MyCrypto/common/libs/decrypt.ts

96 lines
3.0 KiB
TypeScript

import { mnemonicToSeed, validateMnemonic } from 'bip39';
import { createDecipheriv, createHash } from 'crypto';
import { privateToAddress } from 'ethereumjs-util';
import HDkey from 'hdkey';
import { stripHexPrefixAndLower } from 'libs/values';
// adapted from https://github.com/kvhnuke/etherwallet/blob/de536ffebb4f2d1af892a32697e89d1a0d906b01/app/scripts/myetherwallet.js#L230
export function decryptPrivKey(encprivkey: string, password: string): Buffer {
const cipher = encprivkey.slice(0, 128);
const decryptedCipher = decodeCryptojsSalt(cipher);
const evp = evp_kdf(new Buffer(password), decryptedCipher.salt, {
keysize: 32,
ivsize: 16
});
const decipher = createDecipheriv('aes-256-cbc', evp.key, evp.iv);
const privKey = decipherBuffer(decipher, new Buffer(decryptedCipher.ciphertext));
return new Buffer(privKey.toString(), 'hex');
}
// adapted from https://github.com/kvhnuke/etherwallet/blob/de536ffebb4f2d1af892a32697e89d1a0d906b01/app/scripts/myetherwallet.js#L284
export function decodeCryptojsSalt(input: string): any {
const ciphertext = new Buffer(input, 'base64');
if (ciphertext.slice(0, 8).toString() === 'Salted__') {
return {
salt: ciphertext.slice(8, 16),
ciphertext: ciphertext.slice(16)
};
} else {
return {
ciphertext
};
}
}
// adapted from https://github.com/kvhnuke/etherwallet/blob/de536ffebb4f2d1af892a32697e89d1a0d906b01/app/scripts/myetherwallet.js#L297
export function evp_kdf(data: Buffer, salt: Buffer, opts: any) {
// A single EVP iteration, returns `D_i`, where block equlas to `D_(i-1)`
function iter(block: Buffer) {
let hash = createHash(opts.digest || 'md5');
hash.update(block);
hash.update(data);
hash.update(salt);
block = hash.digest();
for (let e = 1; e < (opts.count || 1); e++) {
hash = createHash(opts.digest || 'md5');
hash.update(block);
block = hash.digest();
}
return block;
}
const keysize = opts.keysize || 16;
const ivsize = opts.ivsize || 16;
const ret: any[] = [];
let i = 0;
while (Buffer.concat(ret).length < keysize + ivsize) {
ret[i] = iter(i === 0 ? new Buffer(0) : ret[i - 1]);
i++;
}
const tmp = Buffer.concat(ret);
return {
key: tmp.slice(0, keysize),
iv: tmp.slice(keysize, keysize + ivsize)
};
}
export function decipherBuffer(decipher: any, data: Buffer): Buffer {
return Buffer.concat([decipher.update(data), decipher.final()]);
}
export function decryptMnemonicToPrivKey(
phrase: string,
pass: string,
path: string,
address: string
): Buffer {
phrase = phrase.trim();
address = stripHexPrefixAndLower(address);
if (!validateMnemonic(phrase)) {
throw new Error('Invalid mnemonic');
}
const seed = mnemonicToSeed(phrase, pass);
const derived = HDkey.fromMasterSeed(seed).derive(path);
const dPrivKey = derived.privateKey;
const dAddress = privateToAddress(dPrivKey).toString('hex');
if (dAddress !== address) {
throw new Error(`Derived ${dAddress}, expected ${address}`);
}
return dPrivKey;
}