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denoland-deno/std/node/_crypto/pbkdf2.ts
Steven Guerrero 5aeac00971
feat(std/node/crypto): randomBytes and pbkdf2 (#8191)
* crypto

* Other thing

* Test for pdkdf2

* Add randomBytes

* Refactor pbkdf2

* Lint and format
2020-10-29 22:53:27 -04:00

180 lines
4.2 KiB
TypeScript

import { createHash } from "../../hash/mod.ts";
import Buffer from "../buffer.ts";
import { MAX_ALLOC } from "./constants.ts";
import { HASH_DATA } from "./types.ts";
export type NormalizedAlgorithms =
| "md5"
| "ripemd160"
| "sha1"
| "sha224"
| "sha256"
| "sha384"
| "sha512";
type Algorithms =
| "md5"
| "ripemd160"
| "rmd160"
| "sha1"
| "sha224"
| "sha256"
| "sha384"
| "sha512";
function createHasher(alg: Algorithms) {
let normalizedAlg: NormalizedAlgorithms;
if (alg === "rmd160") {
normalizedAlg = "ripemd160";
} else {
normalizedAlg = alg;
}
return (value: Uint8Array) =>
Buffer.from(createHash(normalizedAlg).update(value).digest());
}
function getZeroes(zeros: number) {
return Buffer.alloc(zeros);
}
const sizes = {
md5: 16,
sha1: 20,
sha224: 28,
sha256: 32,
sha384: 48,
sha512: 64,
rmd160: 20,
ripemd160: 20,
};
function toBuffer(bufferable: HASH_DATA) {
if (bufferable instanceof Uint8Array || typeof bufferable === "string") {
return Buffer.from(bufferable as Uint8Array);
} else {
return Buffer.from(bufferable.buffer);
}
}
class Hmac {
hash: (value: Uint8Array) => Buffer;
ipad1: Buffer;
opad: Buffer;
alg: string;
blocksize: number;
size: number;
ipad2: Buffer;
constructor(alg: Algorithms, key: Buffer, saltLen: number) {
this.hash = createHasher(alg);
const blocksize = (alg === "sha512" || alg === "sha384") ? 128 : 64;
if (key.length > blocksize) {
key = this.hash(key);
} else if (key.length < blocksize) {
key = Buffer.concat([key, getZeroes(blocksize - key.length)], blocksize);
}
const ipad = Buffer.allocUnsafe(blocksize + sizes[alg]);
const opad = Buffer.allocUnsafe(blocksize + sizes[alg]);
for (let i = 0; i < blocksize; i++) {
ipad[i] = key[i] ^ 0x36;
opad[i] = key[i] ^ 0x5C;
}
const ipad1 = Buffer.allocUnsafe(blocksize + saltLen + 4);
ipad.copy(ipad1, 0, 0, blocksize);
this.ipad1 = ipad1;
this.ipad2 = ipad;
this.opad = opad;
this.alg = alg;
this.blocksize = blocksize;
this.size = sizes[alg];
}
run(data: Buffer, ipad: Buffer) {
data.copy(ipad, this.blocksize);
const h = this.hash(ipad);
h.copy(this.opad, this.blocksize);
return this.hash(this.opad);
}
}
/**
* @param iterations Needs to be higher or equal than zero
* @param keylen Needs to be higher or equal than zero but less than max allocation size (2^30)
* @param digest Algorithm to be used for encryption
*/
export function pbkdf2Sync(
password: HASH_DATA,
salt: HASH_DATA,
iterations: number,
keylen: number,
digest: Algorithms = "sha1",
): Buffer {
if (typeof iterations !== "number" || iterations < 0) {
throw new TypeError("Bad iterations");
}
if (typeof keylen !== "number" || keylen < 0 || keylen > MAX_ALLOC) {
throw new TypeError("Bad key length");
}
const bufferedPassword = toBuffer(password);
const bufferedSalt = toBuffer(salt);
const hmac = new Hmac(digest, bufferedPassword, bufferedSalt.length);
const DK = Buffer.allocUnsafe(keylen);
const block1 = Buffer.allocUnsafe(bufferedSalt.length + 4);
bufferedSalt.copy(block1, 0, 0, bufferedSalt.length);
let destPos = 0;
const hLen = sizes[digest];
const l = Math.ceil(keylen / hLen);
for (let i = 1; i <= l; i++) {
block1.writeUInt32BE(i, bufferedSalt.length);
const T = hmac.run(block1, hmac.ipad1);
let U = T;
for (let j = 1; j < iterations; j++) {
U = hmac.run(U, hmac.ipad2);
for (let k = 0; k < hLen; k++) T[k] ^= U[k];
}
T.copy(DK, destPos);
destPos += hLen;
}
return DK;
}
/**
* @param iterations Needs to be higher or equal than zero
* @param keylen Needs to be higher or equal than zero but less than max allocation size (2^30)
* @param digest Algorithm to be used for encryption
*/
export function pbkdf2(
password: HASH_DATA,
salt: HASH_DATA,
iterations: number,
keylen: number,
digest: Algorithms = "sha1",
callback: ((err?: Error, derivedKey?: Buffer) => void),
): void {
try {
const res = pbkdf2Sync(
password,
salt,
iterations,
keylen,
digest,
);
callback(undefined, res);
} catch (e) {
callback(e);
}
}