rf_reconmap.c revision 1.26.2.1
1 1.26.2.1 bouyer /* $NetBSD: rf_reconmap.c,v 1.26.2.1 2008/05/25 18:42:18 bouyer Exp $ */ 2 1.1 oster /* 3 1.1 oster * Copyright (c) 1995 Carnegie-Mellon University. 4 1.1 oster * All rights reserved. 5 1.1 oster * 6 1.1 oster * Author: Mark Holland 7 1.1 oster * 8 1.1 oster * Permission to use, copy, modify and distribute this software and 9 1.1 oster * its documentation is hereby granted, provided that both the copyright 10 1.1 oster * notice and this permission notice appear in all copies of the 11 1.1 oster * software, derivative works or modified versions, and any portions 12 1.1 oster * thereof, and that both notices appear in supporting documentation. 13 1.1 oster * 14 1.1 oster * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 15 1.1 oster * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND 16 1.1 oster * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 17 1.1 oster * 18 1.1 oster * Carnegie Mellon requests users of this software to return to 19 1.1 oster * 20 1.1 oster * Software Distribution Coordinator or Software.Distribution (at) CS.CMU.EDU 21 1.1 oster * School of Computer Science 22 1.1 oster * Carnegie Mellon University 23 1.1 oster * Pittsburgh PA 15213-3890 24 1.1 oster * 25 1.1 oster * any improvements or extensions that they make and grant Carnegie the 26 1.1 oster * rights to redistribute these changes. 27 1.1 oster */ 28 1.1 oster 29 1.1 oster /************************************************************************* 30 1.1 oster * rf_reconmap.c 31 1.1 oster * 32 1.1 oster * code to maintain a map of what sectors have/have not been reconstructed 33 1.1 oster * 34 1.1 oster *************************************************************************/ 35 1.8 lukem 36 1.8 lukem #include <sys/cdefs.h> 37 1.26.2.1 bouyer __KERNEL_RCSID(0, "$NetBSD: rf_reconmap.c,v 1.26.2.1 2008/05/25 18:42:18 bouyer Exp $"); 38 1.1 oster 39 1.1 oster #include "rf_raid.h" 40 1.1 oster #include <sys/time.h> 41 1.1 oster #include "rf_general.h" 42 1.1 oster #include "rf_utils.h" 43 1.1 oster 44 1.1 oster /* special pointer values indicating that a reconstruction unit 45 1.1 oster * has been either totally reconstructed or not at all. Both 46 1.1 oster * are illegal pointer values, so you have to be careful not to 47 1.1 oster * dereference through them. RU_NOTHING must be zero, since 48 1.7 thorpej * MakeReconMap uses memset to initialize the structure. These are used 49 1.1 oster * only at the head of the list. 50 1.1 oster */ 51 1.1 oster #define RU_ALL ((RF_ReconMapListElem_t *) -1) 52 1.1 oster #define RU_NOTHING ((RF_ReconMapListElem_t *) 0) 53 1.1 oster 54 1.15 oster /* For most reconstructs we need at most 3 RF_ReconMapListElem_t's. 55 1.15 oster * Bounding the number we need is quite difficult, as it depends on how 56 1.15 oster * badly the sectors to be reconstructed get divided up. In the current 57 1.26 perry * code, the reconstructed sectors appeared aligned on stripe boundaries, 58 1.26 perry * and are always presented in stripe width units, so we're probably 59 1.15 oster * allocating quite a bit more than we'll ever need. 60 1.15 oster */ 61 1.15 oster #define RF_NUM_RECON_POOL_ELEM 100 62 1.15 oster 63 1.26 perry static void 64 1.26.2.1 bouyer compact_stat_entry(RF_Raid_t *, RF_ReconMap_t *, int, int); 65 1.26.2.1 bouyer static void crunch_list(RF_ReconMap_t *, RF_ReconMapListElem_t *); 66 1.4 oster static RF_ReconMapListElem_t * 67 1.26.2.1 bouyer MakeReconMapListElem(RF_ReconMap_t *, RF_SectorNum_t, RF_SectorNum_t, 68 1.26.2.1 bouyer RF_ReconMapListElem_t *); 69 1.26 perry static void 70 1.15 oster FreeReconMapListElem(RF_ReconMap_t *mapPtr, RF_ReconMapListElem_t * p); 71 1.1 oster 72 1.12 oster /*--------------------------------------------------------------------------- 73 1.1 oster * 74 1.4 oster * Creates and initializes new Reconstruction map 75 1.1 oster * 76 1.22 oster * ru_sectors - size of reconstruction unit in sectors 77 1.22 oster * disk_sectors - size of disk in sectors 78 1.22 oster * spareUnitsPerDisk - zero unless distributed sparing 79 1.12 oster *-------------------------------------------------------------------------*/ 80 1.1 oster 81 1.4 oster RF_ReconMap_t * 82 1.26 perry rf_MakeReconMap(RF_Raid_t *raidPtr, RF_SectorCount_t ru_sectors, 83 1.22 oster RF_SectorCount_t disk_sectors, 84 1.22 oster RF_ReconUnitCount_t spareUnitsPerDisk) 85 1.4 oster { 86 1.4 oster RF_RaidLayout_t *layoutPtr = &raidPtr->Layout; 87 1.4 oster RF_ReconUnitCount_t num_rus = layoutPtr->stripeUnitsPerDisk / layoutPtr->SUsPerRU; 88 1.4 oster RF_ReconMap_t *p; 89 1.4 oster 90 1.4 oster RF_Malloc(p, sizeof(RF_ReconMap_t), (RF_ReconMap_t *)); 91 1.4 oster p->sectorsPerReconUnit = ru_sectors; 92 1.4 oster p->sectorsInDisk = disk_sectors; 93 1.4 oster 94 1.4 oster p->totalRUs = num_rus; 95 1.4 oster p->spareRUs = spareUnitsPerDisk; 96 1.4 oster p->unitsLeft = num_rus - spareUnitsPerDisk; 97 1.26.2.1 bouyer p->low_ru = 0; 98 1.26.2.1 bouyer p->status_size = RF_RECONMAP_SIZE; 99 1.26.2.1 bouyer p->high_ru = p->status_size - 1; 100 1.26.2.1 bouyer p->head = 0; 101 1.4 oster 102 1.26.2.1 bouyer RF_Malloc(p->status, p->status_size * sizeof(RF_ReconMapListElem_t *), (RF_ReconMapListElem_t **)); 103 1.4 oster RF_ASSERT(p->status != (RF_ReconMapListElem_t **) NULL); 104 1.4 oster 105 1.7 thorpej (void) memset((char *) p->status, 0, 106 1.26.2.1 bouyer p->status_size * sizeof(RF_ReconMapListElem_t *)); 107 1.26 perry 108 1.15 oster pool_init(&p->elem_pool, sizeof(RF_ReconMapListElem_t), 0, 109 1.16 simonb 0, 0, "raidreconpl", NULL); 110 1.17 oster pool_prime(&p->elem_pool, RF_NUM_RECON_POOL_ELEM); 111 1.15 oster 112 1.20 oster rf_mutex_init(&p->mutex); 113 1.4 oster return (p); 114 1.1 oster } 115 1.1 oster 116 1.1 oster 117 1.12 oster /*--------------------------------------------------------------------------- 118 1.1 oster * 119 1.12 oster * marks a new set of sectors as reconstructed. All the possible 120 1.12 oster * mergings get complicated. To simplify matters, the approach I take 121 1.12 oster * is to just dump something into the list, and then clean it up 122 1.12 oster * (i.e. merge elements and eliminate redundant ones) in a second pass 123 1.12 oster * over the list (compact_stat_entry()). Not 100% efficient, since a 124 1.12 oster * structure can be allocated and then immediately freed, but it keeps 125 1.12 oster * this code from becoming (more of) a nightmare of special cases. 126 1.12 oster * The only thing that compact_stat_entry() assumes is that the list 127 1.12 oster * is sorted by startSector, and so this is the only condition I 128 1.12 oster * maintain here. (MCH) 129 1.1 oster * 130 1.15 oster * This code now uses a pool instead of the previous malloc/free 131 1.15 oster * stuff. 132 1.12 oster *-------------------------------------------------------------------------*/ 133 1.1 oster 134 1.26 perry void 135 1.22 oster rf_ReconMapUpdate(RF_Raid_t *raidPtr, RF_ReconMap_t *mapPtr, 136 1.22 oster RF_SectorNum_t startSector, RF_SectorNum_t stopSector) 137 1.4 oster { 138 1.4 oster RF_SectorCount_t sectorsPerReconUnit = mapPtr->sectorsPerReconUnit; 139 1.26.2.1 bouyer RF_SectorNum_t i, first_in_RU, last_in_RU, ru; 140 1.4 oster RF_ReconMapListElem_t *p, *pt; 141 1.4 oster 142 1.4 oster RF_LOCK_MUTEX(mapPtr->mutex); 143 1.24 oster while(mapPtr->lock) { 144 1.26.2.1 bouyer ltsleep(&mapPtr->lock, PRIBIO, "reconupdate", 0, 145 1.26.2.1 bouyer &mapPtr->mutex); 146 1.24 oster } 147 1.24 oster mapPtr->lock = 1; 148 1.24 oster RF_UNLOCK_MUTEX(mapPtr->mutex); 149 1.26 perry RF_ASSERT(startSector >= 0 && stopSector < mapPtr->sectorsInDisk && 150 1.12 oster stopSector >= startSector); 151 1.4 oster 152 1.4 oster while (startSector <= stopSector) { 153 1.4 oster i = startSector / mapPtr->sectorsPerReconUnit; 154 1.4 oster first_in_RU = i * sectorsPerReconUnit; 155 1.4 oster last_in_RU = first_in_RU + sectorsPerReconUnit - 1; 156 1.26.2.1 bouyer 157 1.26.2.1 bouyer /* do we need to move the queue? */ 158 1.26.2.1 bouyer while (i > mapPtr->high_ru) { 159 1.26.2.1 bouyer #ifdef DIAGNOSTIC 160 1.26.2.1 bouyer if (mapPtr->status[mapPtr->head]!=RU_ALL) { 161 1.26.2.1 bouyer printf("\nraid%d: reconmap incorrect -- working on i %" PRIu64 "\n", 162 1.26.2.1 bouyer raidPtr->raidid, i); 163 1.26.2.1 bouyer printf("raid%d: ru %" PRIu64 " not completed!!!\n", 164 1.26.2.1 bouyer raidPtr->raidid, mapPtr->head); 165 1.26.2.1 bouyer 166 1.26.2.1 bouyer printf("raid%d: low: %" PRIu64 " high: %" PRIu64 "\n", 167 1.26.2.1 bouyer raidPtr->raidid, mapPtr->low_ru, mapPtr->high_ru); 168 1.26.2.1 bouyer 169 1.26.2.1 bouyer panic("reconmap incorrect"); 170 1.26.2.1 bouyer } 171 1.26.2.1 bouyer #endif 172 1.26.2.1 bouyer mapPtr->low_ru++; 173 1.26.2.1 bouyer mapPtr->high_ru++; 174 1.26.2.1 bouyer /* initialize "highest" RU status entry, which 175 1.26.2.1 bouyer will take over the current head postion */ 176 1.26.2.1 bouyer mapPtr->status[mapPtr->head]=RU_NOTHING; 177 1.26.2.1 bouyer 178 1.26.2.1 bouyer /* move head too */ 179 1.26.2.1 bouyer mapPtr->head++; 180 1.26.2.1 bouyer if (mapPtr->head >= mapPtr->status_size) 181 1.26.2.1 bouyer mapPtr->head = 0; 182 1.26.2.1 bouyer 183 1.26.2.1 bouyer } 184 1.26.2.1 bouyer 185 1.26.2.1 bouyer ru = i - mapPtr->low_ru + mapPtr->head; 186 1.26.2.1 bouyer if (ru >= mapPtr->status_size) 187 1.26.2.1 bouyer ru = ru - mapPtr->status_size; 188 1.26.2.1 bouyer 189 1.26.2.1 bouyer if ((ru < 0) || (ru >= mapPtr->status_size)) { 190 1.26.2.1 bouyer printf("raid%d: ru is bogus %" PRIu64 "%" PRIu64 "%" PRIu64 "%" PRIu64 "%" PRIu64 "\n", 191 1.26.2.1 bouyer raidPtr->raidid, i, ru, mapPtr->head, mapPtr->low_ru, mapPtr->high_ru); 192 1.26.2.1 bouyer panic("bogus ru in reconmap"); 193 1.26.2.1 bouyer } 194 1.26.2.1 bouyer 195 1.26.2.1 bouyer p = mapPtr->status[ru]; 196 1.4 oster if (p != RU_ALL) { 197 1.12 oster if (p == RU_NOTHING || p->startSector > startSector) { 198 1.12 oster /* insert at front of list */ 199 1.4 oster 200 1.26.2.1 bouyer mapPtr->status[ru] = MakeReconMapListElem(mapPtr,startSector, RF_MIN(stopSector, last_in_RU), (p == RU_NOTHING) ? NULL : p); 201 1.4 oster 202 1.4 oster } else {/* general case */ 203 1.4 oster do { /* search for place to insert */ 204 1.4 oster pt = p; 205 1.4 oster p = p->next; 206 1.4 oster } while (p && (p->startSector < startSector)); 207 1.15 oster pt->next = MakeReconMapListElem(mapPtr,startSector, RF_MIN(stopSector, last_in_RU), p); 208 1.14 oster 209 1.4 oster } 210 1.26.2.1 bouyer compact_stat_entry(raidPtr, mapPtr, i, ru); 211 1.4 oster } 212 1.4 oster startSector = RF_MIN(stopSector, last_in_RU) + 1; 213 1.4 oster } 214 1.26.2.1 bouyer RF_LOCK_MUTEX(mapPtr->mutex); 215 1.24 oster mapPtr->lock = 0; 216 1.24 oster wakeup(&mapPtr->lock); 217 1.4 oster RF_UNLOCK_MUTEX(mapPtr->mutex); 218 1.1 oster } 219 1.1 oster 220 1.1 oster 221 1.1 oster 222 1.12 oster /*--------------------------------------------------------------------------- 223 1.1 oster * 224 1.1 oster * performs whatever list compactions can be done, and frees any space 225 1.1 oster * that is no longer necessary. Assumes only that the list is sorted 226 1.12 oster * by startSector. crunch_list() compacts a single list as much as 227 1.12 oster * possible, and the second block of code deletes the entire list if 228 1.12 oster * possible. crunch_list() is also called from 229 1.12 oster * MakeReconMapAccessList(). 230 1.1 oster * 231 1.1 oster * When a recon unit is detected to be fully reconstructed, we set the 232 1.1 oster * corresponding bit in the parity stripe map so that the head follow 233 1.12 oster * code will not select this parity stripe again. This is redundant 234 1.12 oster * (but harmless) when compact_stat_entry is called from the 235 1.12 oster * reconstruction code, but necessary when called from the user-write 236 1.12 oster * code. 237 1.1 oster * 238 1.12 oster *-------------------------------------------------------------------------*/ 239 1.1 oster 240 1.26 perry static void 241 1.26.2.1 bouyer compact_stat_entry(RF_Raid_t *raidPtr, RF_ReconMap_t *mapPtr, int i, int j) 242 1.4 oster { 243 1.4 oster RF_SectorCount_t sectorsPerReconUnit = mapPtr->sectorsPerReconUnit; 244 1.26.2.1 bouyer RF_ReconMapListElem_t *p = mapPtr->status[j]; 245 1.4 oster 246 1.15 oster crunch_list(mapPtr, p); 247 1.4 oster 248 1.4 oster if ((p->startSector == i * sectorsPerReconUnit) && 249 1.26 perry (p->stopSector == i * sectorsPerReconUnit + 250 1.12 oster sectorsPerReconUnit - 1)) { 251 1.26.2.1 bouyer mapPtr->status[j] = RU_ALL; 252 1.4 oster mapPtr->unitsLeft--; 253 1.15 oster FreeReconMapListElem(mapPtr, p); 254 1.4 oster } 255 1.4 oster } 256 1.4 oster 257 1.26.2.1 bouyer 258 1.26 perry static void 259 1.22 oster crunch_list(RF_ReconMap_t *mapPtr, RF_ReconMapListElem_t *listPtr) 260 1.4 oster { 261 1.4 oster RF_ReconMapListElem_t *pt, *p = listPtr; 262 1.4 oster 263 1.4 oster if (!p) 264 1.4 oster return; 265 1.4 oster pt = p; 266 1.4 oster p = p->next; 267 1.4 oster while (p) { 268 1.4 oster if (pt->stopSector >= p->startSector - 1) { 269 1.4 oster pt->stopSector = RF_MAX(pt->stopSector, p->stopSector); 270 1.4 oster pt->next = p->next; 271 1.15 oster FreeReconMapListElem(mapPtr, p); 272 1.4 oster p = pt->next; 273 1.4 oster } else { 274 1.4 oster pt = p; 275 1.4 oster p = p->next; 276 1.4 oster } 277 1.4 oster } 278 1.1 oster } 279 1.12 oster /*--------------------------------------------------------------------------- 280 1.4 oster * 281 1.1 oster * Allocate and fill a new list element 282 1.1 oster * 283 1.12 oster *-------------------------------------------------------------------------*/ 284 1.1 oster 285 1.4 oster static RF_ReconMapListElem_t * 286 1.22 oster MakeReconMapListElem(RF_ReconMap_t *mapPtr, RF_SectorNum_t startSector, 287 1.22 oster RF_SectorNum_t stopSector, RF_ReconMapListElem_t *next) 288 1.4 oster { 289 1.4 oster RF_ReconMapListElem_t *p; 290 1.4 oster 291 1.19 oster p = pool_get(&mapPtr->elem_pool, PR_WAITOK); 292 1.4 oster p->startSector = startSector; 293 1.4 oster p->stopSector = stopSector; 294 1.4 oster p->next = next; 295 1.4 oster return (p); 296 1.1 oster } 297 1.12 oster /*--------------------------------------------------------------------------- 298 1.4 oster * 299 1.1 oster * Free a list element 300 1.1 oster * 301 1.12 oster *-------------------------------------------------------------------------*/ 302 1.1 oster 303 1.26 perry static void 304 1.22 oster FreeReconMapListElem(RF_ReconMap_t *mapPtr, RF_ReconMapListElem_t *p) 305 1.4 oster { 306 1.15 oster pool_put(&mapPtr->elem_pool, p); 307 1.1 oster } 308 1.12 oster /*--------------------------------------------------------------------------- 309 1.4 oster * 310 1.12 oster * Free an entire status structure. Inefficient, but can be called at 311 1.12 oster * any time. 312 1.1 oster * 313 1.12 oster *-------------------------------------------------------------------------*/ 314 1.26 perry void 315 1.22 oster rf_FreeReconMap(RF_ReconMap_t *mapPtr) 316 1.4 oster { 317 1.4 oster RF_ReconMapListElem_t *p, *q; 318 1.4 oster RF_ReconUnitCount_t numRUs; 319 1.4 oster RF_ReconUnitNum_t i; 320 1.4 oster 321 1.4 oster numRUs = mapPtr->sectorsInDisk / mapPtr->sectorsPerReconUnit; 322 1.4 oster if (mapPtr->sectorsInDisk % mapPtr->sectorsPerReconUnit) 323 1.4 oster numRUs++; 324 1.4 oster 325 1.26.2.1 bouyer for (i = 0; i < mapPtr->status_size; i++) { 326 1.4 oster p = mapPtr->status[i]; 327 1.4 oster while (p != RU_NOTHING && p != RU_ALL) { 328 1.4 oster q = p; 329 1.4 oster p = p->next; 330 1.4 oster RF_Free(q, sizeof(*q)); 331 1.4 oster } 332 1.4 oster } 333 1.26.2.1 bouyer 334 1.15 oster pool_destroy(&mapPtr->elem_pool); 335 1.26.2.1 bouyer RF_Free(mapPtr->status, mapPtr->status_size * 336 1.12 oster sizeof(RF_ReconMapListElem_t *)); 337 1.4 oster RF_Free(mapPtr, sizeof(RF_ReconMap_t)); 338 1.1 oster } 339 1.12 oster /*--------------------------------------------------------------------------- 340 1.1 oster * 341 1.1 oster * returns nonzero if the indicated RU has been reconstructed already 342 1.1 oster * 343 1.12 oster *-------------------------------------------------------------------------*/ 344 1.1 oster 345 1.26 perry int 346 1.22 oster rf_CheckRUReconstructed(RF_ReconMap_t *mapPtr, RF_SectorNum_t startSector) 347 1.1 oster { 348 1.4 oster RF_ReconUnitNum_t i; 349 1.26.2.1 bouyer int rv; 350 1.1 oster 351 1.4 oster i = startSector / mapPtr->sectorsPerReconUnit; 352 1.26.2.1 bouyer 353 1.26.2.1 bouyer if (i < mapPtr->low_ru) 354 1.26.2.1 bouyer rv = 1; 355 1.26.2.1 bouyer else if (i > mapPtr->high_ru) 356 1.26.2.1 bouyer rv = 0; 357 1.26.2.1 bouyer else { 358 1.26.2.1 bouyer i = i - mapPtr->low_ru + mapPtr->head; 359 1.26.2.1 bouyer if (i >= mapPtr->status_size) 360 1.26.2.1 bouyer i = i - mapPtr->status_size; 361 1.26.2.1 bouyer if (mapPtr->status[i] == RU_ALL) 362 1.26.2.1 bouyer rv = 1; 363 1.26.2.1 bouyer else 364 1.26.2.1 bouyer rv = 0; 365 1.26.2.1 bouyer } 366 1.26.2.1 bouyer 367 1.26.2.1 bouyer return rv; 368 1.1 oster } 369 1.1 oster 370 1.26 perry RF_ReconUnitCount_t 371 1.22 oster rf_UnitsLeftToReconstruct(RF_ReconMap_t *mapPtr) 372 1.1 oster { 373 1.4 oster RF_ASSERT(mapPtr != NULL); 374 1.4 oster return (mapPtr->unitsLeft); 375 1.4 oster } 376 1.4 oster 377 1.11 oster #if RF_DEBUG_RECON 378 1.26 perry void 379 1.22 oster rf_PrintReconSchedule(RF_ReconMap_t *mapPtr, struct timeval *starttime) 380 1.4 oster { 381 1.4 oster static int old_pctg = -1; 382 1.4 oster struct timeval tv, diff; 383 1.4 oster int new_pctg; 384 1.4 oster 385 1.26 perry new_pctg = 100 - (rf_UnitsLeftToReconstruct(mapPtr) * 386 1.12 oster 100 / mapPtr->totalRUs); 387 1.4 oster if (new_pctg != old_pctg) { 388 1.4 oster RF_GETTIME(tv); 389 1.4 oster RF_TIMEVAL_DIFF(starttime, &tv, &diff); 390 1.26 perry printf("%d %d.%06d\n", (int) new_pctg, (int) diff.tv_sec, 391 1.12 oster (int) diff.tv_usec); 392 1.4 oster old_pctg = new_pctg; 393 1.4 oster } 394 1.1 oster } 395 1.11 oster #endif 396 1.11 oster 397
Indexes created Mon Sep 29 21:09:56 GMT 2025