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1 /*
2 * Copyright (c) 2004-2008 Apple Inc. All rights reserved.
3 *
4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
14 *
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
17 *
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
25 *
26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27 */
28 #include "../headers/BTreesPrivate.h"
29 #include "sys/malloc.h"
30 #include <kern/locks.h>
31
32
33 /*
34 * B-tree Node Reserve
35 *
36 * BTReserveSpace
37 * BTReleaseReserve
38 * BTUpdateReserve
39 *
40 * Each kernel thread can have it's own reserve of b-tree
41 * nodes. This reserve info is kept in a hash table.
42 *
43 * Don't forget to call BTReleaseReserve when you're finished
44 * or you will leave stale node reserves in the hash.
45 */
46
47
48 /*
49 * BE CAREFUL WHEN INCREASING THE SIZE OF THIS STRUCT!
50 *
51 * It must remain equal in size to the opaque cat_cookie_t
52 * struct (in hfs_catalog.h).
53 */
54 struct nreserve {
55 LIST_ENTRY(nreserve) nr_hash; /* hash chain */
56 int nr_nodecnt; /* count of nodes held in reserve */
57 int nr_newnodes; /* nodes that were allocated */
58 struct vnode *nr_btvp; /* b-tree file vnode */
59 void *nr_tag; /* unique tag (per thread) */
60 };
61
62 #define NR_GET_TAG() (current_thread())
63
64 #define NR_CACHE 17
65
66 #define NR_HASH(btvp, tag) \
67 (&nr_hashtbl[((((intptr_t)(btvp)) >> 8) ^ ((intptr_t)(tag) >> 4)) & nr_hashmask])
68
69 LIST_HEAD(nodereserve, nreserve) *nr_hashtbl;
70
71 u_long nr_hashmask;
72
73 lck_grp_t * nr_lck_grp;
74 lck_grp_attr_t * nr_lck_grp_attr;
75 lck_attr_t * nr_lck_attr;
76
77 lck_mtx_t nr_mutex;
78
79 /* Internal Node Reserve Hash Routines (private) */
80 static void nr_insert (struct vnode *, struct nreserve *nrp, int);
81 static void nr_delete (struct vnode *, struct nreserve *nrp, int *);
82 static void nr_update (struct vnode *, int);
83
84
85 /*
86 * BTReserveSetup - initialize the node reserve hash table
87 */
88 __private_extern__
89 void
90 BTReserveSetup()
91 {
92 if (sizeof(struct nreserve) != sizeof(cat_cookie_t))
93 panic("hfs: BTReserveSetup: nreserve size != opaque struct size");
94
95 nr_hashtbl = hashinit(NR_CACHE, M_HFSMNT, &nr_hashmask);
96
97 nr_lck_grp_attr= lck_grp_attr_alloc_init();
98 nr_lck_grp = lck_grp_alloc_init("btree_node_reserve", nr_lck_grp_attr);
99
100 nr_lck_attr = lck_attr_alloc_init();
101
102 lck_mtx_init(&nr_mutex, nr_lck_grp, nr_lck_attr);
103 }
104
105
106 /*
107 * BTReserveSpace - obtain a node reserve (for current thread)
108 *
109 * Used by the Catalog Layer (hfs_catalog.c) to reserve space.
110 *
111 * When data is NULL, we only insure that there's enough space
112 * but it is not reserved (assumes you keep the b-tree lock).
113 */
114 __private_extern__
115 int
116 BTReserveSpace(FCB *file, int operations, void* data)
117 {
118 BTreeControlBlock *btree;
119 int rsrvNodes, availNodes, totalNodes;
120 int height;
121 int inserts, deletes;
122 u_int32_t clumpsize;
123 int err = 0;
124
125 btree = (BTreeControlBlockPtr)file->fcbBTCBPtr;
126 clumpsize = file->ff_clumpsize;
127
128 REQUIRE_FILE_LOCK(btree->fileRefNum, true);
129
130 /*
131 * The node reserve is based on the number of b-tree
132 * operations (insert/deletes) and the height of the
133 * tree.
134 */
135 height = btree->treeDepth;
136 if (height < 2)
137 height = 2; /* prevent underflow in rsrvNodes calculation */
138 inserts = operations & 0xffff;
139 deletes = operations >> 16;
140
141 /*
142 * Allow for at least one root split.
143 *
144 * Each delete operation can propogate a big key up the
145 * index. This can cause a split at each level up.
146 *
147 * Each insert operation can cause a local split and a
148 * split at each level up.
149 */
150 rsrvNodes = 1 + (deletes * (height - 2)) + (inserts * (height - 1));
151
152 availNodes = btree->freeNodes - btree->reservedNodes;
153
154 if (rsrvNodes > availNodes) {
155 u_int32_t reqblks, freeblks, rsrvblks;
156 struct hfsmount *hfsmp;
157
158 /* Try and reserve the last 5% of the disk space for file blocks. */
159 hfsmp = VTOVCB(btree->fileRefNum);
160 rsrvblks = ((u_int64_t)hfsmp->allocLimit * 5) / 100;
161 rsrvblks = MIN(rsrvblks, HFS_MAXRESERVE / hfsmp->blockSize);
162 freeblks = hfs_freeblks(hfsmp, 0);
163 if (freeblks <= rsrvblks) {
164 /* When running low, disallow adding new items. */
165 if ((inserts > 0) && (deletes == 0)) {
166 return (ENOSPC);
167 }
168 freeblks = 0;
169 } else {
170 freeblks -= rsrvblks;
171 }
172 reqblks = clumpsize / hfsmp->blockSize;
173
174 if (reqblks > freeblks) {
175 reqblks = ((rsrvNodes - availNodes) * btree->nodeSize) / hfsmp->blockSize;
176 /* When running low, disallow adding new items. */
177 if ((reqblks > freeblks) && (inserts > 0) && (deletes == 0)) {
178 return (ENOSPC);
179 }
180 file->ff_clumpsize = freeblks * hfsmp->blockSize;
181 }
182 totalNodes = rsrvNodes + btree->totalNodes - availNodes;
183
184 /* See if we also need a map node */
185 if (totalNodes > (int)CalcMapBits(btree)) {
186 ++totalNodes;
187 }
188 if ((err = ExtendBTree(btree, totalNodes))) {
189 goto out;
190 }
191 }
192 /* Save this reserve if this is a persistent request. */
193 if (data) {
194 btree->reservedNodes += rsrvNodes;
195 nr_insert(btree->fileRefNum, (struct nreserve *)data, rsrvNodes);
196 }
197 out:
198 /* Put clump size back if it was changed. */
199 if (file->ff_clumpsize != clumpsize)
200 file->ff_clumpsize = clumpsize;
201
202 return (err);
203 }
204
205
206 /*
207 * BTReleaseReserve - release the node reserve held by current thread
208 *
209 * Used by the Catalog Layer (hfs_catalog.c) to relinquish reserved space.
210 */
211 __private_extern__
212 int
213 BTReleaseReserve(FCB *file, void* data)
214 {
215 BTreeControlBlock *btree;
216 int nodecnt;
217
218 btree = (BTreeControlBlockPtr)file->fcbBTCBPtr;
219
220 REQUIRE_FILE_LOCK(btree->fileRefNum, true);
221
222 nr_delete(btree->fileRefNum, (struct nreserve *)data, &nodecnt);
223
224 if (nodecnt)
225 btree->reservedNodes -= nodecnt;
226
227 return (0);
228 }
229
230 /*
231 * BTUpdateReserve - update a node reserve for allocations that occurred.
232 */
233 __private_extern__
234 void
235 BTUpdateReserve(BTreeControlBlockPtr btreePtr, int nodes)
236 {
237 nr_update(btreePtr->fileRefNum, nodes);
238 }
239
240
241 /*----------------------------------------------------------------------------*/
242 /* Node Reserve Hash Functions (private) */
243
244
245 int nrinserts = 0;
246 int nrdeletes = 0;
247
248 /*
249 * Insert a new node reserve.
250 */
251 static void
252 nr_insert(struct vnode * btvp, struct nreserve *nrp, int nodecnt)
253 {
254 struct nodereserve *nrhead;
255 struct nreserve *tmp_nrp;
256 void * tag = NR_GET_TAG();
257
258 /*
259 * Check the cache - there may already be a reserve
260 */
261 lck_mtx_lock(&nr_mutex);
262 nrhead = NR_HASH(btvp, tag);
263 for (tmp_nrp = nrhead->lh_first; tmp_nrp;
264 tmp_nrp = tmp_nrp->nr_hash.le_next) {
265 if ((tmp_nrp->nr_tag == tag) && (tmp_nrp->nr_btvp == btvp)) {
266 nrp->nr_tag = 0;
267 tmp_nrp->nr_nodecnt += nodecnt;
268 lck_mtx_unlock(&nr_mutex);
269 return;
270 }
271 }
272
273 nrp->nr_nodecnt = nodecnt;
274 nrp->nr_newnodes = 0;
275 nrp->nr_btvp = btvp;
276 nrp->nr_tag = tag;
277 LIST_INSERT_HEAD(nrhead, nrp, nr_hash);
278 ++nrinserts;
279 lck_mtx_unlock(&nr_mutex);
280 }
281
282 /*
283 * Delete a node reserve.
284 */
285 static void
286 nr_delete(struct vnode * btvp, struct nreserve *nrp, int *nodecnt)
287 {
288 void * tag = NR_GET_TAG();
289
290 lck_mtx_lock(&nr_mutex);
291 if (nrp->nr_tag) {
292 if ((nrp->nr_tag != tag) || (nrp->nr_btvp != btvp))
293 panic("hfs: nr_delete: invalid NR (%p)", nrp);
294 LIST_REMOVE(nrp, nr_hash);
295 *nodecnt = nrp->nr_nodecnt;
296 bzero(nrp, sizeof(struct nreserve));
297 ++nrdeletes;
298 } else {
299 *nodecnt = 0;
300 }
301 lck_mtx_unlock(&nr_mutex);
302 }
303
304
305 /*
306 * Update a node reserve for any allocations that occurred.
307 */
308 static void
309 nr_update(struct vnode * btvp, int nodecnt)
310 {
311 struct nodereserve *nrhead;
312 struct nreserve *nrp;
313 void* tag = NR_GET_TAG();
314
315 lck_mtx_lock(&nr_mutex);
316
317 nrhead = NR_HASH(btvp, tag);
318 for (nrp = nrhead->lh_first; nrp; nrp = nrp->nr_hash.le_next) {
319 if ((nrp->nr_tag == tag) && (nrp->nr_btvp == btvp)) {
320 nrp->nr_newnodes += nodecnt;
321 break;
322 }
323 }
324 lck_mtx_unlock(&nr_mutex);
325 }