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authorChris Mason <chris.mason@oracle.com>2007-03-01 15:16:26 -0500
committerDavid Woodhouse <dwmw2@hera.kernel.org>2007-03-01 15:16:26 -0500
commit79f95c82dca7665f32bafd68b7cdf4a01fab0840 (patch)
tree255a204980ad2c6481b36a1d8257d5ee84277d74 /fs/btrfs/ctree.c
parentbb8039515d7c1b521ea22f095b43618ccc771885 (diff)
Btrfs: Fixup the code to merge during path walks
Add a bulk insert/remove test to random-test Add the quick-test code back as another regression test Signed-off-by: Chris Mason <chris.mason@oracle.com>
Diffstat (limited to 'fs/btrfs/ctree.c')
-rw-r--r--fs/btrfs/ctree.c137
1 files changed, 113 insertions, 24 deletions
diff --git a/fs/btrfs/ctree.c b/fs/btrfs/ctree.c
index df4a19d65206..afa5bc5c7c1a 100644
--- a/fs/btrfs/ctree.c
+++ b/fs/btrfs/ctree.c
@@ -12,6 +12,9 @@ static int split_leaf(struct ctree_root *root, struct ctree_path *path,
12 int data_size); 12 int data_size);
13static int push_node_left(struct ctree_root *root, struct tree_buffer *dst, 13static int push_node_left(struct ctree_root *root, struct tree_buffer *dst,
14 struct tree_buffer *src); 14 struct tree_buffer *src);
15static int balance_node_right(struct ctree_root *root,
16 struct tree_buffer *dst_buf,
17 struct tree_buffer *src_buf);
15static int del_ptr(struct ctree_root *root, struct ctree_path *path, int level, 18static int del_ptr(struct ctree_root *root, struct ctree_path *path, int level,
16 int slot); 19 int slot);
17 20
@@ -217,15 +220,16 @@ static int balance_level(struct ctree_root *root, struct ctree_path *path,
217 int ret = 0; 220 int ret = 0;
218 int wret; 221 int wret;
219 int pslot; 222 int pslot;
220 int used = 0;
221 int count;
222 int orig_slot = path->slots[level]; 223 int orig_slot = path->slots[level];
224 u64 orig_ptr;
223 225
224 if (level == 0) 226 if (level == 0)
225 return 0; 227 return 0;
226 228
227 mid_buf = path->nodes[level]; 229 mid_buf = path->nodes[level];
228 mid = &mid_buf->node; 230 mid = &mid_buf->node;
231 orig_ptr = mid->blockptrs[orig_slot];
232
229 if (level < MAX_LEVEL - 1) 233 if (level < MAX_LEVEL - 1)
230 parent_buf = path->nodes[level + 1]; 234 parent_buf = path->nodes[level + 1];
231 pslot = path->slots[level + 1]; 235 pslot = path->slots[level + 1];
@@ -253,24 +257,26 @@ static int balance_level(struct ctree_root *root, struct ctree_path *path,
253 if (mid->header.nritems > NODEPTRS_PER_BLOCK / 4) 257 if (mid->header.nritems > NODEPTRS_PER_BLOCK / 4)
254 return 0; 258 return 0;
255 259
256 // print_tree(root, root->node);
257 left_buf = read_node_slot(root, parent_buf, pslot - 1); 260 left_buf = read_node_slot(root, parent_buf, pslot - 1);
258 right_buf = read_node_slot(root, parent_buf, pslot + 1); 261 right_buf = read_node_slot(root, parent_buf, pslot + 1);
259 if (right_buf) { 262
260 right = &right_buf->node; 263 /* first, try to make some room in the middle buffer */
261 used = right->header.nritems;
262 count = 1;
263 }
264 if (left_buf) { 264 if (left_buf) {
265 left = &left_buf->node; 265 left = &left_buf->node;
266 used += left->header.nritems;
267 orig_slot += left->header.nritems; 266 orig_slot += left->header.nritems;
268 count++; 267 wret = push_node_left(root, left_buf, mid_buf);
268 if (wret < 0)
269 ret = wret;
269 } 270 }
270 if (left_buf) 271
271 push_node_left(root, left_buf, mid_buf); 272 /*
273 * then try to empty the right most buffer into the middle
274 */
272 if (right_buf) { 275 if (right_buf) {
273 push_node_left(root, mid_buf, right_buf); 276 right = &right_buf->node;
277 wret = push_node_left(root, mid_buf, right_buf);
278 if (wret < 0)
279 ret = wret;
274 if (right->header.nritems == 0) { 280 if (right->header.nritems == 0) {
275 u64 blocknr = right_buf->blocknr; 281 u64 blocknr = right_buf->blocknr;
276 tree_block_release(root, right_buf); 282 tree_block_release(root, right_buf);
@@ -285,9 +291,29 @@ static int balance_level(struct ctree_root *root, struct ctree_path *path,
285 } else { 291 } else {
286 memcpy(parent->keys + pslot + 1, right->keys, 292 memcpy(parent->keys + pslot + 1, right->keys,
287 sizeof(struct key)); 293 sizeof(struct key));
294 wret = write_tree_block(root, parent_buf);
295 if (wret)
296 ret = wret;
288 } 297 }
289 } 298 }
299 if (mid->header.nritems == 1) {
300 /*
301 * we're not allowed to leave a node with one item in the
302 * tree during a delete. A deletion from lower in the tree
303 * could try to delete the only pointer in this node.
304 * So, pull some keys from the left.
305 * There has to be a left pointer at this point because
306 * otherwise we would have pulled some pointers from the
307 * right
308 */
309 BUG_ON(!left_buf);
310 wret = balance_node_right(root, mid_buf, left_buf);
311 if (wret < 0)
312 ret = wret;
313 BUG_ON(wret == 1);
314 }
290 if (mid->header.nritems == 0) { 315 if (mid->header.nritems == 0) {
316 /* we've managed to empty the middle node, drop it */
291 u64 blocknr = mid_buf->blocknr; 317 u64 blocknr = mid_buf->blocknr;
292 tree_block_release(root, mid_buf); 318 tree_block_release(root, mid_buf);
293 mid_buf = NULL; 319 mid_buf = NULL;
@@ -298,11 +324,17 @@ static int balance_level(struct ctree_root *root, struct ctree_path *path,
298 wret = free_extent(root, blocknr, 1); 324 wret = free_extent(root, blocknr, 1);
299 if (wret) 325 if (wret)
300 ret = wret; 326 ret = wret;
301 } else 327 } else {
328 /* update the parent key to reflect our changes */
302 memcpy(parent->keys + pslot, mid->keys, sizeof(struct key)); 329 memcpy(parent->keys + pslot, mid->keys, sizeof(struct key));
330 wret = write_tree_block(root, parent_buf);
331 if (wret)
332 ret = wret;
333 }
303 334
335 /* update the path */
304 if (left_buf) { 336 if (left_buf) {
305 if (left->header.nritems >= orig_slot) { 337 if (left->header.nritems > orig_slot) {
306 left_buf->count++; // released below 338 left_buf->count++; // released below
307 path->nodes[level] = left_buf; 339 path->nodes[level] = left_buf;
308 path->slots[level + 1] -= 1; 340 path->slots[level + 1] -= 1;
@@ -314,12 +346,15 @@ static int balance_level(struct ctree_root *root, struct ctree_path *path,
314 path->slots[level] = orig_slot; 346 path->slots[level] = orig_slot;
315 } 347 }
316 } 348 }
349 /* double check we haven't messed things up */
350 check_block(path, level);
351 if (orig_ptr != path->nodes[level]->node.blockptrs[path->slots[level]])
352 BUG();
317 353
318 if (right_buf) 354 if (right_buf)
319 tree_block_release(root, right_buf); 355 tree_block_release(root, right_buf);
320 if (left_buf) 356 if (left_buf)
321 tree_block_release(root, left_buf); 357 tree_block_release(root, left_buf);
322
323 return ret; 358 return ret;
324} 359}
325 360
@@ -378,6 +413,7 @@ again:
378 goto again; 413 goto again;
379 c = &b->node; 414 c = &b->node;
380 slot = p->slots[level]; 415 slot = p->slots[level];
416 BUG_ON(c->header.nritems == 1);
381 } 417 }
382 b = read_tree_block(root, c->blockptrs[slot]); 418 b = read_tree_block(root, c->blockptrs[slot]);
383 } else { 419 } else {
@@ -433,13 +469,7 @@ static int fixup_low_keys(struct ctree_root *root,
433 469
434/* 470/*
435 * try to push data from one node into the next node left in the 471 * try to push data from one node into the next node left in the
436 * tree. The src node is found at specified level in the path. 472 * tree.
437 * If some bytes were pushed, return 0, otherwise return 1.
438 *
439 * Lower nodes/leaves in the path are not touched, higher nodes may
440 * be modified to reflect the push.
441 *
442 * The path is altered to reflect the push.
443 * 473 *
444 * returns 0 if some ptrs were pushed left, < 0 if there was some horrible 474 * returns 0 if some ptrs were pushed left, < 0 if there was some horrible
445 * error, and > 0 if there was no room in the left hand block. 475 * error, and > 0 if there was no room in the left hand block.
@@ -463,7 +493,8 @@ static int push_node_left(struct ctree_root *root, struct tree_buffer *dst_buf,
463 } 493 }
464 494
465 if (src_nritems < push_items) 495 if (src_nritems < push_items)
466 push_items =src_nritems; 496 push_items = src_nritems;
497
467 memcpy(dst->keys + dst_nritems, src->keys, 498 memcpy(dst->keys + dst_nritems, src->keys,
468 push_items * sizeof(struct key)); 499 push_items * sizeof(struct key));
469 memcpy(dst->blockptrs + dst_nritems, src->blockptrs, 500 memcpy(dst->blockptrs + dst_nritems, src->blockptrs,
@@ -488,6 +519,64 @@ static int push_node_left(struct ctree_root *root, struct tree_buffer *dst_buf,
488} 519}
489 520
490/* 521/*
522 * try to push data from one node into the next node right in the
523 * tree.
524 *
525 * returns 0 if some ptrs were pushed, < 0 if there was some horrible
526 * error, and > 0 if there was no room in the right hand block.
527 *
528 * this will only push up to 1/2 the contents of the left node over
529 */
530static int balance_node_right(struct ctree_root *root,
531 struct tree_buffer *dst_buf,
532 struct tree_buffer *src_buf)
533{
534 struct node *src = &src_buf->node;
535 struct node *dst = &dst_buf->node;
536 int push_items = 0;
537 int max_push;
538 int src_nritems;
539 int dst_nritems;
540 int ret = 0;
541 int wret;
542
543 src_nritems = src->header.nritems;
544 dst_nritems = dst->header.nritems;
545 push_items = NODEPTRS_PER_BLOCK - dst_nritems;
546 if (push_items <= 0) {
547 return 1;
548 }
549
550 max_push = src_nritems / 2 + 1;
551 /* don't try to empty the node */
552 if (max_push > src_nritems)
553 return 1;
554 if (max_push < push_items)
555 push_items = max_push;
556
557 memmove(dst->keys + push_items, dst->keys,
558 dst_nritems * sizeof(struct key));
559 memmove(dst->blockptrs + push_items, dst->blockptrs,
560 dst_nritems * sizeof(u64));
561 memcpy(dst->keys, src->keys + src_nritems - push_items,
562 push_items * sizeof(struct key));
563 memcpy(dst->blockptrs, src->blockptrs + src_nritems - push_items,
564 push_items * sizeof(u64));
565
566 src->header.nritems -= push_items;
567 dst->header.nritems += push_items;
568
569 wret = write_tree_block(root, src_buf);
570 if (wret < 0)
571 ret = wret;
572
573 wret = write_tree_block(root, dst_buf);
574 if (wret < 0)
575 ret = wret;
576 return ret;
577}
578
579/*
491 * helper function to insert a new root level in the tree. 580 * helper function to insert a new root level in the tree.
492 * A new node is allocated, and a single item is inserted to 581 * A new node is allocated, and a single item is inserted to
493 * point to the existing root 582 * point to the existing root