Posts Tagged ‘disk encryption’

Disk encryption is widely used desktop and laptop computers. Many non-ZFS Linux distributions rely on LUKS for data protection. LUKS is a classic implementation of disk encryption offering the choice of encryption algorithms, encryption modes and hash functions. LUKS2 further improves the already tough disk encryption. Learn how to deal with LUKS2 encryption in Windows and how to break in with distributed password attacks.

Encrypting a Windows system drive with BitLocker provides effective protection against unauthorized access, especially when paired with TPM. A hardware upgrade, firmware update or even a change in the computer’s UEFI BIOS may effectively lock you out, making your data inaccessible and the Windows system unbootable. How to prevent being locked out and how to restore access to the data if you are prompted to unlock the drive? Read along to find out.

BestCrypt, developed by the Finnish company Jetico, is a cross-platform commercial disk encryption tool directly competing with BitLocker, FileVault 2 and VeraCrypt. Volume encryption is available for Windows and macOS. Learn how to break BestCrypt full-disk encryption by recovering the original password!

Many Linux distributions including those used in off the shelf Network Attached Storage (NAS) devices have the ability to protect users’ data with one or more types of encryption. Full-disk and folder-based encryption options are commonly available, each with its own set of pros and contras. The new native ZFS encryption made available in OpenZFS 2.0 is designed to combine the benefits of full-disk and folder-based encryption without the associated drawbacks. In this article, we’ll compare the strengths and weaknesses of LUKS, eCryptFS and ZFS encryption.

When analyzing connected computers, one may be tempted to pull the plug and bring the PC to the lab for in-depth research. This strategy carries risks that may overweigh the benefits. In this article we’ll discuss what exactly you may be losing when pulling the plug.