59

I have to generate two keys (private and public) to encrypt a text with the public and let the user with the private key decrypt the text.

Is it possible with the module Crypto?

2
  • I'm not sure how you're going to give the users their private keys securely. I would be better if they generated their key-pairs locally and gave you their public keys. – Bruno Dec 15 '11 at 13:42
  • 2
    @Bruno yes, no problem about it... my goal is to understand how to create a pair of keys(private,public) with Node.js, is this possible? – Dail Dec 15 '11 at 14:06
58

nodejs v10.12 now supports this natively with crypto.generateKeyPair

const { generateKeyPair } = require('crypto');
generateKeyPair('rsa', {
  modulusLength: 4096,
  publicKeyEncoding: {
    type: 'spki',
    format: 'pem'
  },
  privateKeyEncoding: {
    type: 'pkcs8',
    format: 'pem',
    cipher: 'aes-256-cbc',
    passphrase: 'top secret'
  }
}, (err, publicKey, privateKey) => {
  // Handle errors and use the generated key pair.
});
10
  • 1
    This produces PEM-encoded RSA Public key. What if I need OpenSSH (ssh-rsa) public key? Is there a native js way to do, without 3rd party modules? – Elias Goss Nov 19 '18 at 4:21
  • What do you mean? ssh-keygen? PEM is just a file format, they ( both functions) give you the same result. You will have both a public key and a private key which you can use. – Nelson Owalo Nov 19 '18 at 6:44
  • 1
    this code outputs to PKCS#8 format (-----BEGIN PUBLIC KEY-----) and I want ssh-rsa format, which can be used in .ssh/authorised_keys file - I know how to convert with ssh-gen or openssl, but I want to do it with JavaScript only – Elias Goss Nov 19 '18 at 6:58
  • 1
    No, I need OpenSSH format, which starts with ssh-rsa. And RSA PUBLIC KEY is a different format, it's PKCS#1 – Elias Goss Nov 19 '18 at 7:49
  • 1
    @DavidDeAnda you can do this with the lib node-forge. After generating the publicKey and privateKey as above you can do forge.ssh.publicKeyToOpenSSH(forge.pki.publicKeyFromPem(publicKey)) and forge.ssh.privateKeyToOpenSSH(forge.pki.privateKeyFromPem(privateKey)). Those functions do return the strings you need for OpenSSH. – maxarndt May 15 '20 at 12:30
23

Use the crypto module from npm to generate KeyPair.

var crypto = require('crypto');

var prime_length = 60;
var diffHell = crypto.createDiffieHellman(prime_length);

diffHell.generateKeys('base64');
console.log("Public Key : " ,diffHell.getPublicKey('base64'));
console.log("Private Key : " ,diffHell.getPrivateKey('base64'));

console.log("Public Key : " ,diffHell.getPublicKey('hex'));
console.log("Private Key : " ,diffHell.getPrivateKey('hex'));

Above is a example snippet. To know more checkout documentation http://nodejs.org/api/crypto.html

5
  • 1
    This answer didn't cover encrypting and decrypting. – fadedbee Feb 6 '14 at 22:05
  • 18
    The question didn't ask for encryption and decryption. It only asked for key pair generation. And encryption and decryption is very well explained in documentation. – Aks Feb 7 '14 at 6:44
  • 4
    I like this, but how to get a PEM formatted key pairs with crypto? – Daniele Cruciani Feb 7 '14 at 15:51
  • 3
    @Aks as someone fairly new to encryption, I didn't find it explained at all on nodejs.org/api/… - did I miss something? – fadedbee Feb 14 '14 at 9:17
  • 33
    This generates a DH keypair, very different to you normal RSA or DSA keypairs. You were warned. – jduncanator Apr 16 '14 at 4:21
16

The following code works, but I'm not a professional cryptographer, so some comments here would be useful.

I've used the ursa RSA module, instead of crypto.

I am concerned that if similar data were encrypted directly, without a pass of AES or similar, then it might be trivial to break this. Comments please...

var ursa = require('ursa');
var fs = require('fs');

// create a pair of keys (a private key contains both keys...)
var keys = ursa.generatePrivateKey();
console.log('keys:', keys);

// reconstitute the private key from a base64 encoding
var privPem = keys.toPrivatePem('base64');
console.log('privPem:', privPem);

var priv = ursa.createPrivateKey(privPem, '', 'base64');

// make a public key, to be used for encryption
var pubPem = keys.toPublicPem('base64');
console.log('pubPem:', pubPem);

var pub = ursa.createPublicKey(pubPem, 'base64');

// encrypt, with the public key, then decrypt with the private
var data = new Buffer('hello world');
console.log('data:', data);

var enc = pub.encrypt(data);
console.log('enc:', enc);

var unenc = priv.decrypt(enc);
console.log('unenc:', unenc);

After some further investigation http://en.wikipedia.org/w/index.php?title=RSA_%28cryptosystem%29&section=12#Attacks_against_plain_RSA it looks like ursa already does padding.

1
  • 5
    Chris: Your comment in the code says encrypt with private and decrypt with public, but the code does the opposite: encrypts with public and decrypts with private. When I do try encrypting with private, pub.decrypt(enc) tells me that the decrypt function on pub is undefined! Any thoughts. Thx – HarleyDave Jul 9 '15 at 13:28
10

If you know how to get what you want from OpenSSL, I think it's perfectly reasonable to run OpenSSL using Node's child_process.

var cp = require('child_process')
  , assert = require('assert')
  ;

var privateKey, publicKey;
publicKey = '';
cp.exec('openssl genrsa 2048', function(err, stdout, stderr) {
  assert.ok(!err);
  privateKey = stdout;
  console.log(privateKey);
  makepub = cp.spawn('openssl', ['rsa', '-pubout']);
  makepub.on('exit', function(code) {
    assert.equal(code, 0); 
    console.log(publicKey);
  });
  makepub.stdout.on('data', function(data) {
    publicKey += data;
  });
  makepub.stdout.setEncoding('ascii');
  makepub.stdin.write(privateKey);
  makepub.stdin.end();  
});
2
  • 13
    Very OS dependent in my opinion. – Guido Jan 31 '13 at 20:13
  • Most servers run on Linux, I guess I'll make this a temporary solution untill nodejs supports RSA key generation internally – Nelson Owalo Oct 2 '18 at 12:36
7
const crypto = require('crypto');

  const { privateKey, publicKey } = crypto.generateKeyPairSync('rsa', {
    modulusLength: 2048,
    publicKeyEncoding: {
      type: 'spki',
      format: 'pem'
    },
    privateKeyEncoding: {
      type: 'pkcs8',
      format: 'pem'
    }
  }); 
0
2

I dont know if this helps but I also was looking to do something along these lines. Here is what I came up with :

As mentioned in the answer by Nelson Owalo you can use the crypto library, as follows :

//import the methods
const { generateKeyPair, createSign, createVerify } = require("crypto");
//generate the key pair
generateKeyPair(
  "rsa",
  {
    modulusLength: 2048, // It holds a number. It is the key size in bits and is applicable for RSA, and DSA algorithm only.
    publicKeyEncoding: {
      type: "pkcs1", //Note the type is pkcs1 not spki
      format: "pem",
    },
    privateKeyEncoding: {
      type: "pkcs1", //Note again the type is set to pkcs1
      format: "pem",
      //cipher: "aes-256-cbc", //Optional
      //passphrase: "", //Optional
    },
  },
  (err, publicKey, privateKey) => {
    // Handle errors and use the generated key pair.
    if (err) console.log("Error!", err);
    console.log({
      publicKey,
      privateKey,
    });//Print the keys to the console or save them to a file.
    /*
    * At this point you will have to pem files, 
    * the public key which will start with 
    * '-----BEGIN RSA PUBLIC KEY-----\n' +
    * and the private key which will start with
    * '-----BEGIN RSA PRIVATE KEY-----\n' +
    */
    //Verify it works by signing some data and verifying it.
    //Create some sample data that we want to sign
    const verifiableData = "this need to be verified";

    // The signature method takes the data we want to sign, the
    // hashing algorithm, and the padding scheme, and generates
    // a signature in the form of bytes
    const signature = require("crypto").sign("sha256", Buffer.from(verifiableData), 
    {
      key: privateKey,
      padding: require("crypto").constants.RSA_PKCS1_PSS_PADDING,
    });
    //Convert the signature to base64 for storage.
    console.log(signature.toString("base64"));

    // To verify the data, we provide the same hashing algorithm and
    // padding scheme we provided to generate the signature, along
    // with the signature itself, the data that we want to
    // verify against the signature, and the public key
    const isVerified = require("crypto").verify(
      "sha256",
      Buffer.from(verifiableData),
      {
        key: publicKey,
        padding: require("crypto").constants.RSA_PKCS1_PSS_PADDING,
      },
      Buffer.from(signature.toString("base64"), "base64")
    );

    // isVerified should be `true` if the signature is valid
    console.log("signature verified: ", isVerified);
  }
);

I think the key points are which algorithm is used, as older versions of the pem use pkcs1 not pkcs8. The beginning of the key helps identify the version of the key and also includes information on wither it is encrypted or not. Hope this helps!

0

I have not used it, but this may be useful:

http://ox.no/posts/diffie-hellman-support-in-node-js

Documentation is severely lacking on this (no examples that I could find).

0
0

You can use this rsa-json module. It just spawns a openssl process, so it is pretty dependent on the OS (it does not work by default on windows).

0
0

child_process route is a terrible and non-scalable solution imo. Stay away.

I chose to go with keypair instead.

3
  • 5
    keypair is much slower than OpenSSL and is also synchronous whereas the OpenSSL route is asynchronous. The child_process route is more scalable. – Mark K Cowan May 29 '15 at 11:03
  • I second this. On my laptop, running openssl in shild process works ~80 times faster than keypair and infinitely faster than native crypto module. – ancajic May 2 '18 at 13:41
  • but the child_process has a dependency on native library. If the library is not there it can error out – rbansal Sep 25 '20 at 7:52

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