rf_states.c revision 1.23
1 1.23 oster /* $NetBSD: rf_states.c,v 1.23 2003/12/31 17:47:53 oster 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, William V. Courtright II, Robby Findler 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 1.16 lukem 29 1.16 lukem #include <sys/cdefs.h> 30 1.23 oster __KERNEL_RCSID(0, "$NetBSD: rf_states.c,v 1.23 2003/12/31 17:47:53 oster Exp $"); 31 1.1 oster 32 1.1 oster #include <sys/errno.h> 33 1.1 oster 34 1.1 oster #include "rf_archs.h" 35 1.1 oster #include "rf_threadstuff.h" 36 1.1 oster #include "rf_raid.h" 37 1.1 oster #include "rf_dag.h" 38 1.1 oster #include "rf_desc.h" 39 1.1 oster #include "rf_aselect.h" 40 1.1 oster #include "rf_general.h" 41 1.1 oster #include "rf_states.h" 42 1.1 oster #include "rf_dagutils.h" 43 1.1 oster #include "rf_driver.h" 44 1.1 oster #include "rf_engine.h" 45 1.1 oster #include "rf_map.h" 46 1.1 oster #include "rf_etimer.h" 47 1.10 oster #include "rf_kintf.h" 48 1.1 oster 49 1.19 oster #ifndef RF_DEBUG_STATES 50 1.19 oster #define RF_DEBUG_STATES 0 51 1.19 oster #endif 52 1.19 oster 53 1.1 oster /* prototypes for some of the available states. 54 1.1 oster 55 1.1 oster States must: 56 1.1 oster 57 1.1 oster - not block. 58 1.1 oster 59 1.1 oster - either schedule rf_ContinueRaidAccess as a callback and return 60 1.1 oster RF_TRUE, or complete all of their work and return RF_FALSE. 61 1.1 oster 62 1.1 oster - increment desc->state when they have finished their work. 63 1.1 oster */ 64 1.1 oster 65 1.19 oster #if RF_DEBUG_STATES 66 1.6 oster static char * 67 1.6 oster StateName(RF_AccessState_t state) 68 1.1 oster { 69 1.6 oster switch (state) { 70 1.6 oster case rf_QuiesceState:return "QuiesceState"; 71 1.6 oster case rf_MapState: 72 1.6 oster return "MapState"; 73 1.6 oster case rf_LockState: 74 1.6 oster return "LockState"; 75 1.6 oster case rf_CreateDAGState: 76 1.6 oster return "CreateDAGState"; 77 1.6 oster case rf_ExecuteDAGState: 78 1.6 oster return "ExecuteDAGState"; 79 1.6 oster case rf_ProcessDAGState: 80 1.6 oster return "ProcessDAGState"; 81 1.6 oster case rf_CleanupState: 82 1.6 oster return "CleanupState"; 83 1.6 oster case rf_LastState: 84 1.6 oster return "LastState"; 85 1.6 oster case rf_IncrAccessesCountState: 86 1.6 oster return "IncrAccessesCountState"; 87 1.6 oster case rf_DecrAccessesCountState: 88 1.6 oster return "DecrAccessesCountState"; 89 1.6 oster default: 90 1.6 oster return "!!! UnnamedState !!!"; 91 1.6 oster } 92 1.6 oster } 93 1.19 oster #endif 94 1.6 oster 95 1.6 oster void 96 1.22 oster rf_ContinueRaidAccess(RF_RaidAccessDesc_t *desc) 97 1.6 oster { 98 1.6 oster int suspended = RF_FALSE; 99 1.6 oster int current_state_index = desc->state; 100 1.6 oster RF_AccessState_t current_state = desc->states[current_state_index]; 101 1.19 oster #if RF_DEBUG_STATES 102 1.12 oster int unit = desc->raidPtr->raidid; 103 1.19 oster #endif 104 1.6 oster 105 1.6 oster do { 106 1.6 oster 107 1.6 oster current_state_index = desc->state; 108 1.6 oster current_state = desc->states[current_state_index]; 109 1.6 oster 110 1.6 oster switch (current_state) { 111 1.6 oster 112 1.6 oster case rf_QuiesceState: 113 1.6 oster suspended = rf_State_Quiesce(desc); 114 1.6 oster break; 115 1.6 oster case rf_IncrAccessesCountState: 116 1.6 oster suspended = rf_State_IncrAccessCount(desc); 117 1.6 oster break; 118 1.6 oster case rf_MapState: 119 1.6 oster suspended = rf_State_Map(desc); 120 1.6 oster break; 121 1.6 oster case rf_LockState: 122 1.6 oster suspended = rf_State_Lock(desc); 123 1.6 oster break; 124 1.6 oster case rf_CreateDAGState: 125 1.6 oster suspended = rf_State_CreateDAG(desc); 126 1.6 oster break; 127 1.6 oster case rf_ExecuteDAGState: 128 1.6 oster suspended = rf_State_ExecuteDAG(desc); 129 1.6 oster break; 130 1.6 oster case rf_ProcessDAGState: 131 1.6 oster suspended = rf_State_ProcessDAG(desc); 132 1.6 oster break; 133 1.6 oster case rf_CleanupState: 134 1.6 oster suspended = rf_State_Cleanup(desc); 135 1.6 oster break; 136 1.6 oster case rf_DecrAccessesCountState: 137 1.6 oster suspended = rf_State_DecrAccessCount(desc); 138 1.6 oster break; 139 1.6 oster case rf_LastState: 140 1.6 oster suspended = rf_State_LastState(desc); 141 1.6 oster break; 142 1.6 oster } 143 1.6 oster 144 1.23 oster /* after this point, we cannot dereference desc since 145 1.23 oster * desc may have been freed. desc is only freed in 146 1.23 oster * LastState, so if we renter this function or loop 147 1.23 oster * back up, desc should be valid. */ 148 1.6 oster 149 1.19 oster #if RF_DEBUG_STATES 150 1.6 oster if (rf_printStatesDebug) { 151 1.12 oster printf("raid%d: State: %-24s StateIndex: %3i desc: 0x%ld %s\n", 152 1.12 oster unit, StateName(current_state), 153 1.12 oster current_state_index, (long) desc, 154 1.12 oster suspended ? "callback scheduled" : "looping"); 155 1.6 oster } 156 1.19 oster #endif 157 1.6 oster } while (!suspended && current_state != rf_LastState); 158 1.6 oster 159 1.6 oster return; 160 1.6 oster } 161 1.6 oster 162 1.6 oster 163 1.6 oster void 164 1.22 oster rf_ContinueDagAccess(RF_DagList_t *dagList) 165 1.6 oster { 166 1.6 oster RF_AccTraceEntry_t *tracerec = &(dagList->desc->tracerec); 167 1.6 oster RF_RaidAccessDesc_t *desc; 168 1.6 oster RF_DagHeader_t *dag_h; 169 1.6 oster RF_Etimer_t timer; 170 1.6 oster int i; 171 1.6 oster 172 1.6 oster desc = dagList->desc; 173 1.6 oster 174 1.6 oster timer = tracerec->timer; 175 1.6 oster RF_ETIMER_STOP(timer); 176 1.6 oster RF_ETIMER_EVAL(timer); 177 1.6 oster tracerec->specific.user.exec_us = RF_ETIMER_VAL_US(timer); 178 1.6 oster RF_ETIMER_START(tracerec->timer); 179 1.6 oster 180 1.6 oster /* skip to dag which just finished */ 181 1.6 oster dag_h = dagList->dags; 182 1.6 oster for (i = 0; i < dagList->numDagsDone; i++) { 183 1.6 oster dag_h = dag_h->next; 184 1.6 oster } 185 1.6 oster 186 1.6 oster /* check to see if retry is required */ 187 1.6 oster if (dag_h->status == rf_rollBackward) { 188 1.23 oster /* when a dag fails, mark desc status as bad and allow 189 1.23 oster * all other dags in the desc to execute to 190 1.23 oster * completion. then, free all dags and start over */ 191 1.6 oster desc->status = 1; /* bad status */ 192 1.23 oster 193 1.23 oster printf("raid%d: DAG failure: %c addr 0x%lx (%ld) nblk 0x%x (%d) buf 0x%lx\n", 194 1.23 oster desc->raidPtr->raidid, desc->type, 195 1.23 oster (long) desc->raidAddress, 196 1.23 oster (long) desc->raidAddress, (int) desc->numBlocks, 197 1.23 oster (int) desc->numBlocks, 198 1.23 oster (unsigned long) (desc->bufPtr)); 199 1.6 oster } 200 1.6 oster dagList->numDagsDone++; 201 1.6 oster rf_ContinueRaidAccess(desc); 202 1.6 oster } 203 1.6 oster 204 1.6 oster int 205 1.22 oster rf_State_LastState(RF_RaidAccessDesc_t *desc) 206 1.1 oster { 207 1.6 oster void (*callbackFunc) (RF_CBParam_t) = desc->callbackFunc; 208 1.6 oster RF_CBParam_t callbackArg; 209 1.2 drochner 210 1.6 oster callbackArg.p = desc->callbackArg; 211 1.8 oster 212 1.8 oster /* 213 1.8 oster * If this is not an async request, wake up the caller 214 1.8 oster */ 215 1.8 oster if (desc->async_flag == 0) 216 1.8 oster wakeup(desc->bp); 217 1.15 oster 218 1.15 oster /* 219 1.15 oster * That's all the IO for this one... unbusy the 'disk'. 220 1.15 oster */ 221 1.15 oster 222 1.15 oster rf_disk_unbusy(desc); 223 1.15 oster 224 1.8 oster /* 225 1.8 oster * Wakeup any requests waiting to go. 226 1.8 oster */ 227 1.8 oster 228 1.8 oster RF_LOCK_MUTEX(((RF_Raid_t *) desc->raidPtr)->mutex); 229 1.8 oster ((RF_Raid_t *) desc->raidPtr)->openings++; 230 1.8 oster RF_UNLOCK_MUTEX(((RF_Raid_t *) desc->raidPtr)->mutex); 231 1.10 oster 232 1.10 oster /* wake up any pending IO */ 233 1.10 oster raidstart(((RF_Raid_t *) desc->raidPtr)); 234 1.10 oster 235 1.8 oster /* printf("Calling biodone on 0x%x\n",desc->bp); */ 236 1.8 oster biodone(desc->bp); /* access came through ioctl */ 237 1.3 explorer 238 1.6 oster if (callbackFunc) 239 1.6 oster callbackFunc(callbackArg); 240 1.6 oster rf_FreeRaidAccDesc(desc); 241 1.6 oster 242 1.6 oster return RF_FALSE; 243 1.6 oster } 244 1.6 oster 245 1.6 oster int 246 1.22 oster rf_State_IncrAccessCount(RF_RaidAccessDesc_t *desc) 247 1.6 oster { 248 1.6 oster RF_Raid_t *raidPtr; 249 1.6 oster 250 1.6 oster raidPtr = desc->raidPtr; 251 1.6 oster /* Bummer. We have to do this to be 100% safe w.r.t. the increment 252 1.6 oster * below */ 253 1.6 oster RF_LOCK_MUTEX(raidPtr->access_suspend_mutex); 254 1.6 oster raidPtr->accs_in_flight++; /* used to detect quiescence */ 255 1.6 oster RF_UNLOCK_MUTEX(raidPtr->access_suspend_mutex); 256 1.6 oster 257 1.6 oster desc->state++; 258 1.6 oster return RF_FALSE; 259 1.6 oster } 260 1.6 oster 261 1.6 oster int 262 1.22 oster rf_State_DecrAccessCount(RF_RaidAccessDesc_t *desc) 263 1.6 oster { 264 1.6 oster RF_Raid_t *raidPtr; 265 1.6 oster 266 1.6 oster raidPtr = desc->raidPtr; 267 1.6 oster 268 1.6 oster RF_LOCK_MUTEX(raidPtr->access_suspend_mutex); 269 1.6 oster raidPtr->accs_in_flight--; 270 1.6 oster if (raidPtr->accesses_suspended && raidPtr->accs_in_flight == 0) { 271 1.20 oster rf_SignalQuiescenceLock(raidPtr); 272 1.6 oster } 273 1.6 oster rf_UpdateUserStats(raidPtr, RF_ETIMER_VAL_US(desc->timer), desc->numBlocks); 274 1.6 oster RF_UNLOCK_MUTEX(raidPtr->access_suspend_mutex); 275 1.6 oster 276 1.6 oster desc->state++; 277 1.6 oster return RF_FALSE; 278 1.6 oster } 279 1.6 oster 280 1.6 oster int 281 1.22 oster rf_State_Quiesce(RF_RaidAccessDesc_t *desc) 282 1.6 oster { 283 1.6 oster RF_AccTraceEntry_t *tracerec = &desc->tracerec; 284 1.6 oster RF_Etimer_t timer; 285 1.6 oster int suspended = RF_FALSE; 286 1.6 oster RF_Raid_t *raidPtr; 287 1.6 oster 288 1.6 oster raidPtr = desc->raidPtr; 289 1.6 oster 290 1.6 oster RF_ETIMER_START(timer); 291 1.6 oster RF_ETIMER_START(desc->timer); 292 1.6 oster 293 1.6 oster RF_LOCK_MUTEX(raidPtr->access_suspend_mutex); 294 1.6 oster if (raidPtr->accesses_suspended) { 295 1.6 oster RF_CallbackDesc_t *cb; 296 1.6 oster cb = rf_AllocCallbackDesc(); 297 1.23 oster 298 1.6 oster cb->callbackFunc = (void (*) (RF_CBParam_t)) rf_ContinueRaidAccess; 299 1.6 oster cb->callbackArg.p = (void *) desc; 300 1.6 oster cb->next = raidPtr->quiesce_wait_list; 301 1.6 oster raidPtr->quiesce_wait_list = cb; 302 1.6 oster suspended = RF_TRUE; 303 1.6 oster } 304 1.6 oster RF_UNLOCK_MUTEX(raidPtr->access_suspend_mutex); 305 1.6 oster 306 1.6 oster RF_ETIMER_STOP(timer); 307 1.6 oster RF_ETIMER_EVAL(timer); 308 1.6 oster tracerec->specific.user.suspend_ovhd_us += RF_ETIMER_VAL_US(timer); 309 1.6 oster 310 1.18 oster #if RF_DEBUG_QUIESCE 311 1.6 oster if (suspended && rf_quiesceDebug) 312 1.6 oster printf("Stalling access due to quiescence lock\n"); 313 1.18 oster #endif 314 1.6 oster desc->state++; 315 1.6 oster return suspended; 316 1.6 oster } 317 1.6 oster 318 1.6 oster int 319 1.22 oster rf_State_Map(RF_RaidAccessDesc_t *desc) 320 1.6 oster { 321 1.6 oster RF_Raid_t *raidPtr = desc->raidPtr; 322 1.6 oster RF_AccTraceEntry_t *tracerec = &desc->tracerec; 323 1.6 oster RF_Etimer_t timer; 324 1.6 oster 325 1.6 oster RF_ETIMER_START(timer); 326 1.6 oster 327 1.6 oster if (!(desc->asmap = rf_MapAccess(raidPtr, desc->raidAddress, desc->numBlocks, 328 1.6 oster desc->bufPtr, RF_DONT_REMAP))) 329 1.6 oster RF_PANIC(); 330 1.6 oster 331 1.6 oster RF_ETIMER_STOP(timer); 332 1.6 oster RF_ETIMER_EVAL(timer); 333 1.6 oster tracerec->specific.user.map_us = RF_ETIMER_VAL_US(timer); 334 1.6 oster 335 1.6 oster desc->state++; 336 1.6 oster return RF_FALSE; 337 1.6 oster } 338 1.6 oster 339 1.6 oster int 340 1.22 oster rf_State_Lock(RF_RaidAccessDesc_t *desc) 341 1.6 oster { 342 1.6 oster RF_AccTraceEntry_t *tracerec = &desc->tracerec; 343 1.6 oster RF_Raid_t *raidPtr = desc->raidPtr; 344 1.6 oster RF_AccessStripeMapHeader_t *asmh = desc->asmap; 345 1.6 oster RF_AccessStripeMap_t *asm_p; 346 1.6 oster RF_Etimer_t timer; 347 1.6 oster int suspended = RF_FALSE; 348 1.6 oster 349 1.6 oster RF_ETIMER_START(timer); 350 1.6 oster if (!(raidPtr->Layout.map->flags & RF_NO_STRIPE_LOCKS)) { 351 1.6 oster RF_StripeNum_t lastStripeID = -1; 352 1.6 oster 353 1.6 oster /* acquire each lock that we don't already hold */ 354 1.6 oster for (asm_p = asmh->stripeMap; asm_p; asm_p = asm_p->next) { 355 1.6 oster RF_ASSERT(RF_IO_IS_R_OR_W(desc->type)); 356 1.6 oster if (!rf_suppressLocksAndLargeWrites && 357 1.6 oster asm_p->parityInfo && 358 1.6 oster !(desc->flags & RF_DAG_SUPPRESS_LOCKS) && 359 1.6 oster !(asm_p->flags & RF_ASM_FLAGS_LOCK_TRIED)) { 360 1.6 oster asm_p->flags |= RF_ASM_FLAGS_LOCK_TRIED; 361 1.23 oster /* locks must be acquired hierarchically */ 362 1.23 oster RF_ASSERT(asm_p->stripeID > lastStripeID); 363 1.6 oster lastStripeID = asm_p->stripeID; 364 1.23 oster 365 1.6 oster RF_INIT_LOCK_REQ_DESC(asm_p->lockReqDesc, desc->type, 366 1.6 oster (void (*) (struct buf *)) rf_ContinueRaidAccess, desc, asm_p, 367 1.6 oster raidPtr->Layout.dataSectorsPerStripe); 368 1.6 oster if (rf_AcquireStripeLock(raidPtr->lockTable, asm_p->stripeID, 369 1.6 oster &asm_p->lockReqDesc)) { 370 1.6 oster suspended = RF_TRUE; 371 1.6 oster break; 372 1.6 oster } 373 1.6 oster } 374 1.6 oster if (desc->type == RF_IO_TYPE_WRITE && 375 1.21 oster raidPtr->status == rf_rs_reconstructing) { 376 1.6 oster if (!(asm_p->flags & RF_ASM_FLAGS_FORCE_TRIED)) { 377 1.6 oster int val; 378 1.6 oster 379 1.6 oster asm_p->flags |= RF_ASM_FLAGS_FORCE_TRIED; 380 1.6 oster val = rf_ForceOrBlockRecon(raidPtr, asm_p, 381 1.6 oster (void (*) (RF_Raid_t *, void *)) rf_ContinueRaidAccess, desc); 382 1.6 oster if (val == 0) { 383 1.6 oster asm_p->flags |= RF_ASM_FLAGS_RECON_BLOCKED; 384 1.6 oster } else { 385 1.6 oster suspended = RF_TRUE; 386 1.6 oster break; 387 1.6 oster } 388 1.6 oster } else { 389 1.6 oster if (rf_pssDebug) { 390 1.13 oster printf("raid%d: skipping force/block because already done, psid %ld\n", 391 1.13 oster desc->raidPtr->raidid, 392 1.13 oster (long) asm_p->stripeID); 393 1.6 oster } 394 1.6 oster } 395 1.6 oster } else { 396 1.6 oster if (rf_pssDebug) { 397 1.13 oster printf("raid%d: skipping force/block because not write or not under recon, psid %ld\n", 398 1.13 oster desc->raidPtr->raidid, 399 1.13 oster (long) asm_p->stripeID); 400 1.6 oster } 401 1.6 oster } 402 1.6 oster } 403 1.6 oster 404 1.6 oster RF_ETIMER_STOP(timer); 405 1.6 oster RF_ETIMER_EVAL(timer); 406 1.6 oster tracerec->specific.user.lock_us += RF_ETIMER_VAL_US(timer); 407 1.6 oster 408 1.6 oster if (suspended) 409 1.6 oster return (RF_TRUE); 410 1.6 oster } 411 1.6 oster desc->state++; 412 1.6 oster return (RF_FALSE); 413 1.1 oster } 414 1.1 oster /* 415 1.1 oster * the following three states create, execute, and post-process dags 416 1.1 oster * the error recovery unit is a single dag. 417 1.1 oster * by default, SelectAlgorithm creates an array of dags, one per parity stripe 418 1.1 oster * in some tricky cases, multiple dags per stripe are created 419 1.1 oster * - dags within a parity stripe are executed sequentially (arbitrary order) 420 1.1 oster * - dags for distinct parity stripes are executed concurrently 421 1.1 oster * 422 1.1 oster * repeat until all dags complete successfully -or- dag selection fails 423 1.1 oster * 424 1.1 oster * while !done 425 1.1 oster * create dag(s) (SelectAlgorithm) 426 1.1 oster * if dag 427 1.1 oster * execute dag (DispatchDAG) 428 1.1 oster * if dag successful 429 1.1 oster * done (SUCCESS) 430 1.1 oster * else 431 1.1 oster * !done (RETRY - start over with new dags) 432 1.1 oster * else 433 1.1 oster * done (FAIL) 434 1.1 oster */ 435 1.6 oster int 436 1.22 oster rf_State_CreateDAG(RF_RaidAccessDesc_t *desc) 437 1.1 oster { 438 1.6 oster RF_AccTraceEntry_t *tracerec = &desc->tracerec; 439 1.6 oster RF_Etimer_t timer; 440 1.6 oster RF_DagHeader_t *dag_h; 441 1.6 oster int i, selectStatus; 442 1.6 oster 443 1.6 oster /* generate a dag for the access, and fire it off. When the dag 444 1.6 oster * completes, we'll get re-invoked in the next state. */ 445 1.6 oster RF_ETIMER_START(timer); 446 1.6 oster /* SelectAlgorithm returns one or more dags */ 447 1.6 oster selectStatus = rf_SelectAlgorithm(desc, desc->flags | RF_DAG_SUPPRESS_LOCKS); 448 1.17 oster #if RF_DEBUG_VALIDATE_DAG 449 1.6 oster if (rf_printDAGsDebug) 450 1.6 oster for (i = 0; i < desc->numStripes; i++) 451 1.6 oster rf_PrintDAGList(desc->dagArray[i].dags); 452 1.17 oster #endif /* RF_DEBUG_VALIDATE_DAG */ 453 1.6 oster RF_ETIMER_STOP(timer); 454 1.6 oster RF_ETIMER_EVAL(timer); 455 1.6 oster /* update time to create all dags */ 456 1.6 oster tracerec->specific.user.dag_create_us = RF_ETIMER_VAL_US(timer); 457 1.6 oster 458 1.6 oster desc->status = 0; /* good status */ 459 1.6 oster 460 1.6 oster if (selectStatus) { 461 1.6 oster /* failed to create a dag */ 462 1.6 oster /* this happens when there are too many faults or incomplete 463 1.6 oster * dag libraries */ 464 1.14 oster printf("[Failed to create a DAG]\n"); 465 1.6 oster RF_PANIC(); 466 1.6 oster } else { 467 1.6 oster /* bind dags to desc */ 468 1.6 oster for (i = 0; i < desc->numStripes; i++) { 469 1.6 oster dag_h = desc->dagArray[i].dags; 470 1.6 oster while (dag_h) { 471 1.6 oster dag_h->bp = (struct buf *) desc->bp; 472 1.6 oster dag_h->tracerec = tracerec; 473 1.6 oster dag_h = dag_h->next; 474 1.6 oster } 475 1.6 oster } 476 1.6 oster desc->flags |= RF_DAG_DISPATCH_RETURNED; 477 1.6 oster desc->state++; /* next state should be rf_State_ExecuteDAG */ 478 1.6 oster } 479 1.6 oster return RF_FALSE; 480 1.1 oster } 481 1.1 oster 482 1.1 oster 483 1.1 oster 484 1.1 oster /* the access has an array of dagLists, one dagList per parity stripe. 485 1.1 oster * fire the first dag in each parity stripe (dagList). 486 1.1 oster * dags within a stripe (dagList) must be executed sequentially 487 1.1 oster * - this preserves atomic parity update 488 1.1 oster * dags for independents parity groups (stripes) are fired concurrently */ 489 1.1 oster 490 1.6 oster int 491 1.22 oster rf_State_ExecuteDAG(RF_RaidAccessDesc_t *desc) 492 1.1 oster { 493 1.6 oster int i; 494 1.6 oster RF_DagHeader_t *dag_h; 495 1.6 oster RF_DagList_t *dagArray = desc->dagArray; 496 1.6 oster 497 1.23 oster /* next state is always rf_State_ProcessDAG important to do 498 1.23 oster * this before firing the first dag (it may finish before we 499 1.23 oster * leave this routine) */ 500 1.6 oster desc->state++; 501 1.6 oster 502 1.23 oster /* sweep dag array, a stripe at a time, firing the first dag 503 1.23 oster * in each stripe */ 504 1.6 oster for (i = 0; i < desc->numStripes; i++) { 505 1.6 oster RF_ASSERT(dagArray[i].numDags > 0); 506 1.6 oster RF_ASSERT(dagArray[i].numDagsDone == 0); 507 1.6 oster RF_ASSERT(dagArray[i].numDagsFired == 0); 508 1.6 oster RF_ETIMER_START(dagArray[i].tracerec.timer); 509 1.6 oster /* fire first dag in this stripe */ 510 1.6 oster dag_h = dagArray[i].dags; 511 1.6 oster RF_ASSERT(dag_h); 512 1.6 oster dagArray[i].numDagsFired++; 513 1.6 oster rf_DispatchDAG(dag_h, (void (*) (void *)) rf_ContinueDagAccess, &dagArray[i]); 514 1.6 oster } 515 1.6 oster 516 1.6 oster /* the DAG will always call the callback, even if there was no 517 1.6 oster * blocking, so we are always suspended in this state */ 518 1.6 oster return RF_TRUE; 519 1.1 oster } 520 1.1 oster 521 1.1 oster 522 1.1 oster 523 1.1 oster /* rf_State_ProcessDAG is entered when a dag completes. 524 1.1 oster * first, check to all dags in the access have completed 525 1.1 oster * if not, fire as many dags as possible */ 526 1.1 oster 527 1.6 oster int 528 1.22 oster rf_State_ProcessDAG(RF_RaidAccessDesc_t *desc) 529 1.1 oster { 530 1.6 oster RF_AccessStripeMapHeader_t *asmh = desc->asmap; 531 1.6 oster RF_Raid_t *raidPtr = desc->raidPtr; 532 1.6 oster RF_DagHeader_t *dag_h; 533 1.6 oster int i, j, done = RF_TRUE; 534 1.6 oster RF_DagList_t *dagArray = desc->dagArray; 535 1.6 oster RF_Etimer_t timer; 536 1.6 oster 537 1.6 oster /* check to see if this is the last dag */ 538 1.6 oster for (i = 0; i < desc->numStripes; i++) 539 1.6 oster if (dagArray[i].numDags != dagArray[i].numDagsDone) 540 1.6 oster done = RF_FALSE; 541 1.6 oster 542 1.6 oster if (done) { 543 1.6 oster if (desc->status) { 544 1.6 oster /* a dag failed, retry */ 545 1.6 oster RF_ETIMER_START(timer); 546 1.6 oster /* free all dags */ 547 1.6 oster for (i = 0; i < desc->numStripes; i++) { 548 1.6 oster rf_FreeDAG(desc->dagArray[i].dags); 549 1.6 oster } 550 1.6 oster rf_MarkFailuresInASMList(raidPtr, asmh); 551 1.6 oster /* back up to rf_State_CreateDAG */ 552 1.6 oster desc->state = desc->state - 2; 553 1.6 oster return RF_FALSE; 554 1.6 oster } else { 555 1.6 oster /* move on to rf_State_Cleanup */ 556 1.6 oster desc->state++; 557 1.6 oster } 558 1.6 oster return RF_FALSE; 559 1.6 oster } else { 560 1.6 oster /* more dags to execute */ 561 1.6 oster /* see if any are ready to be fired. if so, fire them */ 562 1.6 oster /* don't fire the initial dag in a list, it's fired in 563 1.6 oster * rf_State_ExecuteDAG */ 564 1.6 oster for (i = 0; i < desc->numStripes; i++) { 565 1.6 oster if ((dagArray[i].numDagsDone < dagArray[i].numDags) 566 1.6 oster && (dagArray[i].numDagsDone == dagArray[i].numDagsFired) 567 1.6 oster && (dagArray[i].numDagsFired > 0)) { 568 1.6 oster RF_ETIMER_START(dagArray[i].tracerec.timer); 569 1.6 oster /* fire next dag in this stripe */ 570 1.6 oster /* first, skip to next dag awaiting execution */ 571 1.6 oster dag_h = dagArray[i].dags; 572 1.6 oster for (j = 0; j < dagArray[i].numDagsDone; j++) 573 1.6 oster dag_h = dag_h->next; 574 1.6 oster dagArray[i].numDagsFired++; 575 1.6 oster rf_DispatchDAG(dag_h, (void (*) (void *)) rf_ContinueDagAccess, 576 1.6 oster &dagArray[i]); 577 1.6 oster } 578 1.6 oster } 579 1.6 oster return RF_TRUE; 580 1.6 oster } 581 1.1 oster } 582 1.1 oster /* only make it this far if all dags complete successfully */ 583 1.6 oster int 584 1.22 oster rf_State_Cleanup(RF_RaidAccessDesc_t *desc) 585 1.1 oster { 586 1.6 oster RF_AccTraceEntry_t *tracerec = &desc->tracerec; 587 1.6 oster RF_AccessStripeMapHeader_t *asmh = desc->asmap; 588 1.6 oster RF_Raid_t *raidPtr = desc->raidPtr; 589 1.6 oster RF_AccessStripeMap_t *asm_p; 590 1.6 oster RF_DagHeader_t *dag_h; 591 1.6 oster RF_Etimer_t timer; 592 1.11 oster int i; 593 1.6 oster 594 1.6 oster desc->state++; 595 1.6 oster 596 1.6 oster timer = tracerec->timer; 597 1.6 oster RF_ETIMER_STOP(timer); 598 1.6 oster RF_ETIMER_EVAL(timer); 599 1.6 oster tracerec->specific.user.dag_retry_us = RF_ETIMER_VAL_US(timer); 600 1.6 oster 601 1.6 oster /* the RAID I/O is complete. Clean up. */ 602 1.6 oster tracerec->specific.user.dag_retry_us = 0; 603 1.6 oster 604 1.6 oster RF_ETIMER_START(timer); 605 1.6 oster if (desc->flags & RF_DAG_RETURN_DAG) { 606 1.6 oster /* copy dags into paramDAG */ 607 1.6 oster *(desc->paramDAG) = desc->dagArray[0].dags; 608 1.6 oster dag_h = *(desc->paramDAG); 609 1.6 oster for (i = 1; i < desc->numStripes; i++) { 610 1.6 oster /* concatenate dags from remaining stripes */ 611 1.6 oster RF_ASSERT(dag_h); 612 1.6 oster while (dag_h->next) 613 1.6 oster dag_h = dag_h->next; 614 1.6 oster dag_h->next = desc->dagArray[i].dags; 615 1.6 oster } 616 1.6 oster } else { 617 1.6 oster /* free all dags */ 618 1.6 oster for (i = 0; i < desc->numStripes; i++) { 619 1.6 oster rf_FreeDAG(desc->dagArray[i].dags); 620 1.6 oster } 621 1.6 oster } 622 1.6 oster 623 1.6 oster RF_ETIMER_STOP(timer); 624 1.6 oster RF_ETIMER_EVAL(timer); 625 1.6 oster tracerec->specific.user.cleanup_us = RF_ETIMER_VAL_US(timer); 626 1.6 oster 627 1.6 oster RF_ETIMER_START(timer); 628 1.6 oster if (!(raidPtr->Layout.map->flags & RF_NO_STRIPE_LOCKS)) { 629 1.6 oster for (asm_p = asmh->stripeMap; asm_p; asm_p = asm_p->next) { 630 1.6 oster if (!rf_suppressLocksAndLargeWrites && 631 1.6 oster asm_p->parityInfo && 632 1.6 oster !(desc->flags & RF_DAG_SUPPRESS_LOCKS)) { 633 1.6 oster RF_ASSERT_VALID_LOCKREQ(&asm_p->lockReqDesc); 634 1.11 oster rf_ReleaseStripeLock(raidPtr->lockTable, 635 1.11 oster asm_p->stripeID, 636 1.11 oster &asm_p->lockReqDesc); 637 1.6 oster } 638 1.6 oster if (asm_p->flags & RF_ASM_FLAGS_RECON_BLOCKED) { 639 1.6 oster rf_UnblockRecon(raidPtr, asm_p); 640 1.6 oster } 641 1.6 oster } 642 1.6 oster } 643 1.6 oster RF_ETIMER_STOP(timer); 644 1.6 oster RF_ETIMER_EVAL(timer); 645 1.6 oster tracerec->specific.user.lock_us += RF_ETIMER_VAL_US(timer); 646 1.6 oster 647 1.6 oster RF_ETIMER_START(timer); 648 1.6 oster if (desc->flags & RF_DAG_RETURN_ASM) 649 1.6 oster *(desc->paramASM) = asmh; 650 1.6 oster else 651 1.6 oster rf_FreeAccessStripeMap(asmh); 652 1.6 oster RF_ETIMER_STOP(timer); 653 1.6 oster RF_ETIMER_EVAL(timer); 654 1.6 oster tracerec->specific.user.cleanup_us += RF_ETIMER_VAL_US(timer); 655 1.6 oster 656 1.6 oster RF_ETIMER_STOP(desc->timer); 657 1.6 oster RF_ETIMER_EVAL(desc->timer); 658 1.6 oster 659 1.6 oster timer = desc->tracerec.tot_timer; 660 1.6 oster RF_ETIMER_STOP(timer); 661 1.6 oster RF_ETIMER_EVAL(timer); 662 1.6 oster desc->tracerec.total_us = RF_ETIMER_VAL_US(timer); 663 1.1 oster 664 1.6 oster rf_LogTraceRec(raidPtr, tracerec); 665 1.1 oster 666 1.6 oster desc->flags |= RF_DAG_ACCESS_COMPLETE; 667 1.1 oster 668 1.6 oster return RF_FALSE; 669 1.1 oster } 670
Indexes created Sun Sep 21 20:09:37 GMT 2025