Here's a set of patches that adds a system call, fsinfo(), that allows information about the VFS, mount topology, superblock and files to be retrieved. The patchset is based on top of the notifications patchset and allows event counters implemented in the latter to be retrieved to allow overruns to be efficiently managed. Included are a couple of sample programs plus limited example code for NFS and Ext4. The example code is not intended to go upstream as-is. ======= THE WHY ======= Why do we want this? Using /proc/mounts (or similar) has problems: (1) Reading from it holds a global lock (namespace_sem) that prevents mounting and unmounting. Lots of data is encoded and mangled into text whilst the lock is held, including superblock option strings and mount point paths. This causes performance problems when there are a lot of mount objects in a system. (2) Even though namespace_sem is held during a read, reading the whole file isn't necessarily atomic with respect to mount-type operations. If a read isn't satisfied in one go, then it may return to userspace briefly and then continue reading some way into the file. But changes can occur in the interval that may then go unseen. (3) Determining what has changed means parsing and comparing consecutive outputs of /proc/mounts. (4) Querying a specific mount or superblock means searching through /proc/mounts and searching by path or mount ID - but we might have an fd we want to query. (5) Mount topology is not explicit. One must derive it manually by comparing entries. (6) Whilst you can poll() it for events, it only tells you that something changed in the namespace, not what or whether you can even see the change. To fix the notification issues, the preceding notifications patchset added mount watch notifications whereby you can watch for notifications in a specific mount subtree. The notification messages include the ID(s) of the affected mounts. To support notifications, however, we need to be able to handle overruns in the notification queue. I added a number of event counters to struct super_block and struct mount to allow you to pin down the changes, but there needs to be a way to retrieve them. Exposing them through /proc would require adding yet another /proc/mounts-type file. We could add per-mount directories full of attributes in sysfs, but that has issues also (see below). Adding an extensible system call interface for retrieving filesystem information also allows other things to be exposed: (1) Jeff Layton's error handling changes need a way to allow error event information to be retrieved. (2) Bits in masks returned by things like statx() and FS_IOC_GETFLAGS are actually 3-state { Set, Unset, Not supported }. It could be useful to provide a way to expose information like this[*]. (3) Limits of the numerical metadata values in a filesystem[*]. (4) Filesystem capability information[*]. Filesystems don't all have the same capabilities, and even different instances may have different capabilities, particularly with network filesystems where the set of may be server-dependent. Capabilities might even vary at file granularity - though possibly such information should be conveyed through statx() instead. (5) ID mapping/shifting tables in use for a superblock. (6) Filesystem-specific information. I need something for AFS so that I can do pioctl()-emulation, thereby allowing me to implement certain of the AFS command line utilities that query state of a particular file. This could also have application for other filesystems, such as NFS, CIFS and ext4. [*] In a lot of cases these are probably fixed and can be memcpy'd from static data. There's a further consideration: I want to make it possible to have fsconfig(fd, FSCONFIG_CMD_CREATE) be intercepted by a container manager such that the manager can supervise a mount attempted inside the container. The manager would be given an fd pointing to the fs_context struct and would then need some way to query it (fsinfo()) and modify it (fsconfig()). This could also be used to arbitrate user-requested mounts when containers are not in play. ============================ WHY NOT USE PROCFS OR SYSFS? ============================ Why is it better to go with a new system call rather than adding more magic stuff to /proc or /sysfs for each superblock object and each mount object? (1) It can be targetted. It makes it easy to query directly by path. procfs and sysfs cannot do this easily. (2) It's more efficient as we can return specific binary data rather than making huge text dumps. Granted, sysfs and procfs could present the same data, though as lots of little files which have to be individually opened, read, closed and parsed. (3) We wouldn't have the overhead of open and close (even adding a self-contained readfile() syscall has to do that internally) and the RCU destruction of the file struct(s). (4) Opening a file in procfs or sysfs has a pathwalk overhead for each file accessed. We can use an integer attribute ID instead (yes, this is similar to ioctl) - but could also use a string ID if that is preferred. (5) Can easily query cross-namespace if, say, a container manager process is given an fs_context that hasn't yet been mounted into a namespace - or hasn't even been fully created yet. (6) Don't have to create/delete a bunch of sysfs/procfs nodes each time a mount happens or is removed - and since systemd makes much use of mount namespaces and mount propagation, this will create a lot of nodes. The argument for doing this through procfs/sysfs/somemagicfs is that someone using a shell can just query the magic files using ordinary text tools, such as cat - and that has merit - but it doesn't solve the query-by-pathname problem. The suggested way around the query-by-pathname problem is to open the target file O_PATH and then look in a magic directory under procfs corresponding to the fd number to see a set of attribute files[*] laid out. Bash, however, can't open by O_PATH or O_NOFOLLOW as things stand... [*] Or possibly symlinks to files under a per-mount or per-sb directory in sysfs. ================ DESIGN DECISIONS ================ (1) Information is partitioned into sets of attributes. (2) Attribute IDs are integers as they're fast to compare. (3) Attribute values are typed (struct, list of structs, string, opaque blob). They type is fixed for a particular attribute. (4) For structure types, the length is also a version. New fields can be tacked onto the end. (5) When copying a versioned struct to userspace, the core handles a version mismatch by truncating or zero-padding the data as necessary. None of this is seen by the filesystem. (6) The core handles all the buffering and buffer resizing. (7) The filesystem never gets any access to the userspace parameter buffer or result buffer. (8) "Meta" attributes can describe other attributes. ======== OVERVIEW ======== fsinfo() is a system call that allows information about the filesystem at a particular path point to be queried as a set of attributes. Attribute values are of four basic types: (1) Structure with version-dependent length (the length is the version). (2) Variable-length string. (3) List of structures (all the same length). (4) Opaque blob. Attributes can have multiple values either as a sequence of values or a sequence-of-sequences of values and all the values of a particular attribute must be of the same type. Values can be up to INT_MAX size, subject to memory availability. Note that the values of an attribute *are* allowed to vary between dentries within a single superblock, depending on the specific dentry that you're looking at, but the values still have to be of the type for that attribute. I've tried to make the interface as light as possible, so integer attribute ID rather than string and the core does all the buffer allocation and expansion and all the extensibility support work rather than leaving that to the filesystems. This means that userspace pointers are not exposed to the filesystem. fsinfo() allows a variety of information to be retrieved about a filesystem and the mount topology: (1) General superblock attributes: - Filesystem identifiers (UUID, volume label, device numbers, ...) - The limits on a filesystem's capabilities - Information on supported statx fields and attributes and IOC flags. - A variety single-bit flags indicating supported capabilities. - Timestamp resolution and range. - The amount of space/free space in a filesystem (as statfs()). - Superblock notification counter. (2) Filesystem-specific superblock attributes: - Superblock-level timestamps. - Cell name, workgroup or other netfs grouping concept. - Server names and addresses. (3) VFS information: - Mount topology information. - Mount attributes. - Mount notification counter. - Mount point path. (4) Information about what the fsinfo() syscall itself supports, including the type and struct size of attributes. The system is extensible: (1) New attributes can be added. There is no requirement that a filesystem implement every attribute. A helper function is provided to scan a list of attributes and a filesystem can have multiple such lists. (2) Version length-dependent structure attributes can be made larger and have additional information tacked on the end, provided it keeps the layout of the existing fields. If an older process asks for a shorter structure, it will only be given the bits it asks for. If a newer process asks for a longer structure on an older kernel, the extra space will be set to 0. In all cases, the size of the data actually available is returned. In essence, the size of a structure is that structure's version: a smaller size is an earlier version and a later version includes everything that the earlier version did. (3) New single-bit capability flags can be added. This is a structure-typed attribute and, as such, (2) applies. Any bits you wanted but the kernel doesn't support are automatically set to 0. fsinfo() may be called like the following, for example: struct fsinfo_params params = { .at_flags = AT_SYMLINK_NOFOLLOW, .flags = FSINFO_FLAGS_QUERY_PATH, .request = FSINFO_ATTR_AFS_SERVER_ADDRESSES, .Nth = 2, }; struct fsinfo_server_address address; len = fsinfo(AT_FDCWD, "/afs/grand.central.org/doc", ¶ms, &address, sizeof(address)); The above example would query an AFS filesystem to retrieve the address list for the 3rd server, and: struct fsinfo_params params = { .at_flags = AT_SYMLINK_NOFOLLOW, .flags = FSINFO_FLAGS_QUERY_PATH, .request = FSINFO_ATTR_NFS_SERVER_NAME; }; char server_name[256]; len = fsinfo(AT_FDCWD, "/home/dhowells/", ¶ms, &server_name, sizeof(server_name)); would retrieve the name of the NFS server as a string. In future, I want to make fsinfo() capable of querying a context created by fsopen() or fspick(), e.g.: fd = fsopen("ext4", 0); struct fsinfo_params params = { .flags = FSINFO_FLAGS_QUERY_FSCONTEXT, .request = FSINFO_ATTR_CONFIGURATION; }; char buffer[65536]; fsinfo(fd, NULL, ¶ms, &buffer, sizeof(buffer)); even if that context doesn't currently have a superblock attached. The patches can be found here also: https://git.kernel.org/pub/scm/linux/kernel/git/dhowells/linux-fs.git on branch: fsinfo-core =================== SIGNIFICANT CHANGES =================== ver #19: (*) Split FSINFO_ATTR_MOUNT_TOPOLOGY from FSINFO_ATTR_MOUNT_INFO. The latter requires no locking as it looks no further than the mount object it's dealing with. The topology attribute, however, has to take the namespace lock. That said, the info attribute includes a counter that indicates how many times a mount object's position in the topology has changed. (*) A bit of patch rearrangement to put the mount topology-exposing attributes into one patch. (*) Pass both AT_* and RESOLVE_* flags to fsinfo() as suggested by Linus, rather than adding missing RESOLVE_* flags. ver #18: (*) Moved the mount and superblock notification patches into a different branch. (*) Made superblock configuration (->show_opts), bindmount path (->show_path) and filesystem statistics (->show_stats) available as the CONFIGURATION, MOUNT_PATH and FS_STATISTICS attributes. (*) Made mountpoint device name available, filtered through the superblock (->show_devname), as the SOURCE attribute. (*) Made the mountpoint available as a full path as well as a relative one. (*) Added more event counters to MOUNT_INFO, including a subtree notification counter, to make it easier to clean up after a notification overrun. (*) Made the event counter value returned by MOUNT_CHILDREN the sum of the five event counters. (*) Added a mount uniquifier and added that to the MOUNT_CHILDREN entries also so that mount ID reuse can be detected. (*) Merged the SB_NOTIFICATION attribute into the MOUNT_INFO attribute to avoid duplicate information. (*) Switched to using the RESOLVE_* flags rather than AT_* flags for pathwalk control. Added more RESOLVE_* flags. (*) Used a lock instead of RCU to enumerate children for the MOUNT_CHILDREN attribute for safety. This is probably worth revisiting at a later date, however. ver #17: (*) Applied comments from Jann Horn, Darrick Wong and Christian Brauner. (*) Rearranged the order in which fsinfo() does things so that the superblock operations table can have a function pointer rather than a table pointer. The ->fsinfo() op is now called at least twice, once to determine the size of buffer needed and then to retrieve the data. If the retrieval step indicates yet more space is needed, the buffer will be expanded and that step repeated. (*) Merge the element size into the size in the fsinfo_attribute def and don't set size for strings or opaques. Let a helper work that out. This means that strings can actually get larger then 4K. (*) A helper is provided to scan a list of attributes and call the appropriate get function. This can be called from a filesystem's ->fsinfo() method multiple times. It also handles attribute enumeration and info querying. (*) Rearranged the patches to put all the notification patches first. This allowed some of the bits to be squashed together. At some point, I'll move the notification patches into a different branch. ver #16: (*) Split the features bits out of the fsinfo() core into their own patch and got rid of the name encoding attributes. (*) Renamed the 'array' type to 'list' and made AFS use it for returning server address lists. (*) Changed the ->fsinfo() method into an ->fsinfo_attributes[] table, where each attribute has a ->get() method to deal with it. These tables can then be returned with an fsinfo meta attribute. (*) Dropped the fscontext query and parameter/description retrieval attributes for now. (*) Picked the mount topology attributes into this branch. (*) Picked the mount notifications into this branch and rebased on top of notifications-pipe-core. (*) Picked the superblock notifications into this branch. (*) Add sample code for Ext4 and NFS. David --- David Howells (13): fsinfo: Add fsinfo() syscall to query filesystem information fsinfo: Provide a bitmap of supported features fsinfo: Allow retrieval of superblock devname, options and stats fsinfo: Allow fsinfo() to look up a mount object by ID fsinfo: Add a uniquifier ID to struct mount fsinfo: Allow mount information to be queried fsinfo: Allow mount topology and propagation info to be retrieved fsinfo: Provide notification overrun handling support fsinfo: sample: Mount listing program fsinfo: Add API documentation fsinfo: Add support for AFS fsinfo: Example support for Ext4 fsinfo: Example support for NFS Documentation/filesystems/fsinfo.rst | 574 +++++++++++++++++ arch/alpha/kernel/syscalls/syscall.tbl | 1 arch/arm/tools/syscall.tbl | 1 arch/arm64/include/asm/unistd.h | 2 arch/arm64/include/asm/unistd32.h | 2 arch/ia64/kernel/syscalls/syscall.tbl | 1 arch/m68k/kernel/syscalls/syscall.tbl | 1 arch/microblaze/kernel/syscalls/syscall.tbl | 1 arch/mips/kernel/syscalls/syscall_n32.tbl | 1 arch/mips/kernel/syscalls/syscall_n64.tbl | 1 arch/mips/kernel/syscalls/syscall_o32.tbl | 1 arch/parisc/kernel/syscalls/syscall.tbl | 1 arch/powerpc/kernel/syscalls/syscall.tbl | 1 arch/s390/kernel/syscalls/syscall.tbl | 1 arch/sh/kernel/syscalls/syscall.tbl | 1 arch/sparc/kernel/syscalls/syscall.tbl | 1 arch/x86/entry/syscalls/syscall_32.tbl | 1 arch/x86/entry/syscalls/syscall_64.tbl | 1 arch/xtensa/kernel/syscalls/syscall.tbl | 1 fs/Kconfig | 7 fs/Makefile | 1 fs/afs/internal.h | 1 fs/afs/super.c | 218 +++++++ fs/d_path.c | 2 fs/ext4/Makefile | 1 fs/ext4/ext4.h | 6 fs/ext4/fsinfo.c | 45 + fs/ext4/super.c | 3 fs/fsinfo.c | 725 ++++++++++++++++++++++ fs/internal.h | 14 fs/mount.h | 3 fs/mount_notify.c | 2 fs/namespace.c | 389 ++++++++++++ fs/nfs/Makefile | 1 fs/nfs/fsinfo.c | 230 +++++++ fs/nfs/internal.h | 6 fs/nfs/nfs4super.c | 3 fs/nfs/super.c | 3 include/linux/fs.h | 4 include/linux/fsinfo.h | 111 +++ include/linux/syscalls.h | 4 include/uapi/asm-generic/unistd.h | 4 include/uapi/linux/fsinfo.h | 371 +++++++++++ include/uapi/linux/mount.h | 10 include/uapi/linux/windows.h | 35 + kernel/sys_ni.c | 1 samples/vfs/Makefile | 7 samples/vfs/test-fsinfo.c | 891 +++++++++++++++++++++++++++ samples/vfs/test-mntinfo.c | 279 ++++++++ 49 files changed, 3962 insertions(+), 9 deletions(-) create mode 100644 Documentation/filesystems/fsinfo.rst create mode 100644 fs/ext4/fsinfo.c create mode 100644 fs/fsinfo.c create mode 100644 fs/nfs/fsinfo.c create mode 100644 include/linux/fsinfo.h create mode 100644 include/uapi/linux/fsinfo.h create mode 100644 include/uapi/linux/windows.h create mode 100644 samples/vfs/test-fsinfo.c create mode 100644 samples/vfs/test-mntinfo.c