"Over the past few months, there have been so many smash-and-grab server attacks, versus identity attacks on the front end, and this is really targeting the smash-and-grab attacks," said Rachael Stocktton, senior manager of data protection product marketing for RSA, speaking by phone. She said the product will be available for purchase by the end of 2012.
Distributed Credential Protection involves a software agent that gets installed on a virtual appliance running on a server. Two different servers are required, and the software scrambles, randomizes, and then splits stored passwords between the two different servers. Both servers can be running in an onsite data center, in a separate data center, in the cloud, or in some combination thereof. According to Stocktton, "it's a customer's choice about ... how they want to deploy it," and from a responsiveness standpoint, "it's about the same level of performance that you get from an SSL connection."
But businesses that purchase the RSA product won't get to select which hashing algorithm they'd like to use. "We have not designed the product with a selection of algorithms," said Damon Hopley, senior manager of data protection product management, speaking by phone. "We do a fair amount of cryptography work--as you know--at RSA, and we think we've picked a fairly good approach."
[ NIST has been looking for the next-generation cryptographic standard. Learn more: SHA-3 Secure Hash Algorithm: New Face Of Crypto. ]
Arguably, taking these password-security configuration choices out of the hands of users is essential for helping businesses keep their stored passwords secure. According to Enterprise Management Associates managing research director Scott Crawford, the trouble with password security is that too often, IT or information security departments fail to implement encryption correctly or to make it strong enough. "Recent, high-profile breaches have highlighted the inadequacies of some implementations of credential protection techniques such as hashing and salting," he said in a statement.
How does RSA's new password security tool secure passwords? Hopley said the tool employs "XoR blind compares, strong random number generators, and elliptic curve Diffie-Hellman to arrive at answers." Using blind compares means that the software never reconstructs a stored password--or "secret," because that would create a potential security point of failure that an attacker could target. Instead, it verifies the passwords while leaving them encrypted.
"By doing XoR, you end up with two differing random numbers that set up a mathematical equation where, as long as the secret you used to register is what you attempt to log in with, both servers will end up with answers that are identical," Hopley said. "So we're never reconstructing the secret. We just arrive at an answer."
From a defense standpoint, regularly changing seeds--random numbers--are used to scramble the stored data, and the seeds change in sync between the two servers. As a result, any attacker who wants to steal passwords from a password database that's running Distributed Credential Protection would have to steal the data from both password servers at the exact same moment.
Hopley emphasized, however, that businesses must look to more than just the password-database security tool when planning a password security program. "It's one of a number of layers that people will need to put in place," he said. "Defense in depth is an ongoing necessity in security."
But at the same time, he said, CIOs now acknowledge that server compromises are a "when, not if" proposition. "A few years ago, you could walk into a customer and say 'server compromise is a fact of life,' and some would agree with you," he said. "But in the past few years, it's changed to the point where everyone will agree with you."
Accordingly, when attackers do make it to a password database, "how do you make it a recoverable event?" said Hopley. "And that's where this technology comes in."