If it's an old implementation of `crypt(3)`

, using DES, then you can almost (but not quite) brute-force it.

In that scheme, the input is truncated to 8 characters, and each character to 7 bits, which means there's a 56 bit space of distinct passwords to search.

For DES alone, you can search the whole space in about 18 days on $10K worth of FPGAs (http://en.wikipedia.org/wiki/Data_Encryption_Standard#Brute_force_attack), so the expected time is 9 days. But I'm assuming you don't have $10K to spend on the problem. Give it a few more years, and who knows whether DES crackers will run in plausible time on a PC's GPU.

Even then, `crypt(3)`

traditionally involves 25 rounds of DES, with slight modifications to the algorithm based on the salt, so you'd expect it to be at least 25 times slower to brute-force.

Newer implementations of `crypt(3)`

are way beyond brute force, since they're based on better hash algorithms than the DES-based one that old `crypt(3)`

used.

Of course if the string isn't random (e.g. if it's a password chosen by some human), then you may be able to get a much better expected time than brute force.