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Merge tag 'io_uring-5.11-2021-01-24' of git://git.kernel.dk/linux-block
[mirror_ubuntu-hirsute-kernel.git] / fs / btrfs / ordered-data.c
CommitLineData
c1d7c514 1// SPDX-License-Identifier: GPL-2.0
dc17ff8f
CM		 2/*
3 * Copyright (C) 2007 Oracle. All rights reserved.
dc17ff8f
CM		 4 */
5
dc17ff8f 6#include <linux/slab.h>
d6bfde87 7#include <linux/blkdev.h>
f421950f 8#include <linux/writeback.h>
a3d46aea 9#include <linux/sched/mm.h>
602cbe91 10#include "misc.h"
dc17ff8f
CM		 11#include "ctree.h"
12#include "transaction.h"
13#include "btrfs_inode.h"
e6dcd2dc 14#include "extent_io.h"
199c2a9c 15#include "disk-io.h"
ebb8765b 16#include "compression.h"
86736342 17#include "delalloc-space.h"
7dbeaad0 18#include "qgroup.h"
dc17ff8f 19
6352b91d
MX		 20static struct kmem_cache *btrfs_ordered_extent_cache;
21
e6dcd2dc 22static u64 entry_end(struct btrfs_ordered_extent *entry)
dc17ff8f 23{
bffe633e 24 if (entry->file_offset + entry->num_bytes < entry->file_offset)
e6dcd2dc 25 return (u64)-1;
bffe633e 26 return entry->file_offset + entry->num_bytes;
dc17ff8f
CM		 27}
28
d352ac68
CM		 29/* returns NULL if the insertion worked, or it returns the node it did find
30 * in the tree
31 */
e6dcd2dc
CM		 32static struct rb_node *tree_insert(struct rb_root *root, u64 file_offset,
33 struct rb_node *node)
dc17ff8f 34{
d397712b
CM		 35 struct rb_node **p = &root->rb_node;
36 struct rb_node *parent = NULL;
e6dcd2dc 37 struct btrfs_ordered_extent *entry;
dc17ff8f 38
d397712b 39 while (*p) {
dc17ff8f 40 parent = *p;
e6dcd2dc 41 entry = rb_entry(parent, struct btrfs_ordered_extent, rb_node);
dc17ff8f 42
e6dcd2dc 43 if (file_offset < entry->file_offset)
dc17ff8f 44 p = &(*p)->rb_left;
e6dcd2dc 45 else if (file_offset >= entry_end(entry))
dc17ff8f
CM		 46 p = &(*p)->rb_right;
47 else
48 return parent;
49 }
50
51 rb_link_node(node, parent, p);
52 rb_insert_color(node, root);
53 return NULL;
54}
55
d352ac68
CM		 56/*
57 * look for a given offset in the tree, and if it can't be found return the
58 * first lesser offset
59 */
e6dcd2dc
CM		 60static struct rb_node *__tree_search(struct rb_root *root, u64 file_offset,
61 struct rb_node **prev_ret)
dc17ff8f 62{
d397712b 63 struct rb_node *n = root->rb_node;
dc17ff8f 64 struct rb_node *prev = NULL;
e6dcd2dc
CM		 65 struct rb_node *test;
66 struct btrfs_ordered_extent *entry;
67 struct btrfs_ordered_extent *prev_entry = NULL;
dc17ff8f 68
d397712b 69 while (n) {
e6dcd2dc 70 entry = rb_entry(n, struct btrfs_ordered_extent, rb_node);
dc17ff8f
CM		 71 prev = n;
72 prev_entry = entry;
dc17ff8f 73
e6dcd2dc 74 if (file_offset < entry->file_offset)
dc17ff8f 75 n = n->rb_left;
e6dcd2dc 76 else if (file_offset >= entry_end(entry))
dc17ff8f
CM		 77 n = n->rb_right;
78 else
79 return n;
80 }
81 if (!prev_ret)
82 return NULL;
83
d397712b 84 while (prev && file_offset >= entry_end(prev_entry)) {
e6dcd2dc
CM		 85 test = rb_next(prev);
86 if (!test)
87 break;
88 prev_entry = rb_entry(test, struct btrfs_ordered_extent,
89 rb_node);
90 if (file_offset < entry_end(prev_entry))
91 break;
92
93 prev = test;
94 }
95 if (prev)
96 prev_entry = rb_entry(prev, struct btrfs_ordered_extent,
97 rb_node);
d397712b 98 while (prev && file_offset < entry_end(prev_entry)) {
e6dcd2dc
CM		 99 test = rb_prev(prev);
100 if (!test)
101 break;
102 prev_entry = rb_entry(test, struct btrfs_ordered_extent,
103 rb_node);
104 prev = test;
dc17ff8f
CM		 105 }
106 *prev_ret = prev;
107 return NULL;
108}
109
d352ac68
CM		 110/*
111 * helper to check if a given offset is inside a given entry
112 */
e6dcd2dc
CM		 113static int offset_in_entry(struct btrfs_ordered_extent *entry, u64 file_offset)
114{
115 if (file_offset < entry->file_offset ||
bffe633e 116 entry->file_offset + entry->num_bytes <= file_offset)
e6dcd2dc
CM		 117 return 0;
118 return 1;
119}
120
4b46fce2
JB		 121static int range_overlaps(struct btrfs_ordered_extent *entry, u64 file_offset,
122 u64 len)
123{
124 if (file_offset + len <= entry->file_offset ||
bffe633e 125 entry->file_offset + entry->num_bytes <= file_offset)
4b46fce2
JB		 126 return 0;
127 return 1;
128}
129
d352ac68
CM		 130/*
131 * look find the first ordered struct that has this offset, otherwise
132 * the first one less than this offset
133 */
e6dcd2dc
CM		 134static inline struct rb_node *tree_search(struct btrfs_ordered_inode_tree *tree,
135 u64 file_offset)
dc17ff8f 136{
e6dcd2dc 137 struct rb_root *root = &tree->tree;
c87fb6fd 138 struct rb_node *prev = NULL;
dc17ff8f 139 struct rb_node *ret;
e6dcd2dc
CM		 140 struct btrfs_ordered_extent *entry;
141
142 if (tree->last) {
143 entry = rb_entry(tree->last, struct btrfs_ordered_extent,
144 rb_node);
145 if (offset_in_entry(entry, file_offset))
146 return tree->last;
147 }
148 ret = __tree_search(root, file_offset, &prev);
dc17ff8f 149 if (!ret)
e6dcd2dc
CM		 150 ret = prev;
151 if (ret)
152 tree->last = ret;
dc17ff8f
CM		 153 return ret;
154}
155
7dbeaad0
QW		 156/*
157 * Allocate and add a new ordered_extent into the per-inode tree.
eb84ae03 158 *
eb84ae03
CM		 159 * The tree is given a single reference on the ordered extent that was
160 * inserted.
161 */
da69fea9 162static int __btrfs_add_ordered_extent(struct btrfs_inode *inode, u64 file_offset,
bffe633e
OS		 163 u64 disk_bytenr, u64 num_bytes,
164 u64 disk_num_bytes, int type, int dio,
165 int compress_type)
dc17ff8f 166{
da69fea9
NB		 167 struct btrfs_root *root = inode->root;
168 struct btrfs_fs_info *fs_info = root->fs_info;
169 struct btrfs_ordered_inode_tree *tree = &inode->ordered_tree;
e6dcd2dc
CM		 170 struct rb_node *node;
171 struct btrfs_ordered_extent *entry;
7dbeaad0
QW		 172 int ret;
173
174 if (type == BTRFS_ORDERED_NOCOW || type == BTRFS_ORDERED_PREALLOC) {
175 /* For nocow write, we can release the qgroup rsv right now */
8b8a979f 176 ret = btrfs_qgroup_free_data(inode, NULL, file_offset, num_bytes);
7dbeaad0
QW		 177 if (ret < 0)
178 return ret;
179 ret = 0;
180 } else {
181 /*
182 * The ordered extent has reserved qgroup space, release now
183 * and pass the reserved number for qgroup_record to free.
184 */
72b7d15b 185 ret = btrfs_qgroup_release_data(inode, file_offset, num_bytes);
7dbeaad0
QW		 186 if (ret < 0)
187 return ret;
188 }
6352b91d 189 entry = kmem_cache_zalloc(btrfs_ordered_extent_cache, GFP_NOFS);
dc17ff8f
CM		 190 if (!entry)
191 return -ENOMEM;
192
e6dcd2dc 193 entry->file_offset = file_offset;
bffe633e
OS		 194 entry->disk_bytenr = disk_bytenr;
195 entry->num_bytes = num_bytes;
196 entry->disk_num_bytes = disk_num_bytes;
197 entry->bytes_left = num_bytes;
da69fea9 198 entry->inode = igrab(&inode->vfs_inode);
261507a0 199 entry->compress_type = compress_type;
77cef2ec 200 entry->truncated_len = (u64)-1;
7dbeaad0 201 entry->qgroup_rsv = ret;
d899e052 202 if (type != BTRFS_ORDERED_IO_DONE && type != BTRFS_ORDERED_COMPLETE)
80ff3856 203 set_bit(type, &entry->flags);
3eaa2885 204
4297ff84 205 if (dio) {
bffe633e 206 percpu_counter_add_batch(&fs_info->dio_bytes, num_bytes,
4297ff84 207 fs_info->delalloc_batch);
4b46fce2 208 set_bit(BTRFS_ORDERED_DIRECT, &entry->flags);
4297ff84 209 }
4b46fce2 210
e6dcd2dc 211 /* one ref for the tree */
e76edab7 212 refcount_set(&entry->refs, 1);
e6dcd2dc
CM		 213 init_waitqueue_head(&entry->wait);
214 INIT_LIST_HEAD(&entry->list);
48778179 215 INIT_LIST_HEAD(&entry->log_list);
3eaa2885 216 INIT_LIST_HEAD(&entry->root_extent_list);
9afab882
MX		 217 INIT_LIST_HEAD(&entry->work_list);
218 init_completion(&entry->completion);
dc17ff8f 219
acbf1dd0 220 trace_btrfs_ordered_extent_add(inode, entry);
1abe9b8a 221
5fd02043 222 spin_lock_irq(&tree->lock);
e6dcd2dc
CM		 223 node = tree_insert(&tree->tree, file_offset,
224 &entry->rb_node);
43c04fb1 225 if (node)
511a32b5
NB		 226 btrfs_panic(fs_info, -EEXIST,
227 "inconsistency in ordered tree at offset %llu",
228 file_offset);
5fd02043 229 spin_unlock_irq(&tree->lock);
d397712b 230
199c2a9c 231 spin_lock(&root->ordered_extent_lock);
3eaa2885 232 list_add_tail(&entry->root_extent_list,
199c2a9c
MX		 233 &root->ordered_extents);
234 root->nr_ordered_extents++;
235 if (root->nr_ordered_extents == 1) {
0b246afa 236 spin_lock(&fs_info->ordered_root_lock);
199c2a9c 237 BUG_ON(!list_empty(&root->ordered_root));
0b246afa
JM		 238 list_add_tail(&root->ordered_root, &fs_info->ordered_roots);
239 spin_unlock(&fs_info->ordered_root_lock);
199c2a9c
MX		 240 }
241 spin_unlock(&root->ordered_extent_lock);
3eaa2885 242
8b62f87b
JB		 243 /*
244 * We don't need the count_max_extents here, we can assume that all of
245 * that work has been done at higher layers, so this is truly the
246 * smallest the extent is going to get.
247 */
da69fea9
NB		 248 spin_lock(&inode->lock);
249 btrfs_mod_outstanding_extents(inode, 1);
250 spin_unlock(&inode->lock);
8b62f87b 251
dc17ff8f
CM		 252 return 0;
253}
254
e7fbf604 255int btrfs_add_ordered_extent(struct btrfs_inode *inode, u64 file_offset,
bffe633e
OS		 256 u64 disk_bytenr, u64 num_bytes, u64 disk_num_bytes,
257 int type)
4b46fce2 258{
e7fbf604 259 return __btrfs_add_ordered_extent(inode, file_offset, disk_bytenr,
bffe633e 260 num_bytes, disk_num_bytes, type, 0,
261507a0 261 BTRFS_COMPRESS_NONE);
4b46fce2
JB		 262}
263
c1e09520 264int btrfs_add_ordered_extent_dio(struct btrfs_inode *inode, u64 file_offset,
bffe633e
OS		 265 u64 disk_bytenr, u64 num_bytes,
266 u64 disk_num_bytes, int type)
4b46fce2 267{
c1e09520 268 return __btrfs_add_ordered_extent(inode, file_offset, disk_bytenr,
bffe633e 269 num_bytes, disk_num_bytes, type, 1,
261507a0
LZ		 270 BTRFS_COMPRESS_NONE);
271}
272
4cc61209 273int btrfs_add_ordered_extent_compress(struct btrfs_inode *inode, u64 file_offset,
bffe633e
OS		 274 u64 disk_bytenr, u64 num_bytes,
275 u64 disk_num_bytes, int type,
276 int compress_type)
261507a0 277{
4cc61209 278 return __btrfs_add_ordered_extent(inode, file_offset, disk_bytenr,
bffe633e 279 num_bytes, disk_num_bytes, type, 0,
261507a0 280 compress_type);
4b46fce2
JB		 281}
282
eb84ae03
CM		 283/*
284 * Add a struct btrfs_ordered_sum into the list of checksums to be inserted
3edf7d33
CM		 285 * when an ordered extent is finished. If the list covers more than one
286 * ordered extent, it is split across multiples.
eb84ae03 287 */
f9756261 288void btrfs_add_ordered_sum(struct btrfs_ordered_extent *entry,
143bede5 289 struct btrfs_ordered_sum *sum)
dc17ff8f 290{
e6dcd2dc 291 struct btrfs_ordered_inode_tree *tree;
dc17ff8f 292
f9756261 293 tree = &BTRFS_I(entry->inode)->ordered_tree;
5fd02043 294 spin_lock_irq(&tree->lock);
e6dcd2dc 295 list_add_tail(&sum->list, &entry->list);
5fd02043 296 spin_unlock_irq(&tree->lock);
dc17ff8f
CM		 297}
298
163cf09c
CM		 299/*
300 * this is used to account for finished IO across a given range
301 * of the file. The IO may span ordered extents. If
302 * a given ordered_extent is completely done, 1 is returned, otherwise
303 * 0.
304 *
305 * test_and_set_bit on a flag in the struct btrfs_ordered_extent is used
306 * to make sure this function only returns 1 once for a given ordered extent.
307 *
308 * file_offset is updated to one byte past the range that is recorded as
309 * complete. This allows you to walk forward in the file.
310 */
7095821e 311int btrfs_dec_test_first_ordered_pending(struct btrfs_inode *inode,
163cf09c 312 struct btrfs_ordered_extent **cached,
5fd02043 313 u64 *file_offset, u64 io_size, int uptodate)
163cf09c 314{
7095821e
NB		 315 struct btrfs_fs_info *fs_info = inode->root->fs_info;
316 struct btrfs_ordered_inode_tree *tree = &inode->ordered_tree;
163cf09c
CM		 317 struct rb_node *node;
318 struct btrfs_ordered_extent *entry = NULL;
319 int ret;
5fd02043 320 unsigned long flags;
163cf09c
CM		 321 u64 dec_end;
322 u64 dec_start;
323 u64 to_dec;
324
5fd02043 325 spin_lock_irqsave(&tree->lock, flags);
163cf09c
CM		 326 node = tree_search(tree, *file_offset);
327 if (!node) {
328 ret = 1;
329 goto out;
330 }
331
332 entry = rb_entry(node, struct btrfs_ordered_extent, rb_node);
333 if (!offset_in_entry(entry, *file_offset)) {
334 ret = 1;
335 goto out;
336 }
337
338 dec_start = max(*file_offset, entry->file_offset);
bffe633e
OS		 339 dec_end = min(*file_offset + io_size,
340 entry->file_offset + entry->num_bytes);
163cf09c
CM		 341 *file_offset = dec_end;
342 if (dec_start > dec_end) {
0b246afa
JM		 343 btrfs_crit(fs_info, "bad ordering dec_start %llu end %llu",
344 dec_start, dec_end);
163cf09c
CM		 345 }
346 to_dec = dec_end - dec_start;
347 if (to_dec > entry->bytes_left) {
0b246afa
JM		 348 btrfs_crit(fs_info,
349 "bad ordered accounting left %llu size %llu",
350 entry->bytes_left, to_dec);
163cf09c
CM		 351 }
352 entry->bytes_left -= to_dec;
5fd02043
JB		 353 if (!uptodate)
354 set_bit(BTRFS_ORDERED_IOERR, &entry->flags);
355
af7a6509 356 if (entry->bytes_left == 0) {
163cf09c 357 ret = test_and_set_bit(BTRFS_ORDERED_IO_DONE, &entry->flags);
093258e6
DS		 358 /* test_and_set_bit implies a barrier */
359 cond_wake_up_nomb(&entry->wait);
af7a6509 360 } else {
163cf09c 361 ret = 1;
af7a6509 362 }
163cf09c
CM		 363out:
364 if (!ret && cached && entry) {
365 *cached = entry;
e76edab7 366 refcount_inc(&entry->refs);
163cf09c 367 }
5fd02043 368 spin_unlock_irqrestore(&tree->lock, flags);
163cf09c
CM		 369 return ret == 0;
370}
371
eb84ae03
CM		 372/*
373 * this is used to account for finished IO across a given range
374 * of the file. The IO should not span ordered extents. If
375 * a given ordered_extent is completely done, 1 is returned, otherwise
376 * 0.
377 *
378 * test_and_set_bit on a flag in the struct btrfs_ordered_extent is used
379 * to make sure this function only returns 1 once for a given ordered extent.
380 */
90c0304c 381int btrfs_dec_test_ordered_pending(struct btrfs_inode *inode,
5a1a3df1 382 struct btrfs_ordered_extent **cached,
5fd02043 383 u64 file_offset, u64 io_size, int uptodate)
dc17ff8f 384{
90c0304c 385 struct btrfs_ordered_inode_tree *tree = &inode->ordered_tree;
dc17ff8f 386 struct rb_node *node;
5a1a3df1 387 struct btrfs_ordered_extent *entry = NULL;
5fd02043 388 unsigned long flags;
e6dcd2dc
CM		 389 int ret;
390
5fd02043
JB		 391 spin_lock_irqsave(&tree->lock, flags);
392 if (cached && *cached) {
393 entry = *cached;
394 goto have_entry;
395 }
396
e6dcd2dc 397 node = tree_search(tree, file_offset);
dc17ff8f 398 if (!node) {
e6dcd2dc
CM		 399 ret = 1;
400 goto out;
dc17ff8f
CM		 401 }
402
e6dcd2dc 403 entry = rb_entry(node, struct btrfs_ordered_extent, rb_node);
5fd02043 404have_entry:
e6dcd2dc
CM		 405 if (!offset_in_entry(entry, file_offset)) {
406 ret = 1;
407 goto out;
dc17ff8f 408 }
e6dcd2dc 409
8b62b72b 410 if (io_size > entry->bytes_left) {
90c0304c 411 btrfs_crit(inode->root->fs_info,
efe120a0 412 "bad ordered accounting left %llu size %llu",
c1c9ff7c 413 entry->bytes_left, io_size);
8b62b72b
CM		 414 }
415 entry->bytes_left -= io_size;
5fd02043
JB		 416 if (!uptodate)
417 set_bit(BTRFS_ORDERED_IOERR, &entry->flags);
418
af7a6509 419 if (entry->bytes_left == 0) {
e6dcd2dc 420 ret = test_and_set_bit(BTRFS_ORDERED_IO_DONE, &entry->flags);
093258e6
DS		 421 /* test_and_set_bit implies a barrier */
422 cond_wake_up_nomb(&entry->wait);
af7a6509 423 } else {
8b62b72b 424 ret = 1;
af7a6509 425 }
e6dcd2dc 426out:
5a1a3df1
JB		 427 if (!ret && cached && entry) {
428 *cached = entry;
e76edab7 429 refcount_inc(&entry->refs);
5a1a3df1 430 }
5fd02043 431 spin_unlock_irqrestore(&tree->lock, flags);
e6dcd2dc
CM		 432 return ret == 0;
433}
dc17ff8f 434
eb84ae03
CM		 435/*
436 * used to drop a reference on an ordered extent. This will free
437 * the extent if the last reference is dropped
438 */
143bede5 439void btrfs_put_ordered_extent(struct btrfs_ordered_extent *entry)
e6dcd2dc 440{
ba1da2f4
CM		 441 struct list_head *cur;
442 struct btrfs_ordered_sum *sum;
443
acbf1dd0 444 trace_btrfs_ordered_extent_put(BTRFS_I(entry->inode), entry);
1abe9b8a 445
e76edab7 446 if (refcount_dec_and_test(&entry->refs)) {
61de718f 447 ASSERT(list_empty(&entry->root_extent_list));
48778179 448 ASSERT(list_empty(&entry->log_list));
61de718f 449 ASSERT(RB_EMPTY_NODE(&entry->rb_node));
5fd02043
JB		 450 if (entry->inode)
451 btrfs_add_delayed_iput(entry->inode);
d397712b 452 while (!list_empty(&entry->list)) {
ba1da2f4
CM		 453 cur = entry->list.next;
454 sum = list_entry(cur, struct btrfs_ordered_sum, list);
455 list_del(&sum->list);
a3d46aea 456 kvfree(sum);
ba1da2f4 457 }
6352b91d 458 kmem_cache_free(btrfs_ordered_extent_cache, entry);
ba1da2f4 459 }
dc17ff8f 460}
cee36a03 461
eb84ae03
CM		 462/*
463 * remove an ordered extent from the tree. No references are dropped
5fd02043 464 * and waiters are woken up.
eb84ae03 465 */
71fe0a55 466void btrfs_remove_ordered_extent(struct btrfs_inode *btrfs_inode,
5fd02043 467 struct btrfs_ordered_extent *entry)
cee36a03 468{
e6dcd2dc 469 struct btrfs_ordered_inode_tree *tree;
8b62f87b 470 struct btrfs_root *root = btrfs_inode->root;
71fe0a55 471 struct btrfs_fs_info *fs_info = root->fs_info;
cee36a03 472 struct rb_node *node;
48778179 473 bool pending;
cee36a03 474
8b62f87b
JB		 475 /* This is paired with btrfs_add_ordered_extent. */
476 spin_lock(&btrfs_inode->lock);
477 btrfs_mod_outstanding_extents(btrfs_inode, -1);
478 spin_unlock(&btrfs_inode->lock);
479 if (root != fs_info->tree_root)
bffe633e
OS		 480 btrfs_delalloc_release_metadata(btrfs_inode, entry->num_bytes,
481 false);
8b62f87b 482
4297ff84 483 if (test_bit(BTRFS_ORDERED_DIRECT, &entry->flags))
bffe633e 484 percpu_counter_add_batch(&fs_info->dio_bytes, -entry->num_bytes,
4297ff84
JB		 485 fs_info->delalloc_batch);
486
8b62f87b 487 tree = &btrfs_inode->ordered_tree;
5fd02043 488 spin_lock_irq(&tree->lock);
e6dcd2dc 489 node = &entry->rb_node;
cee36a03 490 rb_erase(node, &tree->tree);
61de718f 491 RB_CLEAR_NODE(node);
1b8e7e45
FDBM		 492 if (tree->last == node)
493 tree->last = NULL;
e6dcd2dc 494 set_bit(BTRFS_ORDERED_COMPLETE, &entry->flags);
48778179 495 pending = test_and_clear_bit(BTRFS_ORDERED_PENDING, &entry->flags);
5fd02043 496 spin_unlock_irq(&tree->lock);
3eaa2885 497
48778179
FM		 498 /*
499 * The current running transaction is waiting on us, we need to let it
500 * know that we're complete and wake it up.
501 */
502 if (pending) {
503 struct btrfs_transaction *trans;
504
505 /*
506 * The checks for trans are just a formality, it should be set,
507 * but if it isn't we don't want to deref/assert under the spin
508 * lock, so be nice and check if trans is set, but ASSERT() so
509 * if it isn't set a developer will notice.
510 */
511 spin_lock(&fs_info->trans_lock);
512 trans = fs_info->running_transaction;
513 if (trans)
514 refcount_inc(&trans->use_count);
515 spin_unlock(&fs_info->trans_lock);
516
517 ASSERT(trans);
518 if (trans) {
519 if (atomic_dec_and_test(&trans->pending_ordered))
520 wake_up(&trans->pending_wait);
521 btrfs_put_transaction(trans);
522 }
523 }
524
199c2a9c 525 spin_lock(&root->ordered_extent_lock);
3eaa2885 526 list_del_init(&entry->root_extent_list);
199c2a9c 527 root->nr_ordered_extents--;
5a3f23d5 528
71fe0a55 529 trace_btrfs_ordered_extent_remove(btrfs_inode, entry);
1abe9b8a 530
199c2a9c 531 if (!root->nr_ordered_extents) {
0b246afa 532 spin_lock(&fs_info->ordered_root_lock);
199c2a9c
MX		 533 BUG_ON(list_empty(&root->ordered_root));
534 list_del_init(&root->ordered_root);
0b246afa 535 spin_unlock(&fs_info->ordered_root_lock);
199c2a9c
MX		 536 }
537 spin_unlock(&root->ordered_extent_lock);
e6dcd2dc 538 wake_up(&entry->wait);
cee36a03
CM		 539}
540
d458b054 541static void btrfs_run_ordered_extent_work(struct btrfs_work *work)
9afab882
MX		 542{
543 struct btrfs_ordered_extent *ordered;
544
545 ordered = container_of(work, struct btrfs_ordered_extent, flush_work);
c0a43603 546 btrfs_start_ordered_extent(ordered, 1);
9afab882
MX		 547 complete(&ordered->completion);
548}
549
d352ac68
CM		 550/*
551 * wait for all the ordered extents in a root. This is done when balancing
552 * space between drives.
553 */
6374e57a 554u64 btrfs_wait_ordered_extents(struct btrfs_root *root, u64 nr,
578def7c 555 const u64 range_start, const u64 range_len)
3eaa2885 556{
0b246afa 557 struct btrfs_fs_info *fs_info = root->fs_info;
578def7c
FM		 558 LIST_HEAD(splice);
559 LIST_HEAD(skipped);
560 LIST_HEAD(works);
9afab882 561 struct btrfs_ordered_extent *ordered, *next;
6374e57a 562 u64 count = 0;
578def7c 563 const u64 range_end = range_start + range_len;
3eaa2885 564
31f3d255 565 mutex_lock(&root->ordered_extent_mutex);
199c2a9c
MX		 566 spin_lock(&root->ordered_extent_lock);
567 list_splice_init(&root->ordered_extents, &splice);
b0244199 568 while (!list_empty(&splice) && nr) {
199c2a9c
MX		 569 ordered = list_first_entry(&splice, struct btrfs_ordered_extent,
570 root_extent_list);
578def7c 571
bffe633e
OS		 572 if (range_end <= ordered->disk_bytenr ||
573 ordered->disk_bytenr + ordered->disk_num_bytes <= range_start) {
578def7c
FM		 574 list_move_tail(&ordered->root_extent_list, &skipped);
575 cond_resched_lock(&root->ordered_extent_lock);
576 continue;
577 }
578
199c2a9c
MX		 579 list_move_tail(&ordered->root_extent_list,
580 &root->ordered_extents);
e76edab7 581 refcount_inc(&ordered->refs);
199c2a9c 582 spin_unlock(&root->ordered_extent_lock);
3eaa2885 583
a44903ab
QW		 584 btrfs_init_work(&ordered->flush_work,
585 btrfs_run_ordered_extent_work, NULL, NULL);
199c2a9c 586 list_add_tail(&ordered->work_list, &works);
0b246afa 587 btrfs_queue_work(fs_info->flush_workers, &ordered->flush_work);
3eaa2885 588
9afab882 589 cond_resched();
199c2a9c 590 spin_lock(&root->ordered_extent_lock);
6374e57a 591 if (nr != U64_MAX)
b0244199
MX		 592 nr--;
593 count++;
3eaa2885 594 }
578def7c 595 list_splice_tail(&skipped, &root->ordered_extents);
b0244199 596 list_splice_tail(&splice, &root->ordered_extents);
199c2a9c 597 spin_unlock(&root->ordered_extent_lock);
9afab882
MX		 598
599 list_for_each_entry_safe(ordered, next, &works, work_list) {
600 list_del_init(&ordered->work_list);
601 wait_for_completion(&ordered->completion);
9afab882 602 btrfs_put_ordered_extent(ordered);
9afab882
MX		 603 cond_resched();
604 }
31f3d255 605 mutex_unlock(&root->ordered_extent_mutex);
b0244199
MX		 606
607 return count;
3eaa2885
CM		 608}
609
042528f8 610void btrfs_wait_ordered_roots(struct btrfs_fs_info *fs_info, u64 nr,
6374e57a 611 const u64 range_start, const u64 range_len)
199c2a9c
MX		 612{
613 struct btrfs_root *root;
614 struct list_head splice;
6374e57a 615 u64 done;
199c2a9c
MX		 616
617 INIT_LIST_HEAD(&splice);
618
8b9d83cd 619 mutex_lock(&fs_info->ordered_operations_mutex);
199c2a9c
MX		 620 spin_lock(&fs_info->ordered_root_lock);
621 list_splice_init(&fs_info->ordered_roots, &splice);
b0244199 622 while (!list_empty(&splice) && nr) {
199c2a9c
MX		 623 root = list_first_entry(&splice, struct btrfs_root,
624 ordered_root);
00246528 625 root = btrfs_grab_root(root);
199c2a9c
MX		 626 BUG_ON(!root);
627 list_move_tail(&root->ordered_root,
628 &fs_info->ordered_roots);
629 spin_unlock(&fs_info->ordered_root_lock);
630
578def7c
FM		 631 done = btrfs_wait_ordered_extents(root, nr,
632 range_start, range_len);
00246528 633 btrfs_put_root(root);
199c2a9c
MX		 634
635 spin_lock(&fs_info->ordered_root_lock);
6374e57a 636 if (nr != U64_MAX) {
b0244199 637 nr -= done;
b0244199 638 }
199c2a9c 639 }
931aa877 640 list_splice_tail(&splice, &fs_info->ordered_roots);
199c2a9c 641 spin_unlock(&fs_info->ordered_root_lock);
8b9d83cd 642 mutex_unlock(&fs_info->ordered_operations_mutex);
199c2a9c
MX		 643}
644
eb84ae03
CM		 645/*
646 * Used to start IO or wait for a given ordered extent to finish.
647 *
648 * If wait is one, this effectively waits on page writeback for all the pages
649 * in the extent, and it waits on the io completion code to insert
650 * metadata into the btree corresponding to the extent
651 */
c0a43603 652void btrfs_start_ordered_extent(struct btrfs_ordered_extent *entry, int wait)
e6dcd2dc
CM		 653{
654 u64 start = entry->file_offset;
bffe633e 655 u64 end = start + entry->num_bytes - 1;
c0a43603 656 struct btrfs_inode *inode = BTRFS_I(entry->inode);
e1b81e67 657
c0a43603 658 trace_btrfs_ordered_extent_start(inode, entry);
1abe9b8a 659
eb84ae03
CM		 660 /*
661 * pages in the range can be dirty, clean or writeback. We
662 * start IO on any dirty ones so the wait doesn't stall waiting
b2570314 663 * for the flusher thread to find them
eb84ae03 664 */
4b46fce2 665 if (!test_bit(BTRFS_ORDERED_DIRECT, &entry->flags))
c0a43603 666 filemap_fdatawrite_range(inode->vfs_inode.i_mapping, start, end);
c8b97818 667 if (wait) {
e6dcd2dc
CM		 668 wait_event(entry->wait, test_bit(BTRFS_ORDERED_COMPLETE,
669 &entry->flags));
c8b97818 670 }
e6dcd2dc 671}
cee36a03 672
eb84ae03
CM		 673/*
674 * Used to wait on ordered extents across a large range of bytes.
675 */
0ef8b726 676int btrfs_wait_ordered_range(struct inode *inode, u64 start, u64 len)
e6dcd2dc 677{
0ef8b726 678 int ret = 0;
28aeeac1 679 int ret_wb = 0;
e6dcd2dc 680 u64 end;
e5a2217e 681 u64 orig_end;
e6dcd2dc 682 struct btrfs_ordered_extent *ordered;
e5a2217e
CM		 683
684 if (start + len < start) {
f421950f 685 orig_end = INT_LIMIT(loff_t);
e5a2217e
CM		 686 } else {
687 orig_end = start + len - 1;
f421950f
CM		 688 if (orig_end > INT_LIMIT(loff_t))
689 orig_end = INT_LIMIT(loff_t);
e5a2217e 690 }
551ebb2d 691
e5a2217e
CM		 692 /* start IO across the range first to instantiate any delalloc
693 * extents
694 */
728404da 695 ret = btrfs_fdatawrite_range(inode, start, orig_end);
0ef8b726
JB		 696 if (ret)
697 return ret;
728404da 698
28aeeac1
FM		 699 /*
700 * If we have a writeback error don't return immediately. Wait first
701 * for any ordered extents that haven't completed yet. This is to make
702 * sure no one can dirty the same page ranges and call writepages()
703 * before the ordered extents complete - to avoid failures (-EEXIST)
704 * when adding the new ordered extents to the ordered tree.
705 */
706 ret_wb = filemap_fdatawait_range(inode->i_mapping, start, orig_end);
e5a2217e 707
f421950f 708 end = orig_end;
d397712b 709 while (1) {
6d072c8e 710 ordered = btrfs_lookup_first_ordered_extent(BTRFS_I(inode), end);
d397712b 711 if (!ordered)
e6dcd2dc 712 break;
e5a2217e 713 if (ordered->file_offset > orig_end) {
e6dcd2dc
CM		 714 btrfs_put_ordered_extent(ordered);
715 break;
716 }
bffe633e 717 if (ordered->file_offset + ordered->num_bytes <= start) {
e6dcd2dc
CM		 718 btrfs_put_ordered_extent(ordered);
719 break;
720 }
c0a43603 721 btrfs_start_ordered_extent(ordered, 1);
e6dcd2dc 722 end = ordered->file_offset;
e75fd33b
FM		 723 /*
724 * If the ordered extent had an error save the error but don't
725 * exit without waiting first for all other ordered extents in
726 * the range to complete.
727 */
0ef8b726
JB		 728 if (test_bit(BTRFS_ORDERED_IOERR, &ordered->flags))
729 ret = -EIO;
e6dcd2dc 730 btrfs_put_ordered_extent(ordered);
e75fd33b 731 if (end == 0 || end == start)
e6dcd2dc
CM		 732 break;
733 end--;
734 }
28aeeac1 735 return ret_wb ? ret_wb : ret;
cee36a03
CM		 736}
737
eb84ae03
CM		 738/*
739 * find an ordered extent corresponding to file_offset. return NULL if
740 * nothing is found, otherwise take a reference on the extent and return it
741 */
c3504372 742struct btrfs_ordered_extent *btrfs_lookup_ordered_extent(struct btrfs_inode *inode,
e6dcd2dc
CM		 743 u64 file_offset)
744{
745 struct btrfs_ordered_inode_tree *tree;
746 struct rb_node *node;
747 struct btrfs_ordered_extent *entry = NULL;
748
c3504372 749 tree = &inode->ordered_tree;
5fd02043 750 spin_lock_irq(&tree->lock);
e6dcd2dc
CM		 751 node = tree_search(tree, file_offset);
752 if (!node)
753 goto out;
754
755 entry = rb_entry(node, struct btrfs_ordered_extent, rb_node);
756 if (!offset_in_entry(entry, file_offset))
757 entry = NULL;
758 if (entry)
e76edab7 759 refcount_inc(&entry->refs);
e6dcd2dc 760out:
5fd02043 761 spin_unlock_irq(&tree->lock);
e6dcd2dc
CM		 762 return entry;
763}
764
4b46fce2
JB		 765/* Since the DIO code tries to lock a wide area we need to look for any ordered
766 * extents that exist in the range, rather than just the start of the range.
767 */
a776c6fa
NB		 768struct btrfs_ordered_extent *btrfs_lookup_ordered_range(
769 struct btrfs_inode *inode, u64 file_offset, u64 len)
4b46fce2
JB		 770{
771 struct btrfs_ordered_inode_tree *tree;
772 struct rb_node *node;
773 struct btrfs_ordered_extent *entry = NULL;
774
a776c6fa 775 tree = &inode->ordered_tree;
5fd02043 776 spin_lock_irq(&tree->lock);
4b46fce2
JB		 777 node = tree_search(tree, file_offset);
778 if (!node) {
779 node = tree_search(tree, file_offset + len);
780 if (!node)
781 goto out;
782 }
783
784 while (1) {
785 entry = rb_entry(node, struct btrfs_ordered_extent, rb_node);
786 if (range_overlaps(entry, file_offset, len))
787 break;
788
789 if (entry->file_offset >= file_offset + len) {
790 entry = NULL;
791 break;
792 }
793 entry = NULL;
794 node = rb_next(node);
795 if (!node)
796 break;
797 }
798out:
799 if (entry)
e76edab7 800 refcount_inc(&entry->refs);
5fd02043 801 spin_unlock_irq(&tree->lock);
4b46fce2
JB		 802 return entry;
803}
804
48778179
FM		 805/*
806 * Adds all ordered extents to the given list. The list ends up sorted by the
807 * file_offset of the ordered extents.
808 */
809void btrfs_get_ordered_extents_for_logging(struct btrfs_inode *inode,
810 struct list_head *list)
811{
812 struct btrfs_ordered_inode_tree *tree = &inode->ordered_tree;
813 struct rb_node *n;
814
815 ASSERT(inode_is_locked(&inode->vfs_inode));
816
817 spin_lock_irq(&tree->lock);
818 for (n = rb_first(&tree->tree); n; n = rb_next(n)) {
819 struct btrfs_ordered_extent *ordered;
820
821 ordered = rb_entry(n, struct btrfs_ordered_extent, rb_node);
822
823 if (test_bit(BTRFS_ORDERED_LOGGED, &ordered->flags))
824 continue;
825
826 ASSERT(list_empty(&ordered->log_list));
827 list_add_tail(&ordered->log_list, list);
828 refcount_inc(&ordered->refs);
829 }
830 spin_unlock_irq(&tree->lock);
831}
832
eb84ae03
CM		 833/*
834 * lookup and return any extent before 'file_offset'. NULL is returned
835 * if none is found
836 */
e6dcd2dc 837struct btrfs_ordered_extent *
6d072c8e 838btrfs_lookup_first_ordered_extent(struct btrfs_inode *inode, u64 file_offset)
e6dcd2dc
CM		 839{
840 struct btrfs_ordered_inode_tree *tree;
841 struct rb_node *node;
842 struct btrfs_ordered_extent *entry = NULL;
843
6d072c8e 844 tree = &inode->ordered_tree;
5fd02043 845 spin_lock_irq(&tree->lock);
e6dcd2dc
CM		 846 node = tree_search(tree, file_offset);
847 if (!node)
848 goto out;
849
850 entry = rb_entry(node, struct btrfs_ordered_extent, rb_node);
e76edab7 851 refcount_inc(&entry->refs);
e6dcd2dc 852out:
5fd02043 853 spin_unlock_irq(&tree->lock);
e6dcd2dc 854 return entry;
81d7ed29 855}
dbe674a9 856
ffa87214
NB		 857/*
858 * btrfs_flush_ordered_range - Lock the passed range and ensures all pending
859 * ordered extents in it are run to completion.
860 *
ffa87214
NB		 861 * @inode: Inode whose ordered tree is to be searched
862 * @start: Beginning of range to flush
863 * @end: Last byte of range to lock
864 * @cached_state: If passed, will return the extent state responsible for the
865 * locked range. It's the caller's responsibility to free the cached state.
866 *
867 * This function always returns with the given range locked, ensuring after it's
868 * called no order extent can be pending.
869 */
b272ae22 870void btrfs_lock_and_flush_ordered_range(struct btrfs_inode *inode, u64 start,
ffa87214
NB		 871 u64 end,
872 struct extent_state **cached_state)
873{
874 struct btrfs_ordered_extent *ordered;
a3b46b86
NA		 875 struct extent_state *cache = NULL;
876 struct extent_state **cachedp = &cache;
bd80d94e
NB		 877
878 if (cached_state)
a3b46b86 879 cachedp = cached_state;
ffa87214
NB		 880
881 while (1) {
b272ae22 882 lock_extent_bits(&inode->io_tree, start, end, cachedp);
ffa87214
NB		 883 ordered = btrfs_lookup_ordered_range(inode, start,
884 end - start + 1);
bd80d94e
NB		 885 if (!ordered) {
886 /*
887 * If no external cached_state has been passed then
888 * decrement the extra ref taken for cachedp since we
889 * aren't exposing it outside of this function
890 */
891 if (!cached_state)
a3b46b86 892 refcount_dec(&cache->refs);
ffa87214 893 break;
bd80d94e 894 }
b272ae22 895 unlock_extent_cached(&inode->io_tree, start, end, cachedp);
c0a43603 896 btrfs_start_ordered_extent(ordered, 1);
ffa87214
NB		 897 btrfs_put_ordered_extent(ordered);
898 }
899}
900
6352b91d
MX		 901int __init ordered_data_init(void)
902{
903 btrfs_ordered_extent_cache = kmem_cache_create("btrfs_ordered_extent",
904 sizeof(struct btrfs_ordered_extent), 0,
fba4b697 905 SLAB_MEM_SPREAD,
6352b91d
MX		 906 NULL);
907 if (!btrfs_ordered_extent_cache)
908 return -ENOMEM;
25287e0a 909
6352b91d
MX		 910 return 0;
911}
912
e67c718b 913void __cold ordered_data_exit(void)
6352b91d 914{
5598e900 915 kmem_cache_destroy(btrfs_ordered_extent_cache);
6352b91d 916}
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