Something strange is going on with BigInteger. I'm trying to implement my own RSA for an assignment. The code is as follows, and work great with small numbers. If I choose p=11, q=5, e=7 and d=23 then the output on the terminal is

```
Original message is: 19
Encryption of message is: 24
Decryption of message is: 19
```

If I change the numbers with bigger ones, though, it does not work anymore. The following code:

```
import java.math.BigInteger;
class RSAdumb{
public static void main(String[] args) {
BigInteger m = new BigInteger("19");
BigInteger p = new BigInteger("99989");
BigInteger q = new BigInteger("99991");
BigInteger n = p.multiply(q);
BigInteger e = new BigInteger("65537");
BigInteger d = new BigInteger("4232182107");
BigInteger c = m.modPow(e,n); //Returns a BigInteger whose value is (this^e mod n)
BigInteger check = c.modPow(d,n);
System.out.println("Original message is: "+m.toString());
System.out.println("Encryption of message is: "+c.toString());
System.out.println("Decryption of message is: "+check.toString());
}
}
```

Outputs this:

```
Original message is: 19
Encryption of message is: 5609974360
Decryption of message is: 2710593036
```

I already checked, twice, that the numbers are good for RSA. Precisely

```
e*d = 4232182107 * 65537 = 1 mod 9998000099
```

where

```
9998000099 = 99989 * 99991 (both primes)
```

Now, from my understanding BigInteger should be unlimited so it should not be a boundary issue... than what could be? I can always implement this with small numbers for my assignment but it's quite ridiculous...