2 * Copyright (c) 2008 The DragonFly Project. All rights reserved.
4 * This code is derived from software contributed to The DragonFly Project
5 * by Matthew Dillon <dillon@backplane.com>
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following conditions
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in
15 * the documentation and/or other materials provided with the
17 * 3. Neither the name of The DragonFly Project nor the names of its
18 * contributors may be used to endorse or promote products derived
19 * from this software without specific, prior written permission.
21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
22 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
23 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
24 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
25 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
26 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
27 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
28 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
29 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
30 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
31 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
34 * $DragonFly: src/sys/vfs/hammer/hammer_reblock.c,v 1.34 2008/11/13 02:18:43 dillon Exp $
37 * HAMMER reblocker - This code frees up fragmented physical space
39 * HAMMER only keeps track of free space on a big-block basis. A big-block
40 * containing holes can only be freed by migrating the remaining data in
41 * that big-block into a new big-block, then freeing the big-block.
43 * This function is called from an ioctl or via the hammer support thread.
48 static int hammer_reblock_helper(struct hammer_ioc_reblock
*reblock
,
49 hammer_cursor_t cursor
,
50 hammer_btree_elm_t elm
);
51 static int hammer_reblock_data(struct hammer_ioc_reblock
*reblock
,
52 hammer_cursor_t cursor
, hammer_btree_elm_t elm
);
53 static int hammer_reblock_leaf_node(struct hammer_ioc_reblock
*reblock
,
54 hammer_cursor_t cursor
, hammer_btree_elm_t elm
);
55 static int hammer_reblock_int_node(struct hammer_ioc_reblock
*reblock
,
56 hammer_cursor_t cursor
, hammer_btree_elm_t elm
);
59 hammer_ioc_reblock(hammer_transaction_t trans
, hammer_inode_t ip
,
60 struct hammer_ioc_reblock
*reblock
)
62 struct hammer_cursor cursor
;
63 hammer_btree_elm_t elm
;
70 * A fill level <= 20% is considered an emergency. free_level is
71 * inverted from fill_level.
73 if (reblock
->free_level
>= HAMMER_LARGEBLOCK_SIZE
* 8 / 10)
74 slop
= HAMMER_CHKSPC_EMERGENCY
;
76 slop
= HAMMER_CHKSPC_REBLOCK
;
78 if ((reblock
->key_beg
.localization
| reblock
->key_end
.localization
) &
79 HAMMER_LOCALIZE_PSEUDOFS_MASK
) {
82 if (reblock
->key_beg
.obj_id
>= reblock
->key_end
.obj_id
)
84 if (reblock
->free_level
< 0)
87 reblock
->key_cur
= reblock
->key_beg
;
88 reblock
->key_cur
.localization
&= HAMMER_LOCALIZE_MASK
;
89 reblock
->key_cur
.localization
+= ip
->obj_localization
;
92 seq
= trans
->hmp
->flusher
.act
;
94 error
= hammer_init_cursor(trans
, &cursor
, NULL
, NULL
);
96 hammer_done_cursor(&cursor
);
99 cursor
.key_beg
.localization
= reblock
->key_cur
.localization
;
100 cursor
.key_beg
.obj_id
= reblock
->key_cur
.obj_id
;
101 cursor
.key_beg
.key
= HAMMER_MIN_KEY
;
102 cursor
.key_beg
.create_tid
= 1;
103 cursor
.key_beg
.delete_tid
= 0;
104 cursor
.key_beg
.rec_type
= HAMMER_MIN_RECTYPE
;
105 cursor
.key_beg
.obj_type
= 0;
107 cursor
.key_end
.localization
= (reblock
->key_end
.localization
&
108 HAMMER_LOCALIZE_MASK
) +
109 ip
->obj_localization
;
110 cursor
.key_end
.obj_id
= reblock
->key_end
.obj_id
;
111 cursor
.key_end
.key
= HAMMER_MAX_KEY
;
112 cursor
.key_end
.create_tid
= HAMMER_MAX_TID
- 1;
113 cursor
.key_end
.delete_tid
= 0;
114 cursor
.key_end
.rec_type
= HAMMER_MAX_RECTYPE
;
115 cursor
.key_end
.obj_type
= 0;
117 cursor
.flags
|= HAMMER_CURSOR_END_INCLUSIVE
;
118 cursor
.flags
|= HAMMER_CURSOR_BACKEND
;
121 * This flag allows the btree scan code to return internal nodes,
122 * so we can reblock them in addition to the leafs. Only specify it
123 * if we intend to reblock B-Tree nodes.
125 if (reblock
->head
.flags
& HAMMER_IOC_DO_BTREE
)
126 cursor
.flags
|= HAMMER_CURSOR_REBLOCKING
;
128 error
= hammer_btree_first(&cursor
);
131 * Internal or Leaf node
133 elm
= &cursor
.node
->ondisk
->elms
[cursor
.index
];
134 reblock
->key_cur
.obj_id
= elm
->base
.obj_id
;
135 reblock
->key_cur
.localization
= elm
->base
.localization
;
138 * Yield to more important tasks
140 if ((error
= hammer_signal_check(trans
->hmp
)) != 0)
144 * If there is insufficient free space it may be due to
145 * reserved bigblocks, which flushing might fix.
147 if (hammer_checkspace(trans
->hmp
, slop
)) {
148 if (++checkspace_count
== 10) {
152 hammer_unlock_cursor(&cursor
);
153 hammer_flusher_wait(trans
->hmp
, seq
);
154 hammer_lock_cursor(&cursor
);
155 seq
= hammer_flusher_async(trans
->hmp
, NULL
);
160 * Acquiring the sync_lock prevents the operation from
161 * crossing a synchronization boundary.
163 * NOTE: cursor.node may have changed on return.
165 hammer_sync_lock_sh(trans
);
166 error
= hammer_reblock_helper(reblock
, &cursor
, elm
);
167 hammer_sync_unlock(trans
);
169 while (hammer_flusher_meta_halflimit(trans
->hmp
) ||
170 hammer_flusher_undo_exhausted(trans
, 2)) {
171 hammer_unlock_cursor(&cursor
);
172 hammer_flusher_wait(trans
->hmp
, seq
);
173 hammer_lock_cursor(&cursor
);
174 seq
= hammer_flusher_async_one(trans
->hmp
);
178 * Setup for iteration, our cursor flags may be modified by
179 * other threads while we are unlocked.
181 cursor
.flags
|= HAMMER_CURSOR_ATEDISK
;
184 * We allocate data buffers, which atm we don't track
185 * dirty levels for because we allow the kernel to write
186 * them. But if we allocate too many we can still deadlock
189 * (The cursor's node and element may change!)
192 hammer_unlock_cursor(&cursor
);
193 bwillwrite(HAMMER_XBUFSIZE
);
194 hammer_lock_cursor(&cursor
);
198 error
= hammer_btree_iterate(&cursor
);
204 hammer_done_cursor(&cursor
);
205 if (error
== EWOULDBLOCK
) {
206 hammer_flusher_sync(trans
->hmp
);
209 if (error
== EDEADLK
)
211 if (error
== EINTR
) {
212 reblock
->head
.flags
|= HAMMER_IOC_HEAD_INTR
;
216 reblock
->key_cur
.localization
&= HAMMER_LOCALIZE_MASK
;
221 * Reblock the B-Tree (leaf) node, record, and/or data if necessary.
223 * XXX We have no visibility into internal B-Tree nodes at the moment,
227 hammer_reblock_helper(struct hammer_ioc_reblock
*reblock
,
228 hammer_cursor_t cursor
, hammer_btree_elm_t elm
)
231 hammer_off_t tmp_offset
;
232 struct hammer_btree_leaf_elm leaf
;
239 hmp
= cursor
->trans
->hmp
;
242 * Reblock data. Note that data embedded in a record is reblocked
243 * by the record reblock code. Data processing only occurs at leaf
244 * nodes and for RECORD element types.
246 if (cursor
->node
->ondisk
->type
!= HAMMER_BTREE_TYPE_LEAF
)
248 if (elm
->leaf
.base
.btype
!= HAMMER_BTREE_TYPE_RECORD
)
250 tmp_offset
= elm
->leaf
.data_offset
;
257 * NOTE: Localization restrictions may also have been set-up, we can't
258 * just set the match flags willy-nilly here.
260 switch(elm
->leaf
.base
.rec_type
) {
261 case HAMMER_RECTYPE_INODE
:
262 iocflags
= HAMMER_IOC_DO_INODES
;
264 case HAMMER_RECTYPE_EXT
:
265 case HAMMER_RECTYPE_FIX
:
266 case HAMMER_RECTYPE_PFS
:
267 case HAMMER_RECTYPE_DIRENTRY
:
268 iocflags
= HAMMER_IOC_DO_DIRS
;
270 case HAMMER_RECTYPE_DATA
:
271 case HAMMER_RECTYPE_DB
:
272 iocflags
= HAMMER_IOC_DO_DATA
;
278 if (reblock
->head
.flags
& iocflags
) {
279 ++reblock
->data_count
;
280 reblock
->data_byte_count
+= elm
->leaf
.data_len
;
281 bytes
= hammer_blockmap_getfree(hmp
, tmp_offset
, &cur
, &error
);
282 if (hammer_debug_general
& 0x4000)
283 kprintf("D %6d/%d\n", bytes
, reblock
->free_level
);
284 if (error
== 0 && (cur
== 0 || reblock
->free_level
== 0) &&
285 bytes
>= reblock
->free_level
) {
287 * This is nasty, the uncache code may have to get
288 * vnode locks and because of that we can't hold
292 hammer_unlock_cursor(cursor
);
293 hammer_io_direct_uncache(hmp
, &leaf
);
294 hammer_lock_cursor(cursor
);
295 if (cursor
->flags
& HAMMER_CURSOR_RETEST
) {
296 kprintf("hammer: retest after uncache\n");
299 KKASSERT(bcmp(&elm
->leaf
, &leaf
, sizeof(leaf
)) == 0);
302 error
= hammer_cursor_upgrade(cursor
);
304 error
= hammer_reblock_data(reblock
,
308 ++reblock
->data_moves
;
309 reblock
->data_byte_moves
+= elm
->leaf
.data_len
;
316 * Reblock a B-Tree internal or leaf node. A leaf node is reblocked
317 * on initial entry only (element 0). An internal node is reblocked
318 * when entered upward from its first leaf node only (also element 0).
319 * Further revisits of the internal node (index > 0) are ignored.
321 tmp_offset
= cursor
->node
->node_offset
;
322 if (cursor
->index
== 0 &&
323 error
== 0 && (reblock
->head
.flags
& HAMMER_IOC_DO_BTREE
)) {
324 ++reblock
->btree_count
;
325 bytes
= hammer_blockmap_getfree(hmp
, tmp_offset
, &cur
, &error
);
326 if (hammer_debug_general
& 0x4000)
327 kprintf("B %6d/%d\n", bytes
, reblock
->free_level
);
328 if (error
== 0 && (cur
== 0 || reblock
->free_level
== 0) &&
329 bytes
>= reblock
->free_level
) {
330 error
= hammer_cursor_upgrade(cursor
);
333 elm
= &cursor
->parent
->ondisk
->elms
[cursor
->parent_index
];
336 switch(cursor
->node
->ondisk
->type
) {
337 case HAMMER_BTREE_TYPE_LEAF
:
338 error
= hammer_reblock_leaf_node(
339 reblock
, cursor
, elm
);
341 case HAMMER_BTREE_TYPE_INTERNAL
:
342 error
= hammer_reblock_int_node(
343 reblock
, cursor
, elm
);
346 panic("Illegal B-Tree node type");
350 ++reblock
->btree_moves
;
355 hammer_cursor_downgrade(cursor
);
360 * Reblock a record's data. Both the B-Tree element and record pointers
361 * to the data must be adjusted.
364 hammer_reblock_data(struct hammer_ioc_reblock
*reblock
,
365 hammer_cursor_t cursor
, hammer_btree_elm_t elm
)
367 struct hammer_buffer
*data_buffer
= NULL
;
368 hammer_off_t ndata_offset
;
372 error
= hammer_btree_extract(cursor
, HAMMER_CURSOR_GET_DATA
|
373 HAMMER_CURSOR_GET_LEAF
);
376 ndata
= hammer_alloc_data(cursor
->trans
, elm
->leaf
.data_len
,
377 elm
->leaf
.base
.rec_type
,
378 &ndata_offset
, &data_buffer
,
386 hammer_modify_buffer(cursor
->trans
, data_buffer
, NULL
, 0);
387 bcopy(cursor
->data
, ndata
, elm
->leaf
.data_len
);
388 hammer_modify_buffer_done(data_buffer
);
390 hammer_blockmap_free(cursor
->trans
,
391 elm
->leaf
.data_offset
, elm
->leaf
.data_len
);
393 hammer_modify_node(cursor
->trans
, cursor
->node
,
394 &elm
->leaf
.data_offset
, sizeof(hammer_off_t
));
395 elm
->leaf
.data_offset
= ndata_offset
;
396 hammer_modify_node_done(cursor
->node
);
400 hammer_rel_buffer(data_buffer
, 0);
405 * Reblock a B-Tree leaf node. The parent must be adjusted to point to
406 * the new copy of the leaf node.
408 * elm is a pointer to the parent element pointing at cursor.node.
411 hammer_reblock_leaf_node(struct hammer_ioc_reblock
*reblock
,
412 hammer_cursor_t cursor
, hammer_btree_elm_t elm
)
419 * Don't supply a hint when allocating the leaf. Fills are done
420 * from the leaf upwards.
422 onode
= cursor
->node
;
423 nnode
= hammer_alloc_btree(cursor
->trans
, 0, &error
);
431 hammer_lock_ex(&nnode
->lock
);
432 hammer_modify_node_noundo(cursor
->trans
, nnode
);
433 bcopy(onode
->ondisk
, nnode
->ondisk
, sizeof(*nnode
->ondisk
));
437 * We are not the root of the B-Tree
439 hammer_modify_node(cursor
->trans
, cursor
->parent
,
440 &elm
->internal
.subtree_offset
,
441 sizeof(elm
->internal
.subtree_offset
));
442 elm
->internal
.subtree_offset
= nnode
->node_offset
;
443 hammer_modify_node_done(cursor
->parent
);
446 * We are the root of the B-Tree
448 hammer_volume_t volume
;
450 volume
= hammer_get_root_volume(cursor
->trans
->hmp
, &error
);
451 KKASSERT(error
== 0);
453 hammer_modify_volume_field(cursor
->trans
, volume
,
455 volume
->ondisk
->vol0_btree_root
= nnode
->node_offset
;
456 hammer_modify_volume_done(volume
);
457 hammer_rel_volume(volume
, 0);
460 hammer_cursor_replaced_node(onode
, nnode
);
461 hammer_delete_node(cursor
->trans
, onode
);
463 if (hammer_debug_general
& 0x4000) {
464 kprintf("REBLOCK LNODE %016llx -> %016llx\n",
465 onode
->node_offset
, nnode
->node_offset
);
467 hammer_modify_node_done(nnode
);
468 cursor
->node
= nnode
;
470 hammer_unlock(&onode
->lock
);
471 hammer_rel_node(onode
);
477 * Reblock a B-Tree internal node. The parent must be adjusted to point to
478 * the new copy of the internal node, and the node's children's parent
479 * pointers must also be adjusted to point to the new copy.
481 * elm is a pointer to the parent element pointing at cursor.node.
484 hammer_reblock_int_node(struct hammer_ioc_reblock
*reblock
,
485 hammer_cursor_t cursor
, hammer_btree_elm_t elm
)
487 struct hammer_node_lock lockroot
;
494 hammer_node_lock_init(&lockroot
, cursor
->node
);
495 error
= hammer_btree_lock_children(cursor
, 1, &lockroot
);
500 * The internal node is visited after recursing through its
501 * first element. Use the subtree offset allocated for that
502 * element as a hint for allocating the internal node.
504 onode
= cursor
->node
;
505 if (onode
->ondisk
->count
)
506 hint
= onode
->ondisk
->elms
[0].internal
.subtree_offset
;
509 nnode
= hammer_alloc_btree(cursor
->trans
, hint
, &error
);
515 * Move the node. Adjust the parent's pointer to us first.
517 hammer_lock_ex(&nnode
->lock
);
518 hammer_modify_node_noundo(cursor
->trans
, nnode
);
519 bcopy(onode
->ondisk
, nnode
->ondisk
, sizeof(*nnode
->ondisk
));
523 * We are not the root of the B-Tree
525 hammer_modify_node(cursor
->trans
, cursor
->parent
,
526 &elm
->internal
.subtree_offset
,
527 sizeof(elm
->internal
.subtree_offset
));
528 elm
->internal
.subtree_offset
= nnode
->node_offset
;
529 hammer_modify_node_done(cursor
->parent
);
532 * We are the root of the B-Tree
534 hammer_volume_t volume
;
536 volume
= hammer_get_root_volume(cursor
->trans
->hmp
, &error
);
537 KKASSERT(error
== 0);
539 hammer_modify_volume_field(cursor
->trans
, volume
,
541 volume
->ondisk
->vol0_btree_root
= nnode
->node_offset
;
542 hammer_modify_volume_done(volume
);
543 hammer_rel_volume(volume
, 0);
547 * Now adjust our children's pointers to us.
549 for (i
= 0; i
< nnode
->ondisk
->count
; ++i
) {
550 elm
= &nnode
->ondisk
->elms
[i
];
551 error
= btree_set_parent(cursor
->trans
, nnode
, elm
);
553 panic("reblock internal node: fixup problem");
559 * The new node replaces the current node in the cursor. The cursor
560 * expects it to be locked so leave it locked. Discard onode.
562 hammer_cursor_replaced_node(onode
, nnode
);
563 hammer_delete_node(cursor
->trans
, onode
);
565 if (hammer_debug_general
& 0x4000) {
566 kprintf("REBLOCK INODE %016llx -> %016llx\n",
567 onode
->node_offset
, nnode
->node_offset
);
569 hammer_modify_node_done(nnode
);
570 cursor
->node
= nnode
;
572 hammer_unlock(&onode
->lock
);
573 hammer_rel_node(onode
);
576 hammer_btree_unlock_children(cursor
, &lockroot
);