Brute force is the worst attack, nothing can be brute force proof...

right now ~80-90 bits is considered cryptographically safe from a brute force attack standpoint, so you only need 10 bytes if a Collision Resistant Hash function is perfect, but they aren't so you just do more bits...

the proof that nothing can be brute force proof is in the *Pigeon Hole Principle*.

since hash function `H`

allows arbitrary sized input `[0,1]^n`

and outputs constant output `[0,1]^k`

when the size of input exceeds the output size:, `n>k`

, there are necessarily some outputs that can be produced by more than one input.

you can visualize that with a square divided into 9 sub squares.

```
0 | 0 | 0
0 | 0 | 0
0 | 0 | 0
```

these are your 9 holes. We are a brute force attacker, we have unlimited chances to attack... we have unlimited pigeons... but we at most need 10 to find a collision...

after 4 pidgeons and a good collision resistant hashing algorithm:

```
P | 0 | 0
0 | P | P
0 | 0 | P
```

after 9 pidgeons:

```
P | P | P
P | P | P
P | P | P
```

so our 10th pigeon will necessarily be a collision, because all of the holes are full.

but it really isn't even that good, because of another numerical property called the *Birthday Paradox* where given a number of independent selections you will find a duplicate much much faster than it takes to fill all of your "holes".

"the only ol' good brute-force is efficient to break"is the lesson you took away from that thread then you weren't paying attention. OxA3 pointed you at a paper describing a pre-image attack on MD5 an order of magnitude faster than brute force. – dmckee May 6 '10 at 1:59