我正在寻找一种在 Javascript 中进行客户端加密的方法(牢记http://www.matasano.com/articles/javascript-cryptography/)并找到了 SJCL。但我似乎无法为它找到好的代码示例。任何指针?
2 回答
I did a presentation last year titled Developer's Guide to JavaScript and Web Cryptography and have the demo site online at https://jswebcrypto.azurewebsites.net/
This includes simple Hash, HMAC, PBKDF2 and AES examples for OpenSSL command line (as a baseline) SJCL, CryptoJS, Node.js Crypto, and even W3C Web Cryptography API
Here are the SJCL examples:
Hash
var out = sjcl.hash.sha1.hash("The quick brown fox jumps over the lazy dog");
var hash = sjcl.codec.hex.fromBits(out)
// "2fd4e1c67a2d28fced849ee1bb76e7391b93eb12"
HMAC
var key = sjcl.codec.utf8String.toBits("key");
var out = (new sjcl.misc.hmac(key, sjcl.hash.sha256)).mac("The quick brown fox jumps over the lazy dog");
var hmac = sjcl.codec.hex.fromBits(out)
// "f7bc83f430538424b13298e6aa6fb143ef4d59a14946175997479dbc2d1a3cd8"
PBKDF2
var hmacSHA1 = function (key) {
var hasher = new sjcl.misc.hmac( key, sjcl.hash.sha1 );
this.encrypt = function () {
return hasher.encrypt.apply( hasher, arguments );
};
};
var passwordSalt = sjcl.codec.hex.toBits( "cf7488cd1e48e84990f51b3f121e161318ba2098aa6c993ded1012c955d5a3e8" );
var derivedKey = sjcl.misc.pbkdf2( "password", passwordSalt, 100, 256, hmacSHA1 );
var hexKey = sjcl.codec.hex.fromBits( derivedKey );
// c12b2e03a08f3f0d23f3c4429c248c275a728814053a093835e803bc8e695b4e
Note: This requires you in include sha1.js in addition to sjcl.js.
这可能有点晚了,但我最近也在研究如何进行客户端加密哈希,Kevin Hakanson 的回答非常有帮助,演示站点也非常有用!它展示了如何将自定义 PseudoRandom 函数与 PBKDF2(HMAC 和 SHA1)一起使用,但我发现如果没有传入,SJCL 有默认值,我只想展示如何做到这一点,以及生成随机盐.
我还发现sjcl 文档很有帮助。
要生成随机盐并在密码“password”上使用 PBKDF2,您可以这样做,最终只需 3 行:
// Each random "word" is 4 bytes, so 8 would be 32 bytes
var saltBits = sjcl.random.randomWords(8);
// eg. [588300265, -1755622410, -533744668, 1408647727, -876578935, 12500664, 179736681, 1321878387]
// I left out the 5th argument, which defaults to HMAC which in turn defaults to use SHA256
var derivedKey = sjcl.misc.pbkdf2("password", saltBits, 1000, 256);
// eg. [-605875851, 757263041, -993332615, 465335420, 1306210159, -1270931768, -1185781663, -477369628]
// Storing the key is probably easier encoded and not as a bitArray
// I choose base64 just because the output is shorter, but you could use sjcl.codec.hex.fromBits
var key = sjcl.codec.base64.fromBits(derivedKey);
// eg. "2+MRdS0i6sHEyvJ5G7x0fE3bL2+0Px7IuVJoYeOL6uQ="
如果您想存储盐,您可能需要对其进行编码
var salt = sjcl.codec.base64.fromBits(saltBits);
// eg. "IxC/6ZdbU/bgL7PkU/ZCL8vAd4kAvr64CraQaU7KQ3M="
// Again I just used base64 because it's shorter, but you could use hex
// And to get the bitArray back, you would do the exact opposite
var saltBits = sjcl.codec.base64.toBits(salt);