**Update 06/11/2014**: Now, with forge version 0.6.6 you can use this:

```
var bits = 1024;
forge.prime.generateProbablePrime(bits, function(err, num) {
console.log('random prime', num.toString(16));
});
```

Finding large primes in JavaScript is difficult -- it's slow and you don't want to block the main thread. It requires some fairly customized code to do right and the code in forge is specialized for RSA key generation. There's no API call to simply produce a large random prime.

There are some extra operations that the RSA code in forge runs that you don't need if you're just looking for a single prime number. That being said, the slowest part of the process is in actually finding the primes, not in those extra operations. However, the RSA code also generates two primes (when you only need one) and they aren't the same bitsize you're looking for. So if you're using the forge API you'd have to pass a bitsize of 8196 (I believe ... that's off the top of my head, so it may be inaccurate) to get a 4096-bit prime.

One way to find a large random prime is as follows:

- Generate a random number that has the desired number of bits (ensure the MSB is set).
- Align the number on a 30k+1 boundary as all primes have this property.
- Run a primality test (the slow part) on your number; if it passes, you're done, if not, add to the number to get to the next 30k+1 boundary and repeat. A "quick" primality test is to check against low primes and then use Miller-Rabin (see the Handbook of Applied Cryptography 4.24).

Step #3 can run for a long time -- and that's usually pretty undesirable with JavaScript (w/node or in the browser). To mitigate this, you can attempt to limit the amount time spent doing primality tests to some acceptable period of time (N milliseconds) or you can use Web Workers to background the process. Of course, both of these approaches complicate the code.

Here's some code for generating a 4096-bit random prime that shouldn't block the main thread:

```
var forge = require('node-forge');
var BigInteger = forge.jsbn.BigInteger;
// primes are 30k+i for i = 1, 7, 11, 13, 17, 19, 23, 29
var GCD_30_DELTA = [6, 4, 2, 4, 2, 4, 6, 2];
var THIRTY = new BigInteger(null);
THIRTY.fromInt(30);
// generate random BigInteger
var num = generateRandom(4096);
// find prime nearest to random number
findPrime(num, function(num) {
console.log('random', num.toString(16));
});
function generateRandom(bits) {
var rng = {
// x is an array to fill with bytes
nextBytes: function(x) {
var b = forge.random.getBytes(x.length);
for(var i = 0; i < x.length; ++i) {
x[i] = b.charCodeAt(i);
}
}
};
var num = new BigInteger(bits, rng);
// force MSB set
var bits1 = bits - 1;
if(!num.testBit(bits1)) {
var op_or = function(x,y) {return x|y;};
num.bitwiseTo(BigInteger.ONE.shiftLeft(bits1), op_or, num);
}
// align number on 30k+1 boundary
num.dAddOffset(31 - num.mod(THIRTY).byteValue(), 0);
return num;
}
function findPrime(num, callback) {
/* Note: All primes are of the form 30k+i for i < 30 and gcd(30, i)=1. The
number we are given is always aligned at 30k + 1. Each time the number is
determined not to be prime we add to get to the next 'i', eg: if the number
was at 30k + 1 we add 6. */
var deltaIdx = 0;
// find prime nearest to 'num' for 100ms
var start = Date.now();
while(Date.now() - start < 100) {
// do primality test (only 2 iterations assumes at
// least 1251 bits for num)
if(num.isProbablePrime(2)) {
return callback(num);
}
// get next potential prime
num.dAddOffset(GCD_30_DELTA[deltaIdx++ % 8], 0);
}
// keep trying (setImmediate would be better here)
setTimeout(function() {
findPrime(num, callback);
});
}
```

Various tweaks can be made to adjust it for your needs, like setting the amount of time (which is just an estimate) to run the primality tester before bailing to try again on the next scheduled tick. You'd probably want some kind of UI feedback each time it bails. If you're using node or a browser that supports `setImmediate`

you can use that instead of `setTimeout`

as well to avoid clamping to speed things up. But, note that it's going to take a while to generate a 4096-bit random prime in JavaScript (at least at the time of this writing).

Forge also has a Web Worker implementation for generating RSA keys that is intended to speed up the process by letting multiple threads run the primality test using different inputs. You can look at the forge source (`prime.worker.js`

for instance) to see that in action, but it's a project in itself to get working properly. IMO, though, it's the best way to speed things up.

Anyway, hopefully the above code will help you. I'd run it with a smaller bitsize to test it.