import * as pulumi from "@pulumi/pulumi";
import * as inputs from "./types/input";
import * as outputs from "./types/output";
/**
 * This resource represents load balancer frontend service.
 *
 * ## Example Usage
 *
 * ```typescript
 * import * as pulumi from "@pulumi/pulumi";
 * import * as upcloud from "@upcloud/pulumi-upcloud";
 *
 * const config = new pulumi.Config();
 * const lbZone = config.get("lbZone") || "fi-hel2";
 * const lbNetwork = new upcloud.Network("lb_network", {
 *     name: "lb-test-net",
 *     zone: lbZone,
 *     ipNetwork: {
 *         address: "10.0.0.0/24",
 *         dhcp: true,
 *         family: "IPv4",
 *     },
 * });
 * const lbFe1 = new upcloud.LoadbalancerFrontend("lb_fe_1", {
 *     loadbalancer: upcloudLoadbalancer.lb.id,
 *     name: "lb-fe-1-test",
 *     mode: "http",
 *     port: 8080,
 *     defaultBackendName: upcloudLoadbalancerBackend.lbBe1.name,
 *     networks: [{
 *         name: upcloudLoadbalancer.lb.networks[1].name,
 *     }],
 * });
 * const lb = new upcloud.Loadbalancer("lb", {
 *     configuredStatus: "started",
 *     name: "lb-test",
 *     plan: "development",
 *     zone: lbZone,
 *     networks: [
 *         {
 *             name: "Private-Net",
 *             type: "private",
 *             family: "IPv4",
 *             network: upcloudNetwork.lbNetwork.id,
 *         },
 *         {
 *             name: "Public-Net",
 *             type: "public",
 *             family: "IPv4",
 *         },
 *     ],
 * });
 * const lbBe1 = new upcloud.LoadbalancerBackend("lb_be_1", {
 *     loadbalancer: upcloudLoadbalancer.lb.id,
 *     name: "lb-be-1-test",
 * });
 * ```
 */
export declare class LoadbalancerFrontend extends pulumi.CustomResource {
    /**
     * Get an existing LoadbalancerFrontend resource's state with the given name, ID, and optional extra
     * properties used to qualify the lookup.
     *
     * @param name The _unique_ name of the resulting resource.
     * @param id The _unique_ provider ID of the resource to lookup.
     * @param state Any extra arguments used during the lookup.
     * @param opts Optional settings to control the behavior of the CustomResource.
     */
    static get(name: string, id: pulumi.Input<pulumi.ID>, state?: LoadbalancerFrontendState, opts?: pulumi.CustomResourceOptions): LoadbalancerFrontend;
    /**
     * Returns true if the given object is an instance of LoadbalancerFrontend.  This is designed to work even
     * when multiple copies of the Pulumi SDK have been loaded into the same process.
     */
    static isInstance(obj: any): obj is LoadbalancerFrontend;
    /**
     * The name of the backend where traffic will be routed by default. The default backend can be overridden in frontend
     * rules. Note that the frontend resource depends on the default backend resource. Use the `name` field of a backend
     * resource as the value for this field (like in the example above) or the `dependsOn` meta argument to ensure the
     * resources are created and destroyed in the correct order.
     */
    readonly defaultBackendName: pulumi.Output<string>;
    /**
     * UUID of the load balancer to which the frontend is connected.
     */
    readonly loadbalancer: pulumi.Output<string>;
    /**
     * When load balancer operating in `tcp` mode it acts as a layer 4 proxy. In `http` mode it acts as a layer 7 proxy.
     */
    readonly mode: pulumi.Output<string>;
    /**
     * The name of the frontend. Must be unique within the load balancer service.
     */
    readonly name: pulumi.Output<string>;
    /**
     * Networks that frontend will be listening. Networks are required if load balancer has `networks` defined. This field will
     * be required when deprecated field `network` is removed from load balancer resource.
     */
    readonly networks: pulumi.Output<outputs.LoadbalancerFrontendNetwork[] | undefined>;
    /**
     * Port to listen for incoming requests.
     */
    readonly port: pulumi.Output<number>;
    readonly properties: pulumi.Output<outputs.LoadbalancerFrontendProperties | undefined>;
    /**
     * Set of frontend rule names.
     */
    readonly rules: pulumi.Output<string[]>;
    /**
     * Set of TLS config names.
     */
    readonly tlsConfigs: pulumi.Output<string[]>;
    /**
     * Create a LoadbalancerFrontend resource with the given unique name, arguments, and options.
     *
     * @param name The _unique_ name of the resource.
     * @param args The arguments to use to populate this resource's properties.
     * @param opts A bag of options that control this resource's behavior.
     */
    constructor(name: string, args: LoadbalancerFrontendArgs, opts?: pulumi.CustomResourceOptions);
}
/**
 * Input properties used for looking up and filtering LoadbalancerFrontend resources.
 */
export interface LoadbalancerFrontendState {
    /**
     * The name of the backend where traffic will be routed by default. The default backend can be overridden in frontend
     * rules. Note that the frontend resource depends on the default backend resource. Use the `name` field of a backend
     * resource as the value for this field (like in the example above) or the `dependsOn` meta argument to ensure the
     * resources are created and destroyed in the correct order.
     */
    defaultBackendName?: pulumi.Input<string>;
    /**
     * UUID of the load balancer to which the frontend is connected.
     */
    loadbalancer?: pulumi.Input<string>;
    /**
     * When load balancer operating in `tcp` mode it acts as a layer 4 proxy. In `http` mode it acts as a layer 7 proxy.
     */
    mode?: pulumi.Input<string>;
    /**
     * The name of the frontend. Must be unique within the load balancer service.
     */
    name?: pulumi.Input<string>;
    /**
     * Networks that frontend will be listening. Networks are required if load balancer has `networks` defined. This field will
     * be required when deprecated field `network` is removed from load balancer resource.
     */
    networks?: pulumi.Input<pulumi.Input<inputs.LoadbalancerFrontendNetwork>[]>;
    /**
     * Port to listen for incoming requests.
     */
    port?: pulumi.Input<number>;
    properties?: pulumi.Input<inputs.LoadbalancerFrontendProperties>;
    /**
     * Set of frontend rule names.
     */
    rules?: pulumi.Input<pulumi.Input<string>[]>;
    /**
     * Set of TLS config names.
     */
    tlsConfigs?: pulumi.Input<pulumi.Input<string>[]>;
}
/**
 * The set of arguments for constructing a LoadbalancerFrontend resource.
 */
export interface LoadbalancerFrontendArgs {
    /**
     * The name of the backend where traffic will be routed by default. The default backend can be overridden in frontend
     * rules. Note that the frontend resource depends on the default backend resource. Use the `name` field of a backend
     * resource as the value for this field (like in the example above) or the `dependsOn` meta argument to ensure the
     * resources are created and destroyed in the correct order.
     */
    defaultBackendName: pulumi.Input<string>;
    /**
     * UUID of the load balancer to which the frontend is connected.
     */
    loadbalancer: pulumi.Input<string>;
    /**
     * When load balancer operating in `tcp` mode it acts as a layer 4 proxy. In `http` mode it acts as a layer 7 proxy.
     */
    mode: pulumi.Input<string>;
    /**
     * The name of the frontend. Must be unique within the load balancer service.
     */
    name?: pulumi.Input<string>;
    /**
     * Networks that frontend will be listening. Networks are required if load balancer has `networks` defined. This field will
     * be required when deprecated field `network` is removed from load balancer resource.
     */
    networks?: pulumi.Input<pulumi.Input<inputs.LoadbalancerFrontendNetwork>[]>;
    /**
     * Port to listen for incoming requests.
     */
    port: pulumi.Input<number>;
    properties?: pulumi.Input<inputs.LoadbalancerFrontendProperties>;
}