@vinarmani/eccrypto-js
v5.4.1
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Elliptic curve cryptography library (NodeJS, Browser and Pure JS)
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eccrypto-js
Elliptic curve cryptography library (NodeJS, Browser and Pure JS)
Description
This library is a port from eccrypto it makes use of native libraries on NodeJS and Browser enviroments with pure javascript fallbacks.
Usage
RandomBytes
import * as eccryptoJS from 'eccrypto-js';
const length = 32;
const key = eccryptoJS.randomBytes(length);
// key.length === length
AES
import * as eccryptoJS from 'eccrypto-js';
const key = eccryptoJS.randomBytes(32);
const iv = eccryptoJS.randomBytes(16);
const str = 'test message to encrypt';
const msg = eccryptoJS.utf8ToBuffer(str);
const ciphertext = await eccryptoJS.aesCbcEncrypt(iv, key, msg);
const decrypted = await eccryptoJS.aesCbcDecrypt(iv, key, ciphertext);
// decrypted.toString() === str
HMAC
import * as eccryptoJS from 'eccrypto-js';
const key = eccryptoJS.randomBytes(32);
const iv = eccryptoJS.randomBytes(16);
const macKey = eccryptoJS.concatBuffers(iv, key);
const dataToMac = eccryptoJS.concatBuffers(iv, key, msg);
const mac = await eccryptoJS.hmacSha256Sign(macKey, dataToMac);
const result = await eccryptoJS.hmacSha256Verify(macKey, dataToMac, mac);
// result will return true if match
SHA2
import * as eccryptoJS from 'eccrypto-js';
// SHA256
const str = 'test message to hash';
const msg = eccryptoJS.utf8ToBuffer(str);
const hash = await eccryptoJS.sha256(str);
// SHA512
const str = 'test message to hash';
const msg = eccryptoJS.utf8ToBuffer(str);
const hash = await eccryptoJS.sha512(str);
SHA3
import * as eccryptoJS from 'eccrypto-js';
// SHA3
const str = 'test message to hash';
const msg = eccryptoJS.utf8ToBuffer(str);
const hash = await eccryptoJS.sha3(str);
// KECCAK256
const str = 'test message to hash';
const msg = eccryptoJS.utf8ToBuffer(str);
const hash = await eccryptoJS.keccak256(str);
ECDSA
import * as eccryptoJS from 'eccrypto-js';
const keyPair = eccryptoJS.generateKeyPair();
const str = 'test message to hash';
const msg = eccryptoJS.utf8ToBuffer(str);
const hash = await eccryptoJS.sha256(str);
const sig = await eccryptoJS.sign(keyPair.privateKey, hash);
await eccryptoJS.verify(keyPair.publicKey, msg, sig);
// verify will throw if signature is BAD
ECDH
import * as eccryptoJS from 'eccrypto-js';
const keyPairA = eccryptoJS.generateKeyPair();
const keyPairB = eccryptoJS.generateKeyPair();
const sharedKey1 = await eccryptoJS.derive(
keyPairA.privateKey,
keyPairB.publicKey
);
const sharedKey2 = await eccryptoJS.derive(
keyPairB.privateKey,
keyPairA.publicKey
);
// sharedKey1.toString('hex') === sharedKey2.toString('hex')
ECIES
import * as eccryptoJS from 'eccrypto-js';
const keyPair = eccryptoJS.generateKeyPair();
const str = 'test message to encrypt';
const msg = eccryptoJS.utf8ToBuffer(str);
const encrypted = await eccryptoJS.encrypt(keyPairB.publicKey, msg);
const decrypted = await eccryptoJS.decrypt(keyPairB.privateKey, encrypted);
// decrypted.toString() === str
PBKDF2
import * as eccryptoJS from 'eccrypto-js';
const password = 'password';
const buffer = eccryptoJS.utf8ToBuffer(str);
const key = await eccryptoJS.pbkdf2(buffer);
// key.length === 32
React-Native Support
This library is intended for use in a Browser or NodeJS environment, however it is possible to use in a React-Native environment if NodeJS modules are polyfilled with react-native-crypto
, read more here.