ReactNative使用DH秘钥交换,JS端使用了bignumber库,结果iPhone5s移动端计算时间达到了7秒,使用了react-native-crypto库替代了node.js下的crypto(不支持RN)库后,移动端平均时间减少到了500ms,PC端减少 到了几十毫秒
test1() {
console.log("----------------test1")
// https://nodejs.org/api/crypto.html#crypto_class_diffiehellman
const dh1 = crypto.getDiffieHellman('modp14')
const dh2 = crypto.getDiffieHellman('modp14')
if (dh1.getPrime().toString('hex') == dh2.getPrime().toString('hex')) {
console.log("equal primes") // 打印
}
if (dh1.getGenerator().toString('hex') == dh2.getGenerator().toString('hex')) {
console.log("equal getGenerator") // 打印
}
dh1.generateKeys()
dh2.generateKeys()
const dh1_secret = dh1.computeSecret(dh2.getPublicKey())
const dh2_secret = dh2.computeSecret(dh1.getPublicKey())
if (dh1_secret == dh2_secret) {
console.log("is equal")
} else {
console.log("is not equal") // 打印
}
if (dh1_secret.toString('hex') == dh2_secret.toString('hex')) {
console.log("secret tostring is equal") // 打印
} else {
console.log("secret tostring is not equal")
}
}
test2() {
console.log("----------------test2")
// https://nodejs.org/api/crypto.html#crypto_class_diffiehellman
var server = crypto.createDiffieHellman(32, '3');
var prime = server.getPrime();
console.log("prime:"+prime.toString('hex'))
const dh1 = crypto.createDiffieHellman(prime)
const dh2 = crypto.createDiffieHellman(prime)
if (dh1.getPrime().toString('hex') == dh2.getPrime().toString('hex')) {
console.log("equal primes") // 打印
}
if (dh1.getGenerator().toString('hex') == dh2.getGenerator().toString('hex')) {
console.log("equal getGenerator") // 打印
}
dh1.generateKeys()
dh2.generateKeys()
const dh1_secret = dh1.computeSecret(dh2.getPublicKey())
const dh2_secret = dh2.computeSecret(dh1.getPublicKey())
if (dh1_secret == dh2_secret) {
console.log("is equal")
} else {
console.log("is not equal") // 打印
}
if (dh1_secret.toString('hex') == dh2_secret.toString('hex')) {
console.log("secret tostring is equal") // 打印
} else {
console.log("secret tostring is not equal")
}
}
test3() {
// console.log("----------------test3")
// https://nodejs.org/api/crypto.html#crypto_class_diffiehellman
// var prime = server.getPrime('hex');
// console.log("prime:"+prime.toString('hex'))
const dh1 = crypto.createDiffieHellman('eab2115f', 'hex')
const dh2 = crypto.createDiffieHellman('eab2115f', 'hex')
// if (dh1.getPrime().toString('hex') == dh2.getPrime().toString('hex')) {
// console.log("equal primes") // 打印
// }
//
// if (dh1.getGenerator().toString('hex') == dh2.getGenerator().toString('hex')) {
// console.log("equal getGenerator") // 打印
// }
dh1.generateKeys()
dh2.generateKeys()
const dh1_secret = dh1.computeSecret(dh2.getPublicKey())
const dh2_secret = dh2.computeSecret(dh1.getPublicKey())
// if (dh1_secret == dh2_secret) {
// console.log("is equal")
// } else {
// console.log("is not equal") // 打印
// }
//
// if (dh1_secret.toString('hex') == dh2_secret.toString('hex')) {
// console.log("secret tostring is equal") // 打印
// } else {
// console.log("secret tostring is not equal")
// }
}
test4() {
let st = new Date()
for (let i = 0; i < 10; ++i) {
this.test2()
}
let et = new Date()
this.setState({
time: (et - st)/10
})
}
测试例子2:
var assert = require("assert");
var crypto = require("crypto");
// the prime is shared by everyone
var server = crypto.createDiffieHellman(512);
var prime = server.getPrime();
// sharing secret key on a pair
var alice = crypto.createDiffieHellman(prime);
alice.generateKeys();
var alicePub = alice.getPublicKey();
var bob = crypto.createDiffieHellman(prime);
bob.generateKeys();
var bobPub = bob.getPublicKey();
var bobAliceSecret = bob.computeSecret(alicePub);
var aliceBobSecret = alice.computeSecret(bobPub);
// public keys are different, but secret is common.
assert.notEqual(bobPub, alicePub);
assert.equal(bobAliceSecret, aliceBobSecret);
// use common secret as shared encryption key...
// shared secret with 3rd person
var carol = crypto.createDiffieHellman(prime);
carol.generateKeys();
var carolPub = carol.getPublicKey();
var carolAliceSecret = carol.computeSecret(alicePub);
var aliceCarolSecret = alice.computeSecret(carolPub);
assert.notEqual(carolPub, alicePub);
assert.equal(carolAliceSecret, aliceCarolSecret);
// secret depends on pairs
assert.notEqual(aliceBobSecret, aliceCarolSecret);
var carolBobSecret = carol.computeSecret(bobPub);
assert.notEqual(carolAliceSecret, carolBobSecret);
实际使用RN下的node_modules/diffie-hellman文档和node.js下的dh文档参数有出入,填了不少坑:
// 创建 3为底数、7fffffc3为mod的dh
const dh = crypto.createDiffieHellman('7fffffc3', 'hex', new Buffer([3]))
// 计算秘钥
let svr_pub_key = 123456789 // number int64
const serect = dh.computeSecret(svr_pub_key.toString())
node.js下的DH参考链接:
https://nodejs.org/api/crypto.html#crypto_diffiehellman_getprime_encoding
