Although this question is already answered, i would like to point out a subtle difference between BCrypt and your hashing-loop. I will ignore the deprecated MD5 algorithm and the exponential cost factor, because you could easily improve this in your question.

You are calculating a hash-value and then you use the result to calculate the next hash-value. If you look at the implementation of BCrypt, you can see, that each iteration uses the resulting hash-value, as well as the original password (key).

```
Eksblowfish(cost, salt, key)
state = InitState()
state = ExpandKey(state, salt, key)
repeat (2^cost)
state = ExpandKey(state, 0, key)
state = ExpandKey(state, 0, salt)
return state
```

This is the reason, you cannot take a Bcrypt-hashed password and continue with iterating, because you would have to know the original password then. I cannot prove it, but i suppose this makes Bcrypt safer than a simple hashing-loop.

`2^i`

so it's an exponential growth, but, very good question... on a related note it'd be interesting to compare bcrypt to an HMAC hash in terms of "additional hardening". – user166390 Aug 16 '11 at 1:07