If someone has access to your database/data, then they would still
have to figure out your hashing
algorithm and your data would still be
somewhat secure, depending on your
algorithm? All they would have is the
hash and the salt.
This might be all a really dedicated opponent would need. Much of this answer depends on how valuable the data is, which would tell you how motivated the opponent is. Credit card numbers are going to be extremely valuable, and criminal attackers seem to have plenty of time and accomplices to do their dirty work. Some bad guys have been known to farm out key decryption tasks to botnets!
If someone has access to your database/data and your source code,
then it seems like no matter what your
do, your hashing algorithm can be
reversed engineered, the only thing
you would have on your side would be
how complex and time consuming your
If they have access to your source and all the data, the question is going to be "how did you load your key into the memory of the server in the first place?" If it's embedded in the data or in the program code, it's game over and you've lost. If it was hand-keyed by an operator at the machine's boot time, it should be as secure as your trust in your operator. If it is stored in an HSM*, it should still be secure.
And if they have root-level authority access to your running machine, then they can probably trigger and recover a memory dump that will reveal the secret key.
It seems like the weakest link is: how
secure your own systems are and who
has access to it?
This is true. But there are alternatives that help improve security.
For bank-like protection, the kind that passes security and industry audits, it's recommended that you use a *Hardware Security Module (HSM) to perform key storage and encryption/decryption functions. The commercial strength HSMs we're looking at cost 10s of thousands of dollars or more each, depending on capacity. But I have seen hardware encryption cards that plug into a PCI slot that cost substantially less.
The idea behind an HSM is that the encryption happens on a secure, hardened platform that nobody has access to without the secret keys. Most of them have cabinets with intrusion detection switches, trip wires, epoxied chips, and memory that will self-destruct if tampered with. Not even the legitimate owner or the factory should be able to recover the database key from an HSM without the set of authorized crypto keys (usually carried on smart cards.)
For a very small installation, an HSM can be as simple as a smart card. Smart cards aren't high performance encryption devices, though, so you can't pump more than about one decryption transaction per second through them. Systems using smart cards usually just store the root key, then decrypt the working database key on the smart card and send it back to the database accessing system. These will still yield the working database key if the attacker can access running memory, or if the attacker can sniff the USB traffic to and from the smart card.
And I have no experience getting TPM chips to work (yet), but theoretically they can be used to securely store keys on a machine. Again, it is still no defense against an attacker taking a memory dump while the key is loaded in memory, but they would prevent a stolen hard drive containing code and data from revealing its secrets.