import {MergeExclusive} from 'type-fest'; interface BaseOptions { /** Length of the returned string. */ length: number; } interface TypeOption { /** Use only characters from a predefined set of allowed characters. Cannot be set at the same time as the `characters` option. @default 'hex' The `distinguishable` set contains only uppercase characters that are not easily confused: `CDEHKMPRTUWXY012458`. It can be useful if you need to print out a short string that you'd like users to read and type back in with minimal errors. For example, reading a code off of a screen that needs to be typed into a phone to connect two devices. The `ascii-printable` set contains all [printable ASCII characters](https://en.wikipedia.org/wiki/ASCII#ASCII_printable_characters): ``!"#$%&\'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~`` Useful for generating passwords where all possible ASCII characters should be used. The `alphanumeric` set contains uppercase letters, lowercase letters, and digits: `ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789`. Useful for generating [nonce](https://developer.mozilla.org/en-US/docs/Web/API/HTMLOrForeignElement/nonce) values. @example ``` cryptoRandomString({length: 10}); //=> '87fc70e2b9' cryptoRandomString({length: 10, type: 'base64'}); //=> 'mhsX7xmIv/' cryptoRandomString({length: 10, type: 'url-safe'}); //=> 'VEjfNW3Yej' cryptoRandomString({length: 10, type: 'numeric'}); //=> '8314659141' cryptoRandomString({length: 6, type: 'distinguishable'}); //=> 'CDEHKM' cryptoRandomString({length: 10, type: 'ascii-printable'}); //=> '`#Rt8$IK>B' cryptoRandomString({length: 10, type: 'alphanumeric'}); //=> 'DMuKL8YtE7' ``` */ type?: 'hex' | 'base64' | 'url-safe' | 'numeric' | 'distinguishable' | 'ascii-printable' | 'alphanumeric'; } interface CharactersOption { /** Use only characters from a custom set of allowed characters. Cannot be set at the same time as the `type` option. Minimum length: `1` Maximum length: `65536` @example ``` cryptoRandomString({length: 10, characters: '0123456789'}); //=> '8796225811' ``` */ characters?: string; } export type Options = BaseOptions & MergeExclusive; declare const cryptoRandomString: { /** Generate a [cryptographically strong](https://en.wikipedia.org/wiki/Strong_cryptography) random string. @returns A randomized string. @example ``` import cryptoRandomString from 'crypto-random-string'; cryptoRandomString({length: 10}); //=> '2cf05d94db' ``` */ (options: Options): string; /** Asynchronously generate a [cryptographically strong](https://en.wikipedia.org/wiki/Strong_cryptography) random string. For most use-cases, there's really no good reason to use this async version. From the Node.js docs: > The `crypto.randomBytes()` method will not complete until there is sufficient entropy available. This should normally never take longer than a few milliseconds. The only time when generating the random bytes may conceivably block for a longer period of time is right after boot, when the whole system is still low on entropy. In general, anything async comes with some overhead on it's own. @returns A promise which resolves to a randomized string. @example ``` import cryptoRandomString from 'crypto-random-string'; await cryptoRandomString.async({length: 10}); //=> '2cf05d94db' ``` */ async(options: Options): Promise; }; export default cryptoRandomString;