On Mon, Mar 22, 2021 at 07:11:18PM +0200, Amir Goldstein wrote: > Some filesystems on persistent storage backend use a digest of the > filesystem's persistent uuid as the value for f_fsid returned by > statfs(2). > > xfs, as many other filesystem provide the non-persistent block device > number as the value of f_fsid. > > Since kernel v5.1, fanotify_init(2) supports the flag FAN_REPORT_FID > for identifying objects using file_handle and f_fsid in events. The filesystem id is encoded into the VFS filehandle - it does not need some special external identifier to identify the filesystem it belongs to.... > The xfs specific ioctl XFS_IOC_PATH_TO_FSHANDLE similarly attaches an > fsid to exported file handles, but it is not the same fsid exported > via statfs(2) - it is a persistent fsid based on the filesystem's uuid. To actually use that {fshandle,fhandle} tuple for anything requires CAP_SYS_ADMIN. A user can read the fshandle, but it can't use it for anything useful. i.e. it's use is entirely isolated to the file handle interface for identifying the filesystem the handle belongs to. This is messy, but XFS inherited this "fixed fsid" interface from Irix filehandles and was needed to port xfsdump/xfsrestore to Linux. Realistically, it is not functionality that should be duplicated/exposed more widely on Linux... IMO, if fanotify needs a persistent filesystem ID on Linux, it should be using something common across all filesystems from the linux superblock, not deep dark internal filesystem magic. The export interfaces that generate VFS (and NFS) filehandles already have a persistent fsid associated with them, which may in fact be the filesystem UUID in it's entirety. The export-derived "filesystem ID" is what should be exported to userspace in combination with the file handle to identify the fs the handle belongs to because then you have consistent behaviour and a change that invalidates the filehandle will also invalidate the fshandle.... > Use the same persistent value for f_fsid, so object identifiers in > fanotify events will describe the objects more uniquely. It's not persistent as in "will never change". The moment a user changes the XFS filesystem uuid, the f_fsid changes. However, changing the uuid on XFS is an offline (unmounted) operation, so there will be no fanotify marks present when it is changed. Hence when it is remounted, there will be a new f_fsid returned in statvfs(), just like what happens now, and all applications dependent on "persistent" fsids (and persistent filehandles for that matter) will now get ESTALE errors... And, worse, mp->m_fixed_fsid (and XFS superblock UUIDs in general) are not unique if you've got snapshots and they've been mounted via "-o nouuid" to avoid XFS's duplicate uuid checking. This is one of the reasons that the duplicate checking exists - so that fshandles are unique and resolve to a single filesystem.... > Signed-off-by: Amir Goldstein <amir73il@xxxxxxxxx> > --- > > Guys, > > This change would be useful for fanotify users. > Do you see any problems with that minor change of uapi? Yes. IMO, we shouldn't be making a syscall interface rely on the undefined, filesystem specific behaviour a value some other syscall exposes to userspace. This means the fsid has no defined or standardised behaviour applications can rely on and can't be guaranteed unique and unchanging by fanotify. This seems like a lose-lose situation for everyone... Cheers, Dave. -- Dave Chinner david@xxxxxxxxxxxxx