vpc.ts

import * as cxschema from '@aws-cdk/cloud-assembly-schema';
import {
  Annotations, ConcreteDependable, ContextProvider, DependableTrait, IConstruct,
  IDependable, IResource, Lazy, Resource, Stack, Token, Tags, Names, Arn,
} from '@aws-cdk/core';
import * as cxapi from '@aws-cdk/cx-api';
import { Construct, Node } from 'constructs';
import { ClientVpnEndpoint, ClientVpnEndpointOptions } from './client-vpn-endpoint';
import {
  CfnEIP, CfnInternetGateway, CfnNatGateway, CfnRoute, CfnRouteTable, CfnSubnet,
  CfnSubnetRouteTableAssociation, CfnVPC, CfnVPCGatewayAttachment, CfnVPNGatewayRoutePropagation,
} from './ec2.generated';
import { NatProvider } from './nat';
import { INetworkAcl, NetworkAcl, SubnetNetworkAclAssociation } from './network-acl';
import { NetworkBuilder } from './network-util';
import { SubnetFilter } from './subnet';
import { allRouteTableIds, defaultSubnetName, flatten, ImportSubnetGroup, subnetGroupNameFromConstructId, subnetId } from './util';
import { GatewayVpcEndpoint, GatewayVpcEndpointAwsService, GatewayVpcEndpointOptions, InterfaceVpcEndpoint, InterfaceVpcEndpointOptions } from './vpc-endpoint';
import { FlowLog, FlowLogOptions, FlowLogResourceType } from './vpc-flow-logs';
import { VpcLookupOptions } from './vpc-lookup';
import { EnableVpnGatewayOptions, VpnConnection, VpnConnectionOptions, VpnConnectionType, VpnGateway } from './vpn';

// v2 - keep this import as a separate section to reduce merge conflict when forward merging with the v2 branch.
// eslint-disable-next-line
import { Construct as CoreConstruct } from '@aws-cdk/core';

const VPC_SUBNET_SYMBOL = Symbol.for('@aws-cdk/aws-ec2.VpcSubnet');

export interface ISubnet extends IResource {
  /**
   * The Availability Zone the subnet is located in
   */
  readonly availabilityZone: string;

  /**
   * The subnetId for this particular subnet
   * @attribute
   */
  readonly subnetId: string;

  /**
   * Dependable that can be depended upon to force internet connectivity established on the VPC
   */
  readonly internetConnectivityEstablished: IDependable;

  /**
   * The IPv4 CIDR block for this subnet
   */
  readonly ipv4CidrBlock: string;

  /**
   * The route table for this subnet
   */
  readonly routeTable: IRouteTable;

  /**
   * Associate a Network ACL with this subnet
   *
   * @param acl The Network ACL to associate
   */
  associateNetworkAcl(id: string, acl: INetworkAcl): void;
}

/**
 * An abstract route table
 */
export interface IRouteTable {
  /**
   * Route table ID
   */
  readonly routeTableId: string;
}

export interface IVpc extends IResource {
  /**
   * Identifier for this VPC
   * @attribute
   */
  readonly vpcId: string;

  /**
   * ARN for this VPC
   * @attribute
   */
  readonly vpcArn: string;

  /**
   * CIDR range for this VPC
   *
   * @attribute
   */
  readonly vpcCidrBlock: string;

  /**
   * List of public subnets in this VPC
   */
  readonly publicSubnets: ISubnet[];

  /**
   * List of private subnets in this VPC
   */
  readonly privateSubnets: ISubnet[];

  /**
   * List of isolated subnets in this VPC
   */
  readonly isolatedSubnets: ISubnet[];

  /**
   * AZs for this VPC
   */
  readonly availabilityZones: string[];

  /**
   * Identifier for the VPN gateway
   */
  readonly vpnGatewayId?: string;

  /**
   * Dependable that can be depended upon to force internet connectivity established on the VPC
   */
  readonly internetConnectivityEstablished: IDependable;

  /**
   * Return information on the subnets appropriate for the given selection strategy
   *
   * Requires that at least one subnet is matched, throws a descriptive
   * error message otherwise.
   */
  selectSubnets(selection?: SubnetSelection): SelectedSubnets;

  /**
   * Adds a VPN Gateway to this VPC
   */
  enableVpnGateway(options: EnableVpnGatewayOptions): void;

  /**
   * Adds a new VPN connection to this VPC
   */
  addVpnConnection(id: string, options: VpnConnectionOptions): VpnConnection;

  /**
   * Adds a new client VPN endpoint to this VPC
   */
  addClientVpnEndpoint(id: string, options: ClientVpnEndpointOptions): ClientVpnEndpoint;

  /**
   * Adds a new gateway endpoint to this VPC
   */
  addGatewayEndpoint(id: string, options: GatewayVpcEndpointOptions): GatewayVpcEndpoint

  /**
   * Adds a new interface endpoint to this VPC
   */
  addInterfaceEndpoint(id: string, options: InterfaceVpcEndpointOptions): InterfaceVpcEndpoint

  /**
   * Adds a new Flow Log to this VPC
   */
  addFlowLog(id: string, options?: FlowLogOptions): FlowLog
}

/**
 * The type of Subnet
 */
export enum SubnetType {
  /**
   * Isolated Subnets do not route traffic to the Internet (in this VPC),
   * and as such, do not require NAT gateways.
   *
   * Isolated subnets can only connect to or be connected to from other
   * instances in the same VPC. A default VPC configuration will not include
   * isolated subnets.
   *
   * This can be good for subnets with RDS or Elasticache instances,
   * or which route Internet traffic through a peer VPC.
   *
   * @deprecated use `SubnetType.PRIVATE_ISOLATED`
   */
  ISOLATED = 'Isolated',

  /**
   * Isolated Subnets do not route traffic to the Internet (in this VPC),
   * and as such, do not require NAT gateways.
   *
   * Isolated subnets can only connect to or be connected to from other
   * instances in the same VPC. A default VPC configuration will not include
   * isolated subnets.
   *
   * This can be good for subnets with RDS or Elasticache instances,
   * or which route Internet traffic through a peer VPC.
   */
  PRIVATE_ISOLATED = 'Isolated',

  /**
   * Subnet that routes to the internet, but not vice versa.
   *
   * Instances in a private subnet can connect to the Internet, but will not
   * allow connections to be initiated from the Internet. NAT Gateway(s) are
   * required with this subnet type to route the Internet traffic through.
   * If a NAT Gateway is not required or desired, use `SubnetType.PRIVATE_ISOLATED` instead.
   *
   * By default, a NAT gateway is created in every public subnet for maximum availability.
   * Be aware that you will be charged for NAT gateways.
   *
   * Normally a Private subnet will use a NAT gateway in the same AZ, but
   * if `natGateways` is used to reduce the number of NAT gateways, a NAT
   * gateway from another AZ will be used instead.
   *
   * @deprecated use `PRIVATE_WITH_NAT`
   */
  PRIVATE = 'Private',

  /**
   * Subnet that routes to the internet (via a NAT gateway), but not vice versa.
   *
   * Instances in a private subnet can connect to the Internet, but will not
   * allow connections to be initiated from the Internet. NAT Gateway(s) are
   * required with this subnet type to route the Internet traffic through.
   * If a NAT Gateway is not required or desired, use `SubnetType.PRIVATE_ISOLATED` instead.
   *
   * By default, a NAT gateway is created in every public subnet for maximum availability.
   * Be aware that you will be charged for NAT gateways.
   *
   * Normally a Private subnet will use a NAT gateway in the same AZ, but
   * if `natGateways` is used to reduce the number of NAT gateways, a NAT
   * gateway from another AZ will be used instead.
   */
  PRIVATE_WITH_NAT = 'Private',

  /**
   * Subnet connected to the Internet
   *
   * Instances in a Public subnet can connect to the Internet and can be
   * connected to from the Internet as long as they are launched with public
   * IPs (controlled on the AutoScalingGroup or other constructs that launch
   * instances).
   *
   * Public subnets route outbound traffic via an Internet Gateway.
   */
  PUBLIC = 'Public'
}

/**
 * Customize subnets that are selected for placement of ENIs
 *
 * Constructs that allow customization of VPC placement use parameters of this
 * type to provide placement settings.
 *
 * By default, the instances are placed in the private subnets.
 */
export interface SubnetSelection {
  /**
   * Select all subnets of the given type
   *
   * At most one of `subnetType` and `subnetGroupName` can be supplied.
   *
   * @default SubnetType.PRIVATE_WITH_NAT (or ISOLATED or PUBLIC if there are no PRIVATE_WITH_NAT subnets)
   */
  readonly subnetType?: SubnetType;

  /**
   * Select subnets only in the given AZs.
   *
   * @default no filtering on AZs is done
   */
  readonly availabilityZones?: string[];

  /**
   * Select the subnet group with the given name
   *
   * Select the subnet group with the given name. This only needs
   * to be used if you have multiple subnet groups of the same type
   * and you need to distinguish between them. Otherwise, prefer
   * `subnetType`.
   *
   * This field does not select individual subnets, it selects all subnets that
   * share the given subnet group name. This is the name supplied in
   * `subnetConfiguration`.
   *
   * At most one of `subnetType` and `subnetGroupName` can be supplied.
   *
   * @default - Selection by type instead of by name
   */
  readonly subnetGroupName?: string;

  /**
   * Alias for `subnetGroupName`
   *
   * Select the subnet group with the given name. This only needs
   * to be used if you have multiple subnet groups of the same type
   * and you need to distinguish between them.
   *
   * @deprecated Use `subnetGroupName` instead
   */
  readonly subnetName?: string;

  /**
   * If true, return at most one subnet per AZ
   *
   * @default false
   */
  readonly onePerAz?: boolean;

  /**
   * List of provided subnet filters.
   *
   * @default - none
   */
  readonly subnetFilters?: SubnetFilter[];

  /**
   * Explicitly select individual subnets
   *
   * Use this if you don't want to automatically use all subnets in
   * a group, but have a need to control selection down to
   * individual subnets.
   *
   * Cannot be specified together with `subnetType` or `subnetGroupName`.
   *
   * @default - Use all subnets in a selected group (all private subnets by default)
   */
  readonly subnets?: ISubnet[]
}

/**
 * Result of selecting a subset of subnets from a VPC
 */
export interface SelectedSubnets {
  /**
   * The subnet IDs
   */
  readonly subnetIds: string[];

  /**
   * The respective AZs of each subnet
   */
  readonly availabilityZones: string[];

  /**
   * Dependency representing internet connectivity for these subnets
   */
  readonly internetConnectivityEstablished: IDependable;

  /**
   * Selected subnet objects
   */
  readonly subnets: ISubnet[];

  /**
   * Whether any of the given subnets are from the VPC's public subnets.
   */
  readonly hasPublic: boolean;

  /**
   * The subnet selection is not actually real yet
   *
   * If this value is true, don't validate anything about the subnets. The count
   * or identities are not known yet, and the validation will most likely fail
   * which will prevent a successful lookup.
   *
   * @default false
   */
  readonly isPendingLookup?: boolean;
}

/**
 * A new or imported VPC
 */
abstract class VpcBase extends Resource implements IVpc {

  /**
   * Identifier for this VPC
   */
  public abstract readonly vpcId: string;

  /**
   * Arn of this VPC
   */
  public abstract readonly vpcArn: string;

  /**
   * CIDR range for this VPC
   */
  public abstract readonly vpcCidrBlock: string;

  /**
   * List of public subnets in this VPC
   */
  public abstract readonly publicSubnets: ISubnet[];

  /**
   * List of private subnets in this VPC
   */
  public abstract readonly privateSubnets: ISubnet[];

  /**
   * List of isolated subnets in this VPC
   */
  public abstract readonly isolatedSubnets: ISubnet[];

  /**
   * AZs for this VPC
   */
  public abstract readonly availabilityZones: string[];

  /**
   * Dependencies for internet connectivity
   */
  public abstract readonly internetConnectivityEstablished: IDependable;

  /**
   * Dependencies for NAT connectivity
   *
   * @deprecated - This value is no longer used.
   */
  protected readonly natDependencies = new Array<IConstruct>();

  /**
   * If this is set to true, don't error out on trying to select subnets
   */
  protected incompleteSubnetDefinition: boolean = false;

  /**
   * Mutable private field for the vpnGatewayId
   *
   * @internal
   */
  protected _vpnGatewayId?: string;

  /**
   * Returns IDs of selected subnets
   */
  public selectSubnets(selection: SubnetSelection = {}): SelectedSubnets {
    const subnets = this.selectSubnetObjects(selection);
    const pubs = new Set(this.publicSubnets);

    return {
      subnetIds: subnets.map(s => s.subnetId),
      get availabilityZones(): string[] { return subnets.map(s => s.availabilityZone); },
      internetConnectivityEstablished: tap(new CompositeDependable(), d => subnets.forEach(s => d.add(s.internetConnectivityEstablished))),
      subnets,
      hasPublic: subnets.some(s => pubs.has(s)),
      isPendingLookup: this.incompleteSubnetDefinition,
    };
  }

  /**
   * Adds a VPN Gateway to this VPC
   */
  public enableVpnGateway(options: EnableVpnGatewayOptions): void {
    if (this.vpnGatewayId) {
      throw new Error('The VPN Gateway has already been enabled.');
    }

    const vpnGateway = new VpnGateway(this, 'VpnGateway', {
      amazonSideAsn: options.amazonSideAsn,
      type: VpnConnectionType.IPSEC_1,
    });

    this._vpnGatewayId = vpnGateway.gatewayId;

    const attachment = new CfnVPCGatewayAttachment(this, 'VPCVPNGW', {
      vpcId: this.vpcId,
      vpnGatewayId: this._vpnGatewayId,
    });

    // Propagate routes on route tables associated with the right subnets
    const vpnRoutePropagation = options.vpnRoutePropagation ?? [{}];
    const routeTableIds = allRouteTableIds(flatten(vpnRoutePropagation.map(s => this.selectSubnets(s).subnets)));

    if (routeTableIds.length === 0) {
      Annotations.of(this).addError(`enableVpnGateway: no subnets matching selection: '${JSON.stringify(vpnRoutePropagation)}'. Select other subnets to add routes to.`);
    }

    const routePropagation = new CfnVPNGatewayRoutePropagation(this, 'RoutePropagation', {
      routeTableIds,
      vpnGatewayId: this._vpnGatewayId,
    });
    // The AWS::EC2::VPNGatewayRoutePropagation resource cannot use the VPN gateway
    // until it has successfully attached to the VPC.
    // See https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-vpn-gatewayrouteprop.html
    routePropagation.node.addDependency(attachment);
  }

  /**
   * Adds a new VPN connection to this VPC
   */
  public addVpnConnection(id: string, options: VpnConnectionOptions): VpnConnection {
    return new VpnConnection(this, id, {
      vpc: this,
      ...options,
    });
  }

  /**
   * Adds a new client VPN endpoint to this VPC
   */
  public addClientVpnEndpoint(id: string, options: ClientVpnEndpointOptions): ClientVpnEndpoint {
    return new ClientVpnEndpoint(this, id, {
      ...options,
      vpc: this,
    });
  }

  /**
   * Adds a new interface endpoint to this VPC
   */
  public addInterfaceEndpoint(id: string, options: InterfaceVpcEndpointOptions): InterfaceVpcEndpoint {
    return new InterfaceVpcEndpoint(this, id, {
      vpc: this,
      ...options,
    });
  }

  /**
   * Adds a new gateway endpoint to this VPC
   */
  public addGatewayEndpoint(id: string, options: GatewayVpcEndpointOptions): GatewayVpcEndpoint {
    return new GatewayVpcEndpoint(this, id, {
      vpc: this,
      ...options,
    });
  }

  /**
   * Adds a new flow log to this VPC
   */
  public addFlowLog(id: string, options?: FlowLogOptions): FlowLog {
    return new FlowLog(this, id, {
      resourceType: FlowLogResourceType.fromVpc(this),
      ...options,
    });
  }

  /**
   * Returns the id of the VPN Gateway (if enabled)
   */
  public get vpnGatewayId(): string | undefined {
    return this._vpnGatewayId;
  }

  /**
   * Return the subnets appropriate for the placement strategy
   */
  protected selectSubnetObjects(selection: SubnetSelection = {}): ISubnet[] {
    selection = this.reifySelectionDefaults(selection);

    if (selection.subnets !== undefined) {
      return selection.subnets;
    }

    let subnets;

    if (selection.subnetGroupName !== undefined) { // Select by name
      subnets = this.selectSubnetObjectsByName(selection.subnetGroupName);

    } else { // Or specify by type
      const type = selection.subnetType || SubnetType.PRIVATE_WITH_NAT;
      subnets = this.selectSubnetObjectsByType(type);
    }

    // Apply all the filters
    subnets = this.applySubnetFilters(subnets, selection.subnetFilters ?? []);

    return subnets;
  }

  private applySubnetFilters(subnets: ISubnet[], filters: SubnetFilter[]): ISubnet[] {
    let filtered = subnets;
    // Apply each filter in sequence
    for (const filter of filters) {
      filtered = filter.selectSubnets(filtered);
    }
    return filtered;
  }

  private selectSubnetObjectsByName(groupName: string) {
    const allSubnets = [...this.publicSubnets, ...this.privateSubnets, ...this.isolatedSubnets];
    const subnets = allSubnets.filter(s => subnetGroupNameFromConstructId(s) === groupName);

    if (subnets.length === 0 && !this.incompleteSubnetDefinition) {
      const names = Array.from(new Set(allSubnets.map(subnetGroupNameFromConstructId)));
      throw new Error(`There are no subnet groups with name '${groupName}' in this VPC. Available names: ${names}`);
    }

    return subnets;
  }

  private selectSubnetObjectsByType(subnetType: SubnetType) {
    const allSubnets = {
      [SubnetType.PRIVATE_ISOLATED]: this.isolatedSubnets,
      [SubnetType.PRIVATE_WITH_NAT]: this.privateSubnets,
      [SubnetType.PUBLIC]: this.publicSubnets,
    };

    const subnets = allSubnets[subnetType];

    // Force merge conflict here with https://github.com/aws/aws-cdk/pull/4089
    // see ImportedVpc

    if (subnets.length === 0 && !this.incompleteSubnetDefinition) {
      const availableTypes = Object.entries(allSubnets).filter(([_, subs]) => subs.length > 0).map(([typeName, _]) => typeName);
      throw new Error(`There are no '${subnetType}' subnet groups in this VPC. Available types: ${availableTypes}`);
    }

    return subnets;
  }

  /**
   * Validate the fields in a SubnetSelection object, and reify defaults if necessary
   *
   * In case of default selection, select the first type of PRIVATE, ISOLATED,
   * PUBLIC (in that order) that has any subnets.
   */
  private reifySelectionDefaults(placement: SubnetSelection): SubnetSelection {

    if (placement.subnetName !== undefined) {
      if (placement.subnetGroupName !== undefined) {
        throw new Error('Please use only \'subnetGroupName\' (\'subnetName\' is deprecated and has the same behavior)');
      } else {
        Annotations.of(this).addWarning('Usage of \'subnetName\' in SubnetSelection is deprecated, use \'subnetGroupName\' instead');
      }
      placement = { ...placement, subnetGroupName: placement.subnetName };
    }

    const exclusiveSelections: Array<keyof SubnetSelection> = ['subnets', 'subnetType', 'subnetGroupName'];
    const providedSelections = exclusiveSelections.filter(key => placement[key] !== undefined);
    if (providedSelections.length > 1) {
      throw new Error(`Only one of '${providedSelections}' can be supplied to subnet selection.`);
    }

    if (placement.subnetType === undefined && placement.subnetGroupName === undefined && placement.subnets === undefined) {
      // Return default subnet type based on subnets that actually exist
      let subnetType = this.privateSubnets.length
        ? SubnetType.PRIVATE_WITH_NAT : this.isolatedSubnets.length ? SubnetType.PRIVATE_ISOLATED : SubnetType.PUBLIC;
      placement = { ...placement, subnetType: subnetType };
    }

    // Establish which subnet filters are going to be used
    let subnetFilters = placement.subnetFilters ?? [];

    // Backwards compatibility with existing `availabilityZones` and `onePerAz` functionality
    if (placement.availabilityZones !== undefined) { // Filter by AZs, if specified
      subnetFilters.push(SubnetFilter.availabilityZones(placement.availabilityZones));
    }
    if (!!placement.onePerAz) { // Ensure one per AZ if specified
      subnetFilters.push(SubnetFilter.onePerAz());
    }

    // Overwrite the provided placement filters and remove the availabilityZones and onePerAz properties
    placement = { ...placement, subnetFilters: subnetFilters, availabilityZones: undefined, onePerAz: undefined };
    const { availabilityZones, onePerAz, ...rest } = placement;

    return rest;
  }
}

/**
 * Properties that reference an external Vpc
 */
export interface VpcAttributes {
  /**
   * VPC's identifier
   */
  readonly vpcId: string;

  /**
   * VPC's CIDR range
   *
   * @default - Retrieving the CIDR from the VPC will fail
   */
  readonly vpcCidrBlock?: string;

  /**
   * List of availability zones for the subnets in this VPC.
   */
  readonly availabilityZones: string[];

  /**
   * List of public subnet IDs
   *
   * Must be undefined or match the availability zones in length and order.
   */
  readonly publicSubnetIds?: string[];

  /**
   * List of names for the public subnets
   *
   * Must be undefined or have a name for every public subnet group.
   */
  readonly publicSubnetNames?: string[];

  /**
   * List of IDs of routing tables for the public subnets.
   *
   * Must be undefined or have a name for every public subnet group.
   */
  readonly publicSubnetRouteTableIds?: string[];

  /**
   * List of private subnet IDs
   *
   * Must be undefined or match the availability zones in length and order.
   */
  readonly privateSubnetIds?: string[];

  /**
   * List of names for the private subnets
   *
   * Must be undefined or have a name for every private subnet group.
   */
  readonly privateSubnetNames?: string[];

  /**
   * List of IDs of routing tables for the private subnets.
   *
   * Must be undefined or have a name for every private subnet group.
   */
  readonly privateSubnetRouteTableIds?: string[];

  /**
   * List of isolated subnet IDs
   *
   * Must be undefined or match the availability zones in length and order.
   */
  readonly isolatedSubnetIds?: string[];

  /**
   * List of names for the isolated subnets
   *
   * Must be undefined or have a name for every isolated subnet group.
   */
  readonly isolatedSubnetNames?: string[];

  /**
   * List of IDs of routing tables for the isolated subnets.
   *
   * Must be undefined or have a name for every isolated subnet group.
   */
  readonly isolatedSubnetRouteTableIds?: string[];

  /**
   * VPN gateway's identifier
   */
  readonly vpnGatewayId?: string;
}

export interface SubnetAttributes {

  /**
   * The Availability Zone the subnet is located in
   *
   * @default - No AZ information, cannot use AZ selection features
   */
  readonly availabilityZone?: string;

  /**
   * The IPv4 CIDR block associated with the subnet
   *
   * @default - No CIDR information, cannot use CIDR filter features
   */
  readonly ipv4CidrBlock?: string;

  /**
   * The ID of the route table for this particular subnet
   *
   * @default - No route table information, cannot create VPC endpoints
   */
  readonly routeTableId?: string;

  /**
   * The subnetId for this particular subnet
   */
  readonly subnetId: string;
}

/**
 * Name tag constant
 */
const NAME_TAG: string = 'Name';

/**
 * Configuration for Vpc
 */
export interface VpcProps {

  /**
   * The CIDR range to use for the VPC, e.g. '10.0.0.0/16'.
   *
   * Should be a minimum of /28 and maximum size of /16. The range will be
   * split across all subnets per Availability Zone.
   *
   * @default Vpc.DEFAULT_CIDR_RANGE
   */
  readonly cidr?: string;

  /**
   * Indicates whether the instances launched in the VPC get public DNS hostnames.
   *
   * If this attribute is true, instances in the VPC get public DNS hostnames,
   * but only if the enableDnsSupport attribute is also set to true.
   *
   * @default true
   */
  readonly enableDnsHostnames?: boolean;

  /**
   * Indicates whether the DNS resolution is supported for the VPC.
   *
   * If this attribute is false, the Amazon-provided DNS server in the VPC that
   * resolves public DNS hostnames to IP addresses is not enabled. If this
   * attribute is true, 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 IPv4 network range plus two will succeed.
   *
   * @default true
   */
  readonly enableDnsSupport?: boolean;

  /**
   * The default tenancy of instances launched into the VPC.
   *
   * By setting this to dedicated tenancy, instances will be launched on
   * hardware dedicated to a single AWS customer, unless specifically specified
   * at instance launch time. Please note, not all instance types are usable
   * with Dedicated tenancy.
   *
   * @default DefaultInstanceTenancy.Default (shared) tenancy
   */
  readonly defaultInstanceTenancy?: DefaultInstanceTenancy;

  /**
   * Define the maximum number of AZs to use in this region
   *
   * If the region has more AZs than you want to use (for example, because of
   * EIP limits), pick a lower number here. The AZs will be sorted and picked
   * from the start of the list.
   *
   * If you pick a higher number than the number of AZs in the region, all AZs
   * in the region will be selected. To use "all AZs" available to your
   * account, use a high number (such as 99).
   *
   * Be aware that environment-agnostic stacks will be created with access to
   * only 2 AZs, so to use more than 2 AZs, be sure to specify the account and
   * region on your stack.
   *
   * @default 3
   */
  readonly maxAzs?: number;

  /**
   * The number of NAT Gateways/Instances to create.
   *
   * The type of NAT gateway or instance will be determined by the
   * `natGatewayProvider` parameter.
   *
   * You can set this number lower than the number of Availability Zones in your
   * VPC in order to save on NAT cost. Be aware you may be charged for
   * cross-AZ data traffic instead.
   *
   * @default - One NAT gateway/instance per Availability Zone
   */
  readonly natGateways?: number;

  /**
   * Configures the subnets which will have NAT Gateways/Instances
   *
   * You can pick a specific group of subnets by specifying the group name;
   * the picked subnets must be public subnets.
   *
   * Only necessary if you have more than one public subnet group.
   *
   * @default - All public subnets.
   */
  readonly natGatewaySubnets?: SubnetSelection;

  /**
   * What type of NAT provider to use
   *
   * Select between NAT gateways or NAT instances. NAT gateways
   * may not be available in all AWS regions.
   *
   * @default NatProvider.gateway()
   *
   */
  readonly natGatewayProvider?: NatProvider;

  /**
   * Configure the subnets to build for each AZ
   *
   * Each entry in this list configures a Subnet Group; each group will contain a
   * subnet for each Availability Zone.
   *
   * For example, if you want 1 public subnet, 1 private subnet, and 1 isolated
   * subnet in each AZ provide the following:
   *
   * ```ts
   * new ec2.Vpc(this, 'VPC', {
   *   subnetConfiguration: [
   *      {
   *        cidrMask: 24,
   *        name: 'ingress',
   *        subnetType: ec2.SubnetType.PUBLIC,
   *      },
   *      {
   *        cidrMask: 24,
   *        name: 'application',
   *        subnetType: ec2.SubnetType.PRIVATE_WITH_NAT,
   *      },
   *      {
   *        cidrMask: 28,
   *        name: 'rds',
   *        subnetType: ec2.SubnetType.PRIVATE_ISOLATED,
   *      }
   *   ]
   * });
   * ```
   *
   * @default - The VPC CIDR will be evenly divided between 1 public and 1
   * private subnet per AZ.
   */
  readonly subnetConfiguration?: SubnetConfiguration[];

  /**
   * Indicates whether a VPN gateway should be created and attached to this VPC.
   *
   * @default - true when vpnGatewayAsn or vpnConnections is specified
   */
  readonly vpnGateway?: boolean;

  /**
   * The private Autonomous System Number (ASN) for the VPN gateway.
   *
   * @default - Amazon default ASN.
   */
  readonly vpnGatewayAsn?: number;

  /**
   * VPN connections to this VPC.
   *
   * @default - No connections.
   */
  readonly vpnConnections?: { [id: string]: VpnConnectionOptions }

  /**
   * Where to propagate VPN routes.
   *
   * @default - On the route tables associated with private subnets. If no
   * private subnets exists, isolated subnets are used. If no isolated subnets
   * exists, public subnets are used.
   */
  readonly vpnRoutePropagation?: SubnetSelection[]

  /**
   * Gateway endpoints to add to this VPC.
   *
   * @default - None.
   */
  readonly gatewayEndpoints?: { [id: string]: GatewayVpcEndpointOptions }

  /**
   * Flow logs to add to this VPC.
   *
   * @default - No flow logs.
   */
  readonly flowLogs?: { [id: string]: FlowLogOptions }

  /**
   * The VPC name.
   *
   * Since the VPC resource doesn't support providing a physical name, the value provided here will be recorded in the `Name` tag
   *
   * @default this.node.path
   */
  readonly vpcName?: string;
}

/**
 * The default tenancy of instances launched into the VPC.
 */
export enum DefaultInstanceTenancy {
  /**
   * Instances can be launched with any tenancy.
   */
  DEFAULT = 'default',

  /**
   * Any instance launched into the VPC automatically has dedicated tenancy, unless you launch it with the default tenancy.
   */
  DEDICATED = 'dedicated'
}

/**
 * Specify configuration parameters for a single subnet group in a VPC.
 */
export interface SubnetConfiguration {
  /**
   * The number of leading 1 bits in the routing mask.
   *
   * The number of available IP addresses in each subnet of this group
   * will be equal to `2^(32 - cidrMask) - 2`.
   *
   * Valid values are `16--28`.
   *
   * @default - Available IP space is evenly divided across subnets.
   */
  readonly cidrMask?: number;

  /**
   * The type of Subnet to configure.
   *
   * The Subnet type will control the ability to route and connect to the
   * Internet.
   */
  readonly subnetType: SubnetType;

  /**
   * Logical name for the subnet group.
   *
   * This name can be used when selecting VPC subnets to distinguish
   * between different subnet groups of the same type.
   */
  readonly name: string;

  /**
   * Controls if subnet IP space needs to be reserved.
   *
   * When true, the IP space for the subnet is reserved but no actual
   * resources are provisioned. This space is only dependent on the
   * number of availability zones and on `cidrMask` - all other subnet
   * properties are ignored.
   *
   * @default false
   */
  readonly reserved?: boolean;

  /**
   * Controls if a public IP is associated to an instance at launch
   *
   * @default true in Subnet.Public, false in Subnet.Private or Subnet.Isolated.
   */
  readonly mapPublicIpOnLaunch?: boolean;
}

/**
 * Define an AWS Virtual Private Cloud
 *
 * See the package-level documentation of this package for an overview
 * of the various dimensions in which you can configure your VPC.
 *
 * For example:
 *
 * ```ts
 * const vpc = new ec2.Vpc(this, 'TheVPC', {
 *   cidr: "10.0.0.0/16"
 * })
 *
 * // Iterate the private subnets
 * const selection = vpc.selectSubnets({
 *   subnetType: ec2.SubnetType.PRIVATE_WITH_NAT
 * });
 *
 * for (const subnet of selection.subnets) {
 *   // ...
 * }
 * ```
 *
 * @resource AWS::EC2::VPC
 */
export class Vpc extends VpcBase {
  /**
   * The default CIDR range used when creating VPCs.
   * This can be overridden using VpcProps when creating a VPCNetwork resource.
   * e.g. new VpcResource(this, { cidr: '192.168.0.0./16' })
   */
  public static readonly DEFAULT_CIDR_RANGE: string = '10.0.0.0/16';

  /**
   * The default subnet configuration
   *
   * 1 Public and 1 Private subnet per AZ evenly split
   */
  public static readonly DEFAULT_SUBNETS: SubnetConfiguration[] = [
    {
      subnetType: SubnetType.PUBLIC,
      name: defaultSubnetName(SubnetType.PUBLIC),
    },
    {
      subnetType: SubnetType.PRIVATE_WITH_NAT,
      name: defaultSubnetName(SubnetType.PRIVATE_WITH_NAT),
    },
  ];

  /**
   * The default subnet configuration if natGateways specified to be 0
   *
   * 1 Public and 1 Isolated Subnet per AZ evenly split
   */
  public static readonly DEFAULT_SUBNETS_NO_NAT: SubnetConfiguration[] = [
    {
      subnetType: SubnetType.PUBLIC,
      name: defaultSubnetName(SubnetType.PUBLIC),
    },
    {
      subnetType: SubnetType.PRIVATE_ISOLATED,
      name: defaultSubnetName(SubnetType.PRIVATE_ISOLATED),
    },
  ];

  /**
   * Import a VPC by supplying all attributes directly
   *
   * NOTE: using `fromVpcAttributes()` with deploy-time parameters (like a `Fn.importValue()` or
   * `CfnParameter` to represent a list of subnet IDs) sometimes accidentally works. It happens
   * to work for constructs that need a list of subnets (like `AutoScalingGroup` and `eks.Cluster`)
   * but it does not work for constructs that need individual subnets (like
   * `Instance`). See https://github.com/aws/aws-cdk/issues/4118 for more
   * information.
   *
   * Prefer to use `Vpc.fromLookup()` instead.
   */
  public static fromVpcAttributes(scope: Construct, id: string, attrs: VpcAttributes): IVpc {
    return new ImportedVpc(scope, id, attrs, false);
  }

  /**
   * Import an existing VPC from by querying the AWS environment this stack is deployed to.
   *
   * This function only needs to be used to use VPCs not defined in your CDK
   * application. If you are looking to share a VPC between stacks, you can
   * pass the `Vpc` object between stacks and use it as normal.
   *
   * Calling this method will lead to a lookup when the CDK CLI is executed.
   * You can therefore not use any values that will only be available at
   * CloudFormation execution time (i.e., Tokens).
   *
   * The VPC information will be cached in `cdk.context.json` and the same VPC
   * will be used on future runs. To refresh the lookup, you will have to
   * evict the value from the cache using the `cdk context` command. See
   * https://docs.aws.amazon.com/cdk/latest/guide/context.html for more information.
   */
  public static fromLookup(scope: Construct, id: string, options: VpcLookupOptions): IVpc {
    if (Token.isUnresolved(options.vpcId)
      || Token.isUnresolved(options.vpcName)
      || Object.values(options.tags || {}).some(Token.isUnresolved)
      || Object.keys(options.tags || {}).some(Token.isUnresolved)) {
      throw new Error('All arguments to Vpc.fromLookup() must be concrete (no Tokens)');
    }

    const filter: {[key: string]: string} = makeTagFilter(options.tags);

    // We give special treatment to some tags
    if (options.vpcId) { filter['vpc-id'] = options.vpcId; }
    if (options.vpcName) { filter['tag:Name'] = options.vpcName; }
    if (options.isDefault !== undefined) {
      filter.isDefault = options.isDefault ? 'true' : 'false';
    }

    const overrides: {[key: string]: string} = {};
    if (options.region) {
      overrides.region = options.region;
    }

    const attributes: cxapi.VpcContextResponse = ContextProvider.getValue(scope, {
      provider: cxschema.ContextProvider.VPC_PROVIDER,
      props: {
        ...overrides,
        filter,
        returnAsymmetricSubnets: true,
        subnetGroupNameTag: options.subnetGroupNameTag,
      } as cxschema.VpcContextQuery,
      dummyValue: undefined,
    }).value;

    return new LookedUpVpc(scope, id, attributes || DUMMY_VPC_PROPS, attributes === undefined);

    /**
     * Prefixes all keys in the argument with `tag:`.`
     */
    function makeTagFilter(tags: { [name: string]: string } | undefined): { [name: string]: string } {
      const result: { [name: string]: string } = {};
      for (const [name, value] of Object.entries(tags || {})) {
        result[`tag:${name}`] = value;
      }
      return result;
    }
  }

  /**
   * Identifier for this VPC
   */
  public readonly vpcId: string;

  /**
   * @attribute
   */
  public readonly vpcArn: string;

  /**
   * @attribute
   */
  public readonly vpcCidrBlock: string;

  /**
   * @attribute
   */
  public readonly vpcDefaultNetworkAcl: string;

  /**
   * @attribute
   */
  public readonly vpcCidrBlockAssociations: string[];

  /**
   * @attribute
   */
  public readonly vpcDefaultSecurityGroup: string;

  /**
   * @attribute
   */
  public readonly vpcIpv6CidrBlocks: string[];

  /**
   * List of public subnets in this VPC
   */
  public readonly publicSubnets: ISubnet[] = [];

  /**
   * List of private subnets in this VPC
   */
  public readonly privateSubnets: ISubnet[] = [];

  /**
   * List of isolated subnets in this VPC
   */
  public readonly isolatedSubnets: ISubnet[] = [];

  /**
   * AZs for this VPC
   */
  public readonly availabilityZones: string[];

  /**
   * Internet Gateway for the VPC. Note that in case the VPC is configured only
   * with ISOLATED subnets, this attribute will be `undefined`.
   */
  public readonly internetGatewayId?: string;

  public readonly internetConnectivityEstablished: IDependable;

  /**
   * Indicates if instances launched in this VPC will have public DNS hostnames.
   */
  public readonly dnsHostnamesEnabled: boolean;

  /**
   * Indicates if DNS support is enabled for this VPC.
   */
  public readonly dnsSupportEnabled: boolean;

  /**
   * The VPC resource
   */
  private readonly resource: CfnVPC;

  /**
   * The NetworkBuilder
   */
  private networkBuilder: NetworkBuilder;

  /**
   * Subnet configurations for this VPC
   */
  private subnetConfiguration: SubnetConfiguration[] = [];

  private readonly _internetConnectivityEstablished = new ConcreteDependable();

  /**
   * Vpc creates a VPC that spans a whole region.
   * It will automatically divide the provided VPC CIDR range, and create public and private subnets per Availability Zone.
   * Network routing for the public subnets will be configured to allow outbound access directly via an Internet Gateway.
   * Network routing for the private subnets will be configured to allow outbound access via a set of resilient NAT Gateways (one per AZ).
   */
  constructor(scope: Construct, id: string, props: VpcProps = {}) {
    super(scope, id);

    const stack = Stack.of(this);

    // Can't have enabledDnsHostnames without enableDnsSupport
    if (props.enableDnsHostnames && !props.enableDnsSupport) {
      throw new Error('To use DNS Hostnames, DNS Support must be enabled, however, it was explicitly disabled.');
    }

    const cidrBlock = ifUndefined(props.cidr, Vpc.DEFAULT_CIDR_RANGE);
    if (Token.isUnresolved(cidrBlock)) {
      throw new Error('\'cidr\' property must be a concrete CIDR string, got a Token (we need to parse it for automatic subdivision)');
    }

    this.networkBuilder = new NetworkBuilder(cidrBlock);

    this.dnsHostnamesEnabled = props.enableDnsHostnames == null ? true : props.enableDnsHostnames;
    this.dnsSupportEnabled = props.enableDnsSupport == null ? true : props.enableDnsSupport;
    const instanceTenancy = props.defaultInstanceTenancy || 'default';
    this.internetConnectivityEstablished = this._internetConnectivityEstablished;

    // Define a VPC using the provided CIDR range
    this.resource = new CfnVPC(this, 'Resource', {
      cidrBlock,
      enableDnsHostnames: this.dnsHostnamesEnabled,
      enableDnsSupport: this.dnsSupportEnabled,
      instanceTenancy,
    });

    this.vpcDefaultNetworkAcl = this.resource.attrDefaultNetworkAcl;
    this.vpcCidrBlockAssociations = this.resource.attrCidrBlockAssociations;
    this.vpcCidrBlock = this.resource.attrCidrBlock;
    this.vpcDefaultSecurityGroup = this.resource.attrDefaultSecurityGroup;
    this.vpcIpv6CidrBlocks = this.resource.attrIpv6CidrBlocks;

    Tags.of(this).add(NAME_TAG, props.vpcName || this.node.path);

    this.availabilityZones = stack.availabilityZones;

    const maxAZs = props.maxAzs ?? 3;
    this.availabilityZones = this.availabilityZones.slice(0, maxAZs);

    this.vpcId = this.resource.ref;
    this.vpcArn = Arn.format({
      service: 'ec2',
      resource: 'vpc',
      resourceName: this.vpcId,
    }, stack);

    const defaultSubnet = props.natGateways === 0 ? Vpc.DEFAULT_SUBNETS_NO_NAT : Vpc.DEFAULT_SUBNETS;
    this.subnetConfiguration = ifUndefined(props.subnetConfiguration, defaultSubnet);

    const natGatewayPlacement = props.natGatewaySubnets || { subnetType: SubnetType.PUBLIC };
    const natGatewayCount = determineNatGatewayCount(props.natGateways, this.subnetConfiguration, this.availabilityZones.length);

    // subnetConfiguration must be set before calling createSubnets
    this.createSubnets();

    const allowOutbound = this.subnetConfiguration.filter(
      subnet => (subnet.subnetType !== SubnetType.PRIVATE_ISOLATED)).length > 0;

    // Create an Internet Gateway and attach it if necessary
    if (allowOutbound) {
      const igw = new CfnInternetGateway(this, 'IGW', {
      });

      this.internetGatewayId = igw.ref;

      this._internetConnectivityEstablished.add(igw);
      const att = new CfnVPCGatewayAttachment(this, 'VPCGW', {
        internetGatewayId: igw.ref,
        vpcId: this.resource.ref,
      });

      (this.publicSubnets as PublicSubnet[]).forEach(publicSubnet => {
        publicSubnet.addDefaultInternetRoute(igw.ref, att);
      });

      // if gateways are needed create them
      if (natGatewayCount > 0) {
        const provider = props.natGatewayProvider || NatProvider.gateway();
        this.createNatGateways(provider, natGatewayCount, natGatewayPlacement);
      }
    }

    if (props.vpnGateway && this.publicSubnets.length === 0 && this.privateSubnets.length === 0 && this.isolatedSubnets.length === 0) {
      throw new Error('Can not enable the VPN gateway while the VPC has no subnets at all');
    }

    if ((props.vpnConnections || props.vpnGatewayAsn) && props.vpnGateway === false) {
      throw new Error('Cannot specify `vpnConnections` or `vpnGatewayAsn` when `vpnGateway` is set to false.');
    }

    if (props.vpnGateway || props.vpnConnections || props.vpnGatewayAsn) {
      this.enableVpnGateway({
        amazonSideAsn: props.vpnGatewayAsn,
        type: VpnConnectionType.IPSEC_1,
        vpnRoutePropagation: props.vpnRoutePropagation,
      });

      const vpnConnections = props.vpnConnections || {};
      for (const [connectionId, connection] of Object.entries(vpnConnections)) {
        this.addVpnConnection(connectionId, connection);
      }
    }

    // Allow creation of gateway endpoints on VPC instantiation as those can be
    // immediately functional without further configuration. This is not the case
    // for interface endpoints where the security group must be configured.
    if (props.gatewayEndpoints) {
      const gatewayEndpoints = props.gatewayEndpoints || {};
      for (const [endpointId, endpoint] of Object.entries(gatewayEndpoints)) {
        this.addGatewayEndpoint(endpointId, endpoint);
      }
    }

    // Add flow logs to the VPC
    if (props.flowLogs) {
      const flowLogs = props.flowLogs || {};
      for (const [flowLogId, flowLog] of Object.entries(flowLogs)) {
        this.addFlowLog(flowLogId, flowLog);
      }
    }
  }

  /**
   * Adds a new S3 gateway endpoint to this VPC
   *
   * @deprecated use `addGatewayEndpoint()` instead
   */
  public addS3Endpoint(id: string, subnets?: SubnetSelection[]): GatewayVpcEndpoint {
    return new GatewayVpcEndpoint(this, id, {
      service: GatewayVpcEndpointAwsService.S3,
      vpc: this,
      subnets,
    });
  }

  /**
   * Adds a new DynamoDB gateway endpoint to this VPC
   *
   * @deprecated use `addGatewayEndpoint()` instead
   */
  public addDynamoDbEndpoint(id: string, subnets?: SubnetSelection[]): GatewayVpcEndpoint {
    return new GatewayVpcEndpoint(this, id, {
      service: GatewayVpcEndpointAwsService.DYNAMODB,
      vpc: this,
      subnets,
    });
  }

  private createNatGateways(provider: NatProvider, natCount: number, placement: SubnetSelection): void {
    const natSubnets: PublicSubnet[] = this.selectSubnetObjects(placement) as PublicSubnet[];
    for (const sub of natSubnets) {
      if (this.publicSubnets.indexOf(sub) === -1) {
        throw new Error(`natGatewayPlacement ${placement} contains non public subnet ${sub}`);
      }
    }

    provider.configureNat({
      vpc: this,
      natSubnets: natSubnets.slice(0, natCount),
      privateSubnets: this.privateSubnets as PrivateSubnet[],
    });
  }

  /**
   * createSubnets creates the subnets specified by the subnet configuration
   * array or creates the `DEFAULT_SUBNETS` configuration
   */
  private createSubnets() {
    const remainingSpaceSubnets: SubnetConfiguration[] = [];

    for (const subnet of this.subnetConfiguration) {
      if (subnet.cidrMask === undefined) {
        remainingSpaceSubnets.push(subnet);
        continue;
      }
      this.createSubnetResources(subnet, subnet.cidrMask);
    }

    const totalRemaining = remainingSpaceSubnets.length * this.availabilityZones.length;
    const cidrMaskForRemaining = this.networkBuilder.maskForRemainingSubnets(totalRemaining);
    for (const subnet of remainingSpaceSubnets) {
      this.createSubnetResources(subnet, cidrMaskForRemaining);
    }
  }

  private createSubnetResources(subnetConfig: SubnetConfiguration, cidrMask: number) {
    this.availabilityZones.forEach((zone, index) => {
      if (subnetConfig.reserved === true) {
        // For reserved subnets, just allocate ip space but do not create any resources
        this.networkBuilder.addSubnet(cidrMask);
        return;
      }

      // mapPublicIpOnLaunch true in Subnet.Public, false in Subnet.Private or Subnet.Isolated.
      let mapPublicIpOnLaunch = false;
      if (subnetConfig.subnetType !== SubnetType.PUBLIC && subnetConfig.mapPublicIpOnLaunch !== undefined) {
        throw new Error(`${subnetConfig.subnetType} subnet cannot include mapPublicIpOnLaunch parameter`);
      }
      if (subnetConfig.subnetType === SubnetType.PUBLIC) {
        mapPublicIpOnLaunch = (subnetConfig.mapPublicIpOnLaunch !== undefined)
          ? subnetConfig.mapPublicIpOnLaunch
          : true;
      }

      const name = subnetId(subnetConfig.name, index);
      const subnetProps: SubnetProps = {
        availabilityZone: zone,
        vpcId: this.vpcId,
        cidrBlock: this.networkBuilder.addSubnet(cidrMask),
        mapPublicIpOnLaunch: mapPublicIpOnLaunch,
      };

      let subnet: Subnet;
      switch (subnetConfig.subnetType) {
        case SubnetType.PUBLIC:
          const publicSubnet = new PublicSubnet(this, name, subnetProps);
          this.publicSubnets.push(publicSubnet);
          subnet = publicSubnet;
          break;
        case SubnetType.PRIVATE_WITH_NAT:
          const privateSubnet = new PrivateSubnet(this, name, subnetProps);
          this.privateSubnets.push(privateSubnet);
          subnet = privateSubnet;
          break;
        case SubnetType.PRIVATE_ISOLATED:
          const isolatedSubnet = new PrivateSubnet(this, name, subnetProps);
          this.isolatedSubnets.push(isolatedSubnet);
          subnet = isolatedSubnet;
          break;
        default:
          throw new Error(`Unrecognized subnet type: ${subnetConfig.subnetType}`);
      }

      // These values will be used to recover the config upon provider import
      const includeResourceTypes = [CfnSubnet.CFN_RESOURCE_TYPE_NAME];
      Tags.of(subnet).add(SUBNETNAME_TAG, subnetConfig.name, { includeResourceTypes });
      Tags.of(subnet).add(SUBNETTYPE_TAG, subnetTypeTagValue(subnetConfig.subnetType), { includeResourceTypes });
    });
  }
}

const SUBNETTYPE_TAG = 'aws-cdk:subnet-type';
const SUBNETNAME_TAG = 'aws-cdk:subnet-name';

function subnetTypeTagValue(type: SubnetType) {
  switch (type) {
    case SubnetType.PUBLIC: return 'Public';
    case SubnetType.PRIVATE_WITH_NAT: return 'Private';
    case SubnetType.PRIVATE_ISOLATED: return 'Isolated';
  }
}

/**
 * Specify configuration parameters for a VPC subnet
 */
export interface SubnetProps {

  /**
   * The availability zone for the subnet
   */
  readonly availabilityZone: string;

  /**
   * The VPC which this subnet is part of
   */
  readonly vpcId: string;

  /**
   * The CIDR notation for this subnet
   */
  readonly cidrBlock: string;

  /**
   * Controls if a public IP is associated to an instance at launch
   *
   * @default true in Subnet.Public, false in Subnet.Private or Subnet.Isolated.
   */
  readonly mapPublicIpOnLaunch?: boolean;
}

/**
 * Represents a new VPC subnet resource
 *
 * @resource AWS::EC2::Subnet
 */
export class Subnet extends Resource implements ISubnet {

  public static isVpcSubnet(x: any): x is Subnet {
    return VPC_SUBNET_SYMBOL in x;
  }

  public static fromSubnetAttributes(scope: Construct, id: string, attrs: SubnetAttributes): ISubnet {
    return new ImportedSubnet(scope, id, attrs);
  }

  /**
   * Import existing subnet from id.
   */
  // eslint-disable-next-line @typescript-eslint/no-shadow
  public static fromSubnetId(scope: Construct, id: string, subnetId: string): ISubnet {
    return this.fromSubnetAttributes(scope, id, { subnetId });
  }

  /**
   * The Availability Zone the subnet is located in
   */
  public readonly availabilityZone: string;

  /**
   * @attribute
   */
  public readonly ipv4CidrBlock: string;

  /**
   * The subnetId for this particular subnet
   */
  public readonly subnetId: string;

  /**
   * @attribute
   */
  public readonly subnetVpcId: string;

  /**
   * @attribute
   */
  public readonly subnetAvailabilityZone: string;

  /**
   * @attribute
   */
  public readonly subnetIpv6CidrBlocks: string[];

  /**
   * The Amazon Resource Name (ARN) of the Outpost for this subnet (if one exists).
   * @attribute
   */
  public readonly subnetOutpostArn: string;

  /**
   * @attribute
   */
  public readonly subnetNetworkAclAssociationId: string;

  /**
   * Parts of this VPC subnet
   */
  public readonly dependencyElements: IDependable[] = [];

  /**
   * The routeTableId attached to this subnet.
   */
  public readonly routeTable: IRouteTable;

  public readonly internetConnectivityEstablished: IDependable;

  private readonly _internetConnectivityEstablished = new ConcreteDependable();

  private _networkAcl: INetworkAcl;

  constructor(scope: Construct, id: string, props: SubnetProps) {
    super(scope, id);

    Object.defineProperty(this, VPC_SUBNET_SYMBOL, { value: true });

    Tags.of(this).add(NAME_TAG, this.node.path);

    this.availabilityZone = props.availabilityZone;
    this.ipv4CidrBlock = props.cidrBlock;
    const subnet = new CfnSubnet(this, 'Subnet', {
      vpcId: props.vpcId,
      cidrBlock: props.cidrBlock,
      availabilityZone: props.availabilityZone,
      mapPublicIpOnLaunch: props.mapPublicIpOnLaunch,
    });
    this.subnetId = subnet.ref;
    this.subnetVpcId = subnet.attrVpcId;
    this.subnetAvailabilityZone = subnet.attrAvailabilityZone;
    this.subnetIpv6CidrBlocks = subnet.attrIpv6CidrBlocks;
    this.subnetOutpostArn = subnet.attrOutpostArn;

    // subnet.attrNetworkAclAssociationId is the default ACL after the subnet
    // was just created. However, the ACL can be replaced at a later time.
    this._networkAcl = NetworkAcl.fromNetworkAclId(this, 'Acl', subnet.attrNetworkAclAssociationId);
    this.subnetNetworkAclAssociationId = Lazy.string({ produce: () => this._networkAcl.networkAclId });
    this.node.defaultChild = subnet;

    const table = new CfnRouteTable(this, 'RouteTable', {
      vpcId: props.vpcId,
    });
    this.routeTable = { routeTableId: table.ref };

    // Associate the public route table for this subnet, to this subnet
    new CfnSubnetRouteTableAssociation(this, 'RouteTableAssociation', {
      subnetId: this.subnetId,
      routeTableId: table.ref,
    });

    this.internetConnectivityEstablished = this._internetConnectivityEstablished;
  }

  /**
   * Create a default route that points to a passed IGW, with a dependency
   * on the IGW's attachment to the VPC.
   *
   * @param gatewayId the logical ID (ref) of the gateway attached to your VPC
   * @param gatewayAttachment the gateway attachment construct to be added as a dependency
   */
  public addDefaultInternetRoute(gatewayId: string, gatewayAttachment: IDependable) {
    const route = new CfnRoute(this, 'DefaultRoute', {
      routeTableId: this.routeTable.routeTableId,
      destinationCidrBlock: '0.0.0.0/0',
      gatewayId,
    });
    route.node.addDependency(gatewayAttachment);

    // Since the 'route' depends on the gateway attachment, just
    // depending on the route is enough.
    this._internetConnectivityEstablished.add(route);
  }

  /**
   * Network ACL associated with this Subnet
   *
   * Upon creation, this is the default ACL which allows all traffic, except
   * explicit DENY entries that you add.
   *
   * You can replace it with a custom ACL which denies all traffic except
   * the explicit ALLOW entries that you add by creating a `NetworkAcl`
   * object and calling `associateNetworkAcl()`.
   */
  public get networkAcl(): INetworkAcl {
    return this._networkAcl;
  }

  /**
   * Adds an entry to this subnets route table that points to the passed NATGatewayId
   * @param natGatewayId The ID of the NAT gateway
   */
  public addDefaultNatRoute(natGatewayId: string) {
    this.addRoute('DefaultRoute', {
      routerType: RouterType.NAT_GATEWAY,
      routerId: natGatewayId,
      enablesInternetConnectivity: true,
    });
  }

  /**
   * Adds an entry to this subnets route table
   */
  public addRoute(id: string, options: AddRouteOptions) {
    if (options.destinationCidrBlock && options.destinationIpv6CidrBlock) {
      throw new Error('Cannot specify both \'destinationCidrBlock\' and \'destinationIpv6CidrBlock\'');
    }

    const route = new CfnRoute(this, id, {
      routeTableId: this.routeTable.routeTableId,
      destinationCidrBlock: options.destinationCidrBlock || (options.destinationIpv6CidrBlock === undefined ? '0.0.0.0/0' : undefined),
      destinationIpv6CidrBlock: options.destinationIpv6CidrBlock,
      [routerTypeToPropName(options.routerType)]: options.routerId,
    });

    if (options.enablesInternetConnectivity) {
      this._internetConnectivityEstablished.add(route);
    }
  }

  public associateNetworkAcl(id: string, networkAcl: INetworkAcl) {
    this._networkAcl = networkAcl;

    const scope = CoreConstruct.isConstruct(networkAcl) ? networkAcl : this;
    const other = CoreConstruct.isConstruct(networkAcl) ? this : networkAcl;
    new SubnetNetworkAclAssociation(scope, id + Names.nodeUniqueId(other.node), {
      networkAcl,
      subnet: this,
    });
  }
}

/**
 * Options for adding a new route to a subnet
 */
export interface AddRouteOptions {
  /**
   * IPv4 range this route applies to
   *
   * @default '0.0.0.0/0'
   */
  readonly destinationCidrBlock?: string;

  /**
   * IPv6 range this route applies to
   *
   * @default - Uses IPv6
   */
  readonly destinationIpv6CidrBlock?: string;

  /**
   * What type of router to route this traffic to
   */
  readonly routerType: RouterType;

  /**
   * The ID of the router
   *
   * Can be an instance ID, gateway ID, etc, depending on the router type.
   */
  readonly routerId: string;

  /**
   * Whether this route will enable internet connectivity
   *
   * If true, this route will be added before any AWS resources that depend
   * on internet connectivity in the VPC will be created.
   *
   * @default false
   */
  readonly enablesInternetConnectivity?: boolean;
}

/**
 * Type of router used in route
 */
export enum RouterType {
  /**
   * Carrier gateway
   */
  CARRIER_GATEWAY = 'CarrierGateway',

  /**
   * Egress-only Internet Gateway
   */
  EGRESS_ONLY_INTERNET_GATEWAY = 'EgressOnlyInternetGateway',

  /**
   * Internet Gateway
   */
  GATEWAY = 'Gateway',

  /**
   * Instance
   */
  INSTANCE = 'Instance',

  /**
   * Local Gateway
   */
  LOCAL_GATEWAY = 'LocalGateway',

  /**
   * NAT Gateway
   */
  NAT_GATEWAY = 'NatGateway',

  /**
   * Network Interface
   */
  NETWORK_INTERFACE = 'NetworkInterface',

  /**
   * Transit Gateway
   */
  TRANSIT_GATEWAY = 'TransitGateway',

  /**
   * VPC peering connection
   */
  VPC_PEERING_CONNECTION = 'VpcPeeringConnection',

  /**
   * VPC Endpoint for gateway load balancers
   */
  VPC_ENDPOINT = 'VpcEndpoint',
}

function routerTypeToPropName(routerType: RouterType) {
  return ({
    [RouterType.CARRIER_GATEWAY]: 'carrierGatewayId',
    [RouterType.EGRESS_ONLY_INTERNET_GATEWAY]: 'egressOnlyInternetGatewayId',
    [RouterType.GATEWAY]: 'gatewayId',
    [RouterType.INSTANCE]: 'instanceId',
    [RouterType.LOCAL_GATEWAY]: 'localGatewayId',
    [RouterType.NAT_GATEWAY]: 'natGatewayId',
    [RouterType.NETWORK_INTERFACE]: 'networkInterfaceId',
    [RouterType.TRANSIT_GATEWAY]: 'transitGatewayId',
    [RouterType.VPC_PEERING_CONNECTION]: 'vpcPeeringConnectionId',
    [RouterType.VPC_ENDPOINT]: 'vpcEndpointId',
  })[routerType];
}

export interface PublicSubnetProps extends SubnetProps {

}

export interface IPublicSubnet extends ISubnet { }

export interface PublicSubnetAttributes extends SubnetAttributes { }

/**
 * Represents a public VPC subnet resource
 */
export class PublicSubnet extends Subnet implements IPublicSubnet {

  public static fromPublicSubnetAttributes(scope: Construct, id: string, attrs: PublicSubnetAttributes): IPublicSubnet {
    return new ImportedSubnet(scope, id, attrs);
  }

  constructor(scope: Construct, id: string, props: PublicSubnetProps) {
    super(scope, id, props);
  }

  /**
   * Creates a new managed NAT gateway attached to this public subnet.
   * Also adds the EIP for the managed NAT.
   * @returns A ref to the the NAT Gateway ID
   */
  public addNatGateway(eipAllocationId?: string) {
    // Create a NAT Gateway in this public subnet
    const ngw = new CfnNatGateway(this, 'NATGateway', {
      subnetId: this.subnetId,
      allocationId: eipAllocationId ?? new CfnEIP(this, 'EIP', {
        domain: 'vpc',
      }).attrAllocationId,
    });
    return ngw;
  }
}

export interface PrivateSubnetProps extends SubnetProps {

}

export interface IPrivateSubnet extends ISubnet { }

export interface PrivateSubnetAttributes extends SubnetAttributes { }

/**
 * Represents a private VPC subnet resource
 */
export class PrivateSubnet extends Subnet implements IPrivateSubnet {

  public static fromPrivateSubnetAttributes(scope: Construct, id: string, attrs: PrivateSubnetAttributes): IPrivateSubnet {
    return new ImportedSubnet(scope, id, attrs);
  }

  constructor(scope: Construct, id: string, props: PrivateSubnetProps) {
    super(scope, id, props);
  }
}

function ifUndefined<T>(value: T | undefined, defaultValue: T): T {
  return value ?? defaultValue;
}

class ImportedVpc extends VpcBase {
  public readonly vpcId: string;
  public readonly vpcArn: string;
  public readonly publicSubnets: ISubnet[];
  public readonly privateSubnets: ISubnet[];
  public readonly isolatedSubnets: ISubnet[];
  public readonly availabilityZones: string[];
  public readonly internetConnectivityEstablished: IDependable = new ConcreteDependable();
  private readonly cidr?: string | undefined;

  constructor(scope: Construct, id: string, props: VpcAttributes, isIncomplete: boolean) {
    super(scope, id);

    this.vpcId = props.vpcId;
    this.vpcArn = Arn.format({
      service: 'ec2',
      resource: 'vpc',
      resourceName: this.vpcId,
    }, Stack.of(this));
    this.cidr = props.vpcCidrBlock;
    this.availabilityZones = props.availabilityZones;
    this._vpnGatewayId = props.vpnGatewayId;
    this.incompleteSubnetDefinition = isIncomplete;

    // None of the values may be unresolved list tokens
    for (const k of Object.keys(props) as Array<keyof VpcAttributes>) {
      if (Array.isArray(props[k]) && Token.isUnresolved(props[k])) {
        Annotations.of(this).addWarning(`fromVpcAttributes: '${k}' is a list token: the imported VPC will not work with constructs that require a list of subnets at synthesis time. Use 'Vpc.fromLookup()' or 'Fn.importListValue' instead.`);
      }
    }

    /* eslint-disable max-len */
    const pub = new ImportSubnetGroup(props.publicSubnetIds, props.publicSubnetNames, props.publicSubnetRouteTableIds, SubnetType.PUBLIC, this.availabilityZones, 'publicSubnetIds', 'publicSubnetNames', 'publicSubnetRouteTableIds');
    const priv = new ImportSubnetGroup(props.privateSubnetIds, props.privateSubnetNames, props.privateSubnetRouteTableIds, SubnetType.PRIVATE_WITH_NAT, this.availabilityZones, 'privateSubnetIds', 'privateSubnetNames', 'privateSubnetRouteTableIds');
    const iso = new ImportSubnetGroup(props.isolatedSubnetIds, props.isolatedSubnetNames, props.isolatedSubnetRouteTableIds, SubnetType.PRIVATE_ISOLATED, this.availabilityZones, 'isolatedSubnetIds', 'isolatedSubnetNames', 'isolatedSubnetRouteTableIds');
    /* eslint-enable max-len */

    this.publicSubnets = pub.import(this);
    this.privateSubnets = priv.import(this);
    this.isolatedSubnets = iso.import(this);
  }

  public get vpcCidrBlock(): string {
    if (this.cidr === undefined) {
      throw new Error('Cannot perform this operation: \'vpcCidrBlock\' was not supplied when creating this VPC');
    }
    return this.cidr;
  }
}

class LookedUpVpc extends VpcBase {
  public readonly vpcId: string;
  public readonly vpcArn: string;
  public readonly internetConnectivityEstablished: IDependable = new ConcreteDependable();
  public readonly availabilityZones: string[];
  public readonly publicSubnets: ISubnet[];
  public readonly privateSubnets: ISubnet[];
  public readonly isolatedSubnets: ISubnet[];
  private readonly cidr?: string | undefined;

  constructor(scope: Construct, id: string, props: cxapi.VpcContextResponse, isIncomplete: boolean) {
    super(scope, id);

    this.vpcId = props.vpcId;
    this.vpcArn = Arn.format({
      service: 'ec2',
      resource: 'vpc',
      resourceName: this.vpcId,
    }, Stack.of(this));
    this.cidr = props.vpcCidrBlock;
    this._vpnGatewayId = props.vpnGatewayId;
    this.incompleteSubnetDefinition = isIncomplete;

    const subnetGroups = props.subnetGroups || [];
    const availabilityZones = Array.from(new Set<string>(flatMap(subnetGroups, subnetGroup => {
      return subnetGroup.subnets.map(subnet => subnet.availabilityZone);
    })));
    availabilityZones.sort((az1, az2) => az1.localeCompare(az2));
    this.availabilityZones = availabilityZones;

    this.publicSubnets = this.extractSubnetsOfType(subnetGroups, cxapi.VpcSubnetGroupType.PUBLIC);
    this.privateSubnets = this.extractSubnetsOfType(subnetGroups, cxapi.VpcSubnetGroupType.PRIVATE);
    this.isolatedSubnets = this.extractSubnetsOfType(subnetGroups, cxapi.VpcSubnetGroupType.ISOLATED);
  }

  public get vpcCidrBlock(): string {
    if (this.cidr === undefined) {
      // Value might be cached from an old CLI version, so bumping the CX API protocol to
      // force the value to exist would not have helped.
      throw new Error('Cannot perform this operation: \'vpcCidrBlock\' was not found when looking up this VPC. Use a newer version of the CDK CLI and clear the old context value.');
    }
    return this.cidr;
  }

  private extractSubnetsOfType(subnetGroups: cxapi.VpcSubnetGroup[], subnetGroupType: cxapi.VpcSubnetGroupType): ISubnet[] {
    return flatMap(subnetGroups.filter(subnetGroup => subnetGroup.type === subnetGroupType),
      subnetGroup => this.subnetGroupToSubnets(subnetGroup));
  }

  private subnetGroupToSubnets(subnetGroup: cxapi.VpcSubnetGroup): ISubnet[] {
    const ret = new Array<ISubnet>();
    for (let i = 0; i < subnetGroup.subnets.length; i++) {
      const vpcSubnet = subnetGroup.subnets[i];
      ret.push(Subnet.fromSubnetAttributes(this, `${subnetGroup.name}Subnet${i + 1}`, {
        availabilityZone: vpcSubnet.availabilityZone,
        subnetId: vpcSubnet.subnetId,
        routeTableId: vpcSubnet.routeTableId,
        ipv4CidrBlock: vpcSubnet.cidr,
      }));
    }
    return ret;
  }
}

function flatMap<T, U>(xs: T[], fn: (x: T) => U[]): U[] {
  const ret = new Array<U>();
  for (const x of xs) {
    ret.push(...fn(x));
  }
  return ret;
}

class CompositeDependable implements IDependable {
  private readonly dependables = new Array<IDependable>();

  constructor() {
    const self = this;
    DependableTrait.implement(this, {
      get dependencyRoots() {
        const ret = new Array<IConstruct>();
        for (const dep of self.dependables) {
          ret.push(...DependableTrait.get(dep).dependencyRoots);
        }
        return ret;
      },
    });
  }

  /**
   * Add a construct to the dependency roots
   */
  public add(dep: IDependable) {
    this.dependables.push(dep);
  }
}

/**
 * Invoke a function on a value (for its side effect) and return the value
 */
function tap<T>(x: T, fn: (x: T) => void): T {
  fn(x);
  return x;
}

class ImportedSubnet extends Resource implements ISubnet, IPublicSubnet, IPrivateSubnet {
  public readonly internetConnectivityEstablished: IDependable = new ConcreteDependable();
  public readonly subnetId: string;
  public readonly routeTable: IRouteTable;
  private readonly _availabilityZone?: string;
  private readonly _ipv4CidrBlock?: string;

  constructor(scope: Construct, id: string, attrs: SubnetAttributes) {
    super(scope, id);

    if (!attrs.routeTableId) {
      // The following looks a little weird, but comes down to:
      //
      // * Is the subnetId itself unresolved ({ Ref: Subnet }); or
      // * Was it the accidentally extracted first element of a list-encoded
      //   token? ({ Fn::ImportValue: Subnets } => ['#{Token[1234]}'] =>
      //   '#{Token[1234]}'
      //
      // There's no other API to test for the second case than to the string back into
      // a list and see if the combination is Unresolved.
      //
      // In both cases we can't output the subnetId literally into the metadata (because it'll
      // be useless). In the 2nd case even, if we output it to metadata, the `resolve()` call
      // that gets done on the metadata will even `throw`, because the '#{Token}' value will
      // occur in an illegal position (not in a list context).
      const ref = Token.isUnresolved(attrs.subnetId) || Token.isUnresolved([attrs.subnetId])
        ? `at '${Node.of(scope).path}/${id}'`
        : `'${attrs.subnetId}'`;
      // eslint-disable-next-line max-len
      Annotations.of(this).addWarning(`No routeTableId was provided to the subnet ${ref}. Attempting to read its .routeTable.routeTableId will return null/undefined. (More info: https://github.com/aws/aws-cdk/pull/3171)`);
    }

    this._ipv4CidrBlock = attrs.ipv4CidrBlock;
    this._availabilityZone = attrs.availabilityZone;
    this.subnetId = attrs.subnetId;
    this.routeTable = {
      // Forcing routeTableId to pretend non-null to maintain backwards-compatibility. See https://github.com/aws/aws-cdk/pull/3171
      routeTableId: attrs.routeTableId!,
    };
  }

  public get availabilityZone(): string {
    if (!this._availabilityZone) {
      // eslint-disable-next-line max-len
      throw new Error('You cannot reference a Subnet\'s availability zone if it was not supplied. Add the availabilityZone when importing using Subnet.fromSubnetAttributes()');
    }
    return this._availabilityZone;
  }

  public get ipv4CidrBlock(): string {
    if (!this._ipv4CidrBlock) {
      // tslint:disable-next-line: max-line-length
      throw new Error('You cannot reference an imported Subnet\'s IPv4 CIDR if it was not supplied. Add the ipv4CidrBlock when importing using Subnet.fromSubnetAttributes()');
    }
    return this._ipv4CidrBlock;
  }

  public associateNetworkAcl(id: string, networkAcl: INetworkAcl): void {
    const scope = CoreConstruct.isConstruct(networkAcl) ? networkAcl : this;
    const other = CoreConstruct.isConstruct(networkAcl) ? this : networkAcl;
    new SubnetNetworkAclAssociation(scope, id + Names.nodeUniqueId(other.node), {
      networkAcl,
      subnet: this,
    });
  }
}

/**
 * Determine (and validate) the NAT gateway count w.r.t. the rest of the subnet configuration
 *
 * We have the following requirements:
 *
 * - NatGatewayCount = 0 ==> there are no private subnets
 * - NatGatewayCount > 0 ==> there must be public subnets
 *
 * Do we want to require that there are private subnets if there are NatGateways?
 * They seem pointless but I see no reason to prevent it.
 */
function determineNatGatewayCount(requestedCount: number | undefined, subnetConfig: SubnetConfiguration[], azCount: number) {
  const hasPrivateSubnets = subnetConfig.some(c => c.subnetType === SubnetType.PRIVATE_WITH_NAT && !c.reserved);
  const hasPublicSubnets = subnetConfig.some(c => c.subnetType === SubnetType.PUBLIC);

  const count = requestedCount !== undefined ? Math.min(requestedCount, azCount) : (hasPrivateSubnets ? azCount : 0);

  if (count === 0 && hasPrivateSubnets) {
    // eslint-disable-next-line max-len
    throw new Error('If you do not want NAT gateways (natGateways=0), make sure you don\'t configure any PRIVATE subnets in \'subnetConfiguration\' (make them PUBLIC or ISOLATED instead)');
  }

  if (count > 0 && !hasPublicSubnets) {
    // eslint-disable-next-line max-len
    throw new Error(`If you configure PRIVATE subnets in 'subnetConfiguration', you must also configure PUBLIC subnets to put the NAT gateways into (got ${JSON.stringify(subnetConfig)}.`);
  }

  return count;
}

/**
 * There are returned when the provider has not supplied props yet
 *
 * It's only used for testing and on the first run-through.
 */
const DUMMY_VPC_PROPS: cxapi.VpcContextResponse = {
  availabilityZones: [],
  vpcCidrBlock: '1.2.3.4/5',
  isolatedSubnetIds: undefined,
  isolatedSubnetNames: undefined,
  isolatedSubnetRouteTableIds: undefined,
  privateSubnetIds: undefined,
  privateSubnetNames: undefined,
  privateSubnetRouteTableIds: undefined,
  publicSubnetIds: undefined,
  publicSubnetNames: undefined,
  publicSubnetRouteTableIds: undefined,
  subnetGroups: [
    {
      name: 'Public',
      type: cxapi.VpcSubnetGroupType.PUBLIC,
      subnets: [
        {
          availabilityZone: 'dummy1a',
          subnetId: 's-12345',
          routeTableId: 'rtb-12345s',
          cidr: '1.2.3.4/5',
        },
        {
          availabilityZone: 'dummy1b',
          subnetId: 's-67890',
          routeTableId: 'rtb-67890s',
          cidr: '1.2.3.4/5',
        },
      ],
    },
    {
      name: 'Private',
      type: cxapi.VpcSubnetGroupType.PRIVATE,
      subnets: [
        {
          availabilityZone: 'dummy1a',
          subnetId: 'p-12345',
          routeTableId: 'rtb-12345p',
          cidr: '1.2.3.4/5',
        },
        {
          availabilityZone: 'dummy1b',
          subnetId: 'p-67890',
          routeTableId: 'rtb-57890p',
          cidr: '1.2.3.4/5',
        },
      ],
    },
    {
      name: 'Isolated',
      type: cxapi.VpcSubnetGroupType.ISOLATED,
      subnets: [
        {
          availabilityZone: 'dummy1a',
          subnetId: 'p-12345',
          routeTableId: 'rtb-12345p',
          cidr: '1.2.3.4/5',
        },
        {
          availabilityZone: 'dummy1b',
          subnetId: 'p-67890',
          routeTableId: 'rtb-57890p',
          cidr: '1.2.3.4/5',
        },
      ],
    },
  ],
  vpcId: 'vpc-12345',
};