Hi Michael, On Thu, Jul 13, 2017 at 03:29:44PM -0700, Michael Halcrow wrote: > On Wed, Jul 12, 2017 at 02:00:30PM -0700, Eric Biggers wrote: > > From: Eric Biggers <ebiggers@xxxxxxxxxx> > > > > Currently, the fscrypt_context (i.e. the encryption xattr) does not > > contain a cryptographically secure identifier for the master key's > > payload. Therefore it's not possible to verify that the correct key was > > supplied, which is problematic in multi-user scenarios. To make this > > possible, define a new fscrypt_context version (v2) which includes a > > key_hash field, and allow userspace to opt-in to it when setting an > > encryption policy by setting fscrypt_policy.version to 2. For now just > > zero the new field; a later patch will start setting it for real. > > The main concern that comes to mind is potentially blowing past the > inline xattr size limit and allocating a new inode block. The > security benefit probably outweighs that concern in this case. > The way it adds up now for ext4 is: 128 bytes for base inode + 32 bytes for i_extra fields + 4 bytes for in-inode xattrs header + 20 bytes for encryption xattr header + name + 28 bytes for encryption xattr value ---------------------------------- = 212 bytes total. By adding the 16-byte 'key_hash' field it grows to 228 bytes total. So it still fits in a 256-byte inode, though it's getting closer to the limit. We could save 8 bytes by instead using the design where master_key_descriptor is extended to 16 bytes and redefined as a cryptographically secure hash. But as noted, that has some significant disadvantages. Also note that we don't really have to worry about leaving space for a SELinux xattr anymore because with 256-byte inodes + encryption the SELinux xattr is already being written to an external block, given that it requires about 52-62 bytes (at least when using Android's SELinux policy; different SELinux policies may use different values), and 212 + 52 > 256. So if someone wants both xattrs in-inode they need to use 512-byte inodes already. Eric
