Careers & Certifications

01:04 PM
Connect Directly
RSS
E-Mail
50%
50%
Repost This

Full Disk Encryption Evolves

Full disk encryption, or FDE, is the preferred mechanism to address this threat because, as the name implies, the technology lets IT encrypt the entire hard drive so that sensitive data is protected, no matter where it resides. But unfortunately, FDE adoption comes at a price: complex and costly deployments, additional licensing fees, and one more application for IT to support.

Enter Opal

In January 2009, the Trusted Computing Group released the final specification of the Opal Security Subsystem Class, a standard for applying hardware-based encryption. Moving hard-drive encryption into hardware has a number of advantages. For starters, it works with any OS. It also moves the computational overhead of the encryption process to dedicated processors, alleviating any computing load on the system's CPU. In addition, the encryption/decryption keys are stored in the hard-drive controller and never sit in the system's memory, making "cold boot" attacks ineffective.

fde-table.pngHardware-based FDE also simplifies the key escrow dilemma--that is, the need to manage encryption keys. Simply put, the keys used by the hard drive can be unlocked only by a passphrase entered during the pre-boot sequence. The passphrase is sent to the hard drive controller before the OS boots, so the keys never leave the hard drive's hardware. Also, multiple passphrases can be configured to unlock those keys.

Note that software-based FDE products do allow you to choose the encryption algorithm and variable key strengths, while most Opal drives are limited to AES-128. We see this as being an issue only for organizations that require specific algorithms or larger key sizes.

Consider yourself warned: Without an integrated management infrastructure, enterprise deployment and support of Opal-compliant hard drives will be a nightmare. There are a few key features that are essential. For starters, organizations must manage boot passwords and password resets. If an employee leaves, becomes unavailable, or just forgets the password, IT needs a way to access the data on the drive. Conversely, if an IT administrator leaves, the organization must be able to change admin accounts. View Full Bio

Previous
2 of 3
Next
Comment  | 
Print  | 
More Insights
Hot Topics
1
SDN Strategies Part 4: Big Switch, Avaya, IBM,VMware
Kurt Marko, Contributing Editor,  4/18/2014
1
Infrastructure Challenge: Build Your Community
Susan Fogarty, Editor in Chief,  4/23/2014
White Papers
Register for Network Computing Newsletters
Cartoon
Current Issue
Video
Slideshows
Twitter Feed