatus, use ReportInstanceStatus to report your experience with the instance. Amazon EC2 collects this information to improve the accuracy of status checks. Use of this action does not change the value returned by DescribeInstanceStatus.
*/
reportInstanceStatus(params: EC2.Types.ReportInstanceStatusRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Submits feedback about the status of an instance. The instance must be in the running state. If your experience with the instance differs from the instance status returned by DescribeInstanceStatus, use ReportInstanceStatus to report your experience with the instance. Amazon EC2 collects this information to improve the accuracy of status checks. Use of this action does not change the value returned by DescribeInstanceStatus.
*/
reportInstanceStatus(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Creates a Spot Fleet request. The Spot Fleet request specifies the total target capacity and the On-Demand target capacity. Amazon EC2 calculates the difference between the total capacity and On-Demand capacity, and launches the difference as Spot capacity. You can submit a single request that includes multiple launch specifications that vary by instance type, AMI, Availability Zone, or subnet. By default, the Spot Fleet requests Spot Instances in the Spot Instance pool where the price per unit is the lowest. Each launch specification can include its own instance weighting that reflects the value of the instance type to your application workload. Alternatively, you can specify that the Spot Fleet distribute the target capacity across the Spot pools included in its launch specifications. By ensuring that the Spot Instances in your Spot Fleet are in different Spot pools, you can improve the availability of your fleet. You can specify tags for the Spot Instances. You cannot tag other resource types in a Spot Fleet request because only the instance resource type is supported. For more information, see Spot Fleet Requests in the Amazon EC2 User Guide for Linux Instances.
*/
requestSpotFleet(params: EC2.Types.RequestSpotFleetRequest, callback?: (err: AWSError, data: EC2.Types.RequestSpotFleetResponse) => void): Request<EC2.Types.RequestSpotFleetResponse, AWSError>;
/**
* Creates a Spot Fleet request. The Spot Fleet request specifies the total target capacity and the On-Demand target capacity. Amazon EC2 calculates the difference between the total capacity and On-Demand capacity, and launches the difference as Spot capacity. You can submit a single request that includes multiple launch specifications that vary by instance type, AMI, Availability Zone, or subnet. By default, the Spot Fleet requests Spot Instances in the Spot Instance pool where the price per unit is the lowest. Each launch specification can include its own instance weighting that reflects the value of the instance type to your application workload. Alternatively, you can specify that the Spot Fleet distribute the target capacity across the Spot pools included in its launch specifications. By ensuring that the Spot Instances in your Spot Fleet are in different Spot pools, you can improve the availability of your fleet. You can specify tags for the Spot Instances. You cannot tag other resource types in a Spot Fleet request because only the instance resource type is supported. For more information, see Spot Fleet Requests in the Amazon EC2 User Guide for Linux Instances.
*/
requestSpotFleet(callback?: (err: AWSError, data: EC2.Types.RequestSpotFleetResponse) => void): Request<EC2.Types.RequestSpotFleetResponse, AWSError>;
/**
* Creates a Spot Instance request. For more information, see Spot Instance Requests in the Amazon EC2 User Guide for Linux Instances.
*/
requestSpotInstances(params: EC2.Types.RequestSpotInstancesRequest, callback?: (err: AWSError, data: EC2.Types.RequestSpotInstancesResult) => void): Request<EC2.Types.RequestSpotInstancesResult, AWSError>;
/**
* Creates a Spot Instance request. For more information, see Spot Instance Requests in the Amazon EC2 User Guide for Linux Instances.
*/
requestSpotInstances(callback?: (err: AWSError, data: EC2.Types.RequestSpotInstancesResult) => void): Request<EC2.Types.RequestSpotInstancesResult, AWSError>;
/**
* Resets the default customer master key (CMK) for EBS encryption for your account in this Region to the AWS managed CMK for EBS. After resetting the default CMK to the AWS managed CMK, you can continue to encrypt by a customer managed CMK by specifying it when you create the volume. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
resetEbsDefaultKmsKeyId(params: EC2.Types.ResetEbsDefaultKmsKeyIdRequest, callback?: (err: AWSError, data: EC2.Types.ResetEbsDefaultKmsKeyIdResult) => void): Request<EC2.Types.ResetEbsDefaultKmsKeyIdResult, AWSError>;
/**
* Resets the default customer master key (CMK) for EBS encryption for your account in this Region to the AWS managed CMK for EBS. After resetting the default CMK to the AWS managed CMK, you can continue to encrypt by a customer managed CMK by specifying it when you create the volume. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
resetEbsDefaultKmsKeyId(callback?: (err: AWSError, data: EC2.Types.ResetEbsDefaultKmsKeyIdResult) => void): Request<EC2.Types.ResetEbsDefaultKmsKeyIdResult, AWSError>;
/**
* Resets the specified attribute of the specified Amazon FPGA Image (AFI) to its default value. You can only reset the load permission attribute.
*/
resetFpgaImageAttribute(params: EC2.Types.ResetFpgaImageAttributeRequest, callback?: (err: AWSError, data: EC2.Types.ResetFpgaImageAttributeResult) => void): Request<EC2.Types.ResetFpgaImageAttributeResult, AWSError>;
/**
* Resets the specified attribute of the specified Amazon FPGA Image (AFI) to its default value. You can only reset the load permission attribute.
*/
resetFpgaImageAttribute(callback?: (err: AWSError, data: EC2.Types.ResetFpgaImageAttributeResult) => void): Request<EC2.Types.ResetFpgaImageAttributeResult, AWSError>;
/**
* Resets an attribute of an AMI to its default value. The productCodes attribute can't be reset.
*/
resetImageAttribute(params: EC2.Types.ResetImageAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Resets an attribute of an AMI to its default value. The productCodes attribute can't be reset.
*/
resetImageAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Resets an attribute of an instance to its default value. To reset the kernel or ramdisk, the instance must be in a stopped state. To reset the sourceDestCheck, the instance can be either running or stopped. The sourceDestCheck attribute controls whether source/destination checking is enabled. The default value is true, which means checking is enabled. This value must be false for a NAT instance to perform NAT. For more information, see NAT Instances in the Amazon Virtual Private Cloud User Guide.
*/
resetInstanceAttribute(params: EC2.Types.ResetInstanceAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Resets an attribute of an instance to its default value. To reset the kernel or ramdisk, the instance must be in a stopped state. To reset the sourceDestCheck, the instance can be either running or stopped. The sourceDestCheck attribute controls whether source/destination checking is enabled. The default value is true, which means checking is enabled. This value must be false for a NAT instance to perform NAT. For more information, see NAT Instances in the Amazon Virtual Private Cloud User Guide.
*/
resetInstanceAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Resets a network interface attribute. You can specify only one attribute at a time.
*/
resetNetworkInterfaceAttribute(params: EC2.Types.ResetNetworkInterfaceAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Resets a network interface attribute. You can specify only one attribute at a time.
*/
resetNetworkInterfaceAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Resets permission settings for the specified snapshot. For more information about modifying snapshot permissions, see Sharing Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
resetSnapshotAttribute(params: EC2.Types.ResetSnapshotAttributeRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Resets permission settings for the specified snapshot. For more information about modifying snapshot permissions, see Sharing Snapshots in the Amazon Elastic Compute Cloud User Guide.
*/
resetSnapshotAttribute(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Restores an Elastic IP address that was previously moved to the EC2-VPC platform back to the EC2-Classic platform. You cannot move an Elastic IP address that was originally allocated for use in EC2-VPC. The Elastic IP address must not be associated with an instance or network interface.
*/
restoreAddressToClassic(params: EC2.Types.RestoreAddressToClassicRequest, callback?: (err: AWSError, data: EC2.Types.RestoreAddressToClassicResult) => void): Request<EC2.Types.RestoreAddressToClassicResult, AWSError>;
/**
* Restores an Elastic IP address that was previously moved to the EC2-VPC platform back to the EC2-Classic platform. You cannot move an Elastic IP address that was originally allocated for use in EC2-VPC. The Elastic IP address must not be associated with an instance or network interface.
*/
restoreAddressToClassic(callback?: (err: AWSError, data: EC2.Types.RestoreAddressToClassicResult) => void): Request<EC2.Types.RestoreAddressToClassicResult, AWSError>;
/**
* Removes an ingress authorization rule from a Client VPN endpoint.
*/
revokeClientVpnIngress(params: EC2.Types.RevokeClientVpnIngressRequest, callback?: (err: AWSError, data: EC2.Types.RevokeClientVpnIngressResult) => void): Request<EC2.Types.RevokeClientVpnIngressResult, AWSError>;
/**
* Removes an ingress authorization rule from a Client VPN endpoint.
*/
revokeClientVpnIngress(callback?: (err: AWSError, data: EC2.Types.RevokeClientVpnIngressResult) => void): Request<EC2.Types.RevokeClientVpnIngressResult, AWSError>;
/**
* [VPC only] Removes the specified egress rules from a security group for EC2-VPC. This action doesn't apply to security groups for use in EC2-Classic. To remove a rule, the values that you specify (for example, ports) must match the existing rule's values exactly. Each rule consists of the protocol and the IPv4 or IPv6 CIDR range or source security group. For the TCP and UDP protocols, you must also specify the destination port or range of ports. For the ICMP protocol, you must also specify the ICMP type and code. If the security group rule has a description, you do not have to specify the description to revoke the rule. Rule changes are propagated to instances within the security group as quickly as possible. However, a small delay might occur.
*/
revokeSecurityGroupEgress(params: EC2.Types.RevokeSecurityGroupEgressRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* [VPC only] Removes the specified egress rules from a security group for EC2-VPC. This action doesn't apply to security groups for use in EC2-Classic. To remove a rule, the values that you specify (for example, ports) must match the existing rule's values exactly. Each rule consists of the protocol and the IPv4 or IPv6 CIDR range or source security group. For the TCP and UDP protocols, you must also specify the destination port or range of ports. For the ICMP protocol, you must also specify the ICMP type and code. If the security group rule has a description, you do not have to specify the description to revoke the rule. Rule changes are propagated to instances within the security group as quickly as possible. However, a small delay might occur.
*/
revokeSecurityGroupEgress(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Removes the specified ingress rules from a security group. To remove a rule, the values that you specify (for example, ports) must match the existing rule's values exactly. [EC2-Classic only] If the values you specify do not match the existing rule's values, no error is returned. Use DescribeSecurityGroups to verify that the rule has been removed. Each rule consists of the protocol and the CIDR range or source security group. For the TCP and UDP protocols, you must also specify the destination port or range of ports. For the ICMP protocol, you must also specify the ICMP type and code. If the security group rule has a description, you do not have to specify the description to revoke the rule. Rule changes are propagated to instances within the security group as quickly as possible. However, a small delay might occur.
*/
revokeSecurityGroupIngress(params: EC2.Types.RevokeSecurityGroupIngressRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Removes the specified ingress rules from a security group. To remove a rule, the values that you specify (for example, ports) must match the existing rule's values exactly. [EC2-Classic only] If the values you specify do not match the existing rule's values, no error is returned. Use DescribeSecurityGroups to verify that the rule has been removed. Each rule consists of the protocol and the CIDR range or source security group. For the TCP and UDP protocols, you must also specify the destination port or range of ports. For the ICMP protocol, you must also specify the ICMP type and code. If the security group rule has a description, you do not have to specify the description to revoke the rule. Rule changes are propagated to instances within the security group as quickly as possible. However, a small delay might occur.
*/
revokeSecurityGroupIngress(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Launches the specified number of instances using an AMI for which you have permissions. You can specify a number of options, or leave the default options. The following rules apply: [EC2-VPC] If you don't specify a subnet ID, we choose a default subnet from your default VPC for you. If you don't have a default VPC, you must specify a subnet ID in the request. [EC2-Classic] If don't specify an Availability Zone, we choose one for you. Some instance types must be launched into a VPC. If you do not have a default VPC, or if you do not specify a subnet ID, the request fails. For more information, see Instance Types Available Only in a VPC. [EC2-VPC] All instances have a network interface with a primary private IPv4 address. If you don't specify this address, we choose one from the IPv4 range of your subnet. Not all instance types support IPv6 addresses. For more information, see Instance Types. If you don't specify a security group ID, we use the default security group. For more information, see Security Groups. If any of the AMIs have a product code attached for which the user has not subscribed, the request fails. You can create a launch template, which is a resource that contains the parameters to launch an instance. When you launch an instance using RunInstances, you can specify the launch template instead of specifying the launch parameters. To ensure faster instance launches, break up large requests into smaller batches. For example, create five separate launch requests for 100 instances each instead of one launch request for 500 instances. An instance is ready for you to use when it's in the running state. You can check the state of your instance using DescribeInstances. You can tag instances and EBS volumes during launch, after launch, or both. For more information, see CreateTags and Tagging Your Amazon EC2 Resources. Linux instances have access to the public key of the key pair at boot. You can use this key to provide secure access to the instance. Amazon EC2 public images use this feature to provide secure access without passwords. For more information, see Key Pairs in the Amazon Elastic Compute Cloud User Guide. For troubleshooting, see What To Do If An Instance Immediately Terminates, and Troubleshooting Connecting to Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
runInstances(params: EC2.Types.RunInstancesRequest, callback?: (err: AWSError, data: EC2.Types.Reservation) => void): Request<EC2.Types.Reservation, AWSError>;
/**
* Launches the specified number of instances using an AMI for which you have permissions. You can specify a number of options, or leave the default options. The following rules apply: [EC2-VPC] If you don't specify a subnet ID, we choose a default subnet from your default VPC for you. If you don't have a default VPC, you must specify a subnet ID in the request. [EC2-Classic] If don't specify an Availability Zone, we choose one for you. Some instance types must be launched into a VPC. If you do not have a default VPC, or if you do not specify a subnet ID, the request fails. For more information, see Instance Types Available Only in a VPC. [EC2-VPC] All instances have a network interface with a primary private IPv4 address. If you don't specify this address, we choose one from the IPv4 range of your subnet. Not all instance types support IPv6 addresses. For more information, see Instance Types. If you don't specify a security group ID, we use the default security group. For more information, see Security Groups. If any of the AMIs have a product code attached for which the user has not subscribed, the request fails. You can create a launch template, which is a resource that contains the parameters to launch an instance. When you launch an instance using RunInstances, you can specify the launch template instead of specifying the launch parameters. To ensure faster instance launches, break up large requests into smaller batches. For example, create five separate launch requests for 100 instances each instead of one launch request for 500 instances. An instance is ready for you to use when it's in the running state. You can check the state of your instance using DescribeInstances. You can tag instances and EBS volumes during launch, after launch, or both. For more information, see CreateTags and Tagging Your Amazon EC2 Resources. Linux instances have access to the public key of the key pair at boot. You can use this key to provide secure access to the instance. Amazon EC2 public images use this feature to provide secure access without passwords. For more information, see Key Pairs in the Amazon Elastic Compute Cloud User Guide. For troubleshooting, see What To Do If An Instance Immediately Terminates, and Troubleshooting Connecting to Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
runInstances(callback?: (err: AWSError, data: EC2.Types.Reservation) => void): Request<EC2.Types.Reservation, AWSError>;
/**
* Launches the specified Scheduled Instances. Before you can launch a Scheduled Instance, you must purchase it and obtain an identifier using PurchaseScheduledInstances. You must launch a Scheduled Instance during its scheduled time period. You can't stop or reboot a Scheduled Instance, but you can terminate it as needed. If you terminate a Scheduled Instance before the current scheduled time period ends, you can launch it again after a few minutes. For more information, see Scheduled Instances in the Amazon Elastic Compute Cloud User Guide.
*/
runScheduledInstances(params: EC2.Types.RunScheduledInstancesRequest, callback?: (err: AWSError, data: EC2.Types.RunScheduledInstancesResult) => void): Request<EC2.Types.RunScheduledInstancesResult, AWSError>;
/**
* Launches the specified Scheduled Instances. Before you can launch a Scheduled Instance, you must purchase it and obtain an identifier using PurchaseScheduledInstances. You must launch a Scheduled Instance during its scheduled time period. You can't stop or reboot a Scheduled Instance, but you can terminate it as needed. If you terminate a Scheduled Instance before the current scheduled time period ends, you can launch it again after a few minutes. For more information, see Scheduled Instances in the Amazon Elastic Compute Cloud User Guide.
*/
runScheduledInstances(callback?: (err: AWSError, data: EC2.Types.RunScheduledInstancesResult) => void): Request<EC2.Types.RunScheduledInstancesResult, AWSError>;
/**
* Searches for routes in the specified transit gateway route table.
*/
searchTransitGatewayRoutes(params: EC2.Types.SearchTransitGatewayRoutesRequest, callback?: (err: AWSError, data: EC2.Types.SearchTransitGatewayRoutesResult) => void): Request<EC2.Types.SearchTransitGatewayRoutesResult, AWSError>;
/**
* Searches for routes in the specified transit gateway route table.
*/
searchTransitGatewayRoutes(callback?: (err: AWSError, data: EC2.Types.SearchTransitGatewayRoutesResult) => void): Request<EC2.Types.SearchTransitGatewayRoutesResult, AWSError>;
/**
* Sends a diagnostic interrupt to the specified Amazon EC2 instance to trigger a kernel panic (on Linux instances), or a blue screen/stop error (on Windows instances). For instances based on Intel and AMD processors, the interrupt is received as a non-maskable interrupt (NMI). In general, the operating system crashes and reboots when a kernel panic or stop error is triggered. The operating system can also be configured to perform diagnostic tasks, such as generating a memory dump file, loading a secondary kernel, or obtaining a call trace. Before sending a diagnostic interrupt to your instance, ensure that its operating system is configured to perform the required diagnostic tasks. For more information about configuring your operating system to generate a crash dump when a kernel panic or stop error occurs, see Send a Diagnostic Interrupt (Linux instances) or Send a Diagnostic Interrupt (Windows instances).
*/
sendDiagnosticInterrupt(params: EC2.Types.SendDiagnosticInterruptRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Sends a diagnostic interrupt to the specified Amazon EC2 instance to trigger a kernel panic (on Linux instances), or a blue screen/stop error (on Windows instances). For instances based on Intel and AMD processors, the interrupt is received as a non-maskable interrupt (NMI). In general, the operating system crashes and reboots when a kernel panic or stop error is triggered. The operating system can also be configured to perform diagnostic tasks, such as generating a memory dump file, loading a secondary kernel, or obtaining a call trace. Before sending a diagnostic interrupt to your instance, ensure that its operating system is configured to perform the required diagnostic tasks. For more information about configuring your operating system to generate a crash dump when a kernel panic or stop error occurs, see Send a Diagnostic Interrupt (Linux instances) or Send a Diagnostic Interrupt (Windows instances).
*/
sendDiagnosticInterrupt(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Starts an Amazon EBS-backed instance that you've previously stopped. Instances that use Amazon EBS volumes as their root devices can be quickly stopped and started. When an instance is stopped, the compute resources are released and you are not billed for instance usage. However, your root partition Amazon EBS volume remains and continues to persist your data, and you are charged for Amazon EBS volume usage. You can restart your instance at any time. Every time you start your Windows instance, Amazon EC2 charges you for a full instance hour. If you stop and restart your Windows instance, a new instance hour begins and Amazon EC2 charges you for another full instance hour even if you are still within the same 60-minute period when it was stopped. Every time you start your Linux instance, Amazon EC2 charges a one-minute minimum for instance usage, and thereafter charges per second for instance usage. Before stopping an instance, make sure it is in a state from which it can be restarted. Stopping an instance does not preserve data stored in RAM. Performing this operation on an instance that uses an instance store as its root device returns an error. For more information, see Stopping Instances in the Amazon Elastic Compute Cloud User Guide.
*/
startInstances(params: EC2.Types.StartInstancesRequest, callback?: (err: AWSError, data: EC2.Types.StartInstancesResult) => void): Request<EC2.Types.StartInstancesResult, AWSError>;
/**
* Starts an Amazon EBS-backed instance that you've previously stopped. Instances that use Amazon EBS volumes as their root devices can be quickly stopped and started. When an instance is stopped, the compute resources are released and you are not billed for instance usage. However, your root partition Amazon EBS volume remains and continues to persist your data, and you are charged for Amazon EBS volume usage. You can restart your instance at any time. Every time you start your Windows instance, Amazon EC2 charges you for a full instance hour. If you stop and restart your Windows instance, a new instance hour begins and Amazon EC2 charges you for another full instance hour even if you are still within the same 60-minute period when it was stopped. Every time you start your Linux instance, Amazon EC2 charges a one-minute minimum for instance usage, and thereafter charges per second for instance usage. Before stopping an instance, make sure it is in a state from which it can be restarted. Stopping an instance does not preserve data stored in RAM. Performing this operation on an instance that uses an instance store as its root device returns an error. For more information, see Stopping Instances in the Amazon Elastic Compute Cloud User Guide.
*/
startInstances(callback?: (err: AWSError, data: EC2.Types.StartInstancesResult) => void): Request<EC2.Types.StartInstancesResult, AWSError>;
/**
* Stops an Amazon EBS-backed instance. You can use the Stop action to hibernate an instance if the instance is enabled for hibernation and it meets the hibernation prerequisites. For more information, see Hibernate Your Instance in the Amazon Elastic Compute Cloud User Guide. We don't charge usage for a stopped instance, or data transfer fees; however, your root partition Amazon EBS volume remains and continues to persist your data, and you are charged for Amazon EBS volume usage. Every time you start your Windows instance, Amazon EC2 charges you for a full instance hour. If you stop and restart your Windows instance, a new instance hour begins and Amazon EC2 charges you for another full instance hour even if you are still within the same 60-minute period when it was stopped. Every time you start your Linux instance, Amazon EC2 charges a one-minute minimum for instance usage, and thereafter charges per second for instance usage. You can't start, stop, or hibernate Spot Instances, and you can't stop or hibernate instance store-backed instances. For information about using hibernation for Spot Instances, see Hibernating Interrupted Spot Instances in the Amazon Elastic Compute Cloud User Guide. When you stop or hibernate an instance, we shut it down. You can restart your instance at any time. Before stopping or hibernating an instance, make sure it is in a state from which it can be restarted. Stopping an instance does not preserve data stored in RAM, but hibernating an instance does preserve data stored in RAM. If an instance cannot hibernate successfully, a normal shutdown occurs. Stopping and hibernating an instance is different to rebooting or terminating it. For example, when you stop or hibernate an instance, the root device and any other devices attached to the instance persist. When you terminate an instance, the root device and any other devices attached during the instance launch are automatically deleted. For more information about the differences between rebooting, stopping, hibernating, and terminating instances, see Instance Lifecycle in the Amazon Elastic Compute Cloud User Guide. When you stop an instance, we attempt to shut it down forcibly after a short while. If your instance appears stuck in the stopping state after a period of time, there may be an issue with the underlying host computer. For more information, see Troubleshooting Stopping Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
stopInstances(params: EC2.Types.StopInstancesRequest, callback?: (err: AWSError, data: EC2.Types.StopInstancesResult) => void): Request<EC2.Types.StopInstancesResult, AWSError>;
/**
* Stops an Amazon EBS-backed instance. You can use the Stop action to hibernate an instance if the instance is enabled for hibernation and it meets the hibernation prerequisites. For more information, see Hibernate Your Instance in the Amazon Elastic Compute Cloud User Guide. We don't charge usage for a stopped instance, or data transfer fees; however, your root partition Amazon EBS volume remains and continues to persist your data, and you are charged for Amazon EBS volume usage. Every time you start your Windows instance, Amazon EC2 charges you for a full instance hour. If you stop and restart your Windows instance, a new instance hour begins and Amazon EC2 charges you for another full instance hour even if you are still within the same 60-minute period when it was stopped. Every time you start your Linux instance, Amazon EC2 charges a one-minute minimum for instance usage, and thereafter charges per second for instance usage. You can't start, stop, or hibernate Spot Instances, and you can't stop or hibernate instance store-backed instances. For information about using hibernation for Spot Instances, see Hibernating Interrupted Spot Instances in the Amazon Elastic Compute Cloud User Guide. When you stop or hibernate an instance, we shut it down. You can restart your instance at any time. Before stopping or hibernating an instance, make sure it is in a state from which it can be restarted. Stopping an instance does not preserve data stored in RAM, but hibernating an instance does preserve data stored in RAM. If an instance cannot hibernate successfully, a normal shutdown occurs. Stopping and hibernating an instance is different to rebooting or terminating it. For example, when you stop or hibernate an instance, the root device and any other devices attached to the instance persist. When you terminate an instance, the root device and any other devices attached during the instance launch are automatically deleted. For more information about the differences between rebooting, stopping, hibernating, and terminating instances, see Instance Lifecycle in the Amazon Elastic Compute Cloud User Guide. When you stop an instance, we attempt to shut it down forcibly after a short while. If your instance appears stuck in the stopping state after a period of time, there may be an issue with the underlying host computer. For more information, see Troubleshooting Stopping Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
stopInstances(callback?: (err: AWSError, data: EC2.Types.StopInstancesResult) => void): Request<EC2.Types.StopInstancesResult, AWSError>;
/**
* Terminates active Client VPN endpoint connections. This action can be used to terminate a specific client connection, or up to five connections established by a specific user.
*/
terminateClientVpnConnections(params: EC2.Types.TerminateClientVpnConnectionsRequest, callback?: (err: AWSError, data: EC2.Types.TerminateClientVpnConnectionsResult) => void): Request<EC2.Types.TerminateClientVpnConnectionsResult, AWSError>;
/**
* Terminates active Client VPN endpoint connections. This action can be used to terminate a specific client connection, or up to five connections established by a specific user.
*/
terminateClientVpnConnections(callback?: (err: AWSError, data: EC2.Types.TerminateClientVpnConnectionsResult) => void): Request<EC2.Types.TerminateClientVpnConnectionsResult, AWSError>;
/**
* Shuts down the specified instances. This operation is idempotent; if you terminate an instance more than once, each call succeeds. If you specify multiple instances and the request fails (for example, because of a single incorrect instance ID), none of the instances are terminated. Terminated instances remain visible after termination (for approximately one hour). By default, Amazon EC2 deletes all EBS volumes that were attached when the instance launched. Volumes attached after instance launch continue running. You can stop, start, and terminate EBS-backed instances. You can only terminate instance store-backed instances. What happens to an instance differs if you stop it or terminate it. For example, when you stop an instance, the root device and any other devices attached to the instance persist. When you terminate an instance, any attached EBS volumes with the DeleteOnTermination block device mapping parameter set to true are automatically deleted. For more information about the differences between stopping and terminating instances, see Instance Lifecycle in the Amazon Elastic Compute Cloud User Guide. For more information about troubleshooting, see Troubleshooting Terminating Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
terminateInstances(params: EC2.Types.TerminateInstancesRequest, callback?: (err: AWSError, data: EC2.Types.TerminateInstancesResult) => void): Request<EC2.Types.TerminateInstancesResult, AWSError>;
/**
* Shuts down the specified instances. This operation is idempotent; if you terminate an instance more than once, each call succeeds. If you specify multiple instances and the request fails (for example, because of a single incorrect instance ID), none of the instances are terminated. Terminated instances remain visible after termination (for approximately one hour). By default, Amazon EC2 deletes all EBS volumes that were attached when the instance launched. Volumes attached after instance launch continue running. You can stop, start, and terminate EBS-backed instances. You can only terminate instance store-backed instances. What happens to an instance differs if you stop it or terminate it. For example, when you stop an instance, the root device and any other devices attached to the instance persist. When you terminate an instance, any attached EBS volumes with the DeleteOnTermination block device mapping parameter set to true are automatically deleted. For more information about the differences between stopping and terminating instances, see Instance Lifecycle in the Amazon Elastic Compute Cloud User Guide. For more information about troubleshooting, see Troubleshooting Terminating Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
terminateInstances(callback?: (err: AWSError, data: EC2.Types.TerminateInstancesResult) => void): Request<EC2.Types.TerminateInstancesResult, AWSError>;
/**
* Unassigns one or more IPv6 addresses from a network interface.
*/
unassignIpv6Addresses(params: EC2.Types.UnassignIpv6AddressesRequest, callback?: (err: AWSError, data: EC2.Types.UnassignIpv6AddressesResult) => void): Request<EC2.Types.UnassignIpv6AddressesResult, AWSError>;
/**
* Unassigns one or more IPv6 addresses from a network interface.
*/
unassignIpv6Addresses(callback?: (err: AWSError, data: EC2.Types.UnassignIpv6AddressesResult) => void): Request<EC2.Types.UnassignIpv6AddressesResult, AWSError>;
/**
* Unassigns one or more secondary private IP addresses from a network interface.
*/
unassignPrivateIpAddresses(params: EC2.Types.UnassignPrivateIpAddressesRequest, callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Unassigns one or more secondary private IP addresses from a network interface.
*/
unassignPrivateIpAddresses(callback?: (err: AWSError, data: {}) => void): Request<{}, AWSError>;
/**
* Disables detailed monitoring for a running instance. For more information, see Monitoring Your Instances and Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
unmonitorInstances(params: EC2.Types.UnmonitorInstancesRequest, callback?: (err: AWSError, data: EC2.Types.UnmonitorInstancesResult) => void): Request<EC2.Types.UnmonitorInstancesResult, AWSError>;
/**
* Disables detailed monitoring for a running instance. For more information, see Monitoring Your Instances and Volumes in the Amazon Elastic Compute Cloud User Guide.
*/
unmonitorInstances(callback?: (err: AWSError, data: EC2.Types.UnmonitorInstancesResult) => void): Request<EC2.Types.UnmonitorInstancesResult, AWSError>;
/**
* [VPC only] Updates the description of an egress (outbound) security group rule. You can replace an existing description, or add a description to a rule that did not have one previously. You specify the description as part of the IP permissions structure. You can remove a description for a security group rule by omitting the description parameter in the request.
*/
updateSecurityGroupRuleDescriptionsEgress(params: EC2.Types.UpdateSecurityGroupRuleDescriptionsEgressRequest, callback?: (err: AWSError, data: EC2.Types.UpdateSecurityGroupRuleDescriptionsEgressResult) => void): Request<EC2.Types.UpdateSecurityGroupRuleDescriptionsEgressResult, AWSError>;
/**
* [VPC only] Updates the description of an egress (outbound) security group rule. You can replace an existing description, or add a description to a rule that did not have one previously. You specify the description as part of the IP permissions structure. You can remove a description for a security group rule by omitting the description parameter in the request.
*/
updateSecurityGroupRuleDescriptionsEgress(callback?: (err: AWSError, data: EC2.Types.UpdateSecurityGroupRuleDescriptionsEgressResult) => void): Request<EC2.Types.UpdateSecurityGroupRuleDescriptionsEgressResult, AWSError>;
/**
* Updates the description of an ingress (inbound) security group rule. You can replace an existing description, or add a description to a rule that did not have one previously. You specify the description as part of the IP permissions structure. You can remove a description for a security group rule by omitting the description parameter in the request.
*/
updateSecurityGroupRuleDescriptionsIngress(params: EC2.Types.UpdateSecurityGroupRuleDescriptionsIngressRequest, callback?: (err: AWSError, data: EC2.Types.UpdateSecurityGroupRuleDescriptionsIngressResult) => void): Request<EC2.Types.UpdateSecurityGroupRuleDescriptionsIngressResult, AWSError>;
/**
* Updates the description of an ingress (inbound) security group rule. You can replace an existing description, or add a description to a rule that did not have one previously. You specify the description as part of the IP permissions structure. You can remove a description for a security group rule by omitting the description parameter in the request.
*/
updateSecurityGroupRuleDescriptionsIngress(callback?: (err: AWSError, data: EC2.Types.UpdateSecurityGroupRuleDescriptionsIngressResult) => void): Request<EC2.Types.UpdateSecurityGroupRuleDescriptionsIngressResult, AWSError>;
/**
* Stops advertising an IPv4 address range that is provisioned as an address pool. You can perform this operation at most once every 10 seconds, even if you specify different address ranges each time. It can take a few minutes before traffic to the specified addresses stops routing to AWS because of BGP propagation delays.
*/
withdrawByoipCidr(params: EC2.Types.WithdrawByoipCidrRequest, callback?: (err: AWSError, data: EC2.Types.WithdrawByoipCidrResult) => void): Request<EC2.Types.WithdrawByoipCidrResult, AWSError>;
/**
* Stops advertising an IPv4 address range that is provisioned as an address pool. You can perform this operation at most once every 10 seconds, even if you specify different address ranges each time. It can take a few minutes before traffic to the specified addresses stops routing to AWS because of BGP propagation delays.
*/
withdrawByoipCidr(callback?: (err: AWSError, data: EC2.Types.WithdrawByoipCidrResult) => void): Request<EC2.Types.WithdrawByoipCidrResult, AWSError>;
/**
* Waits for the instanceExists state by periodically calling the underlying EC2.describeInstancesoperation every 5 seconds (at most 40 times).
*/
waitFor(state: "instanceExists", params: EC2.Types.DescribeInstancesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the instanceExists state by periodically calling the underlying EC2.describeInstancesoperation every 5 seconds (at most 40 times).
*/
waitFor(state: "instanceExists", callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the bundleTaskComplete state by periodically calling the underlying EC2.describeBundleTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "bundleTaskComplete", params: EC2.Types.DescribeBundleTasksRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeBundleTasksResult) => void): Request<EC2.Types.DescribeBundleTasksResult, AWSError>;
/**
* Waits for the bundleTaskComplete state by periodically calling the underlying EC2.describeBundleTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "bundleTaskComplete", callback?: (err: AWSError, data: EC2.Types.DescribeBundleTasksResult) => void): Request<EC2.Types.DescribeBundleTasksResult, AWSError>;
/**
* Waits for the conversionTaskCancelled state by periodically calling the underlying EC2.describeConversionTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "conversionTaskCancelled", params: EC2.Types.DescribeConversionTasksRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Waits for the conversionTaskCancelled state by periodically calling the underlying EC2.describeConversionTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "conversionTaskCancelled", callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Waits for the conversionTaskCompleted state by periodically calling the underlying EC2.describeConversionTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "conversionTaskCompleted", params: EC2.Types.DescribeConversionTasksRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Waits for the conversionTaskCompleted state by periodically calling the underlying EC2.describeConversionTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "conversionTaskCompleted", callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Waits for the conversionTaskDeleted state by periodically calling the underlying EC2.describeConversionTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "conversionTaskDeleted", params: EC2.Types.DescribeConversionTasksRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Waits for the conversionTaskDeleted state by periodically calling the underlying EC2.describeConversionTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "conversionTaskDeleted", callback?: (err: AWSError, data: EC2.Types.DescribeConversionTasksResult) => void): Request<EC2.Types.DescribeConversionTasksResult, AWSError>;
/**
* Waits for the customerGatewayAvailable state by periodically calling the underlying EC2.describeCustomerGatewaysoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "customerGatewayAvailable", params: EC2.Types.DescribeCustomerGatewaysRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeCustomerGatewaysResult) => void): Request<EC2.Types.DescribeCustomerGatewaysResult, AWSError>;
/**
* Waits for the customerGatewayAvailable state by periodically calling the underlying EC2.describeCustomerGatewaysoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "customerGatewayAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeCustomerGatewaysResult) => void): Request<EC2.Types.DescribeCustomerGatewaysResult, AWSError>;
/**
* Waits for the exportTaskCancelled state by periodically calling the underlying EC2.describeExportTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "exportTaskCancelled", params: EC2.Types.DescribeExportTasksRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeExportTasksResult) => void): Request<EC2.Types.DescribeExportTasksResult, AWSError>;
/**
* Waits for the exportTaskCancelled state by periodically calling the underlying EC2.describeExportTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "exportTaskCancelled", callback?: (err: AWSError, data: EC2.Types.DescribeExportTasksResult) => void): Request<EC2.Types.DescribeExportTasksResult, AWSError>;
/**
* Waits for the exportTaskCompleted state by periodically calling the underlying EC2.describeExportTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "exportTaskCompleted", params: EC2.Types.DescribeExportTasksRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeExportTasksResult) => void): Request<EC2.Types.DescribeExportTasksResult, AWSError>;
/**
* Waits for the exportTaskCompleted state by periodically calling the underlying EC2.describeExportTasksoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "exportTaskCompleted", callback?: (err: AWSError, data: EC2.Types.DescribeExportTasksResult) => void): Request<EC2.Types.DescribeExportTasksResult, AWSError>;
/**
* Waits for the imageExists state by periodically calling the underlying EC2.describeImagesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "imageExists", params: EC2.Types.DescribeImagesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeImagesResult) => void): Request<EC2.Types.DescribeImagesResult, AWSError>;
/**
* Waits for the imageExists state by periodically calling the underlying EC2.describeImagesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "imageExists", callback?: (err: AWSError, data: EC2.Types.DescribeImagesResult) => void): Request<EC2.Types.DescribeImagesResult, AWSError>;
/**
* Waits for the imageAvailable state by periodically calling the underlying EC2.describeImagesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "imageAvailable", params: EC2.Types.DescribeImagesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeImagesResult) => void): Request<EC2.Types.DescribeImagesResult, AWSError>;
/**
* Waits for the imageAvailable state by periodically calling the underlying EC2.describeImagesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "imageAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeImagesResult) => void): Request<EC2.Types.DescribeImagesResult, AWSError>;
/**
* Waits for the instanceRunning state by periodically calling the underlying EC2.describeInstancesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceRunning", params: EC2.Types.DescribeInstancesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the instanceRunning state by periodically calling the underlying EC2.describeInstancesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceRunning", callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the instanceStatusOk state by periodically calling the underlying EC2.describeInstanceStatusoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceStatusOk", params: EC2.Types.DescribeInstanceStatusRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeInstanceStatusResult) => void): Request<EC2.Types.DescribeInstanceStatusResult, AWSError>;
/**
* Waits for the instanceStatusOk state by periodically calling the underlying EC2.describeInstanceStatusoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceStatusOk", callback?: (err: AWSError, data: EC2.Types.DescribeInstanceStatusResult) => void): Request<EC2.Types.DescribeInstanceStatusResult, AWSError>;
/**
* Waits for the instanceStopped state by periodically calling the underlying EC2.describeInstancesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceStopped", params: EC2.Types.DescribeInstancesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the instanceStopped state by periodically calling the underlying EC2.describeInstancesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceStopped", callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the instanceTerminated state by periodically calling the underlying EC2.describeInstancesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceTerminated", params: EC2.Types.DescribeInstancesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the instanceTerminated state by periodically calling the underlying EC2.describeInstancesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "instanceTerminated", callback?: (err: AWSError, data: EC2.Types.DescribeInstancesResult) => void): Request<EC2.Types.DescribeInstancesResult, AWSError>;
/**
* Waits for the keyPairExists state by periodically calling the underlying EC2.describeKeyPairsoperation every 5 seconds (at most 6 times).
*/
waitFor(state: "keyPairExists", params: EC2.Types.DescribeKeyPairsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeKeyPairsResult) => void): Request<EC2.Types.DescribeKeyPairsResult, AWSError>;
/**
* Waits for the keyPairExists state by periodically calling the underlying EC2.describeKeyPairsoperation every 5 seconds (at most 6 times).
*/
waitFor(state: "keyPairExists", callback?: (err: AWSError, data: EC2.Types.DescribeKeyPairsResult) => void): Request<EC2.Types.DescribeKeyPairsResult, AWSError>;
/**
* Waits for the natGatewayAvailable state by periodically calling the underlying EC2.describeNatGatewaysoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "natGatewayAvailable", params: EC2.Types.DescribeNatGatewaysRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeNatGatewaysResult) => void): Request<EC2.Types.DescribeNatGatewaysResult, AWSError>;
/**
* Waits for the natGatewayAvailable state by periodically calling the underlying EC2.describeNatGatewaysoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "natGatewayAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeNatGatewaysResult) => void): Request<EC2.Types.DescribeNatGatewaysResult, AWSError>;
/**
* Waits for the networkInterfaceAvailable state by periodically calling the underlying EC2.describeNetworkInterfacesoperation every 20 seconds (at most 10 times).
*/
waitFor(state: "networkInterfaceAvailable", params: EC2.Types.DescribeNetworkInterfacesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfacesResult) => void): Request<EC2.Types.DescribeNetworkInterfacesResult, AWSError>;
/**
* Waits for the networkInterfaceAvailable state by periodically calling the underlying EC2.describeNetworkInterfacesoperation every 20 seconds (at most 10 times).
*/
waitFor(state: "networkInterfaceAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeNetworkInterfacesResult) => void): Request<EC2.Types.DescribeNetworkInterfacesResult, AWSError>;
/**
* Waits for the passwordDataAvailable state by periodically calling the underlying EC2.getPasswordDataoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "passwordDataAvailable", params: EC2.Types.GetPasswordDataRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.GetPasswordDataResult) => void): Request<EC2.Types.GetPasswordDataResult, AWSError>;
/**
* Waits for the passwordDataAvailable state by periodically calling the underlying EC2.getPasswordDataoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "passwordDataAvailable", callback?: (err: AWSError, data: EC2.Types.GetPasswordDataResult) => void): Request<EC2.Types.GetPasswordDataResult, AWSError>;
/**
* Waits for the snapshotCompleted state by periodically calling the underlying EC2.describeSnapshotsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "snapshotCompleted", params: EC2.Types.DescribeSnapshotsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeSnapshotsResult) => void): Request<EC2.Types.DescribeSnapshotsResult, AWSError>;
/**
* Waits for the snapshotCompleted state by periodically calling the underlying EC2.describeSnapshotsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "snapshotCompleted", callback?: (err: AWSError, data: EC2.Types.DescribeSnapshotsResult) => void): Request<EC2.Types.DescribeSnapshotsResult, AWSError>;
/**
* Waits for the spotInstanceRequestFulfilled state by periodically calling the underlying EC2.describeSpotInstanceRequestsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "spotInstanceRequestFulfilled", params: EC2.Types.DescribeSpotInstanceRequestsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeSpotInstanceRequestsResult) => void): Request<EC2.Types.DescribeSpotInstanceRequestsResult, AWSError>;
/**
* Waits for the spotInstanceRequestFulfilled state by periodically calling the underlying EC2.describeSpotInstanceRequestsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "spotInstanceRequestFulfilled", callback?: (err: AWSError, data: EC2.Types.DescribeSpotInstanceRequestsResult) => void): Request<EC2.Types.DescribeSpotInstanceRequestsResult, AWSError>;
/**
* Waits for the subnetAvailable state by periodically calling the underlying EC2.describeSubnetsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "subnetAvailable", params: EC2.Types.DescribeSubnetsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeSubnetsResult) => void): Request<EC2.Types.DescribeSubnetsResult, AWSError>;
/**
* Waits for the subnetAvailable state by periodically calling the underlying EC2.describeSubnetsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "subnetAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeSubnetsResult) => void): Request<EC2.Types.DescribeSubnetsResult, AWSError>;
/**
* Waits for the systemStatusOk state by periodically calling the underlying EC2.describeInstanceStatusoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "systemStatusOk", params: EC2.Types.DescribeInstanceStatusRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeInstanceStatusResult) => void): Request<EC2.Types.DescribeInstanceStatusResult, AWSError>;
/**
* Waits for the systemStatusOk state by periodically calling the underlying EC2.describeInstanceStatusoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "systemStatusOk", callback?: (err: AWSError, data: EC2.Types.DescribeInstanceStatusResult) => void): Request<EC2.Types.DescribeInstanceStatusResult, AWSError>;
/**
* Waits for the volumeAvailable state by periodically calling the underlying EC2.describeVolumesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "volumeAvailable", params: EC2.Types.DescribeVolumesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Waits for the volumeAvailable state by periodically calling the underlying EC2.describeVolumesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "volumeAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Waits for the volumeDeleted state by periodically calling the underlying EC2.describeVolumesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "volumeDeleted", params: EC2.Types.DescribeVolumesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Waits for the volumeDeleted state by periodically calling the underlying EC2.describeVolumesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "volumeDeleted", callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Waits for the volumeInUse state by periodically calling the underlying EC2.describeVolumesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "volumeInUse", params: EC2.Types.DescribeVolumesRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Waits for the volumeInUse state by periodically calling the underlying EC2.describeVolumesoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "volumeInUse", callback?: (err: AWSError, data: EC2.Types.DescribeVolumesResult) => void): Request<EC2.Types.DescribeVolumesResult, AWSError>;
/**
* Waits for the vpcAvailable state by periodically calling the underlying EC2.describeVpcsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpcAvailable", params: EC2.Types.DescribeVpcsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVpcsResult) => void): Request<EC2.Types.DescribeVpcsResult, AWSError>;
/**
* Waits for the vpcAvailable state by periodically calling the underlying EC2.describeVpcsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpcAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeVpcsResult) => void): Request<EC2.Types.DescribeVpcsResult, AWSError>;
/**
* Waits for the vpcExists state by periodically calling the underlying EC2.describeVpcsoperation every 1 seconds (at most 5 times).
*/
waitFor(state: "vpcExists", params: EC2.Types.DescribeVpcsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVpcsResult) => void): Request<EC2.Types.DescribeVpcsResult, AWSError>;
/**
* Waits for the vpcExists state by periodically calling the underlying EC2.describeVpcsoperation every 1 seconds (at most 5 times).
*/
waitFor(state: "vpcExists", callback?: (err: AWSError, data: EC2.Types.DescribeVpcsResult) => void): Request<EC2.Types.DescribeVpcsResult, AWSError>;
/**
* Waits for the vpnConnectionAvailable state by periodically calling the underlying EC2.describeVpnConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpnConnectionAvailable", params: EC2.Types.DescribeVpnConnectionsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVpnConnectionsResult) => void): Request<EC2.Types.DescribeVpnConnectionsResult, AWSError>;
/**
* Waits for the vpnConnectionAvailable state by periodically calling the underlying EC2.describeVpnConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpnConnectionAvailable", callback?: (err: AWSError, data: EC2.Types.DescribeVpnConnectionsResult) => void): Request<EC2.Types.DescribeVpnConnectionsResult, AWSError>;
/**
* Waits for the vpnConnectionDeleted state by periodically calling the underlying EC2.describeVpnConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpnConnectionDeleted", params: EC2.Types.DescribeVpnConnectionsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVpnConnectionsResult) => void): Request<EC2.Types.DescribeVpnConnectionsResult, AWSError>;
/**
* Waits for the vpnConnectionDeleted state by periodically calling the underlying EC2.describeVpnConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpnConnectionDeleted", callback?: (err: AWSError, data: EC2.Types.DescribeVpnConnectionsResult) => void): Request<EC2.Types.DescribeVpnConnectionsResult, AWSError>;
/**
* Waits for the vpcPeeringConnectionExists state by periodically calling the underlying EC2.describeVpcPeeringConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpcPeeringConnectionExists", params: EC2.Types.DescribeVpcPeeringConnectionsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVpcPeeringConnectionsResult) => void): Request<EC2.Types.DescribeVpcPeeringConnectionsResult, AWSError>;
/**
* Waits for the vpcPeeringConnectionExists state by periodically calling the underlying EC2.describeVpcPeeringConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpcPeeringConnectionExists", callback?: (err: AWSError, data: EC2.Types.DescribeVpcPeeringConnectionsResult) => void): Request<EC2.Types.DescribeVpcPeeringConnectionsResult, AWSError>;
/**
* Waits for the vpcPeeringConnectionDeleted state by periodically calling the underlying EC2.describeVpcPeeringConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpcPeeringConnectionDeleted", params: EC2.Types.DescribeVpcPeeringConnectionsRequest & {$waiter?: WaiterConfiguration}, callback?: (err: AWSError, data: EC2.Types.DescribeVpcPeeringConnectionsResult) => void): Request<EC2.Types.DescribeVpcPeeringConnectionsResult, AWSError>;
/**
* Waits for the vpcPeeringConnectionDeleted state by periodically calling the underlying EC2.describeVpcPeeringConnectionsoperation every 15 seconds (at most 40 times).
*/
waitFor(state: "vpcPeeringConnectionDeleted", callback?: (err: AWSError, data: EC2.Types.DescribeVpcPeeringConnectionsResult) => void): Request<EC2.Types.DescribeVpcPeeringConnectionsResult, AWSError>;
}
declare namespace EC2 {
export interface AcceptReservedInstancesExchangeQuoteRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the Convertible Reserved Instances to exchange for another Convertible Reserved Instance of the same or higher value.
*/
ReservedInstanceIds: ReservedInstanceIdSet;
/**
* The configuration of the target Convertible Reserved Instance to exchange for your current Convertible Reserved Instances.
*/
TargetConfigurations?: TargetConfigurationRequestSet;
}
export interface AcceptReservedInstancesExchangeQuoteResult {
/**
* The ID of the successful exchange.
*/
ExchangeId?: String;
}
export interface AcceptTransitGatewayVpcAttachmentRequest {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AcceptTransitGatewayVpcAttachmentResult {
/**
* The VPC attachment.
*/
TransitGatewayVpcAttachment?: TransitGatewayVpcAttachment;
}
export interface AcceptVpcEndpointConnectionsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the endpoint service.
*/
ServiceId: ServiceId;
/**
* The IDs of one or more interface VPC endpoints.
*/
VpcEndpointIds: ValueStringList;
}
export interface AcceptVpcEndpointConnectionsResult {
/**
* Information about the interface endpoints that were not accepted, if applicable.
*/
Unsuccessful?: UnsuccessfulItemSet;
}
export interface AcceptVpcPeeringConnectionRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC peering connection. You must specify this parameter in the request.
*/
VpcPeeringConnectionId?: VpcPeeringConnectionId;
}
export interface AcceptVpcPeeringConnectionResult {
/**
* Information about the VPC peering connection.
*/
VpcPeeringConnection?: VpcPeeringConnection;
}
export interface AccountAttribute {
/**
* The name of the account attribute.
*/
AttributeName?: String;
/**
* The values for the account attribute.
*/
AttributeValues?: AccountAttributeValueList;
}
export type AccountAttributeList = AccountAttribute[];
export type AccountAttributeName = "supported-platforms"|"default-vpc"|string;
export type AccountAttributeNameStringList = AccountAttributeName[];
export interface AccountAttributeValue {
/**
* The value of the attribute.
*/
AttributeValue?: String;
}
export type AccountAttributeValueList = AccountAttributeValue[];
export interface ActiveInstance {
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The instance type.
*/
InstanceType?: String;
/**
* The ID of the Spot Instance request.
*/
SpotInstanceRequestId?: String;
/**
* The health status of the instance. If the status of either the instance status check or the system status check is impaired, the health status of the instance is unhealthy. Otherwise, the health status is healthy.
*/
InstanceHealth?: InstanceHealthStatus;
}
export type ActiveInstanceSet = ActiveInstance[];
export type ActivityStatus = "error"|"pending_fulfillment"|"pending_termination"|"fulfilled"|string;
export interface Address {
/**
* The ID of the instance that the address is associated with (if any).
*/
InstanceId?: String;
/**
* The Elastic IP address.
*/
PublicIp?: String;
/**
* The ID representing the allocation of the address for use with EC2-VPC.
*/
AllocationId?: String;
/**
* The ID representing the association of the address with an instance in a VPC.
*/
AssociationId?: String;
/**
* Indicates whether this Elastic IP address is for use with instances in EC2-Classic (standard) or instances in a VPC (vpc).
*/
Domain?: DomainType;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The ID of the AWS account that owns the network interface.
*/
NetworkInterfaceOwnerId?: String;
/**
* The private IP address associated with the Elastic IP address.
*/
PrivateIpAddress?: String;
/**
* Any tags assigned to the Elastic IP address.
*/
Tags?: TagList;
/**
* The ID of an address pool.
*/
PublicIpv4Pool?: String;
}
export type AddressList = Address[];
export interface AdvertiseByoipCidrRequest {
/**
* The IPv4 address range, in CIDR notation. This must be the exact range that you provisioned. You can't advertise only a portion of the provisioned range.
*/
Cidr: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AdvertiseByoipCidrResult {
/**
* Information about the address range.
*/
ByoipCidr?: ByoipCidr;
}
export type Affinity = "default"|"host"|string;
export interface AllocateAddressRequest {
/**
* Set to vpc to allocate the address for use with instances in a VPC. Default: The address is for use with instances in EC2-Classic.
*/
Domain?: DomainType;
/**
* [EC2-VPC] The Elastic IP address to recover or an IPv4 address from an address pool.
*/
Address?: String;
/**
* The ID of an address pool that you own. Use this parameter to let Amazon EC2 select an address from the address pool. To specify a specific address from the address pool, use the Address parameter instead.
*/
PublicIpv4Pool?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AllocateAddressResult {
/**
* The Elastic IP address.
*/
PublicIp?: String;
/**
* [EC2-VPC] The ID that AWS assigns to represent the allocation of the Elastic IP address for use with instances in a VPC.
*/
AllocationId?: String;
/**
* The ID of an address pool.
*/
PublicIpv4Pool?: String;
/**
* Indicates whether this Elastic IP address is for use with instances in EC2-Classic (standard) or instances in a VPC (vpc).
*/
Domain?: DomainType;
}
export interface AllocateHostsRequest {
/**
* Indicates whether the host accepts any untargeted instance launches that match its instance type configuration, or if it only accepts Host tenancy instance launches that specify its unique host ID. For more information, see Understanding Instance Placement and Host Affinity in the Amazon EC2 User Guide for Linux Instances. Default: on
*/
AutoPlacement?: AutoPlacement;
/**
* The Availability Zone in which to allocate the Dedicated Host.
*/
AvailabilityZone: String;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* Specifies the instance type for which to configure your Dedicated Hosts. When you specify the instance type, that is the only instance type that you can launch onto that host.
*/
InstanceType: String;
/**
* The number of Dedicated Hosts to allocate to your account with these parameters.
*/
Quantity: Integer;
/**
* The tags to apply to the Dedicated Host during creation.
*/
TagSpecifications?: TagSpecificationList;
/**
* Indicates whether to enable or disable host recovery for the Dedicated Host. Host recovery is disabled by default. For more information, see Host Recovery in the Amazon Elastic Compute Cloud User Guide. Default: off
*/
HostRecovery?: HostRecovery;
}
export interface AllocateHostsResult {
/**
* The ID of the allocated Dedicated Host. This is used to launch an instance onto a specific host.
*/
HostIds?: ResponseHostIdList;
}
export type AllocationId = string;
export type AllocationIdList = String[];
export type AllocationState = "available"|"under-assessment"|"permanent-failure"|"released"|"released-permanent-failure"|"pending"|string;
export type AllocationStrategy = "lowestPrice"|"diversified"|"capacityOptimized"|string;
export interface AllowedPrincipal {
/**
* The type of principal.
*/
PrincipalType?: PrincipalType;
/**
* The Amazon Resource Name (ARN) of the principal.
*/
Principal?: String;
}
export type AllowedPrincipalSet = AllowedPrincipal[];
export interface ApplySecurityGroupsToClientVpnTargetNetworkRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The ID of the VPC in which the associated target network is located.
*/
VpcId: VpcId;
/**
* The IDs of the security groups to apply to the associated target network. Up to 5 security groups can be applied to an associated target network.
*/
SecurityGroupIds: ClientVpnSecurityGroupIdSet;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ApplySecurityGroupsToClientVpnTargetNetworkResult {
/**
* The IDs of the applied security groups.
*/
SecurityGroupIds?: ClientVpnSecurityGroupIdSet;
}
export type ArchitectureValues = "i386"|"x86_64"|"arm64"|string;
export interface AssignIpv6AddressesRequest {
/**
* The number of IPv6 addresses to assign to the network interface. Amazon EC2 automatically selects the IPv6 addresses from the subnet range. You can't use this option if specifying specific IPv6 addresses.
*/
Ipv6AddressCount?: Integer;
/**
* One or more specific IPv6 addresses to be assigned to the network interface. You can't use this option if you're specifying a number of IPv6 addresses.
*/
Ipv6Addresses?: Ipv6AddressList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
}
export interface AssignIpv6AddressesResult {
/**
* The IPv6 addresses assigned to the network interface.
*/
AssignedIpv6Addresses?: Ipv6AddressList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
}
export interface AssignPrivateIpAddressesRequest {
/**
* Indicates whether to allow an IP address that is already assigned to another network interface or instance to be reassigned to the specified network interface.
*/
AllowReassignment?: Boolean;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
/**
* One or more IP addresses to be assigned as a secondary private IP address to the network interface. You can't specify this parameter when also specifying a number of secondary IP addresses. If you don't specify an IP address, Amazon EC2 automatically selects an IP address within the subnet range.
*/
PrivateIpAddresses?: PrivateIpAddressStringList;
/**
* The number of secondary IP addresses to assign to the network interface. You can't specify this parameter when also specifying private IP addresses.
*/
SecondaryPrivateIpAddressCount?: Integer;
}
export interface AssignPrivateIpAddressesResult {
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The private IP addresses assigned to the network interface.
*/
AssignedPrivateIpAddresses?: AssignedPrivateIpAddressList;
}
export interface AssignedPrivateIpAddress {
/**
* The private IP address assigned to the network interface.
*/
PrivateIpAddress?: String;
}
export type AssignedPrivateIpAddressList = AssignedPrivateIpAddress[];
export interface AssociateAddressRequest {
/**
* [EC2-VPC] The allocation ID. This is required for EC2-VPC.
*/
AllocationId?: AllocationId;
/**
* The ID of the instance. This is required for EC2-Classic. For EC2-VPC, you can specify either the instance ID or the network interface ID, but not both. The operation fails if you specify an instance ID unless exactly one network interface is attached.
*/
InstanceId?: InstanceId;
/**
* The Elastic IP address to associate with the instance. This is required for EC2-Classic.
*/
PublicIp?: String;
/**
* [EC2-VPC] For a VPC in an EC2-Classic account, specify true to allow an Elastic IP address that is already associated with an instance or network interface to be reassociated with the specified instance or network interface. Otherwise, the operation fails. In a VPC in an EC2-VPC-only account, reassociation is automatic, therefore you can specify false to ensure the operation fails if the Elastic IP address is already associated with another resource.
*/
AllowReassociation?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* [EC2-VPC] The ID of the network interface. If the instance has more than one network interface, you must specify a network interface ID. For EC2-VPC, you can specify either the instance ID or the network interface ID, but not both.
*/
NetworkInterfaceId?: NetworkInterfaceId;
/**
* [EC2-VPC] The primary or secondary private IP address to associate with the Elastic IP address. If no private IP address is specified, the Elastic IP address is associated with the primary private IP address.
*/
PrivateIpAddress?: String;
}
export interface AssociateAddressResult {
/**
* [EC2-VPC] The ID that represents the association of the Elastic IP address with an instance.
*/
AssociationId?: String;
}
export interface AssociateClientVpnTargetNetworkRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The ID of the subnet to associate with the Client VPN endpoint.
*/
SubnetId: SubnetId;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AssociateClientVpnTargetNetworkResult {
/**
* The unique ID of the target network association.
*/
AssociationId?: String;
/**
* The current state of the target network association.
*/
Status?: AssociationStatus;
}
export interface AssociateDhcpOptionsRequest {
/**
* The ID of the DHCP options set, or default to associate no DHCP options with the VPC.
*/
DhcpOptionsId: DhcpOptionsId;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AssociateIamInstanceProfileRequest {
/**
* The IAM instance profile.
*/
IamInstanceProfile: IamInstanceProfileSpecification;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
}
export interface AssociateIamInstanceProfileResult {
/**
* Information about the IAM instance profile association.
*/
IamInstanceProfileAssociation?: IamInstanceProfileAssociation;
}
export interface AssociateRouteTableRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the route table.
*/
RouteTableId: RouteTableId;
/**
* The ID of the subnet.
*/
SubnetId: SubnetId;
}
export interface AssociateRouteTableResult {
/**
* The route table association ID. This ID is required for disassociating the route table.
*/
AssociationId?: String;
}
export interface AssociateSubnetCidrBlockRequest {
/**
* The IPv6 CIDR block for your subnet. The subnet must have a /64 prefix length.
*/
Ipv6CidrBlock: String;
/**
* The ID of your subnet.
*/
SubnetId: SubnetId;
}
export interface AssociateSubnetCidrBlockResult {
/**
* Information about the IPv6 CIDR block association.
*/
Ipv6CidrBlockAssociation?: SubnetIpv6CidrBlockAssociation;
/**
* The ID of the subnet.
*/
SubnetId?: String;
}
export interface AssociateTransitGatewayRouteTableRequest {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AssociateTransitGatewayRouteTableResult {
/**
* The ID of the association.
*/
Association?: TransitGatewayAssociation;
}
export interface AssociateVpcCidrBlockRequest {
/**
* Requests an Amazon-provided IPv6 CIDR block with a /56 prefix length for the VPC. You cannot specify the range of IPv6 addresses, or the size of the CIDR block.
*/
AmazonProvidedIpv6CidrBlock?: Boolean;
/**
* An IPv4 CIDR block to associate with the VPC.
*/
CidrBlock?: String;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface AssociateVpcCidrBlockResult {
/**
* Information about the IPv6 CIDR block association.
*/
Ipv6CidrBlockAssociation?: VpcIpv6CidrBlockAssociation;
/**
* Information about the IPv4 CIDR block association.
*/
CidrBlockAssociation?: VpcCidrBlockAssociation;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export type AssociatedNetworkType = "vpc"|string;
export interface AssociatedTargetNetwork {
/**
* The ID of the subnet.
*/
NetworkId?: String;
/**
* The target network type.
*/
NetworkType?: AssociatedNetworkType;
}
export type AssociatedTargetNetworkSet = AssociatedTargetNetwork[];
export type AssociationIdList = String[];
export interface AssociationStatus {
/**
* The state of the target network association.
*/
Code?: AssociationStatusCode;
/**
* A message about the status of the target network association, if applicable.
*/
Message?: String;
}
export type AssociationStatusCode = "associating"|"associated"|"association-failed"|"disassociating"|"disassociated"|string;
export interface AttachClassicLinkVpcRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of one or more of the VPC's security groups. You cannot specify security groups from a different VPC.
*/
Groups: GroupIdStringList;
/**
* The ID of an EC2-Classic instance to link to the ClassicLink-enabled VPC.
*/
InstanceId: InstanceId;
/**
* The ID of a ClassicLink-enabled VPC.
*/
VpcId: VpcId;
}
export interface AttachClassicLinkVpcResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface AttachInternetGatewayRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the internet gateway.
*/
InternetGatewayId: InternetGatewayId;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface AttachNetworkInterfaceRequest {
/**
* The index of the device for the network interface attachment.
*/
DeviceIndex: Integer;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
}
export interface AttachNetworkInterfaceResult {
/**
* The ID of the network interface attachment.
*/
AttachmentId?: String;
}
export interface AttachVolumeRequest {
/**
* The device name (for example, /dev/sdh or xvdh).
*/
Device: String;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* The ID of the EBS volume. The volume and instance must be within the same Availability Zone.
*/
VolumeId: VolumeId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AttachVpnGatewayRequest {
/**
* The ID of the VPC.
*/
VpcId: VpcId;
/**
* The ID of the virtual private gateway.
*/
VpnGatewayId: VpnGatewayId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AttachVpnGatewayResult {
/**
* Information about the attachment.
*/
VpcAttachment?: VpcAttachment;
}
export type AttachmentId = string;
export type AttachmentStatus = "attaching"|"attached"|"detaching"|"detached"|string;
export interface AttributeBooleanValue {
/**
* The attribute value. The valid values are true or false.
*/
Value?: Boolean;
}
export interface AttributeValue {
/**
* The attribute value. The value is case-sensitive.
*/
Value?: String;
}
export interface AuthorizationRule {
/**
* The ID of the Client VPN endpoint with which the authorization rule is associated.
*/
ClientVpnEndpointId?: String;
/**
* A brief description of the authorization rule.
*/
Description?: String;
/**
* The ID of the Active Directory group to which the authorization rule grants access.
*/
GroupId?: String;
/**
* Indicates whether the authorization rule grants access to all clients.
*/
AccessAll?: Boolean;
/**
* The IPv4 address range, in CIDR notation, of the network to which the authorization rule applies.
*/
DestinationCidr?: String;
/**
* The current state of the authorization rule.
*/
Status?: ClientVpnAuthorizationRuleStatus;
}
export type AuthorizationRuleSet = AuthorizationRule[];
export interface AuthorizeClientVpnIngressRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The IPv4 address range, in CIDR notation, of the network for which access is being authorized.
*/
TargetNetworkCidr: String;
/**
* The ID of the Active Directory group to grant access.
*/
AccessGroupId?: String;
/**
* Indicates whether to grant access to all clients. Use true to grant all clients who successfully establish a VPN connection access to the network.
*/
AuthorizeAllGroups?: Boolean;
/**
* A brief description of the authorization rule.
*/
Description?: String;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface AuthorizeClientVpnIngressResult {
/**
* The current state of the authorization rule.
*/
Status?: ClientVpnAuthorizationRuleStatus;
}
export interface AuthorizeSecurityGroupEgressRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the security group.
*/
GroupId: String;
/**
* The sets of IP permissions. You can't specify a destination security group and a CIDR IP address range in the same set of permissions.
*/
IpPermissions?: IpPermissionList;
/**
* Not supported. Use a set of IP permissions to specify the CIDR.
*/
CidrIp?: String;
/**
* Not supported. Use a set of IP permissions to specify the port.
*/
FromPort?: Integer;
/**
* Not supported. Use a set of IP permissions to specify the protocol name or number.
*/
IpProtocol?: String;
/**
* Not supported. Use a set of IP permissions to specify the port.
*/
ToPort?: Integer;
/**
* Not supported. Use a set of IP permissions to specify a destination security group.
*/
SourceSecurityGroupName?: String;
/**
* Not supported. Use a set of IP permissions to specify a destination security group.
*/
SourceSecurityGroupOwnerId?: String;
}
export interface AuthorizeSecurityGroupIngressRequest {
/**
* The IPv4 address range, in CIDR format. You can't specify this parameter when specifying a source security group. To specify an IPv6 address range, use a set of IP permissions. Alternatively, use a set of IP permissions to specify multiple rules and a description for the rule.
*/
CidrIp?: String;
/**
* The start of port range for the TCP and UDP protocols, or an ICMP type number. For the ICMP type number, use -1 to specify all types. If you specify all ICMP types, you must specify all codes. Alternatively, use a set of IP permissions to specify multiple rules and a description for the rule.
*/
FromPort?: Integer;
/**
* The ID of the security group. You must specify either the security group ID or the security group name in the request. For security groups in a nondefault VPC, you must specify the security group ID.
*/
GroupId?: String;
/**
* [EC2-Classic, default VPC] The name of the security group. You must specify either the security group ID or the security group name in the request.
*/
GroupName?: String;
/**
* The sets of IP permissions.
*/
IpPermissions?: IpPermissionList;
/**
* The IP protocol name (tcp, udp, icmp) or number (see Protocol Numbers). To specify icmpv6, use a set of IP permissions. [VPC only] Use -1 to specify all protocols. If you specify -1 or a protocol other than tcp, udp, or icmp, traffic on all ports is allowed, regardless of any ports you specify. Alternatively, use a set of IP permissions to specify multiple rules and a description for the rule.
*/
IpProtocol?: String;
/**
* [EC2-Classic, default VPC] The name of the source security group. You can't specify this parameter in combination with the following parameters: the CIDR IP address range, the start of the port range, the IP protocol, and the end of the port range. Creates rules that grant full ICMP, UDP, and TCP access. To create a rule with a specific IP protocol and port range, use a set of IP permissions instead. For EC2-VPC, the source security group must be in the same VPC.
*/
SourceSecurityGroupName?: String;
/**
* [nondefault VPC] The AWS account ID for the source security group, if the source security group is in a different account. You can't specify this parameter in combination with the following parameters: the CIDR IP address range, the IP protocol, the start of the port range, and the end of the port range. Creates rules that grant full ICMP, UDP, and TCP access. To create a rule with a specific IP protocol and port range, use a set of IP permissions instead.
*/
SourceSecurityGroupOwnerId?: String;
/**
* The end of port range for the TCP and UDP protocols, or an ICMP code number. For the ICMP code number, use -1 to specify all codes. If you specify all ICMP types, you must specify all codes. Alternatively, use a set of IP permissions to specify multiple rules and a description for the rule.
*/
ToPort?: Integer;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export type AutoAcceptSharedAttachmentsValue = "enable"|"disable"|string;
export type AutoPlacement = "on"|"off"|string;
export interface AvailabilityZone {
/**
* The state of the Availability Zone.
*/
State?: AvailabilityZoneState;
/**
* Any messages about the Availability Zone.
*/
Messages?: AvailabilityZoneMessageList;
/**
* The name of the Region.
*/
RegionName?: String;
/**
* The name of the Availability Zone.
*/
ZoneName?: String;
/**
* The ID of the Availability Zone.
*/
ZoneId?: String;
}
export type AvailabilityZoneList = AvailabilityZone[];
export interface AvailabilityZoneMessage {
/**
* The message about the Availability Zone.
*/
Message?: String;
}
export type AvailabilityZoneMessageList = AvailabilityZoneMessage[];
export type AvailabilityZoneState = "available"|"information"|"impaired"|"unavailable"|string;
export interface AvailableCapacity {
/**
* The total number of instances supported by the Dedicated Host.
*/
AvailableInstanceCapacity?: AvailableInstanceCapacityList;
/**
* The number of vCPUs available on the Dedicated Host.
*/
AvailableVCpus?: Integer;
}
export type AvailableInstanceCapacityList = InstanceCapacity[];
export type BatchState = "submitted"|"active"|"cancelled"|"failed"|"cancelled_running"|"cancelled_terminating"|"modifying"|string;
export type BillingProductList = String[];
export type _Blob = Buffer|Uint8Array|Blob|string;
export interface BlobAttributeValue {
Value?: _Blob;
}
export interface BlockDeviceMapping {
/**
* The device name (for example, /dev/sdh or xvdh).
*/
DeviceName?: String;
/**
* The virtual device name (ephemeralN). Instance store volumes are numbered starting from 0. An instance type with 2 available instance store volumes can specify mappings for ephemeral0 and ephemeral1. The number of available instance store volumes depends on the instance type. After you connect to the instance, you must mount the volume. NVMe instance store volumes are automatically enumerated and assigned a device name. Including them in your block device mapping has no effect. Constraints: For M3 instances, you must specify instance store volumes in the block device mapping for the instance. When you launch an M3 instance, we ignore any instance store volumes specified in the block device mapping for the AMI.
*/
VirtualName?: String;
/**
* Parameters used to automatically set up EBS volumes when the instance is launched.
*/
Ebs?: EbsBlockDevice;
/**
* Suppresses the specified device included in the block device mapping of the AMI.
*/
NoDevice?: String;
}
export type BlockDeviceMappingList = BlockDeviceMapping[];
export type BlockDeviceMappingRequestList = BlockDeviceMapping[];
export type Boolean = boolean;
export type BundleIdStringList = String[];
export interface BundleInstanceRequest {
/**
* The ID of the instance to bundle. Type: String Default: None Required: Yes
*/
InstanceId: InstanceId;
/**
* The bucket in which to store the AMI. You can specify a bucket that you already own or a new bucket that Amazon EC2 creates on your behalf. If you specify a bucket that belongs to someone else, Amazon EC2 returns an error.
*/
Storage: Storage;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface BundleInstanceResult {
/**
* Information about the bundle task.
*/
BundleTask?: BundleTask;
}
export interface BundleTask {
/**
* The ID of the bundle task.
*/
BundleId?: String;
/**
* If the task fails, a description of the error.
*/
BundleTaskError?: BundleTaskError;
/**
* The ID of the instance associated with this bundle task.
*/
InstanceId?: String;
/**
* The level of task completion, as a percent (for example, 20%).
*/
Progress?: String;
/**
* The time this task started.
*/
StartTime?: DateTime;
/**
* The state of the task.
*/
State?: BundleTaskState;
/**
* The Amazon S3 storage locations.
*/
Storage?: Storage;
/**
* The time of the most recent update for the task.
*/
UpdateTime?: DateTime;
}
export interface BundleTaskError {
/**
* The error code.
*/
Code?: String;
/**
* The error message.
*/
Message?: String;
}
export type BundleTaskList = BundleTask[];
export type BundleTaskState = "pending"|"waiting-for-shutdown"|"bundling"|"storing"|"cancelling"|"complete"|"failed"|string;
export interface ByoipCidr {
/**
* The public IPv4 address range, in CIDR notation.
*/
Cidr?: String;
/**
* The description of the address range.
*/
Description?: String;
/**
* Upon success, contains the ID of the address pool. Otherwise, contains an error message.
*/
StatusMessage?: String;
/**
* The state of the address pool.
*/
State?: ByoipCidrState;
}
export type ByoipCidrSet = ByoipCidr[];
export type ByoipCidrState = "advertised"|"deprovisioned"|"failed-deprovision"|"failed-provision"|"pending-deprovision"|"pending-provision"|"provisioned"|string;
export type CancelBatchErrorCode = "fleetRequestIdDoesNotExist"|"fleetRequestIdMalformed"|"fleetRequestNotInCancellableState"|"unexpectedError"|string;
export interface CancelBundleTaskRequest {
/**
* The ID of the bundle task.
*/
BundleId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CancelBundleTaskResult {
/**
* Information about the bundle task.
*/
BundleTask?: BundleTask;
}
export interface CancelCapacityReservationRequest {
/**
* The ID of the Capacity Reservation to be cancelled.
*/
CapacityReservationId: CapacityReservationId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CancelCapacityReservationResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface CancelConversionRequest {
/**
* The ID of the conversion task.
*/
ConversionTaskId: ConversionTaskId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The reason for canceling the conversion task.
*/
ReasonMessage?: String;
}
export interface CancelExportTaskRequest {
/**
* The ID of the export task. This is the ID returned by CreateInstanceExportTask.
*/
ExportTaskId: ExportTaskId;
}
export interface CancelImportTaskRequest {
/**
* The reason for canceling the task.
*/
CancelReason?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the import image or import snapshot task to be canceled.
*/
ImportTaskId?: ImportTaskId;
}
export interface CancelImportTaskResult {
/**
* The ID of the task being canceled.
*/
ImportTaskId?: String;
/**
* The current state of the task being canceled.
*/
PreviousState?: String;
/**
* The current state of the task being canceled.
*/
State?: String;
}
export interface CancelReservedInstancesListingRequest {
/**
* The ID of the Reserved Instance listing.
*/
ReservedInstancesListingId: ReservedInstancesListingId;
}
export interface CancelReservedInstancesListingResult {
/**
* The Reserved Instance listing.
*/
ReservedInstancesListings?: ReservedInstancesListingList;
}
export interface CancelSpotFleetRequestsError {
/**
* The error code.
*/
Code?: CancelBatchErrorCode;
/**
* The description for the error code.
*/
Message?: String;
}
export interface CancelSpotFleetRequestsErrorItem {
/**
* The error.
*/
Error?: CancelSpotFleetRequestsError;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId?: String;
}
export type CancelSpotFleetRequestsErrorSet = CancelSpotFleetRequestsErrorItem[];
export interface CancelSpotFleetRequestsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the Spot Fleet requests.
*/
SpotFleetRequestIds: ValueStringList;
/**
* Indicates whether to terminate instances for a Spot Fleet request if it is canceled successfully.
*/
TerminateInstances: Boolean;
}
export interface CancelSpotFleetRequestsResponse {
/**
* Information about the Spot Fleet requests that are successfully canceled.
*/
SuccessfulFleetRequests?: CancelSpotFleetRequestsSuccessSet;
/**
* Information about the Spot Fleet requests that are not successfully canceled.
*/
UnsuccessfulFleetRequests?: CancelSpotFleetRequestsErrorSet;
}
export interface CancelSpotFleetRequestsSuccessItem {
/**
* The current state of the Spot Fleet request.
*/
CurrentSpotFleetRequestState?: BatchState;
/**
* The previous state of the Spot Fleet request.
*/
PreviousSpotFleetRequestState?: BatchState;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId?: String;
}
export type CancelSpotFleetRequestsSuccessSet = CancelSpotFleetRequestsSuccessItem[];
export type CancelSpotInstanceRequestState = "active"|"open"|"closed"|"cancelled"|"completed"|string;
export interface CancelSpotInstanceRequestsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more Spot Instance request IDs.
*/
SpotInstanceRequestIds: SpotInstanceRequestIdList;
}
export interface CancelSpotInstanceRequestsResult {
/**
* One or more Spot Instance requests.
*/
CancelledSpotInstanceRequests?: CancelledSpotInstanceRequestList;
}
export interface CancelledSpotInstanceRequest {
/**
* The ID of the Spot Instance request.
*/
SpotInstanceRequestId?: String;
/**
* The state of the Spot Instance request.
*/
State?: CancelSpotInstanceRequestState;
}
export type CancelledSpotInstanceRequestList = CancelledSpotInstanceRequest[];
export interface CapacityReservation {
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationId?: String;
/**
* The ID of the AWS account that owns the Capacity Reservation.
*/
OwnerId?: String;
/**
* The Amazon Resource Name (ARN) of the Capacity Reservation.
*/
CapacityReservationArn?: String;
/**
* The Availability Zone ID of the Capacity Reservation.
*/
AvailabilityZoneId?: String;
/**
* The type of instance for which the Capacity Reservation reserves capacity.
*/
InstanceType?: String;
/**
* The type of operating system for which the Capacity Reservation reserves capacity.
*/
InstancePlatform?: CapacityReservationInstancePlatform;
/**
* The Availability Zone in which the capacity is reserved.
*/
AvailabilityZone?: String;
/**
* Indicates the tenancy of the Capacity Reservation. A Capacity Reservation can have one of the following tenancy settings: default - The Capacity Reservation is created on hardware that is shared with other AWS accounts. dedicated - The Capacity Reservation is created on single-tenant hardware that is dedicated to a single AWS account.
*/
Tenancy?: CapacityReservationTenancy;
/**
* The total number of instances for which the Capacity Reservation reserves capacity.
*/
TotalInstanceCount?: Integer;
/**
* The remaining capacity. Indicates the number of instances that can be launched in the Capacity Reservation.
*/
AvailableInstanceCount?: Integer;
/**
* Indicates whether the Capacity Reservation supports EBS-optimized instances. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS- optimized instance.
*/
EbsOptimized?: Boolean;
/**
* Indicates whether the Capacity Reservation supports instances with temporary, block-level storage.
*/
EphemeralStorage?: Boolean;
/**
* The current state of the Capacity Reservation. A Capacity Reservation can be in one of the following states: active - The Capacity Reservation is active and the capacity is available for your use. expired - The Capacity Reservation expired automatically at the date and time specified in your request. The reserved capacity is no longer available for your use. cancelled - The Capacity Reservation was manually cancelled. The reserved capacity is no longer available for your use. pending - The Capacity Reservation request was successful but the capacity provisioning is still pending. failed - The Capacity Reservation request has failed. A request might fail due to invalid request parameters, capacity constraints, or instance limit constraints. Failed requests are retained for 60 minutes.
*/
State?: CapacityReservationState;
/**
* The date and time at which the Capacity Reservation expires. When a Capacity Reservation expires, the reserved capacity is released and you can no longer launch instances into it. The Capacity Reservation's state changes to expired when it reaches its end date and time.
*/
EndDate?: DateTime;
/**
* Indicates the way in which the Capacity Reservation ends. A Capacity Reservation can have one of the following end types: unlimited - The Capacity Reservation remains active until you explicitly cancel it. limited - The Capacity Reservation expires automatically at a specified date and time.
*/
EndDateType?: EndDateType;
/**
* Indicates the type of instance launches that the Capacity Reservation accepts. The options include: open - The Capacity Reservation accepts all instances that have matching attributes (instance type, platform, and Availability Zone). Instances that have matching attributes launch into the Capacity Reservation automatically without specifying any additional parameters. targeted - The Capacity Reservation only accepts instances that have matching attributes (instance type, platform, and Availability Zone), and explicitly target the Capacity Reservation. This ensures that only permitted instances can use the reserved capacity.
*/
InstanceMatchCriteria?: InstanceMatchCriteria;
/**
* The date and time at which the Capacity Reservation was created.
*/
CreateDate?: DateTime;
/**
* Any tags assigned to the Capacity Reservation.
*/
Tags?: TagList;
}
export type CapacityReservationId = string;
export type CapacityReservationIdSet = String[];
export type CapacityReservationInstancePlatform = "Linux/UNIX"|"Red Hat Enterprise Linux"|"SUSE Linux"|"Windows"|"Windows with SQL Server"|"Windows with SQL Server Enterprise"|"Windows with SQL Server Standard"|"Windows with SQL Server Web"|"Linux with SQL Server Standard"|"Linux with SQL Server Web"|"Linux with SQL Server Enterprise"|string;
export type CapacityReservationPreference = "open"|"none"|string;
export type CapacityReservationSet = CapacityReservation[];
export interface CapacityReservationSpecification {
/**
* Indicates the instance's Capacity Reservation preferences. Possible preferences include: open - The instance can run in any open Capacity Reservation that has matching attributes (instance type, platform, Availability Zone). none - The instance avoids running in a Capacity Reservation even if one is available. The instance runs as an On-Demand Instance.
*/
CapacityReservationPreference?: CapacityReservationPreference;
/**
* Information about the target Capacity Reservation.
*/
CapacityReservationTarget?: CapacityReservationTarget;
}
export interface CapacityReservationSpecificationResponse {
/**
* Describes the instance's Capacity Reservation preferences. Possible preferences include: open - The instance can run in any open Capacity Reservation that has matching attributes (instance type, platform, Availability Zone). none - The instance avoids running in a Capacity Reservation even if one is available. The instance runs in On-Demand capacity.
*/
CapacityReservationPreference?: CapacityReservationPreference;
/**
* Information about the targeted Capacity Reservation.
*/
CapacityReservationTarget?: CapacityReservationTargetResponse;
}
export type CapacityReservationState = "active"|"expired"|"cancelled"|"pending"|"failed"|string;
export interface CapacityReservationTarget {
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationId?: String;
}
export interface CapacityReservationTargetResponse {
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationId?: String;
}
export type CapacityReservationTenancy = "default"|"dedicated"|string;
export interface CertificateAuthentication {
/**
* The ARN of the client certificate.
*/
ClientRootCertificateChain?: String;
}
export interface CertificateAuthenticationRequest {
/**
* The ARN of the client certificate. The certificate must be signed by a certificate authority (CA) and it must be provisioned in AWS Certificate Manager (ACM).
*/
ClientRootCertificateChainArn?: String;
}
export interface CidrAuthorizationContext {
/**
* The plain-text authorization message for the prefix and account.
*/
Message: String;
/**
* The signed authorization message for the prefix and account.
*/
Signature: String;
}
export interface CidrBlock {
/**
* The IPv4 CIDR block.
*/
CidrBlock?: String;
}
export type CidrBlockSet = CidrBlock[];
export interface ClassicLinkDnsSupport {
/**
* Indicates whether ClassicLink DNS support is enabled for the VPC.
*/
ClassicLinkDnsSupported?: Boolean;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export type ClassicLinkDnsSupportList = ClassicLinkDnsSupport[];
export interface ClassicLinkInstance {
/**
* A list of security groups.
*/
Groups?: GroupIdentifierList;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* Any tags assigned to the instance.
*/
Tags?: TagList;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export type ClassicLinkInstanceList = ClassicLinkInstance[];
export interface ClassicLoadBalancer {
/**
* The name of the load balancer.
*/
Name?: String;
}
export type ClassicLoadBalancers = ClassicLoadBalancer[];
export interface ClassicLoadBalancersConfig {
/**
* One or more Classic Load Balancers.
*/
ClassicLoadBalancers?: ClassicLoadBalancers;
}
export interface ClientCertificateRevocationListStatus {
/**
* The state of the client certificate revocation list.
*/
Code?: ClientCertificateRevocationListStatusCode;
/**
* A message about the status of the client certificate revocation list, if applicable.
*/
Message?: String;
}
export type ClientCertificateRevocationListStatusCode = "pending"|"active"|string;
export interface ClientData {
/**
* A user-defined comment about the disk upload.
*/
Comment?: String;
/**
* The time that the disk upload ends.
*/
UploadEnd?: DateTime;
/**
* The size of the uploaded disk image, in GiB.
*/
UploadSize?: Double;
/**
* The time that the disk upload starts.
*/
UploadStart?: DateTime;
}
export interface ClientVpnAuthentication {
/**
* The authentication type used.
*/
Type?: ClientVpnAuthenticationType;
/**
* Information about the Active Directory, if applicable.
*/
ActiveDirectory?: DirectoryServiceAuthentication;
/**
* Information about the authentication certificates, if applicable.
*/
MutualAuthentication?: CertificateAuthentication;
}
export type ClientVpnAuthenticationList = ClientVpnAuthentication[];
export interface ClientVpnAuthenticationRequest {
/**
* The type of client authentication to be used. Specify certificate-authentication to use certificate-based authentication, or directory-service-authentication to use Active Directory authentication.
*/
Type?: ClientVpnAuthenticationType;
/**
* Information about the Active Directory to be used, if applicable. You must provide this information if Type is directory-service-authentication.
*/
ActiveDirectory?: DirectoryServiceAuthenticationRequest;
/**
* Information about the authentication certificates to be used, if applicable. You must provide this information if Type is certificate-authentication.
*/
MutualAuthentication?: CertificateAuthenticationRequest;
}
export type ClientVpnAuthenticationRequestList = ClientVpnAuthenticationRequest[];
export type ClientVpnAuthenticationType = "certificate-authentication"|"directory-service-authentication"|string;
export interface ClientVpnAuthorizationRuleStatus {
/**
* The state of the authorization rule.
*/
Code?: ClientVpnAuthorizationRuleStatusCode;
/**
* A message about the status of the authorization rule, if applicable.
*/
Message?: String;
}
export type ClientVpnAuthorizationRuleStatusCode = "authorizing"|"active"|"failed"|"revoking"|string;
export interface ClientVpnConnection {
/**
* The ID of the Client VPN endpoint to which the client is connected.
*/
ClientVpnEndpointId?: String;
/**
* The current date and time.
*/
Timestamp?: String;
/**
* The ID of the client connection.
*/
ConnectionId?: String;
/**
* The username of the client who established the client connection. This information is only provided if Active Directory client authentication is used.
*/
Username?: String;
/**
* The date and time the client connection was established.
*/
ConnectionEstablishedTime?: String;
/**
* The number of bytes sent by the client.
*/
IngressBytes?: String;
/**
* The number of bytes received by the client.
*/
EgressBytes?: String;
/**
* The number of packets sent by the client.
*/
IngressPackets?: String;
/**
* The number of packets received by the client.
*/
EgressPackets?: String;
/**
* The IP address of the client.
*/
ClientIp?: String;
/**
* The common name associated with the client. This is either the name of the client certificate, or the Active Directory user name.
*/
CommonName?: String;
/**
* The current state of the client connection.
*/
Status?: ClientVpnConnectionStatus;
/**
* The date and time the client connection was terminated.
*/
ConnectionEndTime?: String;
}
export type ClientVpnConnectionSet = ClientVpnConnection[];
export interface ClientVpnConnectionStatus {
/**
* The state of the client connection.
*/
Code?: ClientVpnConnectionStatusCode;
/**
* A message about the status of the client connection, if applicable.
*/
Message?: String;
}
export type ClientVpnConnectionStatusCode = "active"|"failed-to-terminate"|"terminating"|"terminated"|string;
export interface ClientVpnEndpoint {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId?: String;
/**
* A brief description of the endpoint.
*/
Description?: String;
/**
* The current state of the Client VPN endpoint.
*/
Status?: ClientVpnEndpointStatus;
/**
* The date and time the Client VPN endpoint was created.
*/
CreationTime?: String;
/**
* The date and time the Client VPN endpoint was deleted, if applicable.
*/
DeletionTime?: String;
/**
* The DNS name to be used by clients when connecting to the Client VPN endpoint.
*/
DnsName?: String;
/**
* The IPv4 address range, in CIDR notation, from which client IP addresses are assigned.
*/
ClientCidrBlock?: String;
/**
* Information about the DNS servers to be used for DNS resolution.
*/
DnsServers?: ValueStringList;
/**
* Indicates whether split-tunnel is enabled in the AWS Client VPN endpoint. For information about split-tunnel VPN endpoints, see Split-Tunnel AWS Client VPN Endpoint in the AWS Client VPN Administrator Guide.
*/
SplitTunnel?: Boolean;
/**
* The protocol used by the VPN session.
*/
VpnProtocol?: VpnProtocol;
/**
* The transport protocol used by the Client VPN endpoint.
*/
TransportProtocol?: TransportProtocol;
/**
* Information about the associated target networks. A target network is a subnet in a VPC.
*/
AssociatedTargetNetworks?: AssociatedTargetNetworkSet;
/**
* The ARN of the server certificate.
*/
ServerCertificateArn?: String;
/**
* Information about the authentication method used by the Client VPN endpoint.
*/
AuthenticationOptions?: ClientVpnAuthenticationList;
/**
* Information about the client connection logging options for the Client VPN endpoint.
*/
ConnectionLogOptions?: ConnectionLogResponseOptions;
/**
* Any tags assigned to the Client VPN endpoint.
*/
Tags?: TagList;
}
export type ClientVpnEndpointId = string;
export interface ClientVpnEndpointStatus {
/**
* The state of the Client VPN endpoint. Possible states include: pending-associate - The Client VPN endpoint has been created but no target networks have been associated. The Client VPN endpoint cannot accept connections. available - The Client VPN endpoint has been created and a target network has been associated. The Client VPN endpoint can accept connections. deleting - The Client VPN endpoint is being deleted. The Client VPN endpoint cannot accept connections. deleted - The Client VPN endpoint has been deleted. The Client VPN endpoint cannot accept connections.
*/
Code?: ClientVpnEndpointStatusCode;
/**
* A message about the status of the Client VPN endpoint.
*/
Message?: String;
}
export type ClientVpnEndpointStatusCode = "pending-associate"|"available"|"deleting"|"deleted"|string;
export interface ClientVpnRoute {
/**
* The ID of the Client VPN endpoint with which the route is associated.
*/
ClientVpnEndpointId?: String;
/**
* The IPv4 address range, in CIDR notation, of the route destination.
*/
DestinationCidr?: String;
/**
* The ID of the subnet through which traffic is routed.
*/
TargetSubnet?: String;
/**
* The route type.
*/
Type?: String;
/**
* Indicates how the route was associated with the Client VPN endpoint. associate indicates that the route was automatically added when the target network was associated with the Client VPN endpoint. add-route indicates that the route was manually added using the CreateClientVpnRoute action.
*/
Origin?: String;
/**
* The current state of the route.
*/
Status?: ClientVpnRouteStatus;
/**
* A brief description of the route.
*/
Description?: String;
}
export type ClientVpnRouteSet = ClientVpnRoute[];
export interface ClientVpnRouteStatus {
/**
* The state of the Client VPN endpoint route.
*/
Code?: ClientVpnRouteStatusCode;
/**
* A message about the status of the Client VPN endpoint route, if applicable.
*/
Message?: String;
}
export type ClientVpnRouteStatusCode = "creating"|"active"|"failed"|"deleting"|string;
export type ClientVpnSecurityGroupIdSet = String[];
export interface ConfirmProductInstanceRequest {
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* The product code. This must be a product code that you own.
*/
ProductCode: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ConfirmProductInstanceResult {
/**
* The AWS account ID of the instance owner. This is only present if the product code is attached to the instance.
*/
OwnerId?: String;
/**
* The return value of the request. Returns true if the specified product code is owned by the requester and associated with the specified instance.
*/
Return?: Boolean;
}
export interface ConnectionLogOptions {
/**
* Indicates whether connection logging is enabled.
*/
Enabled?: Boolean;
/**
* The name of the CloudWatch Logs log group.
*/
CloudwatchLogGroup?: String;
/**
* The name of the CloudWatch Logs log stream to which the connection data is published.
*/
CloudwatchLogStream?: String;
}
export interface ConnectionLogResponseOptions {
/**
* Indicates whether client connection logging is enabled for the Client VPN endpoint.
*/
Enabled?: Boolean;
/**
* The name of the Amazon CloudWatch Logs log group to which connection logging data is published.
*/
CloudwatchLogGroup?: String;
/**
* The name of the Amazon CloudWatch Logs log stream to which connection logging data is published.
*/
CloudwatchLogStream?: String;
}
export interface ConnectionNotification {
/**
* The ID of the notification.
*/
ConnectionNotificationId?: String;
/**
* The ID of the endpoint service.
*/
ServiceId?: String;
/**
* The ID of the VPC endpoint.
*/
VpcEndpointId?: String;
/**
* The type of notification.
*/
ConnectionNotificationType?: ConnectionNotificationType;
/**
* The ARN of the SNS topic for the notification.
*/
ConnectionNotificationArn?: String;
/**
* The events for the notification. Valid values are Accept, Connect, Delete, and Reject.
*/
ConnectionEvents?: ValueStringList;
/**
* The state of the notification.
*/
ConnectionNotificationState?: ConnectionNotificationState;
}
export type ConnectionNotificationId = string;
export type ConnectionNotificationSet = ConnectionNotification[];
export type ConnectionNotificationState = "Enabled"|"Disabled"|string;
export type ConnectionNotificationType = "Topic"|string;
export type ContainerFormat = "ova"|string;
export type ConversionIdStringList = String[];
export interface ConversionTask {
/**
* The ID of the conversion task.
*/
ConversionTaskId?: String;
/**
* The time when the task expires. If the upload isn't complete before the expiration time, we automatically cancel the task.
*/
ExpirationTime?: String;
/**
* If the task is for importing an instance, this contains information about the import instance task.
*/
ImportInstance?: ImportInstanceTaskDetails;
/**
* If the task is for importing a volume, this contains information about the import volume task.
*/
ImportVolume?: ImportVolumeTaskDetails;
/**
* The state of the conversion task.
*/
State?: ConversionTaskState;
/**
* The status message related to the conversion task.
*/
StatusMessage?: String;
/**
* Any tags assigned to the task.
*/
Tags?: TagList;
}
export type ConversionTaskId = string;
export type ConversionTaskState = "active"|"cancelling"|"cancelled"|"completed"|string;
export interface CopyFpgaImageRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the source AFI.
*/
SourceFpgaImageId: String;
/**
* The description for the new AFI.
*/
Description?: String;
/**
* The name for the new AFI. The default is the name of the source AFI.
*/
Name?: String;
/**
* The Region that contains the source AFI.
*/
SourceRegion: String;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
}
export interface CopyFpgaImageResult {
/**
* The ID of the new AFI.
*/
FpgaImageId?: String;
}
export interface CopyImageRequest {
/**
* Unique, case-sensitive identifier you provide to ensure idempotency of the request. For more information, see How to Ensure Idempotency in the Amazon Elastic Compute Cloud User Guide.
*/
ClientToken?: String;
/**
* A description for the new AMI in the destination Region.
*/
Description?: String;
/**
* Specifies whether the destination snapshots of the copied image should be encrypted. You can encrypt a copy of an unencrypted snapshot, but you cannot create an unencrypted copy of an encrypted snapshot. The default CMK for EBS is used unless you specify a non-default AWS Key Management Service (AWS KMS) CMK using KmsKeyId. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
Encrypted?: Boolean;
/**
* An identifier for the AWS Key Management Service (AWS KMS) customer master key (CMK) to use when creating the encrypted volume. This parameter is only required if you want to use a non-default CMK; if this parameter is not specified, the default CMK for EBS is used. If a KmsKeyId is specified, the Encrypted flag must also be set. To specify a CMK, use its key ID, Amazon Resource Name (ARN), alias name, or alias ARN. When using an alias name, prefix it with "alias/". For example: Key ID: 1234abcd-12ab-34cd-56ef-1234567890ab Key ARN: arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab Alias name: alias/ExampleAlias Alias ARN: arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias AWS parses KmsKeyId asynchronously, meaning that the action you call may appear to complete even though you provided an invalid identifier. This action will eventually report failure. The specified CMK must exist in the Region that the snapshot is being copied to.
*/
KmsKeyId?: KmsKeyId;
/**
* The name of the new AMI in the destination Region.
*/
Name: String;
/**
* The ID of the AMI to copy.
*/
SourceImageId: String;
/**
* The name of the Region that contains the AMI to copy.
*/
SourceRegion: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CopyImageResult {
/**
* The ID of the new AMI.
*/
ImageId?: String;
}
export interface CopySnapshotRequest {
/**
* A description for the EBS snapshot.
*/
Description?: String;
/**
* The destination Region to use in the PresignedUrl parameter of a snapshot copy operation. This parameter is only valid for specifying the destination Region in a PresignedUrl parameter, where it is required. The snapshot copy is sent to the regional endpoint that you sent the HTTP request to (for example, ec2.us-east-1.amazonaws.com). With the AWS CLI, this is specified using the --region parameter or the default Region in your AWS configuration file.
*/
DestinationRegion?: String;
/**
* To encrypt a copy of an unencrypted snapshot if encryption by default is not enabled, enable encryption using this parameter. Otherwise, omit this parameter. Encrypted snapshots are encrypted, even if you omit this parameter and encryption by default is not enabled. You cannot set this parameter to false. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
Encrypted?: Boolean;
/**
* The identifier of the AWS Key Management Service (AWS KMS) customer master key (CMK) to use for Amazon EBS encryption. If this parameter is not specified, your AWS managed CMK for EBS is used. If KmsKeyId is specified, the encrypted state must be true. You can specify the CMK using any of the following: Key ID. For example, key/1234abcd-12ab-34cd-56ef-1234567890ab. Key alias. For example, alias/ExampleAlias. Key ARN. For example, arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef. Alias ARN. For example, arn:aws:kms:us-east-1:012345678910:alias/ExampleAlias. AWS authenticates the CMK asynchronously. Therefore, if you specify an ID, alias, or ARN that is not valid, the action can appear to complete, but eventually fails.
*/
KmsKeyId?: String;
/**
* When you copy an encrypted source snapshot using the Amazon EC2 Query API, you must supply a pre-signed URL. This parameter is optional for unencrypted snapshots. For more information, see Query Requests. The PresignedUrl should use the snapshot source endpoint, the CopySnapshot action, and include the SourceRegion, SourceSnapshotId, and DestinationRegion parameters. The PresignedUrl must be signed using AWS Signature Version 4. Because EBS snapshots are stored in Amazon S3, the signing algorithm for this parameter uses the same logic that is described in Authenticating Requests by Using Query Parameters (AWS Signature Version 4) in the Amazon Simple Storage Service API Reference. An invalid or improperly signed PresignedUrl will cause the copy operation to fail asynchronously, and the snapshot will move to an error state.
*/
PresignedUrl?: String;
/**
* The ID of the Region that contains the snapshot to be copied.
*/
SourceRegion: String;
/**
* The ID of the EBS snapshot to copy.
*/
SourceSnapshotId: String;
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CopySnapshotResult {
/**
* The ID of the new snapshot.
*/
SnapshotId?: String;
Tags?: TagList;
}
export type CopyTagsFromSource = "volume"|string;
export interface CpuOptions {
/**
* The number of CPU cores for the instance.
*/
CoreCount?: Integer;
/**
* The number of threads per CPU core.
*/
ThreadsPerCore?: Integer;
}
export interface CpuOptionsRequest {
/**
* The number of CPU cores for the instance.
*/
CoreCount?: Integer;
/**
* The number of threads per CPU core. To disable multithreading for the instance, specify a value of 1. Otherwise, specify the default value of 2.
*/
ThreadsPerCore?: Integer;
}
export interface CreateCapacityReservationRequest {
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency. Constraint: Maximum 64 ASCII characters.
*/
ClientToken?: String;
/**
* The instance type for which to reserve capacity. For more information, see Instance Types in the Amazon Elastic Compute Cloud User Guide.
*/
InstanceType: String;
/**
* The type of operating system for which to reserve capacity.
*/
InstancePlatform: CapacityReservationInstancePlatform;
/**
* The Availability Zone in which to create the Capacity Reservation.
*/
AvailabilityZone?: String;
/**
* The ID of the Availability Zone in which to create the Capacity Reservation.
*/
AvailabilityZoneId?: String;
/**
* Indicates the tenancy of the Capacity Reservation. A Capacity Reservation can have one of the following tenancy settings: default - The Capacity Reservation is created on hardware that is shared with other AWS accounts. dedicated - The Capacity Reservation is created on single-tenant hardware that is dedicated to a single AWS account.
*/
Tenancy?: CapacityReservationTenancy;
/**
* The number of instances for which to reserve capacity.
*/
InstanceCount: Integer;
/**
* Indicates whether the Capacity Reservation supports EBS-optimized instances. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS- optimized instance.
*/
EbsOptimized?: Boolean;
/**
* Indicates whether the Capacity Reservation supports instances with temporary, block-level storage.
*/
EphemeralStorage?: Boolean;
/**
* The date and time at which the Capacity Reservation expires. When a Capacity Reservation expires, the reserved capacity is released and you can no longer launch instances into it. The Capacity Reservation's state changes to expired when it reaches its end date and time. You must provide an EndDate value if EndDateType is limited. Omit EndDate if EndDateType is unlimited. If the EndDateType is limited, the Capacity Reservation is cancelled within an hour from the specified time. For example, if you specify 5/31/2019, 13:30:55, the Capacity Reservation is guaranteed to end between 13:30:55 and 14:30:55 on 5/31/2019.
*/
EndDate?: DateTime;
/**
* Indicates the way in which the Capacity Reservation ends. A Capacity Reservation can have one of the following end types: unlimited - The Capacity Reservation remains active until you explicitly cancel it. Do not provide an EndDate if the EndDateType is unlimited. limited - The Capacity Reservation expires automatically at a specified date and time. You must provide an EndDate value if the EndDateType value is limited.
*/
EndDateType?: EndDateType;
/**
* Indicates the type of instance launches that the Capacity Reservation accepts. The options include: open - The Capacity Reservation automatically matches all instances that have matching attributes (instance type, platform, and Availability Zone). Instances that have matching attributes run in the Capacity Reservation automatically without specifying any additional parameters. targeted - The Capacity Reservation only accepts instances that have matching attributes (instance type, platform, and Availability Zone), and explicitly target the Capacity Reservation. This ensures that only permitted instances can use the reserved capacity. Default: open
*/
InstanceMatchCriteria?: InstanceMatchCriteria;
/**
* The tags to apply to the Capacity Reservation during launch.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateCapacityReservationResult {
/**
* Information about the Capacity Reservation.
*/
CapacityReservation?: CapacityReservation;
}
export interface CreateClientVpnEndpointRequest {
/**
* The IPv4 address range, in CIDR notation, from which to assign client IP addresses. The address range cannot overlap with the local CIDR of the VPC in which the associated subnet is located, or the routes that you add manually. The address range cannot be changed after the Client VPN endpoint has been created. The CIDR block should be /22 or greater.
*/
ClientCidrBlock: String;
/**
* The ARN of the server certificate. For more information, see the AWS Certificate Manager User Guide.
*/
ServerCertificateArn: String;
/**
* Information about the authentication method to be used to authenticate clients.
*/
AuthenticationOptions: ClientVpnAuthenticationRequestList;
/**
* Information about the client connection logging options. If you enable client connection logging, data about client connections is sent to a Cloudwatch Logs log stream. The following information is logged: Client connection requests Client connection results (successful and unsuccessful) Reasons for unsuccessful client connection requests Client connection termination time
*/
ConnectionLogOptions: ConnectionLogOptions;
/**
* Information about the DNS servers to be used for DNS resolution. A Client VPN endpoint can have up to two DNS servers. If no DNS server is specified, the DNS address configured on the device is used for the DNS server.
*/
DnsServers?: ValueStringList;
/**
* The transport protocol to be used by the VPN session. Default value: udp
*/
TransportProtocol?: TransportProtocol;
/**
* A brief description of the Client VPN endpoint.
*/
Description?: String;
/**
* Indicates whether split-tunnel is enabled on the AWS Client VPN endpoint. By default, split-tunnel on a VPN endpoint is disabled. For information about split-tunnel VPN endpoints, see Split-Tunnel AWS Client VPN Endpoint in the AWS Client VPN Administrator Guide.
*/
SplitTunnel?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* The tags to apply to the Client VPN endpoint during creation.
*/
TagSpecifications?: TagSpecificationList;
}
export interface CreateClientVpnEndpointResult {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId?: String;
/**
* The current state of the Client VPN endpoint.
*/
Status?: ClientVpnEndpointStatus;
/**
* The DNS name to be used by clients when establishing their VPN session.
*/
DnsName?: String;
}
export interface CreateClientVpnRouteRequest {
/**
* The ID of the Client VPN endpoint to which to add the route.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The IPv4 address range, in CIDR notation, of the route destination. For example: To add a route for Internet access, enter 0.0.0.0/0 To add a route for a peered VPC, enter the peered VPC's IPv4 CIDR range To add a route for an on-premises network, enter the AWS Site-to-Site VPN connection's IPv4 CIDR range Route address ranges cannot overlap with the CIDR range specified for client allocation.
*/
DestinationCidrBlock: String;
/**
* The ID of the subnet through which you want to route traffic. The specified subnet must be an existing target network of the Client VPN endpoint.
*/
TargetVpcSubnetId: String;
/**
* A brief description of the route.
*/
Description?: String;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateClientVpnRouteResult {
/**
* The current state of the route.
*/
Status?: ClientVpnRouteStatus;
}
export interface CreateCustomerGatewayRequest {
/**
* For devices that support BGP, the customer gateway's BGP ASN. Default: 65000
*/
BgpAsn: Integer;
/**
* The Internet-routable IP address for the customer gateway's outside interface. The address must be static.
*/
PublicIp?: String;
/**
* The Amazon Resource Name (ARN) for the customer gateway certificate.
*/
CertificateArn?: String;
/**
* The type of VPN connection that this customer gateway supports (ipsec.1).
*/
Type: GatewayType;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateCustomerGatewayResult {
/**
* Information about the customer gateway.
*/
CustomerGateway?: CustomerGateway;
}
export interface CreateDefaultSubnetRequest {
/**
* The Availability Zone in which to create the default subnet.
*/
AvailabilityZone: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateDefaultSubnetResult {
/**
* Information about the subnet.
*/
Subnet?: Subnet;
}
export interface CreateDefaultVpcRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateDefaultVpcResult {
/**
* Information about the VPC.
*/
Vpc?: Vpc;
}
export interface CreateDhcpOptionsRequest {
/**
* A DHCP configuration option.
*/
DhcpConfigurations: NewDhcpConfigurationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateDhcpOptionsResult {
/**
* A set of DHCP options.
*/
DhcpOptions?: DhcpOptions;
}
export interface CreateEgressOnlyInternetGatewayRequest {
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC for which to create the egress-only internet gateway.
*/
VpcId: VpcId;
}
export interface CreateEgressOnlyInternetGatewayResult {
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request.
*/
ClientToken?: String;
/**
* Information about the egress-only internet gateway.
*/
EgressOnlyInternetGateway?: EgressOnlyInternetGateway;
}
export interface CreateFleetError {
/**
* The launch templates and overrides that were used for launching the instances. Any parameters that you specify in the Overrides override the same parameters in the launch template.
*/
LaunchTemplateAndOverrides?: LaunchTemplateAndOverridesResponse;
/**
* Indicates if the instance that could not be launched was a Spot Instance or On-Demand Instance.
*/
Lifecycle?: InstanceLifecycle;
/**
* The error code that indicates why the instance could not be launched. For more information about error codes, see Error Codes.
*/
ErrorCode?: String;
/**
* The error message that describes why the instance could not be launched. For more information about error messages, see ee Error Codes.
*/
ErrorMessage?: String;
}
export type CreateFleetErrorsSet = CreateFleetError[];
export interface CreateFleetInstance {
/**
* The launch templates and overrides that were used for launching the instances. Any parameters that you specify in the Overrides override the same parameters in the launch template.
*/
LaunchTemplateAndOverrides?: LaunchTemplateAndOverridesResponse;
/**
* Indicates if the instance that was launched is a Spot Instance or On-Demand Instance.
*/
Lifecycle?: InstanceLifecycle;
/**
* The IDs of the instances.
*/
InstanceIds?: InstanceIdsSet;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The value is Windows for Windows instances; otherwise blank.
*/
Platform?: PlatformValues;
}
export type CreateFleetInstancesSet = CreateFleetInstance[];
export interface CreateFleetRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* Describes the configuration of Spot Instances in an EC2 Fleet.
*/
SpotOptions?: SpotOptionsRequest;
/**
* Describes the configuration of On-Demand Instances in an EC2 Fleet.
*/
OnDemandOptions?: OnDemandOptionsRequest;
/**
* Indicates whether running instances should be terminated if the total target capacity of the EC2 Fleet is decreased below the current size of the EC2 Fleet.
*/
ExcessCapacityTerminationPolicy?: FleetExcessCapacityTerminationPolicy;
/**
* The configuration for the EC2 Fleet.
*/
LaunchTemplateConfigs: FleetLaunchTemplateConfigListRequest;
/**
* The number of units to request.
*/
TargetCapacitySpecification: TargetCapacitySpecificationRequest;
/**
* Indicates whether running instances should be terminated when the EC2 Fleet expires.
*/
TerminateInstancesWithExpiration?: Boolean;
/**
* The type of the request. By default, the EC2 Fleet places an asynchronous request for your desired capacity, and maintains it by replenishing interrupted Spot Instances (maintain). A value of instant places a synchronous one-time request, and returns errors for any instances that could not be launched. A value of request places an asynchronous one-time request without maintaining capacity or submitting requests in alternative capacity pools if capacity is unavailable. For more information, see EC2 Fleet Request Types in the Amazon Elastic Compute Cloud User Guide.
*/
Type?: FleetType;
/**
* The start date and time of the request, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). The default is to start fulfilling the request immediately.
*/
ValidFrom?: DateTime;
/**
* The end date and time of the request, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). At this point, no new EC2 Fleet requests are placed or able to fulfill the request. If no value is specified, the request remains until you cancel it.
*/
ValidUntil?: DateTime;
/**
* Indicates whether EC2 Fleet should replace unhealthy instances.
*/
ReplaceUnhealthyInstances?: Boolean;
/**
* The key-value pair for tagging the EC2 Fleet request on creation. The value for ResourceType must be fleet, otherwise the fleet request fails. To tag instances at launch, specify the tags in the launch template. For information about tagging after launch, see Tagging Your Resources.
*/
TagSpecifications?: TagSpecificationList;
}
export interface CreateFleetResult {
/**
* The ID of the EC2 Fleet.
*/
FleetId?: FleetIdentifier;
/**
* Information about the instances that could not be launched by the fleet. Valid only when Type is set to instant.
*/
Errors?: CreateFleetErrorsSet;
/**
* Information about the instances that were launched by the fleet. Valid only when Type is set to instant.
*/
Instances?: CreateFleetInstancesSet;
}
export interface CreateFlowLogsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* The ARN for the IAM role that permits Amazon EC2 to publish flow logs to a CloudWatch Logs log group in your account. If you specify LogDestinationType as s3, do not specify DeliverLogsPermissionArn or LogGroupName.
*/
DeliverLogsPermissionArn?: String;
/**
* The name of a new or existing CloudWatch Logs log group where Amazon EC2 publishes your flow logs. If you specify LogDestinationType as s3, do not specify DeliverLogsPermissionArn or LogGroupName.
*/
LogGroupName?: String;
/**
* The ID of the subnet, network interface, or VPC for which you want to create a flow log. Constraints: Maximum of 1000 resources
*/
ResourceIds: ValueStringList;
/**
* The type of resource for which to create the flow log. For example, if you specified a VPC ID for the ResourceId property, specify VPC for this property.
*/
ResourceType: FlowLogsResourceType;
/**
* The type of traffic to log. You can log traffic that the resource accepts or rejects, or all traffic.
*/
TrafficType: TrafficType;
/**
* Specifies the type of destination to which the flow log data is to be published. Flow log data can be published to CloudWatch Logs or Amazon S3. To publish flow log data to CloudWatch Logs, specify cloud-watch-logs. To publish flow log data to Amazon S3, specify s3. If you specify LogDestinationType as s3, do not specify DeliverLogsPermissionArn or LogGroupName. Default: cloud-watch-logs
*/
LogDestinationType?: LogDestinationType;
/**
* Specifies the destination to which the flow log data is to be published. Flow log data can be published to a CloudWatch Logs log group or an Amazon S3 bucket. The value specified for this parameter depends on the value specified for LogDestinationType. If LogDestinationType is not specified or cloud-watch-logs, specify the Amazon Resource Name (ARN) of the CloudWatch Logs log group. If LogDestinationType is s3, specify the ARN of the Amazon S3 bucket. You can also specify a subfolder in the bucket. To specify a subfolder in the bucket, use the following ARN format: bucket_ARN/subfolder_name/. For example, to specify a subfolder named my-logs in a bucket named my-bucket, use the following ARN: arn:aws:s3:::my-bucket/my-logs/. You cannot use AWSLogs as a subfolder name. This is a reserved term.
*/
LogDestination?: String;
/**
* The fields to include in the flow log record, in the order in which they should appear. For a list of available fields, see Flow Log Records. If you omit this parameter, the flow log is created using the default format. If you specify this parameter, you must specify at least one field. Specify the fields using the ${field-id} format, separated by spaces. For the AWS CLI, use single quotation marks (' ') to surround the parameter value. Only applicable to flow logs that are published to an Amazon S3 bucket.
*/
LogFormat?: String;
}
export interface CreateFlowLogsResult {
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request.
*/
ClientToken?: String;
/**
* The IDs of the flow logs.
*/
FlowLogIds?: ValueStringList;
/**
* Information about the flow logs that could not be created successfully.
*/
Unsuccessful?: UnsuccessfulItemSet;
}
export interface CreateFpgaImageRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The location of the encrypted design checkpoint in Amazon S3. The input must be a tarball.
*/
InputStorageLocation: StorageLocation;
/**
* The location in Amazon S3 for the output logs.
*/
LogsStorageLocation?: StorageLocation;
/**
* A description for the AFI.
*/
Description?: String;
/**
* A name for the AFI.
*/
Name?: String;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* The tags to apply to the FPGA image during creation.
*/
TagSpecifications?: TagSpecificationList;
}
export interface CreateFpgaImageResult {
/**
* The FPGA image identifier (AFI ID).
*/
FpgaImageId?: String;
/**
* The global FPGA image identifier (AGFI ID).
*/
FpgaImageGlobalId?: String;
}
export interface CreateImageRequest {
/**
* The block device mappings. This parameter cannot be used to modify the encryption status of existing volumes or snapshots. To create an AMI with encrypted snapshots, use the CopyImage action.
*/
BlockDeviceMappings?: BlockDeviceMappingRequestList;
/**
* A description for the new image.
*/
Description?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* A name for the new image. Constraints: 3-128 alphanumeric characters, parentheses (()), square brackets ([]), spaces ( ), periods (.), slashes (/), dashes (-), single quotes ('), at-signs (@), or underscores(_)
*/
Name: String;
/**
* By default, Amazon EC2 attempts to shut down and reboot the instance before creating the image. If the 'No Reboot' option is set, Amazon EC2 doesn't shut down the instance before creating the image. When this option is used, file system integrity on the created image can't be guaranteed.
*/
NoReboot?: Boolean;
}
export interface CreateImageResult {
/**
* The ID of the new AMI.
*/
ImageId?: String;
}
export interface CreateInstanceExportTaskRequest {
/**
* A description for the conversion task or the resource being exported. The maximum length is 255 bytes.
*/
Description?: String;
/**
* The format and location for an instance export task.
*/
ExportToS3Task?: ExportToS3TaskSpecification;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* The target virtualization environment.
*/
TargetEnvironment?: ExportEnvironment;
}
export interface CreateInstanceExportTaskResult {
/**
* Information about the instance export task.
*/
ExportTask?: ExportTask;
}
export interface CreateInternetGatewayRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateInternetGatewayResult {
/**
* Information about the internet gateway.
*/
InternetGateway?: InternetGateway;
}
export interface CreateKeyPairRequest {
/**
* A unique name for the key pair. Constraints: Up to 255 ASCII characters
*/
KeyName: KeyPairName;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateLaunchTemplateRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency. Constraint: Maximum 128 ASCII characters.
*/
ClientToken?: String;
/**
* A name for the launch template.
*/
LaunchTemplateName: LaunchTemplateName;
/**
* A description for the first version of the launch template.
*/
VersionDescription?: VersionDescription;
/**
* The information for the launch template.
*/
LaunchTemplateData: RequestLaunchTemplateData;
/**
* The tags to apply to the launch template during creation.
*/
TagSpecifications?: TagSpecificationList;
}
export interface CreateLaunchTemplateResult {
/**
* Information about the launch template.
*/
LaunchTemplate?: LaunchTemplate;
}
export interface CreateLaunchTemplateVersionRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency. Constraint: Maximum 128 ASCII characters.
*/
ClientToken?: String;
/**
* The ID of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateId?: LaunchTemplateId;
/**
* The name of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* The version number of the launch template version on which to base the new version. The new version inherits the same launch parameters as the source version, except for parameters that you specify in LaunchTemplateData. Snapshots applied to the block device mapping are ignored when creating a new version unless they are explicitly included.
*/
SourceVersion?: String;
/**
* A description for the version of the launch template.
*/
VersionDescription?: VersionDescription;
/**
* The information for the launch template.
*/
LaunchTemplateData: RequestLaunchTemplateData;
}
export interface CreateLaunchTemplateVersionResult {
/**
* Information about the launch template version.
*/
LaunchTemplateVersion?: LaunchTemplateVersion;
}
export interface CreateNatGatewayRequest {
/**
* The allocation ID of an Elastic IP address to associate with the NAT gateway. If the Elastic IP address is associated with another resource, you must first disassociate it.
*/
AllocationId: AllocationId;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency. Constraint: Maximum 64 ASCII characters.
*/
ClientToken?: String;
/**
* The subnet in which to create the NAT gateway.
*/
SubnetId: SubnetId;
}
export interface CreateNatGatewayResult {
/**
* Unique, case-sensitive identifier to ensure the idempotency of the request. Only returned if a client token was provided in the request.
*/
ClientToken?: String;
/**
* Information about the NAT gateway.
*/
NatGateway?: NatGateway;
}
export interface CreateNetworkAclEntryRequest {
/**
* The IPv4 network range to allow or deny, in CIDR notation (for example 172.16.0.0/24).
*/
CidrBlock?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Indicates whether this is an egress rule (rule is applied to traffic leaving the subnet).
*/
Egress: Boolean;
/**
* ICMP protocol: The ICMP or ICMPv6 type and code. Required if specifying protocol 1 (ICMP) or protocol 58 (ICMPv6) with an IPv6 CIDR block.
*/
IcmpTypeCode?: IcmpTypeCode;
/**
* The IPv6 network range to allow or deny, in CIDR notation (for example 2001:db8:1234:1a00::/64).
*/
Ipv6CidrBlock?: String;
/**
* The ID of the network ACL.
*/
NetworkAclId: NetworkAclId;
/**
* TCP or UDP protocols: The range of ports the rule applies to. Required if specifying protocol 6 (TCP) or 17 (UDP).
*/
PortRange?: PortRange;
/**
* The protocol number. A value of "-1" means all protocols. If you specify "-1" or a protocol number other than "6" (TCP), "17" (UDP), or "1" (ICMP), traffic on all ports is allowed, regardless of any ports or ICMP types or codes that you specify. If you specify protocol "58" (ICMPv6) and specify an IPv4 CIDR block, traffic for all ICMP types and codes allowed, regardless of any that you specify. If you specify protocol "58" (ICMPv6) and specify an IPv6 CIDR block, you must specify an ICMP type and code.
*/
Protocol: String;
/**
* Indicates whether to allow or deny the traffic that matches the rule.
*/
RuleAction: RuleAction;
/**
* The rule number for the entry (for example, 100). ACL entries are processed in ascending order by rule number. Constraints: Positive integer from 1 to 32766. The range 32767 to 65535 is reserved for internal use.
*/
RuleNumber: Integer;
}
export interface CreateNetworkAclRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface CreateNetworkAclResult {
/**
* Information about the network ACL.
*/
NetworkAcl?: NetworkAcl;
}
export interface CreateNetworkInterfacePermissionRequest {
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
/**
* The AWS account ID.
*/
AwsAccountId?: String;
/**
* The AWS service. Currently not supported.
*/
AwsService?: String;
/**
* The type of permission to grant.
*/
Permission: InterfacePermissionType;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateNetworkInterfacePermissionResult {
/**
* Information about the permission for the network interface.
*/
InterfacePermission?: NetworkInterfacePermission;
}
export interface CreateNetworkInterfaceRequest {
/**
* A description for the network interface.
*/
Description?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of one or more security groups.
*/
Groups?: SecurityGroupIdStringList;
/**
* The number of IPv6 addresses to assign to a network interface. Amazon EC2 automatically selects the IPv6 addresses from the subnet range. You can't use this option if specifying specific IPv6 addresses. If your subnet has the AssignIpv6AddressOnCreation attribute set to true, you can specify 0 to override this setting.
*/
Ipv6AddressCount?: Integer;
/**
* One or more specific IPv6 addresses from the IPv6 CIDR block range of your subnet. You can't use this option if you're specifying a number of IPv6 addresses.
*/
Ipv6Addresses?: InstanceIpv6AddressList;
/**
* The primary private IPv4 address of the network interface. If you don't specify an IPv4 address, Amazon EC2 selects one for you from the subnet's IPv4 CIDR range. If you specify an IP address, you cannot indicate any IP addresses specified in privateIpAddresses as primary (only one IP address can be designated as primary).
*/
PrivateIpAddress?: String;
/**
* One or more private IPv4 addresses.
*/
PrivateIpAddresses?: PrivateIpAddressSpecificationList;
/**
* The number of secondary private IPv4 addresses to assign to a network interface. When you specify a number of secondary IPv4 addresses, Amazon EC2 selects these IP addresses within the subnet's IPv4 CIDR range. You can't specify this option and specify more than one private IP address using privateIpAddresses. The number of IP addresses you can assign to a network interface varies by instance type. For more information, see IP Addresses Per ENI Per Instance Type in the Amazon Virtual Private Cloud User Guide.
*/
SecondaryPrivateIpAddressCount?: Integer;
/**
* Indicates the type of network interface. To create an Elastic Fabric Adapter (EFA), specify efa. For more information, see Elastic Fabric Adapter in the Amazon Elastic Compute Cloud User Guide.
*/
InterfaceType?: NetworkInterfaceCreationType;
/**
* The ID of the subnet to associate with the network interface.
*/
SubnetId: SubnetId;
}
export interface CreateNetworkInterfaceResult {
/**
* Information about the network interface.
*/
NetworkInterface?: NetworkInterface;
}
export interface CreatePlacementGroupRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* A name for the placement group. Must be unique within the scope of your account for the Region. Constraints: Up to 255 ASCII characters
*/
GroupName?: String;
/**
* The placement strategy.
*/
Strategy?: PlacementStrategy;
/**
* The number of partitions. Valid only when Strategy is set to partition.
*/
PartitionCount?: Integer;
}
export interface CreateReservedInstancesListingRequest {
/**
* Unique, case-sensitive identifier you provide to ensure idempotency of your listings. This helps avoid duplicate listings. For more information, see Ensuring Idempotency.
*/
ClientToken: String;
/**
* The number of instances that are a part of a Reserved Instance account to be listed in the Reserved Instance Marketplace. This number should be less than or equal to the instance count associated with the Reserved Instance ID specified in this call.
*/
InstanceCount: Integer;
/**
* A list specifying the price of the Standard Reserved Instance for each month remaining in the Reserved Instance term.
*/
PriceSchedules: PriceScheduleSpecificationList;
/**
* The ID of the active Standard Reserved Instance.
*/
ReservedInstancesId: String;
}
export interface CreateReservedInstancesListingResult {
/**
* Information about the Standard Reserved Instance listing.
*/
ReservedInstancesListings?: ReservedInstancesListingList;
}
export interface CreateRouteRequest {
/**
* The IPv4 CIDR address block used for the destination match. Routing decisions are based on the most specific match.
*/
DestinationCidrBlock?: String;
/**
* The IPv6 CIDR block used for the destination match. Routing decisions are based on the most specific match.
*/
DestinationIpv6CidrBlock?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* [IPv6 traffic only] The ID of an egress-only internet gateway.
*/
EgressOnlyInternetGatewayId?: EgressOnlyInternetGatewayId;
/**
* The ID of an internet gateway or virtual private gateway attached to your VPC.
*/
GatewayId?: RouteTableGatewayId;
/**
* The ID of a NAT instance in your VPC. The operation fails if you specify an instance ID unless exactly one network interface is attached.
*/
InstanceId?: InstanceId;
/**
* [IPv4 traffic only] The ID of a NAT gateway.
*/
NatGatewayId?: NatGatewayId;
/**
* The ID of a transit gateway.
*/
TransitGatewayId?: TransitGatewayId;
/**
* The ID of a network interface.
*/
NetworkInterfaceId?: NetworkInterfaceId;
/**
* The ID of the route table for the route.
*/
RouteTableId: RouteTableId;
/**
* The ID of a VPC peering connection.
*/
VpcPeeringConnectionId?: VpcPeeringConnectionId;
}
export interface CreateRouteResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface CreateRouteTableRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface CreateRouteTableResult {
/**
* Information about the route table.
*/
RouteTable?: RouteTable;
}
export interface CreateSecurityGroupRequest {
/**
* A description for the security group. This is informational only. Constraints: Up to 255 characters in length Constraints for EC2-Classic: ASCII characters Constraints for EC2-VPC: a-z, A-Z, 0-9, spaces, and ._-:/()#,@[]+=&;{}!$*
*/
Description: String;
/**
* The name of the security group. Constraints: Up to 255 characters in length. Cannot start with sg-. Constraints for EC2-Classic: ASCII characters Constraints for EC2-VPC: a-z, A-Z, 0-9, spaces, and ._-:/()#,@[]+=&;{}!$*
*/
GroupName: String;
/**
* [EC2-VPC] The ID of the VPC. Required for EC2-VPC.
*/
VpcId?: VpcId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateSecurityGroupResult {
/**
* The ID of the security group.
*/
GroupId?: String;
}
export interface CreateSnapshotRequest {
/**
* A description for the snapshot.
*/
Description?: String;
/**
* The ID of the EBS volume.
*/
VolumeId: VolumeId;
/**
* The tags to apply to the snapshot during creation.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateSnapshotsRequest {
/**
* A description propagated to every snapshot specified by the instance.
*/
Description?: String;
/**
* The instance to specify which volumes should be included in the snapshots.
*/
InstanceSpecification: InstanceSpecification;
/**
* Tags to apply to every snapshot specified by the instance.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action without actually making the request. Provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Copies the tags from the specified volume to corresponding snapshot.
*/
CopyTagsFromSource?: CopyTagsFromSource;
}
export interface CreateSnapshotsResult {
/**
* List of snapshots.
*/
Snapshots?: SnapshotSet;
}
export interface CreateSpotDatafeedSubscriptionRequest {
/**
* The Amazon S3 bucket in which to store the Spot Instance data feed.
*/
Bucket: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* A prefix for the data feed file names.
*/
Prefix?: String;
}
export interface CreateSpotDatafeedSubscriptionResult {
/**
* The Spot Instance data feed subscription.
*/
SpotDatafeedSubscription?: SpotDatafeedSubscription;
}
export interface CreateSubnetRequest {
/**
* The Availability Zone for the subnet. Default: AWS selects one for you. If you create more than one subnet in your VPC, we may not necessarily select a different zone for each subnet.
*/
AvailabilityZone?: String;
/**
* The AZ ID of the subnet.
*/
AvailabilityZoneId?: String;
/**
* The IPv4 network range for the subnet, in CIDR notation. For example, 10.0.0.0/24.
*/
CidrBlock: String;
/**
* The IPv6 network range for the subnet, in CIDR notation. The subnet size must use a /64 prefix length.
*/
Ipv6CidrBlock?: String;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateSubnetResult {
/**
* Information about the subnet.
*/
Subnet?: Subnet;
}
export interface CreateTagsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the resources, separated by spaces. Constraints: Up to 1000 resource IDs. We recommend breaking up this request into smaller batches.
*/
Resources: ResourceIdList;
/**
* The tags. The value parameter is required, but if you don't want the tag to have a value, specify the parameter with no value, and we set the value to an empty string.
*/
Tags: TagList;
}
export interface CreateTrafficMirrorFilterRequest {
/**
* The description of the Traffic Mirror filter.
*/
Description?: String;
/**
* The tags to assign to a Traffic Mirror filter.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTrafficMirrorFilterResult {
/**
* Information about the Traffic Mirror filter.
*/
TrafficMirrorFilter?: TrafficMirrorFilter;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTrafficMirrorFilterRuleRequest {
/**
* The ID of the filter that this rule is associated with.
*/
TrafficMirrorFilterId: TrafficMirrorFilterId;
/**
* The type of traffic (ingress | egress).
*/
TrafficDirection: TrafficDirection;
/**
* The number of the Traffic Mirror rule. This number must be unique for each Traffic Mirror rule in a given direction. The rules are processed in ascending order by rule number.
*/
RuleNumber: Integer;
/**
* The action to take (accept | reject) on the filtered traffic.
*/
RuleAction: TrafficMirrorRuleAction;
/**
* The destination port range.
*/
DestinationPortRange?: TrafficMirrorPortRangeRequest;
/**
* The source port range.
*/
SourcePortRange?: TrafficMirrorPortRangeRequest;
/**
* The protocol, for example UDP, to assign to the Traffic Mirror rule. For information about the protocol value, see Protocol Numbers on the Internet Assigned Numbers Authority (IANA) website.
*/
Protocol?: Integer;
/**
* The destination CIDR block to assign to the Traffic Mirror rule.
*/
DestinationCidrBlock: String;
/**
* The source CIDR block to assign to the Traffic Mirror rule.
*/
SourceCidrBlock: String;
/**
* The description of the Traffic Mirror rule.
*/
Description?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTrafficMirrorFilterRuleResult {
/**
* The Traffic Mirror rule.
*/
TrafficMirrorFilterRule?: TrafficMirrorFilterRule;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTrafficMirrorSessionRequest {
/**
* The ID of the source network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
/**
* The ID of the Traffic Mirror target.
*/
TrafficMirrorTargetId: TrafficMirrorTargetId;
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterId: TrafficMirrorFilterId;
/**
* The number of bytes in each packet to mirror. These are bytes after the VXLAN header. Do not specify this parameter when you want to mirror the entire packet. To mirror a subset of the packet, set this to the length (in bytes) that you want to mirror. For example, if you set this value to 100, then the first 100 bytes that meet the filter criteria are copied to the target. If you do not want to mirror the entire packet, use the PacketLength parameter to specify the number of bytes in each packet to mirror.
*/
PacketLength?: Integer;
/**
* The session number determines the order in which sessions are evaluated when an interface is used by multiple sessions. The first session with a matching filter is the one that mirrors the packets. Valid values are 1-32766.
*/
SessionNumber: Integer;
/**
* The VXLAN ID for the Traffic Mirror session. For more information about the VXLAN protocol, see RFC 7348. If you do not specify a VirtualNetworkId, an account-wide unique id is chosen at random.
*/
VirtualNetworkId?: Integer;
/**
* The description of the Traffic Mirror session.
*/
Description?: String;
/**
* The tags to assign to a Traffic Mirror session.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTrafficMirrorSessionResult {
/**
* Information about the Traffic Mirror session.
*/
TrafficMirrorSession?: TrafficMirrorSession;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTrafficMirrorTargetRequest {
/**
* The network interface ID that is associated with the target.
*/
NetworkInterfaceId?: NetworkInterfaceId;
/**
* The Amazon Resource Name (ARN) of the Network Load Balancer that is associated with the target.
*/
NetworkLoadBalancerArn?: String;
/**
* The description of the Traffic Mirror target.
*/
Description?: String;
/**
* The tags to assign to the Traffic Mirror target.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTrafficMirrorTargetResult {
/**
* Information about the Traffic Mirror target.
*/
TrafficMirrorTarget?: TrafficMirrorTarget;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateTransitGatewayRequest {
/**
* A description of the transit gateway.
*/
Description?: String;
/**
* The transit gateway options.
*/
Options?: TransitGatewayRequestOptions;
/**
* The tags to apply to the transit gateway.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateTransitGatewayResult {
/**
* Information about the transit gateway.
*/
TransitGateway?: TransitGateway;
}
export interface CreateTransitGatewayRouteRequest {
/**
* The CIDR range used for destination matches. Routing decisions are based on the most specific match.
*/
DestinationCidrBlock: String;
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: TransitGatewayAttachmentId;
/**
* Indicates whether to drop traffic that matches this route.
*/
Blackhole?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateTransitGatewayRouteResult {
/**
* Information about the route.
*/
Route?: TransitGatewayRoute;
}
export interface CreateTransitGatewayRouteTableRequest {
/**
* The ID of the transit gateway.
*/
TransitGatewayId: TransitGatewayId;
/**
* The tags to apply to the transit gateway route table.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateTransitGatewayRouteTableResult {
/**
* Information about the transit gateway route table.
*/
TransitGatewayRouteTable?: TransitGatewayRouteTable;
}
export interface CreateTransitGatewayVpcAttachmentRequest {
/**
* The ID of the transit gateway.
*/
TransitGatewayId: TransitGatewayId;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
/**
* The IDs of one or more subnets. You can specify only one subnet per Availability Zone. You must specify at least one subnet, but we recommend that you specify two subnets for better availability. The transit gateway uses one IP address from each specified subnet.
*/
SubnetIds: ValueStringList;
/**
* The VPC attachment options.
*/
Options?: CreateTransitGatewayVpcAttachmentRequestOptions;
/**
* The tags to apply to the VPC attachment.
*/
TagSpecifications?: TagSpecificationList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateTransitGatewayVpcAttachmentRequestOptions {
/**
* Enable or disable DNS support. The default is enable.
*/
DnsSupport?: DnsSupportValue;
/**
* Enable or disable IPv6 support. The default is enable.
*/
Ipv6Support?: Ipv6SupportValue;
}
export interface CreateTransitGatewayVpcAttachmentResult {
/**
* Information about the VPC attachment.
*/
TransitGatewayVpcAttachment?: TransitGatewayVpcAttachment;
}
export interface CreateVolumePermission {
/**
* The group to be added or removed. The possible value is all.
*/
Group?: PermissionGroup;
/**
* The AWS account ID to be added or removed.
*/
UserId?: String;
}
export type CreateVolumePermissionList = CreateVolumePermission[];
export interface CreateVolumePermissionModifications {
/**
* Adds the specified AWS account ID or group to the list.
*/
Add?: CreateVolumePermissionList;
/**
* Removes the specified AWS account ID or group from the list.
*/
Remove?: CreateVolumePermissionList;
}
export interface CreateVolumeRequest {
/**
* The Availability Zone in which to create the volume.
*/
AvailabilityZone: String;
/**
* Specifies whether the volume should be encrypted. The effect of setting the encryption state to true depends on the volume origin (new or from a snapshot), starting encryption state, ownership, and whether encryption by default is enabled. For more information, see Encryption by Default in the Amazon Elastic Compute Cloud User Guide. Encrypted Amazon EBS volumes must be attached to instances that support Amazon EBS encryption. For more information, see Supported Instance Types.
*/
Encrypted?: Boolean;
/**
* The number of I/O operations per second (IOPS) to provision for the volume, with a maximum ratio of 50 IOPS/GiB. Range is 100 to 64,000 IOPS for volumes in most Regions. Maximum IOPS of 64,000 is guaranteed only on Nitro-based instances. Other instance families guarantee performance up to 32,000 IOPS. For more information, see Amazon EBS Volume Types in the Amazon Elastic Compute Cloud User Guide. This parameter is valid only for Provisioned IOPS SSD (io1) volumes.
*/
Iops?: Integer;
/**
* The identifier of the AWS Key Management Service (AWS KMS) customer master key (CMK) to use for Amazon EBS encryption. If this parameter is not specified, your AWS managed CMK for EBS is used. If KmsKeyId is specified, the encrypted state must be true. You can specify the CMK using any of the following: Key ID. For example, key/1234abcd-12ab-34cd-56ef-1234567890ab. Key alias. For example, alias/ExampleAlias. Key ARN. For example, arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef. Alias ARN. For example, arn:aws:kms:us-east-1:012345678910:alias/ExampleAlias. AWS authenticates the CMK asynchronously. Therefore, if you specify an ID, alias, or ARN that is not valid, the action can appear to complete, but eventually fails.
*/
KmsKeyId?: KmsKeyId;
/**
* The size of the volume, in GiBs. Constraints: 1-16,384 for gp2, 4-16,384 for io1, 500-16,384 for st1, 500-16,384 for sc1, and 1-1,024 for standard. If you specify a snapshot, the volume size must be equal to or larger than the snapshot size. Default: If you're creating the volume from a snapshot and don't specify a volume size, the default is the snapshot size. At least one of Size or SnapshotId is required.
*/
Size?: Integer;
/**
* The snapshot from which to create the volume. At least one of Size or SnapshotId are required.
*/
SnapshotId?: SnapshotId;
/**
* The volume type. This can be gp2 for General Purpose SSD, io1 for Provisioned IOPS SSD, st1 for Throughput Optimized HDD, sc1 for Cold HDD, or standard for Magnetic volumes. Default: gp2
*/
VolumeType?: VolumeType;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The tags to apply to the volume during creation.
*/
TagSpecifications?: TagSpecificationList;
}
export interface CreateVpcEndpointConnectionNotificationRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the endpoint service.
*/
ServiceId?: ServiceId;
/**
* The ID of the endpoint.
*/
VpcEndpointId?: VpcEndpointId;
/**
* The ARN of the SNS topic for the notifications.
*/
ConnectionNotificationArn: String;
/**
* One or more endpoint events for which to receive notifications. Valid values are Accept, Connect, Delete, and Reject.
*/
ConnectionEvents: ValueStringList;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateVpcEndpointConnectionNotificationResult {
/**
* Information about the notification.
*/
ConnectionNotification?: ConnectionNotification;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request.
*/
ClientToken?: String;
}
export interface CreateVpcEndpointRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The type of endpoint. Default: Gateway
*/
VpcEndpointType?: VpcEndpointType;
/**
* The ID of the VPC in which the endpoint will be used.
*/
VpcId: VpcId;
/**
* The service name. To get a list of available services, use the DescribeVpcEndpointServices request, or get the name from the service provider.
*/
ServiceName: String;
/**
* A policy to attach to the endpoint that controls access to the service. The policy must be in valid JSON format. If this parameter is not specified, we attach a default policy that allows full access to the service.
*/
PolicyDocument?: String;
/**
* (Gateway endpoint) One or more route table IDs.
*/
RouteTableIds?: ValueStringList;
/**
* (Interface endpoint) The ID of one or more subnets in which to create an endpoint network interface.
*/
SubnetIds?: ValueStringList;
/**
* (Interface endpoint) The ID of one or more security groups to associate with the endpoint network interface.
*/
SecurityGroupIds?: ValueStringList;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* (Interface endpoint) Indicate whether to associate a private hosted zone with the specified VPC. The private hosted zone contains a record set for the default public DNS name for the service for the Region (for example, kinesis.us-east-1.amazonaws.com) which resolves to the private IP addresses of the endpoint network interfaces in the VPC. This enables you to make requests to the default public DNS name for the service instead of the public DNS names that are automatically generated by the VPC endpoint service. To use a private hosted zone, you must set the following VPC attributes to true: enableDnsHostnames and enableDnsSupport. Use ModifyVpcAttribute to set the VPC attributes. Default: true
*/
PrivateDnsEnabled?: Boolean;
}
export interface CreateVpcEndpointResult {
/**
* Information about the endpoint.
*/
VpcEndpoint?: VpcEndpoint;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request.
*/
ClientToken?: String;
}
export interface CreateVpcEndpointServiceConfigurationRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Indicate whether requests from service consumers to create an endpoint to your service must be accepted. To accept a request, use AcceptVpcEndpointConnections.
*/
AcceptanceRequired?: Boolean;
/**
* The Amazon Resource Names (ARNs) of one or more Network Load Balancers for your service.
*/
NetworkLoadBalancerArns: ValueStringList;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
}
export interface CreateVpcEndpointServiceConfigurationResult {
/**
* Information about the service configuration.
*/
ServiceConfiguration?: ServiceConfiguration;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request.
*/
ClientToken?: String;
}
export interface CreateVpcPeeringConnectionRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The AWS account ID of the owner of the accepter VPC. Default: Your AWS account ID
*/
PeerOwnerId?: String;
/**
* The ID of the VPC with which you are creating the VPC peering connection. You must specify this parameter in the request.
*/
PeerVpcId?: String;
/**
* The ID of the requester VPC. You must specify this parameter in the request.
*/
VpcId?: VpcId;
/**
* The Region code for the accepter VPC, if the accepter VPC is located in a Region other than the Region in which you make the request. Default: The Region in which you make the request.
*/
PeerRegion?: String;
}
export interface CreateVpcPeeringConnectionResult {
/**
* Information about the VPC peering connection.
*/
VpcPeeringConnection?: VpcPeeringConnection;
}
export interface CreateVpcRequest {
/**
* The IPv4 network range for the VPC, in CIDR notation. For example, 10.0.0.0/16.
*/
CidrBlock: String;
/**
* Requests an Amazon-provided IPv6 CIDR block with a /56 prefix length for the VPC. You cannot specify the range of IP addresses, or the size of the CIDR block.
*/
AmazonProvidedIpv6CidrBlock?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The tenancy options for instances launched into the VPC. For default, instances are launched with shared tenancy by default. You can launch instances with any tenancy into a shared tenancy VPC. For dedicated, instances are launched as dedicated tenancy instances by default. You can only launch instances with a tenancy of dedicated or host into a dedicated tenancy VPC. Important: The host value cannot be used with this parameter. Use the default or dedicated values only. Default: default
*/
InstanceTenancy?: Tenancy;
}
export interface CreateVpcResult {
/**
* Information about the VPC.
*/
Vpc?: Vpc;
}
export interface CreateVpnConnectionRequest {
/**
* The ID of the customer gateway.
*/
CustomerGatewayId: CustomerGatewayId;
/**
* The type of VPN connection (ipsec.1).
*/
Type: String;
/**
* The ID of the virtual private gateway. If you specify a virtual private gateway, you cannot specify a transit gateway.
*/
VpnGatewayId?: VpnGatewayId;
/**
* The ID of the transit gateway. If you specify a transit gateway, you cannot specify a virtual private gateway.
*/
TransitGatewayId?: TransitGatewayId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The options for the VPN connection.
*/
Options?: VpnConnectionOptionsSpecification;
}
export interface CreateVpnConnectionResult {
/**
* Information about the VPN connection.
*/
VpnConnection?: VpnConnection;
}
export interface CreateVpnConnectionRouteRequest {
/**
* The CIDR block associated with the local subnet of the customer network.
*/
DestinationCidrBlock: String;
/**
* The ID of the VPN connection.
*/
VpnConnectionId: VpnConnectionId;
}
export interface CreateVpnGatewayRequest {
/**
* The Availability Zone for the virtual private gateway.
*/
AvailabilityZone?: String;
/**
* The type of VPN connection this virtual private gateway supports.
*/
Type: GatewayType;
/**
* A private Autonomous System Number (ASN) for the Amazon side of a BGP session. If you're using a 16-bit ASN, it must be in the 64512 to 65534 range. If you're using a 32-bit ASN, it must be in the 4200000000 to 4294967294 range. Default: 64512
*/
AmazonSideAsn?: Long;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface CreateVpnGatewayResult {
/**
* Information about the virtual private gateway.
*/
VpnGateway?: VpnGateway;
}
export interface CreditSpecification {
/**
* The credit option for CPU usage of a T2 or T3 instance. Valid values are standard and unlimited.
*/
CpuCredits?: String;
}
export interface CreditSpecificationRequest {
/**
* The credit option for CPU usage of a T2 or T3 instance. Valid values are standard and unlimited.
*/
CpuCredits: String;
}
export type CurrencyCodeValues = "USD"|string;
export interface CustomerGateway {
/**
* The customer gateway's Border Gateway Protocol (BGP) Autonomous System Number (ASN).
*/
BgpAsn?: String;
/**
* The ID of the customer gateway.
*/
CustomerGatewayId?: String;
/**
* The Internet-routable IP address of the customer gateway's outside interface.
*/
IpAddress?: String;
/**
* The Amazon Resource Name (ARN) for the customer gateway certificate.
*/
CertificateArn?: String;
/**
* The current state of the customer gateway (pending | available | deleting | deleted).
*/
State?: String;
/**
* The type of VPN connection the customer gateway supports (ipsec.1).
*/
Type?: String;
/**
* Any tags assigned to the customer gateway.
*/
Tags?: TagList;
}
export type CustomerGatewayId = string;
export type CustomerGatewayIdStringList = String[];
export type CustomerGatewayList = CustomerGateway[];
export type DatafeedSubscriptionState = "Active"|"Inactive"|string;
export type DateTime = Date;
export type DefaultRouteTableAssociationValue = "enable"|"disable"|string;
export type DefaultRouteTablePropagationValue = "enable"|"disable"|string;
export type DefaultTargetCapacityType = "spot"|"on-demand"|string;
export interface DeleteClientVpnEndpointRequest {
/**
* The ID of the Client VPN to be deleted.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteClientVpnEndpointResult {
/**
* The current state of the Client VPN endpoint.
*/
Status?: ClientVpnEndpointStatus;
}
export interface DeleteClientVpnRouteRequest {
/**
* The ID of the Client VPN endpoint from which the route is to be deleted.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The ID of the target subnet used by the route.
*/
TargetVpcSubnetId?: String;
/**
* The IPv4 address range, in CIDR notation, of the route to be deleted.
*/
DestinationCidrBlock: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteClientVpnRouteResult {
/**
* The current state of the route.
*/
Status?: ClientVpnRouteStatus;
}
export interface DeleteCustomerGatewayRequest {
/**
* The ID of the customer gateway.
*/
CustomerGatewayId: CustomerGatewayId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteDhcpOptionsRequest {
/**
* The ID of the DHCP options set.
*/
DhcpOptionsId: DhcpOptionsId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteEgressOnlyInternetGatewayRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the egress-only internet gateway.
*/
EgressOnlyInternetGatewayId: EgressOnlyInternetGatewayId;
}
export interface DeleteEgressOnlyInternetGatewayResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
ReturnCode?: Boolean;
}
export interface DeleteFleetError {
/**
* The error code.
*/
Code?: DeleteFleetErrorCode;
/**
* The description for the error code.
*/
Message?: String;
}
export type DeleteFleetErrorCode = "fleetIdDoesNotExist"|"fleetIdMalformed"|"fleetNotInDeletableState"|"unexpectedError"|string;
export interface DeleteFleetErrorItem {
/**
* The error.
*/
Error?: DeleteFleetError;
/**
* The ID of the EC2 Fleet.
*/
FleetId?: FleetIdentifier;
}
export type DeleteFleetErrorSet = DeleteFleetErrorItem[];
export interface DeleteFleetSuccessItem {
/**
* The current state of the EC2 Fleet.
*/
CurrentFleetState?: FleetStateCode;
/**
* The previous state of the EC2 Fleet.
*/
PreviousFleetState?: FleetStateCode;
/**
* The ID of the EC2 Fleet.
*/
FleetId?: FleetIdentifier;
}
export type DeleteFleetSuccessSet = DeleteFleetSuccessItem[];
export interface DeleteFleetsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the EC2 Fleets.
*/
FleetIds: FleetIdSet;
/**
* Indicates whether to terminate instances for an EC2 Fleet if it is deleted successfully.
*/
TerminateInstances: Boolean;
}
export interface DeleteFleetsResult {
/**
* Information about the EC2 Fleets that are successfully deleted.
*/
SuccessfulFleetDeletions?: DeleteFleetSuccessSet;
/**
* Information about the EC2 Fleets that are not successfully deleted.
*/
UnsuccessfulFleetDeletions?: DeleteFleetErrorSet;
}
export interface DeleteFlowLogsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more flow log IDs. Constraint: Maximum of 1000 flow log IDs.
*/
FlowLogIds: ValueStringList;
}
export interface DeleteFlowLogsResult {
/**
* Information about the flow logs that could not be deleted successfully.
*/
Unsuccessful?: UnsuccessfulItemSet;
}
export interface DeleteFpgaImageRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the AFI.
*/
FpgaImageId: FpgaImageId;
}
export interface DeleteFpgaImageResult {
/**
* Is true if the request succeeds, and an error otherwise.
*/
Return?: Boolean;
}
export interface DeleteInternetGatewayRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the internet gateway.
*/
InternetGatewayId: InternetGatewayId;
}
export interface DeleteKeyPairRequest {
/**
* The name of the key pair.
*/
KeyName: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteLaunchTemplateRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateId?: LaunchTemplateId;
/**
* The name of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateName?: LaunchTemplateName;
}
export interface DeleteLaunchTemplateResult {
/**
* Information about the launch template.
*/
LaunchTemplate?: LaunchTemplate;
}
export interface DeleteLaunchTemplateVersionsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateId?: LaunchTemplateId;
/**
* The name of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* The version numbers of one or more launch template versions to delete.
*/
Versions: VersionStringList;
}
export interface DeleteLaunchTemplateVersionsResponseErrorItem {
/**
* The ID of the launch template.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template.
*/
LaunchTemplateName?: String;
/**
* The version number of the launch template.
*/
VersionNumber?: Long;
/**
* Information about the error.
*/
ResponseError?: ResponseError;
}
export type DeleteLaunchTemplateVersionsResponseErrorSet = DeleteLaunchTemplateVersionsResponseErrorItem[];
export interface DeleteLaunchTemplateVersionsResponseSuccessItem {
/**
* The ID of the launch template.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template.
*/
LaunchTemplateName?: String;
/**
* The version number of the launch template.
*/
VersionNumber?: Long;
}
export type DeleteLaunchTemplateVersionsResponseSuccessSet = DeleteLaunchTemplateVersionsResponseSuccessItem[];
export interface DeleteLaunchTemplateVersionsResult {
/**
* Information about the launch template versions that were successfully deleted.
*/
SuccessfullyDeletedLaunchTemplateVersions?: DeleteLaunchTemplateVersionsResponseSuccessSet;
/**
* Information about the launch template versions that could not be deleted.
*/
UnsuccessfullyDeletedLaunchTemplateVersions?: DeleteLaunchTemplateVersionsResponseErrorSet;
}
export interface DeleteNatGatewayRequest {
/**
* The ID of the NAT gateway.
*/
NatGatewayId: NatGatewayId;
}
export interface DeleteNatGatewayResult {
/**
* The ID of the NAT gateway.
*/
NatGatewayId?: String;
}
export interface DeleteNetworkAclEntryRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Indicates whether the rule is an egress rule.
*/
Egress: Boolean;
/**
* The ID of the network ACL.
*/
NetworkAclId: NetworkAclId;
/**
* The rule number of the entry to delete.
*/
RuleNumber: Integer;
}
export interface DeleteNetworkAclRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the network ACL.
*/
NetworkAclId: NetworkAclId;
}
export interface DeleteNetworkInterfacePermissionRequest {
/**
* The ID of the network interface permission.
*/
NetworkInterfacePermissionId: String;
/**
* Specify true to remove the permission even if the network interface is attached to an instance.
*/
Force?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteNetworkInterfacePermissionResult {
/**
* Returns true if the request succeeds, otherwise returns an error.
*/
Return?: Boolean;
}
export interface DeleteNetworkInterfaceRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
}
export interface DeletePlacementGroupRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The name of the placement group.
*/
GroupName: String;
}
export interface DeleteQueuedReservedInstancesError {
/**
* The error code.
*/
Code?: DeleteQueuedReservedInstancesErrorCode;
/**
* The error message.
*/
Message?: String;
}
export type DeleteQueuedReservedInstancesErrorCode = "reserved-instances-id-invalid"|"reserved-instances-not-in-queued-state"|"unexpected-error"|string;
export type DeleteQueuedReservedInstancesIdList = String[];
export interface DeleteQueuedReservedInstancesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the Reserved Instances.
*/
ReservedInstancesIds: DeleteQueuedReservedInstancesIdList;
}
export interface DeleteQueuedReservedInstancesResult {
/**
* Information about the queued purchases that were successfully deleted.
*/
SuccessfulQueuedPurchaseDeletions?: SuccessfulQueuedPurchaseDeletionSet;
/**
* Information about the queued purchases that could not be deleted.
*/
FailedQueuedPurchaseDeletions?: FailedQueuedPurchaseDeletionSet;
}
export interface DeleteRouteRequest {
/**
* The IPv4 CIDR range for the route. The value you specify must match the CIDR for the route exactly.
*/
DestinationCidrBlock?: String;
/**
* The IPv6 CIDR range for the route. The value you specify must match the CIDR for the route exactly.
*/
DestinationIpv6CidrBlock?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the route table.
*/
RouteTableId: RouteTableId;
}
export interface DeleteRouteTableRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the route table.
*/
RouteTableId: String;
}
export interface DeleteSecurityGroupRequest {
/**
* The ID of the security group. Required for a nondefault VPC.
*/
GroupId?: String;
/**
* [EC2-Classic, default VPC] The name of the security group. You can specify either the security group name or the security group ID.
*/
GroupName?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteSnapshotRequest {
/**
* The ID of the EBS snapshot.
*/
SnapshotId: SnapshotId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteSpotDatafeedSubscriptionRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteSubnetRequest {
/**
* The ID of the subnet.
*/
SubnetId: SubnetId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTagsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the resources, separated by spaces. Constraints: Up to 1000 resource IDs. We recommend breaking up this request into smaller batches.
*/
Resources: ResourceIdList;
/**
* The tags to delete. Specify a tag key and an optional tag value to delete specific tags. If you specify a tag key without a tag value, we delete any tag with this key regardless of its value. If you specify a tag key with an empty string as the tag value, we delete the tag only if its value is an empty string. If you omit this parameter, we delete all user-defined tags for the specified resources. We do not delete AWS-generated tags (tags that have the aws: prefix).
*/
Tags?: TagList;
}
export interface DeleteTrafficMirrorFilterRequest {
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterId: TrafficMirrorFilterId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTrafficMirrorFilterResult {
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterId?: String;
}
export interface DeleteTrafficMirrorFilterRuleRequest {
/**
* The ID of the Traffic Mirror rule.
*/
TrafficMirrorFilterRuleId: TrafficMirrorFilterRuleId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTrafficMirrorFilterRuleResult {
/**
* The ID of the deleted Traffic Mirror rule.
*/
TrafficMirrorFilterRuleId?: String;
}
export interface DeleteTrafficMirrorSessionRequest {
/**
* The ID of the Traffic Mirror session.
*/
TrafficMirrorSessionId: TrafficMirrorSessionId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTrafficMirrorSessionResult {
/**
* The ID of the deleted Traffic Mirror session.
*/
TrafficMirrorSessionId?: String;
}
export interface DeleteTrafficMirrorTargetRequest {
/**
* The ID of the Traffic Mirror target.
*/
TrafficMirrorTargetId: TrafficMirrorTargetId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTrafficMirrorTargetResult {
/**
* The ID of the deleted Traffic Mirror target.
*/
TrafficMirrorTargetId?: String;
}
export interface DeleteTransitGatewayRequest {
/**
* The ID of the transit gateway.
*/
TransitGatewayId: TransitGatewayId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTransitGatewayResult {
/**
* Information about the deleted transit gateway.
*/
TransitGateway?: TransitGateway;
}
export interface DeleteTransitGatewayRouteRequest {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* The CIDR range for the route. This must match the CIDR for the route exactly.
*/
DestinationCidrBlock: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTransitGatewayRouteResult {
/**
* Information about the route.
*/
Route?: TransitGatewayRoute;
}
export interface DeleteTransitGatewayRouteTableRequest {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTransitGatewayRouteTableResult {
/**
* Information about the deleted transit gateway route table.
*/
TransitGatewayRouteTable?: TransitGatewayRouteTable;
}
export interface DeleteTransitGatewayVpcAttachmentRequest {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteTransitGatewayVpcAttachmentResult {
/**
* Information about the deleted VPC attachment.
*/
TransitGatewayVpcAttachment?: TransitGatewayVpcAttachment;
}
export interface DeleteVolumeRequest {
/**
* The ID of the volume.
*/
VolumeId: VolumeId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteVpcEndpointConnectionNotificationsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more notification IDs.
*/
ConnectionNotificationIds: ValueStringList;
}
export interface DeleteVpcEndpointConnectionNotificationsResult {
/**
* Information about the notifications that could not be deleted successfully.
*/
Unsuccessful?: UnsuccessfulItemSet;
}
export interface DeleteVpcEndpointServiceConfigurationsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of one or more services.
*/
ServiceIds: ValueStringList;
}
export interface DeleteVpcEndpointServiceConfigurationsResult {
/**
* Information about the service configurations that were not deleted, if applicable.
*/
Unsuccessful?: UnsuccessfulItemSet;
}
export interface DeleteVpcEndpointsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more VPC endpoint IDs.
*/
VpcEndpointIds: ValueStringList;
}
export interface DeleteVpcEndpointsResult {
/**
* Information about the VPC endpoints that were not successfully deleted.
*/
Unsuccessful?: UnsuccessfulItemSet;
}
export interface DeleteVpcPeeringConnectionRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC peering connection.
*/
VpcPeeringConnectionId: VpcPeeringConnectionId;
}
export interface DeleteVpcPeeringConnectionResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface DeleteVpcRequest {
/**
* The ID of the VPC.
*/
VpcId: VpcId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteVpnConnectionRequest {
/**
* The ID of the VPN connection.
*/
VpnConnectionId: VpnConnectionId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeleteVpnConnectionRouteRequest {
/**
* The CIDR block associated with the local subnet of the customer network.
*/
DestinationCidrBlock: String;
/**
* The ID of the VPN connection.
*/
VpnConnectionId: VpnConnectionId;
}
export interface DeleteVpnGatewayRequest {
/**
* The ID of the virtual private gateway.
*/
VpnGatewayId: VpnGatewayId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeprovisionByoipCidrRequest {
/**
* The public IPv4 address range, in CIDR notation. The prefix must be the same prefix that you specified when you provisioned the address range.
*/
Cidr: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DeprovisionByoipCidrResult {
/**
* Information about the address range.
*/
ByoipCidr?: ByoipCidr;
}
export interface DeregisterImageRequest {
/**
* The ID of the AMI.
*/
ImageId: ImageId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeAccountAttributesRequest {
/**
* The account attribute names.
*/
AttributeNames?: AccountAttributeNameStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeAccountAttributesResult {
/**
* Information about the account attributes.
*/
AccountAttributes?: AccountAttributeList;
}
export interface DescribeAddressesRequest {
/**
* One or more filters. Filter names and values are case-sensitive. allocation-id - [EC2-VPC] The allocation ID for the address. association-id - [EC2-VPC] The association ID for the address. domain - Indicates whether the address is for use in EC2-Classic (standard) or in a VPC (vpc). instance-id - The ID of the instance the address is associated with, if any. network-interface-id - [EC2-VPC] The ID of the network interface that the address is associated with, if any. network-interface-owner-id - The AWS account ID of the owner. private-ip-address - [EC2-VPC] The private IP address associated with the Elastic IP address. public-ip - The Elastic IP address. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* One or more Elastic IP addresses. Default: Describes all your Elastic IP addresses.
*/
PublicIps?: PublicIpStringList;
/**
* [EC2-VPC] Information about the allocation IDs.
*/
AllocationIds?: AllocationIdList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeAddressesResult {
/**
* Information about the Elastic IP addresses.
*/
Addresses?: AddressList;
}
export interface DescribeAggregateIdFormatRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeAggregateIdFormatResult {
/**
* Indicates whether all resource types in the Region are configured to use longer IDs. This value is only true if all users are configured to use longer IDs for all resources types in the Region.
*/
UseLongIdsAggregated?: Boolean;
/**
* Information about each resource's ID format.
*/
Statuses?: IdFormatList;
}
export interface DescribeAvailabilityZonesRequest {
/**
* The filters. message - Information about the Availability Zone. region-name - The name of the Region for the Availability Zone (for example, us-east-1). state - The state of the Availability Zone (available | information | impaired | unavailable). zone-id - The ID of the Availability Zone (for example, use1-az1). zone-name - The name of the Availability Zone (for example, us-east-1a).
*/
Filters?: FilterList;
/**
* The names of the Availability Zones.
*/
ZoneNames?: ZoneNameStringList;
/**
* The IDs of the Availability Zones.
*/
ZoneIds?: ZoneIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeAvailabilityZonesResult {
/**
* Information about the Availability Zones.
*/
AvailabilityZones?: AvailabilityZoneList;
}
export interface DescribeBundleTasksRequest {
/**
* The bundle task IDs. Default: Describes all your bundle tasks.
*/
BundleIds?: BundleIdStringList;
/**
* The filters. bundle-id - The ID of the bundle task. error-code - If the task failed, the error code returned. error-message - If the task failed, the error message returned. instance-id - The ID of the instance. progress - The level of task completion, as a percentage (for example, 20%). s3-bucket - The Amazon S3 bucket to store the AMI. s3-prefix - The beginning of the AMI name. start-time - The time the task started (for example, 2013-09-15T17:15:20.000Z). state - The state of the task (pending | waiting-for-shutdown | bundling | storing | cancelling | complete | failed). update-time - The time of the most recent update for the task.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeBundleTasksResult {
/**
* Information about the bundle tasks.
*/
BundleTasks?: BundleTaskList;
}
export type DescribeByoipCidrsMaxResults = number;
export interface DescribeByoipCidrsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults: DescribeByoipCidrsMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: NextToken;
}
export interface DescribeByoipCidrsResult {
/**
* Information about your address ranges.
*/
ByoipCidrs?: ByoipCidrSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeCapacityReservationsMaxResults = number;
export interface DescribeCapacityReservationsRequest {
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationIds?: CapacityReservationIdSet;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the returned nextToken value.
*/
MaxResults?: DescribeCapacityReservationsMaxResults;
/**
* One or more filters.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeCapacityReservationsResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* Information about the Capacity Reservations.
*/
CapacityReservations?: CapacityReservationSet;
}
export type DescribeClassicLinkInstancesMaxResults = number;
export interface DescribeClassicLinkInstancesRequest {
/**
* One or more filters. group-id - The ID of a VPC security group that's associated with the instance. instance-id - The ID of the instance. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-id - The ID of the VPC to which the instance is linked. vpc-id - The ID of the VPC that the instance is linked to.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more instance IDs. Must be instances linked to a VPC through ClassicLink.
*/
InstanceIds?: InstanceIdStringList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value. Constraint: If the value is greater than 1000, we return only 1000 items.
*/
MaxResults?: DescribeClassicLinkInstancesMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
}
export interface DescribeClassicLinkInstancesResult {
/**
* Information about one or more linked EC2-Classic instances.
*/
Instances?: ClassicLinkInstanceList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeClientVpnAuthorizationRulesMaxResults = number;
export interface DescribeClientVpnAuthorizationRulesRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The token to retrieve the next page of results.
*/
NextToken?: NextToken;
/**
* One or more filters. Filter names and values are case-sensitive.
*/
Filters?: FilterList;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the nextToken value.
*/
MaxResults?: DescribeClientVpnAuthorizationRulesMaxResults;
}
export interface DescribeClientVpnAuthorizationRulesResult {
/**
* Information about the authorization rules.
*/
AuthorizationRules?: AuthorizationRuleSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export type DescribeClientVpnConnectionsMaxResults = number;
export interface DescribeClientVpnConnectionsRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: String;
/**
* One or more filters. Filter names and values are case-sensitive.
*/
Filters?: FilterList;
/**
* The token to retrieve the next page of results.
*/
NextToken?: NextToken;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the nextToken value.
*/
MaxResults?: DescribeClientVpnConnectionsMaxResults;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeClientVpnConnectionsResult {
/**
* Information about the active and terminated client connections.
*/
Connections?: ClientVpnConnectionSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export type DescribeClientVpnEndpointMaxResults = number;
export interface DescribeClientVpnEndpointsRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointIds?: ValueStringList;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the nextToken value.
*/
MaxResults?: DescribeClientVpnEndpointMaxResults;
/**
* The token to retrieve the next page of results.
*/
NextToken?: NextToken;
/**
* One or more filters. Filter names and values are case-sensitive.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeClientVpnEndpointsResult {
/**
* Information about the Client VPN endpoints.
*/
ClientVpnEndpoints?: EndpointSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export type DescribeClientVpnRoutesMaxResults = number;
export interface DescribeClientVpnRoutesRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: String;
/**
* One or more filters. Filter names and values are case-sensitive.
*/
Filters?: FilterList;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the nextToken value.
*/
MaxResults?: DescribeClientVpnRoutesMaxResults;
/**
* The token to retrieve the next page of results.
*/
NextToken?: NextToken;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeClientVpnRoutesResult {
/**
* Information about the Client VPN endpoint routes.
*/
Routes?: ClientVpnRouteSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export type DescribeClientVpnTargetNetworksMaxResults = number;
export interface DescribeClientVpnTargetNetworksRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: String;
/**
* The IDs of the target network associations.
*/
AssociationIds?: ValueStringList;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the nextToken value.
*/
MaxResults?: DescribeClientVpnTargetNetworksMaxResults;
/**
* The token to retrieve the next page of results.
*/
NextToken?: NextToken;
/**
* One or more filters. Filter names and values are case-sensitive.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeClientVpnTargetNetworksResult {
/**
* Information about the associated target networks.
*/
ClientVpnTargetNetworks?: TargetNetworkSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export type DescribeConversionTaskList = ConversionTask[];
export interface DescribeConversionTasksRequest {
/**
* The conversion task IDs.
*/
ConversionTaskIds?: ConversionIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeConversionTasksResult {
/**
* Information about the conversion tasks.
*/
ConversionTasks?: DescribeConversionTaskList;
}
export interface DescribeCustomerGatewaysRequest {
/**
* One or more customer gateway IDs. Default: Describes all your customer gateways.
*/
CustomerGatewayIds?: CustomerGatewayIdStringList;
/**
* One or more filters. bgp-asn - The customer gateway's Border Gateway Protocol (BGP) Autonomous System Number (ASN). customer-gateway-id - The ID of the customer gateway. ip-address - The IP address of the customer gateway's Internet-routable external interface. state - The state of the customer gateway (pending | available | deleting | deleted). type - The type of customer gateway. Currently, the only supported type is ipsec.1. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeCustomerGatewaysResult {
/**
* Information about one or more customer gateways.
*/
CustomerGateways?: CustomerGatewayList;
}
export type DescribeDhcpOptionsMaxResults = number;
export interface DescribeDhcpOptionsRequest {
/**
* The IDs of one or more DHCP options sets. Default: Describes all your DHCP options sets.
*/
DhcpOptionsIds?: DhcpOptionsIdStringList;
/**
* One or more filters. dhcp-options-id - The ID of a DHCP options set. key - The key for one of the options (for example, domain-name). value - The value for one of the options. owner-id - The ID of the AWS account that owns the DHCP options set. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeDhcpOptionsMaxResults;
}
export interface DescribeDhcpOptionsResult {
/**
* Information about one or more DHCP options sets.
*/
DhcpOptions?: DhcpOptionsList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeEgressOnlyInternetGatewaysMaxResults = number;
export interface DescribeEgressOnlyInternetGatewaysRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more egress-only internet gateway IDs.
*/
EgressOnlyInternetGatewayIds?: EgressOnlyInternetGatewayIdList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeEgressOnlyInternetGatewaysMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
}
export interface DescribeEgressOnlyInternetGatewaysResult {
/**
* Information about the egress-only internet gateways.
*/
EgressOnlyInternetGateways?: EgressOnlyInternetGatewayList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeElasticGpusMaxResults = number;
export interface DescribeElasticGpusRequest {
/**
* The Elastic Graphics accelerator IDs.
*/
ElasticGpuIds?: ElasticGpuIdSet;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The filters. availability-zone - The Availability Zone in which the Elastic Graphics accelerator resides. elastic-gpu-health - The status of the Elastic Graphics accelerator (OK | IMPAIRED). elastic-gpu-state - The state of the Elastic Graphics accelerator (ATTACHED). elastic-gpu-type - The type of Elastic Graphics accelerator; for example, eg1.medium. instance-id - The ID of the instance to which the Elastic Graphics accelerator is associated.
*/
Filters?: FilterList;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value. This value can be between 5 and 1000.
*/
MaxResults?: DescribeElasticGpusMaxResults;
/**
* The token to request the next page of results.
*/
NextToken?: String;
}
export interface DescribeElasticGpusResult {
/**
* Information about the Elastic Graphics accelerators.
*/
ElasticGpuSet?: ElasticGpuSet;
/**
* The total number of items to return. If the total number of items available is more than the value specified in max-items then a Next-Token will be provided in the output that you can use to resume pagination.
*/
MaxResults?: Integer;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeExportImageTasksMaxResults = number;
export interface DescribeExportImageTasksRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Filter tasks using the task-state filter and one of the following values: active, completed, deleting, or deleted.
*/
Filters?: FilterList;
/**
* The IDs of the export image tasks.
*/
ExportImageTaskIds?: ExportImageTaskIdList;
/**
* The maximum number of results to return in a single call.
*/
MaxResults?: DescribeExportImageTasksMaxResults;
/**
* A token that indicates the next page of results.
*/
NextToken?: NextToken;
}
export interface DescribeExportImageTasksResult {
/**
* Information about the export image tasks.
*/
ExportImageTasks?: ExportImageTaskList;
/**
* The token to use to get the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export interface DescribeExportTasksRequest {
/**
* The export task IDs.
*/
ExportTaskIds?: ExportTaskIdStringList;
}
export interface DescribeExportTasksResult {
/**
* Information about the export tasks.
*/
ExportTasks?: ExportTaskList;
}
export interface DescribeFleetError {
/**
* The launch templates and overrides that were used for launching the instances. Any parameters that you specify in the Overrides override the same parameters in the launch template.
*/
LaunchTemplateAndOverrides?: LaunchTemplateAndOverridesResponse;
/**
* Indicates if the instance that could not be launched was a Spot Instance or On-Demand Instance.
*/
Lifecycle?: InstanceLifecycle;
/**
* The error code that indicates why the instance could not be launched. For more information about error codes, see Error Codes.
*/
ErrorCode?: String;
/**
* The error message that describes why the instance could not be launched. For more information about error messages, see ee Error Codes.
*/
ErrorMessage?: String;
}
export interface DescribeFleetHistoryRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The type of events to describe. By default, all events are described.
*/
EventType?: FleetEventType;
/**
* The maximum number of results to return in a single call. Specify a value between 1 and 1000. The default value is 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The ID of the EC2 Fleet.
*/
FleetId: FleetIdentifier;
/**
* The start date and time for the events, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
StartTime: DateTime;
}
export interface DescribeFleetHistoryResult {
/**
* Information about the events in the history of the EC2 Fleet.
*/
HistoryRecords?: HistoryRecordSet;
/**
* The last date and time for the events, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). All records up to this time were retrieved. If nextToken indicates that there are more results, this value is not present.
*/
LastEvaluatedTime?: DateTime;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The ID of the EC Fleet.
*/
FleetId?: FleetIdentifier;
/**
* The start date and time for the events, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
StartTime?: DateTime;
}
export interface DescribeFleetInstancesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of results to return in a single call. Specify a value between 1 and 1000. The default value is 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The ID of the EC2 Fleet.
*/
FleetId: FleetIdentifier;
/**
* The filters. instance-type - The instance type.
*/
Filters?: FilterList;
}
export interface DescribeFleetInstancesResult {
/**
* The running instances. This list is refreshed periodically and might be out of date.
*/
ActiveInstances?: ActiveInstanceSet;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The ID of the EC2 Fleet.
*/
FleetId?: FleetIdentifier;
}
export type DescribeFleetsErrorSet = DescribeFleetError[];
export interface DescribeFleetsInstances {
/**
* The launch templates and overrides that were used for launching the instances. Any parameters that you specify in the Overrides override the same parameters in the launch template.
*/
LaunchTemplateAndOverrides?: LaunchTemplateAndOverridesResponse;
/**
* Indicates if the instance that was launched is a Spot Instance or On-Demand Instance.
*/
Lifecycle?: InstanceLifecycle;
/**
* The IDs of the instances.
*/
InstanceIds?: InstanceIdsSet;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The value is Windows for Windows instances; otherwise blank.
*/
Platform?: PlatformValues;
}
export type DescribeFleetsInstancesSet = DescribeFleetsInstances[];
export interface DescribeFleetsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of results to return in a single call. Specify a value between 1 and 1000. The default value is 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The ID of the EC2 Fleets.
*/
FleetIds?: FleetIdSet;
/**
* The filters. activity-status - The progress of the EC2 Fleet ( error | pending-fulfillment | pending-termination | fulfilled). excess-capacity-termination-policy - Indicates whether to terminate running instances if the target capacity is decreased below the current EC2 Fleet size (true | false). fleet-state - The state of the EC2 Fleet (submitted | active | deleted | failed | deleted-running | deleted-terminating | modifying). replace-unhealthy-instances - Indicates whether EC2 Fleet should replace unhealthy instances (true | false). type - The type of request (instant | request | maintain).
*/
Filters?: FilterList;
}
export interface DescribeFleetsResult {
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* Information about the EC2 Fleets.
*/
Fleets?: FleetSet;
}
export interface DescribeFlowLogsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more filters. deliver-log-status - The status of the logs delivery (SUCCESS | FAILED). log-destination-type - The type of destination to which the flow log publishes data. Possible destination types include cloud-watch-logs and S3. flow-log-id - The ID of the flow log. log-group-name - The name of the log group. resource-id - The ID of the VPC, subnet, or network interface. traffic-type - The type of traffic (ACCEPT | REJECT | ALL).
*/
Filter?: FilterList;
/**
* One or more flow log IDs. Constraint: Maximum of 1000 flow log IDs.
*/
FlowLogIds?: ValueStringList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next page of results.
*/
NextToken?: String;
}
export interface DescribeFlowLogsResult {
/**
* Information about the flow logs.
*/
FlowLogs?: FlowLogSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeFpgaImageAttributeRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the AFI.
*/
FpgaImageId: String;
/**
* The AFI attribute.
*/
Attribute: FpgaImageAttributeName;
}
export interface DescribeFpgaImageAttributeResult {
/**
* Information about the attribute.
*/
FpgaImageAttribute?: FpgaImageAttribute;
}
export type DescribeFpgaImagesMaxResults = number;
export interface DescribeFpgaImagesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The AFI IDs.
*/
FpgaImageIds?: FpgaImageIdList;
/**
* Filters the AFI by owner. Specify an AWS account ID, self (owner is the sender of the request), or an AWS owner alias (valid values are amazon | aws-marketplace).
*/
Owners?: OwnerStringList;
/**
* The filters. create-time - The creation time of the AFI. fpga-image-id - The FPGA image identifier (AFI ID). fpga-image-global-id - The global FPGA image identifier (AGFI ID). name - The name of the AFI. owner-id - The AWS account ID of the AFI owner. product-code - The product code. shell-version - The version of the AWS Shell that was used to create the bitstream. state - The state of the AFI (pending | failed | available | unavailable). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. update-time - The time of the most recent update.
*/
Filters?: FilterList;
/**
* The token to retrieve the next page of results.
*/
NextToken?: NextToken;
/**
* The maximum number of results to return in a single call.
*/
MaxResults?: DescribeFpgaImagesMaxResults;
}
export interface DescribeFpgaImagesResult {
/**
* Information about the FPGA images.
*/
FpgaImages?: FpgaImageList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export interface DescribeHostReservationOfferingsRequest {
/**
* The filters. instance-family - The instance family of the offering (for example, m4). payment-option - The payment option (NoUpfront | PartialUpfront | AllUpfront).
*/
Filter?: FilterList;
/**
* This is the maximum duration of the reservation to purchase, specified in seconds. Reservations are available in one-year and three-year terms. The number of seconds specified must be the number of seconds in a year (365x24x60x60) times one of the supported durations (1 or 3). For example, specify 94608000 for three years.
*/
MaxDuration?: Integer;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the returned nextToken value. This value can be between 5 and 500. If maxResults is given a larger value than 500, you receive an error.
*/
MaxResults?: DescribeHostReservationsMaxResults;
/**
* This is the minimum duration of the reservation you'd like to purchase, specified in seconds. Reservations are available in one-year and three-year terms. The number of seconds specified must be the number of seconds in a year (365x24x60x60) times one of the supported durations (1 or 3). For example, specify 31536000 for one year.
*/
MinDuration?: Integer;
/**
* The token to use to retrieve the next page of results.
*/
NextToken?: String;
/**
* The ID of the reservation offering.
*/
OfferingId?: String;
}
export interface DescribeHostReservationOfferingsResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* Information about the offerings.
*/
OfferingSet?: HostOfferingSet;
}
export type DescribeHostReservationsMaxResults = number;
export interface DescribeHostReservationsRequest {
/**
* The filters. instance-family - The instance family (for example, m4). payment-option - The payment option (NoUpfront | PartialUpfront | AllUpfront). state - The state of the reservation (payment-pending | payment-failed | active | retired). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filter?: FilterList;
/**
* The host reservation IDs.
*/
HostReservationIdSet?: HostReservationIdSet;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the returned nextToken value. This value can be between 5 and 500. If maxResults is given a larger value than 500, you receive an error.
*/
MaxResults?: Integer;
/**
* The token to use to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeHostReservationsResult {
/**
* Details about the reservation's configuration.
*/
HostReservationSet?: HostReservationSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeHostsRequest {
/**
* The filters. auto-placement - Whether auto-placement is enabled or disabled (on | off). availability-zone - The Availability Zone of the host. client-token - The idempotency token that you provided when you allocated the host. host-reservation-id - The ID of the reservation assigned to this host. instance-type - The instance type size that the Dedicated Host is configured to support. state - The allocation state of the Dedicated Host (available | under-assessment | permanent-failure | released | released-permanent-failure). tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filter?: FilterList;
/**
* The IDs of the Dedicated Hosts. The IDs are used for targeted instance launches.
*/
HostIds?: RequestHostIdList;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the returned nextToken value. This value can be between 5 and 500. If maxResults is given a larger value than 500, you receive an error. You cannot specify this parameter and the host IDs parameter in the same request.
*/
MaxResults?: Integer;
/**
* The token to use to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeHostsResult {
/**
* Information about the Dedicated Hosts.
*/
Hosts?: HostList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeIamInstanceProfileAssociationsMaxResults = number;
export interface DescribeIamInstanceProfileAssociationsRequest {
/**
* The IAM instance profile associations.
*/
AssociationIds?: AssociationIdList;
/**
* The filters. instance-id - The ID of the instance. state - The state of the association (associating | associated | disassociating | disassociated).
*/
Filters?: FilterList;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: DescribeIamInstanceProfileAssociationsMaxResults;
/**
* The token to request the next page of results.
*/
NextToken?: NextToken;
}
export interface DescribeIamInstanceProfileAssociationsResult {
/**
* Information about the IAM instance profile associations.
*/
IamInstanceProfileAssociations?: IamInstanceProfileAssociationSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: NextToken;
}
export interface DescribeIdFormatRequest {
/**
* The type of resource: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway
*/
Resource?: String;
}
export interface DescribeIdFormatResult {
/**
* Information about the ID format for the resource.
*/
Statuses?: IdFormatList;
}
export interface DescribeIdentityIdFormatRequest {
/**
* The ARN of the principal, which can be an IAM role, IAM user, or the root user.
*/
PrincipalArn: String;
/**
* The type of resource: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway
*/
Resource?: String;
}
export interface DescribeIdentityIdFormatResult {
/**
* Information about the ID format for the resources.
*/
Statuses?: IdFormatList;
}
export interface DescribeImageAttributeRequest {
/**
* The AMI attribute. Note: Depending on your account privileges, the blockDeviceMapping attribute may return a Client.AuthFailure error. If this happens, use DescribeImages to get information about the block device mapping for the AMI.
*/
Attribute: ImageAttributeName;
/**
* The ID of the AMI.
*/
ImageId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeImagesRequest {
/**
* Scopes the images by users with explicit launch permissions. Specify an AWS account ID, self (the sender of the request), or all (public AMIs).
*/
ExecutableUsers?: ExecutableByStringList;
/**
* The filters. architecture - The image architecture (i386 | x86_64 | arm64). block-device-mapping.delete-on-termination - A Boolean value that indicates whether the Amazon EBS volume is deleted on instance termination. block-device-mapping.device-name - The device name specified in the block device mapping (for example, /dev/sdh or xvdh). block-device-mapping.snapshot-id - The ID of the snapshot used for the EBS volume. block-device-mapping.volume-size - The volume size of the EBS volume, in GiB. block-device-mapping.volume-type - The volume type of the EBS volume (gp2 | io1 | st1 | sc1 | standard). block-device-mapping.encrypted - A Boolean that indicates whether the EBS volume is encrypted. description - The description of the image (provided during image creation). ena-support - A Boolean that indicates whether enhanced networking with ENA is enabled. hypervisor - The hypervisor type (ovm | xen). image-id - The ID of the image. image-type - The image type (machine | kernel | ramdisk). is-public - A Boolean that indicates whether the image is public. kernel-id - The kernel ID. manifest-location - The location of the image manifest. name - The name of the AMI (provided during image creation). owner-alias - String value from an Amazon-maintained list (amazon | aws-marketplace | microsoft) of snapshot owners. Not to be confused with the user-configured AWS account alias, which is set from the IAM console. owner-id - The AWS account ID of the image owner. platform - The platform. To only list Windows-based AMIs, use windows. product-code - The product code. product-code.type - The type of the product code (devpay | marketplace). ramdisk-id - The RAM disk ID. root-device-name - The device name of the root device volume (for example, /dev/sda1). root-device-type - The type of the root device volume (ebs | instance-store). state - The state of the image (available | pending | failed). state-reason-code - The reason code for the state change. state-reason-message - The message for the state change. sriov-net-support - A value of simple indicates that enhanced networking with the Intel 82599 VF interface is enabled. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. virtualization-type - The virtualization type (paravirtual | hvm).
*/
Filters?: FilterList;
/**
* The image IDs. Default: Describes all images available to you.
*/
ImageIds?: ImageIdStringList;
/**
* Filters the images by the owner. Specify an AWS account ID, self (owner is the sender of the request), or an AWS owner alias (valid values are amazon | aws-marketplace | microsoft). Omitting this option returns all images for which you have launch permissions, regardless of ownership.
*/
Owners?: OwnerStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeImagesResult {
/**
* Information about the images.
*/
Images?: ImageList;
}
export interface DescribeImportImageTasksRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Filter tasks using the task-state filter and one of the following values: active, completed, deleting, or deleted.
*/
Filters?: FilterList;
/**
* The IDs of the import image tasks.
*/
ImportTaskIds?: ImportTaskIdList;
/**
* The maximum number of results to return in a single call.
*/
MaxResults?: Integer;
/**
* A token that indicates the next page of results.
*/
NextToken?: String;
}
export interface DescribeImportImageTasksResult {
/**
* A list of zero or more import image tasks that are currently active or were completed or canceled in the previous 7 days.
*/
ImportImageTasks?: ImportImageTaskList;
/**
* The token to use to get the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeImportSnapshotTasksRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The filters.
*/
Filters?: FilterList;
/**
* A list of import snapshot task IDs.
*/
ImportTaskIds?: ImportTaskIdList;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* A token that indicates the next page of results.
*/
NextToken?: String;
}
export interface DescribeImportSnapshotTasksResult {
/**
* A list of zero or more import snapshot tasks that are currently active or were completed or canceled in the previous 7 days.
*/
ImportSnapshotTasks?: ImportSnapshotTaskList;
/**
* The token to use to get the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeInstanceAttributeRequest {
/**
* The instance attribute. Note: The enaSupport attribute is not supported at this time.
*/
Attribute: InstanceAttributeName;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance.
*/
InstanceId: String;
}
export type DescribeInstanceCreditSpecificationsMaxResults = number;
export interface DescribeInstanceCreditSpecificationsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The filters. instance-id - The ID of the instance.
*/
Filters?: FilterList;
/**
* The instance IDs. Default: Describes all your instances. Constraints: Maximum 1000 explicitly specified instance IDs.
*/
InstanceIds?: InstanceIdStringList;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value. This value can be between 5 and 1000. You cannot specify this parameter and the instance IDs parameter in the same call.
*/
MaxResults?: DescribeInstanceCreditSpecificationsMaxResults;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeInstanceCreditSpecificationsResult {
/**
* Information about the credit option for CPU usage of an instance.
*/
InstanceCreditSpecifications?: InstanceCreditSpecificationList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeInstanceStatusRequest {
/**
* The filters. availability-zone - The Availability Zone of the instance. event.code - The code for the scheduled event (instance-reboot | system-reboot | system-maintenance | instance-retirement | instance-stop). event.description - A description of the event. event.instance-event-id - The ID of the event whose date and time you are modifying. event.not-after - The latest end time for the scheduled event (for example, 2014-09-15T17:15:20.000Z). event.not-before - The earliest start time for the scheduled event (for example, 2014-09-15T17:15:20.000Z). event.not-before-deadline - The deadline for starting the event (for example, 2014-09-15T17:15:20.000Z). instance-state-code - The code for the instance state, as a 16-bit unsigned integer. The high byte is used for internal purposes and should be ignored. The low byte is set based on the state represented. The valid values are 0 (pending), 16 (running), 32 (shutting-down), 48 (terminated), 64 (stopping), and 80 (stopped). instance-state-name - The state of the instance (pending | running | shutting-down | terminated | stopping | stopped). instance-status.reachability - Filters on instance status where the name is reachability (passed | failed | initializing | insufficient-data). instance-status.status - The status of the instance (ok | impaired | initializing | insufficient-data | not-applicable). system-status.reachability - Filters on system status where the name is reachability (passed | failed | initializing | insufficient-data). system-status.status - The system status of the instance (ok | impaired | initializing | insufficient-data | not-applicable).
*/
Filters?: FilterList;
/**
* The instance IDs. Default: Describes all your instances. Constraints: Maximum 100 explicitly specified instance IDs.
*/
InstanceIds?: InstanceIdStringList;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value. This value can be between 5 and 1000. You cannot specify this parameter and the instance IDs parameter in the same call.
*/
MaxResults?: Integer;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* When true, includes the health status for all instances. When false, includes the health status for running instances only. Default: false
*/
IncludeAllInstances?: Boolean;
}
export interface DescribeInstanceStatusResult {
/**
* Information about the status of the instances.
*/
InstanceStatuses?: InstanceStatusList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeInstancesRequest {
/**
* The filters. affinity - The affinity setting for an instance running on a Dedicated Host (default | host). architecture - The instance architecture (i386 | x86_64 | arm64). availability-zone - The Availability Zone of the instance. block-device-mapping.attach-time - The attach time for an EBS volume mapped to the instance, for example, 2010-09-15T17:15:20.000Z. block-device-mapping.delete-on-termination - A Boolean that indicates whether the EBS volume is deleted on instance termination. block-device-mapping.device-name - The device name specified in the block device mapping (for example, /dev/sdh or xvdh). block-device-mapping.status - The status for the EBS volume (attaching | attached | detaching | detached). block-device-mapping.volume-id - The volume ID of the EBS volume. client-token - The idempotency token you provided when you launched the instance. dns-name - The public DNS name of the instance. group-id - The ID of the security group for the instance. EC2-Classic only. group-name - The name of the security group for the instance. EC2-Classic only. hibernation-options.configured - A Boolean that indicates whether the instance is enabled for hibernation. A value of true means that the instance is enabled for hibernation. host-id - The ID of the Dedicated Host on which the instance is running, if applicable. hypervisor - The hypervisor type of the instance (ovm | xen). iam-instance-profile.arn - The instance profile associated with the instance. Specified as an ARN. image-id - The ID of the image used to launch the instance. instance-id - The ID of the instance. instance-lifecycle - Indicates whether this is a Spot Instance or a Scheduled Instance (spot | scheduled). instance-state-code - The state of the instance, as a 16-bit unsigned integer. The high byte is used for internal purposes and should be ignored. The low byte is set based on the state represented. The valid values are: 0 (pending), 16 (running), 32 (shutting-down), 48 (terminated), 64 (stopping), and 80 (stopped). instance-state-name - The state of the instance (pending | running | shutting-down | terminated | stopping | stopped). instance-type - The type of instance (for example, t2.micro). instance.group-id - The ID of the security group for the instance. instance.group-name - The name of the security group for the instance. ip-address - The public IPv4 address of the instance. kernel-id - The kernel ID. key-name - The name of the key pair used when the instance was launched. launch-index - When launching multiple instances, this is the index for the instance in the launch group (for example, 0, 1, 2, and so on). launch-time - The time when the instance was launched. monitoring-state - Indicates whether detailed monitoring is enabled (disabled | enabled). network-interface.addresses.private-ip-address - The private IPv4 address associated with the network interface. network-interface.addresses.primary - Specifies whether the IPv4 address of the network interface is the primary private IPv4 address. network-interface.addresses.association.public-ip - The ID of the association of an Elastic IP address (IPv4) with a network interface. network-interface.addresses.association.ip-owner-id - The owner ID of the private IPv4 address associated with the network interface. network-interface.association.public-ip - The address of the Elastic IP address (IPv4) bound to the network interface. network-interface.association.ip-owner-id - The owner of the Elastic IP address (IPv4) associated with the network interface. network-interface.association.allocation-id - The allocation ID returned when you allocated the Elastic IP address (IPv4) for your network interface. network-interface.association.association-id - The association ID returned when the network interface was associated with an IPv4 address. network-interface.attachment.attachment-id - The ID of the interface attachment. network-interface.attachment.instance-id - The ID of the instance to which the network interface is attached. network-interface.attachment.instance-owner-id - The owner ID of the instance to which the network interface is attached. network-interface.attachment.device-index - The device index to which the network interface is attached. network-interface.attachment.status - The status of the attachment (attaching | attached | detaching | detached). network-interface.attachment.attach-time - The time that the network interface was attached to an instance. network-interface.attachment.delete-on-termination - Specifies whether the attachment is deleted when an instance is terminated. network-interface.availability-zone - The Availability Zone for the network interface. network-interface.description - The description of the network interface. network-interface.group-id - The ID of a security group associated with the network interface. network-interface.group-name - The name of a security group associated with the network interface. network-interface.ipv6-addresses.ipv6-address - The IPv6 address associated with the network interface. network-interface.mac-address - The MAC address of the network interface. network-interface.network-interface-id - The ID of the network interface. network-interface.owner-id - The ID of the owner of the network interface. network-interface.private-dns-name - The private DNS name of the network interface. network-interface.requester-id - The requester ID for the network interface. network-interface.requester-managed - Indicates whether the network interface is being managed by AWS. network-interface.status - The status of the network interface (available) | in-use). network-interface.source-dest-check - Whether the network interface performs source/destination checking. A value of true means that checking is enabled, and false means that checking is disabled. The value must be false for the network interface to perform network address translation (NAT) in your VPC. network-interface.subnet-id - The ID of the subnet for the network interface. network-interface.vpc-id - The ID of the VPC for the network interface. owner-id - The AWS account ID of the instance owner. placement-group-name - The name of the placement group for the instance. placement-partition-number - The partition in which the instance is located. platform - The platform. To list only Windows instances, use windows. private-dns-name - The private IPv4 DNS name of the instance. private-ip-address - The private IPv4 address of the instance. product-code - The product code associated with the AMI used to launch the instance. product-code.type - The type of product code (devpay | marketplace). ramdisk-id - The RAM disk ID. reason - The reason for the current state of the instance (for example, shows "User Initiated [date]" when you stop or terminate the instance). Similar to the state-reason-code filter. requester-id - The ID of the entity that launched the instance on your behalf (for example, AWS Management Console, Auto Scaling, and so on). reservation-id - The ID of the instance's reservation. A reservation ID is created any time you launch an instance. A reservation ID has a one-to-one relationship with an instance launch request, but can be associated with more than one instance if you launch multiple instances using the same launch request. For example, if you launch one instance, you get one reservation ID. If you launch ten instances using the same launch request, you also get one reservation ID. root-device-name - The device name of the root device volume (for example, /dev/sda1). root-device-type - The type of the root device volume (ebs | instance-store). source-dest-check - Indicates whether the instance performs source/destination checking. A value of true means that checking is enabled, and false means that checking is disabled. The value must be false for the instance to perform network address translation (NAT) in your VPC. spot-instance-request-id - The ID of the Spot Instance request. state-reason-code - The reason code for the state change. state-reason-message - A message that describes the state change. subnet-id - The ID of the subnet for the instance. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources that have a tag with a specific key, regardless of the tag value. tenancy - The tenancy of an instance (dedicated | default | host). virtualization-type - The virtualization type of the instance (paravirtual | hvm). vpc-id - The ID of the VPC that the instance is running in.
*/
Filters?: FilterList;
/**
* The instance IDs. Default: Describes all your instances.
*/
InstanceIds?: InstanceIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value. This value can be between 5 and 1000. You cannot specify this parameter and the instance IDs parameter in the same call.
*/
MaxResults?: Integer;
/**
* The token to request the next page of results.
*/
NextToken?: String;
}
export interface DescribeInstancesResult {
/**
* Information about the reservations.
*/
Reservations?: ReservationList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeInternetGatewaysMaxResults = number;
export interface DescribeInternetGatewaysRequest {
/**
* One or more filters. attachment.state - The current state of the attachment between the gateway and the VPC (available). Present only if a VPC is attached. attachment.vpc-id - The ID of an attached VPC. internet-gateway-id - The ID of the Internet gateway. owner-id - The ID of the AWS account that owns the internet gateway. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more internet gateway IDs. Default: Describes all your internet gateways.
*/
InternetGatewayIds?: ValueStringList;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeInternetGatewaysMaxResults;
}
export interface DescribeInternetGatewaysResult {
/**
* Information about one or more internet gateways.
*/
InternetGateways?: InternetGatewayList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeKeyPairsRequest {
/**
* The filters. fingerprint - The fingerprint of the key pair. key-name - The name of the key pair.
*/
Filters?: FilterList;
/**
* The key pair names. Default: Describes all your key pairs.
*/
KeyNames?: KeyNameStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeKeyPairsResult {
/**
* Information about the key pairs.
*/
KeyPairs?: KeyPairList;
}
export interface DescribeLaunchTemplateVersionsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* One or more versions of the launch template.
*/
Versions?: VersionStringList;
/**
* The version number after which to describe launch template versions.
*/
MinVersion?: String;
/**
* The version number up to which to describe launch template versions.
*/
MaxVersion?: String;
/**
* The token to request the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value. This value can be between 1 and 200.
*/
MaxResults?: Integer;
/**
* One or more filters. create-time - The time the launch template version was created. ebs-optimized - A boolean that indicates whether the instance is optimized for Amazon EBS I/O. iam-instance-profile - The ARN of the IAM instance profile. image-id - The ID of the AMI. instance-type - The instance type. is-default-version - A boolean that indicates whether the launch template version is the default version. kernel-id - The kernel ID. ram-disk-id - The RAM disk ID.
*/
Filters?: FilterList;
}
export interface DescribeLaunchTemplateVersionsResult {
/**
* Information about the launch template versions.
*/
LaunchTemplateVersions?: LaunchTemplateVersionSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeLaunchTemplatesMaxResults = number;
export interface DescribeLaunchTemplatesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more launch template IDs.
*/
LaunchTemplateIds?: ValueStringList;
/**
* One or more launch template names.
*/
LaunchTemplateNames?: LaunchTemplateNameStringList;
/**
* One or more filters. create-time - The time the launch template was created. launch-template-name - The name of the launch template. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* The token to request the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value. This value can be between 1 and 200.
*/
MaxResults?: DescribeLaunchTemplatesMaxResults;
}
export interface DescribeLaunchTemplatesResult {
/**
* Information about the launch templates.
*/
LaunchTemplates?: LaunchTemplateSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeMovingAddressesMaxResults = number;
export interface DescribeMovingAddressesRequest {
/**
* One or more filters. moving-status - The status of the Elastic IP address (MovingToVpc | RestoringToClassic).
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of results to return for the request in a single page. The remaining results of the initial request can be seen by sending another request with the returned NextToken value. This value can be between 5 and 1000; if MaxResults is given a value outside of this range, an error is returned. Default: If no value is provided, the default is 1000.
*/
MaxResults?: DescribeMovingAddressesMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* One or more Elastic IP addresses.
*/
PublicIps?: ValueStringList;
}
export interface DescribeMovingAddressesResult {
/**
* The status for each Elastic IP address.
*/
MovingAddressStatuses?: MovingAddressStatusSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeNatGatewaysMaxResults = number;
export interface DescribeNatGatewaysRequest {
/**
* One or more filters. nat-gateway-id - The ID of the NAT gateway. state - The state of the NAT gateway (pending | failed | available | deleting | deleted). subnet-id - The ID of the subnet in which the NAT gateway resides. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-id - The ID of the VPC in which the NAT gateway resides.
*/
Filter?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeNatGatewaysMaxResults;
/**
* One or more NAT gateway IDs.
*/
NatGatewayIds?: ValueStringList;
/**
* The token for the next page of results.
*/
NextToken?: String;
}
export interface DescribeNatGatewaysResult {
/**
* Information about the NAT gateways.
*/
NatGateways?: NatGatewayList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeNetworkAclsMaxResults = number;
export interface DescribeNetworkAclsRequest {
/**
* One or more filters. association.association-id - The ID of an association ID for the ACL. association.network-acl-id - The ID of the network ACL involved in the association. association.subnet-id - The ID of the subnet involved in the association. default - Indicates whether the ACL is the default network ACL for the VPC. entry.cidr - The IPv4 CIDR range specified in the entry. entry.icmp.code - The ICMP code specified in the entry, if any. entry.icmp.type - The ICMP type specified in the entry, if any. entry.ipv6-cidr - The IPv6 CIDR range specified in the entry. entry.port-range.from - The start of the port range specified in the entry. entry.port-range.to - The end of the port range specified in the entry. entry.protocol - The protocol specified in the entry (tcp | udp | icmp or a protocol number). entry.rule-action - Allows or denies the matching traffic (allow | deny). entry.rule-number - The number of an entry (in other words, rule) in the set of ACL entries. network-acl-id - The ID of the network ACL. owner-id - The ID of the AWS account that owns the network ACL. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-id - The ID of the VPC for the network ACL.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more network ACL IDs. Default: Describes all your network ACLs.
*/
NetworkAclIds?: ValueStringList;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeNetworkAclsMaxResults;
}
export interface DescribeNetworkAclsResult {
/**
* Information about one or more network ACLs.
*/
NetworkAcls?: NetworkAclList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeNetworkInterfaceAttributeRequest {
/**
* The attribute of the network interface. This parameter is required.
*/
Attribute?: NetworkInterfaceAttribute;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: String;
}
export interface DescribeNetworkInterfaceAttributeResult {
/**
* The attachment (if any) of the network interface.
*/
Attachment?: NetworkInterfaceAttachment;
/**
* The description of the network interface.
*/
Description?: AttributeValue;
/**
* The security groups associated with the network interface.
*/
Groups?: GroupIdentifierList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* Indicates whether source/destination checking is enabled.
*/
SourceDestCheck?: AttributeBooleanValue;
}
export type DescribeNetworkInterfacePermissionsMaxResults = number;
export interface DescribeNetworkInterfacePermissionsRequest {
/**
* One or more network interface permission IDs.
*/
NetworkInterfacePermissionIds?: NetworkInterfacePermissionIdList;
/**
* One or more filters. network-interface-permission.network-interface-permission-id - The ID of the permission. network-interface-permission.network-interface-id - The ID of the network interface. network-interface-permission.aws-account-id - The AWS account ID. network-interface-permission.aws-service - The AWS service. network-interface-permission.permission - The type of permission (INSTANCE-ATTACH | EIP-ASSOCIATE).
*/
Filters?: FilterList;
/**
* The token to request the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value. If this parameter is not specified, up to 50 results are returned by default.
*/
MaxResults?: DescribeNetworkInterfacePermissionsMaxResults;
}
export interface DescribeNetworkInterfacePermissionsResult {
/**
* The network interface permissions.
*/
NetworkInterfacePermissions?: NetworkInterfacePermissionList;
/**
* The token to use to retrieve the next page of results.
*/
NextToken?: String;
}
export type DescribeNetworkInterfacesMaxResults = number;
export interface DescribeNetworkInterfacesRequest {
/**
* One or more filters. addresses.private-ip-address - The private IPv4 addresses associated with the network interface. addresses.primary - Whether the private IPv4 address is the primary IP address associated with the network interface. addresses.association.public-ip - The association ID returned when the network interface was associated with the Elastic IP address (IPv4). addresses.association.owner-id - The owner ID of the addresses associated with the network interface. association.association-id - The association ID returned when the network interface was associated with an IPv4 address. association.allocation-id - The allocation ID returned when you allocated the Elastic IP address (IPv4) for your network interface. association.ip-owner-id - The owner of the Elastic IP address (IPv4) associated with the network interface. association.public-ip - The address of the Elastic IP address (IPv4) bound to the network interface. association.public-dns-name - The public DNS name for the network interface (IPv4). attachment.attachment-id - The ID of the interface attachment. attachment.attach-time - The time that the network interface was attached to an instance. attachment.delete-on-termination - Indicates whether the attachment is deleted when an instance is terminated. attachment.device-index - The device index to which the network interface is attached. attachment.instance-id - The ID of the instance to which the network interface is attached. attachment.instance-owner-id - The owner ID of the instance to which the network interface is attached. attachment.nat-gateway-id - The ID of the NAT gateway to which the network interface is attached. attachment.status - The status of the attachment (attaching | attached | detaching | detached). availability-zone - The Availability Zone of the network interface. description - The description of the network interface. group-id - The ID of a security group associated with the network interface. group-name - The name of a security group associated with the network interface. ipv6-addresses.ipv6-address - An IPv6 address associated with the network interface. mac-address - The MAC address of the network interface. network-interface-id - The ID of the network interface. owner-id - The AWS account ID of the network interface owner. private-ip-address - The private IPv4 address or addresses of the network interface. private-dns-name - The private DNS name of the network interface (IPv4). requester-id - The ID of the entity that launched the instance on your behalf (for example, AWS Management Console, Auto Scaling, and so on). requester-managed - Indicates whether the network interface is being managed by an AWS service (for example, AWS Management Console, Auto Scaling, and so on). source-dest-check - Indicates whether the network interface performs source/destination checking. A value of true means checking is enabled, and false means checking is disabled. The value must be false for the network interface to perform network address translation (NAT) in your VPC. status - The status of the network interface. If the network interface is not attached to an instance, the status is available; if a network interface is attached to an instance the status is in-use. subnet-id - The ID of the subnet for the network interface. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-id - The ID of the VPC for the network interface.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more network interface IDs. Default: Describes all your network interfaces.
*/
NetworkInterfaceIds?: NetworkInterfaceIdList;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
/**
* The maximum number of items to return for this request. The request returns a token that you can specify in a subsequent call to get the next set of results.
*/
MaxResults?: DescribeNetworkInterfacesMaxResults;
}
export interface DescribeNetworkInterfacesResult {
/**
* Information about one or more network interfaces.
*/
NetworkInterfaces?: NetworkInterfaceList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribePlacementGroupsRequest {
/**
* The filters. group-name - The name of the placement group. state - The state of the placement group (pending | available | deleting | deleted). strategy - The strategy of the placement group (cluster | spread | partition).
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The names of the placement groups. Default: Describes all your placement groups, or only those otherwise specified.
*/
GroupNames?: PlacementGroupStringList;
}
export interface DescribePlacementGroupsResult {
/**
* Information about the placement groups.
*/
PlacementGroups?: PlacementGroupList;
}
export interface DescribePrefixListsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more filters. prefix-list-id: The ID of a prefix list. prefix-list-name: The name of a prefix list.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* One or more prefix list IDs.
*/
PrefixListIds?: ValueStringList;
}
export interface DescribePrefixListsResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* All available prefix lists.
*/
PrefixLists?: PrefixListSet;
}
export type DescribePrincipalIdFormatMaxResults = number;
export interface DescribePrincipalIdFormatRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The type of resource: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | instance | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | reservation | route-table | route-table-association | security-group | snapshot | subnet | subnet-cidr-block-association | volume | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway
*/
Resources?: ResourceList;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: DescribePrincipalIdFormatMaxResults;
/**
* The token to request the next page of results.
*/
NextToken?: String;
}
export interface DescribePrincipalIdFormatResult {
/**
* Information about the ID format settings for the ARN.
*/
Principals?: PrincipalIdFormatList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribePublicIpv4PoolsRequest {
/**
* The IDs of the address pools.
*/
PoolIds?: ValueStringList;
/**
* The token for the next page of results.
*/
NextToken?: NextToken;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: PoolMaxResults;
}
export interface DescribePublicIpv4PoolsResult {
/**
* Information about the address pools.
*/
PublicIpv4Pools?: PublicIpv4PoolSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeRegionsRequest {
/**
* The filters. endpoint - The endpoint of the Region (for example, ec2.us-east-1.amazonaws.com). opt-in-status - The opt-in status of the Region (opt-in-not-required | opted-in | not-opted-in). region-name - The name of the Region (for example, us-east-1).
*/
Filters?: FilterList;
/**
* The names of the Regions. You can specify any Regions, whether they are enabled and disabled for your account.
*/
RegionNames?: RegionNameStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Indicates whether to display all Regions, including Regions that are disabled for your account.
*/
AllRegions?: Boolean;
}
export interface DescribeRegionsResult {
/**
* Information about the Regions.
*/
Regions?: RegionList;
}
export interface DescribeReservedInstancesListingsRequest {
/**
* One or more filters. reserved-instances-id - The ID of the Reserved Instances. reserved-instances-listing-id - The ID of the Reserved Instances listing. status - The status of the Reserved Instance listing (pending | active | cancelled | closed). status-message - The reason for the status.
*/
Filters?: FilterList;
/**
* One or more Reserved Instance IDs.
*/
ReservedInstancesId?: String;
/**
* One or more Reserved Instance listing IDs.
*/
ReservedInstancesListingId?: String;
}
export interface DescribeReservedInstancesListingsResult {
/**
* Information about the Reserved Instance listing.
*/
ReservedInstancesListings?: ReservedInstancesListingList;
}
export interface DescribeReservedInstancesModificationsRequest {
/**
* One or more filters. client-token - The idempotency token for the modification request. create-date - The time when the modification request was created. effective-date - The time when the modification becomes effective. modification-result.reserved-instances-id - The ID for the Reserved Instances created as part of the modification request. This ID is only available when the status of the modification is fulfilled. modification-result.target-configuration.availability-zone - The Availability Zone for the new Reserved Instances. modification-result.target-configuration.instance-count - The number of new Reserved Instances. modification-result.target-configuration.instance-type - The instance type of the new Reserved Instances. modification-result.target-configuration.platform - The network platform of the new Reserved Instances (EC2-Classic | EC2-VPC). reserved-instances-id - The ID of the Reserved Instances modified. reserved-instances-modification-id - The ID of the modification request. status - The status of the Reserved Instances modification request (processing | fulfilled | failed). status-message - The reason for the status. update-date - The time when the modification request was last updated.
*/
Filters?: FilterList;
/**
* IDs for the submitted modification request.
*/
ReservedInstancesModificationIds?: ReservedInstancesModificationIdStringList;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeReservedInstancesModificationsResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* The Reserved Instance modification information.
*/
ReservedInstancesModifications?: ReservedInstancesModificationList;
}
export interface DescribeReservedInstancesOfferingsRequest {
/**
* The Availability Zone in which the Reserved Instance can be used.
*/
AvailabilityZone?: String;
/**
* One or more filters. availability-zone - The Availability Zone where the Reserved Instance can be used. duration - The duration of the Reserved Instance (for example, one year or three years), in seconds (31536000 | 94608000). fixed-price - The purchase price of the Reserved Instance (for example, 9800.0). instance-type - The instance type that is covered by the reservation. marketplace - Set to true to show only Reserved Instance Marketplace offerings. When this filter is not used, which is the default behavior, all offerings from both AWS and the Reserved Instance Marketplace are listed. product-description - The Reserved Instance product platform description. Instances that include (Amazon VPC) in the product platform description will only be displayed to EC2-Classic account holders and are for use with Amazon VPC. (Linux/UNIX | Linux/UNIX (Amazon VPC) | SUSE Linux | SUSE Linux (Amazon VPC) | Red Hat Enterprise Linux | Red Hat Enterprise Linux (Amazon VPC) | Windows | Windows (Amazon VPC) | Windows with SQL Server Standard | Windows with SQL Server Standard (Amazon VPC) | Windows with SQL Server Web | Windows with SQL Server Web (Amazon VPC) | Windows with SQL Server Enterprise | Windows with SQL Server Enterprise (Amazon VPC)) reserved-instances-offering-id - The Reserved Instances offering ID. scope - The scope of the Reserved Instance (Availability Zone or Region). usage-price - The usage price of the Reserved Instance, per hour (for example, 0.84).
*/
Filters?: FilterList;
/**
* Include Reserved Instance Marketplace offerings in the response.
*/
IncludeMarketplace?: Boolean;
/**
* The instance type that the reservation will cover (for example, m1.small). For more information, see Instance Types in the Amazon Elastic Compute Cloud User Guide.
*/
InstanceType?: InstanceType;
/**
* The maximum duration (in seconds) to filter when searching for offerings. Default: 94608000 (3 years)
*/
MaxDuration?: Long;
/**
* The maximum number of instances to filter when searching for offerings. Default: 20
*/
MaxInstanceCount?: Integer;
/**
* The minimum duration (in seconds) to filter when searching for offerings. Default: 2592000 (1 month)
*/
MinDuration?: Long;
/**
* The offering class of the Reserved Instance. Can be standard or convertible.
*/
OfferingClass?: OfferingClassType;
/**
* The Reserved Instance product platform description. Instances that include (Amazon VPC) in the description are for use with Amazon VPC.
*/
ProductDescription?: RIProductDescription;
/**
* One or more Reserved Instances offering IDs.
*/
ReservedInstancesOfferingIds?: ReservedInstancesOfferingIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The tenancy of the instances covered by the reservation. A Reserved Instance with a tenancy of dedicated is applied to instances that run in a VPC on single-tenant hardware (i.e., Dedicated Instances). Important: The host value cannot be used with this parameter. Use the default or dedicated values only. Default: default
*/
InstanceTenancy?: Tenancy;
/**
* The maximum number of results to return for the request in a single page. The remaining results of the initial request can be seen by sending another request with the returned NextToken value. The maximum is 100. Default: 100
*/
MaxResults?: Integer;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
/**
* The Reserved Instance offering type. If you are using tools that predate the 2011-11-01 API version, you only have access to the Medium Utilization Reserved Instance offering type.
*/
OfferingType?: OfferingTypeValues;
}
export interface DescribeReservedInstancesOfferingsResult {
/**
* A list of Reserved Instances offerings.
*/
ReservedInstancesOfferings?: ReservedInstancesOfferingList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeReservedInstancesRequest {
/**
* One or more filters. availability-zone - The Availability Zone where the Reserved Instance can be used. duration - The duration of the Reserved Instance (one year or three years), in seconds (31536000 | 94608000). end - The time when the Reserved Instance expires (for example, 2015-08-07T11:54:42.000Z). fixed-price - The purchase price of the Reserved Instance (for example, 9800.0). instance-type - The instance type that is covered by the reservation. scope - The scope of the Reserved Instance (Region or Availability Zone). product-description - The Reserved Instance product platform description. Instances that include (Amazon VPC) in the product platform description will only be displayed to EC2-Classic account holders and are for use with Amazon VPC (Linux/UNIX | Linux/UNIX (Amazon VPC) | SUSE Linux | SUSE Linux (Amazon VPC) | Red Hat Enterprise Linux | Red Hat Enterprise Linux (Amazon VPC) | Windows | Windows (Amazon VPC) | Windows with SQL Server Standard | Windows with SQL Server Standard (Amazon VPC) | Windows with SQL Server Web | Windows with SQL Server Web (Amazon VPC) | Windows with SQL Server Enterprise | Windows with SQL Server Enterprise (Amazon VPC)). reserved-instances-id - The ID of the Reserved Instance. start - The time at which the Reserved Instance purchase request was placed (for example, 2014-08-07T11:54:42.000Z). state - The state of the Reserved Instance (payment-pending | active | payment-failed | retired). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. usage-price - The usage price of the Reserved Instance, per hour (for example, 0.84).
*/
Filters?: FilterList;
/**
* Describes whether the Reserved Instance is Standard or Convertible.
*/
OfferingClass?: OfferingClassType;
/**
* One or more Reserved Instance IDs. Default: Describes all your Reserved Instances, or only those otherwise specified.
*/
ReservedInstancesIds?: ReservedInstancesIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The Reserved Instance offering type. If you are using tools that predate the 2011-11-01 API version, you only have access to the Medium Utilization Reserved Instance offering type.
*/
OfferingType?: OfferingTypeValues;
}
export interface DescribeReservedInstancesResult {
/**
* A list of Reserved Instances.
*/
ReservedInstances?: ReservedInstancesList;
}
export type DescribeRouteTablesMaxResults = number;
export interface DescribeRouteTablesRequest {
/**
* One or more filters. association.route-table-association-id - The ID of an association ID for the route table. association.route-table-id - The ID of the route table involved in the association. association.subnet-id - The ID of the subnet involved in the association. association.main - Indicates whether the route table is the main route table for the VPC (true | false). Route tables that do not have an association ID are not returned in the response. owner-id - The ID of the AWS account that owns the route table. route-table-id - The ID of the route table. route.destination-cidr-block - The IPv4 CIDR range specified in a route in the table. route.destination-ipv6-cidr-block - The IPv6 CIDR range specified in a route in the route table. route.destination-prefix-list-id - The ID (prefix) of the AWS service specified in a route in the table. route.egress-only-internet-gateway-id - The ID of an egress-only Internet gateway specified in a route in the route table. route.gateway-id - The ID of a gateway specified in a route in the table. route.instance-id - The ID of an instance specified in a route in the table. route.nat-gateway-id - The ID of a NAT gateway. route.transit-gateway-id - The ID of a transit gateway. route.origin - Describes how the route was created. CreateRouteTable indicates that the route was automatically created when the route table was created; CreateRoute indicates that the route was manually added to the route table; EnableVgwRoutePropagation indicates that the route was propagated by route propagation. route.state - The state of a route in the route table (active | blackhole). The blackhole state indicates that the route's target isn't available (for example, the specified gateway isn't attached to the VPC, the specified NAT instance has been terminated, and so on). route.vpc-peering-connection-id - The ID of a VPC peering connection specified in a route in the table. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. transit-gateway-id - The ID of a transit gateway. vpc-id - The ID of the VPC for the route table.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more route table IDs. Default: Describes all your route tables.
*/
RouteTableIds?: ValueStringList;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeRouteTablesMaxResults;
}
export interface DescribeRouteTablesResult {
/**
* Information about one or more route tables.
*/
RouteTables?: RouteTableList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeScheduledInstanceAvailabilityMaxResults = number;
export interface DescribeScheduledInstanceAvailabilityRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The filters. availability-zone - The Availability Zone (for example, us-west-2a). instance-type - The instance type (for example, c4.large). network-platform - The network platform (EC2-Classic or EC2-VPC). platform - The platform (Linux/UNIX or Windows).
*/
Filters?: FilterList;
/**
* The time period for the first schedule to start.
*/
FirstSlotStartTimeRange: SlotDateTimeRangeRequest;
/**
* The maximum number of results to return in a single call. This value can be between 5 and 300. The default value is 300. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: DescribeScheduledInstanceAvailabilityMaxResults;
/**
* The maximum available duration, in hours. This value must be greater than MinSlotDurationInHours and less than 1,720.
*/
MaxSlotDurationInHours?: Integer;
/**
* The minimum available duration, in hours. The minimum required duration is 1,200 hours per year. For example, the minimum daily schedule is 4 hours, the minimum weekly schedule is 24 hours, and the minimum monthly schedule is 100 hours.
*/
MinSlotDurationInHours?: Integer;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The schedule recurrence.
*/
Recurrence: ScheduledInstanceRecurrenceRequest;
}
export interface DescribeScheduledInstanceAvailabilityResult {
/**
* The token required to retrieve the next set of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* Information about the available Scheduled Instances.
*/
ScheduledInstanceAvailabilitySet?: ScheduledInstanceAvailabilitySet;
}
export interface DescribeScheduledInstancesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The filters. availability-zone - The Availability Zone (for example, us-west-2a). instance-type - The instance type (for example, c4.large). network-platform - The network platform (EC2-Classic or EC2-VPC). platform - The platform (Linux/UNIX or Windows).
*/
Filters?: FilterList;
/**
* The maximum number of results to return in a single call. This value can be between 5 and 300. The default value is 100. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The Scheduled Instance IDs.
*/
ScheduledInstanceIds?: ScheduledInstanceIdRequestSet;
/**
* The time period for the first schedule to start.
*/
SlotStartTimeRange?: SlotStartTimeRangeRequest;
}
export interface DescribeScheduledInstancesResult {
/**
* The token required to retrieve the next set of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* Information about the Scheduled Instances.
*/
ScheduledInstanceSet?: ScheduledInstanceSet;
}
export interface DescribeSecurityGroupReferencesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the security groups in your account.
*/
GroupId: GroupIds;
}
export interface DescribeSecurityGroupReferencesResult {
/**
* Information about the VPCs with the referencing security groups.
*/
SecurityGroupReferenceSet?: SecurityGroupReferences;
}
export type DescribeSecurityGroupsMaxResults = number;
export interface DescribeSecurityGroupsRequest {
/**
* The filters. If using multiple filters for rules, the results include security groups for which any combination of rules - not necessarily a single rule - match all filters. description - The description of the security group. egress.ip-permission.cidr - An IPv4 CIDR block for an outbound security group rule. egress.ip-permission.from-port - For an outbound rule, the start of port range for the TCP and UDP protocols, or an ICMP type number. egress.ip-permission.group-id - The ID of a security group that has been referenced in an outbound security group rule. egress.ip-permission.group-name - The name of a security group that has been referenced in an outbound security group rule. egress.ip-permission.ipv6-cidr - An IPv6 CIDR block for an outbound security group rule. egress.ip-permission.prefix-list-id - The ID (prefix) of the AWS service to which a security group rule allows outbound access. egress.ip-permission.protocol - The IP protocol for an outbound security group rule (tcp | udp | icmp or a protocol number). egress.ip-permission.to-port - For an outbound rule, the end of port range for the TCP and UDP protocols, or an ICMP code. egress.ip-permission.user-id - The ID of an AWS account that has been referenced in an outbound security group rule. group-id - The ID of the security group. group-name - The name of the security group. ip-permission.cidr - An IPv4 CIDR block for an inbound security group rule. ip-permission.from-port - For an inbound rule, the start of port range for the TCP and UDP protocols, or an ICMP type number. ip-permission.group-id - The ID of a security group that has been referenced in an inbound security group rule. ip-permission.group-name - The name of a security group that has been referenced in an inbound security group rule. ip-permission.ipv6-cidr - An IPv6 CIDR block for an inbound security group rule. ip-permission.prefix-list-id - The ID (prefix) of the AWS service from which a security group rule allows inbound access. ip-permission.protocol - The IP protocol for an inbound security group rule (tcp | udp | icmp or a protocol number). ip-permission.to-port - For an inbound rule, the end of port range for the TCP and UDP protocols, or an ICMP code. ip-permission.user-id - The ID of an AWS account that has been referenced in an inbound security group rule. owner-id - The AWS account ID of the owner of the security group. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-id - The ID of the VPC specified when the security group was created.
*/
Filters?: FilterList;
/**
* The IDs of the security groups. Required for security groups in a nondefault VPC. Default: Describes all your security groups.
*/
GroupIds?: GroupIdStringList;
/**
* [EC2-Classic and default VPC only] The names of the security groups. You can specify either the security group name or the security group ID. For security groups in a nondefault VPC, use the group-name filter to describe security groups by name. Default: Describes all your security groups.
*/
GroupNames?: GroupNameStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The token to request the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another request with the returned NextToken value. This value can be between 5 and 1000. If this parameter is not specified, then all results are returned.
*/
MaxResults?: DescribeSecurityGroupsMaxResults;
}
export interface DescribeSecurityGroupsResult {
/**
* Information about the security groups.
*/
SecurityGroups?: SecurityGroupList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeSnapshotAttributeRequest {
/**
* The snapshot attribute you would like to view.
*/
Attribute: SnapshotAttributeName;
/**
* The ID of the EBS snapshot.
*/
SnapshotId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeSnapshotAttributeResult {
/**
* The users and groups that have the permissions for creating volumes from the snapshot.
*/
CreateVolumePermissions?: CreateVolumePermissionList;
/**
* The product codes.
*/
ProductCodes?: ProductCodeList;
/**
* The ID of the EBS snapshot.
*/
SnapshotId?: String;
}
export interface DescribeSnapshotsRequest {
/**
* The filters. description - A description of the snapshot. encrypted - Indicates whether the snapshot is encrypted (true | false) owner-alias - Value from an Amazon-maintained list (amazon | self | all | aws-marketplace | microsoft) of snapshot owners. Not to be confused with the user-configured AWS account alias, which is set from the IAM console. owner-id - The ID of the AWS account that owns the snapshot. progress - The progress of the snapshot, as a percentage (for example, 80%). snapshot-id - The snapshot ID. start-time - The time stamp when the snapshot was initiated. status - The status of the snapshot (pending | completed | error). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. volume-id - The ID of the volume the snapshot is for. volume-size - The size of the volume, in GiB.
*/
Filters?: FilterList;
/**
* The maximum number of snapshot results returned by DescribeSnapshots in paginated output. When this parameter is used, DescribeSnapshots 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 DescribeSnapshots request with the returned NextToken value. This value can be between 5 and 1000; if MaxResults is given a value larger than 1000, only 1000 results are returned. If this parameter is not used, then DescribeSnapshots returns all results. You cannot specify this parameter and the snapshot IDs parameter in the same request.
*/
MaxResults?: Integer;
/**
* The NextToken value returned from a previous paginated DescribeSnapshots 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.
*/
NextToken?: String;
/**
* Describes the snapshots owned by these owners.
*/
OwnerIds?: OwnerStringList;
/**
* The IDs of the AWS accounts that can create volumes from the snapshot.
*/
RestorableByUserIds?: RestorableByStringList;
/**
* The snapshot IDs. Default: Describes the snapshots for which you have create volume permissions.
*/
SnapshotIds?: SnapshotIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeSnapshotsResult {
/**
* Information about the snapshots.
*/
Snapshots?: SnapshotList;
/**
* The NextToken value to include in a future DescribeSnapshots request. When the results of a DescribeSnapshots 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;
}
export interface DescribeSpotDatafeedSubscriptionRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeSpotDatafeedSubscriptionResult {
/**
* The Spot Instance data feed subscription.
*/
SpotDatafeedSubscription?: SpotDatafeedSubscription;
}
export type DescribeSpotFleetInstancesMaxResults = number;
export interface DescribeSpotFleetInstancesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of results to return in a single call. Specify a value between 1 and 1000. The default value is 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: DescribeSpotFleetInstancesMaxResults;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId: String;
}
export interface DescribeSpotFleetInstancesResponse {
/**
* The running instances. This list is refreshed periodically and might be out of date.
*/
ActiveInstances?: ActiveInstanceSet;
/**
* The token required to retrieve the next set of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId?: String;
}
export type DescribeSpotFleetRequestHistoryMaxResults = number;
export interface DescribeSpotFleetRequestHistoryRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The type of events to describe. By default, all events are described.
*/
EventType?: EventType;
/**
* The maximum number of results to return in a single call. Specify a value between 1 and 1000. The default value is 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: DescribeSpotFleetRequestHistoryMaxResults;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId: String;
/**
* The starting date and time for the events, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
StartTime: DateTime;
}
export interface DescribeSpotFleetRequestHistoryResponse {
/**
* Information about the events in the history of the Spot Fleet request.
*/
HistoryRecords?: HistoryRecords;
/**
* The last date and time for the events, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). All records up to this time were retrieved. If nextToken indicates that there are more results, this value is not present.
*/
LastEvaluatedTime?: DateTime;
/**
* The token required to retrieve the next set of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId?: String;
/**
* The starting date and time for the events, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
StartTime?: DateTime;
}
export interface DescribeSpotFleetRequestsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of results to return in a single call. Specify a value between 1 and 1000. The default value is 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* The IDs of the Spot Fleet requests.
*/
SpotFleetRequestIds?: ValueStringList;
}
export interface DescribeSpotFleetRequestsResponse {
/**
* The token required to retrieve the next set of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* Information about the configuration of your Spot Fleet.
*/
SpotFleetRequestConfigs?: SpotFleetRequestConfigSet;
}
export interface DescribeSpotInstanceRequestsRequest {
/**
* One or more filters. availability-zone-group - The Availability Zone group. create-time - The time stamp when the Spot Instance request was created. fault-code - The fault code related to the request. fault-message - The fault message related to the request. instance-id - The ID of the instance that fulfilled the request. launch-group - The Spot Instance launch group. launch.block-device-mapping.delete-on-termination - Indicates whether the EBS volume is deleted on instance termination. launch.block-device-mapping.device-name - The device name for the volume in the block device mapping (for example, /dev/sdh or xvdh). launch.block-device-mapping.snapshot-id - The ID of the snapshot for the EBS volume. launch.block-device-mapping.volume-size - The size of the EBS volume, in GiB. launch.block-device-mapping.volume-type - The type of EBS volume: gp2 for General Purpose SSD, io1 for Provisioned IOPS SSD, st1 for Throughput Optimized HDD, sc1for Cold HDD, or standard for Magnetic. launch.group-id - The ID of the security group for the instance. launch.group-name - The name of the security group for the instance. launch.image-id - The ID of the AMI. launch.instance-type - The type of instance (for example, m3.medium). launch.kernel-id - The kernel ID. launch.key-name - The name of the key pair the instance launched with. launch.monitoring-enabled - Whether detailed monitoring is enabled for the Spot Instance. launch.ramdisk-id - The RAM disk ID. launched-availability-zone - The Availability Zone in which the request is launched. network-interface.addresses.primary - Indicates whether the IP address is the primary private IP address. network-interface.delete-on-termination - Indicates whether the network interface is deleted when the instance is terminated. network-interface.description - A description of the network interface. network-interface.device-index - The index of the device for the network interface attachment on the instance. network-interface.group-id - The ID of the security group associated with the network interface. network-interface.network-interface-id - The ID of the network interface. network-interface.private-ip-address - The primary private IP address of the network interface. network-interface.subnet-id - The ID of the subnet for the instance. product-description - The product description associated with the instance (Linux/UNIX | Windows). spot-instance-request-id - The Spot Instance request ID. spot-price - The maximum hourly price for any Spot Instance launched to fulfill the request. state - The state of the Spot Instance request (open | active | closed | cancelled | failed). Spot request status information can help you track your Amazon EC2 Spot Instance requests. For more information, see Spot Request Status in the Amazon EC2 User Guide for Linux Instances. status-code - The short code describing the most recent evaluation of your Spot Instance request. status-message - The message explaining the status of the Spot Instance request. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. type - The type of Spot Instance request (one-time | persistent). valid-from - The start date of the request. valid-until - The end date of the request.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more Spot Instance request IDs.
*/
SpotInstanceRequestIds?: SpotInstanceRequestIdList;
/**
* The token to request the next set of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* The maximum number of results to return in a single call. Specify a value between 5 and 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
}
export interface DescribeSpotInstanceRequestsResult {
/**
* One or more Spot Instance requests.
*/
SpotInstanceRequests?: SpotInstanceRequestList;
/**
* The token to use to retrieve the next set of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeSpotPriceHistoryRequest {
/**
* One or more filters. availability-zone - The Availability Zone for which prices should be returned. instance-type - The type of instance (for example, m3.medium). product-description - The product description for the Spot price (Linux/UNIX | SUSE Linux | Windows | Linux/UNIX (Amazon VPC) | SUSE Linux (Amazon VPC) | Windows (Amazon VPC)). spot-price - The Spot price. The value must match exactly (or use wildcards; greater than or less than comparison is not supported). timestamp - The time stamp of the Spot price history, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). You can use wildcards (* and ?). Greater than or less than comparison is not supported.
*/
Filters?: FilterList;
/**
* Filters the results by the specified Availability Zone.
*/
AvailabilityZone?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The date and time, up to the current date, from which to stop retrieving the price history data, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
EndTime?: DateTime;
/**
* Filters the results by the specified instance types.
*/
InstanceTypes?: InstanceTypeList;
/**
* The maximum number of results to return in a single call. Specify a value between 1 and 1000. The default value is 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token for the next set of results.
*/
NextToken?: String;
/**
* Filters the results by the specified basic product descriptions.
*/
ProductDescriptions?: ProductDescriptionList;
/**
* The date and time, up to the past 90 days, from which to start retrieving the price history data, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
StartTime?: DateTime;
}
export interface DescribeSpotPriceHistoryResult {
/**
* The token required to retrieve the next set of results. This value is null or an empty string when there are no more results to return.
*/
NextToken?: String;
/**
* The historical Spot prices.
*/
SpotPriceHistory?: SpotPriceHistoryList;
}
export type DescribeStaleSecurityGroupsMaxResults = number;
export type DescribeStaleSecurityGroupsNextToken = string;
export interface DescribeStaleSecurityGroupsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of items to return for this request. The request returns a token that you can specify in a subsequent call to get the next set of results.
*/
MaxResults?: DescribeStaleSecurityGroupsMaxResults;
/**
* The token for the next set of items to return. (You received this token from a prior call.)
*/
NextToken?: DescribeStaleSecurityGroupsNextToken;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface DescribeStaleSecurityGroupsResult {
/**
* The token to use when requesting the next set of items. If there are no additional items to return, the string is empty.
*/
NextToken?: String;
/**
* Information about the stale security groups.
*/
StaleSecurityGroupSet?: StaleSecurityGroupSet;
}
export type DescribeSubnetsMaxResults = number;
export interface DescribeSubnetsRequest {
/**
* One or more filters. availability-zone - The Availability Zone for the subnet. You can also use availabilityZone as the filter name. availability-zone-id - The ID of the Availability Zone for the subnet. You can also use availabilityZoneId as the filter name. available-ip-address-count - The number of IPv4 addresses in the subnet that are available. cidr-block - The IPv4 CIDR block of the subnet. The CIDR block you specify must exactly match the subnet's CIDR block for information to be returned for the subnet. You can also use cidr or cidrBlock as the filter names. default-for-az - Indicates whether this is the default subnet for the Availability Zone. You can also use defaultForAz as the filter name. ipv6-cidr-block-association.ipv6-cidr-block - An IPv6 CIDR block associated with the subnet. ipv6-cidr-block-association.association-id - An association ID for an IPv6 CIDR block associated with the subnet. ipv6-cidr-block-association.state - The state of an IPv6 CIDR block associated with the subnet. owner-id - The ID of the AWS account that owns the subnet. state - The state of the subnet (pending | available). subnet-arn - The Amazon Resource Name (ARN) of the subnet. subnet-id - The ID of the subnet. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-id - The ID of the VPC for the subnet.
*/
Filters?: FilterList;
/**
* One or more subnet IDs. Default: Describes all your subnets.
*/
SubnetIds?: SubnetIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeSubnetsMaxResults;
}
export interface DescribeSubnetsResult {
/**
* Information about one or more subnets.
*/
Subnets?: SubnetList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeTagsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The filters. key - The tag key. resource-id - The ID of the resource. resource-type - The resource type (customer-gateway | dedicated-host | dhcp-options | elastic-ip | fleet | fpga-image | image | instance | host-reservation | internet-gateway | launch-template | natgateway | network-acl | network-interface | reserved-instances | route-table | security-group | snapshot | spot-instances-request | subnet | volume | vpc | vpc-peering-connection | vpn-connection | vpn-gateway). tag:<key> - The key/value combination of the tag. For example, specify "tag:Owner" for the filter name and "TeamA" for the filter value to find resources with the tag "Owner=TeamA". value - The tag value.
*/
Filters?: FilterList;
/**
* The maximum number of results to return in a single call. This value can be between 5 and 1000. To retrieve the remaining results, make another call with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeTagsResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* The tags.
*/
Tags?: TagDescriptionList;
}
export interface DescribeTrafficMirrorFiltersRequest {
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterIds?: ValueStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more filters. The possible values are: description: The Traffic Mirror filter description. traffic-mirror-filter-id: The ID of the Traffic Mirror filter.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TrafficMirroringMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: NextToken;
}
export interface DescribeTrafficMirrorFiltersResult {
/**
* Information about one or more Traffic Mirror filters.
*/
TrafficMirrorFilters?: TrafficMirrorFilterSet;
/**
* The token to use to retrieve the next page of results. The value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeTrafficMirrorSessionsRequest {
/**
* The ID of the Traffic Mirror session.
*/
TrafficMirrorSessionIds?: ValueStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more filters. The possible values are: description: The Traffic Mirror session description. network-interface-id: The ID of the Traffic Mirror session network interface. owner-id: The ID of the account that owns the Traffic Mirror session. packet-length: The assigned number of packets to mirror. session-number: The assigned session number. traffic-mirror-filter-id: The ID of the Traffic Mirror filter. traffic-mirror-session-id: The ID of the Traffic Mirror session. traffic-mirror-target-id: The ID of the Traffic Mirror target. virtual-network-id: The virtual network ID of the Traffic Mirror session.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TrafficMirroringMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: NextToken;
}
export interface DescribeTrafficMirrorSessionsResult {
/**
* Describes one or more Traffic Mirror sessions. By default, all Traffic Mirror sessions are described. Alternatively, you can filter the results.
*/
TrafficMirrorSessions?: TrafficMirrorSessionSet;
/**
* The token to use to retrieve the next page of results. The value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeTrafficMirrorTargetsRequest {
/**
* The ID of the Traffic Mirror targets.
*/
TrafficMirrorTargetIds?: ValueStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more filters. The possible values are: description: The Traffic Mirror target description. network-interface-id: The ID of the Traffic Mirror session network interface. network-load-balancer-arn: The Amazon Resource Name (ARN) of the Network Load Balancer that is associated with the session. owner-id: The ID of the account that owns the Traffic Mirror session. traffic-mirror-target-id: The ID of the Traffic Mirror target.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TrafficMirroringMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: NextToken;
}
export interface DescribeTrafficMirrorTargetsResult {
/**
* Information about one or more Traffic Mirror targets.
*/
TrafficMirrorTargets?: TrafficMirrorTargetSet;
/**
* The token to use to retrieve the next page of results. The value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeTransitGatewayAttachmentsRequest {
/**
* The IDs of the attachments.
*/
TransitGatewayAttachmentIds?: TransitGatewayAttachmentIdStringList;
/**
* One or more filters. The possible values are: association.state - The state of the association (associating | associated | disassociating). association.transit-gateway-route-table-id - The ID of the route table for the transit gateway. resource-id - The ID of the resource. resource-owner-id - The ID of the AWS account that owns the resource. resource-type - The resource type (vpc | vpn). state - The state of the attachment (available | deleted | deleting | failed | modifying | pendingAcceptance | pending | rollingBack | rejected | rejecting). transit-gateway-attachment-id - The ID of the attachment. transit-gateway-id - The ID of the transit gateway. transit-gateway-owner-id - The ID of the AWS account that owns the transit gateway.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeTransitGatewayAttachmentsResult {
/**
* Information about the attachments.
*/
TransitGatewayAttachments?: TransitGatewayAttachmentList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeTransitGatewayRouteTablesRequest {
/**
* The IDs of the transit gateway route tables.
*/
TransitGatewayRouteTableIds?: TransitGatewayRouteTableIdStringList;
/**
* One or more filters. The possible values are: default-association-route-table - Indicates whether this is the default association route table for the transit gateway (true | false). default-propagation-route-table - Indicates whether this is the default propagation route table for the transit gateway (true | false). state - The state of the attachment (available | deleted | deleting | failed | modifying | pendingAcceptance | pending | rollingBack | rejected | rejecting). transit-gateway-id - The ID of the transit gateway. transit-gateway-route-table-id - The ID of the transit gateway route table.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeTransitGatewayRouteTablesResult {
/**
* Information about the transit gateway route tables.
*/
TransitGatewayRouteTables?: TransitGatewayRouteTableList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeTransitGatewayVpcAttachmentsRequest {
/**
* The IDs of the attachments.
*/
TransitGatewayAttachmentIds?: TransitGatewayAttachmentIdStringList;
/**
* One or more filters. The possible values are: state - The state of the attachment (available | deleted | deleting | failed | modifying | pendingAcceptance | pending | rollingBack | rejected | rejecting). transit-gateway-attachment-id - The ID of the attachment. transit-gateway-id - The ID of the transit gateway. vpc-id - The ID of the VPC.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeTransitGatewayVpcAttachmentsResult {
/**
* Information about the VPC attachments.
*/
TransitGatewayVpcAttachments?: TransitGatewayVpcAttachmentList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeTransitGatewaysRequest {
/**
* The IDs of the transit gateways.
*/
TransitGatewayIds?: TransitGatewayIdStringList;
/**
* One or more filters. The possible values are: options.propagation-default-route-table-id - The ID of the default propagation route table. options.amazon-side-asn - The private ASN for the Amazon side of a BGP session. options.association-default-route-table-id - The ID of the default association route table. options.auto-accept-shared-attachments - Indicates whether there is automatic acceptance of attachment requests (enable | disable). options.default-route-table-association - Indicates whether resource attachments are automatically associated with the default association route table (enable | disable). options.default-route-table-propagation - Indicates whether resource attachments automatically propagate routes to the default propagation route table (enable | disable). options.dns-support - Indicates whether DNS support is enabled (enable | disable). options.vpn-ecmp-support - Indicates whether Equal Cost Multipath Protocol support is enabled (enable | disable). owner-id - The ID of the AWS account that owns the transit gateway. state - The state of the attachment (available | deleted | deleting | failed | modifying | pendingAcceptance | pending | rollingBack | rejected | rejecting). transit-gateway-id - The ID of the transit gateway.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeTransitGatewaysResult {
/**
* Information about the transit gateways.
*/
TransitGateways?: TransitGatewayList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeVolumeAttributeRequest {
/**
* The attribute of the volume. This parameter is required.
*/
Attribute: VolumeAttributeName;
/**
* The ID of the volume.
*/
VolumeId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeVolumeAttributeResult {
/**
* The state of autoEnableIO attribute.
*/
AutoEnableIO?: AttributeBooleanValue;
/**
* A list of product codes.
*/
ProductCodes?: ProductCodeList;
/**
* The ID of the volume.
*/
VolumeId?: String;
}
export interface DescribeVolumeStatusRequest {
/**
* The filters. action.code - The action code for the event (for example, enable-volume-io). action.description - A description of the action. action.event-id - The event ID associated with the action. availability-zone - The Availability Zone of the instance. event.description - A description of the event. event.event-id - The event ID. event.event-type - The event type (for io-enabled: passed | failed; for io-performance: io-performance:degraded | io-performance:severely-degraded | io-performance:stalled). event.not-after - The latest end time for the event. event.not-before - The earliest start time for the event. volume-status.details-name - The cause for volume-status.status (io-enabled | io-performance). volume-status.details-status - The status of volume-status.details-name (for io-enabled: passed | failed; for io-performance: normal | degraded | severely-degraded | stalled). volume-status.status - The status of the volume (ok | impaired | warning | insufficient-data).
*/
Filters?: FilterList;
/**
* The maximum number of volume results returned by DescribeVolumeStatus in paginated output. When this parameter is used, the request 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 request with the returned NextToken value. This value can be between 5 and 1000; if MaxResults is given a value larger than 1000, only 1000 results are returned. If this parameter is not used, then DescribeVolumeStatus returns all results. You cannot specify this parameter and the volume IDs parameter in the same request.
*/
MaxResults?: Integer;
/**
* The NextToken value to include in a future DescribeVolumeStatus request. When the results of the 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;
/**
* The IDs of the volumes. Default: Describes all your volumes.
*/
VolumeIds?: VolumeIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeVolumeStatusResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* Information about the status of the volumes.
*/
VolumeStatuses?: VolumeStatusList;
}
export interface DescribeVolumesModificationsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the volumes for which in-progress modifications will be described.
*/
VolumeIds?: VolumeIdStringList;
/**
* The filters. Supported filters: volume-id, modification-state, target-size, target-iops, target-volume-type, original-size, original-iops, original-volume-type, start-time.
*/
Filters?: FilterList;
/**
* The nextToken value returned by a previous paginated request.
*/
NextToken?: String;
/**
* The maximum number of results (up to a limit of 500) to be returned in a paginated request.
*/
MaxResults?: Integer;
}
export interface DescribeVolumesModificationsResult {
/**
* Information about the volume modifications.
*/
VolumesModifications?: VolumeModificationList;
/**
* Token for pagination, null if there are no more results
*/
NextToken?: String;
}
export interface DescribeVolumesRequest {
/**
* The filters. attachment.attach-time - The time stamp when the attachment initiated. attachment.delete-on-termination - Whether the volume is deleted on instance termination. attachment.device - The device name specified in the block device mapping (for example, /dev/sda1). attachment.instance-id - The ID of the instance the volume is attached to. attachment.status - The attachment state (attaching | attached | detaching). availability-zone - The Availability Zone in which the volume was created. create-time - The time stamp when the volume was created. encrypted - Indicates whether the volume is encrypted (true | false) size - The size of the volume, in GiB. snapshot-id - The snapshot from which the volume was created. status - The status of the volume (creating | available | in-use | deleting | deleted | error). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. volume-id - The volume ID. volume-type - The Amazon EBS volume type. This can be gp2 for General Purpose SSD, io1 for Provisioned IOPS SSD, st1 for Throughput Optimized HDD, sc1 for Cold HDD, or standard for Magnetic volumes.
*/
Filters?: FilterList;
/**
* The volume IDs.
*/
VolumeIds?: VolumeIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of volume results returned by DescribeVolumes in paginated output. When this parameter is used, DescribeVolumes 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 DescribeVolumes request with the returned NextToken value. This value can be between 5 and 500; if MaxResults is given a value larger than 500, only 500 results are returned. If this parameter is not used, then DescribeVolumes returns all results. You cannot specify this parameter and the volume IDs parameter in the same request.
*/
MaxResults?: Integer;
/**
* The NextToken value returned from a previous paginated DescribeVolumes 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.
*/
NextToken?: String;
}
export interface DescribeVolumesResult {
/**
* Information about the volumes.
*/
Volumes?: VolumeList;
/**
* The NextToken value to include in a future DescribeVolumes request. When the results of a DescribeVolumes 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;
}
export interface DescribeVpcAttributeRequest {
/**
* The VPC attribute.
*/
Attribute: VpcAttributeName;
/**
* The ID of the VPC.
*/
VpcId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeVpcAttributeResult {
/**
* The ID of the VPC.
*/
VpcId?: String;
/**
* Indicates whether the instances launched in the VPC get DNS hostnames. If this attribute is true, instances in the VPC get DNS hostnames; otherwise, they do not.
*/
EnableDnsHostnames?: AttributeBooleanValue;
/**
* Indicates whether DNS resolution is enabled for the VPC. If this attribute is true, the Amazon DNS server resolves DNS hostnames for your instances to their corresponding IP addresses; otherwise, it does not.
*/
EnableDnsSupport?: AttributeBooleanValue;
}
export type DescribeVpcClassicLinkDnsSupportMaxResults = number;
export type DescribeVpcClassicLinkDnsSupportNextToken = string;
export interface DescribeVpcClassicLinkDnsSupportRequest {
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeVpcClassicLinkDnsSupportMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: DescribeVpcClassicLinkDnsSupportNextToken;
/**
* One or more VPC IDs.
*/
VpcIds?: VpcClassicLinkIdList;
}
export interface DescribeVpcClassicLinkDnsSupportResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: DescribeVpcClassicLinkDnsSupportNextToken;
/**
* Information about the ClassicLink DNS support status of the VPCs.
*/
Vpcs?: ClassicLinkDnsSupportList;
}
export interface DescribeVpcClassicLinkRequest {
/**
* One or more filters. is-classic-link-enabled - Whether the VPC is enabled for ClassicLink (true | false). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more VPCs for which you want to describe the ClassicLink status.
*/
VpcIds?: VpcClassicLinkIdList;
}
export interface DescribeVpcClassicLinkResult {
/**
* The ClassicLink status of one or more VPCs.
*/
Vpcs?: VpcClassicLinkList;
}
export interface DescribeVpcEndpointConnectionNotificationsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the notification.
*/
ConnectionNotificationId?: String;
/**
* One or more filters. connection-notification-arn - The ARN of SNS topic for the notification. connection-notification-id - The ID of the notification. connection-notification-state - The state of the notification (Enabled | Disabled). connection-notification-type - The type of notification (Topic). service-id - The ID of the endpoint service. vpc-endpoint-id - The ID of the VPC endpoint.
*/
Filters?: FilterList;
/**
* The maximum number of results to return in a single call. To retrieve the remaining results, make another request with the returned NextToken value.
*/
MaxResults?: Integer;
/**
* The token to request the next page of results.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointConnectionNotificationsResult {
/**
* One or more notifications.
*/
ConnectionNotificationSet?: ConnectionNotificationSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointConnectionsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more filters. service-id - The ID of the service. vpc-endpoint-owner - The AWS account number of the owner of the endpoint. vpc-endpoint-state - The state of the endpoint (pendingAcceptance | pending | available | deleting | deleted | rejected | failed). vpc-endpoint-id - The ID of the endpoint.
*/
Filters?: FilterList;
/**
* The maximum number of results to return for the request in a single page. The remaining results of the initial request can be seen by sending another request with the returned NextToken value. This value can be between 5 and 1000; if MaxResults is given a value larger than 1000, only 1000 results are returned.
*/
MaxResults?: Integer;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointConnectionsResult {
/**
* Information about one or more VPC endpoint connections.
*/
VpcEndpointConnections?: VpcEndpointConnectionSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointServiceConfigurationsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of one or more services.
*/
ServiceIds?: ValueStringList;
/**
* One or more filters. service-name - The name of the service. service-id - The ID of the service. service-state - The state of the service (Pending | Available | Deleting | Deleted | Failed). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* The maximum number of results to return for the request in a single page. The remaining results of the initial request can be seen by sending another request with the returned NextToken value. This value can be between 5 and 1000; if MaxResults is given a value larger than 1000, only 1000 results are returned.
*/
MaxResults?: Integer;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointServiceConfigurationsResult {
/**
* Information about one or more services.
*/
ServiceConfigurations?: ServiceConfigurationSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointServicePermissionsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the service.
*/
ServiceId: String;
/**
* One or more filters. principal - The ARN of the principal. principal-type - The principal type (All | Service | OrganizationUnit | Account | User | Role).
*/
Filters?: FilterList;
/**
* The maximum number of results to return for the request in a single page. The remaining results of the initial request can be seen by sending another request with the returned NextToken value. This value can be between 5 and 1000; if MaxResults is given a value larger than 1000, only 1000 results are returned.
*/
MaxResults?: Integer;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointServicePermissionsResult {
/**
* Information about one or more allowed principals.
*/
AllowedPrincipals?: AllowedPrincipalSet;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointServicesRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more service names.
*/
ServiceNames?: ValueStringList;
/**
* One or more filters. service-name: The name of the service. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* The maximum number of items to return for this request. The request returns a token that you can specify in a subsequent call to get the next set of results. Constraint: If the value is greater than 1000, we return only 1000 items.
*/
MaxResults?: Integer;
/**
* The token for the next set of items to return. (You received this token from a prior call.)
*/
NextToken?: String;
}
export interface DescribeVpcEndpointServicesResult {
/**
* A list of supported services.
*/
ServiceNames?: ValueStringList;
/**
* Information about the service.
*/
ServiceDetails?: ServiceDetailSet;
/**
* The token to use when requesting the next set of items. If there are no additional items to return, the string is empty.
*/
NextToken?: String;
}
export interface DescribeVpcEndpointsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more endpoint IDs.
*/
VpcEndpointIds?: ValueStringList;
/**
* One or more filters. service-name: The name of the service. vpc-id: The ID of the VPC in which the endpoint resides. vpc-endpoint-id: The ID of the endpoint. vpc-endpoint-state - The state of the endpoint (pendingAcceptance | pending | available | deleting | deleted | rejected | failed). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value.
*/
Filters?: FilterList;
/**
* The maximum number of items to return for this request. The request returns a token that you can specify in a subsequent call to get the next set of results. Constraint: If the value is greater than 1000, we return only 1000 items.
*/
MaxResults?: Integer;
/**
* The token for the next set of items to return. (You received this token from a prior call.)
*/
NextToken?: String;
}
export interface DescribeVpcEndpointsResult {
/**
* Information about the endpoints.
*/
VpcEndpoints?: VpcEndpointSet;
/**
* The token to use when requesting the next set of items. If there are no additional items to return, the string is empty.
*/
NextToken?: String;
}
export type DescribeVpcPeeringConnectionsMaxResults = number;
export interface DescribeVpcPeeringConnectionsRequest {
/**
* One or more filters. accepter-vpc-info.cidr-block - The IPv4 CIDR block of the accepter VPC. accepter-vpc-info.owner-id - The AWS account ID of the owner of the accepter VPC. accepter-vpc-info.vpc-id - The ID of the accepter VPC. expiration-time - The expiration date and time for the VPC peering connection. requester-vpc-info.cidr-block - The IPv4 CIDR block of the requester's VPC. requester-vpc-info.owner-id - The AWS account ID of the owner of the requester VPC. requester-vpc-info.vpc-id - The ID of the requester VPC. status-code - The status of the VPC peering connection (pending-acceptance | failed | expired | provisioning | active | deleting | deleted | rejected). status-message - A message that provides more information about the status of the VPC peering connection, if applicable. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-peering-connection-id - The ID of the VPC peering connection.
*/
Filters?: FilterList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* One or more VPC peering connection IDs. Default: Describes all your VPC peering connections.
*/
VpcPeeringConnectionIds?: ValueStringList;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeVpcPeeringConnectionsMaxResults;
}
export interface DescribeVpcPeeringConnectionsResult {
/**
* Information about the VPC peering connections.
*/
VpcPeeringConnections?: VpcPeeringConnectionList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type DescribeVpcsMaxResults = number;
export interface DescribeVpcsRequest {
/**
* One or more filters. cidr - The primary IPv4 CIDR block of the VPC. The CIDR block you specify must exactly match the VPC's CIDR block for information to be returned for the VPC. Must contain the slash followed by one or two digits (for example, /28). cidr-block-association.cidr-block - An IPv4 CIDR block associated with the VPC. cidr-block-association.association-id - The association ID for an IPv4 CIDR block associated with the VPC. cidr-block-association.state - The state of an IPv4 CIDR block associated with the VPC. dhcp-options-id - The ID of a set of DHCP options. ipv6-cidr-block-association.ipv6-cidr-block - An IPv6 CIDR block associated with the VPC. ipv6-cidr-block-association.association-id - The association ID for an IPv6 CIDR block associated with the VPC. ipv6-cidr-block-association.state - The state of an IPv6 CIDR block associated with the VPC. isDefault - Indicates whether the VPC is the default VPC. owner-id - The ID of the AWS account that owns the VPC. state - The state of the VPC (pending | available). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. vpc-id - The ID of the VPC.
*/
Filters?: FilterList;
/**
* One or more VPC IDs. Default: Describes all your VPCs.
*/
VpcIds?: VpcIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: DescribeVpcsMaxResults;
}
export interface DescribeVpcsResult {
/**
* Information about one or more VPCs.
*/
Vpcs?: VpcList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface DescribeVpnConnectionsRequest {
/**
* One or more filters. customer-gateway-configuration - The configuration information for the customer gateway. customer-gateway-id - The ID of a customer gateway associated with the VPN connection. state - The state of the VPN connection (pending | available | deleting | deleted). option.static-routes-only - Indicates whether the connection has static routes only. Used for devices that do not support Border Gateway Protocol (BGP). route.destination-cidr-block - The destination CIDR block. This corresponds to the subnet used in a customer data center. bgp-asn - The BGP Autonomous System Number (ASN) associated with a BGP device. tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. type - The type of VPN connection. Currently the only supported type is ipsec.1. vpn-connection-id - The ID of the VPN connection. vpn-gateway-id - The ID of a virtual private gateway associated with the VPN connection.
*/
Filters?: FilterList;
/**
* One or more VPN connection IDs. Default: Describes your VPN connections.
*/
VpnConnectionIds?: VpnConnectionIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeVpnConnectionsResult {
/**
* Information about one or more VPN connections.
*/
VpnConnections?: VpnConnectionList;
}
export interface DescribeVpnGatewaysRequest {
/**
* One or more filters. amazon-side-asn - The Autonomous System Number (ASN) for the Amazon side of the gateway. attachment.state - The current state of the attachment between the gateway and the VPC (attaching | attached | detaching | detached). attachment.vpc-id - The ID of an attached VPC. availability-zone - The Availability Zone for the virtual private gateway (if applicable). state - The state of the virtual private gateway (pending | available | deleting | deleted). tag:<key> - The key/value combination of a tag assigned to the resource. Use the tag key in the filter name and the tag value as the filter value. For example, to find all resources that have a tag with the key Owner and the value TeamA, specify tag:Owner for the filter name and TeamA for the filter value. tag-key - The key of a tag assigned to the resource. Use this filter to find all resources assigned a tag with a specific key, regardless of the tag value. type - The type of virtual private gateway. Currently the only supported type is ipsec.1. vpn-gateway-id - The ID of the virtual private gateway.
*/
Filters?: FilterList;
/**
* One or more virtual private gateway IDs. Default: Describes all your virtual private gateways.
*/
VpnGatewayIds?: VpnGatewayIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DescribeVpnGatewaysResult {
/**
* Information about one or more virtual private gateways.
*/
VpnGateways?: VpnGatewayList;
}
export interface DetachClassicLinkVpcRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance to unlink from the VPC.
*/
InstanceId: InstanceId;
/**
* The ID of the VPC to which the instance is linked.
*/
VpcId: VpcId;
}
export interface DetachClassicLinkVpcResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface DetachInternetGatewayRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the internet gateway.
*/
InternetGatewayId: InternetGatewayId;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface DetachNetworkInterfaceRequest {
/**
* The ID of the attachment.
*/
AttachmentId: AttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Specifies whether to force a detachment. Use the Force parameter only as a last resort to detach a network interface from a failed instance. If you use the Force parameter to detach a network interface, you might not be able to attach a different network interface to the same index on the instance without first stopping and starting the instance. If you force the detachment of a network interface, the instance metadata might not get updated. This means that the attributes associated with the detached network interface might still be visible. The instance metadata will get updated when you stop and start the instance.
*/
Force?: Boolean;
}
export interface DetachVolumeRequest {
/**
* The device name.
*/
Device?: String;
/**
* Forces detachment if the previous detachment attempt did not occur cleanly (for example, logging into an instance, unmounting the volume, and detaching normally). This option can lead to data loss or a corrupted file system. Use this option only as a last resort to detach a volume from a failed instance. The instance won't have an opportunity to flush file system caches or file system metadata. If you use this option, you must perform file system check and repair procedures.
*/
Force?: Boolean;
/**
* The ID of the instance.
*/
InstanceId?: InstanceId;
/**
* The ID of the volume.
*/
VolumeId: VolumeId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DetachVpnGatewayRequest {
/**
* The ID of the VPC.
*/
VpcId: VpcId;
/**
* The ID of the virtual private gateway.
*/
VpnGatewayId: VpnGatewayId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export type DeviceType = "ebs"|"instance-store"|string;
export interface DhcpConfiguration {
/**
* The name of a DHCP option.
*/
Key?: String;
/**
* One or more values for the DHCP option.
*/
Values?: DhcpConfigurationValueList;
}
export type DhcpConfigurationList = DhcpConfiguration[];
export type DhcpConfigurationValueList = AttributeValue[];
export interface DhcpOptions {
/**
* One or more DHCP options in the set.
*/
DhcpConfigurations?: DhcpConfigurationList;
/**
* The ID of the set of DHCP options.
*/
DhcpOptionsId?: String;
/**
* The ID of the AWS account that owns the DHCP options set.
*/
OwnerId?: String;
/**
* Any tags assigned to the DHCP options set.
*/
Tags?: TagList;
}
export type DhcpOptionsId = string;
export type DhcpOptionsIdStringList = String[];
export type DhcpOptionsList = DhcpOptions[];
export interface DirectoryServiceAuthentication {
/**
* The ID of the Active Directory used for authentication.
*/
DirectoryId?: String;
}
export interface DirectoryServiceAuthenticationRequest {
/**
* The ID of the Active Directory to be used for authentication.
*/
DirectoryId?: String;
}
export interface DisableEbsEncryptionByDefaultRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DisableEbsEncryptionByDefaultResult {
/**
* The updated status of encryption by default.
*/
EbsEncryptionByDefault?: Boolean;
}
export interface DisableTransitGatewayRouteTablePropagationRequest {
/**
* The ID of the propagation route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DisableTransitGatewayRouteTablePropagationResult {
/**
* Information about route propagation.
*/
Propagation?: TransitGatewayPropagation;
}
export interface DisableVgwRoutePropagationRequest {
/**
* The ID of the virtual private gateway.
*/
GatewayId: VpnGatewayId;
/**
* The ID of the route table.
*/
RouteTableId: RouteTableId;
}
export interface DisableVpcClassicLinkDnsSupportRequest {
/**
* The ID of the VPC.
*/
VpcId?: VpcId;
}
export interface DisableVpcClassicLinkDnsSupportResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface DisableVpcClassicLinkRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface DisableVpcClassicLinkResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface DisassociateAddressRequest {
/**
* [EC2-VPC] The association ID. Required for EC2-VPC.
*/
AssociationId?: String;
/**
* [EC2-Classic] The Elastic IP address. Required for EC2-Classic.
*/
PublicIp?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DisassociateClientVpnTargetNetworkRequest {
/**
* The ID of the Client VPN endpoint from which to disassociate the target network.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The ID of the target network association.
*/
AssociationId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DisassociateClientVpnTargetNetworkResult {
/**
* The ID of the target network association.
*/
AssociationId?: String;
/**
* The current state of the target network association.
*/
Status?: AssociationStatus;
}
export interface DisassociateIamInstanceProfileRequest {
/**
* The ID of the IAM instance profile association.
*/
AssociationId: String;
}
export interface DisassociateIamInstanceProfileResult {
/**
* Information about the IAM instance profile association.
*/
IamInstanceProfileAssociation?: IamInstanceProfileAssociation;
}
export interface DisassociateRouteTableRequest {
/**
* The association ID representing the current association between the route table and subnet.
*/
AssociationId: RouteTableAssociationId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DisassociateSubnetCidrBlockRequest {
/**
* The association ID for the CIDR block.
*/
AssociationId: SubnetCidrAssociationId;
}
export interface DisassociateSubnetCidrBlockResult {
/**
* Information about the IPv6 CIDR block association.
*/
Ipv6CidrBlockAssociation?: SubnetIpv6CidrBlockAssociation;
/**
* The ID of the subnet.
*/
SubnetId?: String;
}
export interface DisassociateTransitGatewayRouteTableRequest {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface DisassociateTransitGatewayRouteTableResult {
/**
* Information about the association.
*/
Association?: TransitGatewayAssociation;
}
export interface DisassociateVpcCidrBlockRequest {
/**
* The association ID for the CIDR block.
*/
AssociationId: VpcCidrAssociationId;
}
export interface DisassociateVpcCidrBlockResult {
/**
* Information about the IPv6 CIDR block association.
*/
Ipv6CidrBlockAssociation?: VpcIpv6CidrBlockAssociation;
/**
* Information about the IPv4 CIDR block association.
*/
CidrBlockAssociation?: VpcCidrBlockAssociation;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export interface DiskImage {
/**
* A description of the disk image.
*/
Description?: String;
/**
* Information about the disk image.
*/
Image?: DiskImageDetail;
/**
* Information about the volume.
*/
Volume?: VolumeDetail;
}
export interface DiskImageDescription {
/**
* The checksum computed for the disk image.
*/
Checksum?: String;
/**
* The disk image format.
*/
Format?: DiskImageFormat;
/**
* A presigned URL for the import manifest stored in Amazon S3. For information about creating a presigned URL for an Amazon S3 object, read the "Query String Request Authentication Alternative" section of the Authenticating REST Requests topic in the Amazon Simple Storage Service Developer Guide. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
ImportManifestUrl?: String;
/**
* The size of the disk image, in GiB.
*/
Size?: Long;
}
export interface DiskImageDetail {
/**
* The size of the disk image, in GiB.
*/
Bytes: Long;
/**
* The disk image format.
*/
Format: DiskImageFormat;
/**
* A presigned URL for the import manifest stored in Amazon S3 and presented here as an Amazon S3 presigned URL. For information about creating a presigned URL for an Amazon S3 object, read the "Query String Request Authentication Alternative" section of the Authenticating REST Requests topic in the Amazon Simple Storage Service Developer Guide. For information about the import manifest referenced by this API action, see VM Import Manifest.
*/
ImportManifestUrl: String;
}
export type DiskImageFormat = "VMDK"|"RAW"|"VHD"|string;
export type DiskImageList = DiskImage[];
export interface DiskImageVolumeDescription {
/**
* The volume identifier.
*/
Id?: String;
/**
* The size of the volume, in GiB.
*/
Size?: Long;
}
export interface DnsEntry {
/**
* The DNS name.
*/
DnsName?: String;
/**
* The ID of the private hosted zone.
*/
HostedZoneId?: String;
}
export type DnsEntrySet = DnsEntry[];
export interface DnsServersOptionsModifyStructure {
/**
* The IPv4 address range, in CIDR notation, of the DNS servers to be used. You can specify up to two DNS servers. Ensure that the DNS servers can be reached by the clients. The specified values overwrite the existing values.
*/
CustomDnsServers?: ValueStringList;
/**
* Indicates whether DNS servers should be used. Specify False to delete the existing DNS servers.
*/
Enabled?: Boolean;
}
export type DnsSupportValue = "enable"|"disable"|string;
export type DomainType = "vpc"|"standard"|string;
export type Double = number;
export interface EbsBlockDevice {
/**
* Indicates whether the EBS volume is deleted on instance termination. For more information, see Preserving Amazon EBS Volumes on Instance Termination in the Amazon Elastic Compute Cloud User Guide.
*/
DeleteOnTermination?: Boolean;
/**
* The number of I/O operations per second (IOPS) that the volume supports. For io1 volumes, this represents the number of IOPS that are provisioned for the volume. For gp2 volumes, this represents the baseline performance of the volume and the rate at which the volume accumulates I/O credits for bursting. For more information, see Amazon EBS Volume Types in the Amazon Elastic Compute Cloud User Guide. Constraints: Range is 100-16,000 IOPS for gp2 volumes and 100 to 64,000IOPS for io1 volumes in most Regions. Maximum io1 IOPS of 64,000 is guaranteed only on Nitro-based instances. Other instance families guarantee performance up to 32,000 IOPS. For more information, see Amazon EBS Volume Types in the Amazon Elastic Compute Cloud User Guide. Condition: This parameter is required for requests to create io1 volumes; it is not used in requests to create gp2, st1, sc1, or standard volumes.
*/
Iops?: Integer;
/**
* The ID of the snapshot.
*/
SnapshotId?: String;
/**
* The size of the volume, in GiB. Default: If you're creating the volume from a snapshot and don't specify a volume size, the default is the snapshot size. Constraints: 1-16384 for General Purpose SSD (gp2), 4-16384 for Provisioned IOPS SSD (io1), 500-16384 for Throughput Optimized HDD (st1), 500-16384 for Cold HDD (sc1), and 1-1024 for Magnetic (standard) volumes. If you specify a snapshot, the volume size must be equal to or larger than the snapshot size.
*/
VolumeSize?: Integer;
/**
* The volume type. If you set the type to io1, you must also specify the IOPS that the volume supports. Default: gp2
*/
VolumeType?: VolumeType;
/**
* Indicates whether the encryption state of an EBS volume is changed while being restored from a backing snapshot. The effect of setting the encryption state to true depends on the volume origin (new or from a snapshot), starting encryption state, ownership, and whether encryption by default is enabled. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide. In no case can you remove encryption from an encrypted volume. Encrypted volumes can only be attached to instances that support Amazon EBS encryption. For more information, see Supported Instance Types.
*/
Encrypted?: Boolean;
/**
* Identifier (key ID, key alias, ID ARN, or alias ARN) for a customer managed CMK under which the EBS volume is encrypted. This parameter is only supported on BlockDeviceMapping objects called by RunInstances, RequestSpotFleet, and RequestSpotInstances.
*/
KmsKeyId?: String;
}
export interface EbsInstanceBlockDevice {
/**
* The time stamp when the attachment initiated.
*/
AttachTime?: DateTime;
/**
* Indicates whether the volume is deleted on instance termination.
*/
DeleteOnTermination?: Boolean;
/**
* The attachment state.
*/
Status?: AttachmentStatus;
/**
* The ID of the EBS volume.
*/
VolumeId?: String;
}
export interface EbsInstanceBlockDeviceSpecification {
/**
* Indicates whether the volume is deleted on instance termination.
*/
DeleteOnTermination?: Boolean;
/**
* The ID of the EBS volume.
*/
VolumeId?: String;
}
export interface EgressOnlyInternetGateway {
/**
* Information about the attachment of the egress-only internet gateway.
*/
Attachments?: InternetGatewayAttachmentList;
/**
* The ID of the egress-only internet gateway.
*/
EgressOnlyInternetGatewayId?: EgressOnlyInternetGatewayId;
}
export type EgressOnlyInternetGatewayId = string;
export type EgressOnlyInternetGatewayIdList = EgressOnlyInternetGatewayId[];
export type EgressOnlyInternetGatewayList = EgressOnlyInternetGateway[];
export interface ElasticGpuAssociation {
/**
* The ID of the Elastic Graphics accelerator.
*/
ElasticGpuId?: String;
/**
* The ID of the association.
*/
ElasticGpuAssociationId?: String;
/**
* The state of the association between the instance and the Elastic Graphics accelerator.
*/
ElasticGpuAssociationState?: String;
/**
* The time the Elastic Graphics accelerator was associated with the instance.
*/
ElasticGpuAssociationTime?: String;
}
export type ElasticGpuAssociationList = ElasticGpuAssociation[];
export interface ElasticGpuHealth {
/**
* The health status.
*/
Status?: ElasticGpuStatus;
}
export type ElasticGpuIdSet = String[];
export type ElasticGpuSet = ElasticGpus[];
export interface ElasticGpuSpecification {
/**
* The type of Elastic Graphics accelerator.
*/
Type: String;
}
export type ElasticGpuSpecificationList = ElasticGpuSpecification[];
export interface ElasticGpuSpecificationResponse {
/**
* The elastic GPU type.
*/
Type?: String;
}
export type ElasticGpuSpecificationResponseList = ElasticGpuSpecificationResponse[];
export type ElasticGpuSpecifications = ElasticGpuSpecification[];
export type ElasticGpuState = "ATTACHED"|string;
export type ElasticGpuStatus = "OK"|"IMPAIRED"|string;
export interface ElasticGpus {
/**
* The ID of the Elastic Graphics accelerator.
*/
ElasticGpuId?: String;
/**
* The Availability Zone in the which the Elastic Graphics accelerator resides.
*/
AvailabilityZone?: String;
/**
* The type of Elastic Graphics accelerator.
*/
ElasticGpuType?: String;
/**
* The status of the Elastic Graphics accelerator.
*/
ElasticGpuHealth?: ElasticGpuHealth;
/**
* The state of the Elastic Graphics accelerator.
*/
ElasticGpuState?: ElasticGpuState;
/**
* The ID of the instance to which the Elastic Graphics accelerator is attached.
*/
InstanceId?: String;
}
export interface ElasticInferenceAccelerator {
/**
* The type of elastic inference accelerator. The possible values are eia1.small, eia1.medium, and eia1.large.
*/
Type: String;
}
export interface ElasticInferenceAcceleratorAssociation {
/**
* The Amazon Resource Name (ARN) of the elastic inference accelerator.
*/
ElasticInferenceAcceleratorArn?: String;
/**
* The ID of the association.
*/
ElasticInferenceAcceleratorAssociationId?: String;
/**
* The state of the elastic inference accelerator.
*/
ElasticInferenceAcceleratorAssociationState?: String;
/**
* The time at which the elastic inference accelerator is associated with an instance.
*/
ElasticInferenceAcceleratorAssociationTime?: DateTime;
}
export type ElasticInferenceAcceleratorAssociationList = ElasticInferenceAcceleratorAssociation[];
export type ElasticInferenceAccelerators = ElasticInferenceAccelerator[];
export interface EnableEbsEncryptionByDefaultRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface EnableEbsEncryptionByDefaultResult {
/**
* The updated status of encryption by default.
*/
EbsEncryptionByDefault?: Boolean;
}
export interface EnableTransitGatewayRouteTablePropagationRequest {
/**
* The ID of the propagation route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface EnableTransitGatewayRouteTablePropagationResult {
/**
* Information about route propagation.
*/
Propagation?: TransitGatewayPropagation;
}
export interface EnableVgwRoutePropagationRequest {
/**
* The ID of the virtual private gateway that is attached to a VPC. The virtual private gateway must be attached to the same VPC that the routing tables are associated with.
*/
GatewayId: VpnGatewayId;
/**
* The ID of the route table. The routing table must be associated with the same VPC that the virtual private gateway is attached to.
*/
RouteTableId: RouteTableId;
}
export interface EnableVolumeIORequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the volume.
*/
VolumeId: VolumeId;
}
export interface EnableVpcClassicLinkDnsSupportRequest {
/**
* The ID of the VPC.
*/
VpcId?: VpcId;
}
export interface EnableVpcClassicLinkDnsSupportResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface EnableVpcClassicLinkRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface EnableVpcClassicLinkResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export type EndDateType = "unlimited"|"limited"|string;
export type EndpointSet = ClientVpnEndpoint[];
export type EventCode = "instance-reboot"|"system-reboot"|"system-maintenance"|"instance-retirement"|"instance-stop"|string;
export interface EventInformation {
/**
* The description of the event.
*/
EventDescription?: String;
/**
* The event. The following are the error events: iamFleetRoleInvalid - The EC2 Fleet or Spot Fleet did not have the required permissions either to launch or terminate an instance. spotFleetRequestConfigurationInvalid - The configuration is not valid. For more information, see the description of the event. spotInstanceCountLimitExceeded - You've reached the limit on the number of Spot Instances that you can launch. The following are the fleetRequestChange events: active - The EC2 Fleet or Spot Fleet request has been validated and Amazon EC2 is attempting to maintain the target number of running Spot Instances. cancelled - The EC2 Fleet or Spot Fleet request is canceled and has no running Spot Instances. The EC2 Fleet or Spot Fleet will be deleted two days after its instances were terminated. cancelled_running - The EC2 Fleet or Spot Fleet request is canceled and does not launch additional Spot Instances. Existing Spot Instances continue to run until they are interrupted or terminated. cancelled_terminating - The EC2 Fleet or Spot Fleet request is canceled and its Spot Instances are terminating. expired - The EC2 Fleet or Spot Fleet request has expired. A subsequent event indicates that the instances were terminated, if the request was created with TerminateInstancesWithExpiration set. modify_in_progress - A request to modify the EC2 Fleet or Spot Fleet request was accepted and is in progress. modify_successful - The EC2 Fleet or Spot Fleet request was modified. price_update - The price for a launch configuration was adjusted because it was too high. This change is permanent. submitted - The EC2 Fleet or Spot Fleet request is being evaluated and Amazon EC2 is preparing to launch the target number of Spot Instances. The following are the instanceChange events: launched - A request was fulfilled and a new instance was launched. terminated - An instance was terminated by the user. The following are the Information events: launchSpecTemporarilyBlacklisted - The configuration is not valid and several attempts to launch instances have failed. For more information, see the description of the event. launchSpecUnusable - The price in a launch specification is not valid because it is below the Spot price or the Spot price is above the On-Demand price. fleetProgressHalted - The price in every launch specification is not valid. A launch specification might become valid if the Spot price changes.
*/
EventSubType?: String;
/**
* The ID of the instance. This information is available only for instanceChange events.
*/
InstanceId?: String;
}
export type EventType = "instanceChange"|"fleetRequestChange"|"error"|"information"|string;
export type ExcessCapacityTerminationPolicy = "noTermination"|"default"|string;
export type ExecutableByStringList = String[];
export interface ExportClientVpnClientCertificateRevocationListRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ExportClientVpnClientCertificateRevocationListResult {
/**
* Information about the client certificate revocation list.
*/
CertificateRevocationList?: String;
/**
* The current state of the client certificate revocation list.
*/
Status?: ClientCertificateRevocationListStatus;
}
export interface ExportClientVpnClientConfigurationRequest {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ExportClientVpnClientConfigurationResult {
/**
* The contents of the Client VPN endpoint configuration file.
*/
ClientConfiguration?: String;
}
export type ExportEnvironment = "citrix"|"vmware"|"microsoft"|string;
export interface ExportImageRequest {
/**
* Token to enable idempotency for export image requests.
*/
ClientToken?: String;
/**
* A description of the image being exported. The maximum length is 255 bytes.
*/
Description?: String;
/**
* The disk image format.
*/
DiskImageFormat: DiskImageFormat;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the image.
*/
ImageId: ImageId;
/**
* Information about the destination S3 bucket. The bucket must exist and grant WRITE and READ_ACP permissions to the AWS account vm-import-export@amazon.com.
*/
S3ExportLocation: ExportTaskS3LocationRequest;
/**
* The name of the role that grants VM Import/Export permission to export images to your S3 bucket. If this parameter is not specified, the default role is named 'vmimport'.
*/
RoleName?: String;
}
export interface ExportImageResult {
/**
* A description of the image being exported.
*/
Description?: String;
/**
* The disk image format for the exported image.
*/
DiskImageFormat?: DiskImageFormat;
/**
* The ID of the export image task.
*/
ExportImageTaskId?: String;
/**
* The ID of the image.
*/
ImageId?: String;
/**
* The name of the role that grants VM Import/Export permission to export images to your S3 bucket.
*/
RoleName?: String;
/**
* The percent complete of the export image task.
*/
Progress?: String;
/**
* Information about the destination S3 bucket.
*/
S3ExportLocation?: ExportTaskS3Location;
/**
* The status of the export image task. The possible values are active, completed, deleting, and deleted.
*/
Status?: String;
/**
* The status message for the export image task.
*/
StatusMessage?: String;
}
export interface ExportImageTask {
/**
* A description of the image being exported.
*/
Description?: String;
/**
* The ID of the export image task.
*/
ExportImageTaskId?: String;
/**
* The ID of the image.
*/
ImageId?: String;
/**
* The percent complete of the export image task.
*/
Progress?: String;
/**
* Information about the destination S3 bucket.
*/
S3ExportLocation?: ExportTaskS3Location;
/**
* The status of the export image task. The possible values are active, completed, deleting, and deleted.
*/
Status?: String;
/**
* The status message for the export image task.
*/
StatusMessage?: String;
}
export type ExportImageTaskIdList = String[];
export type ExportImageTaskList = ExportImageTask[];
export interface ExportTask {
/**
* A description of the resource being exported.
*/
Description?: String;
/**
* The ID of the export task.
*/
ExportTaskId?: String;
/**
* Information about the export task.
*/
ExportToS3Task?: ExportToS3Task;
/**
* Information about the instance to export.
*/
InstanceExportDetails?: InstanceExportDetails;
/**
* The state of the export task.
*/
State?: ExportTaskState;
/**
* The status message related to the export task.
*/
StatusMessage?: String;
}
export type ExportTaskId = string;
export type ExportTaskIdStringList = String[];
export type ExportTaskList = ExportTask[];
export interface ExportTaskS3Location {
/**
* The destination S3 bucket.
*/
S3Bucket?: String;
/**
* The prefix (logical hierarchy) in the bucket.
*/
S3Prefix?: String;
}
export interface ExportTaskS3LocationRequest {
/**
* The destination S3 bucket.
*/
S3Bucket: String;
/**
* The prefix (logical hierarchy) in the bucket.
*/
S3Prefix?: String;
}
export type ExportTaskState = "active"|"cancelling"|"cancelled"|"completed"|string;
export interface ExportToS3Task {
/**
* The container format used to combine disk images with metadata (such as OVF). If absent, only the disk image is exported.
*/
ContainerFormat?: ContainerFormat;
/**
* The format for the exported image.
*/
DiskImageFormat?: DiskImageFormat;
/**
* The S3 bucket for the destination image. The destination bucket must exist and grant WRITE and READ_ACP permissions to the AWS account vm-import-export@amazon.com.
*/
S3Bucket?: String;
/**
* The encryption key for your S3 bucket.
*/
S3Key?: String;
}
export interface ExportToS3TaskSpecification {
/**
* The container format used to combine disk images with metadata (such as OVF). If absent, only the disk image is exported.
*/
ContainerFormat?: ContainerFormat;
/**
* The format for the exported image.
*/
DiskImageFormat?: DiskImageFormat;
/**
* The S3 bucket for the destination image. The destination bucket must exist and grant WRITE and READ_ACP permissions to the AWS account vm-import-export@amazon.com.
*/
S3Bucket?: String;
/**
* The image is written to a single object in the S3 bucket at the S3 key s3prefix + exportTaskId + '.' + diskImageFormat.
*/
S3Prefix?: String;
}
export interface ExportTransitGatewayRoutesRequest {
/**
* The ID of the route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* One or more filters. The possible values are: attachment.transit-gateway-attachment-id - The id of the transit gateway attachment. attachment.resource-id - The resource id of the transit gateway attachment. route-search.exact-match - The exact match of the specified filter. route-search.longest-prefix-match - The longest prefix that matches the route. route-search.subnet-of-match - The routes with a subnet that match the specified CIDR filter. route-search.supernet-of-match - The routes with a CIDR that encompass the CIDR filter. For example, if you have 10.0.1.0/29 and 10.0.1.0/31 routes in your route table and you specify supernet-of-match as 10.0.1.0/30, then the result returns 10.0.1.0/29. state - The state of the attachment (available | deleted | deleting | failed | modifying | pendingAcceptance | pending | rollingBack | rejected | rejecting). transit-gateway-route-destination-cidr-block - The CIDR range. type - The type of route (active | blackhole).
*/
Filters?: FilterList;
/**
* The name of the S3 bucket.
*/
S3Bucket: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ExportTransitGatewayRoutesResult {
/**
* The URL of the exported file in Amazon S3. For example, s3://bucket_name/VPCTransitGateway/TransitGatewayRouteTables/file_name.
*/
S3Location?: String;
}
export interface FailedQueuedPurchaseDeletion {
/**
* The error.
*/
Error?: DeleteQueuedReservedInstancesError;
/**
* The ID of the Reserved Instance.
*/
ReservedInstancesId?: String;
}
export type FailedQueuedPurchaseDeletionSet = FailedQueuedPurchaseDeletion[];
export interface Filter {
/**
* The name of the filter. Filter names are case-sensitive.
*/
Name?: String;
/**
* The filter values. Filter values are case-sensitive.
*/
Values?: ValueStringList;
}
export type FilterList = Filter[];
export type FleetActivityStatus = "error"|"pending_fulfillment"|"pending_termination"|"fulfilled"|string;
export interface FleetData {
/**
* The progress of the EC2 Fleet. If there is an error, the status is error. After all requests are placed, the status is pending_fulfillment. If the size of the EC2 Fleet is equal to or greater than its target capacity, the status is fulfilled. If the size of the EC2 Fleet is decreased, the status is pending_termination while instances are terminating.
*/
ActivityStatus?: FleetActivityStatus;
/**
* The creation date and time of the EC2 Fleet.
*/
CreateTime?: DateTime;
/**
* The ID of the EC2 Fleet.
*/
FleetId?: FleetIdentifier;
/**
* The state of the EC2 Fleet.
*/
FleetState?: FleetStateCode;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency. Constraints: Maximum 64 ASCII characters
*/
ClientToken?: String;
/**
* Indicates whether running instances should be terminated if the target capacity of the EC2 Fleet is decreased below the current size of the EC2 Fleet.
*/
ExcessCapacityTerminationPolicy?: FleetExcessCapacityTerminationPolicy;
/**
* The number of units fulfilled by this request compared to the set target capacity.
*/
FulfilledCapacity?: Double;
/**
* The number of units fulfilled by this request compared to the set target On-Demand capacity.
*/
FulfilledOnDemandCapacity?: Double;
/**
* The launch template and overrides.
*/
LaunchTemplateConfigs?: FleetLaunchTemplateConfigList;
/**
* The number of units to request. You can choose to set the target capacity in terms of instances or a performance characteristic that is important to your application workload, such as vCPUs, memory, or I/O. If the request type is maintain, you can specify a target capacity of 0 and add capacity later.
*/
TargetCapacitySpecification?: TargetCapacitySpecification;
/**
* Indicates whether running instances should be terminated when the EC2 Fleet expires.
*/
TerminateInstancesWithExpiration?: Boolean;
/**
* The type of request. Indicates whether the EC2 Fleet only requests the target capacity, or also attempts to maintain it. If you request a certain target capacity, EC2 Fleet only places the required requests; it does not attempt to replenish instances if capacity is diminished, and does not submit requests in alternative capacity pools if capacity is unavailable. To maintain a certain target capacity, EC2 Fleet places the required requests to meet this target capacity. It also automatically replenishes any interrupted Spot Instances. Default: maintain.
*/
Type?: FleetType;
/**
* The start date and time of the request, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). The default is to start fulfilling the request immediately.
*/
ValidFrom?: DateTime;
/**
* The end date and time of the request, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). At this point, no new instance requests are placed or able to fulfill the request. The default end date is 7 days from the current date.
*/
ValidUntil?: DateTime;
/**
* Indicates whether EC2 Fleet should replace unhealthy instances.
*/
ReplaceUnhealthyInstances?: Boolean;
/**
* The configuration of Spot Instances in an EC2 Fleet.
*/
SpotOptions?: SpotOptions;
/**
* The allocation strategy of On-Demand Instances in an EC2 Fleet.
*/
OnDemandOptions?: OnDemandOptions;
/**
* The tags for an EC2 Fleet resource.
*/
Tags?: TagList;
/**
* Information about the instances that could not be launched by the fleet. Valid only when Type is set to instant.
*/
Errors?: DescribeFleetsErrorSet;
/**
* Information about the instances that were launched by the fleet. Valid only when Type is set to instant.
*/
Instances?: DescribeFleetsInstancesSet;
}
export type FleetEventType = "instance-change"|"fleet-change"|"service-error"|string;
export type FleetExcessCapacityTerminationPolicy = "no-termination"|"termination"|string;
export type FleetIdSet = FleetIdentifier[];
export type FleetIdentifier = string;
export interface FleetLaunchTemplateConfig {
/**
* The launch template.
*/
LaunchTemplateSpecification?: FleetLaunchTemplateSpecification;
/**
* Any parameters that you specify override the same parameters in the launch template.
*/
Overrides?: FleetLaunchTemplateOverridesList;
}
export type FleetLaunchTemplateConfigList = FleetLaunchTemplateConfig[];
export type FleetLaunchTemplateConfigListRequest = FleetLaunchTemplateConfigRequest[];
export interface FleetLaunchTemplateConfigRequest {
/**
* The launch template to use. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateSpecification?: FleetLaunchTemplateSpecificationRequest;
/**
* Any parameters that you specify override the same parameters in the launch template.
*/
Overrides?: FleetLaunchTemplateOverridesListRequest;
}
export interface FleetLaunchTemplateOverrides {
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The maximum price per unit hour that you are willing to pay for a Spot Instance.
*/
MaxPrice?: String;
/**
* The ID of the subnet in which to launch the instances.
*/
SubnetId?: String;
/**
* The Availability Zone in which to launch the instances.
*/
AvailabilityZone?: String;
/**
* The number of units provided by the specified instance type.
*/
WeightedCapacity?: Double;
/**
* The priority for the launch template override. If AllocationStrategy is set to prioritized, EC2 Fleet uses priority to determine which launch template override to use first in fulfilling On-Demand capacity. The highest priority is launched first. Valid values are whole numbers starting at 0. The lower the number, the higher the priority. If no number is set, the override has the lowest priority.
*/
Priority?: Double;
/**
* The location where the instance launched, if applicable.
*/
Placement?: PlacementResponse;
}
export type FleetLaunchTemplateOverridesList = FleetLaunchTemplateOverrides[];
export type FleetLaunchTemplateOverridesListRequest = FleetLaunchTemplateOverridesRequest[];
export interface FleetLaunchTemplateOverridesRequest {
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The maximum price per unit hour that you are willing to pay for a Spot Instance.
*/
MaxPrice?: String;
/**
* The ID of the subnet in which to launch the instances.
*/
SubnetId?: String;
/**
* The Availability Zone in which to launch the instances.
*/
AvailabilityZone?: String;
/**
* The number of units provided by the specified instance type.
*/
WeightedCapacity?: Double;
/**
* The priority for the launch template override. If AllocationStrategy is set to prioritized, EC2 Fleet uses priority to determine which launch template override to use first in fulfilling On-Demand capacity. The highest priority is launched first. Valid values are whole numbers starting at 0. The lower the number, the higher the priority. If no number is set, the launch template override has the lowest priority.
*/
Priority?: Double;
/**
* The location where the instance launched, if applicable.
*/
Placement?: Placement;
}
export interface FleetLaunchTemplateSpecification {
/**
* The ID of the launch template. You must specify either a template ID or a template name.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template. You must specify either a template name or a template ID.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* The version number of the launch template. You must specify a version number.
*/
Version?: String;
}
export interface FleetLaunchTemplateSpecificationRequest {
/**
* The ID of the launch template.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* The version number of the launch template. Note: This is a required parameter and will be updated soon.
*/
Version?: String;
}
export type FleetOnDemandAllocationStrategy = "lowest-price"|"prioritized"|string;
export type FleetSet = FleetData[];
export type FleetStateCode = "submitted"|"active"|"deleted"|"failed"|"deleted_running"|"deleted_terminating"|"modifying"|string;
export type FleetType = "request"|"maintain"|"instant"|string;
export type Float = number;
export interface FlowLog {
/**
* The date and time the flow log was created.
*/
CreationTime?: DateTime;
/**
* Information about the error that occurred. Rate limited indicates that CloudWatch Logs throttling has been applied for one or more network interfaces, or that you've reached the limit on the number of log groups that you can create. Access error indicates that the IAM role associated with the flow log does not have sufficient permissions to publish to CloudWatch Logs. Unknown error indicates an internal error.
*/
DeliverLogsErrorMessage?: String;
/**
* The ARN of the IAM role that posts logs to CloudWatch Logs.
*/
DeliverLogsPermissionArn?: String;
/**
* The status of the logs delivery (SUCCESS | FAILED).
*/
DeliverLogsStatus?: String;
/**
* The flow log ID.
*/
FlowLogId?: String;
/**
* The status of the flow log (ACTIVE).
*/
FlowLogStatus?: String;
/**
* The name of the flow log group.
*/
LogGroupName?: String;
/**
* The ID of the resource on which the flow log was created.
*/
ResourceId?: String;
/**
* The type of traffic captured for the flow log.
*/
TrafficType?: TrafficType;
/**
* Specifies the type of destination to which the flow log data is published. Flow log data can be published to CloudWatch Logs or Amazon S3.
*/
LogDestinationType?: LogDestinationType;
/**
* Specifies the destination to which the flow log data is published. Flow log data can be published to an CloudWatch Logs log group or an Amazon S3 bucket. If the flow log publishes to CloudWatch Logs, this element indicates the Amazon Resource Name (ARN) of the CloudWatch Logs log group to which the data is published. If the flow log publishes to Amazon S3, this element indicates the ARN of the Amazon S3 bucket to which the data is published.
*/
LogDestination?: String;
/**
* The format of the flow log record.
*/
LogFormat?: String;
}
export type FlowLogSet = FlowLog[];
export type FlowLogsResourceType = "VPC"|"Subnet"|"NetworkInterface"|string;
export interface FpgaImage {
/**
* The FPGA image identifier (AFI ID).
*/
FpgaImageId?: String;
/**
* The global FPGA image identifier (AGFI ID).
*/
FpgaImageGlobalId?: String;
/**
* The name of the AFI.
*/
Name?: String;
/**
* The description of the AFI.
*/
Description?: String;
/**
* The version of the AWS Shell that was used to create the bitstream.
*/
ShellVersion?: String;
/**
* Information about the PCI bus.
*/
PciId?: PciId;
/**
* Information about the state of the AFI.
*/
State?: FpgaImageState;
/**
* The date and time the AFI was created.
*/
CreateTime?: DateTime;
/**
* The time of the most recent update to the AFI.
*/
UpdateTime?: DateTime;
/**
* The AWS account ID of the AFI owner.
*/
OwnerId?: String;
/**
* The alias of the AFI owner. Possible values include self, amazon, and aws-marketplace.
*/
OwnerAlias?: String;
/**
* The product codes for the AFI.
*/
ProductCodes?: ProductCodeList;
/**
* Any tags assigned to the AFI.
*/
Tags?: TagList;
/**
* Indicates whether the AFI is public.
*/
Public?: Boolean;
/**
* Indicates whether data retention support is enabled for the AFI.
*/
DataRetentionSupport?: Boolean;
}
export interface FpgaImageAttribute {
/**
* The ID of the AFI.
*/
FpgaImageId?: String;
/**
* The name of the AFI.
*/
Name?: String;
/**
* The description of the AFI.
*/
Description?: String;
/**
* The load permissions.
*/
LoadPermissions?: LoadPermissionList;
/**
* The product codes.
*/
ProductCodes?: ProductCodeList;
}
export type FpgaImageAttributeName = "description"|"name"|"loadPermission"|"productCodes"|string;
export type FpgaImageId = string;
export type FpgaImageIdList = String[];
export type FpgaImageList = FpgaImage[];
export interface FpgaImageState {
/**
* The state. The following are the possible values: pending - AFI bitstream generation is in progress. available - The AFI is available for use. failed - AFI bitstream generation failed. unavailable - The AFI is no longer available for use.
*/
Code?: FpgaImageStateCode;
/**
* If the state is failed, this is the error message.
*/
Message?: String;
}
export type FpgaImageStateCode = "pending"|"failed"|"available"|"unavailable"|string;
export type GatewayType = "ipsec.1"|string;
export interface GetCapacityReservationUsageRequest {
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationId: CapacityReservationId;
/**
* The token to retrieve the next page of results.
*/
NextToken?: String;
/**
* The maximum number of results to return for the request in a single page. The remaining results can be seen by sending another request with the returned nextToken value. Valid range: Minimum value of 1. Maximum value of 1000.
*/
MaxResults?: GetCapacityReservationUsageRequestMaxResults;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export type GetCapacityReservationUsageRequestMaxResults = number;
export interface GetCapacityReservationUsageResult {
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationId?: String;
/**
* The type of instance for which the Capacity Reservation reserves capacity.
*/
InstanceType?: String;
/**
* The number of instances for which the Capacity Reservation reserves capacity.
*/
TotalInstanceCount?: Integer;
/**
* The remaining capacity. Indicates the number of instances that can be launched in the Capacity Reservation.
*/
AvailableInstanceCount?: Integer;
/**
* The current state of the Capacity Reservation. A Capacity Reservation can be in one of the following states: active - The Capacity Reservation is active and the capacity is available for your use. expired - The Capacity Reservation expired automatically at the date and time specified in your request. The reserved capacity is no longer available for your use. cancelled - The Capacity Reservation was manually cancelled. The reserved capacity is no longer available for your use. pending - The Capacity Reservation request was successful but the capacity provisioning is still pending. failed - The Capacity Reservation request has failed. A request might fail due to invalid request parameters, capacity constraints, or instance limit constraints. Failed requests are retained for 60 minutes.
*/
State?: CapacityReservationState;
/**
* Information about the Capacity Reservation usage.
*/
InstanceUsages?: InstanceUsageSet;
}
export interface GetConsoleOutputRequest {
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* When enabled, retrieves the latest console output for the instance. Default: disabled (false)
*/
Latest?: Boolean;
}
export interface GetConsoleOutputResult {
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The console output, base64-encoded. If you are using a command line tool, the tool decodes the output for you.
*/
Output?: String;
/**
* The time at which the output was last updated.
*/
Timestamp?: DateTime;
}
export interface GetConsoleScreenshotRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* When set to true, acts as keystroke input and wakes up an instance that's in standby or "sleep" mode.
*/
WakeUp?: Boolean;
}
export interface GetConsoleScreenshotResult {
/**
* The data that comprises the image.
*/
ImageData?: String;
/**
* The ID of the instance.
*/
InstanceId?: String;
}
export interface GetEbsDefaultKmsKeyIdRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface GetEbsDefaultKmsKeyIdResult {
/**
* The Amazon Resource Name (ARN) of the default CMK for encryption by default.
*/
KmsKeyId?: String;
}
export interface GetEbsEncryptionByDefaultRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface GetEbsEncryptionByDefaultResult {
/**
* Indicates whether encryption by default is enabled.
*/
EbsEncryptionByDefault?: Boolean;
}
export interface GetHostReservationPurchasePreviewRequest {
/**
* The IDs of the Dedicated Hosts with which the reservation is associated.
*/
HostIdSet: RequestHostIdSet;
/**
* The offering ID of the reservation.
*/
OfferingId: OfferingId;
}
export interface GetHostReservationPurchasePreviewResult {
/**
* The currency in which the totalUpfrontPrice and totalHourlyPrice amounts are specified. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The purchase information of the Dedicated Host reservation and the Dedicated Hosts associated with it.
*/
Purchase?: PurchaseSet;
/**
* The potential total hourly price of the reservation per hour.
*/
TotalHourlyPrice?: String;
/**
* The potential total upfront price. This is billed immediately.
*/
TotalUpfrontPrice?: String;
}
export interface GetLaunchTemplateDataRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
}
export interface GetLaunchTemplateDataResult {
/**
* The instance data.
*/
LaunchTemplateData?: ResponseLaunchTemplateData;
}
export interface GetPasswordDataRequest {
/**
* The ID of the Windows instance.
*/
InstanceId: InstanceId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface GetPasswordDataResult {
/**
* The ID of the Windows instance.
*/
InstanceId?: String;
/**
* The password of the instance. Returns an empty string if the password is not available.
*/
PasswordData?: String;
/**
* The time the data was last updated.
*/
Timestamp?: DateTime;
}
export interface GetReservedInstancesExchangeQuoteRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The IDs of the Convertible Reserved Instances to exchange.
*/
ReservedInstanceIds: ReservedInstanceIdSet;
/**
* The configuration of the target Convertible Reserved Instance to exchange for your current Convertible Reserved Instances.
*/
TargetConfigurations?: TargetConfigurationRequestSet;
}
export interface GetReservedInstancesExchangeQuoteResult {
/**
* The currency of the transaction.
*/
CurrencyCode?: String;
/**
* If true, the exchange is valid. If false, the exchange cannot be completed.
*/
IsValidExchange?: Boolean;
/**
* The new end date of the reservation term.
*/
OutputReservedInstancesWillExpireAt?: DateTime;
/**
* The total true upfront charge for the exchange.
*/
PaymentDue?: String;
/**
* The cost associated with the Reserved Instance.
*/
ReservedInstanceValueRollup?: ReservationValue;
/**
* The configuration of your Convertible Reserved Instances.
*/
ReservedInstanceValueSet?: ReservedInstanceReservationValueSet;
/**
* The cost associated with the Reserved Instance.
*/
TargetConfigurationValueRollup?: ReservationValue;
/**
* The values of the target Convertible Reserved Instances.
*/
TargetConfigurationValueSet?: TargetReservationValueSet;
/**
* Describes the reason why the exchange cannot be completed.
*/
ValidationFailureReason?: String;
}
export interface GetTransitGatewayAttachmentPropagationsRequest {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* One or more filters. The possible values are: transit-gateway-route-table-id - The ID of the transit gateway route table.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface GetTransitGatewayAttachmentPropagationsResult {
/**
* Information about the propagation route tables.
*/
TransitGatewayAttachmentPropagations?: TransitGatewayAttachmentPropagationList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface GetTransitGatewayRouteTableAssociationsRequest {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* One or more filters. The possible values are: resource-id - The ID of the resource. resource-type - The resource type (vpc | vpn). transit-gateway-attachment-id - The ID of the attachment.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface GetTransitGatewayRouteTableAssociationsResult {
/**
* Information about the associations.
*/
Associations?: TransitGatewayRouteTableAssociationList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export interface GetTransitGatewayRouteTablePropagationsRequest {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* One or more filters. The possible values are: resource-id - The ID of the resource. resource-type - The resource type (vpc | vpn). transit-gateway-attachment-id - The ID of the attachment.
*/
Filters?: FilterList;
/**
* The maximum number of results to return with a single call. To retrieve the remaining results, make another call with the returned nextToken value.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* The token for the next page of results.
*/
NextToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface GetTransitGatewayRouteTablePropagationsResult {
/**
* Information about the route table propagations.
*/
TransitGatewayRouteTablePropagations?: TransitGatewayRouteTablePropagationList;
/**
* The token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type GroupIdStringList = String[];
export interface GroupIdentifier {
/**
* The name of the security group.
*/
GroupName?: String;
/**
* The ID of the security group.
*/
GroupId?: String;
}
export type GroupIdentifierList = GroupIdentifier[];
export type GroupIdentifierSet = SecurityGroupIdentifier[];
export type GroupIds = String[];
export type GroupNameStringList = String[];
export interface HibernationOptions {
/**
* If this parameter is set to true, your instance is enabled for hibernation; otherwise, it is not enabled for hibernation.
*/
Configured?: Boolean;
}
export interface HibernationOptionsRequest {
/**
* If you set this parameter to true, your instance is enabled for hibernation. Default: false
*/
Configured?: Boolean;
}
export interface HistoryRecord {
/**
* Information about the event.
*/
EventInformation?: EventInformation;
/**
* The event type. error - An error with the Spot Fleet request. fleetRequestChange - A change in the status or configuration of the Spot Fleet request. instanceChange - An instance was launched or terminated. Information - An informational event.
*/
EventType?: EventType;
/**
* The date and time of the event, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
Timestamp?: DateTime;
}
export interface HistoryRecordEntry {
/**
* Information about the event.
*/
EventInformation?: EventInformation;
/**
* The event type.
*/
EventType?: FleetEventType;
/**
* The date and time of the event, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
Timestamp?: DateTime;
}
export type HistoryRecordSet = HistoryRecordEntry[];
export type HistoryRecords = HistoryRecord[];
export interface Host {
/**
* Whether auto-placement is on or off.
*/
AutoPlacement?: AutoPlacement;
/**
* The Availability Zone of the Dedicated Host.
*/
AvailabilityZone?: String;
/**
* The number of new instances that can be launched onto the Dedicated Host.
*/
AvailableCapacity?: AvailableCapacity;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* The ID of the Dedicated Host.
*/
HostId?: String;
/**
* The hardware specifications of the Dedicated Host.
*/
HostProperties?: HostProperties;
/**
* The reservation ID of the Dedicated Host. This returns a null response if the Dedicated Host doesn't have an associated reservation.
*/
HostReservationId?: String;
/**
* The IDs and instance type that are currently running on the Dedicated Host.
*/
Instances?: HostInstanceList;
/**
* The Dedicated Host's state.
*/
State?: AllocationState;
/**
* The time that the Dedicated Host was allocated.
*/
AllocationTime?: DateTime;
/**
* The time that the Dedicated Host was released.
*/
ReleaseTime?: DateTime;
/**
* Any tags assigned to the Dedicated Host.
*/
Tags?: TagList;
/**
* Indicates whether host recovery is enabled or disabled for the Dedicated Host.
*/
HostRecovery?: HostRecovery;
}
export type HostId = string;
export interface HostInstance {
/**
* the IDs of instances that are running on the Dedicated Host.
*/
InstanceId?: String;
/**
* The instance type size (for example, m3.medium) of the running instance.
*/
InstanceType?: String;
}
export type HostInstanceList = HostInstance[];
export type HostList = Host[];
export interface HostOffering {
/**
* The currency of the offering.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The duration of the offering (in seconds).
*/
Duration?: Integer;
/**
* The hourly price of the offering.
*/
HourlyPrice?: String;
/**
* The instance family of the offering.
*/
InstanceFamily?: String;
/**
* The ID of the offering.
*/
OfferingId?: String;
/**
* The available payment option.
*/
PaymentOption?: PaymentOption;
/**
* The upfront price of the offering. Does not apply to No Upfront offerings.
*/
UpfrontPrice?: String;
}
export type HostOfferingSet = HostOffering[];
export interface HostProperties {
/**
* The number of cores on the Dedicated Host.
*/
Cores?: Integer;
/**
* The instance type size that the Dedicated Host supports (for example, m3.medium).
*/
InstanceType?: String;
/**
* The number of sockets on the Dedicated Host.
*/
Sockets?: Integer;
/**
* The number of vCPUs on the Dedicated Host.
*/
TotalVCpus?: Integer;
}
export type HostRecovery = "on"|"off"|string;
export interface HostReservation {
/**
* The number of Dedicated Hosts the reservation is associated with.
*/
Count?: Integer;
/**
* The currency in which the upfrontPrice and hourlyPrice amounts are specified. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The length of the reservation's term, specified in seconds. Can be 31536000 (1 year) | 94608000 (3 years).
*/
Duration?: Integer;
/**
* The date and time that the reservation ends.
*/
End?: DateTime;
/**
* The IDs of the Dedicated Hosts associated with the reservation.
*/
HostIdSet?: ResponseHostIdSet;
/**
* The ID of the reservation that specifies the associated Dedicated Hosts.
*/
HostReservationId?: String;
/**
* The hourly price of the reservation.
*/
HourlyPrice?: String;
/**
* The instance family of the Dedicated Host Reservation. The instance family on the Dedicated Host must be the same in order for it to benefit from the reservation.
*/
InstanceFamily?: String;
/**
* The ID of the reservation. This remains the same regardless of which Dedicated Hosts are associated with it.
*/
OfferingId?: String;
/**
* The payment option selected for this reservation.
*/
PaymentOption?: PaymentOption;
/**
* The date and time that the reservation started.
*/
Start?: DateTime;
/**
* The state of the reservation.
*/
State?: ReservationState;
/**
* The upfront price of the reservation.
*/
UpfrontPrice?: String;
/**
* Any tags assigned to the Dedicated Host Reservation.
*/
Tags?: TagList;
}
export type HostReservationIdSet = String[];
export type HostReservationSet = HostReservation[];
export type HostTenancy = "dedicated"|"host"|string;
export type HypervisorType = "ovm"|"xen"|string;
export type IKEVersionsList = IKEVersionsListValue[];
export interface IKEVersionsListValue {
/**
* The IKE version.
*/
Value?: String;
}
export type IKEVersionsRequestList = IKEVersionsRequestListValue[];
export interface IKEVersionsRequestListValue {
/**
* The IKE version.
*/
Value?: String;
}
export interface IamInstanceProfile {
/**
* The Amazon Resource Name (ARN) of the instance profile.
*/
Arn?: String;
/**
* The ID of the instance profile.
*/
Id?: String;
}
export interface IamInstanceProfileAssociation {
/**
* The ID of the association.
*/
AssociationId?: String;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: IamInstanceProfile;
/**
* The state of the association.
*/
State?: IamInstanceProfileAssociationState;
/**
* The time the IAM instance profile was associated with the instance.
*/
Timestamp?: DateTime;
}
export type IamInstanceProfileAssociationSet = IamInstanceProfileAssociation[];
export type IamInstanceProfileAssociationState = "associating"|"associated"|"disassociating"|"disassociated"|string;
export interface IamInstanceProfileSpecification {
/**
* The Amazon Resource Name (ARN) of the instance profile.
*/
Arn?: String;
/**
* The name of the instance profile.
*/
Name?: String;
}
export interface IcmpTypeCode {
/**
* The ICMP code. A value of -1 means all codes for the specified ICMP type.
*/
Code?: Integer;
/**
* The ICMP type. A value of -1 means all types.
*/
Type?: Integer;
}
export interface IdFormat {
/**
* The date in UTC at which you are permanently switched over to using longer IDs. If a deadline is not yet available for this resource type, this field is not returned.
*/
Deadline?: DateTime;
/**
* The type of resource.
*/
Resource?: String;
/**
* Indicates whether longer IDs (17-character IDs) are enabled for the resource.
*/
UseLongIds?: Boolean;
}
export type IdFormatList = IdFormat[];
export interface Image {
/**
* The architecture of the image.
*/
Architecture?: ArchitectureValues;
/**
* The date and time the image was created.
*/
CreationDate?: String;
/**
* The ID of the AMI.
*/
ImageId?: String;
/**
* The location of the AMI.
*/
ImageLocation?: String;
/**
* The type of image.
*/
ImageType?: ImageTypeValues;
/**
* Indicates whether the image has public launch permissions. The value is true if this image has public launch permissions or false if it has only implicit and explicit launch permissions.
*/
Public?: Boolean;
/**
* The kernel associated with the image, if any. Only applicable for machine images.
*/
KernelId?: String;
/**
* The AWS account ID of the image owner.
*/
OwnerId?: String;
/**
* This value is set to windows for Windows AMIs; otherwise, it is blank.
*/
Platform?: PlatformValues;
/**
* Any product codes associated with the AMI.
*/
ProductCodes?: ProductCodeList;
/**
* The RAM disk associated with the image, if any. Only applicable for machine images.
*/
RamdiskId?: String;
/**
* The current state of the AMI. If the state is available, the image is successfully registered and can be used to launch an instance.
*/
State?: ImageState;
/**
* Any block device mapping entries.
*/
BlockDeviceMappings?: BlockDeviceMappingList;
/**
* The description of the AMI that was provided during image creation.
*/
Description?: String;
/**
* Specifies whether enhanced networking with ENA is enabled.
*/
EnaSupport?: Boolean;
/**
* The hypervisor type of the image.
*/
Hypervisor?: HypervisorType;
/**
* The AWS account alias (for example, amazon, self) or the AWS account ID of the AMI owner.
*/
ImageOwnerAlias?: String;
/**
* The name of the AMI that was provided during image creation.
*/
Name?: String;
/**
* The device name of the root device volume (for example, /dev/sda1).
*/
RootDeviceName?: String;
/**
* The type of root device used by the AMI. The AMI can use an EBS volume or an instance store volume.
*/
RootDeviceType?: DeviceType;
/**
* Specifies whether enhanced networking with the Intel 82599 Virtual Function interface is enabled.
*/
SriovNetSupport?: String;
/**
* The reason for the state change.
*/
StateReason?: StateReason;
/**
* Any tags assigned to the image.
*/
Tags?: TagList;
/**
* The type of virtualization of the AMI.
*/
VirtualizationType?: VirtualizationType;
}
export interface ImageAttribute {
/**
* The block device mapping entries.
*/
BlockDeviceMappings?: BlockDeviceMappingList;
/**
* The ID of the AMI.
*/
ImageId?: String;
/**
* The launch permissions.
*/
LaunchPermissions?: LaunchPermissionList;
/**
* The product codes.
*/
ProductCodes?: ProductCodeList;
/**
* A description for the AMI.
*/
Description?: AttributeValue;
/**
* The kernel ID.
*/
KernelId?: AttributeValue;
/**
* The RAM disk ID.
*/
RamdiskId?: AttributeValue;
/**
* Indicates whether enhanced networking with the Intel 82599 Virtual Function interface is enabled.
*/
SriovNetSupport?: AttributeValue;
}
export type ImageAttributeName = "description"|"kernel"|"ramdisk"|"launchPermission"|"productCodes"|"blockDeviceMapping"|"sriovNetSupport"|string;
export interface ImageDiskContainer {
/**
* The description of the disk image.
*/
Description?: String;
/**
* The block device mapping for the disk.
*/
DeviceName?: String;
/**
* The format of the disk image being imported. Valid values: VHD | VMDK | OVA
*/
Format?: String;
/**
* The ID of the EBS snapshot to be used for importing the snapshot.
*/
SnapshotId?: String;
/**
* The URL to the Amazon S3-based disk image being imported. The URL can either be a https URL (https://..) or an Amazon S3 URL (s3://..)
*/
Url?: String;
/**
* The S3 bucket for the disk image.
*/
UserBucket?: UserBucket;
}
export type ImageDiskContainerList = ImageDiskContainer[];
export type ImageId = string;
export type ImageIdStringList = String[];
export type ImageList = Image[];
export type ImageState = "pending"|"available"|"invalid"|"deregistered"|"transient"|"failed"|"error"|string;
export type ImageTypeValues = "machine"|"kernel"|"ramdisk"|string;
export interface ImportClientVpnClientCertificateRevocationListRequest {
/**
* The ID of the Client VPN endpoint to which the client certificate revocation list applies.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The client certificate revocation list file. For more information, see Generate a Client Certificate Revocation List in the AWS Client VPN Administrator Guide.
*/
CertificateRevocationList: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ImportClientVpnClientCertificateRevocationListResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface ImportImageRequest {
/**
* The architecture of the virtual machine. Valid values: i386 | x86_64 | arm64
*/
Architecture?: String;
/**
* The client-specific data.
*/
ClientData?: ClientData;
/**
* The token to enable idempotency for VM import requests.
*/
ClientToken?: String;
/**
* A description string for the import image task.
*/
Description?: String;
/**
* Information about the disk containers.
*/
DiskContainers?: ImageDiskContainerList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Specifies whether the destination AMI of the imported image should be encrypted. The default CMK for EBS is used unless you specify a non-default AWS Key Management Service (AWS KMS) CMK using KmsKeyId. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
Encrypted?: Boolean;
/**
* The target hypervisor platform. Valid values: xen
*/
Hypervisor?: String;
/**
* An identifier for the AWS Key Management Service (AWS KMS) customer master key (CMK) to use when creating the encrypted AMI. This parameter is only required if you want to use a non-default CMK; if this parameter is not specified, the default CMK for EBS is used. If a KmsKeyId is specified, the Encrypted flag must also be set. The CMK identifier may be provided in any of the following formats: Key ID Key alias. The alias ARN contains the arn:aws:kms namespace, followed by the Region of the CMK, the AWS account ID of the CMK owner, the alias namespace, and then the CMK alias. For example, arn:aws:kms:us-east-1:012345678910:alias/ExampleAlias. ARN using key ID. The ID ARN contains the arn:aws:kms namespace, followed by the Region of the CMK, the AWS account ID of the CMK owner, the key namespace, and then the CMK ID. For example, arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef. ARN using key alias. The alias ARN contains the arn:aws:kms namespace, followed by the Region of the CMK, the AWS account ID of the CMK owner, the alias namespace, and then the CMK alias. For example, arn:aws:kms:us-east-1:012345678910:alias/ExampleAlias. AWS parses KmsKeyId asynchronously, meaning that the action you call may appear to complete even though you provided an invalid identifier. This action will eventually report failure. The specified CMK must exist in the Region that the AMI is being copied to.
*/
KmsKeyId?: KmsKeyId;
/**
* The license type to be used for the Amazon Machine Image (AMI) after importing. By default, we detect the source-system operating system (OS) and apply the appropriate license. Specify AWS to replace the source-system license with an AWS license, if appropriate. Specify BYOL to retain the source-system license, if appropriate. To use BYOL, you must have existing licenses with rights to use these licenses in a third party cloud, such as AWS. For more information, see Prerequisites in the VM Import/Export User Guide.
*/
LicenseType?: String;
/**
* The operating system of the virtual machine. Valid values: Windows | Linux
*/
Platform?: String;
/**
* The name of the role to use when not using the default role, 'vmimport'.
*/
RoleName?: String;
}
export interface ImportImageResult {
/**
* The architecture of the virtual machine.
*/
Architecture?: String;
/**
* A description of the import task.
*/
Description?: String;
/**
* Indicates whether the AMI is encypted.
*/
Encrypted?: Boolean;
/**
* The target hypervisor of the import task.
*/
Hypervisor?: String;
/**
* The ID of the Amazon Machine Image (AMI) created by the import task.
*/
ImageId?: String;
/**
* The task ID of the import image task.
*/
ImportTaskId?: String;
/**
* The identifier for the AWS Key Management Service (AWS KMS) customer master key (CMK) that was used to create the encrypted AMI.
*/
KmsKeyId?: String;
/**
* The license type of the virtual machine.
*/
LicenseType?: String;
/**
* The operating system of the virtual machine.
*/
Platform?: String;
/**
* The progress of the task.
*/
Progress?: String;
/**
* Information about the snapshots.
*/
SnapshotDetails?: SnapshotDetailList;
/**
* A brief status of the task.
*/
Status?: String;
/**
* A detailed status message of the import task.
*/
StatusMessage?: String;
}
export interface ImportImageTask {
/**
* The architecture of the virtual machine. Valid values: i386 | x86_64 | arm64
*/
Architecture?: String;
/**
* A description of the import task.
*/
Description?: String;
/**
* Indicates whether the image is encrypted.
*/
Encrypted?: Boolean;
/**
* The target hypervisor for the import task. Valid values: xen
*/
Hypervisor?: String;
/**
* The ID of the Amazon Machine Image (AMI) of the imported virtual machine.
*/
ImageId?: String;
/**
* The ID of the import image task.
*/
ImportTaskId?: String;
/**
* The identifier for the AWS Key Management Service (AWS KMS) customer master key (CMK) that was used to create the encrypted image.
*/
KmsKeyId?: String;
/**
* The license type of the virtual machine.
*/
LicenseType?: String;
/**
* The description string for the import image task.
*/
Platform?: String;
/**
* The percentage of progress of the import image task.
*/
Progress?: String;
/**
* Information about the snapshots.
*/
SnapshotDetails?: SnapshotDetailList;
/**
* A brief status for the import image task.
*/
Status?: String;
/**
* A descriptive status message for the import image task.
*/
StatusMessage?: String;
}
export type ImportImageTaskList = ImportImageTask[];
export interface ImportInstanceLaunchSpecification {
/**
* Reserved.
*/
AdditionalInfo?: String;
/**
* The architecture of the instance.
*/
Architecture?: ArchitectureValues;
/**
* The security group IDs.
*/
GroupIds?: SecurityGroupIdStringList;
/**
* The security group names.
*/
GroupNames?: SecurityGroupStringList;
/**
* Indicates whether an instance stops or terminates when you initiate shutdown from the instance (using the operating system command for system shutdown).
*/
InstanceInitiatedShutdownBehavior?: ShutdownBehavior;
/**
* The instance type. For more information about the instance types that you can import, see Instance Types in the VM Import/Export User Guide.
*/
InstanceType?: InstanceType;
/**
* Indicates whether monitoring is enabled.
*/
Monitoring?: Boolean;
/**
* The placement information for the instance.
*/
Placement?: Placement;
/**
* [EC2-VPC] An available IP address from the IP address range of the subnet.
*/
PrivateIpAddress?: String;
/**
* [EC2-VPC] The ID of the subnet in which to launch the instance.
*/
SubnetId?: String;
/**
* The Base64-encoded user data to make available to the instance.
*/
UserData?: UserData;
}
export interface ImportInstanceRequest {
/**
* A description for the instance being imported.
*/
Description?: String;
/**
* The disk image.
*/
DiskImages?: DiskImageList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The launch specification.
*/
LaunchSpecification?: ImportInstanceLaunchSpecification;
/**
* The instance operating system.
*/
Platform: PlatformValues;
}
export interface ImportInstanceResult {
/**
* Information about the conversion task.
*/
ConversionTask?: ConversionTask;
}
export interface ImportInstanceTaskDetails {
/**
* A description of the task.
*/
Description?: String;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The instance operating system.
*/
Platform?: PlatformValues;
/**
* The volumes.
*/
Volumes?: ImportInstanceVolumeDetailSet;
}
export interface ImportInstanceVolumeDetailItem {
/**
* The Availability Zone where the resulting instance will reside.
*/
AvailabilityZone?: String;
/**
* The number of bytes converted so far.
*/
BytesConverted?: Long;
/**
* A description of the task.
*/
Description?: String;
/**
* The image.
*/
Image?: DiskImageDescription;
/**
* The status of the import of this particular disk image.
*/
Status?: String;
/**
* The status information or errors related to the disk image.
*/
StatusMessage?: String;
/**
* The volume.
*/
Volume?: DiskImageVolumeDescription;
}
export type ImportInstanceVolumeDetailSet = ImportInstanceVolumeDetailItem[];
export interface ImportKeyPairRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* A unique name for the key pair.
*/
KeyName: String;
/**
* The public key. For API calls, the text must be base64-encoded. For command line tools, base64 encoding is performed for you.
*/
PublicKeyMaterial: _Blob;
}
export interface ImportKeyPairResult {
/**
* The MD5 public key fingerprint as specified in section 4 of RFC 4716.
*/
KeyFingerprint?: String;
/**
* The key pair name you provided.
*/
KeyName?: String;
}
export interface ImportSnapshotRequest {
/**
* The client-specific data.
*/
ClientData?: ClientData;
/**
* Token to enable idempotency for VM import requests.
*/
ClientToken?: String;
/**
* The description string for the import snapshot task.
*/
Description?: String;
/**
* Information about the disk container.
*/
DiskContainer?: SnapshotDiskContainer;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Specifies whether the destination snapshot of the imported image should be encrypted. The default CMK for EBS is used unless you specify a non-default AWS Key Management Service (AWS KMS) CMK using KmsKeyId. For more information, see Amazon EBS Encryption in the Amazon Elastic Compute Cloud User Guide.
*/
Encrypted?: Boolean;
/**
* An identifier for the AWS Key Management Service (AWS KMS) customer master key (CMK) to use when creating the encrypted snapshot. This parameter is only required if you want to use a non-default CMK; if this parameter is not specified, the default CMK for EBS is used. If a KmsKeyId is specified, the Encrypted flag must also be set. The CMK identifier may be provided in any of the following formats: Key ID Key alias. The alias ARN contains the arn:aws:kms namespace, followed by the Region of the CMK, the AWS account ID of the CMK owner, the alias namespace, and then the CMK alias. For example, arn:aws:kms:us-east-1:012345678910:alias/ExampleAlias. ARN using key ID. The ID ARN contains the arn:aws:kms namespace, followed by the Region of the CMK, the AWS account ID of the CMK owner, the key namespace, and then the CMK ID. For example, arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef. ARN using key alias. The alias ARN contains the arn:aws:kms namespace, followed by the Region of the CMK, the AWS account ID of the CMK owner, the alias namespace, and then the CMK alias. For example, arn:aws:kms:us-east-1:012345678910:alias/ExampleAlias. AWS parses KmsKeyId asynchronously, meaning that the action you call may appear to complete even though you provided an invalid identifier. This action will eventually report failure. The specified CMK must exist in the Region that the snapshot is being copied to.
*/
KmsKeyId?: KmsKeyId;
/**
* The name of the role to use when not using the default role, 'vmimport'.
*/
RoleName?: String;
}
export interface ImportSnapshotResult {
/**
* A description of the import snapshot task.
*/
Description?: String;
/**
* The ID of the import snapshot task.
*/
ImportTaskId?: String;
/**
* Information about the import snapshot task.
*/
SnapshotTaskDetail?: SnapshotTaskDetail;
}
export interface ImportSnapshotTask {
/**
* A description of the import snapshot task.
*/
Description?: String;
/**
* The ID of the import snapshot task.
*/
ImportTaskId?: String;
/**
* Describes an import snapshot task.
*/
SnapshotTaskDetail?: SnapshotTaskDetail;
}
export type ImportSnapshotTaskList = ImportSnapshotTask[];
export type ImportTaskId = string;
export type ImportTaskIdList = String[];
export interface ImportVolumeRequest {
/**
* The Availability Zone for the resulting EBS volume.
*/
AvailabilityZone: String;
/**
* A description of the volume.
*/
Description?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The disk image.
*/
Image: DiskImageDetail;
/**
* The volume size.
*/
Volume: VolumeDetail;
}
export interface ImportVolumeResult {
/**
* Information about the conversion task.
*/
ConversionTask?: ConversionTask;
}
export interface ImportVolumeTaskDetails {
/**
* The Availability Zone where the resulting volume will reside.
*/
AvailabilityZone?: String;
/**
* The number of bytes converted so far.
*/
BytesConverted?: Long;
/**
* The description you provided when starting the import volume task.
*/
Description?: String;
/**
* The image.
*/
Image?: DiskImageDescription;
/**
* The volume.
*/
Volume?: DiskImageVolumeDescription;
}
export interface Instance {
/**
* The AMI launch index, which can be used to find this instance in the launch group.
*/
AmiLaunchIndex?: Integer;
/**
* The ID of the AMI used to launch the instance.
*/
ImageId?: String;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The kernel associated with this instance, if applicable.
*/
KernelId?: String;
/**
* The name of the key pair, if this instance was launched with an associated key pair.
*/
KeyName?: String;
/**
* The time the instance was launched.
*/
LaunchTime?: DateTime;
/**
* The monitoring for the instance.
*/
Monitoring?: Monitoring;
/**
* The location where the instance launched, if applicable.
*/
Placement?: Placement;
/**
* The value is Windows for Windows instances; otherwise blank.
*/
Platform?: PlatformValues;
/**
* (IPv4 only) The private DNS hostname name assigned to the instance. This DNS hostname can only be used inside the Amazon EC2 network. This name is not available until the instance enters the running state. [EC2-VPC] The Amazon-provided DNS server resolves Amazon-provided private DNS hostnames if you've enabled DNS resolution and DNS hostnames in your VPC. If you are not using the Amazon-provided DNS server in your VPC, your custom domain name servers must resolve the hostname as appropriate.
*/
PrivateDnsName?: String;
/**
* The private IPv4 address assigned to the instance.
*/
PrivateIpAddress?: String;
/**
* The product codes attached to this instance, if applicable.
*/
ProductCodes?: ProductCodeList;
/**
* (IPv4 only) The public DNS name assigned to the instance. This name is not available until the instance enters the running state. For EC2-VPC, this name is only available if you've enabled DNS hostnames for your VPC.
*/
PublicDnsName?: String;
/**
* The public IPv4 address assigned to the instance, if applicable.
*/
PublicIpAddress?: String;
/**
* The RAM disk associated with this instance, if applicable.
*/
RamdiskId?: String;
/**
* The current state of the instance.
*/
State?: InstanceState;
/**
* The reason for the most recent state transition. This might be an empty string.
*/
StateTransitionReason?: String;
/**
* [EC2-VPC] The ID of the subnet in which the instance is running.
*/
SubnetId?: String;
/**
* [EC2-VPC] The ID of the VPC in which the instance is running.
*/
VpcId?: String;
/**
* The architecture of the image.
*/
Architecture?: ArchitectureValues;
/**
* Any block device mapping entries for the instance.
*/
BlockDeviceMappings?: InstanceBlockDeviceMappingList;
/**
* The idempotency token you provided when you launched the instance, if applicable.
*/
ClientToken?: String;
/**
* Indicates whether the instance is optimized for Amazon EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS Optimized instance.
*/
EbsOptimized?: Boolean;
/**
* Specifies whether enhanced networking with ENA is enabled.
*/
EnaSupport?: Boolean;
/**
* The hypervisor type of the instance.
*/
Hypervisor?: HypervisorType;
/**
* The IAM instance profile associated with the instance, if applicable.
*/
IamInstanceProfile?: IamInstanceProfile;
/**
* Indicates whether this is a Spot Instance or a Scheduled Instance.
*/
InstanceLifecycle?: InstanceLifecycleType;
/**
* The Elastic GPU associated with the instance.
*/
ElasticGpuAssociations?: ElasticGpuAssociationList;
/**
* The elastic inference accelerator associated with the instance.
*/
ElasticInferenceAcceleratorAssociations?: ElasticInferenceAcceleratorAssociationList;
/**
* [EC2-VPC] The network interfaces for the instance.
*/
NetworkInterfaces?: InstanceNetworkInterfaceList;
/**
* The device name of the root device volume (for example, /dev/sda1).
*/
RootDeviceName?: String;
/**
* The root device type used by the AMI. The AMI can use an EBS volume or an instance store volume.
*/
RootDeviceType?: DeviceType;
/**
* The security groups for the instance.
*/
SecurityGroups?: GroupIdentifierList;
/**
* Specifies whether to enable an instance launched in a VPC to perform NAT. This controls whether source/destination checking is enabled on the instance. A value of true means that checking is enabled, and false means that checking is disabled. The value must be false for the instance to perform NAT. For more information, see NAT Instances in the Amazon Virtual Private Cloud User Guide.
*/
SourceDestCheck?: Boolean;
/**
* If the request is a Spot Instance request, the ID of the request.
*/
SpotInstanceRequestId?: String;
/**
* Specifies whether enhanced networking with the Intel 82599 Virtual Function interface is enabled.
*/
SriovNetSupport?: String;
/**
* The reason for the most recent state transition.
*/
StateReason?: StateReason;
/**
* Any tags assigned to the instance.
*/
Tags?: TagList;
/**
* The virtualization type of the instance.
*/
VirtualizationType?: VirtualizationType;
/**
* The CPU options for the instance.
*/
CpuOptions?: CpuOptions;
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationId?: String;
/**
* Information about the Capacity Reservation targeting option.
*/
CapacityReservationSpecification?: CapacityReservationSpecificationResponse;
/**
* Indicates whether the instance is enabled for hibernation.
*/
HibernationOptions?: HibernationOptions;
/**
* The license configurations.
*/
Licenses?: LicenseList;
}
export interface InstanceAttribute {
/**
* The security groups associated with the instance.
*/
Groups?: GroupIdentifierList;
/**
* The block device mapping of the instance.
*/
BlockDeviceMappings?: InstanceBlockDeviceMappingList;
/**
* If the value is true, you can't terminate the instance through the Amazon EC2 console, CLI, or API; otherwise, you can.
*/
DisableApiTermination?: AttributeBooleanValue;
/**
* Indicates whether enhanced networking with ENA is enabled.
*/
EnaSupport?: AttributeBooleanValue;
/**
* Indicates whether the instance is optimized for Amazon EBS I/O.
*/
EbsOptimized?: AttributeBooleanValue;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* Indicates whether an instance stops or terminates when you initiate shutdown from the instance (using the operating system command for system shutdown).
*/
InstanceInitiatedShutdownBehavior?: AttributeValue;
/**
* The instance type.
*/
InstanceType?: AttributeValue;
/**
* The kernel ID.
*/
KernelId?: AttributeValue;
/**
* A list of product codes.
*/
ProductCodes?: ProductCodeList;
/**
* The RAM disk ID.
*/
RamdiskId?: AttributeValue;
/**
* The device name of the root device volume (for example, /dev/sda1).
*/
RootDeviceName?: AttributeValue;
/**
* Indicates whether source/destination checking is enabled. A value of true means that checking is enabled, and false means that checking is disabled. This value must be false for a NAT instance to perform NAT.
*/
SourceDestCheck?: AttributeBooleanValue;
/**
* Indicates whether enhanced networking with the Intel 82599 Virtual Function interface is enabled.
*/
SriovNetSupport?: AttributeValue;
/**
* The user data.
*/
UserData?: AttributeValue;
}
export type InstanceAttributeName = "instanceType"|"kernel"|"ramdisk"|"userData"|"disableApiTermination"|"instanceInitiatedShutdownBehavior"|"rootDeviceName"|"blockDeviceMapping"|"productCodes"|"sourceDestCheck"|"groupSet"|"ebsOptimized"|"sriovNetSupport"|"enaSupport"|string;
export interface InstanceBlockDeviceMapping {
/**
* The device name (for example, /dev/sdh or xvdh).
*/
DeviceName?: String;
/**
* Parameters used to automatically set up EBS volumes when the instance is launched.
*/
Ebs?: EbsInstanceBlockDevice;
}
export type InstanceBlockDeviceMappingList = InstanceBlockDeviceMapping[];
export interface InstanceBlockDeviceMappingSpecification {
/**
* The device name (for example, /dev/sdh or xvdh).
*/
DeviceName?: String;
/**
* Parameters used to automatically set up EBS volumes when the instance is launched.
*/
Ebs?: EbsInstanceBlockDeviceSpecification;
/**
* suppress the specified device included in the block device mapping.
*/
NoDevice?: String;
/**
* The virtual device name.
*/
VirtualName?: String;
}
export type InstanceBlockDeviceMappingSpecificationList = InstanceBlockDeviceMappingSpecification[];
export interface InstanceCapacity {
/**
* The number of instances that can still be launched onto the Dedicated Host.
*/
AvailableCapacity?: Integer;
/**
* The instance type size supported by the Dedicated Host.
*/
InstanceType?: String;
/**
* The total number of instances that can be launched onto the Dedicated Host.
*/
TotalCapacity?: Integer;
}
export interface InstanceCount {
/**
* The number of listed Reserved Instances in the state specified by the state.
*/
InstanceCount?: Integer;
/**
* The states of the listed Reserved Instances.
*/
State?: ListingState;
}
export type InstanceCountList = InstanceCount[];
export interface InstanceCreditSpecification {
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The credit option for CPU usage of the instance. Valid values are standard and unlimited.
*/
CpuCredits?: String;
}
export type InstanceCreditSpecificationList = InstanceCreditSpecification[];
export type InstanceCreditSpecificationListRequest = InstanceCreditSpecificationRequest[];
export interface InstanceCreditSpecificationRequest {
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The credit option for CPU usage of the instance. Valid values are standard and unlimited.
*/
CpuCredits?: String;
}
export type InstanceEventId = string;
export interface InstanceExportDetails {
/**
* The ID of the resource being exported.
*/
InstanceId?: String;
/**
* The target virtualization environment.
*/
TargetEnvironment?: ExportEnvironment;
}
export type InstanceHealthStatus = "healthy"|"unhealthy"|string;
export type InstanceId = string;
export type InstanceIdSet = String[];
export type InstanceIdStringList = String[];
export type InstanceIdsSet = InstanceId[];
export type InstanceInterruptionBehavior = "hibernate"|"stop"|"terminate"|string;
export interface InstanceIpv6Address {
/**
* The IPv6 address.
*/
Ipv6Address?: String;
}
export type InstanceIpv6AddressList = InstanceIpv6Address[];
export type InstanceIpv6AddressListRequest = InstanceIpv6AddressRequest[];
export interface InstanceIpv6AddressRequest {
/**
* The IPv6 address.
*/
Ipv6Address?: String;
}
export type InstanceLifecycle = "spot"|"on-demand"|string;
export type InstanceLifecycleType = "spot"|"scheduled"|string;
export type InstanceList = Instance[];
export interface InstanceMarketOptionsRequest {
/**
* The market type.
*/
MarketType?: MarketType;
/**
* The options for Spot Instances.
*/
SpotOptions?: SpotMarketOptions;
}
export type InstanceMatchCriteria = "open"|"targeted"|string;
export interface InstanceMonitoring {
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The monitoring for the instance.
*/
Monitoring?: Monitoring;
}
export type InstanceMonitoringList = InstanceMonitoring[];
export interface InstanceNetworkInterface {
/**
* The association information for an Elastic IPv4 associated with the network interface.
*/
Association?: InstanceNetworkInterfaceAssociation;
/**
* The network interface attachment.
*/
Attachment?: InstanceNetworkInterfaceAttachment;
/**
* The description.
*/
Description?: String;
/**
* One or more security groups.
*/
Groups?: GroupIdentifierList;
/**
* One or more IPv6 addresses associated with the network interface.
*/
Ipv6Addresses?: InstanceIpv6AddressList;
/**
* The MAC address.
*/
MacAddress?: String;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The ID of the AWS account that created the network interface.
*/
OwnerId?: String;
/**
* The private DNS name.
*/
PrivateDnsName?: String;
/**
* The IPv4 address of the network interface within the subnet.
*/
PrivateIpAddress?: String;
/**
* One or more private IPv4 addresses associated with the network interface.
*/
PrivateIpAddresses?: InstancePrivateIpAddressList;
/**
* Indicates whether to validate network traffic to or from this network interface.
*/
SourceDestCheck?: Boolean;
/**
* The status of the network interface.
*/
Status?: NetworkInterfaceStatus;
/**
* The ID of the subnet.
*/
SubnetId?: String;
/**
* The ID of the VPC.
*/
VpcId?: String;
/**
* Describes the type of network interface. Valid values: interface | efa
*/
InterfaceType?: String;
}
export interface InstanceNetworkInterfaceAssociation {
/**
* The ID of the owner of the Elastic IP address.
*/
IpOwnerId?: String;
/**
* The public DNS name.
*/
PublicDnsName?: String;
/**
* The public IP address or Elastic IP address bound to the network interface.
*/
PublicIp?: String;
}
export interface InstanceNetworkInterfaceAttachment {
/**
* The time stamp when the attachment initiated.
*/
AttachTime?: DateTime;
/**
* The ID of the network interface attachment.
*/
AttachmentId?: String;
/**
* Indicates whether the network interface is deleted when the instance is terminated.
*/
DeleteOnTermination?: Boolean;
/**
* The index of the device on the instance for the network interface attachment.
*/
DeviceIndex?: Integer;
/**
* The attachment state.
*/
Status?: AttachmentStatus;
}
export type InstanceNetworkInterfaceList = InstanceNetworkInterface[];
export interface InstanceNetworkInterfaceSpecification {
/**
* Indicates whether to assign a public IPv4 address to an instance you launch in a VPC. The public IP address can only be assigned to a network interface for eth0, and can only be assigned to a new network interface, not an existing one. You cannot specify more than one network interface in the request. If launching into a default subnet, the default value is true.
*/
AssociatePublicIpAddress?: Boolean;
/**
* If set to true, the interface is deleted when the instance is terminated. You can specify true only if creating a new network interface when launching an instance.
*/
DeleteOnTermination?: Boolean;
/**
* The description of the network interface. Applies only if creating a network interface when launching an instance.
*/
Description?: String;
/**
* The position of the network interface in the attachment order. A primary network interface has a device index of 0. If you specify a network interface when launching an instance, you must specify the device index.
*/
DeviceIndex?: Integer;
/**
* The IDs of the security groups for the network interface. Applies only if creating a network interface when launching an instance.
*/
Groups?: SecurityGroupIdStringList;
/**
* A number of IPv6 addresses to assign to the network interface. Amazon EC2 chooses the IPv6 addresses from the range of the subnet. You cannot specify this option and the option to assign specific IPv6 addresses in the same request. You can specify this option if you've specified a minimum number of instances to launch.
*/
Ipv6AddressCount?: Integer;
/**
* One or more IPv6 addresses to assign to the network interface. You cannot specify this option and the option to assign a number of IPv6 addresses in the same request. You cannot specify this option if you've specified a minimum number of instances to launch.
*/
Ipv6Addresses?: InstanceIpv6AddressList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The private IPv4 address of the network interface. Applies only if creating a network interface when launching an instance. You cannot specify this option if you're launching more than one instance in a RunInstances request.
*/
PrivateIpAddress?: String;
/**
* One or more private IPv4 addresses to assign to the network interface. Only one private IPv4 address can be designated as primary. You cannot specify this option if you're launching more than one instance in a RunInstances request.
*/
PrivateIpAddresses?: PrivateIpAddressSpecificationList;
/**
* The number of secondary private IPv4 addresses. You can't specify this option and specify more than one private IP address using the private IP addresses option. You cannot specify this option if you're launching more than one instance in a RunInstances request.
*/
SecondaryPrivateIpAddressCount?: Integer;
/**
* The ID of the subnet associated with the network interface. Applies only if creating a network interface when launching an instance.
*/
SubnetId?: String;
/**
* The type of network interface. To create an Elastic Fabric Adapter (EFA), specify efa. For more information, see Elastic Fabric Adapter in the Amazon Elastic Compute Cloud User Guide. If you are not creating an EFA, specify interface or omit this parameter. Valid values: interface | efa
*/
InterfaceType?: String;
}
export type InstanceNetworkInterfaceSpecificationList = InstanceNetworkInterfaceSpecification[];
export interface InstancePrivateIpAddress {
/**
* The association information for an Elastic IP address for the network interface.
*/
Association?: InstanceNetworkInterfaceAssociation;
/**
* Indicates whether this IPv4 address is the primary private IP address of the network interface.
*/
Primary?: Boolean;
/**
* The private IPv4 DNS name.
*/
PrivateDnsName?: String;
/**
* The private IPv4 address of the network interface.
*/
PrivateIpAddress?: String;
}
export type InstancePrivateIpAddressList = InstancePrivateIpAddress[];
export interface InstanceSpecification {
/**
* The instance to specify which volumes should be snapshotted.
*/
InstanceId?: String;
/**
* Excludes the root volume from being snapshotted.
*/
ExcludeBootVolume?: Boolean;
}
export interface InstanceState {
/**
* The state of the instance as a 16-bit unsigned integer. The high byte is all of the bits between 2^8 and (2^16)-1, which equals decimal values between 256 and 65,535. These numerical values are used for internal purposes and should be ignored. The low byte is all of the bits between 2^0 and (2^8)-1, which equals decimal values between 0 and 255. The valid values for instance-state-code will all be in the range of the low byte and they are: 0 : pending 16 : running 32 : shutting-down 48 : terminated 64 : stopping 80 : stopped You can ignore the high byte value by zeroing out all of the bits above 2^8 or 256 in decimal.
*/
Code?: Integer;
/**
* The current state of the instance.
*/
Name?: InstanceStateName;
}
export interface InstanceStateChange {
/**
* The current state of the instance.
*/
CurrentState?: InstanceState;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The previous state of the instance.
*/
PreviousState?: InstanceState;
}
export type InstanceStateChangeList = InstanceStateChange[];
export type InstanceStateName = "pending"|"running"|"shutting-down"|"terminated"|"stopping"|"stopped"|string;
export interface InstanceStatus {
/**
* The Availability Zone of the instance.
*/
AvailabilityZone?: String;
/**
* Any scheduled events associated with the instance.
*/
Events?: InstanceStatusEventList;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The intended state of the instance. DescribeInstanceStatus requires that an instance be in the running state.
*/
InstanceState?: InstanceState;
/**
* Reports impaired functionality that stems from issues internal to the instance, such as impaired reachability.
*/
InstanceStatus?: InstanceStatusSummary;
/**
* Reports impaired functionality that stems from issues related to the systems that support an instance, such as hardware failures and network connectivity problems.
*/
SystemStatus?: InstanceStatusSummary;
}
export interface InstanceStatusDetails {
/**
* The time when a status check failed. For an instance that was launched and impaired, this is the time when the instance was launched.
*/
ImpairedSince?: DateTime;
/**
* The type of instance status.
*/
Name?: StatusName;
/**
* The status.
*/
Status?: StatusType;
}
export type InstanceStatusDetailsList = InstanceStatusDetails[];
export interface InstanceStatusEvent {
/**
* The ID of the event.
*/
InstanceEventId?: InstanceEventId;
/**
* The event code.
*/
Code?: EventCode;
/**
* A description of the event. After a scheduled event is completed, it can still be described for up to a week. If the event has been completed, this description starts with the following text: [Completed].
*/
Description?: String;
/**
* The latest scheduled end time for the event.
*/
NotAfter?: DateTime;
/**
* The earliest scheduled start time for the event.
*/
NotBefore?: DateTime;
/**
* The deadline for starting the event.
*/
NotBeforeDeadline?: DateTime;
}
export type InstanceStatusEventList = InstanceStatusEvent[];
export type InstanceStatusList = InstanceStatus[];
export interface InstanceStatusSummary {
/**
* The system instance health or application instance health.
*/
Details?: InstanceStatusDetailsList;
/**
* The status.
*/
Status?: SummaryStatus;
}
export type InstanceType = "t1.micro"|"t2.nano"|"t2.micro"|"t2.small"|"t2.medium"|"t2.large"|"t2.xlarge"|"t2.2xlarge"|"t3.nano"|"t3.micro"|"t3.small"|"t3.medium"|"t3.large"|"t3.xlarge"|"t3.2xlarge"|"t3a.nano"|"t3a.micro"|"t3a.small"|"t3a.medium"|"t3a.large"|"t3a.xlarge"|"t3a.2xlarge"|"m1.small"|"m1.medium"|"m1.large"|"m1.xlarge"|"m3.medium"|"m3.large"|"m3.xlarge"|"m3.2xlarge"|"m4.large"|"m4.xlarge"|"m4.2xlarge"|"m4.4xlarge"|"m4.10xlarge"|"m4.16xlarge"|"m2.xlarge"|"m2.2xlarge"|"m2.4xlarge"|"cr1.8xlarge"|"r3.large"|"r3.xlarge"|"r3.2xlarge"|"r3.4xlarge"|"r3.8xlarge"|"r4.large"|"r4.xlarge"|"r4.2xlarge"|"r4.4xlarge"|"r4.8xlarge"|"r4.16xlarge"|"r5.large"|"r5.xlarge"|"r5.2xlarge"|"r5.4xlarge"|"r5.8xlarge"|"r5.12xlarge"|"r5.16xlarge"|"r5.24xlarge"|"r5.metal"|"r5a.large"|"r5a.xlarge"|"r5a.2xlarge"|"r5a.4xlarge"|"r5a.8xlarge"|"r5a.12xlarge"|"r5a.16xlarge"|"r5a.24xlarge"|"r5d.large"|"r5d.xlarge"|"r5d.2xlarge"|"r5d.4xlarge"|"r5d.8xlarge"|"r5d.12xlarge"|"r5d.16xlarge"|"r5d.24xlarge"|"r5d.metal"|"r5ad.large"|"r5ad.xlarge"|"r5ad.2xlarge"|"r5ad.4xlarge"|"r5ad.8xlarge"|"r5ad.12xlarge"|"r5ad.16xlarge"|"r5ad.24xlarge"|"x1.16xlarge"|"x1.32xlarge"|"x1e.xlarge"|"x1e.2xlarge"|"x1e.4xlarge"|"x1e.8xlarge"|"x1e.16xlarge"|"x1e.32xlarge"|"i2.xlarge"|"i2.2xlarge"|"i2.4xlarge"|"i2.8xlarge"|"i3.large"|"i3.xlarge"|"i3.2xlarge"|"i3.4xlarge"|"i3.8xlarge"|"i3.16xlarge"|"i3.metal"|"i3en.large"|"i3en.xlarge"|"i3en.2xlarge"|"i3en.3xlarge"|"i3en.6xlarge"|"i3en.12xlarge"|"i3en.24xlarge"|"i3en.metal"|"hi1.4xlarge"|"hs1.8xlarge"|"c1.medium"|"c1.xlarge"|"c3.large"|"c3.xlarge"|"c3.2xlarge"|"c3.4xlarge"|"c3.8xlarge"|"c4.large"|"c4.xlarge"|"c4.2xlarge"|"c4.4xlarge"|"c4.8xlarge"|"c5.large"|"c5.xlarge"|"c5.2xlarge"|"c5.4xlarge"|"c5.9xlarge"|"c5.12xlarge"|"c5.18xlarge"|"c5.24xlarge"|"c5.metal"|"c5d.large"|"c5d.xlarge"|"c5d.2xlarge"|"c5d.4xlarge"|"c5d.9xlarge"|"c5d.18xlarge"|"c5n.large"|"c5n.xlarge"|"c5n.2xlarge"|"c5n.4xlarge"|"c5n.9xlarge"|"c5n.18xlarge"|"cc1.4xlarge"|"cc2.8xlarge"|"g2.2xlarge"|"g2.8xlarge"|"g3.4xlarge"|"g3.8xlarge"|"g3.16xlarge"|"g3s.xlarge"|"g4dn.xlarge"|"g4dn.2xlarge"|"g4dn.4xlarge"|"g4dn.8xlarge"|"g4dn.12xlarge"|"g4dn.16xlarge"|"cg1.4xlarge"|"p2.xlarge"|"p2.8xlarge"|"p2.16xlarge"|"p3.2xlarge"|"p3.8xlarge"|"p3.16xlarge"|"p3dn.24xlarge"|"d2.xlarge"|"d2.2xlarge"|"d2.4xlarge"|"d2.8xlarge"|"f1.2xlarge"|"f1.4xlarge"|"f1.16xlarge"|"m5.large"|"m5.xlarge"|"m5.2xlarge"|"m5.4xlarge"|"m5.8xlarge"|"m5.12xlarge"|"m5.16xlarge"|"m5.24xlarge"|"m5.metal"|"m5a.large"|"m5a.xlarge"|"m5a.2xlarge"|"m5a.4xlarge"|"m5a.8xlarge"|"m5a.12xlarge"|"m5a.16xlarge"|"m5a.24xlarge"|"m5d.large"|"m5d.xlarge"|"m5d.2xlarge"|"m5d.4xlarge"|"m5d.8xlarge"|"m5d.12xlarge"|"m5d.16xlarge"|"m5d.24xlarge"|"m5d.metal"|"m5ad.large"|"m5ad.xlarge"|"m5ad.2xlarge"|"m5ad.4xlarge"|"m5ad.8xlarge"|"m5ad.12xlarge"|"m5ad.16xlarge"|"m5ad.24xlarge"|"h1.2xlarge"|"h1.4xlarge"|"h1.8xlarge"|"h1.16xlarge"|"z1d.large"|"z1d.xlarge"|"z1d.2xlarge"|"z1d.3xlarge"|"z1d.6xlarge"|"z1d.12xlarge"|"z1d.metal"|"u-6tb1.metal"|"u-9tb1.metal"|"u-12tb1.metal"|"u-18tb1.metal"|"u-24tb1.metal"|"a1.medium"|"a1.large"|"a1.xlarge"|"a1.2xlarge"|"a1.4xlarge"|"a1.metal"|"m5dn.large"|"m5dn.xlarge"|"m5dn.2xlarge"|"m5dn.4xlarge"|"m5dn.8xlarge"|"m5dn.12xlarge"|"m5dn.16xlarge"|"m5dn.24xlarge"|"m5n.large"|"m5n.xlarge"|"m5n.2xlarge"|"m5n.4xlarge"|"m5n.8xlarge"|"m5n.12xlarge"|"m5n.16xlarge"|"m5n.24xlarge"|"r5dn.large"|"r5dn.xlarge"|"r5dn.2xlarge"|"r5dn.4xlarge"|"r5dn.8xlarge"|"r5dn.12xlarge"|"r5dn.16xlarge"|"r5dn.24xlarge"|"r5n.large"|"r5n.xlarge"|"r5n.2xlarge"|"r5n.4xlarge"|"r5n.8xlarge"|"r5n.12xlarge"|"r5n.16xlarge"|"r5n.24xlarge"|string;
export type InstanceTypeList = InstanceType[];
export interface InstanceUsage {
/**
* The ID of the AWS account that is making use of the Capacity Reservation.
*/
AccountId?: String;
/**
* The number of instances the AWS account currently has in the Capacity Reservation.
*/
UsedInstanceCount?: Integer;
}
export type InstanceUsageSet = InstanceUsage[];
export type Integer = number;
export type InterfacePermissionType = "INSTANCE-ATTACH"|"EIP-ASSOCIATE"|string;
export interface InternetGateway {
/**
* Any VPCs attached to the internet gateway.
*/
Attachments?: InternetGatewayAttachmentList;
/**
* The ID of the internet gateway.
*/
InternetGatewayId?: String;
/**
* The ID of the AWS account that owns the internet gateway.
*/
OwnerId?: String;
/**
* Any tags assigned to the internet gateway.
*/
Tags?: TagList;
}
export interface InternetGatewayAttachment {
/**
* The current state of the attachment. For an internet gateway, the state is available when attached to a VPC; otherwise, this value is not returned.
*/
State?: AttachmentStatus;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export type InternetGatewayAttachmentList = InternetGatewayAttachment[];
export type InternetGatewayId = string;
export type InternetGatewayList = InternetGateway[];
export interface IpPermission {
/**
* The start of port range for the TCP and UDP protocols, or an ICMP/ICMPv6 type number. A value of -1 indicates all ICMP/ICMPv6 types. If you specify all ICMP/ICMPv6 types, you must specify all codes.
*/
FromPort?: Integer;
/**
* The IP protocol name (tcp, udp, icmp, icmpv6) or number (see Protocol Numbers). [VPC only] Use -1 to specify all protocols. When authorizing security group rules, specifying -1 or a protocol number other than tcp, udp, icmp, or icmpv6 allows traffic on all ports, regardless of any port range you specify. For tcp, udp, and icmp, you must specify a port range. For icmpv6, the port range is optional; if you omit the port range, traffic for all types and codes is allowed.
*/
IpProtocol?: String;
/**
* The IPv4 ranges.
*/
IpRanges?: IpRangeList;
/**
* [VPC only] The IPv6 ranges.
*/
Ipv6Ranges?: Ipv6RangeList;
/**
* [VPC only] The prefix list IDs for an AWS service. With outbound rules, this is the AWS service to access through a VPC endpoint from instances associated with the security group.
*/
PrefixListIds?: PrefixListIdList;
/**
* The end of port range for the TCP and UDP protocols, or an ICMP/ICMPv6 code. A value of -1 indicates all ICMP/ICMPv6 codes. If you specify all ICMP/ICMPv6 types, you must specify all codes.
*/
ToPort?: Integer;
/**
* The security group and AWS account ID pairs.
*/
UserIdGroupPairs?: UserIdGroupPairList;
}
export type IpPermissionList = IpPermission[];
export interface IpRange {
/**
* The IPv4 CIDR range. You can either specify a CIDR range or a source security group, not both. To specify a single IPv4 address, use the /32 prefix length.
*/
CidrIp?: String;
/**
* A description for the security group rule that references this IPv4 address range. Constraints: Up to 255 characters in length. Allowed characters are a-z, A-Z, 0-9, spaces, and ._-:/()#,@[]+=;{}!$*
*/
Description?: String;
}
export type IpRangeList = IpRange[];
export type IpRanges = String[];
export type Ipv6Address = string;
export type Ipv6AddressList = String[];
export interface Ipv6CidrBlock {
/**
* The IPv6 CIDR block.
*/
Ipv6CidrBlock?: String;
}
export type Ipv6CidrBlockSet = Ipv6CidrBlock[];
export interface Ipv6Range {
/**
* The IPv6 CIDR range. You can either specify a CIDR range or a source security group, not both. To specify a single IPv6 address, use the /128 prefix length.
*/
CidrIpv6?: String;
/**
* A description for the security group rule that references this IPv6 address range. Constraints: Up to 255 characters in length. Allowed characters are a-z, A-Z, 0-9, spaces, and ._-:/()#,@[]+=;{}!$*
*/
Description?: String;
}
export type Ipv6RangeList = Ipv6Range[];
export type Ipv6SupportValue = "enable"|"disable"|string;
export type KernelId = string;
export type KeyNameStringList = String[];
export interface KeyPair {
/**
* The SHA-1 digest of the DER encoded private key.
*/
KeyFingerprint?: String;
/**
* An unencrypted PEM encoded RSA private key.
*/
KeyMaterial?: SensitiveUserData;
/**
* The name of the key pair.
*/
KeyName?: String;
}
export interface KeyPairInfo {
/**
* If you used CreateKeyPair to create the key pair, this is the SHA-1 digest of the DER encoded private key. If you used ImportKeyPair to provide AWS the public key, this is the MD5 public key fingerprint as specified in section 4 of RFC4716.
*/
KeyFingerprint?: String;
/**
* The name of the key pair.
*/
KeyName?: String;
}
export type KeyPairList = KeyPairInfo[];
export type KeyPairName = string;
export type KmsKeyId = string;
export interface LaunchPermission {
/**
* The name of the group.
*/
Group?: PermissionGroup;
/**
* The AWS account ID.
*/
UserId?: String;
}
export type LaunchPermissionList = LaunchPermission[];
export interface LaunchPermissionModifications {
/**
* The AWS account ID to add to the list of launch permissions for the AMI.
*/
Add?: LaunchPermissionList;
/**
* The AWS account ID to remove from the list of launch permissions for the AMI.
*/
Remove?: LaunchPermissionList;
}
export interface LaunchSpecification {
/**
* The Base64-encoded user data for the instance.
*/
UserData?: String;
/**
* One or more security groups. When requesting instances in a VPC, you must specify the IDs of the security groups. When requesting instances in EC2-Classic, you can specify the names or the IDs of the security groups.
*/
SecurityGroups?: GroupIdentifierList;
/**
* Deprecated.
*/
AddressingType?: String;
/**
* One or more block device mapping entries.
*/
BlockDeviceMappings?: BlockDeviceMappingList;
/**
* Indicates whether the instance is optimized for EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal EBS I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS Optimized instance. Default: false
*/
EbsOptimized?: Boolean;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: IamInstanceProfileSpecification;
/**
* The ID of the AMI.
*/
ImageId?: String;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The ID of the kernel.
*/
KernelId?: String;
/**
* The name of the key pair.
*/
KeyName?: String;
/**
* One or more network interfaces. If you specify a network interface, you must specify subnet IDs and security group IDs using the network interface.
*/
NetworkInterfaces?: InstanceNetworkInterfaceSpecificationList;
/**
* The placement information for the instance.
*/
Placement?: SpotPlacement;
/**
* The ID of the RAM disk.
*/
RamdiskId?: String;
/**
* The ID of the subnet in which to launch the instance.
*/
SubnetId?: String;
Monitoring?: RunInstancesMonitoringEnabled;
}
export type LaunchSpecsList = SpotFleetLaunchSpecification[];
export interface LaunchTemplate {
/**
* The ID of the launch template.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* The time launch template was created.
*/
CreateTime?: DateTime;
/**
* The principal that created the launch template.
*/
CreatedBy?: String;
/**
* The version number of the default version of the launch template.
*/
DefaultVersionNumber?: Long;
/**
* The version number of the latest version of the launch template.
*/
LatestVersionNumber?: Long;
/**
* The tags for the launch template.
*/
Tags?: TagList;
}
export interface LaunchTemplateAndOverridesResponse {
/**
* The launch template.
*/
LaunchTemplateSpecification?: FleetLaunchTemplateSpecification;
/**
* Any parameters that you specify override the same parameters in the launch template.
*/
Overrides?: FleetLaunchTemplateOverrides;
}
export interface LaunchTemplateBlockDeviceMapping {
/**
* The device name.
*/
DeviceName?: String;
/**
* The virtual device name (ephemeralN).
*/
VirtualName?: String;
/**
* Information about the block device for an EBS volume.
*/
Ebs?: LaunchTemplateEbsBlockDevice;
/**
* Suppresses the specified device included in the block device mapping of the AMI.
*/
NoDevice?: String;
}
export type LaunchTemplateBlockDeviceMappingList = LaunchTemplateBlockDeviceMapping[];
export interface LaunchTemplateBlockDeviceMappingRequest {
/**
* The device name (for example, /dev/sdh or xvdh).
*/
DeviceName?: String;
/**
* The virtual device name (ephemeralN). Instance store volumes are numbered starting from 0. An instance type with 2 available instance store volumes can specify mappings for ephemeral0 and ephemeral1. The number of available instance store volumes depends on the instance type. After you connect to the instance, you must mount the volume.
*/
VirtualName?: String;
/**
* Parameters used to automatically set up EBS volumes when the instance is launched.
*/
Ebs?: LaunchTemplateEbsBlockDeviceRequest;
/**
* Suppresses the specified device included in the block device mapping of the AMI.
*/
NoDevice?: String;
}
export type LaunchTemplateBlockDeviceMappingRequestList = LaunchTemplateBlockDeviceMappingRequest[];
export interface LaunchTemplateCapacityReservationSpecificationRequest {
/**
* Indicates the instance's Capacity Reservation preferences. Possible preferences include: open - The instance can run in any open Capacity Reservation that has matching attributes (instance type, platform, Availability Zone). none - The instance avoids running in a Capacity Reservation even if one is available. The instance runs in On-Demand capacity.
*/
CapacityReservationPreference?: CapacityReservationPreference;
/**
* Information about the target Capacity Reservation.
*/
CapacityReservationTarget?: CapacityReservationTarget;
}
export interface LaunchTemplateCapacityReservationSpecificationResponse {
/**
* Indicates the instance's Capacity Reservation preferences. Possible preferences include: open - The instance can run in any open Capacity Reservation that has matching attributes (instance type, platform, Availability Zone). none - The instance avoids running in a Capacity Reservation even if one is available. The instance runs in On-Demand capacity.
*/
CapacityReservationPreference?: CapacityReservationPreference;
/**
* Information about the target Capacity Reservation.
*/
CapacityReservationTarget?: CapacityReservationTargetResponse;
}
export interface LaunchTemplateConfig {
/**
* The launch template.
*/
LaunchTemplateSpecification?: FleetLaunchTemplateSpecification;
/**
* Any parameters that you specify override the same parameters in the launch template.
*/
Overrides?: LaunchTemplateOverridesList;
}
export type LaunchTemplateConfigList = LaunchTemplateConfig[];
export interface LaunchTemplateCpuOptions {
/**
* The number of CPU cores for the instance.
*/
CoreCount?: Integer;
/**
* The number of threads per CPU core.
*/
ThreadsPerCore?: Integer;
}
export interface LaunchTemplateCpuOptionsRequest {
/**
* The number of CPU cores for the instance.
*/
CoreCount?: Integer;
/**
* The number of threads per CPU core. To disable multithreading for the instance, specify a value of 1. Otherwise, specify the default value of 2.
*/
ThreadsPerCore?: Integer;
}
export interface LaunchTemplateEbsBlockDevice {
/**
* Indicates whether the EBS volume is encrypted.
*/
Encrypted?: Boolean;
/**
* Indicates whether the EBS volume is deleted on instance termination.
*/
DeleteOnTermination?: Boolean;
/**
* The number of I/O operations per second (IOPS) that the volume supports.
*/
Iops?: Integer;
/**
* The ARN of the AWS Key Management Service (AWS KMS) CMK used for encryption.
*/
KmsKeyId?: String;
/**
* The ID of the snapshot.
*/
SnapshotId?: String;
/**
* The size of the volume, in GiB.
*/
VolumeSize?: Integer;
/**
* The volume type.
*/
VolumeType?: VolumeType;
}
export interface LaunchTemplateEbsBlockDeviceRequest {
/**
* Indicates whether the EBS volume is encrypted. Encrypted volumes can only be attached to instances that support Amazon EBS encryption. If you are creating a volume from a snapshot, you can't specify an encryption value.
*/
Encrypted?: Boolean;
/**
* Indicates whether the EBS volume is deleted on instance termination.
*/
DeleteOnTermination?: Boolean;
/**
* The number of I/O operations per second (IOPS) that the volume supports. For io1, this represents the number of IOPS that are provisioned for the volume. For gp2, this represents the baseline performance of the volume and the rate at which the volume accumulates I/O credits for bursting. For more information about General Purpose SSD baseline performance, I/O credits, and bursting, see Amazon EBS Volume Types in the Amazon Elastic Compute Cloud User Guide. Condition: This parameter is required for requests to create io1 volumes; it is not used in requests to create gp2, st1, sc1, or standard volumes.
*/
Iops?: Integer;
/**
* The ARN of the AWS Key Management Service (AWS KMS) CMK used for encryption.
*/
KmsKeyId?: String;
/**
* The ID of the snapshot.
*/
SnapshotId?: String;
/**
* The size of the volume, in GiB. Default: If you're creating the volume from a snapshot and don't specify a volume size, the default is the snapshot size.
*/
VolumeSize?: Integer;
/**
* The volume type.
*/
VolumeType?: VolumeType;
}
export interface LaunchTemplateElasticInferenceAccelerator {
/**
* The type of elastic inference accelerator. The possible values are eia1.medium, eia1.large, and eia1.xlarge.
*/
Type: String;
}
export type LaunchTemplateElasticInferenceAcceleratorList = LaunchTemplateElasticInferenceAccelerator[];
export interface LaunchTemplateElasticInferenceAcceleratorResponse {
/**
* The type of elastic inference accelerator. The possible values are eia1.medium, eia1.large, and eia1.xlarge.
*/
Type?: String;
}
export type LaunchTemplateElasticInferenceAcceleratorResponseList = LaunchTemplateElasticInferenceAcceleratorResponse[];
export type LaunchTemplateErrorCode = "launchTemplateIdDoesNotExist"|"launchTemplateIdMalformed"|"launchTemplateNameDoesNotExist"|"launchTemplateNameMalformed"|"launchTemplateVersionDoesNotExist"|"unexpectedError"|string;
export interface LaunchTemplateHibernationOptions {
/**
* If this parameter is set to true, the instance is enabled for hibernation; otherwise, it is not enabled for hibernation.
*/
Configured?: Boolean;
}
export interface LaunchTemplateHibernationOptionsRequest {
/**
* If you set this parameter to true, the instance is enabled for hibernation. Default: false
*/
Configured?: Boolean;
}
export interface LaunchTemplateIamInstanceProfileSpecification {
/**
* The Amazon Resource Name (ARN) of the instance profile.
*/
Arn?: String;
/**
* The name of the instance profile.
*/
Name?: String;
}
export interface LaunchTemplateIamInstanceProfileSpecificationRequest {
/**
* The Amazon Resource Name (ARN) of the instance profile.
*/
Arn?: String;
/**
* The name of the instance profile.
*/
Name?: String;
}
export type LaunchTemplateId = string;
export interface LaunchTemplateInstanceMarketOptions {
/**
* The market type.
*/
MarketType?: MarketType;
/**
* The options for Spot Instances.
*/
SpotOptions?: LaunchTemplateSpotMarketOptions;
}
export interface LaunchTemplateInstanceMarketOptionsRequest {
/**
* The market type.
*/
MarketType?: MarketType;
/**
* The options for Spot Instances.
*/
SpotOptions?: LaunchTemplateSpotMarketOptionsRequest;
}
export interface LaunchTemplateInstanceNetworkInterfaceSpecification {
/**
* Indicates whether to associate a public IPv4 address with eth0 for a new network interface.
*/
AssociatePublicIpAddress?: Boolean;
/**
* Indicates whether the network interface is deleted when the instance is terminated.
*/
DeleteOnTermination?: Boolean;
/**
* A description for the network interface.
*/
Description?: String;
/**
* The device index for the network interface attachment.
*/
DeviceIndex?: Integer;
/**
* The IDs of one or more security groups.
*/
Groups?: GroupIdStringList;
/**
* The type of network interface.
*/
InterfaceType?: String;
/**
* The number of IPv6 addresses for the network interface.
*/
Ipv6AddressCount?: Integer;
/**
* The IPv6 addresses for the network interface.
*/
Ipv6Addresses?: InstanceIpv6AddressList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The primary private IPv4 address of the network interface.
*/
PrivateIpAddress?: String;
/**
* One or more private IPv4 addresses.
*/
PrivateIpAddresses?: PrivateIpAddressSpecificationList;
/**
* The number of secondary private IPv4 addresses for the network interface.
*/
SecondaryPrivateIpAddressCount?: Integer;
/**
* The ID of the subnet for the network interface.
*/
SubnetId?: String;
}
export type LaunchTemplateInstanceNetworkInterfaceSpecificationList = LaunchTemplateInstanceNetworkInterfaceSpecification[];
export interface LaunchTemplateInstanceNetworkInterfaceSpecificationRequest {
/**
* Associates a public IPv4 address with eth0 for a new network interface.
*/
AssociatePublicIpAddress?: Boolean;
/**
* Indicates whether the network interface is deleted when the instance is terminated.
*/
DeleteOnTermination?: Boolean;
/**
* A description for the network interface.
*/
Description?: String;
/**
* The device index for the network interface attachment.
*/
DeviceIndex?: Integer;
/**
* The IDs of one or more security groups.
*/
Groups?: SecurityGroupIdStringList;
/**
* The type of network interface. To create an Elastic Fabric Adapter (EFA), specify efa. For more information, see Elastic Fabric Adapter in the Amazon Elastic Compute Cloud User Guide. If you are not creating an EFA, specify interface or omit this parameter. Valid values: interface | efa
*/
InterfaceType?: String;
/**
* The number of IPv6 addresses to assign to a network interface. Amazon EC2 automatically selects the IPv6 addresses from the subnet range. You can't use this option if specifying specific IPv6 addresses.
*/
Ipv6AddressCount?: Integer;
/**
* One or more specific IPv6 addresses from the IPv6 CIDR block range of your subnet. You can't use this option if you're specifying a number of IPv6 addresses.
*/
Ipv6Addresses?: InstanceIpv6AddressListRequest;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The primary private IPv4 address of the network interface.
*/
PrivateIpAddress?: String;
/**
* One or more private IPv4 addresses.
*/
PrivateIpAddresses?: PrivateIpAddressSpecificationList;
/**
* The number of secondary private IPv4 addresses to assign to a network interface.
*/
SecondaryPrivateIpAddressCount?: Integer;
/**
* The ID of the subnet for the network interface.
*/
SubnetId?: String;
}
export type LaunchTemplateInstanceNetworkInterfaceSpecificationRequestList = LaunchTemplateInstanceNetworkInterfaceSpecificationRequest[];
export interface LaunchTemplateLicenseConfiguration {
/**
* The Amazon Resource Name (ARN) of the license configuration.
*/
LicenseConfigurationArn?: String;
}
export interface LaunchTemplateLicenseConfigurationRequest {
/**
* The Amazon Resource Name (ARN) of the license configuration.
*/
LicenseConfigurationArn?: String;
}
export type LaunchTemplateLicenseList = LaunchTemplateLicenseConfiguration[];
export type LaunchTemplateLicenseSpecificationListRequest = LaunchTemplateLicenseConfigurationRequest[];
export type LaunchTemplateName = string;
export type LaunchTemplateNameStringList = LaunchTemplateName[];
export interface LaunchTemplateOverrides {
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The maximum price per unit hour that you are willing to pay for a Spot Instance.
*/
SpotPrice?: String;
/**
* The ID of the subnet in which to launch the instances.
*/
SubnetId?: String;
/**
* The Availability Zone in which to launch the instances.
*/
AvailabilityZone?: String;
/**
* The number of units provided by the specified instance type.
*/
WeightedCapacity?: Double;
/**
* The priority for the launch template override. If OnDemandAllocationStrategy is set to prioritized, Spot Fleet uses priority to determine which launch template override to use first in fulfilling On-Demand capacity. The highest priority is launched first. Valid values are whole numbers starting at 0. The lower the number, the higher the priority. If no number is set, the launch template override has the lowest priority.
*/
Priority?: Double;
}
export type LaunchTemplateOverridesList = LaunchTemplateOverrides[];
export interface LaunchTemplatePlacement {
/**
* The Availability Zone of the instance.
*/
AvailabilityZone?: String;
/**
* The affinity setting for the instance on the Dedicated Host.
*/
Affinity?: String;
/**
* The name of the placement group for the instance.
*/
GroupName?: String;
/**
* The ID of the Dedicated Host for the instance.
*/
HostId?: String;
/**
* The tenancy of the instance (if the instance is running in a VPC). An instance with a tenancy of dedicated runs on single-tenant hardware.
*/
Tenancy?: Tenancy;
/**
* Reserved for future use.
*/
SpreadDomain?: String;
}
export interface LaunchTemplatePlacementRequest {
/**
* The Availability Zone for the instance.
*/
AvailabilityZone?: String;
/**
* The affinity setting for an instance on a Dedicated Host.
*/
Affinity?: String;
/**
* The name of the placement group for the instance.
*/
GroupName?: String;
/**
* The ID of the Dedicated Host for the instance.
*/
HostId?: String;
/**
* The tenancy of the instance (if the instance is running in a VPC). An instance with a tenancy of dedicated runs on single-tenant hardware.
*/
Tenancy?: Tenancy;
/**
* Reserved for future use.
*/
SpreadDomain?: String;
}
export type LaunchTemplateSet = LaunchTemplate[];
export interface LaunchTemplateSpecification {
/**
* The ID of the launch template.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template.
*/
LaunchTemplateName?: String;
/**
* The version number of the launch template. Default: The default version for the launch template.
*/
Version?: String;
}
export interface LaunchTemplateSpotMarketOptions {
/**
* The maximum hourly price you're willing to pay for the Spot Instances.
*/
MaxPrice?: String;
/**
* The Spot Instance request type.
*/
SpotInstanceType?: SpotInstanceType;
/**
* The required duration for the Spot Instances (also known as Spot blocks), in minutes. This value must be a multiple of 60 (60, 120, 180, 240, 300, or 360).
*/
BlockDurationMinutes?: Integer;
/**
* The end date of the request. For a one-time request, the request remains active until all instances launch, the request is canceled, or this date is reached. If the request is persistent, it remains active until it is canceled or this date and time is reached.
*/
ValidUntil?: DateTime;
/**
* The behavior when a Spot Instance is interrupted.
*/
InstanceInterruptionBehavior?: InstanceInterruptionBehavior;
}
export interface LaunchTemplateSpotMarketOptionsRequest {
/**
* The maximum hourly price you're willing to pay for the Spot Instances.
*/
MaxPrice?: String;
/**
* The Spot Instance request type.
*/
SpotInstanceType?: SpotInstanceType;
/**
* The required duration for the Spot Instances (also known as Spot blocks), in minutes. This value must be a multiple of 60 (60, 120, 180, 240, 300, or 360).
*/
BlockDurationMinutes?: Integer;
/**
* The end date of the request. For a one-time request, the request remains active until all instances launch, the request is canceled, or this date is reached. If the request is persistent, it remains active until it is canceled or this date and time is reached. The default end date is 7 days from the current date.
*/
ValidUntil?: DateTime;
/**
* The behavior when a Spot Instance is interrupted. The default is terminate.
*/
InstanceInterruptionBehavior?: InstanceInterruptionBehavior;
}
export interface LaunchTemplateTagSpecification {
/**
* The type of resource.
*/
ResourceType?: ResourceType;
/**
* The tags for the resource.
*/
Tags?: TagList;
}
export type LaunchTemplateTagSpecificationList = LaunchTemplateTagSpecification[];
export interface LaunchTemplateTagSpecificationRequest {
/**
* The type of resource to tag. Currently, the resource types that support tagging on creation are instance and volume. To tag a resource after it has been created, see CreateTags.
*/
ResourceType?: ResourceType;
/**
* The tags to apply to the resource.
*/
Tags?: TagList;
}
export type LaunchTemplateTagSpecificationRequestList = LaunchTemplateTagSpecificationRequest[];
export interface LaunchTemplateVersion {
/**
* The ID of the launch template.
*/
LaunchTemplateId?: String;
/**
* The name of the launch template.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* The version number.
*/
VersionNumber?: Long;
/**
* The description for the version.
*/
VersionDescription?: VersionDescription;
/**
* The time the version was created.
*/
CreateTime?: DateTime;
/**
* The principal that created the version.
*/
CreatedBy?: String;
/**
* Indicates whether the version is the default version.
*/
DefaultVersion?: Boolean;
/**
* Information about the launch template.
*/
LaunchTemplateData?: ResponseLaunchTemplateData;
}
export type LaunchTemplateVersionSet = LaunchTemplateVersion[];
export interface LaunchTemplatesMonitoring {
/**
* Indicates whether detailed monitoring is enabled. Otherwise, basic monitoring is enabled.
*/
Enabled?: Boolean;
}
export interface LaunchTemplatesMonitoringRequest {
/**
* Specify true to enable detailed monitoring. Otherwise, basic monitoring is enabled.
*/
Enabled?: Boolean;
}
export interface LicenseConfiguration {
/**
* The Amazon Resource Name (ARN) of the license configuration.
*/
LicenseConfigurationArn?: String;
}
export interface LicenseConfigurationRequest {
/**
* The Amazon Resource Name (ARN) of the license configuration.
*/
LicenseConfigurationArn?: String;
}
export type LicenseList = LicenseConfiguration[];
export type LicenseSpecificationListRequest = LicenseConfigurationRequest[];
export type ListingState = "available"|"sold"|"cancelled"|"pending"|string;
export type ListingStatus = "active"|"pending"|"cancelled"|"closed"|string;
export interface LoadBalancersConfig {
/**
* The Classic Load Balancers.
*/
ClassicLoadBalancersConfig?: ClassicLoadBalancersConfig;
/**
* The target groups.
*/
TargetGroupsConfig?: TargetGroupsConfig;
}
export interface LoadPermission {
/**
* The AWS account ID.
*/
UserId?: String;
/**
* The name of the group.
*/
Group?: PermissionGroup;
}
export type LoadPermissionList = LoadPermission[];
export type LoadPermissionListRequest = LoadPermissionRequest[];
export interface LoadPermissionModifications {
/**
* The load permissions to add.
*/
Add?: LoadPermissionListRequest;
/**
* The load permissions to remove.
*/
Remove?: LoadPermissionListRequest;
}
export interface LoadPermissionRequest {
/**
* The name of the group.
*/
Group?: PermissionGroup;
/**
* The AWS account ID.
*/
UserId?: String;
}
export type LogDestinationType = "cloud-watch-logs"|"s3"|string;
export type Long = number;
export type MarketType = "spot"|string;
export type MillisecondDateTime = Date;
export interface ModifyCapacityReservationRequest {
/**
* The ID of the Capacity Reservation.
*/
CapacityReservationId: CapacityReservationId;
/**
* The number of instances for which to reserve capacity.
*/
InstanceCount?: Integer;
/**
* The date and time at which the Capacity Reservation expires. When a Capacity Reservation expires, the reserved capacity is released and you can no longer launch instances into it. The Capacity Reservation's state changes to expired when it reaches its end date and time. The Capacity Reservation is cancelled within an hour from the specified time. For example, if you specify 5/31/2019, 13:30:55, the Capacity Reservation is guaranteed to end between 13:30:55 and 14:30:55 on 5/31/2019. You must provide an EndDate value if EndDateType is limited. Omit EndDate if EndDateType is unlimited.
*/
EndDate?: DateTime;
/**
* Indicates the way in which the Capacity Reservation ends. A Capacity Reservation can have one of the following end types: unlimited - The Capacity Reservation remains active until you explicitly cancel it. Do not provide an EndDate value if EndDateType is unlimited. limited - The Capacity Reservation expires automatically at a specified date and time. You must provide an EndDate value if EndDateType is limited.
*/
EndDateType?: EndDateType;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyCapacityReservationResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface ModifyClientVpnEndpointRequest {
/**
* The ID of the Client VPN endpoint to modify.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The ARN of the server certificate to be used. The server certificate must be provisioned in AWS Certificate Manager (ACM).
*/
ServerCertificateArn?: String;
/**
* Information about the client connection logging options. If you enable client connection logging, data about client connections is sent to a Cloudwatch Logs log stream. The following information is logged: Client connection requests Client connection results (successful and unsuccessful) Reasons for unsuccessful client connection requests Client connection termination time
*/
ConnectionLogOptions?: ConnectionLogOptions;
/**
* Information about the DNS servers to be used by Client VPN connections. A Client VPN endpoint can have up to two DNS servers.
*/
DnsServers?: DnsServersOptionsModifyStructure;
/**
* A brief description of the Client VPN endpoint.
*/
Description?: String;
/**
* Indicates whether the VPN is split-tunnel. For information about split-tunnel VPN endpoints, see Split-Tunnel AWS Client VPN Endpoint in the AWS Client VPN Administrator Guide.
*/
SplitTunnel?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyClientVpnEndpointResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface ModifyEbsDefaultKmsKeyIdRequest {
/**
* The identifier of the AWS Key Management Service (AWS KMS) customer master key (CMK) to use for Amazon EBS encryption. If this parameter is not specified, your AWS managed CMK for EBS is used. If KmsKeyId is specified, the encrypted state must be true. You can specify the CMK using any of the following: Key ID. For example, key/1234abcd-12ab-34cd-56ef-1234567890ab. Key alias. For example, alias/ExampleAlias. Key ARN. For example, arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef. Alias ARN. For example, arn:aws:kms:us-east-1:012345678910:alias/ExampleAlias. AWS authenticates the CMK asynchronously. Therefore, if you specify an ID, alias, or ARN that is not valid, the action can appear to complete, but eventually fails.
*/
KmsKeyId: KmsKeyId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyEbsDefaultKmsKeyIdResult {
/**
* The Amazon Resource Name (ARN) of the default CMK for encryption by default.
*/
KmsKeyId?: String;
}
export interface ModifyFleetRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Indicates whether running instances should be terminated if the total target capacity of the EC2 Fleet is decreased below the current size of the EC2 Fleet.
*/
ExcessCapacityTerminationPolicy?: FleetExcessCapacityTerminationPolicy;
/**
* The ID of the EC2 Fleet.
*/
FleetId: FleetIdentifier;
/**
* The size of the EC2 Fleet.
*/
TargetCapacitySpecification: TargetCapacitySpecificationRequest;
}
export interface ModifyFleetResult {
/**
* Is true if the request succeeds, and an error otherwise.
*/
Return?: Boolean;
}
export interface ModifyFpgaImageAttributeRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the AFI.
*/
FpgaImageId: FpgaImageId;
/**
* The name of the attribute.
*/
Attribute?: FpgaImageAttributeName;
/**
* The operation type.
*/
OperationType?: OperationType;
/**
* The AWS account IDs. This parameter is valid only when modifying the loadPermission attribute.
*/
UserIds?: UserIdStringList;
/**
* The user groups. This parameter is valid only when modifying the loadPermission attribute.
*/
UserGroups?: UserGroupStringList;
/**
* The product codes. After you add a product code to an AFI, it can't be removed. This parameter is valid only when modifying the productCodes attribute.
*/
ProductCodes?: ProductCodeStringList;
/**
* The load permission for the AFI.
*/
LoadPermission?: LoadPermissionModifications;
/**
* A description for the AFI.
*/
Description?: String;
/**
* A name for the AFI.
*/
Name?: String;
}
export interface ModifyFpgaImageAttributeResult {
/**
* Information about the attribute.
*/
FpgaImageAttribute?: FpgaImageAttribute;
}
export interface ModifyHostsRequest {
/**
* Specify whether to enable or disable auto-placement.
*/
AutoPlacement?: AutoPlacement;
/**
* The IDs of the Dedicated Hosts to modify.
*/
HostIds: RequestHostIdList;
/**
* Indicates whether to enable or disable host recovery for the Dedicated Host. For more information, see Host Recovery in the Amazon Elastic Compute Cloud User Guide.
*/
HostRecovery?: HostRecovery;
}
export interface ModifyHostsResult {
/**
* The IDs of the Dedicated Hosts that were successfully modified.
*/
Successful?: ResponseHostIdList;
/**
* The IDs of the Dedicated Hosts that could not be modified. Check whether the setting you requested can be used.
*/
Unsuccessful?: UnsuccessfulItemList;
}
export interface ModifyIdFormatRequest {
/**
* The type of resource: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | route-table | route-table-association | security-group | subnet | subnet-cidr-block-association | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. Alternatively, use the all-current option to include all resource types that are currently within their opt-in period for longer IDs.
*/
Resource: String;
/**
* Indicate whether the resource should use longer IDs (17-character IDs).
*/
UseLongIds: Boolean;
}
export interface ModifyIdentityIdFormatRequest {
/**
* The ARN of the principal, which can be an IAM user, IAM role, or the root user. Specify all to modify the ID format for all IAM users, IAM roles, and the root user of the account.
*/
PrincipalArn: String;
/**
* The type of resource: bundle | conversion-task | customer-gateway | dhcp-options | elastic-ip-allocation | elastic-ip-association | export-task | flow-log | image | import-task | internet-gateway | network-acl | network-acl-association | network-interface | network-interface-attachment | prefix-list | route-table | route-table-association | security-group | subnet | subnet-cidr-block-association | vpc | vpc-cidr-block-association | vpc-endpoint | vpc-peering-connection | vpn-connection | vpn-gateway. Alternatively, use the all-current option to include all resource types that are currently within their opt-in period for longer IDs.
*/
Resource: String;
/**
* Indicates whether the resource should use longer IDs (17-character IDs)
*/
UseLongIds: Boolean;
}
export interface ModifyImageAttributeRequest {
/**
* The name of the attribute to modify. The valid values are description, launchPermission, and productCodes.
*/
Attribute?: String;
/**
* A new description for the AMI.
*/
Description?: AttributeValue;
/**
* The ID of the AMI.
*/
ImageId: ImageId;
/**
* A new launch permission for the AMI.
*/
LaunchPermission?: LaunchPermissionModifications;
/**
* The operation type. This parameter can be used only when the Attribute parameter is launchPermission.
*/
OperationType?: OperationType;
/**
* The DevPay product codes. After you add a product code to an AMI, it can't be removed.
*/
ProductCodes?: ProductCodeStringList;
/**
* The user groups. This parameter can be used only when the Attribute parameter is launchPermission.
*/
UserGroups?: UserGroupStringList;
/**
* The AWS account IDs. This parameter can be used only when the Attribute parameter is launchPermission.
*/
UserIds?: UserIdStringList;
/**
* The value of the attribute being modified. This parameter can be used only when the Attribute parameter is description or productCodes.
*/
Value?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyInstanceAttributeRequest {
/**
* Specifies whether source/destination checking is enabled. A value of true means that checking is enabled, and false means that checking is disabled. This value must be false for a NAT instance to perform NAT.
*/
SourceDestCheck?: AttributeBooleanValue;
/**
* The name of the attribute.
*/
Attribute?: InstanceAttributeName;
/**
* Modifies the DeleteOnTermination attribute for volumes that are currently attached. The volume must be owned by the caller. If no value is specified for DeleteOnTermination, the default is true and the volume is deleted when the instance is terminated. To add instance store volumes to an Amazon EBS-backed instance, you must add them when you launch the instance. For more information, see Updating the Block Device Mapping when Launching an Instance in the Amazon Elastic Compute Cloud User Guide.
*/
BlockDeviceMappings?: InstanceBlockDeviceMappingSpecificationList;
/**
* If the value is true, you can't terminate the instance using the Amazon EC2 console, CLI, or API; otherwise, you can. You cannot use this parameter for Spot Instances.
*/
DisableApiTermination?: AttributeBooleanValue;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Specifies whether the instance is optimized for Amazon EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal EBS I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS Optimized instance.
*/
EbsOptimized?: AttributeBooleanValue;
/**
* Set to true to enable enhanced networking with ENA for the instance. This option is supported only for HVM instances. Specifying this option with a PV instance can make it unreachable.
*/
EnaSupport?: AttributeBooleanValue;
/**
* [EC2-VPC] Changes the security groups of the instance. You must specify at least one security group, even if it's just the default security group for the VPC. You must specify the security group ID, not the security group name.
*/
Groups?: GroupIdStringList;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* Specifies whether an instance stops or terminates when you initiate shutdown from the instance (using the operating system command for system shutdown).
*/
InstanceInitiatedShutdownBehavior?: AttributeValue;
/**
* Changes the instance type to the specified value. For more information, see Instance Types. If the instance type is not valid, the error returned is InvalidInstanceAttributeValue.
*/
InstanceType?: AttributeValue;
/**
* Changes the instance's kernel to the specified value. We recommend that you use PV-GRUB instead of kernels and RAM disks. For more information, see PV-GRUB.
*/
Kernel?: AttributeValue;
/**
* Changes the instance's RAM disk to the specified value. We recommend that you use PV-GRUB instead of kernels and RAM disks. For more information, see PV-GRUB.
*/
Ramdisk?: AttributeValue;
/**
* Set to simple to enable enhanced networking with the Intel 82599 Virtual Function interface for the instance. There is no way to disable enhanced networking with the Intel 82599 Virtual Function interface at this time. This option is supported only for HVM instances. Specifying this option with a PV instance can make it unreachable.
*/
SriovNetSupport?: AttributeValue;
/**
* Changes the instance's user data to the specified value. If you are using an AWS SDK or command line tool, base64-encoding is performed for you, and you can load the text from a file. Otherwise, you must provide base64-encoded text.
*/
UserData?: BlobAttributeValue;
/**
* A new value for the attribute. Use only with the kernel, ramdisk, userData, disableApiTermination, or instanceInitiatedShutdownBehavior attribute.
*/
Value?: String;
}
export interface ModifyInstanceCapacityReservationAttributesRequest {
/**
* The ID of the instance to be modified.
*/
InstanceId: InstanceId;
/**
* Information about the Capacity Reservation targeting option.
*/
CapacityReservationSpecification: CapacityReservationSpecification;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyInstanceCapacityReservationAttributesResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface ModifyInstanceCreditSpecificationRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* A unique, case-sensitive token that you provide to ensure idempotency of your modification request. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* Information about the credit option for CPU usage.
*/
InstanceCreditSpecifications: InstanceCreditSpecificationListRequest;
}
export interface ModifyInstanceCreditSpecificationResult {
/**
* Information about the instances whose credit option for CPU usage was successfully modified.
*/
SuccessfulInstanceCreditSpecifications?: SuccessfulInstanceCreditSpecificationSet;
/**
* Information about the instances whose credit option for CPU usage was not modified.
*/
UnsuccessfulInstanceCreditSpecifications?: UnsuccessfulInstanceCreditSpecificationSet;
}
export interface ModifyInstanceEventStartTimeRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance with the scheduled event.
*/
InstanceId: InstanceId;
/**
* The ID of the event whose date and time you are modifying.
*/
InstanceEventId: String;
/**
* The new date and time when the event will take place.
*/
NotBefore: DateTime;
}
export interface ModifyInstanceEventStartTimeResult {
Event?: InstanceStatusEvent;
}
export interface ModifyInstancePlacementRequest {
/**
* The affinity setting for the instance.
*/
Affinity?: Affinity;
/**
* The name of the placement group in which to place the instance. For spread placement groups, the instance must have a tenancy of default. For cluster and partition placement groups, the instance must have a tenancy of default or dedicated. To remove an instance from a placement group, specify an empty string ("").
*/
GroupName?: PlacementGroupName;
/**
* The ID of the Dedicated Host with which to associate the instance.
*/
HostId?: HostId;
/**
* The ID of the instance that you are modifying.
*/
InstanceId: InstanceId;
/**
* The tenancy for the instance.
*/
Tenancy?: HostTenancy;
/**
* Reserved for future use.
*/
PartitionNumber?: Integer;
}
export interface ModifyInstancePlacementResult {
/**
* Is true if the request succeeds, and an error otherwise.
*/
Return?: Boolean;
}
export interface ModifyLaunchTemplateRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency. Constraint: Maximum 128 ASCII characters.
*/
ClientToken?: String;
/**
* The ID of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateId?: LaunchTemplateId;
/**
* The name of the launch template. You must specify either the launch template ID or launch template name in the request.
*/
LaunchTemplateName?: LaunchTemplateName;
/**
* The version number of the launch template to set as the default version.
*/
DefaultVersion?: String;
}
export interface ModifyLaunchTemplateResult {
/**
* Information about the launch template.
*/
LaunchTemplate?: LaunchTemplate;
}
export interface ModifyNetworkInterfaceAttributeRequest {
/**
* Information about the interface attachment. If modifying the 'delete on termination' attribute, you must specify the ID of the interface attachment.
*/
Attachment?: NetworkInterfaceAttachmentChanges;
/**
* A description for the network interface.
*/
Description?: AttributeValue;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Changes the security groups for the network interface. The new set of groups you specify replaces the current set. You must specify at least one group, even if it's just the default security group in the VPC. You must specify the ID of the security group, not the name.
*/
Groups?: SecurityGroupIdStringList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
/**
* Indicates whether source/destination checking is enabled. A value of true means checking is enabled, and false means checking is disabled. This value must be false for a NAT instance to perform NAT. For more information, see NAT Instances in the Amazon Virtual Private Cloud User Guide.
*/
SourceDestCheck?: AttributeBooleanValue;
}
export interface ModifyReservedInstancesRequest {
/**
* The IDs of the Reserved Instances to modify.
*/
ReservedInstancesIds: ReservedInstancesIdStringList;
/**
* A unique, case-sensitive token you provide to ensure idempotency of your modification request. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* The configuration settings for the Reserved Instances to modify.
*/
TargetConfigurations: ReservedInstancesConfigurationList;
}
export interface ModifyReservedInstancesResult {
/**
* The ID for the modification.
*/
ReservedInstancesModificationId?: String;
}
export interface ModifySnapshotAttributeRequest {
/**
* The snapshot attribute to modify. Only volume creation permissions can be modified.
*/
Attribute?: SnapshotAttributeName;
/**
* A JSON representation of the snapshot attribute modification.
*/
CreateVolumePermission?: CreateVolumePermissionModifications;
/**
* The group to modify for the snapshot.
*/
GroupNames?: GroupNameStringList;
/**
* The type of operation to perform to the attribute.
*/
OperationType?: OperationType;
/**
* The ID of the snapshot.
*/
SnapshotId: SnapshotId;
/**
* The account ID to modify for the snapshot.
*/
UserIds?: UserIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifySpotFleetRequestRequest {
/**
* Indicates whether running Spot Instances should be terminated if the target capacity of the Spot Fleet request is decreased below the current size of the Spot Fleet.
*/
ExcessCapacityTerminationPolicy?: ExcessCapacityTerminationPolicy;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId: SpotFleetRequestId;
/**
* The size of the fleet.
*/
TargetCapacity?: Integer;
/**
* The number of On-Demand Instances in the fleet.
*/
OnDemandTargetCapacity?: Integer;
}
export interface ModifySpotFleetRequestResponse {
/**
* Is true if the request succeeds, and an error otherwise.
*/
Return?: Boolean;
}
export interface ModifySubnetAttributeRequest {
/**
* Specify true to indicate that network interfaces created in the specified subnet should be assigned an IPv6 address. This includes a network interface that's created when launching an instance into the subnet (the instance therefore receives an IPv6 address). If you enable the IPv6 addressing feature for your subnet, your network interface or instance only receives an IPv6 address if it's created using version 2016-11-15 or later of the Amazon EC2 API.
*/
AssignIpv6AddressOnCreation?: AttributeBooleanValue;
/**
* Specify true to indicate that ENIs attached to instances created in the specified subnet should be assigned a public IPv4 address.
*/
MapPublicIpOnLaunch?: AttributeBooleanValue;
/**
* The ID of the subnet.
*/
SubnetId: SubnetId;
}
export interface ModifyTrafficMirrorFilterNetworkServicesRequest {
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterId: TrafficMirrorFilterId;
/**
* The network service, for example Amazon DNS, that you want to mirror.
*/
AddNetworkServices?: TrafficMirrorNetworkServiceList;
/**
* The network service, for example Amazon DNS, that you no longer want to mirror.
*/
RemoveNetworkServices?: TrafficMirrorNetworkServiceList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyTrafficMirrorFilterNetworkServicesResult {
/**
* The Traffic Mirror filter that the network service is associated with.
*/
TrafficMirrorFilter?: TrafficMirrorFilter;
}
export interface ModifyTrafficMirrorFilterRuleRequest {
/**
* The ID of the Traffic Mirror rule.
*/
TrafficMirrorFilterRuleId: TrafficMirrorFilterRuleId;
/**
* The type of traffic (ingress | egress) to assign to the rule.
*/
TrafficDirection?: TrafficDirection;
/**
* The number of the Traffic Mirror rule. This number must be unique for each Traffic Mirror rule in a given direction. The rules are processed in ascending order by rule number.
*/
RuleNumber?: Integer;
/**
* The action to assign to the rule.
*/
RuleAction?: TrafficMirrorRuleAction;
/**
* The destination ports that are associated with the Traffic Mirror rule.
*/
DestinationPortRange?: TrafficMirrorPortRangeRequest;
/**
* The port range to assign to the Traffic Mirror rule.
*/
SourcePortRange?: TrafficMirrorPortRangeRequest;
/**
* The protocol, for example TCP, to assign to the Traffic Mirror rule.
*/
Protocol?: Integer;
/**
* The destination CIDR block to assign to the Traffic Mirror rule.
*/
DestinationCidrBlock?: String;
/**
* The source CIDR block to assign to the Traffic Mirror rule.
*/
SourceCidrBlock?: String;
/**
* The description to assign to the Traffic Mirror rule.
*/
Description?: String;
/**
* The properties that you want to remove from the Traffic Mirror filter rule. When you remove a property from a Traffic Mirror filter rule, the property is set to the default.
*/
RemoveFields?: TrafficMirrorFilterRuleFieldList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyTrafficMirrorFilterRuleResult {
/**
* Modifies a Traffic Mirror rule.
*/
TrafficMirrorFilterRule?: TrafficMirrorFilterRule;
}
export interface ModifyTrafficMirrorSessionRequest {
/**
* The ID of the Traffic Mirror session.
*/
TrafficMirrorSessionId: TrafficMirrorSessionId;
/**
* The Traffic Mirror target. The target must be in the same VPC as the source, or have a VPC peering connection with the source.
*/
TrafficMirrorTargetId?: TrafficMirrorTargetId;
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterId?: TrafficMirrorFilterId;
/**
* The number of bytes in each packet to mirror. These are bytes after the VXLAN header. To mirror a subset, set this to the length (in bytes) to mirror. For example, if you set this value to 100, then the first 100 bytes that meet the filter criteria are copied to the target. Do not specify this parameter when you want to mirror the entire packet.
*/
PacketLength?: Integer;
/**
* The session number determines the order in which sessions are evaluated when an interface is used by multiple sessions. The first session with a matching filter is the one that mirrors the packets. Valid values are 1-32766.
*/
SessionNumber?: Integer;
/**
* The virtual network ID of the Traffic Mirror session.
*/
VirtualNetworkId?: Integer;
/**
* The description to assign to the Traffic Mirror session.
*/
Description?: String;
/**
* The properties that you want to remove from the Traffic Mirror session. When you remove a property from a Traffic Mirror session, the property is set to the default.
*/
RemoveFields?: TrafficMirrorSessionFieldList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyTrafficMirrorSessionResult {
/**
* Information about the Traffic Mirror session.
*/
TrafficMirrorSession?: TrafficMirrorSession;
}
export interface ModifyTransitGatewayVpcAttachmentRequest {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* The IDs of one or more subnets to add. You can specify at most one subnet per Availability Zone.
*/
AddSubnetIds?: ValueStringList;
/**
* The IDs of one or more subnets to remove.
*/
RemoveSubnetIds?: ValueStringList;
/**
* The new VPC attachment options.
*/
Options?: ModifyTransitGatewayVpcAttachmentRequestOptions;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyTransitGatewayVpcAttachmentRequestOptions {
/**
* Enable or disable DNS support. The default is enable.
*/
DnsSupport?: DnsSupportValue;
/**
* Enable or disable IPv6 support. The default is enable.
*/
Ipv6Support?: Ipv6SupportValue;
}
export interface ModifyTransitGatewayVpcAttachmentResult {
/**
* Information about the modified attachment.
*/
TransitGatewayVpcAttachment?: TransitGatewayVpcAttachment;
}
export interface ModifyVolumeAttributeRequest {
/**
* Indicates whether the volume should be auto-enabled for I/O operations.
*/
AutoEnableIO?: AttributeBooleanValue;
/**
* The ID of the volume.
*/
VolumeId: VolumeId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyVolumeRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the volume.
*/
VolumeId: VolumeId;
/**
* The target size of the volume, in GiB. The target volume size must be greater than or equal to than the existing size of the volume. For information about available EBS volume sizes, see Amazon EBS Volume Types. Default: If no size is specified, the existing size is retained.
*/
Size?: Integer;
/**
* The target EBS volume type of the volume. Default: If no type is specified, the existing type is retained.
*/
VolumeType?: VolumeType;
/**
* The target IOPS rate of the volume. This is only valid for Provisioned IOPS SSD (io1) volumes. For more information, see Provisioned IOPS SSD (io1) Volumes. Default: If no IOPS value is specified, the existing value is retained.
*/
Iops?: Integer;
}
export interface ModifyVolumeResult {
/**
* Information about the volume modification.
*/
VolumeModification?: VolumeModification;
}
export interface ModifyVpcAttributeRequest {
/**
* Indicates whether the instances launched in the VPC get DNS hostnames. If enabled, instances in the VPC get DNS hostnames; otherwise, they do not. You cannot modify the DNS resolution and DNS hostnames attributes in the same request. Use separate requests for each attribute. You can only enable DNS hostnames if you've enabled DNS support.
*/
EnableDnsHostnames?: AttributeBooleanValue;
/**
* Indicates whether the DNS resolution is supported for the VPC. If enabled, queries to the Amazon provided DNS server at the 169.254.169.253 IP address, or the reserved IP address at the base of the VPC network range "plus two" succeed. If disabled, the Amazon provided DNS service in the VPC that resolves public DNS hostnames to IP addresses is not enabled. You cannot modify the DNS resolution and DNS hostnames attributes in the same request. Use separate requests for each attribute.
*/
EnableDnsSupport?: AttributeBooleanValue;
/**
* The ID of the VPC.
*/
VpcId: VpcId;
}
export interface ModifyVpcEndpointConnectionNotificationRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the notification.
*/
ConnectionNotificationId: ConnectionNotificationId;
/**
* The ARN for the SNS topic for the notification.
*/
ConnectionNotificationArn?: String;
/**
* One or more events for the endpoint. Valid values are Accept, Connect, Delete, and Reject.
*/
ConnectionEvents?: ValueStringList;
}
export interface ModifyVpcEndpointConnectionNotificationResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
ReturnValue?: Boolean;
}
export interface ModifyVpcEndpointRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the endpoint.
*/
VpcEndpointId: VpcEndpointId;
/**
* (Gateway endpoint) Specify true to reset the policy document to the default policy. The default policy allows full access to the service.
*/
ResetPolicy?: Boolean;
/**
* A policy to attach to the endpoint that controls access to the service. The policy must be in valid JSON format.
*/
PolicyDocument?: String;
/**
* (Gateway endpoint) One or more route tables IDs to associate with the endpoint.
*/
AddRouteTableIds?: ValueStringList;
/**
* (Gateway endpoint) One or more route table IDs to disassociate from the endpoint.
*/
RemoveRouteTableIds?: ValueStringList;
/**
* (Interface endpoint) One or more subnet IDs in which to serve the endpoint.
*/
AddSubnetIds?: ValueStringList;
/**
* (Interface endpoint) One or more subnets IDs in which to remove the endpoint.
*/
RemoveSubnetIds?: ValueStringList;
/**
* (Interface endpoint) One or more security group IDs to associate with the network interface.
*/
AddSecurityGroupIds?: ValueStringList;
/**
* (Interface endpoint) One or more security group IDs to disassociate from the network interface.
*/
RemoveSecurityGroupIds?: ValueStringList;
/**
* (Interface endpoint) Indicate whether a private hosted zone is associated with the VPC.
*/
PrivateDnsEnabled?: Boolean;
}
export interface ModifyVpcEndpointResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface ModifyVpcEndpointServiceConfigurationRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the service.
*/
ServiceId: ServiceId;
/**
* Indicate whether requests to create an endpoint to your service must be accepted.
*/
AcceptanceRequired?: Boolean;
/**
* The Amazon Resource Names (ARNs) of Network Load Balancers to add to your service configuration.
*/
AddNetworkLoadBalancerArns?: ValueStringList;
/**
* The Amazon Resource Names (ARNs) of Network Load Balancers to remove from your service configuration.
*/
RemoveNetworkLoadBalancerArns?: ValueStringList;
}
export interface ModifyVpcEndpointServiceConfigurationResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface ModifyVpcEndpointServicePermissionsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the service.
*/
ServiceId: String;
/**
* The Amazon Resource Names (ARN) of one or more principals. Permissions are granted to the principals in this list. To grant permissions to all principals, specify an asterisk (*).
*/
AddAllowedPrincipals?: ValueStringList;
/**
* The Amazon Resource Names (ARN) of one or more principals. Permissions are revoked for principals in this list.
*/
RemoveAllowedPrincipals?: ValueStringList;
}
export interface ModifyVpcEndpointServicePermissionsResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
ReturnValue?: Boolean;
}
export interface ModifyVpcPeeringConnectionOptionsRequest {
/**
* The VPC peering connection options for the accepter VPC.
*/
AccepterPeeringConnectionOptions?: PeeringConnectionOptionsRequest;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The VPC peering connection options for the requester VPC.
*/
RequesterPeeringConnectionOptions?: PeeringConnectionOptionsRequest;
/**
* The ID of the VPC peering connection.
*/
VpcPeeringConnectionId: VpcPeeringConnectionId;
}
export interface ModifyVpcPeeringConnectionOptionsResult {
/**
* Information about the VPC peering connection options for the accepter VPC.
*/
AccepterPeeringConnectionOptions?: PeeringConnectionOptions;
/**
* Information about the VPC peering connection options for the requester VPC.
*/
RequesterPeeringConnectionOptions?: PeeringConnectionOptions;
}
export interface ModifyVpcTenancyRequest {
/**
* The ID of the VPC.
*/
VpcId: VpcId;
/**
* The instance tenancy attribute for the VPC.
*/
InstanceTenancy: VpcTenancy;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyVpcTenancyResult {
/**
* Returns true if the request succeeds; otherwise, returns an error.
*/
ReturnValue?: Boolean;
}
export interface ModifyVpnConnectionRequest {
/**
* The ID of the VPN connection.
*/
VpnConnectionId: VpnConnectionId;
/**
* The ID of the transit gateway.
*/
TransitGatewayId?: TransitGatewayId;
/**
* The ID of the customer gateway at your end of the VPN connection.
*/
CustomerGatewayId?: CustomerGatewayId;
/**
* The ID of the virtual private gateway at the AWS side of the VPN connection.
*/
VpnGatewayId?: VpnGatewayId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyVpnConnectionResult {
VpnConnection?: VpnConnection;
}
export interface ModifyVpnTunnelCertificateRequest {
/**
* The ID of the AWS Site-to-Site VPN connection.
*/
VpnConnectionId: VpnConnectionId;
/**
* The external IP address of the VPN tunnel.
*/
VpnTunnelOutsideIpAddress: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyVpnTunnelCertificateResult {
VpnConnection?: VpnConnection;
}
export interface ModifyVpnTunnelOptionsRequest {
/**
* The ID of the AWS Site-to-Site VPN connection.
*/
VpnConnectionId: VpnConnectionId;
/**
* The external IP address of the VPN tunnel.
*/
VpnTunnelOutsideIpAddress: String;
/**
* The tunnel options to modify.
*/
TunnelOptions: ModifyVpnTunnelOptionsSpecification;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ModifyVpnTunnelOptionsResult {
VpnConnection?: VpnConnection;
}
export interface ModifyVpnTunnelOptionsSpecification {
/**
* The range of inside IP addresses for the tunnel. Any specified CIDR blocks must be unique across all VPN connections that use the same virtual private gateway. Constraints: A size /30 CIDR block from the 169.254.0.0/16 range. The following CIDR blocks are reserved and cannot be used: 169.254.0.0/30 169.254.1.0/30 169.254.2.0/30 169.254.3.0/30 169.254.4.0/30 169.254.5.0/30 169.254.169.252/30
*/
TunnelInsideCidr?: String;
/**
* The pre-shared key (PSK) to establish initial authentication between the virtual private gateway and the customer gateway. Constraints: Allowed characters are alphanumeric characters, periods (.), and underscores (_). Must be between 8 and 64 characters in length and cannot start with zero (0).
*/
PreSharedKey?: String;
/**
* The lifetime for phase 1 of the IKE negotiation, in seconds. Constraints: A value between 900 and 28,800. Default: 28800
*/
Phase1LifetimeSeconds?: Integer;
/**
* The lifetime for phase 2 of the IKE negotiation, in seconds. Constraints: A value between 900 and 3,600. The value must be less than the value for Phase1LifetimeSeconds. Default: 3600
*/
Phase2LifetimeSeconds?: Integer;
/**
* The margin time, in seconds, before the phase 2 lifetime expires, during which the AWS side of the VPN connection performs an IKE rekey. The exact time of the rekey is randomly selected based on the value for RekeyFuzzPercentage. Constraints: A value between 60 and half of Phase2LifetimeSeconds. Default: 540
*/
RekeyMarginTimeSeconds?: Integer;
/**
* The percentage of the rekey window (determined by RekeyMarginTimeSeconds) during which the rekey time is randomly selected. Constraints: A value between 0 and 100. Default: 100
*/
RekeyFuzzPercentage?: Integer;
/**
* The number of packets in an IKE replay window. Constraints: A value between 64 and 2048. Default: 1024
*/
ReplayWindowSize?: Integer;
/**
* The number of seconds after which a DPD timeout occurs. Constraints: A value between 0 and 30. Default: 30
*/
DPDTimeoutSeconds?: Integer;
/**
* One or more encryption algorithms that are permitted for the VPN tunnel for phase 1 IKE negotiations. Valid values: AES128 | AES256
*/
Phase1EncryptionAlgorithms?: Phase1EncryptionAlgorithmsRequestList;
/**
* One or more encryption algorithms that are permitted for the VPN tunnel for phase 2 IKE negotiations. Valid values: AES128 | AES256
*/
Phase2EncryptionAlgorithms?: Phase2EncryptionAlgorithmsRequestList;
/**
* One or more integrity algorithms that are permitted for the VPN tunnel for phase 1 IKE negotiations. Valid values: SHA1 | SHA2-256
*/
Phase1IntegrityAlgorithms?: Phase1IntegrityAlgorithmsRequestList;
/**
* One or more integrity algorithms that are permitted for the VPN tunnel for phase 2 IKE negotiations. Valid values: SHA1 | SHA2-256
*/
Phase2IntegrityAlgorithms?: Phase2IntegrityAlgorithmsRequestList;
/**
* One or more Diffie-Hellman group numbers that are permitted for the VPN tunnel for phase 1 IKE negotiations. Valid values: 2 | 14 | 15 | 16 | 17 | 18 | 22 | 23 | 24
*/
Phase1DHGroupNumbers?: Phase1DHGroupNumbersRequestList;
/**
* One or more Diffie-Hellman group numbers that are permitted for the VPN tunnel for phase 2 IKE negotiations. Valid values: 2 | 5 | 14 | 15 | 16 | 17 | 18 | 22 | 23 | 24
*/
Phase2DHGroupNumbers?: Phase2DHGroupNumbersRequestList;
/**
* The IKE versions that are permitted for the VPN tunnel. Valid values: ikev1 | ikev2
*/
IKEVersions?: IKEVersionsRequestList;
}
export interface MonitorInstancesRequest {
/**
* The IDs of the instances.
*/
InstanceIds: InstanceIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface MonitorInstancesResult {
/**
* The monitoring information.
*/
InstanceMonitorings?: InstanceMonitoringList;
}
export interface Monitoring {
/**
* Indicates whether detailed monitoring is enabled. Otherwise, basic monitoring is enabled.
*/
State?: MonitoringState;
}
export type MonitoringState = "disabled"|"disabling"|"enabled"|"pending"|string;
export interface MoveAddressToVpcRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The Elastic IP address.
*/
PublicIp: String;
}
export interface MoveAddressToVpcResult {
/**
* The allocation ID for the Elastic IP address.
*/
AllocationId?: String;
/**
* The status of the move of the IP address.
*/
Status?: Status;
}
export type MoveStatus = "movingToVpc"|"restoringToClassic"|string;
export interface MovingAddressStatus {
/**
* The status of the Elastic IP address that's being moved to the EC2-VPC platform, or restored to the EC2-Classic platform.
*/
MoveStatus?: MoveStatus;
/**
* The Elastic IP address.
*/
PublicIp?: String;
}
export type MovingAddressStatusSet = MovingAddressStatus[];
export interface NatGateway {
/**
* The date and time the NAT gateway was created.
*/
CreateTime?: DateTime;
/**
* The date and time the NAT gateway was deleted, if applicable.
*/
DeleteTime?: DateTime;
/**
* If the NAT gateway could not be created, specifies the error code for the failure. (InsufficientFreeAddressesInSubnet | Gateway.NotAttached | InvalidAllocationID.NotFound | Resource.AlreadyAssociated | InternalError | InvalidSubnetID.NotFound)
*/
FailureCode?: String;
/**
* If the NAT gateway could not be created, specifies the error message for the failure, that corresponds to the error code. For InsufficientFreeAddressesInSubnet: "Subnet has insufficient free addresses to create this NAT gateway" For Gateway.NotAttached: "Network vpc-xxxxxxxx has no Internet gateway attached" For InvalidAllocationID.NotFound: "Elastic IP address eipalloc-xxxxxxxx could not be associated with this NAT gateway" For Resource.AlreadyAssociated: "Elastic IP address eipalloc-xxxxxxxx is already associated" For InternalError: "Network interface eni-xxxxxxxx, created and used internally by this NAT gateway is in an invalid state. Please try again." For InvalidSubnetID.NotFound: "The specified subnet subnet-xxxxxxxx does not exist or could not be found."
*/
FailureMessage?: String;
/**
* Information about the IP addresses and network interface associated with the NAT gateway.
*/
NatGatewayAddresses?: NatGatewayAddressList;
/**
* The ID of the NAT gateway.
*/
NatGatewayId?: String;
/**
* Reserved. If you need to sustain traffic greater than the documented limits, contact us through the Support Center.
*/
ProvisionedBandwidth?: ProvisionedBandwidth;
/**
* The state of the NAT gateway. pending: The NAT gateway is being created and is not ready to process traffic. failed: The NAT gateway could not be created. Check the failureCode and failureMessage fields for the reason. available: The NAT gateway is able to process traffic. This status remains until you delete the NAT gateway, and does not indicate the health of the NAT gateway. deleting: The NAT gateway is in the process of being terminated and may still be processing traffic. deleted: The NAT gateway has been terminated and is no longer processing traffic.
*/
State?: NatGatewayState;
/**
* The ID of the subnet in which the NAT gateway is located.
*/
SubnetId?: String;
/**
* The ID of the VPC in which the NAT gateway is located.
*/
VpcId?: String;
/**
* The tags for the NAT gateway.
*/
Tags?: TagList;
}
export interface NatGatewayAddress {
/**
* The allocation ID of the Elastic IP address that's associated with the NAT gateway.
*/
AllocationId?: String;
/**
* The ID of the network interface associated with the NAT gateway.
*/
NetworkInterfaceId?: String;
/**
* The private IP address associated with the Elastic IP address.
*/
PrivateIp?: String;
/**
* The Elastic IP address associated with the NAT gateway.
*/
PublicIp?: String;
}
export type NatGatewayAddressList = NatGatewayAddress[];
export type NatGatewayId = string;
export type NatGatewayList = NatGateway[];
export type NatGatewayState = "pending"|"failed"|"available"|"deleting"|"deleted"|string;
export interface NetworkAcl {
/**
* Any associations between the network ACL and one or more subnets
*/
Associations?: NetworkAclAssociationList;
/**
* One or more entries (rules) in the network ACL.
*/
Entries?: NetworkAclEntryList;
/**
* Indicates whether this is the default network ACL for the VPC.
*/
IsDefault?: Boolean;
/**
* The ID of the network ACL.
*/
NetworkAclId?: String;
/**
* Any tags assigned to the network ACL.
*/
Tags?: TagList;
/**
* The ID of the VPC for the network ACL.
*/
VpcId?: String;
/**
* The ID of the AWS account that owns the network ACL.
*/
OwnerId?: String;
}
export interface NetworkAclAssociation {
/**
* The ID of the association between a network ACL and a subnet.
*/
NetworkAclAssociationId?: String;
/**
* The ID of the network ACL.
*/
NetworkAclId?: String;
/**
* The ID of the subnet.
*/
SubnetId?: String;
}
export type NetworkAclAssociationId = string;
export type NetworkAclAssociationList = NetworkAclAssociation[];
export interface NetworkAclEntry {
/**
* The IPv4 network range to allow or deny, in CIDR notation.
*/
CidrBlock?: String;
/**
* Indicates whether the rule is an egress rule (applied to traffic leaving the subnet).
*/
Egress?: Boolean;
/**
* ICMP protocol: The ICMP type and code.
*/
IcmpTypeCode?: IcmpTypeCode;
/**
* The IPv6 network range to allow or deny, in CIDR notation.
*/
Ipv6CidrBlock?: String;
/**
* TCP or UDP protocols: The range of ports the rule applies to.
*/
PortRange?: PortRange;
/**
* The protocol number. A value of "-1" means all protocols.
*/
Protocol?: String;
/**
* Indicates whether to allow or deny the traffic that matches the rule.
*/
RuleAction?: RuleAction;
/**
* The rule number for the entry. ACL entries are processed in ascending order by rule number.
*/
RuleNumber?: Integer;
}
export type NetworkAclEntryList = NetworkAclEntry[];
export type NetworkAclId = string;
export type NetworkAclList = NetworkAcl[];
export interface NetworkInterface {
/**
* The association information for an Elastic IP address (IPv4) associated with the network interface.
*/
Association?: NetworkInterfaceAssociation;
/**
* The network interface attachment.
*/
Attachment?: NetworkInterfaceAttachment;
/**
* The Availability Zone.
*/
AvailabilityZone?: String;
/**
* A description.
*/
Description?: String;
/**
* Any security groups for the network interface.
*/
Groups?: GroupIdentifierList;
/**
* The type of network interface.
*/
InterfaceType?: NetworkInterfaceType;
/**
* The IPv6 addresses associated with the network interface.
*/
Ipv6Addresses?: NetworkInterfaceIpv6AddressesList;
/**
* The MAC address.
*/
MacAddress?: String;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The AWS account ID of the owner of the network interface.
*/
OwnerId?: String;
/**
* The private DNS name.
*/
PrivateDnsName?: String;
/**
* The IPv4 address of the network interface within the subnet.
*/
PrivateIpAddress?: String;
/**
* The private IPv4 addresses associated with the network interface.
*/
PrivateIpAddresses?: NetworkInterfacePrivateIpAddressList;
/**
* The ID of the entity that launched the instance on your behalf (for example, AWS Management Console or Auto Scaling).
*/
RequesterId?: String;
/**
* Indicates whether the network interface is being managed by AWS.
*/
RequesterManaged?: Boolean;
/**
* Indicates whether traffic to or from the instance is validated.
*/
SourceDestCheck?: Boolean;
/**
* The status of the network interface.
*/
Status?: NetworkInterfaceStatus;
/**
* The ID of the subnet.
*/
SubnetId?: String;
/**
* Any tags assigned to the network interface.
*/
TagSet?: TagList;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export interface NetworkInterfaceAssociation {
/**
* The allocation ID.
*/
AllocationId?: String;
/**
* The association ID.
*/
AssociationId?: String;
/**
* The ID of the Elastic IP address owner.
*/
IpOwnerId?: String;
/**
* The public DNS name.
*/
PublicDnsName?: String;
/**
* The address of the Elastic IP address bound to the network interface.
*/
PublicIp?: String;
}
export interface NetworkInterfaceAttachment {
/**
* The timestamp indicating when the attachment initiated.
*/
AttachTime?: DateTime;
/**
* The ID of the network interface attachment.
*/
AttachmentId?: String;
/**
* Indicates whether the network interface is deleted when the instance is terminated.
*/
DeleteOnTermination?: Boolean;
/**
* The device index of the network interface attachment on the instance.
*/
DeviceIndex?: Integer;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The AWS account ID of the owner of the instance.
*/
InstanceOwnerId?: String;
/**
* The attachment state.
*/
Status?: AttachmentStatus;
}
export interface NetworkInterfaceAttachmentChanges {
/**
* The ID of the network interface attachment.
*/
AttachmentId?: String;
/**
* Indicates whether the network interface is deleted when the instance is terminated.
*/
DeleteOnTermination?: Boolean;
}
export type NetworkInterfaceAttribute = "description"|"groupSet"|"sourceDestCheck"|"attachment"|string;
export type NetworkInterfaceCreationType = "efa"|string;
export type NetworkInterfaceId = string;
export type NetworkInterfaceIdList = String[];
export interface NetworkInterfaceIpv6Address {
/**
* The IPv6 address.
*/
Ipv6Address?: String;
}
export type NetworkInterfaceIpv6AddressesList = NetworkInterfaceIpv6Address[];
export type NetworkInterfaceList = NetworkInterface[];
export interface NetworkInterfacePermission {
/**
* The ID of the network interface permission.
*/
NetworkInterfacePermissionId?: String;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The AWS account ID.
*/
AwsAccountId?: String;
/**
* The AWS service.
*/
AwsService?: String;
/**
* The type of permission.
*/
Permission?: InterfacePermissionType;
/**
* Information about the state of the permission.
*/
PermissionState?: NetworkInterfacePermissionState;
}
export type NetworkInterfacePermissionIdList = String[];
export type NetworkInterfacePermissionList = NetworkInterfacePermission[];
export interface NetworkInterfacePermissionState {
/**
* The state of the permission.
*/
State?: NetworkInterfacePermissionStateCode;
/**
* A status message, if applicable.
*/
StatusMessage?: String;
}
export type NetworkInterfacePermissionStateCode = "pending"|"granted"|"revoking"|"revoked"|string;
export interface NetworkInterfacePrivateIpAddress {
/**
* The association information for an Elastic IP address (IPv4) associated with the network interface.
*/
Association?: NetworkInterfaceAssociation;
/**
* Indicates whether this IPv4 address is the primary private IPv4 address of the network interface.
*/
Primary?: Boolean;
/**
* The private DNS name.
*/
PrivateDnsName?: String;
/**
* The private IPv4 address.
*/
PrivateIpAddress?: String;
}
export type NetworkInterfacePrivateIpAddressList = NetworkInterfacePrivateIpAddress[];
export type NetworkInterfaceStatus = "available"|"associated"|"attaching"|"in-use"|"detaching"|string;
export type NetworkInterfaceType = "interface"|"natGateway"|"efa"|string;
export interface NewDhcpConfiguration {
Key?: String;
Values?: ValueStringList;
}
export type NewDhcpConfigurationList = NewDhcpConfiguration[];
export type NextToken = string;
export type OccurrenceDayRequestSet = Integer[];
export type OccurrenceDaySet = Integer[];
export type OfferingClassType = "standard"|"convertible"|string;
export type OfferingId = string;
export type OfferingTypeValues = "Heavy Utilization"|"Medium Utilization"|"Light Utilization"|"No Upfront"|"Partial Upfront"|"All Upfront"|string;
export type OnDemandAllocationStrategy = "lowestPrice"|"prioritized"|string;
export interface OnDemandOptions {
/**
* The order of the launch template overrides to use in fulfilling On-Demand capacity. If you specify lowest-price, EC2 Fleet uses price to determine the order, launching the lowest price first. If you specify prioritized, EC2 Fleet uses the priority that you assigned to each launch template override, launching the highest priority first. If you do not specify a value, EC2 Fleet defaults to lowest-price.
*/
AllocationStrategy?: FleetOnDemandAllocationStrategy;
/**
* Indicates that the fleet uses a single instance type to launch all On-Demand Instances in the fleet.
*/
SingleInstanceType?: Boolean;
/**
* Indicates that the fleet launches all On-Demand Instances into a single Availability Zone.
*/
SingleAvailabilityZone?: Boolean;
/**
* The minimum target capacity for On-Demand Instances in the fleet. If the minimum target capacity is not reached, the fleet launches no instances.
*/
MinTargetCapacity?: Integer;
/**
* The maximum amount per hour for On-Demand Instances that you're willing to pay.
*/
MaxTotalPrice?: String;
}
export interface OnDemandOptionsRequest {
/**
* The order of the launch template overrides to use in fulfilling On-Demand capacity. If you specify lowest-price, EC2 Fleet uses price to determine the order, launching the lowest price first. If you specify prioritized, EC2 Fleet uses the priority that you assigned to each launch template override, launching the highest priority first. If you do not specify a value, EC2 Fleet defaults to lowest-price.
*/
AllocationStrategy?: FleetOnDemandAllocationStrategy;
/**
* Indicates that the fleet uses a single instance type to launch all On-Demand Instances in the fleet.
*/
SingleInstanceType?: Boolean;
/**
* Indicates that the fleet launches all On-Demand Instances into a single Availability Zone.
*/
SingleAvailabilityZone?: Boolean;
/**
* The minimum target capacity for On-Demand Instances in the fleet. If the minimum target capacity is not reached, the fleet launches no instances.
*/
MinTargetCapacity?: Integer;
/**
* The maximum amount per hour for On-Demand Instances that you're willing to pay.
*/
MaxTotalPrice?: String;
}
export type OperationType = "add"|"remove"|string;
export type OwnerStringList = String[];
export type PaymentOption = "AllUpfront"|"PartialUpfront"|"NoUpfront"|string;
export interface PciId {
/**
* The ID of the device.
*/
DeviceId?: String;
/**
* The ID of the vendor.
*/
VendorId?: String;
/**
* The ID of the subsystem.
*/
SubsystemId?: String;
/**
* The ID of the vendor for the subsystem.
*/
SubsystemVendorId?: String;
}
export interface PeeringConnectionOptions {
/**
* If true, the public DNS hostnames of instances in the specified VPC resolve to private IP addresses when queried from instances in the peer VPC.
*/
AllowDnsResolutionFromRemoteVpc?: Boolean;
/**
* If true, enables outbound communication from an EC2-Classic instance that's linked to a local VPC using ClassicLink to instances in a peer VPC.
*/
AllowEgressFromLocalClassicLinkToRemoteVpc?: Boolean;
/**
* If true, enables outbound communication from instances in a local VPC to an EC2-Classic instance that's linked to a peer VPC using ClassicLink.
*/
AllowEgressFromLocalVpcToRemoteClassicLink?: Boolean;
}
export interface PeeringConnectionOptionsRequest {
/**
* If true, enables a local VPC to resolve public DNS hostnames to private IP addresses when queried from instances in the peer VPC.
*/
AllowDnsResolutionFromRemoteVpc?: Boolean;
/**
* If true, enables outbound communication from an EC2-Classic instance that's linked to a local VPC using ClassicLink to instances in a peer VPC.
*/
AllowEgressFromLocalClassicLinkToRemoteVpc?: Boolean;
/**
* If true, enables outbound communication from instances in a local VPC to an EC2-Classic instance that's linked to a peer VPC using ClassicLink.
*/
AllowEgressFromLocalVpcToRemoteClassicLink?: Boolean;
}
export type PermissionGroup = "all"|string;
export type Phase1DHGroupNumbersList = Phase1DHGroupNumbersListValue[];
export interface Phase1DHGroupNumbersListValue {
/**
* The Diffie-Hellmann group number.
*/
Value?: Integer;
}
export type Phase1DHGroupNumbersRequestList = Phase1DHGroupNumbersRequestListValue[];
export interface Phase1DHGroupNumbersRequestListValue {
/**
* The Diffie-Hellmann group number.
*/
Value?: Integer;
}
export type Phase1EncryptionAlgorithmsList = Phase1EncryptionAlgorithmsListValue[];
export interface Phase1EncryptionAlgorithmsListValue {
/**
* The value for the encryption algorithm.
*/
Value?: String;
}
export type Phase1EncryptionAlgorithmsRequestList = Phase1EncryptionAlgorithmsRequestListValue[];
export interface Phase1EncryptionAlgorithmsRequestListValue {
/**
* The value for the encryption algorithm.
*/
Value?: String;
}
export type Phase1IntegrityAlgorithmsList = Phase1IntegrityAlgorithmsListValue[];
export interface Phase1IntegrityAlgorithmsListValue {
/**
* The value for the integrity algorithm.
*/
Value?: String;
}
export type Phase1IntegrityAlgorithmsRequestList = Phase1IntegrityAlgorithmsRequestListValue[];
export interface Phase1IntegrityAlgorithmsRequestListValue {
/**
* The value for the integrity algorithm.
*/
Value?: String;
}
export type Phase2DHGroupNumbersList = Phase2DHGroupNumbersListValue[];
export interface Phase2DHGroupNumbersListValue {
/**
* The Diffie-Hellmann group number.
*/
Value?: Integer;
}
export type Phase2DHGroupNumbersRequestList = Phase2DHGroupNumbersRequestListValue[];
export interface Phase2DHGroupNumbersRequestListValue {
/**
* The Diffie-Hellmann group number.
*/
Value?: Integer;
}
export type Phase2EncryptionAlgorithmsList = Phase2EncryptionAlgorithmsListValue[];
export interface Phase2EncryptionAlgorithmsListValue {
/**
* The encryption algorithm.
*/
Value?: String;
}
export type Phase2EncryptionAlgorithmsRequestList = Phase2EncryptionAlgorithmsRequestListValue[];
export interface Phase2EncryptionAlgorithmsRequestListValue {
/**
* The encryption algorithm.
*/
Value?: String;
}
export type Phase2IntegrityAlgorithmsList = Phase2IntegrityAlgorithmsListValue[];
export interface Phase2IntegrityAlgorithmsListValue {
/**
* The integrity algorithm.
*/
Value?: String;
}
export type Phase2IntegrityAlgorithmsRequestList = Phase2IntegrityAlgorithmsRequestListValue[];
export interface Phase2IntegrityAlgorithmsRequestListValue {
/**
* The integrity algorithm.
*/
Value?: String;
}
export interface Placement {
/**
* The Availability Zone of the instance. If not specified, an Availability Zone will be automatically chosen for you based on the load balancing criteria for the Region.
*/
AvailabilityZone?: String;
/**
* The affinity setting for the instance on the Dedicated Host. This parameter is not supported for the ImportInstance command.
*/
Affinity?: String;
/**
* The name of the placement group the instance is in.
*/
GroupName?: String;
/**
* The number of the partition the instance is in. Valid only if the placement group strategy is set to partition.
*/
PartitionNumber?: Integer;
/**
* The ID of the Dedicated Host on which the instance resides. This parameter is not supported for the ImportInstance command.
*/
HostId?: String;
/**
* The tenancy of the instance (if the instance is running in a VPC). An instance with a tenancy of dedicated runs on single-tenant hardware. The host tenancy is not supported for the ImportInstance command.
*/
Tenancy?: Tenancy;
/**
* Reserved for future use.
*/
SpreadDomain?: String;
}
export interface PlacementGroup {
/**
* The name of the placement group.
*/
GroupName?: String;
/**
* The state of the placement group.
*/
State?: PlacementGroupState;
/**
* The placement strategy.
*/
Strategy?: PlacementStrategy;
/**
* The number of partitions. Valid only if strategy is set to partition.
*/
PartitionCount?: Integer;
}
export type PlacementGroupList = PlacementGroup[];
export type PlacementGroupName = string;
export type PlacementGroupState = "pending"|"available"|"deleting"|"deleted"|string;
export type PlacementGroupStringList = String[];
export interface PlacementResponse {
/**
* The name of the placement group the instance is in.
*/
GroupName?: String;
}
export type PlacementStrategy = "cluster"|"spread"|"partition"|string;
export type PlatformValues = "Windows"|string;
export type PoolMaxResults = number;
export interface PortRange {
/**
* The first port in the range.
*/
From?: Integer;
/**
* The last port in the range.
*/
To?: Integer;
}
export interface PrefixList {
/**
* The IP address range of the AWS service.
*/
Cidrs?: ValueStringList;
/**
* The ID of the prefix.
*/
PrefixListId?: String;
/**
* The name of the prefix.
*/
PrefixListName?: String;
}
export interface PrefixListId {
/**
* A description for the security group rule that references this prefix list ID. Constraints: Up to 255 characters in length. Allowed characters are a-z, A-Z, 0-9, spaces, and ._-:/()#,@[]+=;{}!$*
*/
Description?: String;
/**
* The ID of the prefix.
*/
PrefixListId?: String;
}
export type PrefixListIdList = PrefixListId[];
export type PrefixListIdSet = String[];
export type PrefixListSet = PrefixList[];
export interface PriceSchedule {
/**
* The current price schedule, as determined by the term remaining for the Reserved Instance in the listing. A specific price schedule is always in effect, but only one price schedule can be active at any time. Take, for example, a Reserved Instance listing that has five months remaining in its term. When you specify price schedules for five months and two months, this means that schedule 1, covering the first three months of the remaining term, will be active during months 5, 4, and 3. Then schedule 2, covering the last two months of the term, will be active for months 2 and 1.
*/
Active?: Boolean;
/**
* The currency for transacting the Reserved Instance resale. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The fixed price for the term.
*/
Price?: Double;
/**
* The number of months remaining in the reservation. For example, 2 is the second to the last month before the capacity reservation expires.
*/
Term?: Long;
}
export type PriceScheduleList = PriceSchedule[];
export interface PriceScheduleSpecification {
/**
* The currency for transacting the Reserved Instance resale. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The fixed price for the term.
*/
Price?: Double;
/**
* The number of months remaining in the reservation. For example, 2 is the second to the last month before the capacity reservation expires.
*/
Term?: Long;
}
export type PriceScheduleSpecificationList = PriceScheduleSpecification[];
export interface PricingDetail {
/**
* The number of reservations available for the price.
*/
Count?: Integer;
/**
* The price per instance.
*/
Price?: Double;
}
export type PricingDetailsList = PricingDetail[];
export interface PrincipalIdFormat {
/**
* PrincipalIdFormatARN description
*/
Arn?: String;
/**
* PrincipalIdFormatStatuses description
*/
Statuses?: IdFormatList;
}
export type PrincipalIdFormatList = PrincipalIdFormat[];
export type PrincipalType = "All"|"Service"|"OrganizationUnit"|"Account"|"User"|"Role"|string;
export type PrivateIpAddressConfigSet = ScheduledInstancesPrivateIpAddressConfig[];
export interface PrivateIpAddressSpecification {
/**
* Indicates whether the private IPv4 address is the primary private IPv4 address. Only one IPv4 address can be designated as primary.
*/
Primary?: Boolean;
/**
* The private IPv4 addresses.
*/
PrivateIpAddress?: String;
}
export type PrivateIpAddressSpecificationList = PrivateIpAddressSpecification[];
export type PrivateIpAddressStringList = String[];
export interface ProductCode {
/**
* The product code.
*/
ProductCodeId?: String;
/**
* The type of product code.
*/
ProductCodeType?: ProductCodeValues;
}
export type ProductCodeList = ProductCode[];
export type ProductCodeStringList = String[];
export type ProductCodeValues = "devpay"|"marketplace"|string;
export type ProductDescriptionList = String[];
export interface PropagatingVgw {
/**
* The ID of the virtual private gateway.
*/
GatewayId?: String;
}
export type PropagatingVgwList = PropagatingVgw[];
export interface ProvisionByoipCidrRequest {
/**
* The public IPv4 address range, in CIDR notation. The most specific prefix that you can specify is /24. The address range cannot overlap with another address range that you've brought to this or another Region.
*/
Cidr: String;
/**
* A signed document that proves that you are authorized to bring the specified IP address range to Amazon using BYOIP.
*/
CidrAuthorizationContext?: CidrAuthorizationContext;
/**
* A description for the address range and the address pool.
*/
Description?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ProvisionByoipCidrResult {
/**
* Information about the address pool.
*/
ByoipCidr?: ByoipCidr;
}
export interface ProvisionedBandwidth {
/**
* Reserved. If you need to sustain traffic greater than the documented limits, contact us through the Support Center.
*/
ProvisionTime?: DateTime;
/**
* Reserved. If you need to sustain traffic greater than the documented limits, contact us through the Support Center.
*/
Provisioned?: String;
/**
* Reserved. If you need to sustain traffic greater than the documented limits, contact us through the Support Center.
*/
RequestTime?: DateTime;
/**
* Reserved. If you need to sustain traffic greater than the documented limits, contact us through the Support Center.
*/
Requested?: String;
/**
* Reserved. If you need to sustain traffic greater than the documented limits, contact us through the Support Center.
*/
Status?: String;
}
export type PublicIpStringList = String[];
export interface PublicIpv4Pool {
/**
* The ID of the IPv4 address pool.
*/
PoolId?: String;
/**
* A description of the address pool.
*/
Description?: String;
/**
* The address ranges.
*/
PoolAddressRanges?: PublicIpv4PoolRangeSet;
/**
* The total number of addresses.
*/
TotalAddressCount?: Integer;
/**
* The total number of available addresses.
*/
TotalAvailableAddressCount?: Integer;
}
export interface PublicIpv4PoolRange {
/**
* The first IP address in the range.
*/
FirstAddress?: String;
/**
* The last IP address in the range.
*/
LastAddress?: String;
/**
* The number of addresses in the range.
*/
AddressCount?: Integer;
/**
* The number of available addresses in the range.
*/
AvailableAddressCount?: Integer;
}
export type PublicIpv4PoolRangeSet = PublicIpv4PoolRange[];
export type PublicIpv4PoolSet = PublicIpv4Pool[];
export interface Purchase {
/**
* The currency in which the UpfrontPrice and HourlyPrice amounts are specified. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The duration of the reservation's term in seconds.
*/
Duration?: Integer;
/**
* The IDs of the Dedicated Hosts associated with the reservation.
*/
HostIdSet?: ResponseHostIdSet;
/**
* The ID of the reservation.
*/
HostReservationId?: String;
/**
* The hourly price of the reservation per hour.
*/
HourlyPrice?: String;
/**
* The instance family on the Dedicated Host that the reservation can be associated with.
*/
InstanceFamily?: String;
/**
* The payment option for the reservation.
*/
PaymentOption?: PaymentOption;
/**
* The upfront price of the reservation.
*/
UpfrontPrice?: String;
}
export interface PurchaseHostReservationRequest {
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* The currency in which the totalUpfrontPrice, LimitPrice, and totalHourlyPrice amounts are specified. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The IDs of the Dedicated Hosts with which the reservation will be associated.
*/
HostIdSet: RequestHostIdSet;
/**
* The specified limit is checked against the total upfront cost of the reservation (calculated as the offering's upfront cost multiplied by the host count). If the total upfront cost is greater than the specified price limit, the request fails. This is used to ensure that the purchase does not exceed the expected upfront cost of the purchase. At this time, the only supported currency is USD. For example, to indicate a limit price of USD 100, specify 100.00.
*/
LimitPrice?: String;
/**
* The ID of the offering.
*/
OfferingId: OfferingId;
}
export interface PurchaseHostReservationResult {
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency.
*/
ClientToken?: String;
/**
* The currency in which the totalUpfrontPrice and totalHourlyPrice amounts are specified. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* Describes the details of the purchase.
*/
Purchase?: PurchaseSet;
/**
* The total hourly price of the reservation calculated per hour.
*/
TotalHourlyPrice?: String;
/**
* The total amount charged to your account when you purchase the reservation.
*/
TotalUpfrontPrice?: String;
}
export interface PurchaseRequest {
/**
* The number of instances.
*/
InstanceCount: Integer;
/**
* The purchase token.
*/
PurchaseToken: String;
}
export type PurchaseRequestSet = PurchaseRequest[];
export interface PurchaseReservedInstancesOfferingRequest {
/**
* The number of Reserved Instances to purchase.
*/
InstanceCount: Integer;
/**
* The ID of the Reserved Instance offering to purchase.
*/
ReservedInstancesOfferingId: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Specified for Reserved Instance Marketplace offerings to limit the total order and ensure that the Reserved Instances are not purchased at unexpected prices.
*/
LimitPrice?: ReservedInstanceLimitPrice;
/**
* The time at which to purchase the Reserved Instance, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
PurchaseTime?: DateTime;
}
export interface PurchaseReservedInstancesOfferingResult {
/**
* The IDs of the purchased Reserved Instances.
*/
ReservedInstancesId?: String;
}
export interface PurchaseScheduledInstancesRequest {
/**
* Unique, case-sensitive identifier that ensures the idempotency of the request. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The purchase requests.
*/
PurchaseRequests: PurchaseRequestSet;
}
export interface PurchaseScheduledInstancesResult {
/**
* Information about the Scheduled Instances.
*/
ScheduledInstanceSet?: PurchasedScheduledInstanceSet;
}
export type PurchaseSet = Purchase[];
export type PurchasedScheduledInstanceSet = ScheduledInstance[];
export type RIProductDescription = "Linux/UNIX"|"Linux/UNIX (Amazon VPC)"|"Windows"|"Windows (Amazon VPC)"|string;
export type RamdiskId = string;
export type ReasonCodesList = ReportInstanceReasonCodes[];
export interface RebootInstancesRequest {
/**
* The instance IDs.
*/
InstanceIds: InstanceIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface RecurringCharge {
/**
* The amount of the recurring charge.
*/
Amount?: Double;
/**
* The frequency of the recurring charge.
*/
Frequency?: RecurringChargeFrequency;
}
export type RecurringChargeFrequency = "Hourly"|string;
export type RecurringChargesList = RecurringCharge[];
export interface Region {
/**
* The Region service endpoint.
*/
Endpoint?: String;
/**
* The name of the Region.
*/
RegionName?: String;
/**
* The Region opt-in status. The possible values are opt-in-not-required, opted-in, and not-opted-in.
*/
OptInStatus?: String;
}
export type RegionList = Region[];
export type RegionNameStringList = String[];
export interface RegisterImageRequest {
/**
* The full path to your AMI manifest in Amazon S3 storage. The specified bucket must have the aws-exec-read canned access control list (ACL) to ensure that it can be accessed by Amazon EC2. For more information, see Canned ACLs in the Amazon S3 Service Developer Guide.
*/
ImageLocation?: String;
/**
* The architecture of the AMI. Default: For Amazon EBS-backed AMIs, i386. For instance store-backed AMIs, the architecture specified in the manifest file.
*/
Architecture?: ArchitectureValues;
/**
* The block device mapping entries.
*/
BlockDeviceMappings?: BlockDeviceMappingRequestList;
/**
* A description for your AMI.
*/
Description?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Set to true to enable enhanced networking with ENA for the AMI and any instances that you launch from the AMI. This option is supported only for HVM AMIs. Specifying this option with a PV AMI can make instances launched from the AMI unreachable.
*/
EnaSupport?: Boolean;
/**
* The ID of the kernel.
*/
KernelId?: KernelId;
/**
* A name for your AMI. Constraints: 3-128 alphanumeric characters, parentheses (()), square brackets ([]), spaces ( ), periods (.), slashes (/), dashes (-), single quotes ('), at-signs (@), or underscores(_)
*/
Name: String;
/**
* The billing product codes. Your account must be authorized to specify billing product codes. Otherwise, you can use the AWS Marketplace to bill for the use of an AMI.
*/
BillingProducts?: BillingProductList;
/**
* The ID of the RAM disk.
*/
RamdiskId?: RamdiskId;
/**
* The device name of the root device volume (for example, /dev/sda1).
*/
RootDeviceName?: String;
/**
* Set to simple to enable enhanced networking with the Intel 82599 Virtual Function interface for the AMI and any instances that you launch from the AMI. There is no way to disable sriovNetSupport at this time. This option is supported only for HVM AMIs. Specifying this option with a PV AMI can make instances launched from the AMI unreachable.
*/
SriovNetSupport?: String;
/**
* The type of virtualization (hvm | paravirtual). Default: paravirtual
*/
VirtualizationType?: String;
}
export interface RegisterImageResult {
/**
* The ID of the newly registered AMI.
*/
ImageId?: String;
}
export interface RejectTransitGatewayVpcAttachmentRequest {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId: TransitGatewayAttachmentId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface RejectTransitGatewayVpcAttachmentResult {
/**
* Information about the attachment.
*/
TransitGatewayVpcAttachment?: TransitGatewayVpcAttachment;
}
export interface RejectVpcEndpointConnectionsRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the service.
*/
ServiceId: ServiceId;
/**
* The IDs of one or more VPC endpoints.
*/
VpcEndpointIds: ValueStringList;
}
export interface RejectVpcEndpointConnectionsResult {
/**
* Information about the endpoints that were not rejected, if applicable.
*/
Unsuccessful?: UnsuccessfulItemSet;
}
export interface RejectVpcPeeringConnectionRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the VPC peering connection.
*/
VpcPeeringConnectionId: VpcPeeringConnectionId;
}
export interface RejectVpcPeeringConnectionResult {
/**
* Returns true if the request succeeds; otherwise, it returns an error.
*/
Return?: Boolean;
}
export interface ReleaseAddressRequest {
/**
* [EC2-VPC] The allocation ID. Required for EC2-VPC.
*/
AllocationId?: AllocationId;
/**
* [EC2-Classic] The Elastic IP address. Required for EC2-Classic.
*/
PublicIp?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ReleaseHostsRequest {
/**
* The IDs of the Dedicated Hosts to release.
*/
HostIds: RequestHostIdList;
}
export interface ReleaseHostsResult {
/**
* The IDs of the Dedicated Hosts that were successfully released.
*/
Successful?: ResponseHostIdList;
/**
* The IDs of the Dedicated Hosts that could not be released, including an error message.
*/
Unsuccessful?: UnsuccessfulItemList;
}
export interface ReplaceIamInstanceProfileAssociationRequest {
/**
* The IAM instance profile.
*/
IamInstanceProfile: IamInstanceProfileSpecification;
/**
* The ID of the existing IAM instance profile association.
*/
AssociationId: String;
}
export interface ReplaceIamInstanceProfileAssociationResult {
/**
* Information about the IAM instance profile association.
*/
IamInstanceProfileAssociation?: IamInstanceProfileAssociation;
}
export interface ReplaceNetworkAclAssociationRequest {
/**
* The ID of the current association between the original network ACL and the subnet.
*/
AssociationId: NetworkAclAssociationId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the new network ACL to associate with the subnet.
*/
NetworkAclId: NetworkAclId;
}
export interface ReplaceNetworkAclAssociationResult {
/**
* The ID of the new association.
*/
NewAssociationId?: String;
}
export interface ReplaceNetworkAclEntryRequest {
/**
* The IPv4 network range to allow or deny, in CIDR notation (for example 172.16.0.0/24).
*/
CidrBlock?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Indicates whether to replace the egress rule. Default: If no value is specified, we replace the ingress rule.
*/
Egress: Boolean;
/**
* ICMP protocol: The ICMP or ICMPv6 type and code. Required if specifying protocol 1 (ICMP) or protocol 58 (ICMPv6) with an IPv6 CIDR block.
*/
IcmpTypeCode?: IcmpTypeCode;
/**
* The IPv6 network range to allow or deny, in CIDR notation (for example 2001:bd8:1234:1a00::/64).
*/
Ipv6CidrBlock?: String;
/**
* The ID of the ACL.
*/
NetworkAclId: NetworkAclId;
/**
* TCP or UDP protocols: The range of ports the rule applies to. Required if specifying protocol 6 (TCP) or 17 (UDP).
*/
PortRange?: PortRange;
/**
* The protocol number. A value of "-1" means all protocols. If you specify "-1" or a protocol number other than "6" (TCP), "17" (UDP), or "1" (ICMP), traffic on all ports is allowed, regardless of any ports or ICMP types or codes that you specify. If you specify protocol "58" (ICMPv6) and specify an IPv4 CIDR block, traffic for all ICMP types and codes allowed, regardless of any that you specify. If you specify protocol "58" (ICMPv6) and specify an IPv6 CIDR block, you must specify an ICMP type and code.
*/
Protocol: String;
/**
* Indicates whether to allow or deny the traffic that matches the rule.
*/
RuleAction: RuleAction;
/**
* The rule number of the entry to replace.
*/
RuleNumber: Integer;
}
export interface ReplaceRouteRequest {
/**
* The IPv4 CIDR address block used for the destination match. The value that you provide must match the CIDR of an existing route in the table.
*/
DestinationCidrBlock?: String;
/**
* The IPv6 CIDR address block used for the destination match. The value that you provide must match the CIDR of an existing route in the table.
*/
DestinationIpv6CidrBlock?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* [IPv6 traffic only] The ID of an egress-only internet gateway.
*/
EgressOnlyInternetGatewayId?: EgressOnlyInternetGatewayId;
/**
* The ID of an internet gateway or virtual private gateway.
*/
GatewayId?: RouteTableGatewayId;
/**
* The ID of a NAT instance in your VPC.
*/
InstanceId?: InstanceId;
/**
* [IPv4 traffic only] The ID of a NAT gateway.
*/
NatGatewayId?: NatGatewayId;
/**
* The ID of a transit gateway.
*/
TransitGatewayId?: TransitGatewayId;
/**
* The ID of a network interface.
*/
NetworkInterfaceId?: NetworkInterfaceId;
/**
* The ID of the route table.
*/
RouteTableId: RouteTableId;
/**
* The ID of a VPC peering connection.
*/
VpcPeeringConnectionId?: VpcPeeringConnectionId;
}
export interface ReplaceRouteTableAssociationRequest {
/**
* The association ID.
*/
AssociationId: RouteTableAssociationId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the new route table to associate with the subnet.
*/
RouteTableId: RouteTableId;
}
export interface ReplaceRouteTableAssociationResult {
/**
* The ID of the new association.
*/
NewAssociationId?: String;
}
export interface ReplaceTransitGatewayRouteRequest {
/**
* The CIDR range used for the destination match. Routing decisions are based on the most specific match.
*/
DestinationCidrBlock: String;
/**
* The ID of the route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: TransitGatewayAttachmentId;
/**
* Indicates whether traffic matching this route is to be dropped.
*/
Blackhole?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ReplaceTransitGatewayRouteResult {
/**
* Information about the modified route.
*/
Route?: TransitGatewayRoute;
}
export type ReportInstanceReasonCodes = "instance-stuck-in-state"|"unresponsive"|"not-accepting-credentials"|"password-not-available"|"performance-network"|"performance-instance-store"|"performance-ebs-volume"|"performance-other"|"other"|string;
export interface ReportInstanceStatusRequest {
/**
* Descriptive text about the health state of your instance.
*/
Description?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The time at which the reported instance health state ended.
*/
EndTime?: DateTime;
/**
* The instances.
*/
Instances: InstanceIdStringList;
/**
* The reason codes that describe the health state of your instance. instance-stuck-in-state: My instance is stuck in a state. unresponsive: My instance is unresponsive. not-accepting-credentials: My instance is not accepting my credentials. password-not-available: A password is not available for my instance. performance-network: My instance is experiencing performance problems that I believe are network related. performance-instance-store: My instance is experiencing performance problems that I believe are related to the instance stores. performance-ebs-volume: My instance is experiencing performance problems that I believe are related to an EBS volume. performance-other: My instance is experiencing performance problems. other: [explain using the description parameter]
*/
ReasonCodes: ReasonCodesList;
/**
* The time at which the reported instance health state began.
*/
StartTime?: DateTime;
/**
* The status of all instances listed.
*/
Status: ReportStatusType;
}
export type ReportStatusType = "ok"|"impaired"|string;
export type RequestHostIdList = String[];
export type RequestHostIdSet = HostId[];
export interface RequestLaunchTemplateData {
/**
* The ID of the kernel. We recommend that you use PV-GRUB instead of kernels and RAM disks. For more information, see User Provided Kernels in the Amazon Elastic Compute Cloud User Guide.
*/
KernelId?: String;
/**
* Indicates whether the instance is optimized for Amazon EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal Amazon EBS I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS-optimized instance.
*/
EbsOptimized?: Boolean;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: LaunchTemplateIamInstanceProfileSpecificationRequest;
/**
* The block device mapping. Supplying both a snapshot ID and an encryption value as arguments for block-device mapping results in an error. This is because only blank volumes can be encrypted on start, and these are not created from a snapshot. If a snapshot is the basis for the volume, it contains data by definition and its encryption status cannot be changed using this action.
*/
BlockDeviceMappings?: LaunchTemplateBlockDeviceMappingRequestList;
/**
* One or more network interfaces. If you specify a network interface, you must specify any security groups and subnets as part of the network interface.
*/
NetworkInterfaces?: LaunchTemplateInstanceNetworkInterfaceSpecificationRequestList;
/**
* The ID of the AMI.
*/
ImageId?: String;
/**
* The instance type. For more information, see Instance Types in the Amazon Elastic Compute Cloud User Guide.
*/
InstanceType?: InstanceType;
/**
* The name of the key pair. You can create a key pair using CreateKeyPair or ImportKeyPair. If you do not specify a key pair, you can't connect to the instance unless you choose an AMI that is configured to allow users another way to log in.
*/
KeyName?: String;
/**
* The monitoring for the instance.
*/
Monitoring?: LaunchTemplatesMonitoringRequest;
/**
* The placement for the instance.
*/
Placement?: LaunchTemplatePlacementRequest;
/**
* The ID of the RAM disk. We recommend that you use PV-GRUB instead of kernels and RAM disks. For more information, see User Provided Kernels in the Amazon Elastic Compute Cloud User Guide.
*/
RamDiskId?: String;
/**
* If you set this parameter to true, you can't terminate the instance using the Amazon EC2 console, CLI, or API; otherwise, you can. To change this attribute after launch, use ModifyInstanceAttribute. Alternatively, if you set InstanceInitiatedShutdownBehavior to terminate, you can terminate the instance by running the shutdown command from the instance.
*/
DisableApiTermination?: Boolean;
/**
* Indicates whether an instance stops or terminates when you initiate shutdown from the instance (using the operating system command for system shutdown). Default: stop
*/
InstanceInitiatedShutdownBehavior?: ShutdownBehavior;
/**
* The Base64-encoded user data to make available to the instance. For more information, see Running Commands on Your Linux Instance at Launch (Linux) and Adding User Data (Windows).
*/
UserData?: String;
/**
* The tags to apply to the resources during launch. You can only tag instances and volumes on launch. The specified tags are applied to all instances or volumes that are created during launch. To tag a resource after it has been created, see CreateTags.
*/
TagSpecifications?: LaunchTemplateTagSpecificationRequestList;
/**
* An elastic GPU to associate with the instance.
*/
ElasticGpuSpecifications?: ElasticGpuSpecificationList;
/**
* The elastic inference accelerator for the instance.
*/
ElasticInferenceAccelerators?: LaunchTemplateElasticInferenceAcceleratorList;
/**
* One or more security group IDs. You can create a security group using CreateSecurityGroup. You cannot specify both a security group ID and security name in the same request.
*/
SecurityGroupIds?: SecurityGroupIdStringList;
/**
* [EC2-Classic, default VPC] One or more security group names. For a nondefault VPC, you must use security group IDs instead. You cannot specify both a security group ID and security name in the same request.
*/
SecurityGroups?: SecurityGroupStringList;
/**
* The market (purchasing) option for the instances.
*/
InstanceMarketOptions?: LaunchTemplateInstanceMarketOptionsRequest;
/**
* The credit option for CPU usage of the instance. Valid for T2 or T3 instances only.
*/
CreditSpecification?: CreditSpecificationRequest;
/**
* The CPU options for the instance. For more information, see Optimizing CPU Options in the Amazon Elastic Compute Cloud User Guide.
*/
CpuOptions?: LaunchTemplateCpuOptionsRequest;
/**
* The Capacity Reservation targeting option. If you do not specify this parameter, the instance's Capacity Reservation preference defaults to open, which enables it to run in any open Capacity Reservation that has matching attributes (instance type, platform, Availability Zone).
*/
CapacityReservationSpecification?: LaunchTemplateCapacityReservationSpecificationRequest;
/**
* The license configurations.
*/
LicenseSpecifications?: LaunchTemplateLicenseSpecificationListRequest;
/**
* Indicates whether an instance is enabled for hibernation. This parameter is valid only if the instance meets the hibernation prerequisites. For more information, see Hibernate Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
HibernationOptions?: LaunchTemplateHibernationOptionsRequest;
}
export interface RequestSpotFleetRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The configuration for the Spot Fleet request.
*/
SpotFleetRequestConfig: SpotFleetRequestConfigData;
}
export interface RequestSpotFleetResponse {
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId?: String;
}
export interface RequestSpotInstancesRequest {
/**
* The user-specified name for a logical grouping of requests. When you specify an Availability Zone group in a Spot Instance request, all Spot Instances in the request are launched in the same Availability Zone. Instance proximity is maintained with this parameter, but the choice of Availability Zone is not. The group applies only to requests for Spot Instances of the same instance type. Any additional Spot Instance requests that are specified with the same Availability Zone group name are launched in that same Availability Zone, as long as at least one instance from the group is still active. If there is no active instance running in the Availability Zone group that you specify for a new Spot Instance request (all instances are terminated, the request is expired, or the maximum price you specified falls below current Spot price), then Amazon EC2 launches the instance in any Availability Zone where the constraint can be met. Consequently, the subsequent set of Spot Instances could be placed in a different zone from the original request, even if you specified the same Availability Zone group. Default: Instances are launched in any available Availability Zone.
*/
AvailabilityZoneGroup?: String;
/**
* The required duration for the Spot Instances (also known as Spot blocks), in minutes. This value must be a multiple of 60 (60, 120, 180, 240, 300, or 360). The duration period starts as soon as your Spot Instance receives its instance ID. At the end of the duration period, Amazon EC2 marks the Spot Instance for termination and provides a Spot Instance termination notice, which gives the instance a two-minute warning before it terminates. You can't specify an Availability Zone group or a launch group if you specify a duration.
*/
BlockDurationMinutes?: Integer;
/**
* Unique, case-sensitive identifier that you provide to ensure the idempotency of the request. For more information, see How to Ensure Idempotency in the Amazon EC2 User Guide for Linux Instances.
*/
ClientToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The maximum number of Spot Instances to launch. Default: 1
*/
InstanceCount?: Integer;
/**
* The instance launch group. Launch groups are Spot Instances that launch together and terminate together. Default: Instances are launched and terminated individually
*/
LaunchGroup?: String;
/**
* The launch specification.
*/
LaunchSpecification?: RequestSpotLaunchSpecification;
/**
* The maximum price per hour that you are willing to pay for a Spot Instance. The default is the On-Demand price.
*/
SpotPrice?: String;
/**
* The Spot Instance request type. Default: one-time
*/
Type?: SpotInstanceType;
/**
* The start date of the request. If this is a one-time request, the request becomes active at this date and time and remains active until all instances launch, the request expires, or the request is canceled. If the request is persistent, the request becomes active at this date and time and remains active until it expires or is canceled. The specified start date and time cannot be equal to the current date and time. You must specify a start date and time that occurs after the current date and time.
*/
ValidFrom?: DateTime;
/**
* The end date of the request. If this is a one-time request, the request remains active until all instances launch, the request is canceled, or this date is reached. If the request is persistent, it remains active until it is canceled or this date is reached. The default end date is 7 days from the current date.
*/
ValidUntil?: DateTime;
/**
* The behavior when a Spot Instance is interrupted. The default is terminate.
*/
InstanceInterruptionBehavior?: InstanceInterruptionBehavior;
}
export interface RequestSpotInstancesResult {
/**
* One or more Spot Instance requests.
*/
SpotInstanceRequests?: SpotInstanceRequestList;
}
export interface RequestSpotLaunchSpecification {
/**
* One or more security group IDs.
*/
SecurityGroupIds?: ValueStringList;
/**
* One or more security groups. When requesting instances in a VPC, you must specify the IDs of the security groups. When requesting instances in EC2-Classic, you can specify the names or the IDs of the security groups.
*/
SecurityGroups?: ValueStringList;
/**
* Deprecated.
*/
AddressingType?: String;
/**
* One or more block device mapping entries. You can't specify both a snapshot ID and an encryption value. This is because only blank volumes can be encrypted on creation. If a snapshot is the basis for a volume, it is not blank and its encryption status is used for the volume encryption status.
*/
BlockDeviceMappings?: BlockDeviceMappingList;
/**
* Indicates whether the instance is optimized for EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal EBS I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS Optimized instance. Default: false
*/
EbsOptimized?: Boolean;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: IamInstanceProfileSpecification;
/**
* The ID of the AMI.
*/
ImageId?: String;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The ID of the kernel.
*/
KernelId?: String;
/**
* The name of the key pair.
*/
KeyName?: String;
/**
* Indicates whether basic or detailed monitoring is enabled for the instance. Default: Disabled
*/
Monitoring?: RunInstancesMonitoringEnabled;
/**
* One or more network interfaces. If you specify a network interface, you must specify subnet IDs and security group IDs using the network interface.
*/
NetworkInterfaces?: InstanceNetworkInterfaceSpecificationList;
/**
* The placement information for the instance.
*/
Placement?: SpotPlacement;
/**
* The ID of the RAM disk.
*/
RamdiskId?: String;
/**
* The IDs of the subnets in which to launch the instance. To specify multiple subnets, separate them using commas; for example, "subnet-1234abcdeexample1, subnet-0987cdef6example2".
*/
SubnetId?: String;
/**
* The Base64-encoded user data for the instance. User data is limited to 16 KB.
*/
UserData?: String;
}
export interface Reservation {
/**
* [EC2-Classic only] The security groups.
*/
Groups?: GroupIdentifierList;
/**
* The instances.
*/
Instances?: InstanceList;
/**
* The ID of the AWS account that owns the reservation.
*/
OwnerId?: String;
/**
* The ID of the requester that launched the instances on your behalf (for example, AWS Management Console or Auto Scaling).
*/
RequesterId?: String;
/**
* The ID of the reservation.
*/
ReservationId?: String;
}
export type ReservationList = Reservation[];
export type ReservationState = "payment-pending"|"payment-failed"|"active"|"retired"|string;
export interface ReservationValue {
/**
* The hourly rate of the reservation.
*/
HourlyPrice?: String;
/**
* The balance of the total value (the sum of remainingUpfrontValue + hourlyPrice * number of hours remaining).
*/
RemainingTotalValue?: String;
/**
* The remaining upfront cost of the reservation.
*/
RemainingUpfrontValue?: String;
}
export type ReservedInstanceIdSet = String[];
export interface ReservedInstanceLimitPrice {
/**
* Used for Reserved Instance Marketplace offerings. Specifies the limit price on the total order (instanceCount * price).
*/
Amount?: Double;
/**
* The currency in which the limitPrice amount is specified. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
}
export interface ReservedInstanceReservationValue {
/**
* The total value of the Convertible Reserved Instance that you are exchanging.
*/
ReservationValue?: ReservationValue;
/**
* The ID of the Convertible Reserved Instance that you are exchanging.
*/
ReservedInstanceId?: String;
}
export type ReservedInstanceReservationValueSet = ReservedInstanceReservationValue[];
export type ReservedInstanceState = "payment-pending"|"active"|"payment-failed"|"retired"|"queued"|"queued-deleted"|string;
export interface ReservedInstances {
/**
* The Availability Zone in which the Reserved Instance can be used.
*/
AvailabilityZone?: String;
/**
* The duration of the Reserved Instance, in seconds.
*/
Duration?: Long;
/**
* The time when the Reserved Instance expires.
*/
End?: DateTime;
/**
* The purchase price of the Reserved Instance.
*/
FixedPrice?: Float;
/**
* The number of reservations purchased.
*/
InstanceCount?: Integer;
/**
* The instance type on which the Reserved Instance can be used.
*/
InstanceType?: InstanceType;
/**
* The Reserved Instance product platform description.
*/
ProductDescription?: RIProductDescription;
/**
* The ID of the Reserved Instance.
*/
ReservedInstancesId?: String;
/**
* The date and time the Reserved Instance started.
*/
Start?: DateTime;
/**
* The state of the Reserved Instance purchase.
*/
State?: ReservedInstanceState;
/**
* The usage price of the Reserved Instance, per hour.
*/
UsagePrice?: Float;
/**
* The currency of the Reserved Instance. It's specified using ISO 4217 standard currency codes. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The tenancy of the instance.
*/
InstanceTenancy?: Tenancy;
/**
* The offering class of the Reserved Instance.
*/
OfferingClass?: OfferingClassType;
/**
* The Reserved Instance offering type.
*/
OfferingType?: OfferingTypeValues;
/**
* The recurring charge tag assigned to the resource.
*/
RecurringCharges?: RecurringChargesList;
/**
* The scope of the Reserved Instance.
*/
Scope?: scope;
/**
* Any tags assigned to the resource.
*/
Tags?: TagList;
}
export interface ReservedInstancesConfiguration {
/**
* The Availability Zone for the modified Reserved Instances.
*/
AvailabilityZone?: String;
/**
* The number of modified Reserved Instances. This is a required field for a request.
*/
InstanceCount?: Integer;
/**
* The instance type for the modified Reserved Instances.
*/
InstanceType?: InstanceType;
/**
* The network platform of the modified Reserved Instances, which is either EC2-Classic or EC2-VPC.
*/
Platform?: String;
/**
* Whether the Reserved Instance is applied to instances in a Region or instances in a specific Availability Zone.
*/
Scope?: scope;
}
export type ReservedInstancesConfigurationList = ReservedInstancesConfiguration[];
export interface ReservedInstancesId {
/**
* The ID of the Reserved Instance.
*/
ReservedInstancesId?: String;
}
export type ReservedInstancesIdStringList = String[];
export type ReservedInstancesList = ReservedInstances[];
export interface ReservedInstancesListing {
/**
* A unique, case-sensitive key supplied by the client to ensure that the request is idempotent. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* The time the listing was created.
*/
CreateDate?: DateTime;
/**
* The number of instances in this state.
*/
InstanceCounts?: InstanceCountList;
/**
* The price of the Reserved Instance listing.
*/
PriceSchedules?: PriceScheduleList;
/**
* The ID of the Reserved Instance.
*/
ReservedInstancesId?: String;
/**
* The ID of the Reserved Instance listing.
*/
ReservedInstancesListingId?: String;
/**
* The status of the Reserved Instance listing.
*/
Status?: ListingStatus;
/**
* The reason for the current status of the Reserved Instance listing. The response can be blank.
*/
StatusMessage?: String;
/**
* Any tags assigned to the resource.
*/
Tags?: TagList;
/**
* The last modified timestamp of the listing.
*/
UpdateDate?: DateTime;
}
export type ReservedInstancesListingId = string;
export type ReservedInstancesListingList = ReservedInstancesListing[];
export interface ReservedInstancesModification {
/**
* A unique, case-sensitive key supplied by the client to ensure that the request is idempotent. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* The time when the modification request was created.
*/
CreateDate?: DateTime;
/**
* The time for the modification to become effective.
*/
EffectiveDate?: DateTime;
/**
* Contains target configurations along with their corresponding new Reserved Instance IDs.
*/
ModificationResults?: ReservedInstancesModificationResultList;
/**
* The IDs of one or more Reserved Instances.
*/
ReservedInstancesIds?: ReservedIntancesIds;
/**
* A unique ID for the Reserved Instance modification.
*/
ReservedInstancesModificationId?: String;
/**
* The status of the Reserved Instances modification request.
*/
Status?: String;
/**
* The reason for the status.
*/
StatusMessage?: String;
/**
* The time when the modification request was last updated.
*/
UpdateDate?: DateTime;
}
export type ReservedInstancesModificationIdStringList = String[];
export type ReservedInstancesModificationList = ReservedInstancesModification[];
export interface ReservedInstancesModificationResult {
/**
* The ID for the Reserved Instances that were created as part of the modification request. This field is only available when the modification is fulfilled.
*/
ReservedInstancesId?: String;
/**
* The target Reserved Instances configurations supplied as part of the modification request.
*/
TargetConfiguration?: ReservedInstancesConfiguration;
}
export type ReservedInstancesModificationResultList = ReservedInstancesModificationResult[];
export interface ReservedInstancesOffering {
/**
* The Availability Zone in which the Reserved Instance can be used.
*/
AvailabilityZone?: String;
/**
* The duration of the Reserved Instance, in seconds.
*/
Duration?: Long;
/**
* The purchase price of the Reserved Instance.
*/
FixedPrice?: Float;
/**
* The instance type on which the Reserved Instance can be used.
*/
InstanceType?: InstanceType;
/**
* The Reserved Instance product platform description.
*/
ProductDescription?: RIProductDescription;
/**
* The ID of the Reserved Instance offering. This is the offering ID used in GetReservedInstancesExchangeQuote to confirm that an exchange can be made.
*/
ReservedInstancesOfferingId?: String;
/**
* The usage price of the Reserved Instance, per hour.
*/
UsagePrice?: Float;
/**
* The currency of the Reserved Instance offering you are purchasing. It's specified using ISO 4217 standard currency codes. At this time, the only supported currency is USD.
*/
CurrencyCode?: CurrencyCodeValues;
/**
* The tenancy of the instance.
*/
InstanceTenancy?: Tenancy;
/**
* Indicates whether the offering is available through the Reserved Instance Marketplace (resale) or AWS. If it's a Reserved Instance Marketplace offering, this is true.
*/
Marketplace?: Boolean;
/**
* If convertible it can be exchanged for Reserved Instances of the same or higher monetary value, with different configurations. If standard, it is not possible to perform an exchange.
*/
OfferingClass?: OfferingClassType;
/**
* The Reserved Instance offering type.
*/
OfferingType?: OfferingTypeValues;
/**
* The pricing details of the Reserved Instance offering.
*/
PricingDetails?: PricingDetailsList;
/**
* The recurring charge tag assigned to the resource.
*/
RecurringCharges?: RecurringChargesList;
/**
* Whether the Reserved Instance is applied to instances in a Region or an Availability Zone.
*/
Scope?: scope;
}
export type ReservedInstancesOfferingIdStringList = String[];
export type ReservedInstancesOfferingList = ReservedInstancesOffering[];
export type ReservedIntancesIds = ReservedInstancesId[];
export interface ResetEbsDefaultKmsKeyIdRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ResetEbsDefaultKmsKeyIdResult {
/**
* The Amazon Resource Name (ARN) of the default CMK for EBS encryption by default.
*/
KmsKeyId?: String;
}
export type ResetFpgaImageAttributeName = "loadPermission"|string;
export interface ResetFpgaImageAttributeRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the AFI.
*/
FpgaImageId: FpgaImageId;
/**
* The attribute.
*/
Attribute?: ResetFpgaImageAttributeName;
}
export interface ResetFpgaImageAttributeResult {
/**
* Is true if the request succeeds, and an error otherwise.
*/
Return?: Boolean;
}
export type ResetImageAttributeName = "launchPermission"|string;
export interface ResetImageAttributeRequest {
/**
* The attribute to reset (currently you can only reset the launch permission attribute).
*/
Attribute: ResetImageAttributeName;
/**
* The ID of the AMI.
*/
ImageId: ImageId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface ResetInstanceAttributeRequest {
/**
* The attribute to reset. You can only reset the following attributes: kernel | ramdisk | sourceDestCheck. To change an instance attribute, use ModifyInstanceAttribute.
*/
Attribute: InstanceAttributeName;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
}
export interface ResetNetworkInterfaceAttributeRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
/**
* The source/destination checking attribute. Resets the value to true.
*/
SourceDestCheck?: String;
}
export interface ResetSnapshotAttributeRequest {
/**
* The attribute to reset. Currently, only the attribute for permission to create volumes can be reset.
*/
Attribute: SnapshotAttributeName;
/**
* The ID of the snapshot.
*/
SnapshotId: SnapshotId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export type ResourceIdList = String[];
export type ResourceList = String[];
export type ResourceType = "client-vpn-endpoint"|"customer-gateway"|"dedicated-host"|"dhcp-options"|"elastic-ip"|"fleet"|"fpga-image"|"host-reservation"|"image"|"instance"|"internet-gateway"|"launch-template"|"natgateway"|"network-acl"|"network-interface"|"reserved-instances"|"route-table"|"security-group"|"snapshot"|"spot-instances-request"|"subnet"|"traffic-mirror-filter"|"traffic-mirror-session"|"traffic-mirror-target"|"transit-gateway"|"transit-gateway-attachment"|"transit-gateway-route-table"|"volume"|"vpc"|"vpc-peering-connection"|"vpn-connection"|"vpn-gateway"|string;
export interface ResponseError {
/**
* The error code.
*/
Code?: LaunchTemplateErrorCode;
/**
* The error message, if applicable.
*/
Message?: String;
}
export type ResponseHostIdList = String[];
export type ResponseHostIdSet = String[];
export interface ResponseLaunchTemplateData {
/**
* The ID of the kernel, if applicable.
*/
KernelId?: String;
/**
* Indicates whether the instance is optimized for Amazon EBS I/O.
*/
EbsOptimized?: Boolean;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: LaunchTemplateIamInstanceProfileSpecification;
/**
* The block device mappings.
*/
BlockDeviceMappings?: LaunchTemplateBlockDeviceMappingList;
/**
* The network interfaces.
*/
NetworkInterfaces?: LaunchTemplateInstanceNetworkInterfaceSpecificationList;
/**
* The ID of the AMI that was used to launch the instance.
*/
ImageId?: String;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The name of the key pair.
*/
KeyName?: String;
/**
* The monitoring for the instance.
*/
Monitoring?: LaunchTemplatesMonitoring;
/**
* The placement of the instance.
*/
Placement?: LaunchTemplatePlacement;
/**
* The ID of the RAM disk, if applicable.
*/
RamDiskId?: String;
/**
* If set to true, indicates that the instance cannot be terminated using the Amazon EC2 console, command line tool, or API.
*/
DisableApiTermination?: Boolean;
/**
* Indicates whether an instance stops or terminates when you initiate shutdown from the instance (using the operating system command for system shutdown).
*/
InstanceInitiatedShutdownBehavior?: ShutdownBehavior;
/**
* The user data for the instance.
*/
UserData?: String;
/**
* The tags.
*/
TagSpecifications?: LaunchTemplateTagSpecificationList;
/**
* The elastic GPU specification.
*/
ElasticGpuSpecifications?: ElasticGpuSpecificationResponseList;
/**
* The elastic inference accelerator for the instance.
*/
ElasticInferenceAccelerators?: LaunchTemplateElasticInferenceAcceleratorResponseList;
/**
* The security group IDs.
*/
SecurityGroupIds?: ValueStringList;
/**
* The security group names.
*/
SecurityGroups?: ValueStringList;
/**
* The market (purchasing) option for the instances.
*/
InstanceMarketOptions?: LaunchTemplateInstanceMarketOptions;
/**
* The credit option for CPU usage of the instance.
*/
CreditSpecification?: CreditSpecification;
/**
* The CPU options for the instance. For more information, see Optimizing CPU Options in the Amazon Elastic Compute Cloud User Guide.
*/
CpuOptions?: LaunchTemplateCpuOptions;
/**
* Information about the Capacity Reservation targeting option.
*/
CapacityReservationSpecification?: LaunchTemplateCapacityReservationSpecificationResponse;
/**
* The license configurations.
*/
LicenseSpecifications?: LaunchTemplateLicenseList;
/**
* Indicates whether an instance is configured for hibernation. For more information, see Hibernate Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
HibernationOptions?: LaunchTemplateHibernationOptions;
}
export type RestorableByStringList = String[];
export interface RestoreAddressToClassicRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The Elastic IP address.
*/
PublicIp: String;
}
export interface RestoreAddressToClassicResult {
/**
* The Elastic IP address.
*/
PublicIp?: String;
/**
* The move status for the IP address.
*/
Status?: Status;
}
export interface RevokeClientVpnIngressRequest {
/**
* The ID of the Client VPN endpoint with which the authorization rule is associated.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The IPv4 address range, in CIDR notation, of the network for which access is being removed.
*/
TargetNetworkCidr: String;
/**
* The ID of the Active Directory group for which to revoke access.
*/
AccessGroupId?: String;
/**
* Indicates whether access should be revoked for all clients.
*/
RevokeAllGroups?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface RevokeClientVpnIngressResult {
/**
* The current state of the authorization rule.
*/
Status?: ClientVpnAuthorizationRuleStatus;
}
export interface RevokeSecurityGroupEgressRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the security group.
*/
GroupId: String;
/**
* The sets of IP permissions. You can't specify a destination security group and a CIDR IP address range in the same set of permissions.
*/
IpPermissions?: IpPermissionList;
/**
* Not supported. Use a set of IP permissions to specify the CIDR.
*/
CidrIp?: String;
/**
* Not supported. Use a set of IP permissions to specify the port.
*/
FromPort?: Integer;
/**
* Not supported. Use a set of IP permissions to specify the protocol name or number.
*/
IpProtocol?: String;
/**
* Not supported. Use a set of IP permissions to specify the port.
*/
ToPort?: Integer;
/**
* Not supported. Use a set of IP permissions to specify a destination security group.
*/
SourceSecurityGroupName?: String;
/**
* Not supported. Use a set of IP permissions to specify a destination security group.
*/
SourceSecurityGroupOwnerId?: String;
}
export interface RevokeSecurityGroupIngressRequest {
/**
* The CIDR IP address range. You can't specify this parameter when specifying a source security group.
*/
CidrIp?: String;
/**
* The start of port range for the TCP and UDP protocols, or an ICMP type number. For the ICMP type number, use -1 to specify all ICMP types.
*/
FromPort?: Integer;
/**
* The ID of the security group. You must specify either the security group ID or the security group name in the request. For security groups in a nondefault VPC, you must specify the security group ID.
*/
GroupId?: String;
/**
* [EC2-Classic, default VPC] The name of the security group. You must specify either the security group ID or the security group name in the request.
*/
GroupName?: String;
/**
* The sets of IP permissions. You can't specify a source security group and a CIDR IP address range in the same set of permissions.
*/
IpPermissions?: IpPermissionList;
/**
* The IP protocol name (tcp, udp, icmp) or number (see Protocol Numbers). Use -1 to specify all.
*/
IpProtocol?: String;
/**
* [EC2-Classic, default VPC] The name of the source security group. You can't specify this parameter in combination with the following parameters: the CIDR IP address range, the start of the port range, the IP protocol, and the end of the port range. For EC2-VPC, the source security group must be in the same VPC. To revoke a specific rule for an IP protocol and port range, use a set of IP permissions instead.
*/
SourceSecurityGroupName?: String;
/**
* [EC2-Classic] The AWS account ID of the source security group, if the source security group is in a different account. You can't specify this parameter in combination with the following parameters: the CIDR IP address range, the IP protocol, the start of the port range, and the end of the port range. To revoke a specific rule for an IP protocol and port range, use a set of IP permissions instead.
*/
SourceSecurityGroupOwnerId?: String;
/**
* The end of port range for the TCP and UDP protocols, or an ICMP code number. For the ICMP code number, use -1 to specify all ICMP codes for the ICMP type.
*/
ToPort?: Integer;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface Route {
/**
* The IPv4 CIDR block used for the destination match.
*/
DestinationCidrBlock?: String;
/**
* The IPv6 CIDR block used for the destination match.
*/
DestinationIpv6CidrBlock?: String;
/**
* The prefix of the AWS service.
*/
DestinationPrefixListId?: String;
/**
* The ID of the egress-only internet gateway.
*/
EgressOnlyInternetGatewayId?: String;
/**
* The ID of a gateway attached to your VPC.
*/
GatewayId?: String;
/**
* The ID of a NAT instance in your VPC.
*/
InstanceId?: String;
/**
* The AWS account ID of the owner of the instance.
*/
InstanceOwnerId?: String;
/**
* The ID of a NAT gateway.
*/
NatGatewayId?: String;
/**
* The ID of a transit gateway.
*/
TransitGatewayId?: String;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* Describes how the route was created. CreateRouteTable - The route was automatically created when the route table was created. CreateRoute - The route was manually added to the route table. EnableVgwRoutePropagation - The route was propagated by route propagation.
*/
Origin?: RouteOrigin;
/**
* The state of the route. The blackhole state indicates that the route's target isn't available (for example, the specified gateway isn't attached to the VPC, or the specified NAT instance has been terminated).
*/
State?: RouteState;
/**
* The ID of a VPC peering connection.
*/
VpcPeeringConnectionId?: String;
}
export type RouteList = Route[];
export type RouteOrigin = "CreateRouteTable"|"CreateRoute"|"EnableVgwRoutePropagation"|string;
export type RouteState = "active"|"blackhole"|string;
export interface RouteTable {
/**
* The associations between the route table and one or more subnets.
*/
Associations?: RouteTableAssociationList;
/**
* Any virtual private gateway (VGW) propagating routes.
*/
PropagatingVgws?: PropagatingVgwList;
/**
* The ID of the route table.
*/
RouteTableId?: String;
/**
* The routes in the route table.
*/
Routes?: RouteList;
/**
* Any tags assigned to the route table.
*/
Tags?: TagList;
/**
* The ID of the VPC.
*/
VpcId?: String;
/**
* The ID of the AWS account that owns the route table.
*/
OwnerId?: String;
}
export interface RouteTableAssociation {
/**
* Indicates whether this is the main route table.
*/
Main?: Boolean;
/**
* The ID of the association between a route table and a subnet.
*/
RouteTableAssociationId?: String;
/**
* The ID of the route table.
*/
RouteTableId?: String;
/**
* The ID of the subnet. A subnet ID is not returned for an implicit association.
*/
SubnetId?: String;
}
export type RouteTableAssociationId = string;
export type RouteTableAssociationList = RouteTableAssociation[];
export type RouteTableGatewayId = string;
export type RouteTableId = string;
export type RouteTableList = RouteTable[];
export type RuleAction = "allow"|"deny"|string;
export interface RunInstancesMonitoringEnabled {
/**
* Indicates whether detailed monitoring is enabled. Otherwise, basic monitoring is enabled.
*/
Enabled: Boolean;
}
export interface RunInstancesRequest {
/**
* The block device mapping entries.
*/
BlockDeviceMappings?: BlockDeviceMappingRequestList;
/**
* The ID of the AMI. An AMI ID is required to launch an instance and must be specified here or in a launch template.
*/
ImageId?: ImageId;
/**
* The instance type. For more information, see Instance Types in the Amazon Elastic Compute Cloud User Guide. Default: m1.small
*/
InstanceType?: InstanceType;
/**
* [EC2-VPC] The number of IPv6 addresses to associate with the primary network interface. Amazon EC2 chooses the IPv6 addresses from the range of your subnet. You cannot specify this option and the option to assign specific IPv6 addresses in the same request. You can specify this option if you've specified a minimum number of instances to launch. You cannot specify this option and the network interfaces option in the same request.
*/
Ipv6AddressCount?: Integer;
/**
* [EC2-VPC] The IPv6 addresses from the range of the subnet to associate with the primary network interface. You cannot specify this option and the option to assign a number of IPv6 addresses in the same request. You cannot specify this option if you've specified a minimum number of instances to launch. You cannot specify this option and the network interfaces option in the same request.
*/
Ipv6Addresses?: InstanceIpv6AddressList;
/**
* The ID of the kernel. We recommend that you use PV-GRUB instead of kernels and RAM disks. For more information, see PV-GRUB in the Amazon Elastic Compute Cloud User Guide.
*/
KernelId?: String;
/**
* The name of the key pair. You can create a key pair using CreateKeyPair or ImportKeyPair. If you do not specify a key pair, you can't connect to the instance unless you choose an AMI that is configured to allow users another way to log in.
*/
KeyName?: String;
/**
* The maximum number of instances to launch. If you specify more instances than Amazon EC2 can launch in the target Availability Zone, Amazon EC2 launches the largest possible number of instances above MinCount. Constraints: Between 1 and the maximum number you're allowed for the specified instance type. For more information about the default limits, and how to request an increase, see How many instances can I run in Amazon EC2 in the Amazon EC2 FAQ.
*/
MaxCount: Integer;
/**
* The minimum number of instances to launch. If you specify a minimum that is more instances than Amazon EC2 can launch in the target Availability Zone, Amazon EC2 launches no instances. Constraints: Between 1 and the maximum number you're allowed for the specified instance type. For more information about the default limits, and how to request an increase, see How many instances can I run in Amazon EC2 in the Amazon EC2 General FAQ.
*/
MinCount: Integer;
/**
* Specifies whether detailed monitoring is enabled for the instance.
*/
Monitoring?: RunInstancesMonitoringEnabled;
/**
* The placement for the instance.
*/
Placement?: Placement;
/**
* The ID of the RAM disk to select. Some kernels require additional drivers at launch. Check the kernel requirements for information about whether you need to specify a RAM disk. To find kernel requirements, go to the AWS Resource Center and search for the kernel ID. We recommend that you use PV-GRUB instead of kernels and RAM disks. For more information, see PV-GRUB in the Amazon Elastic Compute Cloud User Guide.
*/
RamdiskId?: String;
/**
* The IDs of the security groups. You can create a security group using CreateSecurityGroup. If you specify a network interface, you must specify any security groups as part of the network interface.
*/
SecurityGroupIds?: SecurityGroupIdStringList;
/**
* [EC2-Classic, default VPC] The names of the security groups. For a nondefault VPC, you must use security group IDs instead. If you specify a network interface, you must specify any security groups as part of the network interface. Default: Amazon EC2 uses the default security group.
*/
SecurityGroups?: SecurityGroupStringList;
/**
* [EC2-VPC] The ID of the subnet to launch the instance into. If you specify a network interface, you must specify any subnets as part of the network interface.
*/
SubnetId?: String;
/**
* The user data to make available to the instance. For more information, see Running Commands on Your Linux Instance at Launch (Linux) and Adding User Data (Windows). If you are using a command line tool, base64-encoding is performed for you, and you can load the text from a file. Otherwise, you must provide base64-encoded text. User data is limited to 16 KB.
*/
UserData?: String;
/**
* Reserved.
*/
AdditionalInfo?: String;
/**
* Unique, case-sensitive identifier you provide to ensure the idempotency of the request. For more information, see Ensuring Idempotency. Constraints: Maximum 64 ASCII characters
*/
ClientToken?: String;
/**
* If you set this parameter to true, you can't terminate the instance using the Amazon EC2 console, CLI, or API; otherwise, you can. To change this attribute after launch, use ModifyInstanceAttribute. Alternatively, if you set InstanceInitiatedShutdownBehavior to terminate, you can terminate the instance by running the shutdown command from the instance. Default: false
*/
DisableApiTermination?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Indicates whether the instance is optimized for Amazon EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal Amazon EBS I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS-optimized instance. Default: false
*/
EbsOptimized?: Boolean;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: IamInstanceProfileSpecification;
/**
* Indicates whether an instance stops or terminates when you initiate shutdown from the instance (using the operating system command for system shutdown). Default: stop
*/
InstanceInitiatedShutdownBehavior?: ShutdownBehavior;
/**
* The network interfaces to associate with the instance. If you specify a network interface, you must specify any security groups and subnets as part of the network interface.
*/
NetworkInterfaces?: InstanceNetworkInterfaceSpecificationList;
/**
* [EC2-VPC] The primary IPv4 address. You must specify a value from the IPv4 address range of the subnet. Only one private IP address can be designated as primary. You can't specify this option if you've specified the option to designate a private IP address as the primary IP address in a network interface specification. You cannot specify this option if you're launching more than one instance in the request. You cannot specify this option and the network interfaces option in the same request.
*/
PrivateIpAddress?: String;
/**
* An elastic GPU to associate with the instance. An Elastic GPU is a GPU resource that you can attach to your Windows instance to accelerate the graphics performance of your applications. For more information, see Amazon EC2 Elastic GPUs in the Amazon Elastic Compute Cloud User Guide.
*/
ElasticGpuSpecification?: ElasticGpuSpecifications;
/**
* An elastic inference accelerator to associate with the instance. Elastic inference accelerators are a resource you can attach to your Amazon EC2 instances to accelerate your Deep Learning (DL) inference workloads.
*/
ElasticInferenceAccelerators?: ElasticInferenceAccelerators;
/**
* The tags to apply to the resources during launch. You can only tag instances and volumes on launch. The specified tags are applied to all instances or volumes that are created during launch. To tag a resource after it has been created, see CreateTags.
*/
TagSpecifications?: TagSpecificationList;
/**
* The launch template to use to launch the instances. Any parameters that you specify in RunInstances override the same parameters in the launch template. You can specify either the name or ID of a launch template, but not both.
*/
LaunchTemplate?: LaunchTemplateSpecification;
/**
* The market (purchasing) option for the instances. For RunInstances, persistent Spot Instance requests are only supported when InstanceInterruptionBehavior is set to either hibernate or stop.
*/
InstanceMarketOptions?: InstanceMarketOptionsRequest;
/**
* The credit option for CPU usage of the T2 or T3 instance. Valid values are standard and unlimited. To change this attribute after launch, use ModifyInstanceCreditSpecification. For more information, see Burstable Performance Instances in the Amazon Elastic Compute Cloud User Guide. Default: standard (T2 instances) or unlimited (T3 instances)
*/
CreditSpecification?: CreditSpecificationRequest;
/**
* The CPU options for the instance. For more information, see Optimizing CPU Options in the Amazon Elastic Compute Cloud User Guide.
*/
CpuOptions?: CpuOptionsRequest;
/**
* Information about the Capacity Reservation targeting option. If you do not specify this parameter, the instance's Capacity Reservation preference defaults to open, which enables it to run in any open Capacity Reservation that has matching attributes (instance type, platform, Availability Zone).
*/
CapacityReservationSpecification?: CapacityReservationSpecification;
/**
* Indicates whether an instance is enabled for hibernation. For more information, see Hibernate Your Instance in the Amazon Elastic Compute Cloud User Guide.
*/
HibernationOptions?: HibernationOptionsRequest;
/**
* The license configurations.
*/
LicenseSpecifications?: LicenseSpecificationListRequest;
}
export interface RunScheduledInstancesRequest {
/**
* Unique, case-sensitive identifier that ensures the idempotency of the request. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The number of instances. Default: 1
*/
InstanceCount?: Integer;
/**
* The launch specification. You must match the instance type, Availability Zone, network, and platform of the schedule that you purchased.
*/
LaunchSpecification: ScheduledInstancesLaunchSpecification;
/**
* The Scheduled Instance ID.
*/
ScheduledInstanceId: ScheduledInstanceId;
}
export interface RunScheduledInstancesResult {
/**
* The IDs of the newly launched instances.
*/
InstanceIdSet?: InstanceIdSet;
}
export interface S3Storage {
/**
* The access key ID of the owner of the bucket. Before you specify a value for your access key ID, review and follow the guidance in Best Practices for Managing AWS Access Keys.
*/
AWSAccessKeyId?: String;
/**
* The bucket in which to store the AMI. You can specify a bucket that you already own or a new bucket that Amazon EC2 creates on your behalf. If you specify a bucket that belongs to someone else, Amazon EC2 returns an error.
*/
Bucket?: String;
/**
* The beginning of the file name of the AMI.
*/
Prefix?: String;
/**
* An Amazon S3 upload policy that gives Amazon EC2 permission to upload items into Amazon S3 on your behalf.
*/
UploadPolicy?: _Blob;
/**
* The signature of the JSON document.
*/
UploadPolicySignature?: String;
}
export interface ScheduledInstance {
/**
* The Availability Zone.
*/
AvailabilityZone?: String;
/**
* The date when the Scheduled Instance was purchased.
*/
CreateDate?: DateTime;
/**
* The hourly price for a single instance.
*/
HourlyPrice?: String;
/**
* The number of instances.
*/
InstanceCount?: Integer;
/**
* The instance type.
*/
InstanceType?: String;
/**
* The network platform (EC2-Classic or EC2-VPC).
*/
NetworkPlatform?: String;
/**
* The time for the next schedule to start.
*/
NextSlotStartTime?: DateTime;
/**
* The platform (Linux/UNIX or Windows).
*/
Platform?: String;
/**
* The time that the previous schedule ended or will end.
*/
PreviousSlotEndTime?: DateTime;
/**
* The schedule recurrence.
*/
Recurrence?: ScheduledInstanceRecurrence;
/**
* The Scheduled Instance ID.
*/
ScheduledInstanceId?: String;
/**
* The number of hours in the schedule.
*/
SlotDurationInHours?: Integer;
/**
* The end date for the Scheduled Instance.
*/
TermEndDate?: DateTime;
/**
* The start date for the Scheduled Instance.
*/
TermStartDate?: DateTime;
/**
* The total number of hours for a single instance for the entire term.
*/
TotalScheduledInstanceHours?: Integer;
}
export interface ScheduledInstanceAvailability {
/**
* The Availability Zone.
*/
AvailabilityZone?: String;
/**
* The number of available instances.
*/
AvailableInstanceCount?: Integer;
/**
* The time period for the first schedule to start.
*/
FirstSlotStartTime?: DateTime;
/**
* The hourly price for a single instance.
*/
HourlyPrice?: String;
/**
* The instance type. You can specify one of the C3, C4, M4, or R3 instance types.
*/
InstanceType?: String;
/**
* The maximum term. The only possible value is 365 days.
*/
MaxTermDurationInDays?: Integer;
/**
* The minimum term. The only possible value is 365 days.
*/
MinTermDurationInDays?: Integer;
/**
* The network platform (EC2-Classic or EC2-VPC).
*/
NetworkPlatform?: String;
/**
* The platform (Linux/UNIX or Windows).
*/
Platform?: String;
/**
* The purchase token. This token expires in two hours.
*/
PurchaseToken?: String;
/**
* The schedule recurrence.
*/
Recurrence?: ScheduledInstanceRecurrence;
/**
* The number of hours in the schedule.
*/
SlotDurationInHours?: Integer;
/**
* The total number of hours for a single instance for the entire term.
*/
TotalScheduledInstanceHours?: Integer;
}
export type ScheduledInstanceAvailabilitySet = ScheduledInstanceAvailability[];
export type ScheduledInstanceId = string;
export type ScheduledInstanceIdRequestSet = String[];
export interface ScheduledInstanceRecurrence {
/**
* The frequency (Daily, Weekly, or Monthly).
*/
Frequency?: String;
/**
* The interval quantity. The interval unit depends on the value of frequency. For example, every 2 weeks or every 2 months.
*/
Interval?: Integer;
/**
* The days. For a monthly schedule, this is one or more days of the month (1-31). For a weekly schedule, this is one or more days of the week (1-7, where 1 is Sunday).
*/
OccurrenceDaySet?: OccurrenceDaySet;
/**
* Indicates whether the occurrence is relative to the end of the specified week or month.
*/
OccurrenceRelativeToEnd?: Boolean;
/**
* The unit for occurrenceDaySet (DayOfWeek or DayOfMonth).
*/
OccurrenceUnit?: String;
}
export interface ScheduledInstanceRecurrenceRequest {
/**
* The frequency (Daily, Weekly, or Monthly).
*/
Frequency?: String;
/**
* The interval quantity. The interval unit depends on the value of Frequency. For example, every 2 weeks or every 2 months.
*/
Interval?: Integer;
/**
* The days. For a monthly schedule, this is one or more days of the month (1-31). For a weekly schedule, this is one or more days of the week (1-7, where 1 is Sunday). You can't specify this value with a daily schedule. If the occurrence is relative to the end of the month, you can specify only a single day.
*/
OccurrenceDays?: OccurrenceDayRequestSet;
/**
* Indicates whether the occurrence is relative to the end of the specified week or month. You can't specify this value with a daily schedule.
*/
OccurrenceRelativeToEnd?: Boolean;
/**
* The unit for OccurrenceDays (DayOfWeek or DayOfMonth). This value is required for a monthly schedule. You can't specify DayOfWeek with a weekly schedule. You can't specify this value with a daily schedule.
*/
OccurrenceUnit?: String;
}
export type ScheduledInstanceSet = ScheduledInstance[];
export interface ScheduledInstancesBlockDeviceMapping {
/**
* The device name (for example, /dev/sdh or xvdh).
*/
DeviceName?: String;
/**
* Parameters used to set up EBS volumes automatically when the instance is launched.
*/
Ebs?: ScheduledInstancesEbs;
/**
* Suppresses the specified device included in the block device mapping of the AMI.
*/
NoDevice?: String;
/**
* The virtual device name (ephemeralN). Instance store volumes are numbered starting from 0. An instance type with two available instance store volumes can specify mappings for ephemeral0 and ephemeral1. The number of available instance store volumes depends on the instance type. After you connect to the instance, you must mount the volume. Constraints: For M3 instances, you must specify instance store volumes in the block device mapping for the instance. When you launch an M3 instance, we ignore any instance store volumes specified in the block device mapping for the AMI.
*/
VirtualName?: String;
}
export type ScheduledInstancesBlockDeviceMappingSet = ScheduledInstancesBlockDeviceMapping[];
export interface ScheduledInstancesEbs {
/**
* Indicates whether the volume is deleted on instance termination.
*/
DeleteOnTermination?: Boolean;
/**
* Indicates whether the volume is encrypted. You can attached encrypted volumes only to instances that support them.
*/
Encrypted?: Boolean;
/**
* The number of I/O operations per second (IOPS) that the volume supports. For io1 volumes, this represents the number of IOPS that are provisioned for the volume. For gp2 volumes, this represents the baseline performance of the volume and the rate at which the volume accumulates I/O credits for bursting. For more information about gp2 baseline performance, I/O credits, and bursting, see Amazon EBS Volume Types in the Amazon Elastic Compute Cloud User Guide. Constraint: Range is 100-20000 IOPS for io1 volumes and 100-10000 IOPS for gp2 volumes. Condition: This parameter is required for requests to create io1volumes; it is not used in requests to create gp2, st1, sc1, or standard volumes.
*/
Iops?: Integer;
/**
* The ID of the snapshot.
*/
SnapshotId?: String;
/**
* The size of the volume, in GiB. Default: If you're creating the volume from a snapshot and don't specify a volume size, the default is the snapshot size.
*/
VolumeSize?: Integer;
/**
* The volume type. gp2 for General Purpose SSD, io1 for Provisioned IOPS SSD, Throughput Optimized HDD for st1, Cold HDD for sc1, or standard for Magnetic. Default: gp2
*/
VolumeType?: String;
}
export interface ScheduledInstancesIamInstanceProfile {
/**
* The Amazon Resource Name (ARN).
*/
Arn?: String;
/**
* The name.
*/
Name?: String;
}
export interface ScheduledInstancesIpv6Address {
/**
* The IPv6 address.
*/
Ipv6Address?: Ipv6Address;
}
export type ScheduledInstancesIpv6AddressList = ScheduledInstancesIpv6Address[];
export interface ScheduledInstancesLaunchSpecification {
/**
* The block device mapping entries.
*/
BlockDeviceMappings?: ScheduledInstancesBlockDeviceMappingSet;
/**
* Indicates whether the instances are optimized for EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal EBS I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS-optimized instance. Default: false
*/
EbsOptimized?: Boolean;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: ScheduledInstancesIamInstanceProfile;
/**
* The ID of the Amazon Machine Image (AMI).
*/
ImageId: String;
/**
* The instance type.
*/
InstanceType?: String;
/**
* The ID of the kernel.
*/
KernelId?: String;
/**
* The name of the key pair.
*/
KeyName?: String;
/**
* Enable or disable monitoring for the instances.
*/
Monitoring?: ScheduledInstancesMonitoring;
/**
* The network interfaces.
*/
NetworkInterfaces?: ScheduledInstancesNetworkInterfaceSet;
/**
* The placement information.
*/
Placement?: ScheduledInstancesPlacement;
/**
* The ID of the RAM disk.
*/
RamdiskId?: String;
/**
* The IDs of the security groups.
*/
SecurityGroupIds?: ScheduledInstancesSecurityGroupIdSet;
/**
* The ID of the subnet in which to launch the instances.
*/
SubnetId?: String;
/**
* The base64-encoded MIME user data.
*/
UserData?: String;
}
export interface ScheduledInstancesMonitoring {
/**
* Indicates whether monitoring is enabled.
*/
Enabled?: Boolean;
}
export interface ScheduledInstancesNetworkInterface {
/**
* Indicates whether to assign a public IPv4 address to instances launched in a VPC. The public IPv4 address can only be assigned to a network interface for eth0, and can only be assigned to a new network interface, not an existing one. You cannot specify more than one network interface in the request. If launching into a default subnet, the default value is true.
*/
AssociatePublicIpAddress?: Boolean;
/**
* Indicates whether to delete the interface when the instance is terminated.
*/
DeleteOnTermination?: Boolean;
/**
* The description.
*/
Description?: String;
/**
* The index of the device for the network interface attachment.
*/
DeviceIndex?: Integer;
/**
* The IDs of the security groups.
*/
Groups?: ScheduledInstancesSecurityGroupIdSet;
/**
* The number of IPv6 addresses to assign to the network interface. The IPv6 addresses are automatically selected from the subnet range.
*/
Ipv6AddressCount?: Integer;
/**
* The specific IPv6 addresses from the subnet range.
*/
Ipv6Addresses?: ScheduledInstancesIpv6AddressList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The IPv4 address of the network interface within the subnet.
*/
PrivateIpAddress?: String;
/**
* The private IPv4 addresses.
*/
PrivateIpAddressConfigs?: PrivateIpAddressConfigSet;
/**
* The number of secondary private IPv4 addresses.
*/
SecondaryPrivateIpAddressCount?: Integer;
/**
* The ID of the subnet.
*/
SubnetId?: String;
}
export type ScheduledInstancesNetworkInterfaceSet = ScheduledInstancesNetworkInterface[];
export interface ScheduledInstancesPlacement {
/**
* The Availability Zone.
*/
AvailabilityZone?: String;
/**
* The name of the placement group.
*/
GroupName?: String;
}
export interface ScheduledInstancesPrivateIpAddressConfig {
/**
* Indicates whether this is a primary IPv4 address. Otherwise, this is a secondary IPv4 address.
*/
Primary?: Boolean;
/**
* The IPv4 address.
*/
PrivateIpAddress?: String;
}
export type ScheduledInstancesSecurityGroupIdSet = String[];
export interface SearchTransitGatewayRoutesRequest {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId: TransitGatewayRouteTableId;
/**
* One or more filters. The possible values are: attachment.transit-gateway-attachment-id- The id of the transit gateway attachment. attachment.resource-id - The resource id of the transit gateway attachment. attachment.resource-type - The attachment resource type (vpc | vpn). route-search.exact-match - The exact match of the specified filter. route-search.longest-prefix-match - The longest prefix that matches the route. route-search.subnet-of-match - The routes with a subnet that match the specified CIDR filter. route-search.supernet-of-match - The routes with a CIDR that encompass the CIDR filter. For example, if you have 10.0.1.0/29 and 10.0.1.0/31 routes in your route table and you specify supernet-of-match as 10.0.1.0/30, then the result returns 10.0.1.0/29. state - The state of the route (active | blackhole). type - The type of route (propagated | static).
*/
Filters: FilterList;
/**
* The maximum number of routes to return.
*/
MaxResults?: TransitGatewayMaxResults;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface SearchTransitGatewayRoutesResult {
/**
* Information about the routes.
*/
Routes?: TransitGatewayRouteList;
/**
* Indicates whether there are additional routes available.
*/
AdditionalRoutesAvailable?: Boolean;
}
export interface SecurityGroup {
/**
* A description of the security group.
*/
Description?: String;
/**
* The name of the security group.
*/
GroupName?: String;
/**
* The inbound rules associated with the security group.
*/
IpPermissions?: IpPermissionList;
/**
* The AWS account ID of the owner of the security group.
*/
OwnerId?: String;
/**
* The ID of the security group.
*/
GroupId?: String;
/**
* [VPC only] The outbound rules associated with the security group.
*/
IpPermissionsEgress?: IpPermissionList;
/**
* Any tags assigned to the security group.
*/
Tags?: TagList;
/**
* [VPC only] The ID of the VPC for the security group.
*/
VpcId?: String;
}
export type SecurityGroupIdStringList = String[];
export interface SecurityGroupIdentifier {
/**
* The ID of the security group.
*/
GroupId?: String;
/**
* The name of the security group.
*/
GroupName?: String;
}
export type SecurityGroupList = SecurityGroup[];
export interface SecurityGroupReference {
/**
* The ID of your security group.
*/
GroupId?: String;
/**
* The ID of the VPC with the referencing security group.
*/
ReferencingVpcId?: String;
/**
* The ID of the VPC peering connection.
*/
VpcPeeringConnectionId?: String;
}
export type SecurityGroupReferences = SecurityGroupReference[];
export type SecurityGroupStringList = String[];
export interface SendDiagnosticInterruptRequest {
/**
* The ID of the instance.
*/
InstanceId: InstanceId;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export type SensitiveUserData = string;
export interface ServiceConfiguration {
/**
* The type of service.
*/
ServiceType?: ServiceTypeDetailSet;
/**
* The ID of the service.
*/
ServiceId?: String;
/**
* The name of the service.
*/
ServiceName?: String;
/**
* The service state.
*/
ServiceState?: ServiceState;
/**
* In the Availability Zones in which the service is available.
*/
AvailabilityZones?: ValueStringList;
/**
* Indicates whether requests from other AWS accounts to create an endpoint to the service must first be accepted.
*/
AcceptanceRequired?: Boolean;
/**
* Indicates whether the service manages it's VPC endpoints. Management of the service VPC endpoints using the VPC endpoint API is restricted.
*/
ManagesVpcEndpoints?: Boolean;
/**
* The Amazon Resource Names (ARNs) of the Network Load Balancers for the service.
*/
NetworkLoadBalancerArns?: ValueStringList;
/**
* The DNS names for the service.
*/
BaseEndpointDnsNames?: ValueStringList;
/**
* The private DNS name for the service.
*/
PrivateDnsName?: String;
/**
* Any tags assigned to the service.
*/
Tags?: TagList;
}
export type ServiceConfigurationSet = ServiceConfiguration[];
export interface ServiceDetail {
/**
* The Amazon Resource Name (ARN) of the service.
*/
ServiceName?: String;
/**
* The ID of the endpoint service.
*/
ServiceId?: String;
/**
* The type of service.
*/
ServiceType?: ServiceTypeDetailSet;
/**
* The Availability Zones in which the service is available.
*/
AvailabilityZones?: ValueStringList;
/**
* The AWS account ID of the service owner.
*/
Owner?: String;
/**
* The DNS names for the service.
*/
BaseEndpointDnsNames?: ValueStringList;
/**
* The private DNS name for the service.
*/
PrivateDnsName?: String;
/**
* Indicates whether the service supports endpoint policies.
*/
VpcEndpointPolicySupported?: Boolean;
/**
* Indicates whether VPC endpoint connection requests to the service must be accepted by the service owner.
*/
AcceptanceRequired?: Boolean;
/**
* Indicates whether the service manages it's VPC endpoints. Management of the service VPC endpoints using the VPC endpoint API is restricted.
*/
ManagesVpcEndpoints?: Boolean;
/**
* Any tags assigned to the service.
*/
Tags?: TagList;
}
export type ServiceDetailSet = ServiceDetail[];
export type ServiceId = string;
export type ServiceState = "Pending"|"Available"|"Deleting"|"Deleted"|"Failed"|string;
export type ServiceType = "Interface"|"Gateway"|string;
export interface ServiceTypeDetail {
/**
* The type of service.
*/
ServiceType?: ServiceType;
}
export type ServiceTypeDetailSet = ServiceTypeDetail[];
export type ShutdownBehavior = "stop"|"terminate"|string;
export interface SlotDateTimeRangeRequest {
/**
* The earliest date and time, in UTC, for the Scheduled Instance to start.
*/
EarliestTime: DateTime;
/**
* The latest date and time, in UTC, for the Scheduled Instance to start. This value must be later than or equal to the earliest date and at most three months in the future.
*/
LatestTime: DateTime;
}
export interface SlotStartTimeRangeRequest {
/**
* The earliest date and time, in UTC, for the Scheduled Instance to start.
*/
EarliestTime?: DateTime;
/**
* The latest date and time, in UTC, for the Scheduled Instance to start.
*/
LatestTime?: DateTime;
}
export interface Snapshot {
/**
* The data encryption key identifier for the snapshot. This value is a unique identifier that corresponds to the data encryption key that was used to encrypt the original volume or snapshot copy. Because data encryption keys are inherited by volumes created from snapshots, and vice versa, if snapshots share the same data encryption key identifier, then they belong to the same volume/snapshot lineage. This parameter is only returned by DescribeSnapshots.
*/
DataEncryptionKeyId?: String;
/**
* The description for the snapshot.
*/
Description?: String;
/**
* Indicates whether the snapshot is encrypted.
*/
Encrypted?: Boolean;
/**
* The Amazon Resource Name (ARN) of the AWS Key Management Service (AWS KMS) customer master key (CMK) that was used to protect the volume encryption key for the parent volume.
*/
KmsKeyId?: String;
/**
* The AWS account ID of the EBS snapshot owner.
*/
OwnerId?: String;
/**
* The progress of the snapshot, as a percentage.
*/
Progress?: String;
/**
* The ID of the snapshot. Each snapshot receives a unique identifier when it is created.
*/
SnapshotId?: String;
/**
* The time stamp when the snapshot was initiated.
*/
StartTime?: DateTime;
/**
* The snapshot state.
*/
State?: SnapshotState;
/**
* Encrypted Amazon EBS snapshots are copied asynchronously. If a snapshot copy operation fails (for example, if the proper AWS Key Management Service (AWS KMS) permissions are not obtained) this field displays error state details to help you diagnose why the error occurred. This parameter is only returned by DescribeSnapshots.
*/
StateMessage?: String;
/**
* The ID of the volume that was used to create the snapshot. Snapshots created by the CopySnapshot action have an arbitrary volume ID that should not be used for any purpose.
*/
VolumeId?: String;
/**
* The size of the volume, in GiB.
*/
VolumeSize?: Integer;
/**
* Value from an Amazon-maintained list (amazon | self | all | aws-marketplace | microsoft) of snapshot owners. Not to be confused with the user-configured AWS account alias, which is set from the IAM console.
*/
OwnerAlias?: String;
/**
* Any tags assigned to the snapshot.
*/
Tags?: TagList;
}
export type SnapshotAttributeName = "productCodes"|"createVolumePermission"|string;
export interface SnapshotDetail {
/**
* A description for the snapshot.
*/
Description?: String;
/**
* The block device mapping for the snapshot.
*/
DeviceName?: String;
/**
* The size of the disk in the snapshot, in GiB.
*/
DiskImageSize?: Double;
/**
* The format of the disk image from which the snapshot is created.
*/
Format?: String;
/**
* The percentage of progress for the task.
*/
Progress?: String;
/**
* The snapshot ID of the disk being imported.
*/
SnapshotId?: String;
/**
* A brief status of the snapshot creation.
*/
Status?: String;
/**
* A detailed status message for the snapshot creation.
*/
StatusMessage?: String;
/**
* The URL used to access the disk image.
*/
Url?: String;
/**
* The S3 bucket for the disk image.
*/
UserBucket?: UserBucketDetails;
}
export type SnapshotDetailList = SnapshotDetail[];
export interface SnapshotDiskContainer {
/**
* The description of the disk image being imported.
*/
Description?: String;
/**
* The format of the disk image being imported. Valid values: VHD | VMDK
*/
Format?: String;
/**
* The URL to the Amazon S3-based disk image being imported. It can either be a https URL (https://..) or an Amazon S3 URL (s3://..).
*/
Url?: String;
/**
* The S3 bucket for the disk image.
*/
UserBucket?: UserBucket;
}
export type SnapshotId = string;
export type SnapshotIdStringList = String[];
export interface SnapshotInfo {
/**
* Description specified by the CreateSnapshotRequest that has been applied to all snapshots.
*/
Description?: String;
/**
* Tags associated with this snapshot.
*/
Tags?: TagList;
/**
* Indicates whether the snapshot is encrypted.
*/
Encrypted?: Boolean;
/**
* Source volume from which this snapshot was created.
*/
VolumeId?: String;
/**
* Current state of the snapshot.
*/
State?: SnapshotState;
/**
* Size of the volume from which this snapshot was created.
*/
VolumeSize?: Integer;
/**
* Time this snapshot was started. This is the same for all snapshots initiated by the same request.
*/
StartTime?: MillisecondDateTime;
/**
* Progress this snapshot has made towards completing.
*/
Progress?: String;
/**
* Account id used when creating this snapshot.
*/
OwnerId?: String;
/**
* Snapshot id that can be used to describe this snapshot.
*/
SnapshotId?: String;
}
export type SnapshotList = Snapshot[];
export type SnapshotSet = SnapshotInfo[];
export type SnapshotState = "pending"|"completed"|"error"|string;
export interface SnapshotTaskDetail {
/**
* The description of the snapshot.
*/
Description?: String;
/**
* The size of the disk in the snapshot, in GiB.
*/
DiskImageSize?: Double;
/**
* Indicates whether the snapshot is encrypted.
*/
Encrypted?: Boolean;
/**
* The format of the disk image from which the snapshot is created.
*/
Format?: String;
/**
* The identifier for the AWS Key Management Service (AWS KMS) customer master key (CMK) that was used to create the encrypted snapshot.
*/
KmsKeyId?: String;
/**
* The percentage of completion for the import snapshot task.
*/
Progress?: String;
/**
* The snapshot ID of the disk being imported.
*/
SnapshotId?: String;
/**
* A brief status for the import snapshot task.
*/
Status?: String;
/**
* A detailed status message for the import snapshot task.
*/
StatusMessage?: String;
/**
* The URL of the disk image from which the snapshot is created.
*/
Url?: String;
/**
* The S3 bucket for the disk image.
*/
UserBucket?: UserBucketDetails;
}
export type SpotAllocationStrategy = "lowest-price"|"diversified"|"capacity-optimized"|string;
export interface SpotDatafeedSubscription {
/**
* The Amazon S3 bucket where the Spot Instance data feed is located.
*/
Bucket?: String;
/**
* The fault codes for the Spot Instance request, if any.
*/
Fault?: SpotInstanceStateFault;
/**
* The AWS account ID of the account.
*/
OwnerId?: String;
/**
* The prefix that is prepended to data feed files.
*/
Prefix?: String;
/**
* The state of the Spot Instance data feed subscription.
*/
State?: DatafeedSubscriptionState;
}
export interface SpotFleetLaunchSpecification {
/**
* One or more security groups. When requesting instances in a VPC, you must specify the IDs of the security groups. When requesting instances in EC2-Classic, you can specify the names or the IDs of the security groups.
*/
SecurityGroups?: GroupIdentifierList;
/**
* Deprecated.
*/
AddressingType?: String;
/**
* One or more block devices that are mapped to the Spot Instances. You can't specify both a snapshot ID and an encryption value. This is because only blank volumes can be encrypted on creation. If a snapshot is the basis for a volume, it is not blank and its encryption status is used for the volume encryption status.
*/
BlockDeviceMappings?: BlockDeviceMappingList;
/**
* Indicates whether the instances are optimized for EBS I/O. This optimization provides dedicated throughput to Amazon EBS and an optimized configuration stack to provide optimal EBS I/O performance. This optimization isn't available with all instance types. Additional usage charges apply when using an EBS Optimized instance. Default: false
*/
EbsOptimized?: Boolean;
/**
* The IAM instance profile.
*/
IamInstanceProfile?: IamInstanceProfileSpecification;
/**
* The ID of the AMI.
*/
ImageId?: String;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* The ID of the kernel.
*/
KernelId?: String;
/**
* The name of the key pair.
*/
KeyName?: String;
/**
* Enable or disable monitoring for the instances.
*/
Monitoring?: SpotFleetMonitoring;
/**
* One or more network interfaces. If you specify a network interface, you must specify subnet IDs and security group IDs using the network interface.
*/
NetworkInterfaces?: InstanceNetworkInterfaceSpecificationList;
/**
* The placement information.
*/
Placement?: SpotPlacement;
/**
* The ID of the RAM disk. Some kernels require additional drivers at launch. Check the kernel requirements for information about whether you need to specify a RAM disk. To find kernel requirements, refer to the AWS Resource Center and search for the kernel ID.
*/
RamdiskId?: String;
/**
* The maximum price per unit hour that you are willing to pay for a Spot Instance. If this value is not specified, the default is the Spot price specified for the fleet. To determine the Spot price per unit hour, divide the Spot price by the value of WeightedCapacity.
*/
SpotPrice?: String;
/**
* The IDs of the subnets in which to launch the instances. To specify multiple subnets, separate them using commas; for example, "subnet-1234abcdeexample1, subnet-0987cdef6example2".
*/
SubnetId?: String;
/**
* The Base64-encoded user data that instances use when starting up.
*/
UserData?: String;
/**
* The number of units provided by the specified instance type. These are the same units that you chose to set the target capacity in terms of instances, or a performance characteristic such as vCPUs, memory, or I/O. If the target capacity divided by this value is not a whole number, Amazon EC2 rounds the number of instances to the next whole number. If this value is not specified, the default is 1.
*/
WeightedCapacity?: Double;
/**
* The tags to apply during creation.
*/
TagSpecifications?: SpotFleetTagSpecificationList;
}
export interface SpotFleetMonitoring {
/**
* Enables monitoring for the instance. Default: false
*/
Enabled?: Boolean;
}
export interface SpotFleetRequestConfig {
/**
* The progress of the Spot Fleet request. If there is an error, the status is error. After all requests are placed, the status is pending_fulfillment. If the size of the fleet is equal to or greater than its target capacity, the status is fulfilled. If the size of the fleet is decreased, the status is pending_termination while Spot Instances are terminating.
*/
ActivityStatus?: ActivityStatus;
/**
* The creation date and time of the request.
*/
CreateTime?: DateTime;
/**
* The configuration of the Spot Fleet request.
*/
SpotFleetRequestConfig?: SpotFleetRequestConfigData;
/**
* The ID of the Spot Fleet request.
*/
SpotFleetRequestId?: String;
/**
* The state of the Spot Fleet request.
*/
SpotFleetRequestState?: BatchState;
}
export interface SpotFleetRequestConfigData {
/**
* Indicates how to allocate the target Spot Instance capacity across the Spot Instance pools specified by the Spot Fleet request. If the allocation strategy is lowestPrice, Spot Fleet launches instances from the Spot Instance pools with the lowest price. This is the default allocation strategy. If the allocation strategy is diversified, Spot Fleet launches instances from all the Spot Instance pools that you specify. If the allocation strategy is capacityOptimized, Spot Fleet launches instances from Spot Instance pools with optimal capacity for the number of instances that are launching.
*/
AllocationStrategy?: AllocationStrategy;
/**
* The order of the launch template overrides to use in fulfilling On-Demand capacity. If you specify lowestPrice, Spot Fleet uses price to determine the order, launching the lowest price first. If you specify prioritized, Spot Fleet uses the priority that you assign to each Spot Fleet launch template override, launching the highest priority first. If you do not specify a value, Spot Fleet defaults to lowestPrice.
*/
OnDemandAllocationStrategy?: OnDemandAllocationStrategy;
/**
* A unique, case-sensitive identifier that you provide to ensure the idempotency of your listings. This helps to avoid duplicate listings. For more information, see Ensuring Idempotency.
*/
ClientToken?: String;
/**
* Indicates whether running Spot Instances should be terminated if you decrease the target capacity of the Spot Fleet request below the current size of the Spot Fleet.
*/
ExcessCapacityTerminationPolicy?: ExcessCapacityTerminationPolicy;
/**
* The number of units fulfilled by this request compared to the set target capacity. You cannot set this value.
*/
FulfilledCapacity?: Double;
/**
* The number of On-Demand units fulfilled by this request compared to the set target On-Demand capacity.
*/
OnDemandFulfilledCapacity?: Double;
/**
* The Amazon Resource Name (ARN) of an AWS Identity and Access Management (IAM) role that grants the Spot Fleet the permission to request, launch, terminate, and tag instances on your behalf. For more information, see Spot Fleet Prerequisites in the Amazon EC2 User Guide for Linux Instances. Spot Fleet can terminate Spot Instances on your behalf when you cancel its Spot Fleet request using CancelSpotFleetRequests or when the Spot Fleet request expires, if you set TerminateInstancesWithExpiration.
*/
IamFleetRole: String;
/**
* The launch specifications for the Spot Fleet request. If you specify LaunchSpecifications, you can't specify LaunchTemplateConfigs. If you include On-Demand capacity in your request, you must use LaunchTemplateConfigs.
*/
LaunchSpecifications?: LaunchSpecsList;
/**
* The launch template and overrides. If you specify LaunchTemplateConfigs, you can't specify LaunchSpecifications. If you include On-Demand capacity in your request, you must use LaunchTemplateConfigs.
*/
LaunchTemplateConfigs?: LaunchTemplateConfigList;
/**
* The maximum price per unit hour that you are willing to pay for a Spot Instance. The default is the On-Demand price.
*/
SpotPrice?: String;
/**
* The number of units to request for the Spot Fleet. You can choose to set the target capacity in terms of instances or a performance characteristic that is important to your application workload, such as vCPUs, memory, or I/O. If the request type is maintain, you can specify a target capacity of 0 and add capacity later.
*/
TargetCapacity: Integer;
/**
* The number of On-Demand units to request. You can choose to set the target capacity in terms of instances or a performance characteristic that is important to your application workload, such as vCPUs, memory, or I/O. If the request type is maintain, you can specify a target capacity of 0 and add capacity later.
*/
OnDemandTargetCapacity?: Integer;
/**
* The maximum amount per hour for On-Demand Instances that you're willing to pay. You can use the onDemandMaxTotalPrice parameter, the spotMaxTotalPrice parameter, or both parameters to ensure that your fleet cost does not exceed your budget. If you set a maximum price per hour for the On-Demand Instances and Spot Instances in your request, Spot Fleet will launch instances until it reaches the maximum amount you're willing to pay. When the maximum amount you're willing to pay is reached, the fleet stops launching instances even if it hasn’t met the target capacity.
*/
OnDemandMaxTotalPrice?: String;
/**
* The maximum amount per hour for Spot Instances that you're willing to pay. You can use the spotdMaxTotalPrice parameter, the onDemandMaxTotalPrice parameter, or both parameters to ensure that your fleet cost does not exceed your budget. If you set a maximum price per hour for the On-Demand Instances and Spot Instances in your request, Spot Fleet will launch instances until it reaches the maximum amount you're willing to pay. When the maximum amount you're willing to pay is reached, the fleet stops launching instances even if it hasn’t met the target capacity.
*/
SpotMaxTotalPrice?: String;
/**
* Indicates whether running Spot Instances are terminated when the Spot Fleet request expires.
*/
TerminateInstancesWithExpiration?: Boolean;
/**
* The type of request. Indicates whether the Spot Fleet only requests the target capacity or also attempts to maintain it. When this value is request, the Spot Fleet only places the required requests. It does not attempt to replenish Spot Instances if capacity is diminished, nor does it submit requests in alternative Spot pools if capacity is not available. When this value is maintain, the Spot Fleet maintains the target capacity. The Spot Fleet places the required requests to meet capacity and automatically replenishes any interrupted instances. Default: maintain. instant is listed but is not used by Spot Fleet.
*/
Type?: FleetType;
/**
* The start date and time of the request, in UTC format (YYYY-MM-DDTHH:MM:SSZ). By default, Amazon EC2 starts fulfilling the request immediately.
*/
ValidFrom?: DateTime;
/**
* The end date and time of the request, in UTC format (YYYY-MM-DDTHH:MM:SSZ). After the end date and time, no new Spot Instance requests are placed or able to fulfill the request. If no value is specified, the Spot Fleet request remains until you cancel it.
*/
ValidUntil?: DateTime;
/**
* Indicates whether Spot Fleet should replace unhealthy instances.
*/
ReplaceUnhealthyInstances?: Boolean;
/**
* The behavior when a Spot Instance is interrupted. The default is terminate.
*/
InstanceInterruptionBehavior?: InstanceInterruptionBehavior;
/**
* One or more Classic Load Balancers and target groups to attach to the Spot Fleet request. Spot Fleet registers the running Spot Instances with the specified Classic Load Balancers and target groups. With Network Load Balancers, Spot Fleet cannot register instances that have the following instance types: C1, CC1, CC2, CG1, CG2, CR1, CS1, G1, G2, HI1, HS1, M1, M2, M3, and T1.
*/
LoadBalancersConfig?: LoadBalancersConfig;
/**
* The number of Spot pools across which to allocate your target Spot capacity. Valid only when Spot AllocationStrategy is set to lowest-price. Spot Fleet selects the cheapest Spot pools and evenly allocates your target Spot capacity across the number of Spot pools that you specify.
*/
InstancePoolsToUseCount?: Integer;
}
export type SpotFleetRequestConfigSet = SpotFleetRequestConfig[];
export type SpotFleetRequestId = string;
export interface SpotFleetTagSpecification {
/**
* The type of resource. Currently, the only resource type that is supported is instance.
*/
ResourceType?: ResourceType;
/**
* The tags.
*/
Tags?: TagList;
}
export type SpotFleetTagSpecificationList = SpotFleetTagSpecification[];
export type SpotInstanceInterruptionBehavior = "hibernate"|"stop"|"terminate"|string;
export interface SpotInstanceRequest {
/**
* If you specified a duration and your Spot Instance request was fulfilled, this is the fixed hourly price in effect for the Spot Instance while it runs.
*/
ActualBlockHourlyPrice?: String;
/**
* The Availability Zone group. If you specify the same Availability Zone group for all Spot Instance requests, all Spot Instances are launched in the same Availability Zone.
*/
AvailabilityZoneGroup?: String;
/**
* The duration for the Spot Instance, in minutes.
*/
BlockDurationMinutes?: Integer;
/**
* The date and time when the Spot Instance request was created, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
CreateTime?: DateTime;
/**
* The fault codes for the Spot Instance request, if any.
*/
Fault?: SpotInstanceStateFault;
/**
* The instance ID, if an instance has been launched to fulfill the Spot Instance request.
*/
InstanceId?: String;
/**
* The instance launch group. Launch groups are Spot Instances that launch together and terminate together.
*/
LaunchGroup?: String;
/**
* Additional information for launching instances.
*/
LaunchSpecification?: LaunchSpecification;
/**
* The Availability Zone in which the request is launched.
*/
LaunchedAvailabilityZone?: String;
/**
* The product description associated with the Spot Instance.
*/
ProductDescription?: RIProductDescription;
/**
* The ID of the Spot Instance request.
*/
SpotInstanceRequestId?: String;
/**
* The maximum price per hour that you are willing to pay for a Spot Instance.
*/
SpotPrice?: String;
/**
* The state of the Spot Instance request. Spot status information helps track your Spot Instance requests. For more information, see Spot Status in the Amazon EC2 User Guide for Linux Instances.
*/
State?: SpotInstanceState;
/**
* The status code and status message describing the Spot Instance request.
*/
Status?: SpotInstanceStatus;
/**
* Any tags assigned to the resource.
*/
Tags?: TagList;
/**
* The Spot Instance request type.
*/
Type?: SpotInstanceType;
/**
* The start date of the request, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). The request becomes active at this date and time.
*/
ValidFrom?: DateTime;
/**
* The end date of the request, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ). If this is a one-time request, it remains active until all instances launch, the request is canceled, or this date is reached. If the request is persistent, it remains active until it is canceled or this date is reached. The default end date is 7 days from the current date.
*/
ValidUntil?: DateTime;
/**
* The behavior when a Spot Instance is interrupted.
*/
InstanceInterruptionBehavior?: InstanceInterruptionBehavior;
}
export type SpotInstanceRequestIdList = String[];
export type SpotInstanceRequestList = SpotInstanceRequest[];
export type SpotInstanceState = "open"|"active"|"closed"|"cancelled"|"failed"|string;
export interface SpotInstanceStateFault {
/**
* The reason code for the Spot Instance state change.
*/
Code?: String;
/**
* The message for the Spot Instance state change.
*/
Message?: String;
}
export interface SpotInstanceStatus {
/**
* The status code. For a list of status codes, see Spot Status Codes in the Amazon EC2 User Guide for Linux Instances.
*/
Code?: String;
/**
* The description for the status code.
*/
Message?: String;
/**
* The date and time of the most recent status update, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
UpdateTime?: DateTime;
}
export type SpotInstanceType = "one-time"|"persistent"|string;
export interface SpotMarketOptions {
/**
* The maximum hourly price you're willing to pay for the Spot Instances. The default is the On-Demand price.
*/
MaxPrice?: String;
/**
* The Spot Instance request type. For RunInstances, persistent Spot Instance requests are only supported when InstanceInterruptionBehavior is set to either hibernate or stop.
*/
SpotInstanceType?: SpotInstanceType;
/**
* The required duration for the Spot Instances (also known as Spot blocks), in minutes. This value must be a multiple of 60 (60, 120, 180, 240, 300, or 360).
*/
BlockDurationMinutes?: Integer;
/**
* The end date of the request. For a one-time request, the request remains active until all instances launch, the request is canceled, or this date is reached. If the request is persistent, it remains active until it is canceled or this date and time is reached. The default end date is 7 days from the current date.
*/
ValidUntil?: DateTime;
/**
* The behavior when a Spot Instance is interrupted. The default is terminate.
*/
InstanceInterruptionBehavior?: InstanceInterruptionBehavior;
}
export interface SpotOptions {
/**
* Indicates how to allocate the target Spot Instance capacity across the Spot Instance pools specified by the EC2 Fleet. If the allocation strategy is lowest-price, EC2 Fleet launches instances from the Spot Instance pools with the lowest price. This is the default allocation strategy. If the allocation strategy is diversified, EC2 Fleet launches instances from all the Spot Instance pools that you specify. If the allocation strategy is capacity-optimized, EC2 Fleet launches instances from Spot Instance pools with optimal capacity for the number of instances that are launching.
*/
AllocationStrategy?: SpotAllocationStrategy;
/**
* The behavior when a Spot Instance is interrupted. The default is terminate.
*/
InstanceInterruptionBehavior?: SpotInstanceInterruptionBehavior;
/**
* The number of Spot pools across which to allocate your target Spot capacity. Valid only when AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot pools and evenly allocates your target Spot capacity across the number of Spot pools that you specify.
*/
InstancePoolsToUseCount?: Integer;
/**
* Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet.
*/
SingleInstanceType?: Boolean;
/**
* Indicates that the fleet launches all Spot Instances into a single Availability Zone.
*/
SingleAvailabilityZone?: Boolean;
/**
* The minimum target capacity for Spot Instances in the fleet. If the minimum target capacity is not reached, the fleet launches no instances.
*/
MinTargetCapacity?: Integer;
/**
* The maximum amount per hour for Spot Instances that you're willing to pay.
*/
MaxTotalPrice?: String;
}
export interface SpotOptionsRequest {
/**
* Indicates how to allocate the target Spot Instance capacity across the Spot Instance pools specified by the EC2 Fleet. If the allocation strategy is lowest-price, EC2 Fleet launches instances from the Spot Instance pools with the lowest price. This is the default allocation strategy. If the allocation strategy is diversified, EC2 Fleet launches instances from all the Spot Instance pools that you specify. If the allocation strategy is capacity-optimized, EC2 Fleet launches instances from Spot Instance pools with optimal capacity for the number of instances that are launching.
*/
AllocationStrategy?: SpotAllocationStrategy;
/**
* The behavior when a Spot Instance is interrupted. The default is terminate.
*/
InstanceInterruptionBehavior?: SpotInstanceInterruptionBehavior;
/**
* The number of Spot pools across which to allocate your target Spot capacity. Valid only when Spot AllocationStrategy is set to lowest-price. EC2 Fleet selects the cheapest Spot pools and evenly allocates your target Spot capacity across the number of Spot pools that you specify.
*/
InstancePoolsToUseCount?: Integer;
/**
* Indicates that the fleet uses a single instance type to launch all Spot Instances in the fleet.
*/
SingleInstanceType?: Boolean;
/**
* Indicates that the fleet launches all Spot Instances into a single Availability Zone.
*/
SingleAvailabilityZone?: Boolean;
/**
* The minimum target capacity for Spot Instances in the fleet. If the minimum target capacity is not reached, the fleet launches no instances.
*/
MinTargetCapacity?: Integer;
/**
* The maximum amount per hour for Spot Instances that you're willing to pay.
*/
MaxTotalPrice?: String;
}
export interface SpotPlacement {
/**
* The Availability Zone. [Spot Fleet only] To specify multiple Availability Zones, separate them using commas; for example, "us-west-2a, us-west-2b".
*/
AvailabilityZone?: String;
/**
* The name of the placement group.
*/
GroupName?: String;
/**
* The tenancy of the instance (if the instance is running in a VPC). An instance with a tenancy of dedicated runs on single-tenant hardware. The host tenancy is not supported for Spot Instances.
*/
Tenancy?: Tenancy;
}
export interface SpotPrice {
/**
* The Availability Zone.
*/
AvailabilityZone?: String;
/**
* The instance type.
*/
InstanceType?: InstanceType;
/**
* A general description of the AMI.
*/
ProductDescription?: RIProductDescription;
/**
* The maximum price per hour that you are willing to pay for a Spot Instance.
*/
SpotPrice?: String;
/**
* The date and time the request was created, in UTC format (for example, YYYY-MM-DDTHH:MM:SSZ).
*/
Timestamp?: DateTime;
}
export type SpotPriceHistoryList = SpotPrice[];
export interface StaleIpPermission {
/**
* The start of the port range for the TCP and UDP protocols, or an ICMP type number. A value of -1 indicates all ICMP types.
*/
FromPort?: Integer;
/**
* The IP protocol name (for tcp, udp, and icmp) or number (see Protocol Numbers).
*/
IpProtocol?: String;
/**
* The IP ranges. Not applicable for stale security group rules.
*/
IpRanges?: IpRanges;
/**
* The prefix list IDs for an AWS service. Not applicable for stale security group rules.
*/
PrefixListIds?: PrefixListIdSet;
/**
* The end of the port range for the TCP and UDP protocols, or an ICMP type number. A value of -1 indicates all ICMP types.
*/
ToPort?: Integer;
/**
* The security group pairs. Returns the ID of the referenced security group and VPC, and the ID and status of the VPC peering connection.
*/
UserIdGroupPairs?: UserIdGroupPairSet;
}
export type StaleIpPermissionSet = StaleIpPermission[];
export interface StaleSecurityGroup {
/**
* The description of the security group.
*/
Description?: String;
/**
* The ID of the security group.
*/
GroupId?: String;
/**
* The name of the security group.
*/
GroupName?: String;
/**
* Information about the stale inbound rules in the security group.
*/
StaleIpPermissions?: StaleIpPermissionSet;
/**
* Information about the stale outbound rules in the security group.
*/
StaleIpPermissionsEgress?: StaleIpPermissionSet;
/**
* The ID of the VPC for the security group.
*/
VpcId?: String;
}
export type StaleSecurityGroupSet = StaleSecurityGroup[];
export interface StartInstancesRequest {
/**
* The IDs of the instances.
*/
InstanceIds: InstanceIdStringList;
/**
* Reserved.
*/
AdditionalInfo?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface StartInstancesResult {
/**
* Information about the started instances.
*/
StartingInstances?: InstanceStateChangeList;
}
export type State = "PendingAcceptance"|"Pending"|"Available"|"Deleting"|"Deleted"|"Rejected"|"Failed"|"Expired"|string;
export interface StateReason {
/**
* The reason code for the state change.
*/
Code?: String;
/**
* The message for the state change. Server.InsufficientInstanceCapacity: There was insufficient capacity available to satisfy the launch request. Server.InternalError: An internal error caused the instance to terminate during launch. Server.ScheduledStop: The instance was stopped due to a scheduled retirement. Server.SpotInstanceShutdown: The instance was stopped because the number of Spot requests with a maximum price equal to or higher than the Spot price exceeded available capacity or because of an increase in the Spot price. Server.SpotInstanceTermination: The instance was terminated because the number of Spot requests with a maximum price equal to or higher than the Spot price exceeded available capacity or because of an increase in the Spot price. Client.InstanceInitiatedShutdown: The instance was shut down using the shutdown -h command from the instance. Client.InstanceTerminated: The instance was terminated or rebooted during AMI creation. Client.InternalError: A client error caused the instance to terminate during launch. Client.InvalidSnapshot.NotFound: The specified snapshot was not found. Client.UserInitiatedHibernate: Hibernation was initiated on the instance. Client.UserInitiatedShutdown: The instance was shut down using the Amazon EC2 API. Client.VolumeLimitExceeded: The limit on the number of EBS volumes or total storage was exceeded. Decrease usage or request an increase in your account limits.
*/
Message?: String;
}
export type Status = "MoveInProgress"|"InVpc"|"InClassic"|string;
export type StatusName = "reachability"|string;
export type StatusType = "passed"|"failed"|"insufficient-data"|"initializing"|string;
export interface StopInstancesRequest {
/**
* The IDs of the instances.
*/
InstanceIds: InstanceIdStringList;
/**
* Hibernates the instance if the instance was enabled for hibernation at launch. If the instance cannot hibernate successfully, a normal shutdown occurs. For more information, see Hibernate Your Instance in the Amazon Elastic Compute Cloud User Guide. Default: false
*/
Hibernate?: Boolean;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* Forces the instances to stop. The instances do not have an opportunity to flush file system caches or file system metadata. If you use this option, you must perform file system check and repair procedures. This option is not recommended for Windows instances. Default: false
*/
Force?: Boolean;
}
export interface StopInstancesResult {
/**
* Information about the stopped instances.
*/
StoppingInstances?: InstanceStateChangeList;
}
export interface Storage {
/**
* An Amazon S3 storage location.
*/
S3?: S3Storage;
}
export interface StorageLocation {
/**
* The name of the S3 bucket.
*/
Bucket?: String;
/**
* The key.
*/
Key?: String;
}
export type String = string;
export interface Subnet {
/**
* The Availability Zone of the subnet.
*/
AvailabilityZone?: String;
/**
* The AZ ID of the subnet.
*/
AvailabilityZoneId?: String;
/**
* The number of unused private IPv4 addresses in the subnet. The IPv4 addresses for any stopped instances are considered unavailable.
*/
AvailableIpAddressCount?: Integer;
/**
* The IPv4 CIDR block assigned to the subnet.
*/
CidrBlock?: String;
/**
* Indicates whether this is the default subnet for the Availability Zone.
*/
DefaultForAz?: Boolean;
/**
* Indicates whether instances launched in this subnet receive a public IPv4 address.
*/
MapPublicIpOnLaunch?: Boolean;
/**
* The current state of the subnet.
*/
State?: SubnetState;
/**
* The ID of the subnet.
*/
SubnetId?: String;
/**
* The ID of the VPC the subnet is in.
*/
VpcId?: String;
/**
* The ID of the AWS account that owns the subnet.
*/
OwnerId?: String;
/**
* Indicates whether a network interface created in this subnet (including a network interface created by RunInstances) receives an IPv6 address.
*/
AssignIpv6AddressOnCreation?: Boolean;
/**
* Information about the IPv6 CIDR blocks associated with the subnet.
*/
Ipv6CidrBlockAssociationSet?: SubnetIpv6CidrBlockAssociationSet;
/**
* Any tags assigned to the subnet.
*/
Tags?: TagList;
/**
* The Amazon Resource Name (ARN) of the subnet.
*/
SubnetArn?: String;
}
export type SubnetCidrAssociationId = string;
export interface SubnetCidrBlockState {
/**
* The state of a CIDR block.
*/
State?: SubnetCidrBlockStateCode;
/**
* A message about the status of the CIDR block, if applicable.
*/
StatusMessage?: String;
}
export type SubnetCidrBlockStateCode = "associating"|"associated"|"disassociating"|"disassociated"|"failing"|"failed"|string;
export type SubnetId = string;
export type SubnetIdStringList = String[];
export interface SubnetIpv6CidrBlockAssociation {
/**
* The association ID for the CIDR block.
*/
AssociationId?: String;
/**
* The IPv6 CIDR block.
*/
Ipv6CidrBlock?: String;
/**
* Information about the state of the CIDR block.
*/
Ipv6CidrBlockState?: SubnetCidrBlockState;
}
export type SubnetIpv6CidrBlockAssociationSet = SubnetIpv6CidrBlockAssociation[];
export type SubnetList = Subnet[];
export type SubnetState = "pending"|"available"|string;
export interface SuccessfulInstanceCreditSpecificationItem {
/**
* The ID of the instance.
*/
InstanceId?: String;
}
export type SuccessfulInstanceCreditSpecificationSet = SuccessfulInstanceCreditSpecificationItem[];
export interface SuccessfulQueuedPurchaseDeletion {
/**
* The ID of the Reserved Instance.
*/
ReservedInstancesId?: String;
}
export type SuccessfulQueuedPurchaseDeletionSet = SuccessfulQueuedPurchaseDeletion[];
export type SummaryStatus = "ok"|"impaired"|"insufficient-data"|"not-applicable"|"initializing"|string;
export interface Tag {
/**
* The key of the tag. Constraints: Tag keys are case-sensitive and accept a maximum of 127 Unicode characters. May not begin with aws:.
*/
Key?: String;
/**
* The value of the tag. Constraints: Tag values are case-sensitive and accept a maximum of 255 Unicode characters.
*/
Value?: String;
}
export interface TagDescription {
/**
* The tag key.
*/
Key?: String;
/**
* The ID of the resource.
*/
ResourceId?: String;
/**
* The resource type.
*/
ResourceType?: ResourceType;
/**
* The tag value.
*/
Value?: String;
}
export type TagDescriptionList = TagDescription[];
export type TagList = Tag[];
export interface TagSpecification {
/**
* The type of resource to tag. Currently, the resource types that support tagging on creation are: capacity-reservation | client-vpn-endpoint | dedicated-host | fleet | fpga-image | instance | launch-template | snapshot | traffic-mirror-filter | traffic-mirror-session | traffic-mirror-target | transit-gateway | transit-gateway-attachment | transit-gateway-route-table | volume. To tag a resource after it has been created, see CreateTags.
*/
ResourceType?: ResourceType;
/**
* The tags to apply to the resource.
*/
Tags?: TagList;
}
export type TagSpecificationList = TagSpecification[];
export interface TargetCapacitySpecification {
/**
* The number of units to request, filled using DefaultTargetCapacityType.
*/
TotalTargetCapacity?: Integer;
/**
* The number of On-Demand units to request. If you specify a target capacity for Spot units, you cannot specify a target capacity for On-Demand units.
*/
OnDemandTargetCapacity?: Integer;
/**
* The maximum number of Spot units to launch. If you specify a target capacity for On-Demand units, you cannot specify a target capacity for Spot units.
*/
SpotTargetCapacity?: Integer;
/**
* The default TotalTargetCapacity, which is either Spot or On-Demand.
*/
DefaultTargetCapacityType?: DefaultTargetCapacityType;
}
export interface TargetCapacitySpecificationRequest {
/**
* The number of units to request, filled using DefaultTargetCapacityType.
*/
TotalTargetCapacity: Integer;
/**
* The number of On-Demand units to request.
*/
OnDemandTargetCapacity?: Integer;
/**
* The number of Spot units to request.
*/
SpotTargetCapacity?: Integer;
/**
* The default TotalTargetCapacity, which is either Spot or On-Demand.
*/
DefaultTargetCapacityType?: DefaultTargetCapacityType;
}
export interface TargetConfiguration {
/**
* The number of instances the Convertible Reserved Instance offering can be applied to. This parameter is reserved and cannot be specified in a request
*/
InstanceCount?: Integer;
/**
* The ID of the Convertible Reserved Instance offering.
*/
OfferingId?: String;
}
export interface TargetConfigurationRequest {
/**
* The number of instances the Covertible Reserved Instance offering can be applied to. This parameter is reserved and cannot be specified in a request
*/
InstanceCount?: Integer;
/**
* The Convertible Reserved Instance offering ID.
*/
OfferingId: String;
}
export type TargetConfigurationRequestSet = TargetConfigurationRequest[];
export interface TargetGroup {
/**
* The Amazon Resource Name (ARN) of the target group.
*/
Arn?: String;
}
export type TargetGroups = TargetGroup[];
export interface TargetGroupsConfig {
/**
* One or more target groups.
*/
TargetGroups?: TargetGroups;
}
export interface TargetNetwork {
/**
* The ID of the association.
*/
AssociationId?: String;
/**
* The ID of the VPC in which the target network (subnet) is located.
*/
VpcId?: String;
/**
* The ID of the subnet specified as the target network.
*/
TargetNetworkId?: String;
/**
* The ID of the Client VPN endpoint with which the target network is associated.
*/
ClientVpnEndpointId?: String;
/**
* The current state of the target network association.
*/
Status?: AssociationStatus;
/**
* The IDs of the security groups applied to the target network association.
*/
SecurityGroups?: ValueStringList;
}
export type TargetNetworkSet = TargetNetwork[];
export interface TargetReservationValue {
/**
* The total value of the Convertible Reserved Instances that make up the exchange. This is the sum of the list value, remaining upfront price, and additional upfront cost of the exchange.
*/
ReservationValue?: ReservationValue;
/**
* The configuration of the Convertible Reserved Instances that make up the exchange.
*/
TargetConfiguration?: TargetConfiguration;
}
export type TargetReservationValueSet = TargetReservationValue[];
export type TelemetryStatus = "UP"|"DOWN"|string;
export type Tenancy = "default"|"dedicated"|"host"|string;
export interface TerminateClientVpnConnectionsRequest {
/**
* The ID of the Client VPN endpoint to which the client is connected.
*/
ClientVpnEndpointId: ClientVpnEndpointId;
/**
* The ID of the client connection to be terminated.
*/
ConnectionId?: String;
/**
* The name of the user who initiated the connection. Use this option to terminate all active connections for the specified user. This option can only be used if the user has established up to five connections.
*/
Username?: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface TerminateClientVpnConnectionsResult {
/**
* The ID of the Client VPN endpoint.
*/
ClientVpnEndpointId?: String;
/**
* The user who established the terminated client connections.
*/
Username?: String;
/**
* The current state of the client connections.
*/
ConnectionStatuses?: TerminateConnectionStatusSet;
}
export interface TerminateConnectionStatus {
/**
* The ID of the client connection.
*/
ConnectionId?: String;
/**
* The state of the client connection.
*/
PreviousStatus?: ClientVpnConnectionStatus;
/**
* A message about the status of the client connection, if applicable.
*/
CurrentStatus?: ClientVpnConnectionStatus;
}
export type TerminateConnectionStatusSet = TerminateConnectionStatus[];
export interface TerminateInstancesRequest {
/**
* The IDs of the instances. Constraints: Up to 1000 instance IDs. We recommend breaking up this request into smaller batches.
*/
InstanceIds: InstanceIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface TerminateInstancesResult {
/**
* Information about the terminated instances.
*/
TerminatingInstances?: InstanceStateChangeList;
}
export type TrafficDirection = "ingress"|"egress"|string;
export interface TrafficMirrorFilter {
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterId?: String;
/**
* Information about the ingress rules that are associated with the Traffic Mirror filter.
*/
IngressFilterRules?: TrafficMirrorFilterRuleList;
/**
* Information about the egress rules that are associated with the Traffic Mirror filter.
*/
EgressFilterRules?: TrafficMirrorFilterRuleList;
/**
* The network service traffic that is associated with the Traffic Mirror filter.
*/
NetworkServices?: TrafficMirrorNetworkServiceList;
/**
* The description of the Traffic Mirror filter.
*/
Description?: String;
/**
* The tags assigned to the Traffic Mirror filter.
*/
Tags?: TagList;
}
export type TrafficMirrorFilterId = string;
export interface TrafficMirrorFilterRule {
/**
* The ID of the Traffic Mirror rule.
*/
TrafficMirrorFilterRuleId?: String;
/**
* The ID of the Traffic Mirror filter that the rule is associated with.
*/
TrafficMirrorFilterId?: String;
/**
* The traffic direction assigned to the Traffic Mirror rule.
*/
TrafficDirection?: TrafficDirection;
/**
* The rule number of the Traffic Mirror rule.
*/
RuleNumber?: Integer;
/**
* The action assigned to the Traffic Mirror rule.
*/
RuleAction?: TrafficMirrorRuleAction;
/**
* The protocol assigned to the Traffic Mirror rule.
*/
Protocol?: Integer;
/**
* The destination port range assigned to the Traffic Mirror rule.
*/
DestinationPortRange?: TrafficMirrorPortRange;
/**
* The source port range assigned to the Traffic Mirror rule.
*/
SourcePortRange?: TrafficMirrorPortRange;
/**
* The destination CIDR block assigned to the Traffic Mirror rule.
*/
DestinationCidrBlock?: String;
/**
* The source CIDR block assigned to the Traffic Mirror rule.
*/
SourceCidrBlock?: String;
/**
* The description of the Traffic Mirror rule.
*/
Description?: String;
}
export type TrafficMirrorFilterRuleField = "destination-port-range"|"source-port-range"|"protocol"|"description"|string;
export type TrafficMirrorFilterRuleFieldList = TrafficMirrorFilterRuleField[];
export type TrafficMirrorFilterRuleId = string;
export type TrafficMirrorFilterRuleList = TrafficMirrorFilterRule[];
export type TrafficMirrorFilterSet = TrafficMirrorFilter[];
export type TrafficMirrorNetworkService = "amazon-dns"|string;
export type TrafficMirrorNetworkServiceList = TrafficMirrorNetworkService[];
export interface TrafficMirrorPortRange {
/**
* The start of the Traffic Mirror port range. This applies to the TCP and UDP protocols.
*/
FromPort?: Integer;
/**
* The end of the Traffic Mirror port range. This applies to the TCP and UDP protocols.
*/
ToPort?: Integer;
}
export interface TrafficMirrorPortRangeRequest {
/**
* The first port in the Traffic Mirror port range. This applies to the TCP and UDP protocols.
*/
FromPort?: Integer;
/**
* The last port in the Traffic Mirror port range. This applies to the TCP and UDP protocols.
*/
ToPort?: Integer;
}
export type TrafficMirrorRuleAction = "accept"|"reject"|string;
export interface TrafficMirrorSession {
/**
* The ID for the Traffic Mirror session.
*/
TrafficMirrorSessionId?: String;
/**
* The ID of the Traffic Mirror target.
*/
TrafficMirrorTargetId?: String;
/**
* The ID of the Traffic Mirror filter.
*/
TrafficMirrorFilterId?: String;
/**
* The ID of the Traffic Mirror session's network interface.
*/
NetworkInterfaceId?: String;
/**
* The ID of the account that owns the Traffic Mirror session.
*/
OwnerId?: String;
/**
* The number of bytes in each packet to mirror. These are the bytes after the VXLAN header. To mirror a subset, set this to the length (in bytes) to mirror. For example, if you set this value to 100, then the first 100 bytes that meet the filter criteria are copied to the target. Do not specify this parameter when you want to mirror the entire packet
*/
PacketLength?: Integer;
/**
* The session number determines the order in which sessions are evaluated when an interface is used by multiple sessions. The first session with a matching filter is the one that mirrors the packets. Valid values are 1-32766.
*/
SessionNumber?: Integer;
/**
* The virtual network ID associated with the Traffic Mirror session.
*/
VirtualNetworkId?: Integer;
/**
* The description of the Traffic Mirror session.
*/
Description?: String;
/**
* The tags assigned to the Traffic Mirror session.
*/
Tags?: TagList;
}
export type TrafficMirrorSessionField = "packet-length"|"description"|"virtual-network-id"|string;
export type TrafficMirrorSessionFieldList = TrafficMirrorSessionField[];
export type TrafficMirrorSessionId = string;
export type TrafficMirrorSessionSet = TrafficMirrorSession[];
export interface TrafficMirrorTarget {
/**
* The ID of the Traffic Mirror target.
*/
TrafficMirrorTargetId?: String;
/**
* The network interface ID that is attached to the target.
*/
NetworkInterfaceId?: String;
/**
* The Amazon Resource Name (ARN) of the Network Load Balancer.
*/
NetworkLoadBalancerArn?: String;
/**
* The type of Traffic Mirror target.
*/
Type?: TrafficMirrorTargetType;
/**
* Information about the Traffic Mirror target.
*/
Description?: String;
/**
* The ID of the account that owns the Traffic Mirror target.
*/
OwnerId?: String;
/**
* The tags assigned to the Traffic Mirror target.
*/
Tags?: TagList;
}
export type TrafficMirrorTargetId = string;
export type TrafficMirrorTargetSet = TrafficMirrorTarget[];
export type TrafficMirrorTargetType = "network-interface"|"network-load-balancer"|string;
export type TrafficMirroringMaxResults = number;
export type TrafficType = "ACCEPT"|"REJECT"|"ALL"|string;
export interface TransitGateway {
/**
* The ID of the transit gateway.
*/
TransitGatewayId?: String;
/**
* The Amazon Resource Name (ARN) of the transit gateway.
*/
TransitGatewayArn?: String;
/**
* The state of the transit gateway.
*/
State?: TransitGatewayState;
/**
* The ID of the AWS account ID that owns the transit gateway.
*/
OwnerId?: String;
/**
* The description of the transit gateway.
*/
Description?: String;
/**
* The creation time.
*/
CreationTime?: DateTime;
/**
* The transit gateway options.
*/
Options?: TransitGatewayOptions;
/**
* The tags for the transit gateway.
*/
Tags?: TagList;
}
export interface TransitGatewayAssociation {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId?: String;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: String;
/**
* The ID of the resource.
*/
ResourceId?: String;
/**
* The resource type.
*/
ResourceType?: TransitGatewayAttachmentResourceType;
/**
* The state of the association.
*/
State?: TransitGatewayAssociationState;
}
export type TransitGatewayAssociationState = "associating"|"associated"|"disassociating"|"disassociated"|string;
export interface TransitGatewayAttachment {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: String;
/**
* The ID of the transit gateway.
*/
TransitGatewayId?: String;
/**
* The ID of the AWS account that owns the transit gateway.
*/
TransitGatewayOwnerId?: String;
/**
* The ID of the AWS account that owns the resource.
*/
ResourceOwnerId?: String;
/**
* The resource type.
*/
ResourceType?: TransitGatewayAttachmentResourceType;
/**
* The ID of the resource.
*/
ResourceId?: String;
/**
* The attachment state.
*/
State?: TransitGatewayAttachmentState;
/**
* The association.
*/
Association?: TransitGatewayAttachmentAssociation;
/**
* The creation time.
*/
CreationTime?: DateTime;
/**
* The tags for the attachment.
*/
Tags?: TagList;
}
export interface TransitGatewayAttachmentAssociation {
/**
* The ID of the route table for the transit gateway.
*/
TransitGatewayRouteTableId?: String;
/**
* The state of the association.
*/
State?: TransitGatewayAssociationState;
}
export type TransitGatewayAttachmentId = string;
export type TransitGatewayAttachmentIdStringList = String[];
export type TransitGatewayAttachmentList = TransitGatewayAttachment[];
export interface TransitGatewayAttachmentPropagation {
/**
* The ID of the propagation route table.
*/
TransitGatewayRouteTableId?: String;
/**
* The state of the propagation route table.
*/
State?: TransitGatewayPropagationState;
}
export type TransitGatewayAttachmentPropagationList = TransitGatewayAttachmentPropagation[];
export type TransitGatewayAttachmentResourceType = "vpc"|"vpn"|"direct-connect-gateway"|string;
export type TransitGatewayAttachmentState = "pendingAcceptance"|"rollingBack"|"pending"|"available"|"modifying"|"deleting"|"deleted"|"failed"|"rejected"|"rejecting"|"failing"|string;
export type TransitGatewayId = string;
export type TransitGatewayIdStringList = String[];
export type TransitGatewayList = TransitGateway[];
export type TransitGatewayMaxResults = number;
export interface TransitGatewayOptions {
/**
* A private Autonomous System Number (ASN) for the Amazon side of a BGP session. The range is 64512 to 65534 for 16-bit ASNs and 4200000000 to 4294967294 for 32-bit ASNs.
*/
AmazonSideAsn?: Long;
/**
* Indicates whether attachment requests are automatically accepted.
*/
AutoAcceptSharedAttachments?: AutoAcceptSharedAttachmentsValue;
/**
* Indicates whether resource attachments are automatically associated with the default association route table.
*/
DefaultRouteTableAssociation?: DefaultRouteTableAssociationValue;
/**
* The ID of the default association route table.
*/
AssociationDefaultRouteTableId?: String;
/**
* Indicates whether resource attachments automatically propagate routes to the default propagation route table.
*/
DefaultRouteTablePropagation?: DefaultRouteTablePropagationValue;
/**
* The ID of the default propagation route table.
*/
PropagationDefaultRouteTableId?: String;
/**
* Indicates whether Equal Cost Multipath Protocol support is enabled.
*/
VpnEcmpSupport?: VpnEcmpSupportValue;
/**
* Indicates whether DNS support is enabled.
*/
DnsSupport?: DnsSupportValue;
}
export interface TransitGatewayPropagation {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: String;
/**
* The ID of the resource.
*/
ResourceId?: String;
/**
* The resource type.
*/
ResourceType?: TransitGatewayAttachmentResourceType;
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId?: String;
/**
* The state.
*/
State?: TransitGatewayPropagationState;
}
export type TransitGatewayPropagationState = "enabling"|"enabled"|"disabling"|"disabled"|string;
export interface TransitGatewayRequestOptions {
/**
* A private Autonomous System Number (ASN) for the Amazon side of a BGP session. The range is 64512 to 65534 for 16-bit ASNs and 4200000000 to 4294967294 for 32-bit ASNs.
*/
AmazonSideAsn?: Long;
/**
* Enable or disable automatic acceptance of attachment requests. The default is disable.
*/
AutoAcceptSharedAttachments?: AutoAcceptSharedAttachmentsValue;
/**
* Enable or disable automatic association with the default association route table. The default is enable.
*/
DefaultRouteTableAssociation?: DefaultRouteTableAssociationValue;
/**
* Enable or disable automatic propagation of routes to the default propagation route table. The default is enable.
*/
DefaultRouteTablePropagation?: DefaultRouteTablePropagationValue;
/**
* Enable or disable Equal Cost Multipath Protocol support.
*/
VpnEcmpSupport?: VpnEcmpSupportValue;
/**
* Enable or disable DNS support.
*/
DnsSupport?: DnsSupportValue;
}
export interface TransitGatewayRoute {
/**
* The CIDR block used for destination matches.
*/
DestinationCidrBlock?: String;
/**
* The attachments.
*/
TransitGatewayAttachments?: TransitGatewayRouteAttachmentList;
/**
* The route type.
*/
Type?: TransitGatewayRouteType;
/**
* The state of the route.
*/
State?: TransitGatewayRouteState;
}
export interface TransitGatewayRouteAttachment {
/**
* The ID of the resource.
*/
ResourceId?: String;
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: String;
/**
* The resource type.
*/
ResourceType?: TransitGatewayAttachmentResourceType;
}
export type TransitGatewayRouteAttachmentList = TransitGatewayRouteAttachment[];
export type TransitGatewayRouteList = TransitGatewayRoute[];
export type TransitGatewayRouteState = "pending"|"active"|"blackhole"|"deleting"|"deleted"|string;
export interface TransitGatewayRouteTable {
/**
* The ID of the transit gateway route table.
*/
TransitGatewayRouteTableId?: String;
/**
* The ID of the transit gateway.
*/
TransitGatewayId?: String;
/**
* The state of the transit gateway route table.
*/
State?: TransitGatewayRouteTableState;
/**
* Indicates whether this is the default association route table for the transit gateway.
*/
DefaultAssociationRouteTable?: Boolean;
/**
* Indicates whether this is the default propagation route table for the transit gateway.
*/
DefaultPropagationRouteTable?: Boolean;
/**
* The creation time.
*/
CreationTime?: DateTime;
/**
* Any tags assigned to the route table.
*/
Tags?: TagList;
}
export interface TransitGatewayRouteTableAssociation {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: String;
/**
* The ID of the resource.
*/
ResourceId?: String;
/**
* The resource type.
*/
ResourceType?: TransitGatewayAttachmentResourceType;
/**
* The state of the association.
*/
State?: TransitGatewayAssociationState;
}
export type TransitGatewayRouteTableAssociationList = TransitGatewayRouteTableAssociation[];
export type TransitGatewayRouteTableId = string;
export type TransitGatewayRouteTableIdStringList = String[];
export type TransitGatewayRouteTableList = TransitGatewayRouteTable[];
export interface TransitGatewayRouteTablePropagation {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: String;
/**
* The ID of the resource.
*/
ResourceId?: String;
/**
* The type of resource.
*/
ResourceType?: TransitGatewayAttachmentResourceType;
/**
* The state of the resource.
*/
State?: TransitGatewayPropagationState;
}
export type TransitGatewayRouteTablePropagationList = TransitGatewayRouteTablePropagation[];
export type TransitGatewayRouteTableState = "pending"|"available"|"deleting"|"deleted"|string;
export type TransitGatewayRouteType = "static"|"propagated"|string;
export type TransitGatewayState = "pending"|"available"|"modifying"|"deleting"|"deleted"|string;
export interface TransitGatewayVpcAttachment {
/**
* The ID of the attachment.
*/
TransitGatewayAttachmentId?: String;
/**
* The ID of the transit gateway.
*/
TransitGatewayId?: String;
/**
* The ID of the VPC.
*/
VpcId?: String;
/**
* The ID of the AWS account that owns the VPC.
*/
VpcOwnerId?: String;
/**
* The state of the VPC attachment.
*/
State?: TransitGatewayAttachmentState;
/**
* The IDs of the subnets.
*/
SubnetIds?: ValueStringList;
/**
* The creation time.
*/
CreationTime?: DateTime;
/**
* The VPC attachment options.
*/
Options?: TransitGatewayVpcAttachmentOptions;
/**
* The tags for the VPC attachment.
*/
Tags?: TagList;
}
export type TransitGatewayVpcAttachmentList = TransitGatewayVpcAttachment[];
export interface TransitGatewayVpcAttachmentOptions {
/**
* Indicates whether DNS support is enabled.
*/
DnsSupport?: DnsSupportValue;
/**
* Indicates whether IPv6 support is enabled.
*/
Ipv6Support?: Ipv6SupportValue;
}
export type TransportProtocol = "tcp"|"udp"|string;
export interface TunnelOption {
/**
* The external IP address of the VPN tunnel.
*/
OutsideIpAddress?: String;
/**
* The range of inside IP addresses for the tunnel.
*/
TunnelInsideCidr?: String;
/**
* The pre-shared key (PSK) to establish initial authentication between the virtual private gateway and the customer gateway.
*/
PreSharedKey?: String;
/**
* The lifetime for phase 1 of the IKE negotiation, in seconds.
*/
Phase1LifetimeSeconds?: Integer;
/**
* The lifetime for phase 2 of the IKE negotiation, in seconds.
*/
Phase2LifetimeSeconds?: Integer;
/**
* The margin time, in seconds, before the phase 2 lifetime expires, during which the AWS side of the VPN connection performs an IKE rekey.
*/
RekeyMarginTimeSeconds?: Integer;
/**
* The percentage of the rekey window determined by RekeyMarginTimeSeconds during which the rekey time is randomly selected.
*/
RekeyFuzzPercentage?: Integer;
/**
* The number of packets in an IKE replay window.
*/
ReplayWindowSize?: Integer;
/**
* The number of seconds after which a DPD timeout occurs.
*/
DpdTimeoutSeconds?: Integer;
/**
* The permitted encryption algorithms for the VPN tunnel for phase 1 IKE negotiations.
*/
Phase1EncryptionAlgorithms?: Phase1EncryptionAlgorithmsList;
/**
* The permitted encryption algorithms for the VPN tunnel for phase 2 IKE negotiations.
*/
Phase2EncryptionAlgorithms?: Phase2EncryptionAlgorithmsList;
/**
* The permitted integrity algorithms for the VPN tunnel for phase 1 IKE negotiations.
*/
Phase1IntegrityAlgorithms?: Phase1IntegrityAlgorithmsList;
/**
* The permitted integrity algorithms for the VPN tunnel for phase 2 IKE negotiations.
*/
Phase2IntegrityAlgorithms?: Phase2IntegrityAlgorithmsList;
/**
* The permitted Diffie-Hellman group numbers for the VPN tunnel for phase 1 IKE negotiations.
*/
Phase1DHGroupNumbers?: Phase1DHGroupNumbersList;
/**
* The permitted Diffie-Hellman group numbers for the VPN tunnel for phase 2 IKE negotiations.
*/
Phase2DHGroupNumbers?: Phase2DHGroupNumbersList;
/**
* The IKE versions that are permitted for the VPN tunnel.
*/
IkeVersions?: IKEVersionsList;
}
export type TunnelOptionsList = TunnelOption[];
export interface UnassignIpv6AddressesRequest {
/**
* The IPv6 addresses to unassign from the network interface.
*/
Ipv6Addresses: Ipv6AddressList;
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
}
export interface UnassignIpv6AddressesResult {
/**
* The ID of the network interface.
*/
NetworkInterfaceId?: String;
/**
* The IPv6 addresses that have been unassigned from the network interface.
*/
UnassignedIpv6Addresses?: Ipv6AddressList;
}
export interface UnassignPrivateIpAddressesRequest {
/**
* The ID of the network interface.
*/
NetworkInterfaceId: NetworkInterfaceId;
/**
* The secondary private IP addresses to unassign from the network interface. You can specify this option multiple times to unassign more than one IP address.
*/
PrivateIpAddresses: PrivateIpAddressStringList;
}
export interface UnmonitorInstancesRequest {
/**
* The IDs of the instances.
*/
InstanceIds: InstanceIdStringList;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface UnmonitorInstancesResult {
/**
* The monitoring information.
*/
InstanceMonitorings?: InstanceMonitoringList;
}
export type UnsuccessfulInstanceCreditSpecificationErrorCode = "InvalidInstanceID.Malformed"|"InvalidInstanceID.NotFound"|"IncorrectInstanceState"|"InstanceCreditSpecification.NotSupported"|string;
export interface UnsuccessfulInstanceCreditSpecificationItem {
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The applicable error for the T2 or T3 instance whose credit option for CPU usage was not modified.
*/
Error?: UnsuccessfulInstanceCreditSpecificationItemError;
}
export interface UnsuccessfulInstanceCreditSpecificationItemError {
/**
* The error code.
*/
Code?: UnsuccessfulInstanceCreditSpecificationErrorCode;
/**
* The applicable error message.
*/
Message?: String;
}
export type UnsuccessfulInstanceCreditSpecificationSet = UnsuccessfulInstanceCreditSpecificationItem[];
export interface UnsuccessfulItem {
/**
* Information about the error.
*/
Error?: UnsuccessfulItemError;
/**
* The ID of the resource.
*/
ResourceId?: String;
}
export interface UnsuccessfulItemError {
/**
* The error code.
*/
Code?: String;
/**
* The error message accompanying the error code.
*/
Message?: String;
}
export type UnsuccessfulItemList = UnsuccessfulItem[];
export type UnsuccessfulItemSet = UnsuccessfulItem[];
export interface UpdateSecurityGroupRuleDescriptionsEgressRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the security group. You must specify either the security group ID or the security group name in the request. For security groups in a nondefault VPC, you must specify the security group ID.
*/
GroupId?: String;
/**
* [Default VPC] The name of the security group. You must specify either the security group ID or the security group name in the request.
*/
GroupName?: String;
/**
* The IP permissions for the security group rule.
*/
IpPermissions: IpPermissionList;
}
export interface UpdateSecurityGroupRuleDescriptionsEgressResult {
/**
* Returns true if the request succeeds; otherwise, returns an error.
*/
Return?: Boolean;
}
export interface UpdateSecurityGroupRuleDescriptionsIngressRequest {
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
/**
* The ID of the security group. You must specify either the security group ID or the security group name in the request. For security groups in a nondefault VPC, you must specify the security group ID.
*/
GroupId?: String;
/**
* [EC2-Classic, default VPC] The name of the security group. You must specify either the security group ID or the security group name in the request.
*/
GroupName?: String;
/**
* The IP permissions for the security group rule.
*/
IpPermissions: IpPermissionList;
}
export interface UpdateSecurityGroupRuleDescriptionsIngressResult {
/**
* Returns true if the request succeeds; otherwise, returns an error.
*/
Return?: Boolean;
}
export interface UserBucket {
/**
* The name of the S3 bucket where the disk image is located.
*/
S3Bucket?: String;
/**
* The file name of the disk image.
*/
S3Key?: String;
}
export interface UserBucketDetails {
/**
* The S3 bucket from which the disk image was created.
*/
S3Bucket?: String;
/**
* The file name of the disk image.
*/
S3Key?: String;
}
export interface UserData {
/**
* The user data. If you are using an AWS SDK or command line tool, Base64-encoding is performed for you, and you can load the text from a file. Otherwise, you must provide Base64-encoded text.
*/
Data?: String;
}
export type UserGroupStringList = String[];
export interface UserIdGroupPair {
/**
* A description for the security group rule that references this user ID group pair. Constraints: Up to 255 characters in length. Allowed characters are a-z, A-Z, 0-9, spaces, and ._-:/()#,@[]+=;{}!$*
*/
Description?: String;
/**
* The ID of the security group.
*/
GroupId?: String;
/**
* The name of the security group. In a request, use this parameter for a security group in EC2-Classic or a default VPC only. For a security group in a nondefault VPC, use the security group ID. For a referenced security group in another VPC, this value is not returned if the referenced security group is deleted.
*/
GroupName?: String;
/**
* The status of a VPC peering connection, if applicable.
*/
PeeringStatus?: String;
/**
* The ID of an AWS account. For a referenced security group in another VPC, the account ID of the referenced security group is returned in the response. If the referenced security group is deleted, this value is not returned. [EC2-Classic] Required when adding or removing rules that reference a security group in another AWS account.
*/
UserId?: String;
/**
* The ID of the VPC for the referenced security group, if applicable.
*/
VpcId?: String;
/**
* The ID of the VPC peering connection, if applicable.
*/
VpcPeeringConnectionId?: String;
}
export type UserIdGroupPairList = UserIdGroupPair[];
export type UserIdGroupPairSet = UserIdGroupPair[];
export type UserIdStringList = String[];
export type ValueStringList = String[];
export type VersionDescription = string;
export type VersionStringList = String[];
export interface VgwTelemetry {
/**
* The number of accepted routes.
*/
AcceptedRouteCount?: Integer;
/**
* The date and time of the last change in status.
*/
LastStatusChange?: DateTime;
/**
* The Internet-routable IP address of the virtual private gateway's outside interface.
*/
OutsideIpAddress?: String;
/**
* The status of the VPN tunnel.
*/
Status?: TelemetryStatus;
/**
* If an error occurs, a description of the error.
*/
StatusMessage?: String;
/**
* The Amazon Resource Name (ARN) of the VPN tunnel endpoint certificate.
*/
CertificateArn?: String;
}
export type VgwTelemetryList = VgwTelemetry[];
export type VirtualizationType = "hvm"|"paravirtual"|string;
export interface Volume {
/**
* Information about the volume attachments.
*/
Attachments?: VolumeAttachmentList;
/**
* The Availability Zone for the volume.
*/
AvailabilityZone?: String;
/**
* The time stamp when volume creation was initiated.
*/
CreateTime?: DateTime;
/**
* Indicates whether the volume is encrypted.
*/
Encrypted?: Boolean;
/**
* The Amazon Resource Name (ARN) of the AWS Key Management Service (AWS KMS) customer master key (CMK) that was used to protect the volume encryption key for the volume.
*/
KmsKeyId?: String;
/**
* The size of the volume, in GiBs.
*/
Size?: Integer;
/**
* The snapshot from which the volume was created, if applicable.
*/
SnapshotId?: String;
/**
* The volume state.
*/
State?: VolumeState;
/**
* The ID of the volume.
*/
VolumeId?: String;
/**
* The number of I/O operations per second (IOPS) that the volume supports. For Provisioned IOPS SSD volumes, this represents the number of IOPS that are provisioned for the volume. For General Purpose SSD volumes, this represents the baseline performance of the volume and the rate at which the volume accumulates I/O credits for bursting. For more information, see Amazon EBS Volume Types in the Amazon Elastic Compute Cloud User Guide. Constraints: Range is 100-16,000 IOPS for gp2 volumes and 100 to 64,000IOPS for io1 volumes, in most Regions. The maximum IOPS for io1 of 64,000 is guaranteed only on Nitro-based instances. Other instance families guarantee performance up to 32,000 IOPS. Condition: This parameter is required for requests to create io1 volumes; it is not used in requests to create gp2, st1, sc1, or standard volumes.
*/
Iops?: Integer;
/**
* Any tags assigned to the volume.
*/
Tags?: TagList;
/**
* The volume type. This can be gp2 for General Purpose SSD, io1 for Provisioned IOPS SSD, st1 for Throughput Optimized HDD, sc1 for Cold HDD, or standard for Magnetic volumes.
*/
VolumeType?: VolumeType;
}
export interface VolumeAttachment {
/**
* The time stamp when the attachment initiated.
*/
AttachTime?: DateTime;
/**
* The device name.
*/
Device?: String;
/**
* The ID of the instance.
*/
InstanceId?: String;
/**
* The attachment state of the volume.
*/
State?: VolumeAttachmentState;
/**
* The ID of the volume.
*/
VolumeId?: String;
/**
* Indicates whether the EBS volume is deleted on instance termination.
*/
DeleteOnTermination?: Boolean;
}
export type VolumeAttachmentList = VolumeAttachment[];
export type VolumeAttachmentState = "attaching"|"attached"|"detaching"|"detached"|"busy"|string;
export type VolumeAttributeName = "autoEnableIO"|"productCodes"|string;
export interface VolumeDetail {
/**
* The size of the volume, in GiB.
*/
Size: Long;
}
export type VolumeId = string;
export type VolumeIdStringList = String[];
export type VolumeList = Volume[];
export interface VolumeModification {
/**
* The ID of the volume.
*/
VolumeId?: String;
/**
* The current modification state. The modification state is null for unmodified volumes.
*/
ModificationState?: VolumeModificationState;
/**
* A status message about the modification progress or failure.
*/
StatusMessage?: String;
/**
* The target size of the volume, in GiB.
*/
TargetSize?: Integer;
/**
* The target IOPS rate of the volume.
*/
TargetIops?: Integer;
/**
* The target EBS volume type of the volume.
*/
TargetVolumeType?: VolumeType;
/**
* The original size of the volume.
*/
OriginalSize?: Integer;
/**
* The original IOPS rate of the volume.
*/
OriginalIops?: Integer;
/**
* The original EBS volume type of the volume.
*/
OriginalVolumeType?: VolumeType;
/**
* The modification progress, from 0 to 100 percent complete.
*/
Progress?: Long;
/**
* The modification start time.
*/
StartTime?: DateTime;
/**
* The modification completion or failure time.
*/
EndTime?: DateTime;
}
export type VolumeModificationList = VolumeModification[];
export type VolumeModificationState = "modifying"|"optimizing"|"completed"|"failed"|string;
export type VolumeState = "creating"|"available"|"in-use"|"deleting"|"deleted"|"error"|string;
export interface VolumeStatusAction {
/**
* The code identifying the operation, for example, enable-volume-io.
*/
Code?: String;
/**
* A description of the operation.
*/
Description?: String;
/**
* The ID of the event associated with this operation.
*/
EventId?: String;
/**
* The event type associated with this operation.
*/
EventType?: String;
}
export type VolumeStatusActionsList = VolumeStatusAction[];
export interface VolumeStatusDetails {
/**
* The name of the volume status.
*/
Name?: VolumeStatusName;
/**
* The intended status of the volume status.
*/
Status?: String;
}
export type VolumeStatusDetailsList = VolumeStatusDetails[];
export interface VolumeStatusEvent {
/**
* A description of the event.
*/
Description?: String;
/**
* The ID of this event.
*/
EventId?: String;
/**
* The type of this event.
*/
EventType?: String;
/**
* The latest end time of the event.
*/
NotAfter?: DateTime;
/**
* The earliest start time of the event.
*/
NotBefore?: DateTime;
}
export type VolumeStatusEventsList = VolumeStatusEvent[];
export interface VolumeStatusInfo {
/**
* The details of the volume status.
*/
Details?: VolumeStatusDetailsList;
/**
* The status of the volume.
*/
Status?: VolumeStatusInfoStatus;
}
export type VolumeStatusInfoStatus = "ok"|"impaired"|"insufficient-data"|string;
export interface VolumeStatusItem {
/**
* The details of the operation.
*/
Actions?: VolumeStatusActionsList;
/**
* The Availability Zone of the volume.
*/
AvailabilityZone?: String;
/**
* A list of events associated with the volume.
*/
Events?: VolumeStatusEventsList;
/**
* The volume ID.
*/
VolumeId?: String;
/**
* The volume status.
*/
VolumeStatus?: VolumeStatusInfo;
}
export type VolumeStatusList = VolumeStatusItem[];
export type VolumeStatusName = "io-enabled"|"io-performance"|string;
export type VolumeType = "standard"|"io1"|"gp2"|"sc1"|"st1"|string;
export interface Vpc {
/**
* The primary IPv4 CIDR block for the VPC.
*/
CidrBlock?: String;
/**
* The ID of the set of DHCP options you've associated with the VPC (or default if the default options are associated with the VPC).
*/
DhcpOptionsId?: String;
/**
* The current state of the VPC.
*/
State?: VpcState;
/**
* The ID of the VPC.
*/
VpcId?: String;
/**
* The ID of the AWS account that owns the VPC.
*/
OwnerId?: String;
/**
* The allowed tenancy of instances launched into the VPC.
*/
InstanceTenancy?: Tenancy;
/**
* Information about the IPv6 CIDR blocks associated with the VPC.
*/
Ipv6CidrBlockAssociationSet?: VpcIpv6CidrBlockAssociationSet;
/**
* Information about the IPv4 CIDR blocks associated with the VPC.
*/
CidrBlockAssociationSet?: VpcCidrBlockAssociationSet;
/**
* Indicates whether the VPC is the default VPC.
*/
IsDefault?: Boolean;
/**
* Any tags assigned to the VPC.
*/
Tags?: TagList;
}
export interface VpcAttachment {
/**
* The current state of the attachment.
*/
State?: AttachmentStatus;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export type VpcAttachmentList = VpcAttachment[];
export type VpcAttributeName = "enableDnsSupport"|"enableDnsHostnames"|string;
export type VpcCidrAssociationId = string;
export interface VpcCidrBlockAssociation {
/**
* The association ID for the IPv4 CIDR block.
*/
AssociationId?: String;
/**
* The IPv4 CIDR block.
*/
CidrBlock?: String;
/**
* Information about the state of the CIDR block.
*/
CidrBlockState?: VpcCidrBlockState;
}
export type VpcCidrBlockAssociationSet = VpcCidrBlockAssociation[];
export interface VpcCidrBlockState {
/**
* The state of the CIDR block.
*/
State?: VpcCidrBlockStateCode;
/**
* A message about the status of the CIDR block, if applicable.
*/
StatusMessage?: String;
}
export type VpcCidrBlockStateCode = "associating"|"associated"|"disassociating"|"disassociated"|"failing"|"failed"|string;
export interface VpcClassicLink {
/**
* Indicates whether the VPC is enabled for ClassicLink.
*/
ClassicLinkEnabled?: Boolean;
/**
* Any tags assigned to the VPC.
*/
Tags?: TagList;
/**
* The ID of the VPC.
*/
VpcId?: String;
}
export type VpcClassicLinkIdList = String[];
export type VpcClassicLinkList = VpcClassicLink[];
export interface VpcEndpoint {
/**
* The ID of the VPC endpoint.
*/
VpcEndpointId?: String;
/**
* The type of endpoint.
*/
VpcEndpointType?: VpcEndpointType;
/**
* The ID of the VPC to which the endpoint is associated.
*/
VpcId?: String;
/**
* The name of the service to which the endpoint is associated.
*/
ServiceName?: String;
/**
* The state of the VPC endpoint.
*/
State?: State;
/**
* The policy document associated with the endpoint, if applicable.
*/
PolicyDocument?: String;
/**
* (Gateway endpoint) One or more route tables associated with the endpoint.
*/
RouteTableIds?: ValueStringList;
/**
* (Interface endpoint) One or more subnets in which the endpoint is located.
*/
SubnetIds?: ValueStringList;
/**
* (Interface endpoint) Information about the security groups associated with the network interface.
*/
Groups?: GroupIdentifierSet;
/**
* (Interface endpoint) Indicates whether the VPC is associated with a private hosted zone.
*/
PrivateDnsEnabled?: Boolean;
/**
* Indicates whether the VPC endpoint is being managed by its service.
*/
RequesterManaged?: Boolean;
/**
* (Interface endpoint) One or more network interfaces for the endpoint.
*/
NetworkInterfaceIds?: ValueStringList;
/**
* (Interface endpoint) The DNS entries for the endpoint.
*/
DnsEntries?: DnsEntrySet;
/**
* The date and time the VPC endpoint was created.
*/
CreationTimestamp?: MillisecondDateTime;
/**
* Any tags assigned to the VPC endpoint.
*/
Tags?: TagList;
/**
* The ID of the AWS account that owns the VPC endpoint.
*/
OwnerId?: String;
}
export interface VpcEndpointConnection {
/**
* The ID of the service to which the endpoint is connected.
*/
ServiceId?: String;
/**
* The ID of the VPC endpoint.
*/
VpcEndpointId?: String;
/**
* The AWS account ID of the owner of the VPC endpoint.
*/
VpcEndpointOwner?: String;
/**
* The state of the VPC endpoint.
*/
VpcEndpointState?: State;
/**
* The date and time the VPC endpoint was created.
*/
CreationTimestamp?: MillisecondDateTime;
/**
* The DNS entries for the VPC endpoint.
*/
DnsEntries?: DnsEntrySet;
/**
* The Amazon Resource Names (ARNs) of the network load balancers for the service.
*/
NetworkLoadBalancerArns?: ValueStringList;
}
export type VpcEndpointConnectionSet = VpcEndpointConnection[];
export type VpcEndpointId = string;
export type VpcEndpointSet = VpcEndpoint[];
export type VpcEndpointType = "Interface"|"Gateway"|string;
export type VpcId = string;
export type VpcIdStringList = String[];
export interface VpcIpv6CidrBlockAssociation {
/**
* The association ID for the IPv6 CIDR block.
*/
AssociationId?: String;
/**
* The IPv6 CIDR block.
*/
Ipv6CidrBlock?: String;
/**
* Information about the state of the CIDR block.
*/
Ipv6CidrBlockState?: VpcCidrBlockState;
}
export type VpcIpv6CidrBlockAssociationSet = VpcIpv6CidrBlockAssociation[];
export type VpcList = Vpc[];
export interface VpcPeeringConnection {
/**
* Information about the accepter VPC. CIDR block information is only returned when describing an active VPC peering connection.
*/
AccepterVpcInfo?: VpcPeeringConnectionVpcInfo;
/**
* The time that an unaccepted VPC peering connection will expire.
*/
ExpirationTime?: DateTime;
/**
* Information about the requester VPC. CIDR block information is only returned when describing an active VPC peering connection.
*/
RequesterVpcInfo?: VpcPeeringConnectionVpcInfo;
/**
* The status of the VPC peering connection.
*/
Status?: VpcPeeringConnectionStateReason;
/**
* Any tags assigned to the resource.
*/
Tags?: TagList;
/**
* The ID of the VPC peering connection.
*/
VpcPeeringConnectionId?: String;
}
export type VpcPeeringConnectionId = string;
export type VpcPeeringConnectionList = VpcPeeringConnection[];
export interface VpcPeeringConnectionOptionsDescription {
/**
* Indicates whether a local VPC can resolve public DNS hostnames to private IP addresses when queried from instances in a peer VPC.
*/
AllowDnsResolutionFromRemoteVpc?: Boolean;
/**
* Indicates whether a local ClassicLink connection can communicate with the peer VPC over the VPC peering connection.
*/
AllowEgressFromLocalClassicLinkToRemoteVpc?: Boolean;
/**
* Indicates whether a local VPC can communicate with a ClassicLink connection in the peer VPC over the VPC peering connection.
*/
AllowEgressFromLocalVpcToRemoteClassicLink?: Boolean;
}
export interface VpcPeeringConnectionStateReason {
/**
* The status of the VPC peering connection.
*/
Code?: VpcPeeringConnectionStateReasonCode;
/**
* A message that provides more information about the status, if applicable.
*/
Message?: String;
}
export type VpcPeeringConnectionStateReasonCode = "initiating-request"|"pending-acceptance"|"active"|"deleted"|"rejected"|"failed"|"expired"|"provisioning"|"deleting"|string;
export interface VpcPeeringConnectionVpcInfo {
/**
* The IPv4 CIDR block for the VPC.
*/
CidrBlock?: String;
/**
* The IPv6 CIDR block for the VPC.
*/
Ipv6CidrBlockSet?: Ipv6CidrBlockSet;
/**
* Information about the IPv4 CIDR blocks for the VPC.
*/
CidrBlockSet?: CidrBlockSet;
/**
* The AWS account ID of the VPC owner.
*/
OwnerId?: String;
/**
* Information about the VPC peering connection options for the accepter or requester VPC.
*/
PeeringOptions?: VpcPeeringConnectionOptionsDescription;
/**
* The ID of the VPC.
*/
VpcId?: String;
/**
* The Region in which the VPC is located.
*/
Region?: String;
}
export type VpcState = "pending"|"available"|string;
export type VpcTenancy = "default"|string;
export interface VpnConnection {
/**
* The configuration information for the VPN connection's customer gateway (in the native XML format). This element is always present in the CreateVpnConnection response; however, it's present in the DescribeVpnConnections response only if the VPN connection is in the pending or available state.
*/
CustomerGatewayConfiguration?: String;
/**
* The ID of the customer gateway at your end of the VPN connection.
*/
CustomerGatewayId?: String;
/**
* The category of the VPN connection. A value of VPN indicates an AWS VPN connection. A value of VPN-Classic indicates an AWS Classic VPN connection.
*/
Category?: String;
/**
* The current state of the VPN connection.
*/
State?: VpnState;
/**
* The type of VPN connection.
*/
Type?: GatewayType;
/**
* The ID of the VPN connection.
*/
VpnConnectionId?: String;
/**
* The ID of the virtual private gateway at the AWS side of the VPN connection.
*/
VpnGatewayId?: String;
/**
* The ID of the transit gateway associated with the VPN connection.
*/
TransitGatewayId?: String;
/**
* The VPN connection options.
*/
Options?: VpnConnectionOptions;
/**
* The static routes associated with the VPN connection.
*/
Routes?: VpnStaticRouteList;
/**
* Any tags assigned to the VPN connection.
*/
Tags?: TagList;
/**
* Information about the VPN tunnel.
*/
VgwTelemetry?: VgwTelemetryList;
}
export type VpnConnectionId = string;
export type VpnConnectionIdStringList = String[];
export type VpnConnectionList = VpnConnection[];
export interface VpnConnectionOptions {
/**
* Indicates whether the VPN connection uses static routes only. Static routes must be used for devices that don't support BGP.
*/
StaticRoutesOnly?: Boolean;
/**
* Indicates the VPN tunnel options.
*/
TunnelOptions?: TunnelOptionsList;
}
export interface VpnConnectionOptionsSpecification {
/**
* Indicate whether the VPN connection uses static routes only. If you are creating a VPN connection for a device that does not support BGP, you must specify true. Use CreateVpnConnectionRoute to create a static route. Default: false
*/
StaticRoutesOnly?: Boolean;
/**
* The tunnel options for the VPN connection.
*/
TunnelOptions?: VpnTunnelOptionsSpecificationsList;
}
export type VpnEcmpSupportValue = "enable"|"disable"|string;
export interface VpnGateway {
/**
* The Availability Zone where the virtual private gateway was created, if applicable. This field may be empty or not returned.
*/
AvailabilityZone?: String;
/**
* The current state of the virtual private gateway.
*/
State?: VpnState;
/**
* The type of VPN connection the virtual private gateway supports.
*/
Type?: GatewayType;
/**
* Any VPCs attached to the virtual private gateway.
*/
VpcAttachments?: VpcAttachmentList;
/**
* The ID of the virtual private gateway.
*/
VpnGatewayId?: String;
/**
* The private Autonomous System Number (ASN) for the Amazon side of a BGP session.
*/
AmazonSideAsn?: Long;
/**
* Any tags assigned to the virtual private gateway.
*/
Tags?: TagList;
}
export type VpnGatewayId = string;
export type VpnGatewayIdStringList = String[];
export type VpnGatewayList = VpnGateway[];
export type VpnProtocol = "openvpn"|string;
export type VpnState = "pending"|"available"|"deleting"|"deleted"|string;
export interface VpnStaticRoute {
/**
* The CIDR block associated with the local subnet of the customer data center.
*/
DestinationCidrBlock?: String;
/**
* Indicates how the routes were provided.
*/
Source?: VpnStaticRouteSource;
/**
* The current state of the static route.
*/
State?: VpnState;
}
export type VpnStaticRouteList = VpnStaticRoute[];
export type VpnStaticRouteSource = "Static"|string;
export interface VpnTunnelOptionsSpecification {
/**
* The range of inside IP addresses for the tunnel. Any specified CIDR blocks must be unique across all VPN connections that use the same virtual private gateway. Constraints: A size /30 CIDR block from the 169.254.0.0/16 range. The following CIDR blocks are reserved and cannot be used: 169.254.0.0/30 169.254.1.0/30 169.254.2.0/30 169.254.3.0/30 169.254.4.0/30 169.254.5.0/30 169.254.169.252/30
*/
TunnelInsideCidr?: String;
/**
* The pre-shared key (PSK) to establish initial authentication between the virtual private gateway and customer gateway. Constraints: Allowed characters are alphanumeric characters, periods (.), and underscores (_). Must be between 8 and 64 characters in length and cannot start with zero (0).
*/
PreSharedKey?: String;
/**
* The lifetime for phase 1 of the IKE negotiation, in seconds. Constraints: A value between 900 and 28,800. Default: 28800
*/
Phase1LifetimeSeconds?: Integer;
/**
* The lifetime for phase 2 of the IKE negotiation, in seconds. Constraints: A value between 900 and 3,600. The value must be less than the value for Phase1LifetimeSeconds. Default: 3600
*/
Phase2LifetimeSeconds?: Integer;
/**
* The margin time, in seconds, before the phase 2 lifetime expires, during which the AWS side of the VPN connection performs an IKE rekey. The exact time of the rekey is randomly selected based on the value for RekeyFuzzPercentage. Constraints: A value between 60 and half of Phase2LifetimeSeconds. Default: 540
*/
RekeyMarginTimeSeconds?: Integer;
/**
* The percentage of the rekey window (determined by RekeyMarginTimeSeconds) during which the rekey time is randomly selected. Constraints: A value between 0 and 100. Default: 100
*/
RekeyFuzzPercentage?: Integer;
/**
* The number of packets in an IKE replay window. Constraints: A value between 64 and 2048. Default: 1024
*/
ReplayWindowSize?: Integer;
/**
* The number of seconds after which a DPD timeout occurs. Constraints: A value between 0 and 30. Default: 30
*/
DPDTimeoutSeconds?: Integer;
/**
* One or more encryption algorithms that are permitted for the VPN tunnel for phase 1 IKE negotiations. Valid values: AES128 | AES256
*/
Phase1EncryptionAlgorithms?: Phase1EncryptionAlgorithmsRequestList;
/**
* One or more encryption algorithms that are permitted for the VPN tunnel for phase 2 IKE negotiations. Valid values: AES128 | AES256
*/
Phase2EncryptionAlgorithms?: Phase2EncryptionAlgorithmsRequestList;
/**
* One or more integrity algorithms that are permitted for the VPN tunnel for phase 1 IKE negotiations. Valid values: SHA1 | SHA2-256
*/
Phase1IntegrityAlgorithms?: Phase1IntegrityAlgorithmsRequestList;
/**
* One or more integrity algorithms that are permitted for the VPN tunnel for phase 2 IKE negotiations. Valid values: SHA1 | SHA2-256
*/
Phase2IntegrityAlgorithms?: Phase2IntegrityAlgorithmsRequestList;
/**
* One or more Diffie-Hellman group numbers that are permitted for the VPN tunnel for phase 1 IKE negotiations. Valid values: 2 | 14 | 15 | 16 | 17 | 18 | 22 | 23 | 24
*/
Phase1DHGroupNumbers?: Phase1DHGroupNumbersRequestList;
/**
* One or more Diffie-Hellman group numbers that are permitted for the VPN tunnel for phase 2 IKE negotiations. Valid values: 2 | 5 | 14 | 15 | 16 | 17 | 18 | 22 | 23 | 24
*/
Phase2DHGroupNumbers?: Phase2DHGroupNumbersRequestList;
/**
* The IKE versions that are permitted for the VPN tunnel. Valid values: ikev1 | ikev2
*/
IKEVersions?: IKEVersionsRequestList;
}
export type VpnTunnelOptionsSpecificationsList = VpnTunnelOptionsSpecification[];
export interface WithdrawByoipCidrRequest {
/**
* The public IPv4 address range, in CIDR notation.
*/
Cidr: String;
/**
* Checks whether you have the required permissions for the action, without actually making the request, and provides an error response. If you have the required permissions, the error response is DryRunOperation. Otherwise, it is UnauthorizedOperation.
*/
DryRun?: Boolean;
}
export interface WithdrawByoipCidrResult {
/**
* Information about the address pool.
*/
ByoipCidr?: ByoipCidr;
}
export type ZoneIdStringList = String[];
export type ZoneNameStringList = String[];
export type scope = "Availability Zone"|"Region"|string;
/**
* 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 = "2013-06-15"|"2013-10-15"|"2014-02-01"|"2014-05-01"|"2014-06-15"|"2014-09-01"|"2014-10-01"|"2015-03-01"|"2015-04-15"|"2015-10-01"|"2016-04-01"|"2016-09-15"|"2016-11-15"|"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 EC2 client.
*/
export import Types = EC2;
}
export = EC2;