rf_stripelocks.c revision 1.29.52.1
1 1.29.52.1 yamt /* $NetBSD: rf_stripelocks.c,v 1.29.52.1 2009/05/04 08:13:16 yamt 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 * Authors: Mark Holland, Jim Zelenka 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 * stripelocks.c -- code to lock stripes for read and write access 31 1.1 oster * 32 1.1 oster * The code distinguishes between read locks and write locks. There can be 33 1.1 oster * as many readers to given stripe as desired. When a write request comes 34 1.1 oster * in, no further readers are allowed to enter, and all subsequent requests 35 1.1 oster * are queued in FIFO order. When a the number of readers goes to zero, the 36 1.1 oster * writer is given the lock. When a writer releases the lock, the list of 37 1.1 oster * queued requests is scanned, and all readersq up to the next writer are 38 1.1 oster * given the lock. 39 1.1 oster * 40 1.1 oster * The lock table size must be one less than a power of two, but HASH_STRIPEID 41 1.1 oster * is the only function that requires this. 42 1.1 oster * 43 1.1 oster * The code now supports "range locks". When you ask to lock a stripe, you 44 1.1 oster * specify a range of addresses in that stripe that you want to lock. When 45 1.1 oster * you acquire the lock, you've locked only this range of addresses, and 46 1.1 oster * other threads can concurrently read/write any non-overlapping portions 47 1.1 oster * of the stripe. The "addresses" that you lock are abstract in that you 48 1.1 oster * can pass in anything you like. The expectation is that you'll pass in 49 1.1 oster * the range of physical disk offsets of the parity bits you're planning 50 1.1 oster * to update. The idea behind this, of course, is to allow sub-stripe 51 1.1 oster * locking. The implementation is perhaps not the best imaginable; in the 52 1.1 oster * worst case a lock release is O(n^2) in the total number of outstanding 53 1.1 oster * requests to a given stripe. Note that if you're striping with a 54 1.1 oster * stripe unit size equal to an entire disk (i.e. not striping), there will 55 1.1 oster * be only one stripe and you may spend some significant number of cycles 56 1.1 oster * searching through stripe lock descriptors. 57 1.1 oster */ 58 1.10 lukem 59 1.10 lukem #include <sys/cdefs.h> 60 1.29.52.1 yamt __KERNEL_RCSID(0, "$NetBSD: rf_stripelocks.c,v 1.29.52.1 2009/05/04 08:13:16 yamt Exp $"); 61 1.1 oster 62 1.8 oster #include <dev/raidframe/raidframevar.h> 63 1.8 oster 64 1.1 oster #include "rf_raid.h" 65 1.1 oster #include "rf_stripelocks.h" 66 1.1 oster #include "rf_alloclist.h" 67 1.13 oster #include "rf_debugprint.h" 68 1.1 oster #include "rf_general.h" 69 1.1 oster #include "rf_driver.h" 70 1.1 oster #include "rf_shutdown.h" 71 1.1 oster 72 1.26 perry #ifdef DEBUG 73 1.11 oster 74 1.1 oster #define Dprintf1(s,a) rf_debug_printf(s,(void *)((unsigned long)a),NULL,NULL,NULL,NULL,NULL,NULL,NULL) 75 1.1 oster #define Dprintf2(s,a,b) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),NULL,NULL,NULL,NULL,NULL,NULL) 76 1.1 oster #define Dprintf3(s,a,b,c) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),NULL,NULL,NULL,NULL,NULL) 77 1.1 oster #define Dprintf4(s,a,b,c,d) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),(void *)((unsigned long)d),NULL,NULL,NULL,NULL) 78 1.1 oster #define Dprintf5(s,a,b,c,d,e) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),(void *)((unsigned long)d),(void *)((unsigned long)e),NULL,NULL,NULL) 79 1.1 oster #define Dprintf6(s,a,b,c,d,e,f) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),(void *)((unsigned long)d),(void *)((unsigned long)e),(void *)((unsigned long)f),NULL,NULL) 80 1.1 oster #define Dprintf7(s,a,b,c,d,e,f,g) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),(void *)((unsigned long)d),(void *)((unsigned long)e),(void *)((unsigned long)f),(void *)((unsigned long)g),NULL) 81 1.1 oster #define Dprintf8(s,a,b,c,d,e,f,g,h) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),(void *)((unsigned long)d),(void *)((unsigned long)e),(void *)((unsigned long)f),(void *)((unsigned long)g),(void *)((unsigned long)h)) 82 1.1 oster 83 1.11 oster #else /* DEBUG */ 84 1.11 oster 85 1.11 oster #define Dprintf1(s,a) {} 86 1.11 oster #define Dprintf2(s,a,b) {} 87 1.11 oster #define Dprintf3(s,a,b,c) {} 88 1.11 oster #define Dprintf4(s,a,b,c,d) {} 89 1.11 oster #define Dprintf5(s,a,b,c,d,e) {} 90 1.11 oster #define Dprintf6(s,a,b,c,d,e,f) {} 91 1.11 oster #define Dprintf7(s,a,b,c,d,e,f,g) {} 92 1.11 oster #define Dprintf8(s,a,b,c,d,e,f,g,h) {} 93 1.11 oster 94 1.11 oster #endif /* DEBUG */ 95 1.11 oster 96 1.1 oster #define FLUSH 97 1.1 oster 98 1.1 oster #define HASH_STRIPEID(_sid_) ( (_sid_) & (rf_lockTableSize-1) ) 99 1.1 oster 100 1.26 perry static void AddToWaitersQueue(RF_StripeLockDesc_t * lockDesc, 101 1.20 oster RF_LockReqDesc_t * lockReqDesc); 102 1.1 oster static RF_StripeLockDesc_t *AllocStripeLockDesc(RF_StripeNum_t stripeID); 103 1.3 oster static void FreeStripeLockDesc(RF_StripeLockDesc_t * p); 104 1.16 simonb static RF_LockTableEntry_t *rf_MakeLockTable(void); 105 1.13 oster #if RF_DEBUG_STRIPELOCK 106 1.3 oster static void PrintLockedStripes(RF_LockTableEntry_t * lockTable); 107 1.13 oster #endif 108 1.1 oster 109 1.20 oster /* determines if two ranges overlap. always yields false if either 110 1.20 oster start value is negative */ 111 1.20 oster #define SINGLE_RANGE_OVERLAP(_strt1, _stop1, _strt2, _stop2) \ 112 1.20 oster ( (_strt1 >= 0) && (_strt2 >= 0) && \ 113 1.20 oster (RF_MAX(_strt1, _strt2) <= RF_MIN(_stop1, _stop2)) ) 114 1.20 oster 115 1.20 oster /* determines if any of the ranges specified in the two lock 116 1.20 oster descriptors overlap each other */ 117 1.20 oster 118 1.20 oster #define RANGE_OVERLAP(_cand, _pred) \ 119 1.20 oster ( SINGLE_RANGE_OVERLAP((_cand)->start, (_cand)->stop, \ 120 1.20 oster (_pred)->start, (_pred)->stop ) || \ 121 1.20 oster SINGLE_RANGE_OVERLAP((_cand)->start2, (_cand)->stop2, \ 122 1.20 oster (_pred)->start, (_pred)->stop ) || \ 123 1.20 oster SINGLE_RANGE_OVERLAP((_cand)->start, (_cand)->stop, \ 124 1.20 oster (_pred)->start2, (_pred)->stop2) || \ 125 1.20 oster SINGLE_RANGE_OVERLAP((_cand)->start2, (_cand)->stop2, \ 126 1.20 oster (_pred)->start2, (_pred)->stop2) ) 127 1.1 oster 128 1.20 oster /* Determines if a candidate lock request conflicts with a predecessor 129 1.20 oster * lock req. Note that the arguments are not interchangeable. 130 1.20 oster * 131 1.1 oster * The rules are: 132 1.20 oster * 133 1.20 oster * a candidate read conflicts with a predecessor write if any 134 1.20 oster * ranges overlap 135 1.20 oster * 136 1.20 oster * a candidate write conflicts with a predecessor read if any 137 1.20 oster * ranges overlap 138 1.20 oster * 139 1.20 oster * a candidate write conflicts with a predecessor write if any 140 1.20 oster * ranges overlap */ 141 1.20 oster 142 1.20 oster #define STRIPELOCK_CONFLICT(_cand, _pred) \ 143 1.20 oster RANGE_OVERLAP((_cand), (_pred)) && \ 144 1.20 oster ( ( (((_cand)->type == RF_IO_TYPE_READ) && \ 145 1.20 oster ((_pred)->type == RF_IO_TYPE_WRITE)) || \ 146 1.20 oster (((_cand)->type == RF_IO_TYPE_WRITE) && \ 147 1.20 oster ((_pred)->type == RF_IO_TYPE_READ)) || \ 148 1.20 oster (((_cand)->type == RF_IO_TYPE_WRITE) && \ 149 1.20 oster ((_pred)->type == RF_IO_TYPE_WRITE)) \ 150 1.20 oster ) \ 151 1.20 oster ) 152 1.1 oster 153 1.1 oster #define RF_MAX_FREE_STRIPELOCK 128 154 1.24 oster #define RF_MIN_FREE_STRIPELOCK 32 155 1.1 oster 156 1.16 simonb static void rf_ShutdownStripeLocks(RF_LockTableEntry_t * lockTable); 157 1.1 oster static void rf_ShutdownStripeLockFreeList(void *); 158 1.1 oster static void rf_RaidShutdownStripeLocks(void *); 159 1.1 oster 160 1.26 perry static void 161 1.29 christos rf_ShutdownStripeLockFreeList(void *ignored) 162 1.1 oster { 163 1.25 oster pool_destroy(&rf_pools.stripelock); 164 1.1 oster } 165 1.1 oster 166 1.26 perry int 167 1.21 oster rf_ConfigureStripeLockFreeList(RF_ShutdownList_t **listp) 168 1.1 oster { 169 1.1 oster unsigned mask; 170 1.1 oster 171 1.25 oster rf_pool_init(&rf_pools.stripelock, sizeof(RF_StripeLockDesc_t), 172 1.25 oster "rf_stripelock_pl", RF_MIN_FREE_STRIPELOCK, RF_MAX_FREE_STRIPELOCK); 173 1.23 oster rf_ShutdownCreate(listp, rf_ShutdownStripeLockFreeList, NULL); 174 1.17 oster 175 1.3 oster for (mask = 0x1; mask; mask <<= 1) 176 1.3 oster if (rf_lockTableSize == mask) 177 1.1 oster break; 178 1.1 oster if (!mask) { 179 1.3 oster printf("[WARNING: lock table size must be a power of two. Setting to %d.]\n", RF_DEFAULT_LOCK_TABLE_SIZE); 180 1.1 oster rf_lockTableSize = RF_DEFAULT_LOCK_TABLE_SIZE; 181 1.1 oster } 182 1.3 oster return (0); 183 1.1 oster } 184 1.1 oster 185 1.16 simonb static RF_LockTableEntry_t * 186 1.29.52.1 yamt rf_MakeLockTable(void) 187 1.1 oster { 188 1.1 oster RF_LockTableEntry_t *lockTable; 189 1.18 oster int i; 190 1.1 oster 191 1.26 perry RF_Malloc(lockTable, 192 1.26 perry ((int) rf_lockTableSize) * sizeof(RF_LockTableEntry_t), 193 1.17 oster (RF_LockTableEntry_t *)); 194 1.1 oster if (lockTable == NULL) 195 1.3 oster return (NULL); 196 1.3 oster for (i = 0; i < rf_lockTableSize; i++) { 197 1.18 oster rf_mutex_init(&lockTable[i].mutex); 198 1.1 oster } 199 1.3 oster return (lockTable); 200 1.1 oster } 201 1.1 oster 202 1.26 perry static void 203 1.3 oster rf_ShutdownStripeLocks(RF_LockTableEntry_t * lockTable) 204 1.1 oster { 205 1.1 oster 206 1.13 oster #if RF_DEBUG_STRIPELOCK 207 1.1 oster if (rf_stripeLockDebug) { 208 1.1 oster PrintLockedStripes(lockTable); 209 1.1 oster } 210 1.13 oster #endif 211 1.3 oster RF_Free(lockTable, rf_lockTableSize * sizeof(RF_LockTableEntry_t)); 212 1.1 oster } 213 1.1 oster 214 1.26 perry static void 215 1.21 oster rf_RaidShutdownStripeLocks(void *arg) 216 1.1 oster { 217 1.3 oster RF_Raid_t *raidPtr = (RF_Raid_t *) arg; 218 1.1 oster rf_ShutdownStripeLocks(raidPtr->lockTable); 219 1.1 oster } 220 1.1 oster 221 1.26 perry int 222 1.21 oster rf_ConfigureStripeLocks(RF_ShutdownList_t **listp, RF_Raid_t *raidPtr, 223 1.29 christos RF_Config_t *cfgPtr) 224 1.1 oster { 225 1.1 oster 226 1.1 oster raidPtr->lockTable = rf_MakeLockTable(); 227 1.1 oster if (raidPtr->lockTable == NULL) 228 1.3 oster return (ENOMEM); 229 1.23 oster rf_ShutdownCreate(listp, rf_RaidShutdownStripeLocks, raidPtr); 230 1.23 oster 231 1.3 oster return (0); 232 1.1 oster } 233 1.1 oster /* returns 0 if you've got the lock, and non-zero if you have to wait. 234 1.1 oster * if and only if you have to wait, we'll cause cbFunc to get invoked 235 1.20 oster * with cbArg when you are granted the lock. We store a tag in 236 1.20 oster * *releaseTag that you need to give back to us when you release the 237 1.20 oster * lock. */ 238 1.26 perry int 239 1.21 oster rf_AcquireStripeLock(RF_LockTableEntry_t *lockTable, RF_StripeNum_t stripeID, 240 1.21 oster RF_LockReqDesc_t *lockReqDesc) 241 1.3 oster { 242 1.3 oster RF_StripeLockDesc_t *lockDesc; 243 1.22 oster RF_StripeLockDesc_t *newlockDesc; 244 1.3 oster RF_LockReqDesc_t *p; 245 1.13 oster #if defined(DEBUG) && (RF_DEBUG_STRIPELOCK > 0) 246 1.12 oster int tid = 0; 247 1.11 oster #endif 248 1.11 oster int hashval = HASH_STRIPEID(stripeID); 249 1.3 oster int retcode = 0; 250 1.3 oster 251 1.3 oster RF_ASSERT(RF_IO_IS_R_OR_W(lockReqDesc->type)); 252 1.3 oster 253 1.13 oster #if RF_DEBUG_STRIPELOCK 254 1.1 oster if (rf_stripeLockDebug) { 255 1.11 oster if (stripeID == -1) { 256 1.3 oster Dprintf1("[%d] Lock acquisition supressed (stripeID == -1)\n", tid); 257 1.11 oster } else { 258 1.3 oster Dprintf8("[%d] Trying to acquire stripe lock table 0x%lx SID %ld type %c range %ld-%ld, range2 %ld-%ld hashval %d\n", 259 1.3 oster tid, (unsigned long) lockTable, stripeID, lockReqDesc->type, lockReqDesc->start, 260 1.3 oster lockReqDesc->stop, lockReqDesc->start2, lockReqDesc->stop2); 261 1.3 oster Dprintf3("[%d] lock %ld hashval %d\n", tid, stripeID, hashval); 262 1.3 oster FLUSH; 263 1.3 oster } 264 1.3 oster } 265 1.13 oster #endif 266 1.3 oster if (stripeID == -1) 267 1.3 oster return (0); 268 1.3 oster lockReqDesc->next = NULL; /* just to be sure */ 269 1.22 oster newlockDesc = AllocStripeLockDesc(stripeID); 270 1.3 oster 271 1.3 oster RF_LOCK_MUTEX(lockTable[hashval].mutex); 272 1.26 perry for (lockDesc = lockTable[hashval].descList; lockDesc; 273 1.20 oster lockDesc = lockDesc->next) { 274 1.3 oster if (lockDesc->stripeID == stripeID) 275 1.3 oster break; 276 1.3 oster } 277 1.3 oster 278 1.26 perry if (!lockDesc) { 279 1.20 oster /* no entry in table => no one reading or writing */ 280 1.22 oster lockDesc = newlockDesc; 281 1.3 oster lockDesc->next = lockTable[hashval].descList; 282 1.3 oster lockTable[hashval].descList = lockDesc; 283 1.3 oster if (lockReqDesc->type == RF_IO_TYPE_WRITE) 284 1.3 oster lockDesc->nWriters++; 285 1.3 oster lockDesc->granted = lockReqDesc; 286 1.13 oster #if RF_DEBUG_STRIPELOCK 287 1.3 oster if (rf_stripeLockDebug) { 288 1.3 oster Dprintf7("[%d] no one waiting: lock %ld %c %ld-%ld %ld-%ld granted\n", 289 1.3 oster tid, stripeID, lockReqDesc->type, lockReqDesc->start, lockReqDesc->stop, lockReqDesc->start2, lockReqDesc->stop2); 290 1.3 oster FLUSH; 291 1.3 oster } 292 1.13 oster #endif 293 1.3 oster } else { 294 1.22 oster /* we won't be needing newlockDesc after all.. pity.. */ 295 1.22 oster FreeStripeLockDesc(newlockDesc); 296 1.3 oster 297 1.3 oster if (lockReqDesc->type == RF_IO_TYPE_WRITE) 298 1.3 oster lockDesc->nWriters++; 299 1.3 oster 300 1.26 perry if (lockDesc->nWriters == 0) { 301 1.20 oster /* no need to search any lists if there are no 302 1.20 oster * writers anywhere */ 303 1.3 oster lockReqDesc->next = lockDesc->granted; 304 1.3 oster lockDesc->granted = lockReqDesc; 305 1.13 oster #if RF_DEBUG_STRIPELOCK 306 1.3 oster if (rf_stripeLockDebug) { 307 1.3 oster Dprintf7("[%d] no writers: lock %ld %c %ld-%ld %ld-%ld granted\n", 308 1.3 oster tid, stripeID, lockReqDesc->type, lockReqDesc->start, lockReqDesc->stop, lockReqDesc->start2, lockReqDesc->stop2); 309 1.3 oster FLUSH; 310 1.3 oster } 311 1.13 oster #endif 312 1.3 oster } else { 313 1.3 oster 314 1.20 oster /* search the granted & waiting lists for a 315 1.20 oster * conflict. stop searching as soon as we 316 1.20 oster * find one */ 317 1.3 oster retcode = 0; 318 1.3 oster for (p = lockDesc->granted; p; p = p->next) 319 1.3 oster if (STRIPELOCK_CONFLICT(lockReqDesc, p)) { 320 1.3 oster retcode = 1; 321 1.3 oster break; 322 1.3 oster } 323 1.3 oster if (!retcode) 324 1.3 oster for (p = lockDesc->waitersH; p; p = p->next) 325 1.3 oster if (STRIPELOCK_CONFLICT(lockReqDesc, p)) { 326 1.3 oster retcode = 2; 327 1.3 oster break; 328 1.3 oster } 329 1.3 oster if (!retcode) { 330 1.20 oster /* no conflicts found => grant lock */ 331 1.26 perry lockReqDesc->next = lockDesc->granted; 332 1.3 oster lockDesc->granted = lockReqDesc; 333 1.13 oster #if RF_DEBUG_STRIPELOCK 334 1.3 oster if (rf_stripeLockDebug) { 335 1.3 oster Dprintf7("[%d] no conflicts: lock %ld %c %ld-%ld %ld-%ld granted\n", 336 1.3 oster tid, stripeID, lockReqDesc->type, lockReqDesc->start, lockReqDesc->stop, 337 1.3 oster lockReqDesc->start2, lockReqDesc->stop2); 338 1.3 oster FLUSH; 339 1.3 oster } 340 1.13 oster #endif 341 1.3 oster } else { 342 1.13 oster #if RF_DEBUG_STRIPELOCK 343 1.3 oster if (rf_stripeLockDebug) { 344 1.3 oster Dprintf6("[%d] conflict: lock %ld %c %ld-%ld hashval=%d not granted\n", 345 1.3 oster tid, stripeID, lockReqDesc->type, lockReqDesc->start, lockReqDesc->stop, 346 1.3 oster hashval); 347 1.3 oster Dprintf3("[%d] lock %ld retcode=%d\n", tid, stripeID, retcode); 348 1.3 oster FLUSH; 349 1.3 oster } 350 1.13 oster #endif 351 1.15 oster AddToWaitersQueue(lockDesc, lockReqDesc); 352 1.15 oster /* conflict => the current access must wait */ 353 1.3 oster } 354 1.3 oster } 355 1.1 oster } 356 1.3 oster 357 1.3 oster RF_UNLOCK_MUTEX(lockTable[hashval].mutex); 358 1.3 oster return (retcode); 359 1.3 oster } 360 1.3 oster 361 1.26 perry void 362 1.21 oster rf_ReleaseStripeLock(RF_LockTableEntry_t *lockTable, RF_StripeNum_t stripeID, 363 1.21 oster RF_LockReqDesc_t *lockReqDesc) 364 1.3 oster { 365 1.3 oster RF_StripeLockDesc_t *lockDesc, *ld_t; 366 1.3 oster RF_LockReqDesc_t *lr, *lr_t, *callbacklist, *t; 367 1.13 oster #if defined(DEBUG) && (RF_DEBUG_STRIPELOCK > 0) 368 1.12 oster int tid = 0; 369 1.11 oster #endif 370 1.11 oster int hashval = HASH_STRIPEID(stripeID); 371 1.3 oster int release_it, consider_it; 372 1.3 oster RF_LockReqDesc_t *candidate, *candidate_t, *predecessor; 373 1.3 oster 374 1.7 thorpej RF_ASSERT(RF_IO_IS_R_OR_W(lockReqDesc->type)); 375 1.3 oster 376 1.13 oster #if RF_DEBUG_STRIPELOCK 377 1.1 oster if (rf_stripeLockDebug) { 378 1.11 oster if (stripeID == -1) { 379 1.3 oster Dprintf1("[%d] Lock release supressed (stripeID == -1)\n", tid); 380 1.11 oster } else { 381 1.3 oster Dprintf8("[%d] Releasing stripe lock on stripe ID %ld, type %c range %ld-%ld %ld-%ld table 0x%lx\n", 382 1.3 oster tid, stripeID, lockReqDesc->type, lockReqDesc->start, lockReqDesc->stop, lockReqDesc->start2, lockReqDesc->stop2, lockTable); 383 1.3 oster FLUSH; 384 1.3 oster } 385 1.3 oster } 386 1.13 oster #endif 387 1.3 oster if (stripeID == -1) 388 1.3 oster return; 389 1.3 oster 390 1.3 oster RF_LOCK_MUTEX(lockTable[hashval].mutex); 391 1.3 oster 392 1.3 oster /* find the stripe lock descriptor */ 393 1.26 perry for (ld_t = NULL, lockDesc = lockTable[hashval].descList; 394 1.20 oster lockDesc; ld_t = lockDesc, lockDesc = lockDesc->next) { 395 1.3 oster if (lockDesc->stripeID == stripeID) 396 1.3 oster break; 397 1.3 oster } 398 1.3 oster RF_ASSERT(lockDesc); /* major error to release a lock that doesn't 399 1.3 oster * exist */ 400 1.3 oster 401 1.3 oster /* find the stripe lock request descriptor & delete it from the list */ 402 1.3 oster for (lr_t = NULL, lr = lockDesc->granted; lr; lr_t = lr, lr = lr->next) 403 1.3 oster if (lr == lockReqDesc) 404 1.3 oster break; 405 1.3 oster 406 1.3 oster RF_ASSERT(lr && (lr == lockReqDesc)); /* major error to release a 407 1.3 oster * lock that hasn't been 408 1.3 oster * granted */ 409 1.3 oster if (lr_t) 410 1.3 oster lr_t->next = lr->next; 411 1.3 oster else { 412 1.3 oster RF_ASSERT(lr == lockDesc->granted); 413 1.3 oster lockDesc->granted = lr->next; 414 1.3 oster } 415 1.3 oster lr->next = NULL; 416 1.3 oster 417 1.3 oster if (lockReqDesc->type == RF_IO_TYPE_WRITE) 418 1.3 oster lockDesc->nWriters--; 419 1.3 oster 420 1.20 oster /* search through the waiters list to see if anyone needs to 421 1.20 oster * be woken up. for each such descriptor in the wait list, we 422 1.20 oster * check it against everything granted and against everything 423 1.20 oster * _in front_ of it in the waiters queue. If it conflicts 424 1.20 oster * with none of these, we release it. 425 1.26 perry * 426 1.20 oster * DON'T TOUCH THE TEMPLINK POINTER OF ANYTHING IN THE GRANTED 427 1.26 perry * LIST HERE. 428 1.20 oster * 429 1.20 oster * This will roach the case where the callback tries to 430 1.20 oster * acquire a new lock in the same stripe. There are some 431 1.20 oster * asserts to try and detect this. 432 1.26 perry * 433 1.20 oster * We apply 2 performance optimizations: (1) if releasing this 434 1.20 oster * lock results in no more writers to this stripe, we just 435 1.20 oster * release everybody waiting, since we place no restrictions 436 1.20 oster * on the number of concurrent reads. (2) we consider as 437 1.20 oster * candidates for wakeup only those waiters that have a range 438 1.20 oster * overlap with either the descriptor being woken up or with 439 1.20 oster * something in the callbacklist (i.e. something we've just 440 1.20 oster * now woken up). This allows us to avoid the long evaluation 441 1.20 oster * for some descriptors. */ 442 1.3 oster 443 1.3 oster callbacklist = NULL; 444 1.3 oster if (lockDesc->nWriters == 0) { /* performance tweak (1) */ 445 1.3 oster while (lockDesc->waitersH) { 446 1.20 oster /* delete from waiters list */ 447 1.26 perry lr = lockDesc->waitersH; 448 1.3 oster lockDesc->waitersH = lr->next; 449 1.3 oster 450 1.3 oster RF_ASSERT(lr->type == RF_IO_TYPE_READ); 451 1.3 oster 452 1.20 oster /* add to granted list */ 453 1.26 perry lr->next = lockDesc->granted; 454 1.3 oster lockDesc->granted = lr; 455 1.3 oster 456 1.3 oster RF_ASSERT(!lr->templink); 457 1.20 oster /* put on callback list so that we'll invoke 458 1.20 oster callback below */ 459 1.26 perry lr->templink = callbacklist; 460 1.3 oster callbacklist = lr; 461 1.13 oster #if RF_DEBUG_STRIPELOCK 462 1.3 oster if (rf_stripeLockDebug) { 463 1.3 oster Dprintf8("[%d] No writers: granting lock stripe ID %ld, type %c range %ld-%ld %ld-%ld table 0x%lx\n", 464 1.3 oster tid, stripeID, lr->type, lr->start, lr->stop, lr->start2, lr->stop2, (unsigned long) lockTable); 465 1.3 oster FLUSH; 466 1.3 oster } 467 1.13 oster #endif 468 1.3 oster } 469 1.26 perry lockDesc->waitersT = NULL; 470 1.20 oster /* we've purged the whole waiters list */ 471 1.3 oster 472 1.3 oster } else 473 1.26 perry for (candidate_t = NULL, candidate = lockDesc->waitersH; 474 1.20 oster candidate;) { 475 1.3 oster 476 1.3 oster /* performance tweak (2) */ 477 1.3 oster consider_it = 0; 478 1.3 oster if (RANGE_OVERLAP(lockReqDesc, candidate)) 479 1.3 oster consider_it = 1; 480 1.3 oster else 481 1.3 oster for (t = callbacklist; t; t = t->templink) 482 1.3 oster if (RANGE_OVERLAP(t, candidate)) { 483 1.3 oster consider_it = 1; 484 1.3 oster break; 485 1.3 oster } 486 1.3 oster if (!consider_it) { 487 1.13 oster #if RF_DEBUG_STRIPELOCK 488 1.3 oster if (rf_stripeLockDebug) { 489 1.3 oster Dprintf8("[%d] No overlap: rejecting candidate stripeID %ld, type %c range %ld-%ld %ld-%ld table 0x%lx\n", 490 1.3 oster tid, stripeID, candidate->type, candidate->start, candidate->stop, candidate->start2, candidate->stop2, 491 1.3 oster (unsigned long) lockTable); 492 1.3 oster FLUSH; 493 1.3 oster } 494 1.13 oster #endif 495 1.3 oster candidate_t = candidate; 496 1.3 oster candidate = candidate->next; 497 1.3 oster continue; 498 1.3 oster } 499 1.20 oster /* we have a candidate for release. check to 500 1.20 oster * make sure it is not blocked by any granted 501 1.20 oster * locks */ 502 1.3 oster release_it = 1; 503 1.26 perry for (predecessor = lockDesc->granted; predecessor; 504 1.20 oster predecessor = predecessor->next) { 505 1.26 perry if (STRIPELOCK_CONFLICT(candidate, 506 1.20 oster predecessor)) { 507 1.13 oster #if RF_DEBUG_STRIPELOCK 508 1.3 oster if (rf_stripeLockDebug) { 509 1.3 oster Dprintf8("[%d] Conflicts with granted lock: rejecting candidate stripeID %ld, type %c range %ld-%ld %ld-%ld table 0x%lx\n", 510 1.3 oster tid, stripeID, candidate->type, candidate->start, candidate->stop, candidate->start2, candidate->stop2, 511 1.3 oster (unsigned long) lockTable); 512 1.3 oster FLUSH; 513 1.3 oster } 514 1.13 oster #endif 515 1.3 oster release_it = 0; 516 1.3 oster break; 517 1.3 oster } 518 1.3 oster } 519 1.3 oster 520 1.20 oster /* now check to see if the candidate is 521 1.20 oster * blocked by any waiters that occur before it 522 1.20 oster * it the wait queue */ 523 1.3 oster if (release_it) 524 1.26 perry for (predecessor = lockDesc->waitersH; 525 1.26 perry predecessor != candidate; 526 1.20 oster predecessor = predecessor->next) { 527 1.26 perry if (STRIPELOCK_CONFLICT(candidate, 528 1.20 oster predecessor)) { 529 1.13 oster #if RF_DEBUG_STRIPELOCK 530 1.3 oster if (rf_stripeLockDebug) { 531 1.3 oster Dprintf8("[%d] Conflicts with waiting lock: rejecting candidate stripeID %ld, type %c range %ld-%ld %ld-%ld table 0x%lx\n", 532 1.3 oster tid, stripeID, candidate->type, candidate->start, candidate->stop, candidate->start2, candidate->stop2, 533 1.3 oster (unsigned long) lockTable); 534 1.3 oster FLUSH; 535 1.3 oster } 536 1.13 oster #endif 537 1.3 oster release_it = 0; 538 1.3 oster break; 539 1.3 oster } 540 1.3 oster } 541 1.3 oster 542 1.3 oster /* release it if indicated */ 543 1.3 oster if (release_it) { 544 1.13 oster #if RF_DEBUG_STRIPELOCK 545 1.3 oster if (rf_stripeLockDebug) { 546 1.3 oster Dprintf8("[%d] Granting lock to candidate stripeID %ld, type %c range %ld-%ld %ld-%ld table 0x%lx\n", 547 1.3 oster tid, stripeID, candidate->type, candidate->start, candidate->stop, candidate->start2, candidate->stop2, 548 1.3 oster (unsigned long) lockTable); 549 1.3 oster FLUSH; 550 1.3 oster } 551 1.13 oster #endif 552 1.3 oster if (candidate_t) { 553 1.3 oster candidate_t->next = candidate->next; 554 1.3 oster if (lockDesc->waitersT == candidate) 555 1.15 oster lockDesc->waitersT = candidate_t; /* cannot be waitersH since candidate_t is not NULL */ 556 1.3 oster } else { 557 1.3 oster RF_ASSERT(candidate == lockDesc->waitersH); 558 1.3 oster lockDesc->waitersH = lockDesc->waitersH->next; 559 1.3 oster if (!lockDesc->waitersH) 560 1.3 oster lockDesc->waitersT = NULL; 561 1.3 oster } 562 1.26 perry /* move it to the granted list */ 563 1.26 perry candidate->next = lockDesc->granted; 564 1.3 oster lockDesc->granted = candidate; 565 1.3 oster 566 1.3 oster RF_ASSERT(!candidate->templink); 567 1.20 oster /* put it on the list of things to be 568 1.20 oster called after we release the mutex */ 569 1.26 perry candidate->templink = callbacklist; 570 1.20 oster 571 1.3 oster callbacklist = candidate; 572 1.3 oster 573 1.3 oster if (!candidate_t) 574 1.3 oster candidate = lockDesc->waitersH; 575 1.3 oster else 576 1.26 perry candidate = candidate_t->next; 577 1.20 oster /* continue with the rest of the list */ 578 1.3 oster } else { 579 1.3 oster candidate_t = candidate; 580 1.20 oster /* continue with the rest of the list */ 581 1.26 perry candidate = candidate->next; 582 1.3 oster } 583 1.3 oster } 584 1.3 oster 585 1.3 oster /* delete the descriptor if no one is waiting or active */ 586 1.3 oster if (!lockDesc->granted && !lockDesc->waitersH) { 587 1.3 oster RF_ASSERT(lockDesc->nWriters == 0); 588 1.13 oster #if RF_DEBUG_STRIPELOCK 589 1.3 oster if (rf_stripeLockDebug) { 590 1.3 oster Dprintf3("[%d] Last lock released (table 0x%lx): deleting desc for stripeID %ld\n", tid, (unsigned long) lockTable, stripeID); 591 1.3 oster FLUSH; 592 1.3 oster } 593 1.13 oster #endif 594 1.3 oster if (ld_t) 595 1.3 oster ld_t->next = lockDesc->next; 596 1.3 oster else { 597 1.3 oster RF_ASSERT(lockDesc == lockTable[hashval].descList); 598 1.3 oster lockTable[hashval].descList = lockDesc->next; 599 1.3 oster } 600 1.3 oster FreeStripeLockDesc(lockDesc); 601 1.3 oster lockDesc = NULL;/* only for the ASSERT below */ 602 1.3 oster } 603 1.3 oster RF_UNLOCK_MUTEX(lockTable[hashval].mutex); 604 1.3 oster 605 1.20 oster /* now that we've unlocked the mutex, invoke the callback on 606 1.20 oster * all the descriptors in the list */ 607 1.20 oster 608 1.20 oster /* if we deleted the descriptor, we should have no callbacks 609 1.20 oster * to do */ 610 1.26 perry RF_ASSERT(!((callbacklist) && (!lockDesc))); 611 1.3 oster for (candidate = callbacklist; candidate;) { 612 1.3 oster t = candidate; 613 1.3 oster candidate = candidate->templink; 614 1.3 oster t->templink = NULL; 615 1.3 oster (t->cbFunc) (t->cbArg); 616 1.1 oster } 617 1.1 oster } 618 1.3 oster /* must have the indicated lock table mutex upon entry */ 619 1.26 perry static void 620 1.21 oster AddToWaitersQueue(RF_StripeLockDesc_t *lockDesc, RF_LockReqDesc_t *lockReqDesc) 621 1.3 oster { 622 1.3 oster if (!lockDesc->waitersH) { 623 1.3 oster lockDesc->waitersH = lockDesc->waitersT = lockReqDesc; 624 1.3 oster } else { 625 1.3 oster lockDesc->waitersT->next = lockReqDesc; 626 1.3 oster lockDesc->waitersT = lockReqDesc; 627 1.3 oster } 628 1.1 oster } 629 1.1 oster 630 1.3 oster static RF_StripeLockDesc_t * 631 1.3 oster AllocStripeLockDesc(RF_StripeNum_t stripeID) 632 1.1 oster { 633 1.1 oster RF_StripeLockDesc_t *p; 634 1.1 oster 635 1.25 oster p = pool_get(&rf_pools.stripelock, PR_WAITOK); 636 1.1 oster if (p) { 637 1.1 oster p->stripeID = stripeID; 638 1.17 oster p->granted = NULL; 639 1.17 oster p->waitersH = NULL; 640 1.17 oster p->waitersT = NULL; 641 1.17 oster p->nWriters = 0; 642 1.17 oster p->next = NULL; 643 1.1 oster } 644 1.3 oster return (p); 645 1.1 oster } 646 1.1 oster 647 1.26 perry static void 648 1.21 oster FreeStripeLockDesc(RF_StripeLockDesc_t *p) 649 1.1 oster { 650 1.25 oster pool_put(&rf_pools.stripelock, p); 651 1.1 oster } 652 1.1 oster 653 1.13 oster #if RF_DEBUG_STRIPELOCK 654 1.26 perry static void 655 1.21 oster PrintLockedStripes(RF_LockTableEntry_t *lockTable) 656 1.3 oster { 657 1.3 oster int i, j, foundone = 0, did; 658 1.3 oster RF_StripeLockDesc_t *p; 659 1.3 oster RF_LockReqDesc_t *q; 660 1.3 oster 661 1.3 oster RF_LOCK_MUTEX(rf_printf_mutex); 662 1.3 oster printf("Locked stripes:\n"); 663 1.3 oster for (i = 0; i < rf_lockTableSize; i++) 664 1.3 oster if (lockTable[i].descList) { 665 1.3 oster foundone = 1; 666 1.3 oster for (p = lockTable[i].descList; p; p = p->next) { 667 1.3 oster printf("Stripe ID 0x%lx (%d) nWriters %d\n", 668 1.26 perry (long) p->stripeID, (int) p->stripeID, 669 1.20 oster p->nWriters); 670 1.3 oster 671 1.3 oster if (!(p->granted)) 672 1.3 oster printf("Granted: (none)\n"); 673 1.3 oster else 674 1.3 oster printf("Granted:\n"); 675 1.26 perry for (did = 1, j = 0, q = p->granted; q; 676 1.20 oster j++, q = q->next) { 677 1.3 oster printf(" %c(%ld-%ld", q->type, (long) q->start, (long) q->stop); 678 1.3 oster if (q->start2 != -1) 679 1.3 oster printf(",%ld-%ld) ", (long) q->start2, 680 1.3 oster (long) q->stop2); 681 1.3 oster else 682 1.3 oster printf(") "); 683 1.3 oster if (j && !(j % 4)) { 684 1.3 oster printf("\n"); 685 1.3 oster did = 1; 686 1.3 oster } else 687 1.3 oster did = 0; 688 1.3 oster } 689 1.3 oster if (!did) 690 1.3 oster printf("\n"); 691 1.3 oster 692 1.3 oster if (!(p->waitersH)) 693 1.3 oster printf("Waiting: (none)\n"); 694 1.3 oster else 695 1.3 oster printf("Waiting:\n"); 696 1.26 perry for (did = 1, j = 0, q = p->waitersH; q; 697 1.20 oster j++, q = q->next) { 698 1.3 oster printf("%c(%ld-%ld", q->type, (long) q->start, (long) q->stop); 699 1.3 oster if (q->start2 != -1) 700 1.3 oster printf(",%ld-%ld) ", (long) q->start2, (long) q->stop2); 701 1.3 oster else 702 1.3 oster printf(") "); 703 1.3 oster if (j && !(j % 4)) { 704 1.3 oster printf("\n "); 705 1.3 oster did = 1; 706 1.3 oster } else 707 1.3 oster did = 0; 708 1.3 oster } 709 1.3 oster if (!did) 710 1.3 oster printf("\n"); 711 1.3 oster } 712 1.3 oster } 713 1.3 oster if (!foundone) 714 1.3 oster printf("(none)\n"); 715 1.3 oster else 716 1.3 oster printf("\n"); 717 1.3 oster RF_UNLOCK_MUTEX(rf_printf_mutex); 718 1.1 oster } 719 1.13 oster #endif 720
Indexes created Sun Oct 12 22:09:51 GMT 2025