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pbkdf2 - crypto - Node documentation
function pbkdf2

Usage in Deno

import { pbkdf2 } from "node:crypto";
pbkdf2(
password: BinaryLike,
salt: BinaryLike,
iterations: number,
keylen: number,
digest: string,
callback: (
err: Error | null,
derivedKey: Buffer,
) => void
,
): void

Provides an asynchronous Password-Based Key Derivation Function 2 (PBKDF2) implementation. A selected HMAC digest algorithm specified by digest is applied to derive a key of the requested byte length (keylen) from the password, salt and iterations.

The supplied callback function is called with two arguments: err and derivedKey. If an error occurs while deriving the key, err will be set; otherwise err will be null. By default, the successfully generated derivedKey will be passed to the callback as a Buffer. An error will be thrown if any of the input arguments specify invalid values or types.

The iterations argument must be a number set as high as possible. The higher the number of iterations, the more secure the derived key will be, but will take a longer amount of time to complete.

The salt should be as unique as possible. It is recommended that a salt is random and at least 16 bytes long. See NIST SP 800-132 for details.

When passing strings for password or salt, please consider caveats when using strings as inputs to cryptographic APIs.

const {
  pbkdf2,
} = await import('node:crypto');

pbkdf2('secret', 'salt', 100000, 64, 'sha512', (err, derivedKey) => {
  if (err) throw err;
  console.log(derivedKey.toString('hex'));  // '3745e48...08d59ae'
});

An array of supported digest functions can be retrieved using getHashes.

This API uses libuv's threadpool, which can have surprising and negative performance implications for some applications; see the UV_THREADPOOL_SIZE documentation for more information.

Parameters

password: BinaryLike
iterations: number
keylen: number
digest: string
callback: (
err: Error | null,
derivedKey: Buffer,
) => void

Return Type

void
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