import * as pulumi from "@pulumi/pulumi"; import * as outputs from "../types/output"; import * as enums from "../types/enums"; /** * Creates an authorizer. */ export declare function getAuthorizer(args: GetAuthorizerArgs, opts?: pulumi.InvokeOptions): Promise; export interface GetAuthorizerArgs { /** * The authorizer name. */ authorizerName: string; } export interface GetAuthorizerResult { /** * The Amazon Resource Name (ARN) of the authorizer. */ readonly arn?: string; /** * The authorizer's Lambda function ARN. */ readonly authorizerFunctionArn?: string; /** * When `true` , the result from the authorizer's Lambda function is cached for clients that use persistent HTTP connections. The results are cached for the time specified by the Lambda function in `refreshAfterInSeconds` . This value doesn't affect authorization of clients that use MQTT connections. */ readonly enableCachingForHttp?: boolean; /** * The status of the authorizer. * * Valid values: `ACTIVE` | `INACTIVE` */ readonly status?: enums.iot.AuthorizerStatus; /** * Metadata which can be used to manage the custom authorizer. * * > For URI Request parameters use format: ...key1=value1&key2=value2... * > * > For the CLI command-line parameter use format: &&tags "key1=value1&key2=value2..." * > * > For the cli-input-json file use format: "tags": "key1=value1&key2=value2..." */ readonly tags?: outputs.Tag[]; /** * The key used to extract the token from the HTTP headers. */ readonly tokenKeyName?: string; /** * The public keys used to validate the token signature returned by your custom authentication service. */ readonly tokenSigningPublicKeys?: { [key: string]: string; }; } /** * Creates an authorizer. */ export declare function getAuthorizerOutput(args: GetAuthorizerOutputArgs, opts?: pulumi.InvokeOutputOptions): pulumi.Output; export interface GetAuthorizerOutputArgs { /** * The authorizer name. */ authorizerName: pulumi.Input; }