imba
Version:
108 lines (107 loc) • 4.45 kB
JavaScript
import test from "tape";
import fs from "fs";
import parseKeys from "parse-asn1";
import path from "path";
import "./nodeTests";
import * as nodeCrypto from "../";
import myCrypto from "../browser";
var rsa1024 = {
private: fs.readFileSync(path.join(__dirname, 'rsa.1024.priv')),
public: fs.readFileSync(path.join(__dirname, 'rsa.1024.pub'))
};
var rsa1024priv = {
private: fs.readFileSync(path.join(__dirname, 'rsa.1024.priv')),
public: fs.readFileSync(path.join(__dirname, 'rsa.1024.priv'))
};
var rsa2028 = {
private: fs.readFileSync(path.join(__dirname, 'rsa.2028.priv')),
public: fs.readFileSync(path.join(__dirname, 'rsa.2028.pub'))
};
var nonrsa1024 = {
private: fs.readFileSync(path.join(__dirname, '1024.priv')),
public: fs.readFileSync(path.join(__dirname, '1024.pub'))
};
var nonrsa1024str = {
private: fs.readFileSync(path.join(__dirname, '1024.priv')).toString(),
public: fs.readFileSync(path.join(__dirname, '1024.pub')).toString()
};
var pass1024 = {
private: {
passphrase: 'fooo',
key: fs.readFileSync(path.join(__dirname, 'pass.1024.priv'))
},
public: fs.readFileSync(path.join(__dirname, 'pass.1024.pub'))
};
var pass2028 = {
private: {
passphrase: 'password',
key: fs.readFileSync(path.join(__dirname, 'rsa.pass.priv'))
},
public: fs.readFileSync(path.join(__dirname, 'rsa.pass.pub'))
};
function _testIt(keys, message, t) {
var pub = keys.public;
var priv = keys.private;
t.test(message.toString(), function (t) {
t.plan(8);
var myEnc = myCrypto.publicEncrypt(pub, message);
var nodeEnc = nodeCrypto.publicEncrypt(pub, message);
t.equals(myCrypto.privateDecrypt(priv, myEnc).toString('hex'), message.toString('hex'), 'my decrypter my message');
t.equals(myCrypto.privateDecrypt(priv, nodeEnc).toString('hex'), message.toString('hex'), 'my decrypter node\'s message');
t.equals(nodeCrypto.privateDecrypt(priv, myEnc).toString('hex'), message.toString('hex'), 'node decrypter my message');
t.equals(nodeCrypto.privateDecrypt(priv, nodeEnc).toString('hex'), message.toString('hex'), 'node decrypter node\'s message');
myEnc = myCrypto.privateEncrypt(priv, message);
nodeEnc = nodeCrypto.privateEncrypt(priv, message);
t.equals(myCrypto.publicDecrypt(pub, myEnc).toString('hex'), message.toString('hex'), 'reverse methods my decrypter my message');
t.equals(myCrypto.publicDecrypt(pub, nodeEnc).toString('hex'), message.toString('hex'), 'reverse methods my decrypter node\'s message');
t.equals(nodeCrypto.publicDecrypt(pub, myEnc).toString('hex'), message.toString('hex'), 'reverse methods node decrypter my message');
t.equals(nodeCrypto.publicDecrypt(pub, nodeEnc).toString('hex'), message.toString('hex'), 'reverse methods node decrypter node\'s message');
});
}
function testIt(keys, message, t) {
_testIt(keys, message, t);
_testIt(paddingObject(keys, 1), Buffer.concat([message, Buffer.from(' with RSA_PKCS1_PADDING')]), t);
var parsedKey = parseKeys(keys.public);
var k = parsedKey.modulus.byteLength();
var zBuf = Buffer.alloc(k);
var msg = Buffer.concat([zBuf, message, Buffer.from(' with no padding')]).slice(-k);
_testIt(paddingObject(keys, 3), msg, t);
}
function paddingObject(keys, padding) {
return {
public: addPadding(keys.public, padding),
private: addPadding(keys.private, padding)
};
}
function addPadding(key, padding) {
if (typeof key === 'string' || Buffer.isBuffer(key)) {
return {
key: key,
padding: padding
};
}
var out = {
key: key.key,
padding: padding
};
if ('passphrase' in key) {
out.passphrase = key.passphrase;
}
return out;
}
function testRun(i) {
test('run ' + i, function (t) {
testIt(rsa1024priv, Buffer.from('1024 2 private keys'), t);
testIt(rsa1024, Buffer.from('1024 keys'), t);
testIt(rsa2028, Buffer.from('2028 keys'), t);
testIt(nonrsa1024, Buffer.from('1024 keys non-rsa key'), t);
testIt(pass1024, Buffer.from('1024 keys and password'), t);
testIt(nonrsa1024str, Buffer.from('1024 keys non-rsa key as a string'), t);
testIt(pass2028, Buffer.from('2028 rsa key with variant passwords'), t);
});
}
var i = 0;
var num = 20;
while (++i <= num) {
testRun(i);
}