chfs_malloc.c revision 1.3.2.1
1 1.3.2.1 tls /* $NetBSD: chfs_malloc.c,v 1.3.2.1 2012/11/20 03:02:52 tls Exp $ */ 2 1.1 ahoka 3 1.1 ahoka /*- 4 1.1 ahoka * Copyright (c) 2010 Department of Software Engineering, 5 1.1 ahoka * University of Szeged, Hungary 6 1.1 ahoka * Copyright (C) 2010 Tamas Toth <ttoth (at) inf.u-szeged.hu> 7 1.1 ahoka * Copyright (C) 2010 Adam Hoka <ahoka (at) NetBSD.org> 8 1.1 ahoka * All rights reserved. 9 1.1 ahoka * 10 1.1 ahoka * This code is derived from software contributed to The NetBSD Foundation 11 1.1 ahoka * by the Department of Software Engineering, University of Szeged, Hungary 12 1.1 ahoka * 13 1.1 ahoka * Redistribution and use in source and binary forms, with or without 14 1.1 ahoka * modification, are permitted provided that the following conditions 15 1.1 ahoka * are met: 16 1.1 ahoka * 1. Redistributions of source code must retain the above copyright 17 1.1 ahoka * notice, this list of conditions and the following disclaimer. 18 1.1 ahoka * 2. Redistributions in binary form must reproduce the above copyright 19 1.1 ahoka * notice, this list of conditions and the following disclaimer in the 20 1.1 ahoka * documentation and/or other materials provided with the distribution. 21 1.1 ahoka * 22 1.1 ahoka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 ahoka * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 ahoka * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 ahoka * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 ahoka * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 27 1.1 ahoka * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 28 1.1 ahoka * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 29 1.1 ahoka * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 30 1.1 ahoka * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31 1.1 ahoka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 1.1 ahoka * SUCH DAMAGE. 33 1.1 ahoka */ 34 1.1 ahoka 35 1.1 ahoka #include "chfs.h" 36 1.1 ahoka #include <sys/pool.h> 37 1.1 ahoka 38 1.1 ahoka pool_cache_t chfs_vnode_cache; 39 1.1 ahoka pool_cache_t chfs_nrefs_cache; 40 1.1 ahoka pool_cache_t chfs_flash_vnode_cache; 41 1.1 ahoka pool_cache_t chfs_flash_dirent_cache; 42 1.1 ahoka pool_cache_t chfs_flash_dnode_cache; 43 1.1 ahoka pool_cache_t chfs_node_frag_cache; 44 1.1 ahoka pool_cache_t chfs_tmp_dnode_cache; 45 1.1 ahoka pool_cache_t chfs_tmp_dnode_info_cache; 46 1.1 ahoka 47 1.3.2.1 tls /* chfs_alloc_pool_caches - allocating pool caches */ 48 1.1 ahoka int 49 1.2 christos chfs_alloc_pool_caches(void) 50 1.1 ahoka { 51 1.1 ahoka chfs_vnode_cache = pool_cache_init( 52 1.1 ahoka sizeof(struct chfs_vnode_cache), 53 1.1 ahoka 0, 0, 0, "chfs_vnode_cache", NULL, IPL_NONE, NULL, NULL, 54 1.1 ahoka NULL); 55 1.1 ahoka if (!chfs_vnode_cache) 56 1.1 ahoka goto err_vnode; 57 1.1 ahoka 58 1.1 ahoka chfs_nrefs_cache = pool_cache_init( 59 1.1 ahoka (REFS_BLOCK_LEN + 1) * sizeof(struct chfs_node_ref), 0, 0, 60 1.1 ahoka 0, "chfs_nrefs_pool", NULL, IPL_NONE, NULL, NULL, NULL); 61 1.1 ahoka if (!chfs_nrefs_cache) 62 1.1 ahoka goto err_nrefs; 63 1.1 ahoka 64 1.1 ahoka chfs_flash_vnode_cache = pool_cache_init( 65 1.1 ahoka sizeof(struct chfs_flash_vnode), 0, 0, 0, 66 1.1 ahoka "chfs_flash_vnode_pool", NULL, IPL_NONE, NULL, NULL, NULL); 67 1.1 ahoka if (!chfs_flash_vnode_cache) 68 1.1 ahoka goto err_flash_vnode; 69 1.1 ahoka 70 1.1 ahoka chfs_flash_dirent_cache = pool_cache_init( 71 1.1 ahoka sizeof(struct chfs_flash_dirent_node), 0, 0, 0, 72 1.1 ahoka "chfs_flash_dirent_pool", NULL, IPL_NONE, NULL, NULL, NULL); 73 1.1 ahoka if (!chfs_flash_dirent_cache) 74 1.1 ahoka goto err_flash_dirent; 75 1.1 ahoka 76 1.1 ahoka chfs_flash_dnode_cache = pool_cache_init( 77 1.1 ahoka sizeof(struct chfs_flash_data_node), 0, 0, 0, 78 1.1 ahoka "chfs_flash_dnode_pool", NULL, IPL_NONE, NULL, NULL, NULL); 79 1.1 ahoka if (!chfs_flash_dnode_cache) 80 1.1 ahoka goto err_flash_dnode; 81 1.1 ahoka 82 1.1 ahoka chfs_node_frag_cache = pool_cache_init( 83 1.1 ahoka sizeof(struct chfs_node_frag), 0, 0, 0, 84 1.1 ahoka "chfs_node_frag_pool", NULL, IPL_NONE, NULL, NULL, NULL); 85 1.1 ahoka if (!chfs_node_frag_cache) 86 1.1 ahoka goto err_node_frag; 87 1.1 ahoka 88 1.1 ahoka chfs_tmp_dnode_cache = pool_cache_init( 89 1.1 ahoka sizeof(struct chfs_tmp_dnode), 0, 0, 0, 90 1.1 ahoka "chfs_tmp_dnode_pool", NULL, IPL_NONE, NULL, NULL, NULL); 91 1.1 ahoka if (!chfs_tmp_dnode_cache) 92 1.1 ahoka goto err_tmp_dnode; 93 1.1 ahoka 94 1.1 ahoka chfs_tmp_dnode_info_cache = pool_cache_init( 95 1.1 ahoka sizeof(struct chfs_tmp_dnode_info), 0, 0, 0, 96 1.1 ahoka "chfs_tmp_dnode_info_pool", NULL, IPL_NONE, NULL, NULL, NULL); 97 1.1 ahoka if (!chfs_tmp_dnode_info_cache) 98 1.1 ahoka goto err_tmp_dnode_info; 99 1.1 ahoka 100 1.1 ahoka return 0; 101 1.1 ahoka 102 1.1 ahoka err_tmp_dnode_info: 103 1.1 ahoka pool_cache_destroy(chfs_tmp_dnode_cache); 104 1.1 ahoka err_tmp_dnode: 105 1.1 ahoka pool_cache_destroy(chfs_node_frag_cache); 106 1.1 ahoka err_node_frag: 107 1.1 ahoka pool_cache_destroy(chfs_flash_dnode_cache); 108 1.1 ahoka err_flash_dnode: 109 1.1 ahoka pool_cache_destroy(chfs_flash_dirent_cache); 110 1.1 ahoka err_flash_dirent: 111 1.1 ahoka pool_cache_destroy(chfs_flash_vnode_cache); 112 1.1 ahoka err_flash_vnode: 113 1.1 ahoka pool_cache_destroy(chfs_nrefs_cache); 114 1.1 ahoka err_nrefs: 115 1.1 ahoka pool_cache_destroy(chfs_vnode_cache); 116 1.1 ahoka err_vnode: 117 1.1 ahoka 118 1.1 ahoka return ENOMEM; 119 1.1 ahoka } 120 1.1 ahoka 121 1.3.2.1 tls /* chfs_destroy_pool_caches - destroying pool caches */ 122 1.1 ahoka void 123 1.2 christos chfs_destroy_pool_caches(void) 124 1.1 ahoka { 125 1.1 ahoka if (chfs_vnode_cache) 126 1.1 ahoka pool_cache_destroy(chfs_vnode_cache); 127 1.1 ahoka 128 1.1 ahoka if (chfs_nrefs_cache) 129 1.1 ahoka pool_cache_destroy(chfs_nrefs_cache); 130 1.1 ahoka 131 1.1 ahoka if (chfs_flash_vnode_cache) 132 1.1 ahoka pool_cache_destroy(chfs_flash_vnode_cache); 133 1.1 ahoka 134 1.1 ahoka if (chfs_flash_dirent_cache) 135 1.1 ahoka pool_cache_destroy(chfs_flash_dirent_cache); 136 1.1 ahoka 137 1.1 ahoka if (chfs_flash_dnode_cache) 138 1.1 ahoka pool_cache_destroy(chfs_flash_dnode_cache); 139 1.1 ahoka 140 1.1 ahoka if (chfs_node_frag_cache) 141 1.1 ahoka pool_cache_destroy(chfs_node_frag_cache); 142 1.1 ahoka 143 1.1 ahoka if (chfs_tmp_dnode_cache) 144 1.1 ahoka pool_cache_destroy(chfs_tmp_dnode_cache); 145 1.1 ahoka 146 1.1 ahoka if (chfs_tmp_dnode_info_cache) 147 1.1 ahoka pool_cache_destroy(chfs_tmp_dnode_info_cache); 148 1.1 ahoka } 149 1.1 ahoka 150 1.3.2.1 tls /* chfs_vnode_cache_alloc - allocating and initializing a vnode cache */ 151 1.1 ahoka struct chfs_vnode_cache * 152 1.1 ahoka chfs_vnode_cache_alloc(ino_t vno) 153 1.1 ahoka { 154 1.1 ahoka struct chfs_vnode_cache* vc; 155 1.1 ahoka vc = pool_cache_get(chfs_vnode_cache, PR_WAITOK); 156 1.1 ahoka 157 1.1 ahoka memset(vc, 0, sizeof(*vc)); 158 1.1 ahoka vc->vno = vno; 159 1.3.2.1 tls /* vnode cache is the last element of all chain */ 160 1.1 ahoka vc->v = (void *)vc; 161 1.1 ahoka vc->dirents = (void *)vc; 162 1.1 ahoka vc->dnode = (void *)vc; 163 1.1 ahoka TAILQ_INIT(&vc->scan_dirents); 164 1.1 ahoka vc->highest_version = 0; 165 1.1 ahoka 166 1.1 ahoka return vc; 167 1.1 ahoka } 168 1.1 ahoka 169 1.3.2.1 tls /* chfs_vnode_cache_free - freeing a vnode cache */ 170 1.1 ahoka void 171 1.1 ahoka chfs_vnode_cache_free(struct chfs_vnode_cache *vc) 172 1.1 ahoka { 173 1.1 ahoka pool_cache_put(chfs_vnode_cache, vc); 174 1.1 ahoka } 175 1.1 ahoka 176 1.3.2.1 tls /* 177 1.1 ahoka * chfs_alloc_refblock - allocating a refblock 178 1.1 ahoka * 179 1.1 ahoka * Returns a pointer of the first element in the block. 180 1.1 ahoka * 181 1.1 ahoka * We are not allocating just one node ref, instead we allocating REFS_BLOCK_LEN 182 1.1 ahoka * number of node refs, the last element will be a pointer to the next block. 183 1.1 ahoka * We do this, because we need a chain of nodes which have been ordered by the 184 1.1 ahoka * physical address of them. 185 1.1 ahoka * 186 1.1 ahoka */ 187 1.1 ahoka struct chfs_node_ref* 188 1.1 ahoka chfs_alloc_refblock(void) 189 1.1 ahoka { 190 1.1 ahoka int i; 191 1.1 ahoka struct chfs_node_ref *nref; 192 1.1 ahoka nref = pool_cache_get(chfs_nrefs_cache, PR_WAITOK); 193 1.1 ahoka 194 1.1 ahoka for (i = 0; i < REFS_BLOCK_LEN; i++) { 195 1.1 ahoka nref[i].nref_lnr = REF_EMPTY_NODE; 196 1.1 ahoka nref[i].nref_next = NULL; 197 1.1 ahoka } 198 1.1 ahoka i = REFS_BLOCK_LEN; 199 1.1 ahoka nref[i].nref_lnr = REF_LINK_TO_NEXT; 200 1.1 ahoka nref[i].nref_next = NULL; 201 1.1 ahoka 202 1.1 ahoka return nref; 203 1.1 ahoka } 204 1.1 ahoka 205 1.3.2.1 tls /* chfs_free_refblock - freeing a refblock */ 206 1.1 ahoka void 207 1.1 ahoka chfs_free_refblock(struct chfs_node_ref *nref) 208 1.1 ahoka { 209 1.1 ahoka pool_cache_put(chfs_nrefs_cache, nref); 210 1.1 ahoka } 211 1.1 ahoka 212 1.3.2.1 tls /* 213 1.1 ahoka * chfs_alloc_node_ref - allocating a node ref from a refblock 214 1.1 ahoka * 215 1.1 ahoka * Allocating a node ref from a refblock, it there isn't any free element in the 216 1.1 ahoka * block, a new block will be allocated and be linked to the current block. 217 1.1 ahoka */ 218 1.1 ahoka struct chfs_node_ref* 219 1.1 ahoka chfs_alloc_node_ref(struct chfs_eraseblock *cheb) 220 1.1 ahoka { 221 1.1 ahoka struct chfs_node_ref *nref, *new, *old; 222 1.1 ahoka old = cheb->last_node; 223 1.1 ahoka nref = cheb->last_node; 224 1.1 ahoka 225 1.1 ahoka if (!nref) { 226 1.3.2.1 tls /* There haven't been any nref allocated for this block yet */ 227 1.1 ahoka nref = chfs_alloc_refblock(); 228 1.1 ahoka 229 1.1 ahoka cheb->first_node = nref; 230 1.1 ahoka cheb->last_node = nref; 231 1.1 ahoka nref->nref_lnr = cheb->lnr; 232 1.1 ahoka KASSERT(cheb->lnr == nref->nref_lnr); 233 1.1 ahoka 234 1.1 ahoka return nref; 235 1.1 ahoka } 236 1.1 ahoka 237 1.1 ahoka nref++; 238 1.1 ahoka if (nref->nref_lnr == REF_LINK_TO_NEXT) { 239 1.3.2.1 tls /* this was the last element, allocate a new block */ 240 1.1 ahoka new = chfs_alloc_refblock(); 241 1.1 ahoka nref->nref_next = new; 242 1.1 ahoka nref = new; 243 1.1 ahoka } 244 1.1 ahoka 245 1.1 ahoka cheb->last_node = nref; 246 1.1 ahoka nref->nref_lnr = cheb->lnr; 247 1.1 ahoka 248 1.1 ahoka KASSERT(old->nref_lnr == nref->nref_lnr && 249 1.1 ahoka nref->nref_lnr == cheb->lnr); 250 1.1 ahoka 251 1.1 ahoka return nref; 252 1.1 ahoka } 253 1.1 ahoka 254 1.3.2.1 tls /* chfs_free_node_refs - freeing an eraseblock's node refs */ 255 1.1 ahoka void 256 1.1 ahoka chfs_free_node_refs(struct chfs_eraseblock *cheb) 257 1.1 ahoka { 258 1.1 ahoka struct chfs_node_ref *nref, *block; 259 1.1 ahoka 260 1.1 ahoka block = nref = cheb->first_node; 261 1.1 ahoka 262 1.1 ahoka while (nref) { 263 1.1 ahoka if (nref->nref_lnr == REF_LINK_TO_NEXT) { 264 1.1 ahoka nref = nref->nref_next; 265 1.1 ahoka chfs_free_refblock(block); 266 1.1 ahoka block = nref; 267 1.1 ahoka continue; 268 1.1 ahoka } 269 1.1 ahoka nref++; 270 1.1 ahoka } 271 1.1 ahoka } 272 1.1 ahoka 273 1.3.2.1 tls /* chfs_alloc_dirent - allocating a directory entry */ 274 1.1 ahoka struct chfs_dirent* 275 1.1 ahoka chfs_alloc_dirent(int namesize) 276 1.1 ahoka { 277 1.1 ahoka struct chfs_dirent *ret; 278 1.1 ahoka size_t size = sizeof(struct chfs_dirent) + namesize; 279 1.1 ahoka 280 1.1 ahoka ret = kmem_alloc(size, KM_SLEEP); 281 1.1 ahoka 282 1.1 ahoka return ret; 283 1.1 ahoka } 284 1.1 ahoka 285 1.3.2.1 tls /* chfs_free_dirent - freeing a directory entry */ 286 1.1 ahoka void 287 1.1 ahoka chfs_free_dirent(struct chfs_dirent *dirent) 288 1.1 ahoka { 289 1.1 ahoka size_t size = sizeof(struct chfs_dirent) + dirent->nsize + 1; 290 1.1 ahoka 291 1.1 ahoka kmem_free(dirent, size); 292 1.1 ahoka } 293 1.1 ahoka 294 1.3.2.1 tls /* chfs_alloc_full_dnode - allocating a full data node */ 295 1.1 ahoka struct chfs_full_dnode* 296 1.2 christos chfs_alloc_full_dnode(void) 297 1.1 ahoka { 298 1.1 ahoka struct chfs_full_dnode *ret; 299 1.1 ahoka ret = kmem_alloc(sizeof(struct chfs_full_dnode), KM_SLEEP); 300 1.3 ttoth ret->nref = NULL; 301 1.3 ttoth ret->frags = 0; 302 1.1 ahoka return ret; 303 1.1 ahoka } 304 1.1 ahoka 305 1.3.2.1 tls /* chfs_free_full_dnode - freeing a full data node */ 306 1.1 ahoka void 307 1.1 ahoka chfs_free_full_dnode(struct chfs_full_dnode *fd) 308 1.1 ahoka { 309 1.1 ahoka kmem_free(fd,(sizeof(struct chfs_full_dnode))); 310 1.1 ahoka } 311 1.1 ahoka 312 1.3.2.1 tls /* chfs_alloc_flash_vnode - allocating vnode info (used on flash) */ 313 1.1 ahoka struct chfs_flash_vnode* 314 1.2 christos chfs_alloc_flash_vnode(void) 315 1.1 ahoka { 316 1.1 ahoka struct chfs_flash_vnode *ret; 317 1.1 ahoka ret = pool_cache_get(chfs_flash_vnode_cache, 0); 318 1.1 ahoka return ret; 319 1.1 ahoka } 320 1.1 ahoka 321 1.3.2.1 tls /* chfs_free_flash_vnode - freeing vnode info */ 322 1.1 ahoka void 323 1.1 ahoka chfs_free_flash_vnode(struct chfs_flash_vnode *fvnode) 324 1.1 ahoka { 325 1.1 ahoka pool_cache_put(chfs_flash_vnode_cache, fvnode); 326 1.1 ahoka } 327 1.1 ahoka 328 1.3.2.1 tls /* chfs_alloc_flash_dirent - allocating a directory entry (used on flash) */ 329 1.1 ahoka struct chfs_flash_dirent_node* 330 1.2 christos chfs_alloc_flash_dirent(void) 331 1.1 ahoka { 332 1.1 ahoka struct chfs_flash_dirent_node *ret; 333 1.1 ahoka ret = pool_cache_get(chfs_flash_dirent_cache, 0); 334 1.1 ahoka return ret; 335 1.1 ahoka } 336 1.1 ahoka 337 1.3.2.1 tls /* chfs_free_flash_dirent - freeing a (flash) directory entry */ 338 1.1 ahoka void 339 1.1 ahoka chfs_free_flash_dirent(struct chfs_flash_dirent_node *fdnode) 340 1.1 ahoka { 341 1.1 ahoka pool_cache_put(chfs_flash_dirent_cache, fdnode); 342 1.1 ahoka } 343 1.1 ahoka 344 1.3.2.1 tls /* chfs_alloc_flash_dnode - allocating a data node (used on flash) */ 345 1.1 ahoka struct chfs_flash_data_node* 346 1.2 christos chfs_alloc_flash_dnode(void) 347 1.1 ahoka { 348 1.1 ahoka struct chfs_flash_data_node *ret; 349 1.1 ahoka ret = pool_cache_get(chfs_flash_dnode_cache, 0); 350 1.1 ahoka return ret; 351 1.1 ahoka } 352 1.1 ahoka 353 1.3.2.1 tls /* chfs_free_flash_dnode - freeing a (flash) data node */ 354 1.1 ahoka void 355 1.1 ahoka chfs_free_flash_dnode(struct chfs_flash_data_node *fdnode) 356 1.1 ahoka { 357 1.1 ahoka pool_cache_put(chfs_flash_dnode_cache, fdnode); 358 1.1 ahoka } 359 1.1 ahoka 360 1.3.2.1 tls /* chfs_alloc_node_frag - allocating a fragment of a node */ 361 1.1 ahoka struct chfs_node_frag* 362 1.2 christos chfs_alloc_node_frag(void) 363 1.1 ahoka { 364 1.1 ahoka struct chfs_node_frag *ret; 365 1.1 ahoka ret = pool_cache_get(chfs_node_frag_cache, 0); 366 1.1 ahoka return ret; 367 1.1 ahoka } 368 1.1 ahoka 369 1.3.2.1 tls /* chfs_free_node_frag - freeing a fragment of a node */ 370 1.1 ahoka void 371 1.1 ahoka chfs_free_node_frag(struct chfs_node_frag *frag) 372 1.1 ahoka { 373 1.1 ahoka pool_cache_put(chfs_node_frag_cache, frag); 374 1.1 ahoka } 375 1.1 ahoka 376 1.3.2.1 tls /* chfs_alloc_tmp_dnode - allocating a temporarly used dnode */ 377 1.1 ahoka struct chfs_tmp_dnode * 378 1.2 christos chfs_alloc_tmp_dnode(void) 379 1.1 ahoka { 380 1.1 ahoka struct chfs_tmp_dnode *ret; 381 1.1 ahoka ret = pool_cache_get(chfs_tmp_dnode_cache, 0); 382 1.1 ahoka ret->next = NULL; 383 1.1 ahoka return ret; 384 1.1 ahoka } 385 1.1 ahoka 386 1.3.2.1 tls /* chfs_free_tmp_dnode - freeing a temporarly used dnode */ 387 1.1 ahoka void 388 1.1 ahoka chfs_free_tmp_dnode(struct chfs_tmp_dnode *td) 389 1.1 ahoka { 390 1.1 ahoka pool_cache_put(chfs_tmp_dnode_cache, td); 391 1.1 ahoka } 392 1.1 ahoka 393 1.3.2.1 tls /* chfs_alloc_tmp_dnode_info - allocating a temporarly used dnode descriptor */ 394 1.1 ahoka struct chfs_tmp_dnode_info * 395 1.2 christos chfs_alloc_tmp_dnode_info(void) 396 1.1 ahoka { 397 1.1 ahoka struct chfs_tmp_dnode_info *ret; 398 1.1 ahoka ret = pool_cache_get(chfs_tmp_dnode_info_cache, 0); 399 1.1 ahoka ret->tmpnode = NULL; 400 1.1 ahoka return ret; 401 1.1 ahoka } 402 1.1 ahoka 403 1.3.2.1 tls /* chfs_free_tmp_dnode_info - freeing a temporarly used dnode descriptor */ 404 1.1 ahoka void 405 1.1 ahoka chfs_free_tmp_dnode_info(struct chfs_tmp_dnode_info *di) 406 1.1 ahoka { 407 1.1 ahoka pool_cache_put(chfs_tmp_dnode_info_cache, di); 408 1.1 ahoka } 409 1.1 ahoka 410
Indexes created Thu Oct 02 07:10:07 GMT 2025