coolaj86
/
rsa-compat.js
1
0
Fork 0
Code Issues 1 Pull Requests Releases Activity
JavaScript RSA utils that work on Windows, Mac, and Linux with or without C compiler
14 Commits 1 Branch 37 Tags 156 KiB
JavaScript 99.6%
Shell 0.4%
Go to file
AJ ONeal 09c15b9d1a generateSignatureJwk works with both ursa and forge :) 2016-08-01 04:12:01 -04:00
lib implementing sig & bugfixes 2016-08-01 04:03:50 -04:00
tests generateSignatureJwk works with both ursa and forge :) 2016-08-01 04:12:01 -04:00
.gitignore Initial commit 2016-07-30 11:20:44 -04:00
LICENSE Initial commit 2016-07-30 11:20:44 -04:00
README.md Update README.md 2016-07-31 01:23:10 -04:00
node.js generateSignatureJwk works with both ursa and forge :) 2016-08-01 04:12:01 -04:00
package.json bump 2016-07-31 00:49:01 -04:00

README.md

rsa-compat.js

JavaScript RSA utils that work on Windows, Mac, and Linux with or without C compiler

In order to provide a module that "just works" everywhere, we mix and match methods from node.js core, ursa, forge, and others.

(in the future we'd like to provide the same API to the browser)

Examples

Generate an RSA Keypair:

var RSA = require('rsa-compat').RSA;

var bitlen = 1024;
var exp = 65537;
var options = { public: true, pem: true, internal: true };

RSA.generateKeypair(bitlen, exp, options, function (err, keypair) {
  console.log(keypair);
});

Here's what the object might look like:

console.log(keypair):


{ publicKeyPem: '-----BEGIN RSA PUBLIC KEY-----\n/*base64 pem-encoded string*/'
, privateKeyPem: '-----BEGIN RSA PRIVATE KEY-----\n/*base64 pem-encoded string*/'
, privateKeyJwk: {
    kty: "RSA"
  , n: '/*base64 modulus n = pq*/'
  , e: '/*base64 exponent (usually 65537)*/'
  , d: '/*base64 private exponent (d = e^1 (mod ϕ(n))/'
  , p: '/*base64 first prime*/'
  , q: '/*base64 second prime*/'
  , dp: '/*base64 first exponent for Chinese remainder theorem (dP = d (mod p1))*/'
  , dq: '/*base64 Second exponent, used for CRT (dQ = d (mod q1))/'
  , qi: '/*base64 Coefficient, used for CRT (qinv = q^1 (mod p))*/'
  }
, publicKeyJwk: {
    kty: "RSA"
  , n: '/*base64 modulus n = pq*/'
  , e: '/*base64 exponent (usually 65537)*/'
  }

, _ursa: '/*undefined or intermediate ursa object*/'
, _ursaPublic: '/*undefined or intermediate ursa object*/'
, _forge: '/*undefined or intermediate forge object*/'
, _forgePublic: '/*undefined or intermediate forge object*/'
}

NOTE: this object is JSON safe as _ursa and _forge will be ignored

See http://crypto.stackexchange.com/questions/6593/what-data-is-saved-in-rsa-private-key to learn a little more about the meaning of the specific fields in the JWK.

API

  • RSA.generateKeypair(bitlen, exp, options, cb)
  • RSA.exportPrivatePem(keypair)
  • RSA.exportPublicPem(keypair)
  • RSA.exportPrivateJwk(keypair)
  • RSA.exportPublicJwk(keypair)

keypair can be any object with any of these keys publicKeyPem, privateKeyPem, publicKeyJwk, privateKeyJwk

RSA.generateKeypair(bitlen, exp, options, cb)

Create a private keypair and export it as PEM, JWK, and/or internal formats

RSA.generateKeypair(null, null, null, function (keypair) { /*...*/ });

RSA.generateKeypair(1024, 65537, { pem: false, public: false, internal: false }, function (keypair) { /*...*/ });

bitlen: 1024 (default), 2048, or 4096

exp: 65537 (default)

options:

{ public: false       // export public keys
, pem: false          // export pems
, jwk: true           // export jwks
, internal: false     // preserve internal intermediate formats (_ursa, _forge)
, thumbprint: false   // JWK sha256 thumbprint
, fingerprint: false  // NOT IMPLEMENTED (RSA key fingerprint)
}