| blob | a559c80f127a04353a488181029744a009165f09 |
1 #include <linux/ceph/ceph_debug.h>
3 #include <linux/sort.h>
4 #include <linux/slab.h>
9 #include <linux/ceph/decode.h>
11 /*
12 * Snapshots in ceph are driven in large part by cooperation from the
13 * client. In contrast to local file systems or file servers that
14 * implement snapshots at a single point in the system, ceph's
15 * distributed access to storage requires clients to help decide
16 * whether a write logically occurs before or after a recently created
17 * snapshot.
18 *
19 * This provides a perfect instantanous client-wide snapshot. Between
20 * clients, however, snapshots may appear to be applied at slightly
21 * different points in time, depending on delays in delivering the
22 * snapshot notification.
23 *
24 * Snapshots are _not_ file system-wide. Instead, each snapshot
25 * applies to the subdirectory nested beneath some directory. This
26 * effectively divides the hierarchy into multiple "realms," where all
27 * of the files contained by each realm share the same set of
28 * snapshots. An individual realm's snap set contains snapshots
29 * explicitly created on that realm, as well as any snaps in its
30 * parent's snap set _after_ the point at which the parent became it's
31 * parent (due to, say, a rename). Similarly, snaps from prior parents
32 * during the time intervals during which they were the parent are included.
33 *
34 * The client is spared most of this detail, fortunately... it must only
35 * maintains a hierarchy of realms reflecting the current parent/child
36 * realm relationship, and for each realm has an explicit list of snaps
37 * inherited from prior parents.
38 *
39 * A snap_realm struct is maintained for realms containing every inode
40 * with an open cap in the system. (The needed snap realm information is
41 * provided by the MDS whenever a cap is issued, i.e., on open.) A 'seq'
42 * version number is used to ensure that as realm parameters change (new
43 * snapshot, new parent, etc.) the client's realm hierarchy is updated.
44 *
45 * The realm hierarchy drives the generation of a 'snap context' for each
46 * realm, which simply lists the resulting set of snaps for the realm. This
47 * is attached to any writes sent to OSDs.
48 */
49 /*
50 * Unfortunately error handling is a bit mixed here. If we get a snap
51 * update, but don't have enough memory to update our realm hierarchy,
52 * it's not clear what we can do about it (besides complaining to the
53 * console).
54 */
57 /*
58 * increase ref count for the realm
59 *
60 * caller must hold snap_rwsem for write.
61 */
64 {
67 /*
68 * since we _only_ increment realm refs or empty the empty
69 * list with snap_rwsem held, adjusting the empty list here is
70 * safe. we do need to protect against concurrent empty list
71 * additions, however.
72 */
77 }
80 }
84 {
96 else
98 }
102 }
104 /*
105 * create and get the realm rooted at @ino and bump its ref count.
106 *
107 * caller must hold snap_rwsem for write.
108 */
111 u64 ino)
112 {
130 }
132 /*
133 * lookup the realm rooted at @ino.
134 *
135 * caller must hold snap_rwsem for write.
136 */
138 u64 ino)
139 {
152 }
153 }
155 }
160 /*
161 * called with snap_rwsem (write)
162 */
165 {
173 }
179 }
181 /*
182 * caller holds snap_rwsem (write)
183 */
186 {
191 }
193 /*
194 * caller needn't hold any locks
195 */
198 {
211 }
212 }
214 /*
215 * Clean up any realms whose ref counts have dropped to zero. Note
216 * that this does not include realms who were created but not yet
217 * used.
218 *
219 * Called under snap_rwsem (write)
220 */
222 {
233 }
235 }
238 {
242 }
244 /*
245 * adjust the parent realm of a given @realm. adjust child list, and parent
246 * pointers, and ref counts appropriately.
247 *
248 * return true if parent was changed, 0 if unchanged, <0 on error.
249 *
250 * caller must hold snap_rwsem for write.
251 */
254 u64 parentino)
255 {
266 }
273 }
279 }
283 {
289 }
291 /*
292 * build the snap context for a given realm.
293 */
295 {
302 /*
303 * build parent context, if it hasn't been built.
304 * conservatively estimate that all parent snaps might be
305 * included by us.
306 */
312 }
314 }
316 /* do i actually need to update? not if my context seq
317 matches realm seq, and my parents' does to. (this works
318 because we rebuild_snap_realms() works _downward_ in
319 hierarchy after each update.) */
330 }
332 /* alloc new snap context */
341 /* build (reverse sorted) snap vector */
345 /* include any of parent's snaps occurring _after_ my
346 parent became my parent */
354 }
372 fail:
373 /*
374 * if we fail, clear old (incorrect) cached_context... hopefully
375 * we'll have better luck building it later
376 */
380 }
384 }
386 /*
387 * rebuild snap context for the given realm and all of its children.
388 */
390 {
398 }
401 /*
402 * helper to allocate and decode an array of snapids. free prior
403 * instance, if any.
404 */
406 {
418 }
420 }
423 /*
424 * When a snapshot is applied, the size/mtime inode metadata is queued
425 * in a ceph_cap_snap (one for each snapshot) until writeback
426 * completes and the metadata can be flushed back to the MDS.
427 *
428 * However, if a (sync) write is currently in-progress when we apply
429 * the snapshot, we have to wait until the write succeeds or fails
430 * (and a final size/mtime is known). In this case the
431 * cap_snap->writing = 1, and is said to be "pending." When the write
432 * finishes, we __ceph_finish_cap_snap().
433 *
434 * Caller must hold snap_rwsem for read (i.e., the realm topology won't
435 * change).
436 */
438 {
447 }
453 /*
454 * If there is a write in progress, treat that as a dirty Fw,
455 * even though it hasn't completed yet; by the time we finish
456 * up this capsnap it will be.
457 */
462 /* there is no point in queuing multiple "pending" cap_snaps,
463 as no new writes are allowed to start when pending, so any
464 writes in progress now were started before the previous
465 cap_snap. lucky us. */
472 /*
473 * if we are a sync write, we may need to go to the snaprealm
474 * to get the current snapc.
475 */
504 }
506 /* dirty page count moved from _head to this cap_snap;
507 all subsequent writes page dirties occur _after_ this
508 snapshot. */
523 /* note mtime, size NOW. */
525 }
529 }
532 }
534 /*
535 * Finalize the size, mtime for a cap_snap.. that is, settle on final values
536 * to be used for the snapshot, to be flushed back to the mds.
537 *
538 * If capsnap can now be flushed, add to snap_flush list, and return 1.
539 *
540 * Caller must hold i_ceph_lock.
541 */
544 {
561 }
571 }
573 /*
574 * Queue cap_snaps for snap writeback for this realm and its children.
575 * Called under snap_rwsem, so realm topology won't change.
576 */
578 {
587 i_snap_realm_item) {
597 }
607 }
611 }
613 /*
614 * Parse and apply a snapblob "snap trace" from the MDS. This specifies
615 * the snap realm parameters from a given realm and all of its ancestors,
616 * up to the root.
617 *
618 * Caller must hold snap_rwsem for write.
619 */
622 {
632 more:
649 }
650 }
652 /* ensure the parent is correct */
661 /* update realm parameters, snap lists */
678 /* queue realm for cap_snap creation */
689 }
697 /* invalidate when we reach the _end_ (root) of the trace */
701 /*
702 * queue cap snaps _after_ we've built the new snap contexts,
703 * so that i_head_snapc can be set appropriately.
704 */
707 dirty_item);
709 }
714 bad:
716 fail:
719 }
722 /*
723 * Send any cap_snaps that are queued for flush. Try to carry
724 * s_mutex across multiple snap flushes to avoid locking overhead.
725 *
726 * Caller holds no locks.
727 */
729 {
747 }
753 }
755 }
758 /*
759 * Handle a snap notification from the MDS.
760 *
761 * This can take two basic forms: the simplest is just a snap creation
762 * or deletion notification on an existing realm. This should update the
763 * realm and its children.
764 *
765 * The more difficult case is realm creation, due to snap creation at a
766 * new point in the file hierarchy, or due to a rename that moves a file or
767 * directory into another realm.
768 */
772 {
775 u64 split;
787 /* decode */
793 * existing realm */
812 /*
813 * A "split" breaks part of an existing realm off into
814 * a new realm. The MDS provides a list of inodes
815 * (with caps) and child realms that belong to the new
816 * child.
817 */
823 /* we will peek at realm info here, but will _not_
824 * advance p, as the realm update will occur below in
825 * ceph_update_snap_trace. */
833 }
841 };
853 /*
854 * If this inode belongs to a realm that was
855 * created after our new realm, we experienced
856 * a race (due to another split notifications
857 * arriving from a different MDS). So skip
858 * this inode.
859 */
866 }
869 /*
870 * Move the inode to the new realm
871 */
887 skip_inode:
890 }
892 /* we may have taken some of the old realm's children. */
900 }
901 }
903 /*
904 * update using the provided snap trace. if we are deleting a
905 * snap, we can avoid queueing cap_snaps.
906 */
911 /* we took a reference when we created the realm, above */
921 bad:
924 out:
928 }