Encryption and Data Protection overview
The secure boot chain, system security, and app security capabilities all help to verify that only trusted code and apps run on a device. Apple devices have additional encryption features to safeguard user data, even when other parts of the security infrastructure have been compromised (for example, if a device is lost or is running untrusted code). All of these features benefit both users and IT administrators, protecting personal and corporate information and providing methods for instant and complete remote wipe in the case of device theft or loss.
iOS and iPadOS devices used a file encryption methodology called Data Protection, whereas the data on an Intel-based Mac is protected with a volume encryption technology called FileVault. A Mac with Apple silicon uses a hybrid model that supports Data Protection, with two caveats: The lowest protection level Class (D) isn’t supported, and the default level (Class C) uses a volume key and acts just like the FileVault on an Intel-based Mac. In all cases, key management hierarchies are rooted in the dedicated silicon of the Secure Enclave, and a dedicated AES Engine supports line-speed encryption and helps ensure that long-lived encryption keys aren’t exposed to the kernel operating system or CPU (where they might be compromised). (An Intel-based Mac with a T1 or lacking a Secure Enclave doesn’t use dedicated silicon to protect its FileVault encryption keys.)
Besides using Data Protection and FileVault to prevent unauthorized access to data, Apple operating system kernels enforce protection and security. The kernel uses access controls to sandbox apps (which restricts what data an app can access) and a mechanism called a Data Vault (which rather than restricting the calls an app can make, restricts access to the data of an app from all other requesting apps).