rf_paritylogDiskMgr.c revision 1.28
1 1.28 mrg /* $NetBSD: rf_paritylogDiskMgr.c,v 1.28 2011/05/11 06:20:33 mrg 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: William V. Courtright II 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 /* Code for flushing and reintegration operations related to parity logging. 29 1.1 oster * 30 1.1 oster */ 31 1.13 lukem 32 1.13 lukem #include <sys/cdefs.h> 33 1.28 mrg __KERNEL_RCSID(0, "$NetBSD: rf_paritylogDiskMgr.c,v 1.28 2011/05/11 06:20:33 mrg Exp $"); 34 1.1 oster 35 1.1 oster #include "rf_archs.h" 36 1.1 oster 37 1.1 oster #if RF_INCLUDE_PARITYLOGGING > 0 38 1.1 oster 39 1.12 oster #include <dev/raidframe/raidframevar.h> 40 1.12 oster 41 1.1 oster #include "rf_threadstuff.h" 42 1.1 oster #include "rf_mcpair.h" 43 1.1 oster #include "rf_raid.h" 44 1.1 oster #include "rf_dag.h" 45 1.1 oster #include "rf_dagfuncs.h" 46 1.1 oster #include "rf_desc.h" 47 1.1 oster #include "rf_layout.h" 48 1.1 oster #include "rf_diskqueue.h" 49 1.1 oster #include "rf_paritylog.h" 50 1.1 oster #include "rf_general.h" 51 1.1 oster #include "rf_etimer.h" 52 1.1 oster #include "rf_paritylogging.h" 53 1.1 oster #include "rf_engine.h" 54 1.1 oster #include "rf_dagutils.h" 55 1.1 oster #include "rf_map.h" 56 1.1 oster #include "rf_parityscan.h" 57 1.1 oster 58 1.1 oster #include "rf_paritylogDiskMgr.h" 59 1.1 oster 60 1.22 christos static void *AcquireReintBuffer(RF_RegionBufferQueue_t *); 61 1.1 oster 62 1.22 christos static void * 63 1.23 dsl AcquireReintBuffer(RF_RegionBufferQueue_t *pool) 64 1.3 oster { 65 1.22 christos void *bufPtr = NULL; 66 1.3 oster 67 1.3 oster /* Return a region buffer from the free list (pool). If the free list 68 1.3 oster * is empty, WAIT. BLOCKING */ 69 1.3 oster 70 1.28 mrg rf_lock_mutex2(pool->mutex); 71 1.3 oster if (pool->availableBuffers > 0) { 72 1.3 oster bufPtr = pool->buffers[pool->availBuffersIndex]; 73 1.3 oster pool->availableBuffers--; 74 1.3 oster pool->availBuffersIndex++; 75 1.3 oster if (pool->availBuffersIndex == pool->totalBuffers) 76 1.3 oster pool->availBuffersIndex = 0; 77 1.28 mrg rf_unlock_mutex2(pool->mutex); 78 1.3 oster } else { 79 1.10 oster RF_PANIC(); /* should never happen in correct config, 80 1.3 oster * single reint */ 81 1.28 mrg rf_wait_cond2(pool->cond, pool->mutex); 82 1.3 oster } 83 1.3 oster return (bufPtr); 84 1.3 oster } 85 1.3 oster 86 1.17 perry static void 87 1.3 oster ReleaseReintBuffer( 88 1.3 oster RF_RegionBufferQueue_t * pool, 89 1.22 christos void *bufPtr) 90 1.3 oster { 91 1.3 oster /* Insert a region buffer (bufPtr) into the free list (pool). 92 1.3 oster * NON-BLOCKING */ 93 1.3 oster 94 1.28 mrg rf_lock_mutex2(pool->mutex); 95 1.3 oster pool->availableBuffers++; 96 1.3 oster pool->buffers[pool->emptyBuffersIndex] = bufPtr; 97 1.3 oster pool->emptyBuffersIndex++; 98 1.3 oster if (pool->emptyBuffersIndex == pool->totalBuffers) 99 1.3 oster pool->emptyBuffersIndex = 0; 100 1.3 oster RF_ASSERT(pool->availableBuffers <= pool->totalBuffers); 101 1.28 mrg /* 102 1.28 mrg * XXXmrg this signal goes with the above "shouldn't happen" wait? 103 1.28 mrg */ 104 1.28 mrg rf_signal_cond2(pool->cond); 105 1.28 mrg rf_unlock_mutex2(pool->mutex); 106 1.3 oster } 107 1.3 oster 108 1.3 oster 109 1.1 oster 110 1.17 perry static void 111 1.3 oster ReadRegionLog( 112 1.3 oster RF_RegionId_t regionID, 113 1.3 oster RF_MCPair_t * rrd_mcpair, 114 1.22 christos void *regionBuffer, 115 1.3 oster RF_Raid_t * raidPtr, 116 1.3 oster RF_DagHeader_t ** rrd_dag_h, 117 1.3 oster RF_AllocListElem_t ** rrd_alloclist, 118 1.3 oster RF_PhysDiskAddr_t ** rrd_pda) 119 1.3 oster { 120 1.3 oster /* Initiate the read a region log from disk. Once initiated, return 121 1.3 oster * to the calling routine. 122 1.17 perry * 123 1.3 oster * NON-BLOCKING */ 124 1.3 oster 125 1.8 oster RF_AccTraceEntry_t *tracerec; 126 1.3 oster RF_DagNode_t *rrd_rdNode; 127 1.3 oster 128 1.3 oster /* create DAG to read region log from disk */ 129 1.3 oster rf_MakeAllocList(*rrd_alloclist); 130 1.17 perry *rrd_dag_h = rf_MakeSimpleDAG(raidPtr, 1, 0, regionBuffer, 131 1.9 oster rf_DiskReadFunc, rf_DiskReadUndoFunc, 132 1.17 perry "Rrl", *rrd_alloclist, 133 1.17 perry RF_DAG_FLAGS_NONE, 134 1.9 oster RF_IO_NORMAL_PRIORITY); 135 1.3 oster 136 1.3 oster /* create and initialize PDA for the core log */ 137 1.3 oster /* RF_Malloc(*rrd_pda, sizeof(RF_PhysDiskAddr_t), (RF_PhysDiskAddr_t 138 1.3 oster * *)); */ 139 1.3 oster *rrd_pda = rf_AllocPDAList(1); 140 1.15 oster rf_MapLogParityLogging(raidPtr, regionID, 0, 141 1.9 oster &((*rrd_pda)->col), &((*rrd_pda)->startSector)); 142 1.3 oster (*rrd_pda)->numSector = raidPtr->regionInfo[regionID].capacity; 143 1.3 oster 144 1.3 oster if ((*rrd_pda)->next) { 145 1.3 oster (*rrd_pda)->next = NULL; 146 1.3 oster printf("set rrd_pda->next to NULL\n"); 147 1.3 oster } 148 1.3 oster /* initialize DAG parameters */ 149 1.8 oster RF_Malloc(tracerec,sizeof(RF_AccTraceEntry_t), (RF_AccTraceEntry_t *)); 150 1.11 thorpej memset((char *) tracerec, 0, sizeof(RF_AccTraceEntry_t)); 151 1.8 oster (*rrd_dag_h)->tracerec = tracerec; 152 1.3 oster rrd_rdNode = (*rrd_dag_h)->succedents[0]->succedents[0]; 153 1.3 oster rrd_rdNode->params[0].p = *rrd_pda; 154 1.1 oster /* rrd_rdNode->params[1] = regionBuffer; */ 155 1.3 oster rrd_rdNode->params[2].v = 0; 156 1.16 oster rrd_rdNode->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, 0); 157 1.1 oster 158 1.3 oster /* launch region log read dag */ 159 1.3 oster rf_DispatchDAG(*rrd_dag_h, (void (*) (void *)) rf_MCPairWakeupFunc, 160 1.3 oster (void *) rrd_mcpair); 161 1.1 oster } 162 1.1 oster 163 1.1 oster 164 1.1 oster 165 1.17 perry static void 166 1.3 oster WriteCoreLog( 167 1.3 oster RF_ParityLog_t * log, 168 1.3 oster RF_MCPair_t * fwr_mcpair, 169 1.3 oster RF_Raid_t * raidPtr, 170 1.3 oster RF_DagHeader_t ** fwr_dag_h, 171 1.3 oster RF_AllocListElem_t ** fwr_alloclist, 172 1.3 oster RF_PhysDiskAddr_t ** fwr_pda) 173 1.3 oster { 174 1.3 oster RF_RegionId_t regionID = log->regionID; 175 1.8 oster RF_AccTraceEntry_t *tracerec; 176 1.3 oster RF_SectorNum_t regionOffset; 177 1.3 oster RF_DagNode_t *fwr_wrNode; 178 1.3 oster 179 1.3 oster /* Initiate the write of a core log to a region log disk. Once 180 1.3 oster * initiated, return to the calling routine. 181 1.17 perry * 182 1.3 oster * NON-BLOCKING */ 183 1.3 oster 184 1.3 oster /* create DAG to write a core log to a region log disk */ 185 1.3 oster rf_MakeAllocList(*fwr_alloclist); 186 1.17 perry *fwr_dag_h = rf_MakeSimpleDAG(raidPtr, 1, 0, log->bufPtr, 187 1.9 oster rf_DiskWriteFunc, rf_DiskWriteUndoFunc, 188 1.3 oster "Wcl", *fwr_alloclist, RF_DAG_FLAGS_NONE, RF_IO_NORMAL_PRIORITY); 189 1.3 oster 190 1.3 oster /* create and initialize PDA for the region log */ 191 1.3 oster /* RF_Malloc(*fwr_pda, sizeof(RF_PhysDiskAddr_t), (RF_PhysDiskAddr_t 192 1.3 oster * *)); */ 193 1.3 oster *fwr_pda = rf_AllocPDAList(1); 194 1.3 oster regionOffset = log->diskOffset; 195 1.17 perry rf_MapLogParityLogging(raidPtr, regionID, regionOffset, 196 1.17 perry &((*fwr_pda)->col), 197 1.9 oster &((*fwr_pda)->startSector)); 198 1.3 oster (*fwr_pda)->numSector = raidPtr->numSectorsPerLog; 199 1.3 oster 200 1.3 oster /* initialize DAG parameters */ 201 1.8 oster RF_Malloc(tracerec,sizeof(RF_AccTraceEntry_t), (RF_AccTraceEntry_t *)); 202 1.11 thorpej memset((char *) tracerec, 0, sizeof(RF_AccTraceEntry_t)); 203 1.8 oster (*fwr_dag_h)->tracerec = tracerec; 204 1.3 oster fwr_wrNode = (*fwr_dag_h)->succedents[0]->succedents[0]; 205 1.3 oster fwr_wrNode->params[0].p = *fwr_pda; 206 1.1 oster /* fwr_wrNode->params[1] = log->bufPtr; */ 207 1.3 oster fwr_wrNode->params[2].v = 0; 208 1.16 oster fwr_wrNode->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, 0); 209 1.3 oster 210 1.3 oster /* launch the dag to write the core log to disk */ 211 1.3 oster rf_DispatchDAG(*fwr_dag_h, (void (*) (void *)) rf_MCPairWakeupFunc, 212 1.3 oster (void *) fwr_mcpair); 213 1.3 oster } 214 1.3 oster 215 1.3 oster 216 1.17 perry static void 217 1.3 oster ReadRegionParity( 218 1.3 oster RF_RegionId_t regionID, 219 1.3 oster RF_MCPair_t * prd_mcpair, 220 1.22 christos void *parityBuffer, 221 1.3 oster RF_Raid_t * raidPtr, 222 1.3 oster RF_DagHeader_t ** prd_dag_h, 223 1.3 oster RF_AllocListElem_t ** prd_alloclist, 224 1.3 oster RF_PhysDiskAddr_t ** prd_pda) 225 1.3 oster { 226 1.3 oster /* Initiate the read region parity from disk. Once initiated, return 227 1.3 oster * to the calling routine. 228 1.17 perry * 229 1.3 oster * NON-BLOCKING */ 230 1.3 oster 231 1.8 oster RF_AccTraceEntry_t *tracerec; 232 1.3 oster RF_DagNode_t *prd_rdNode; 233 1.3 oster 234 1.3 oster /* create DAG to read region parity from disk */ 235 1.3 oster rf_MakeAllocList(*prd_alloclist); 236 1.17 perry *prd_dag_h = rf_MakeSimpleDAG(raidPtr, 1, 0, NULL, rf_DiskReadFunc, 237 1.17 perry rf_DiskReadUndoFunc, "Rrp", 238 1.17 perry *prd_alloclist, RF_DAG_FLAGS_NONE, 239 1.9 oster RF_IO_NORMAL_PRIORITY); 240 1.3 oster 241 1.3 oster /* create and initialize PDA for region parity */ 242 1.3 oster /* RF_Malloc(*prd_pda, sizeof(RF_PhysDiskAddr_t), (RF_PhysDiskAddr_t 243 1.3 oster * *)); */ 244 1.3 oster *prd_pda = rf_AllocPDAList(1); 245 1.15 oster rf_MapRegionParity(raidPtr, regionID, 246 1.17 perry &((*prd_pda)->col), &((*prd_pda)->startSector), 247 1.9 oster &((*prd_pda)->numSector)); 248 1.3 oster if (rf_parityLogDebug) 249 1.3 oster printf("[reading %d sectors of parity from region %d]\n", 250 1.3 oster (int) (*prd_pda)->numSector, regionID); 251 1.3 oster if ((*prd_pda)->next) { 252 1.3 oster (*prd_pda)->next = NULL; 253 1.3 oster printf("set prd_pda->next to NULL\n"); 254 1.3 oster } 255 1.3 oster /* initialize DAG parameters */ 256 1.8 oster RF_Malloc(tracerec,sizeof(RF_AccTraceEntry_t), (RF_AccTraceEntry_t *)); 257 1.11 thorpej memset((char *) tracerec, 0, sizeof(RF_AccTraceEntry_t)); 258 1.8 oster (*prd_dag_h)->tracerec = tracerec; 259 1.3 oster prd_rdNode = (*prd_dag_h)->succedents[0]->succedents[0]; 260 1.3 oster prd_rdNode->params[0].p = *prd_pda; 261 1.3 oster prd_rdNode->params[1].p = parityBuffer; 262 1.3 oster prd_rdNode->params[2].v = 0; 263 1.16 oster prd_rdNode->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, 0); 264 1.14 oster #if RF_DEBUG_VALIDATE_DAG 265 1.3 oster if (rf_validateDAGDebug) 266 1.3 oster rf_ValidateDAG(*prd_dag_h); 267 1.14 oster #endif 268 1.3 oster /* launch region parity read dag */ 269 1.3 oster rf_DispatchDAG(*prd_dag_h, (void (*) (void *)) rf_MCPairWakeupFunc, 270 1.3 oster (void *) prd_mcpair); 271 1.3 oster } 272 1.3 oster 273 1.17 perry static void 274 1.3 oster WriteRegionParity( 275 1.3 oster RF_RegionId_t regionID, 276 1.3 oster RF_MCPair_t * pwr_mcpair, 277 1.22 christos void *parityBuffer, 278 1.3 oster RF_Raid_t * raidPtr, 279 1.3 oster RF_DagHeader_t ** pwr_dag_h, 280 1.3 oster RF_AllocListElem_t ** pwr_alloclist, 281 1.3 oster RF_PhysDiskAddr_t ** pwr_pda) 282 1.3 oster { 283 1.3 oster /* Initiate the write of region parity to disk. Once initiated, return 284 1.3 oster * to the calling routine. 285 1.17 perry * 286 1.3 oster * NON-BLOCKING */ 287 1.3 oster 288 1.8 oster RF_AccTraceEntry_t *tracerec; 289 1.3 oster RF_DagNode_t *pwr_wrNode; 290 1.3 oster 291 1.3 oster /* create DAG to write region log from disk */ 292 1.3 oster rf_MakeAllocList(*pwr_alloclist); 293 1.17 perry *pwr_dag_h = rf_MakeSimpleDAG(raidPtr, 1, 0, parityBuffer, 294 1.9 oster rf_DiskWriteFunc, rf_DiskWriteUndoFunc, 295 1.17 perry "Wrp", *pwr_alloclist, 296 1.17 perry RF_DAG_FLAGS_NONE, 297 1.9 oster RF_IO_NORMAL_PRIORITY); 298 1.3 oster 299 1.3 oster /* create and initialize PDA for region parity */ 300 1.3 oster /* RF_Malloc(*pwr_pda, sizeof(RF_PhysDiskAddr_t), (RF_PhysDiskAddr_t 301 1.3 oster * *)); */ 302 1.3 oster *pwr_pda = rf_AllocPDAList(1); 303 1.15 oster rf_MapRegionParity(raidPtr, regionID, 304 1.17 perry &((*pwr_pda)->col), &((*pwr_pda)->startSector), 305 1.9 oster &((*pwr_pda)->numSector)); 306 1.3 oster 307 1.3 oster /* initialize DAG parameters */ 308 1.8 oster RF_Malloc(tracerec,sizeof(RF_AccTraceEntry_t), (RF_AccTraceEntry_t *)); 309 1.11 thorpej memset((char *) tracerec, 0, sizeof(RF_AccTraceEntry_t)); 310 1.8 oster (*pwr_dag_h)->tracerec = tracerec; 311 1.3 oster pwr_wrNode = (*pwr_dag_h)->succedents[0]->succedents[0]; 312 1.3 oster pwr_wrNode->params[0].p = *pwr_pda; 313 1.1 oster /* pwr_wrNode->params[1] = parityBuffer; */ 314 1.3 oster pwr_wrNode->params[2].v = 0; 315 1.16 oster pwr_wrNode->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, 0); 316 1.1 oster 317 1.3 oster /* launch the dag to write region parity to disk */ 318 1.3 oster rf_DispatchDAG(*pwr_dag_h, (void (*) (void *)) rf_MCPairWakeupFunc, 319 1.3 oster (void *) pwr_mcpair); 320 1.3 oster } 321 1.3 oster 322 1.17 perry static void 323 1.3 oster FlushLogsToDisk( 324 1.3 oster RF_Raid_t * raidPtr, 325 1.3 oster RF_ParityLog_t * logList) 326 1.3 oster { 327 1.3 oster /* Flush a linked list of core logs to the log disk. Logs contain the 328 1.3 oster * disk location where they should be written. Logs were written in 329 1.3 oster * FIFO order and that order must be preserved. 330 1.17 perry * 331 1.3 oster * Recommended optimizations: 1) allow multiple flushes to occur 332 1.3 oster * simultaneously 2) coalesce contiguous flush operations 333 1.17 perry * 334 1.3 oster * BLOCKING */ 335 1.3 oster 336 1.3 oster RF_ParityLog_t *log; 337 1.3 oster RF_RegionId_t regionID; 338 1.3 oster RF_MCPair_t *fwr_mcpair; 339 1.3 oster RF_DagHeader_t *fwr_dag_h; 340 1.3 oster RF_AllocListElem_t *fwr_alloclist; 341 1.3 oster RF_PhysDiskAddr_t *fwr_pda; 342 1.3 oster 343 1.3 oster fwr_mcpair = rf_AllocMCPair(); 344 1.24 mrg RF_LOCK_MCPAIR(fwr_mcpair); 345 1.3 oster 346 1.3 oster RF_ASSERT(logList); 347 1.3 oster log = logList; 348 1.3 oster while (log) { 349 1.3 oster regionID = log->regionID; 350 1.3 oster 351 1.3 oster /* create and launch a DAG to write the core log */ 352 1.3 oster if (rf_parityLogDebug) 353 1.3 oster printf("[initiating write of core log for region %d]\n", regionID); 354 1.3 oster fwr_mcpair->flag = RF_FALSE; 355 1.17 perry WriteCoreLog(log, fwr_mcpair, raidPtr, &fwr_dag_h, 356 1.9 oster &fwr_alloclist, &fwr_pda); 357 1.3 oster 358 1.3 oster /* wait for the DAG to complete */ 359 1.3 oster while (!fwr_mcpair->flag) 360 1.24 mrg RF_WAIT_MCPAIR(fwr_mcpair); 361 1.3 oster if (fwr_dag_h->status != rf_enable) { 362 1.3 oster RF_ERRORMSG1("Unable to write core log to disk (region %d)\n", regionID); 363 1.3 oster RF_ASSERT(0); 364 1.3 oster } 365 1.3 oster /* RF_Free(fwr_pda, sizeof(RF_PhysDiskAddr_t)); */ 366 1.3 oster rf_FreePhysDiskAddr(fwr_pda); 367 1.3 oster rf_FreeDAG(fwr_dag_h); 368 1.3 oster rf_FreeAllocList(fwr_alloclist); 369 1.3 oster 370 1.3 oster log = log->next; 371 1.3 oster } 372 1.24 mrg RF_UNLOCK_MCPAIR(fwr_mcpair); 373 1.3 oster rf_FreeMCPair(fwr_mcpair); 374 1.3 oster rf_ReleaseParityLogs(raidPtr, logList); 375 1.3 oster } 376 1.3 oster 377 1.17 perry static void 378 1.3 oster ReintegrateRegion( 379 1.3 oster RF_Raid_t * raidPtr, 380 1.3 oster RF_RegionId_t regionID, 381 1.21 christos RF_ParityLog_t * coreLog) 382 1.3 oster { 383 1.3 oster RF_MCPair_t *rrd_mcpair = NULL, *prd_mcpair, *pwr_mcpair; 384 1.19 christos RF_DagHeader_t *rrd_dag_h = NULL, *prd_dag_h, *pwr_dag_h; 385 1.19 christos RF_AllocListElem_t *rrd_alloclist = NULL, *prd_alloclist, *pwr_alloclist; 386 1.19 christos RF_PhysDiskAddr_t *rrd_pda = NULL, *prd_pda, *pwr_pda; 387 1.22 christos void *parityBuffer, *regionBuffer = NULL; 388 1.3 oster 389 1.17 perry /* Reintegrate a region (regionID). 390 1.10 oster * 391 1.17 perry * 1. acquire region and parity buffers 392 1.17 perry * 2. read log from disk 393 1.17 perry * 3. read parity from disk 394 1.17 perry * 4. apply log to parity 395 1.17 perry * 5. apply core log to parity 396 1.10 oster * 6. write new parity to disk 397 1.17 perry * 398 1.3 oster * BLOCKING */ 399 1.3 oster 400 1.3 oster if (rf_parityLogDebug) 401 1.3 oster printf("[reintegrating region %d]\n", regionID); 402 1.3 oster 403 1.3 oster /* initiate read of region parity */ 404 1.3 oster if (rf_parityLogDebug) 405 1.9 oster printf("[initiating read of parity for region %d]\n",regionID); 406 1.3 oster parityBuffer = AcquireReintBuffer(&raidPtr->parityBufferPool); 407 1.3 oster prd_mcpair = rf_AllocMCPair(); 408 1.24 mrg RF_LOCK_MCPAIR(prd_mcpair); 409 1.3 oster prd_mcpair->flag = RF_FALSE; 410 1.17 perry ReadRegionParity(regionID, prd_mcpair, parityBuffer, raidPtr, 411 1.9 oster &prd_dag_h, &prd_alloclist, &prd_pda); 412 1.3 oster 413 1.3 oster /* if region log nonempty, initiate read */ 414 1.3 oster if (raidPtr->regionInfo[regionID].diskCount > 0) { 415 1.3 oster if (rf_parityLogDebug) 416 1.9 oster printf("[initiating read of disk log for region %d]\n", 417 1.9 oster regionID); 418 1.3 oster regionBuffer = AcquireReintBuffer(&raidPtr->regionBufferPool); 419 1.3 oster rrd_mcpair = rf_AllocMCPair(); 420 1.24 mrg RF_LOCK_MCPAIR(rrd_mcpair); 421 1.3 oster rrd_mcpair->flag = RF_FALSE; 422 1.17 perry ReadRegionLog(regionID, rrd_mcpair, regionBuffer, raidPtr, 423 1.9 oster &rrd_dag_h, &rrd_alloclist, &rrd_pda); 424 1.3 oster } 425 1.3 oster /* wait on read of region parity to complete */ 426 1.3 oster while (!prd_mcpair->flag) { 427 1.24 mrg RF_WAIT_MCPAIR(prd_mcpair); 428 1.3 oster } 429 1.24 mrg RF_UNLOCK_MCPAIR(prd_mcpair); 430 1.3 oster if (prd_dag_h->status != rf_enable) { 431 1.3 oster RF_ERRORMSG("Unable to read parity from disk\n"); 432 1.3 oster /* add code to fail the parity disk */ 433 1.3 oster RF_ASSERT(0); 434 1.3 oster } 435 1.3 oster /* apply core log to parity */ 436 1.3 oster /* if (coreLog) ApplyLogsToParity(coreLog, parityBuffer); */ 437 1.3 oster 438 1.3 oster if (raidPtr->regionInfo[regionID].diskCount > 0) { 439 1.3 oster /* wait on read of region log to complete */ 440 1.3 oster while (!rrd_mcpair->flag) 441 1.24 mrg RF_WAIT_MCPAIR(rrd_mcpair); 442 1.24 mrg RF_UNLOCK_MCPAIR(rrd_mcpair); 443 1.3 oster if (rrd_dag_h->status != rf_enable) { 444 1.3 oster RF_ERRORMSG("Unable to read region log from disk\n"); 445 1.3 oster /* add code to fail the log disk */ 446 1.3 oster RF_ASSERT(0); 447 1.3 oster } 448 1.3 oster /* apply region log to parity */ 449 1.3 oster /* ApplyRegionToParity(regionID, regionBuffer, parityBuffer); */ 450 1.3 oster /* release resources associated with region log */ 451 1.3 oster /* RF_Free(rrd_pda, sizeof(RF_PhysDiskAddr_t)); */ 452 1.3 oster rf_FreePhysDiskAddr(rrd_pda); 453 1.3 oster rf_FreeDAG(rrd_dag_h); 454 1.3 oster rf_FreeAllocList(rrd_alloclist); 455 1.3 oster rf_FreeMCPair(rrd_mcpair); 456 1.3 oster ReleaseReintBuffer(&raidPtr->regionBufferPool, regionBuffer); 457 1.3 oster } 458 1.3 oster /* write reintegrated parity to disk */ 459 1.3 oster if (rf_parityLogDebug) 460 1.9 oster printf("[initiating write of parity for region %d]\n", 461 1.9 oster regionID); 462 1.3 oster pwr_mcpair = rf_AllocMCPair(); 463 1.24 mrg RF_LOCK_MCPAIR(pwr_mcpair); 464 1.3 oster pwr_mcpair->flag = RF_FALSE; 465 1.17 perry WriteRegionParity(regionID, pwr_mcpair, parityBuffer, raidPtr, 466 1.9 oster &pwr_dag_h, &pwr_alloclist, &pwr_pda); 467 1.3 oster while (!pwr_mcpair->flag) 468 1.24 mrg RF_WAIT_MCPAIR(pwr_mcpair); 469 1.24 mrg RF_UNLOCK_MCPAIR(pwr_mcpair); 470 1.3 oster if (pwr_dag_h->status != rf_enable) { 471 1.3 oster RF_ERRORMSG("Unable to write parity to disk\n"); 472 1.3 oster /* add code to fail the parity disk */ 473 1.3 oster RF_ASSERT(0); 474 1.3 oster } 475 1.3 oster /* release resources associated with read of old parity */ 476 1.3 oster /* RF_Free(prd_pda, sizeof(RF_PhysDiskAddr_t)); */ 477 1.3 oster rf_FreePhysDiskAddr(prd_pda); 478 1.3 oster rf_FreeDAG(prd_dag_h); 479 1.3 oster rf_FreeAllocList(prd_alloclist); 480 1.3 oster rf_FreeMCPair(prd_mcpair); 481 1.3 oster 482 1.3 oster /* release resources associated with write of new parity */ 483 1.3 oster ReleaseReintBuffer(&raidPtr->parityBufferPool, parityBuffer); 484 1.3 oster /* RF_Free(pwr_pda, sizeof(RF_PhysDiskAddr_t)); */ 485 1.3 oster rf_FreePhysDiskAddr(pwr_pda); 486 1.3 oster rf_FreeDAG(pwr_dag_h); 487 1.3 oster rf_FreeAllocList(pwr_alloclist); 488 1.3 oster rf_FreeMCPair(pwr_mcpair); 489 1.3 oster 490 1.3 oster if (rf_parityLogDebug) 491 1.3 oster printf("[finished reintegrating region %d]\n", regionID); 492 1.3 oster } 493 1.3 oster 494 1.3 oster 495 1.3 oster 496 1.17 perry static void 497 1.3 oster ReintegrateLogs( 498 1.3 oster RF_Raid_t * raidPtr, 499 1.3 oster RF_ParityLog_t * logList) 500 1.3 oster { 501 1.3 oster RF_ParityLog_t *log, *freeLogList = NULL; 502 1.3 oster RF_ParityLogData_t *logData, *logDataList; 503 1.3 oster RF_RegionId_t regionID; 504 1.3 oster 505 1.3 oster RF_ASSERT(logList); 506 1.3 oster while (logList) { 507 1.3 oster log = logList; 508 1.3 oster logList = logList->next; 509 1.3 oster log->next = NULL; 510 1.3 oster regionID = log->regionID; 511 1.3 oster ReintegrateRegion(raidPtr, regionID, log); 512 1.3 oster log->numRecords = 0; 513 1.3 oster 514 1.3 oster /* remove all items which are blocked on reintegration of this 515 1.3 oster * region */ 516 1.25 mrg rf_lock_mutex2(raidPtr->parityLogDiskQueue.mutex); 517 1.17 perry logData = rf_SearchAndDequeueParityLogData(raidPtr, regionID, 518 1.17 perry &raidPtr->parityLogDiskQueue.reintBlockHead, 519 1.17 perry &raidPtr->parityLogDiskQueue.reintBlockTail, 520 1.9 oster RF_TRUE); 521 1.3 oster logDataList = logData; 522 1.3 oster while (logData) { 523 1.9 oster logData->next = rf_SearchAndDequeueParityLogData( 524 1.17 perry raidPtr, regionID, 525 1.17 perry &raidPtr->parityLogDiskQueue.reintBlockHead, 526 1.17 perry &raidPtr->parityLogDiskQueue.reintBlockTail, 527 1.9 oster RF_TRUE); 528 1.3 oster logData = logData->next; 529 1.3 oster } 530 1.25 mrg rf_unlock_mutex2(raidPtr->parityLogDiskQueue.mutex); 531 1.3 oster 532 1.3 oster /* process blocked log data and clear reintInProgress flag for 533 1.3 oster * this region */ 534 1.3 oster if (logDataList) 535 1.3 oster rf_ParityLogAppend(logDataList, RF_TRUE, &log, RF_TRUE); 536 1.3 oster else { 537 1.3 oster /* Enable flushing for this region. Holding both 538 1.3 oster * locks provides a synchronization barrier with 539 1.3 oster * DumpParityLogToDisk */ 540 1.27 mrg rf_lock_mutex2(raidPtr->regionInfo[regionID].mutex); 541 1.26 mrg rf_lock_mutex2(raidPtr->regionInfo[regionID].reintMutex); 542 1.25 mrg /* XXXmrg: don't need this? */ 543 1.25 mrg rf_lock_mutex2(raidPtr->parityLogDiskQueue.mutex); 544 1.3 oster raidPtr->regionInfo[regionID].diskCount = 0; 545 1.3 oster raidPtr->regionInfo[regionID].reintInProgress = RF_FALSE; 546 1.27 mrg rf_unlock_mutex2(raidPtr->regionInfo[regionID].mutex); 547 1.26 mrg rf_unlock_mutex2(raidPtr->regionInfo[regionID].reintMutex); /* flushing is now 548 1.3 oster * enabled */ 549 1.25 mrg /* XXXmrg: don't need this? */ 550 1.25 mrg rf_unlock_mutex2(raidPtr->parityLogDiskQueue.mutex); 551 1.3 oster } 552 1.3 oster /* if log wasn't used, attach it to the list of logs to be 553 1.3 oster * returned */ 554 1.3 oster if (log) { 555 1.3 oster log->next = freeLogList; 556 1.3 oster freeLogList = log; 557 1.3 oster } 558 1.3 oster } 559 1.3 oster if (freeLogList) 560 1.3 oster rf_ReleaseParityLogs(raidPtr, freeLogList); 561 1.3 oster } 562 1.3 oster 563 1.17 perry int 564 1.3 oster rf_ShutdownLogging(RF_Raid_t * raidPtr) 565 1.3 oster { 566 1.3 oster /* shutdown parity logging 1) disable parity logging in all regions 2) 567 1.3 oster * reintegrate all regions */ 568 1.3 oster 569 1.3 oster RF_SectorCount_t diskCount; 570 1.3 oster RF_RegionId_t regionID; 571 1.3 oster RF_ParityLog_t *log; 572 1.3 oster 573 1.3 oster if (rf_parityLogDebug) 574 1.3 oster printf("[shutting down parity logging]\n"); 575 1.3 oster /* Since parity log maps are volatile, we must reintegrate all 576 1.3 oster * regions. */ 577 1.3 oster if (rf_forceParityLogReint) { 578 1.3 oster for (regionID = 0; regionID < rf_numParityRegions; regionID++) { 579 1.27 mrg rf_lock_mutex2(raidPtr->regionInfo[regionID].mutex); 580 1.17 perry raidPtr->regionInfo[regionID].loggingEnabled = 581 1.9 oster RF_FALSE; 582 1.3 oster log = raidPtr->regionInfo[regionID].coreLog; 583 1.3 oster raidPtr->regionInfo[regionID].coreLog = NULL; 584 1.3 oster diskCount = raidPtr->regionInfo[regionID].diskCount; 585 1.27 mrg rf_unlock_mutex2(raidPtr->regionInfo[regionID].mutex); 586 1.3 oster if (diskCount > 0 || log != NULL) 587 1.3 oster ReintegrateRegion(raidPtr, regionID, log); 588 1.3 oster if (log != NULL) 589 1.3 oster rf_ReleaseParityLogs(raidPtr, log); 590 1.3 oster } 591 1.3 oster } 592 1.3 oster if (rf_parityLogDebug) { 593 1.3 oster printf("[parity logging disabled]\n"); 594 1.3 oster printf("[should be done!]\n"); 595 1.3 oster } 596 1.3 oster return (0); 597 1.3 oster } 598 1.3 oster 599 1.17 perry int 600 1.3 oster rf_ParityLoggingDiskManager(RF_Raid_t * raidPtr) 601 1.3 oster { 602 1.3 oster RF_ParityLog_t *reintQueue, *flushQueue; 603 1.3 oster int workNeeded, done = RF_FALSE; 604 1.8 oster int s; 605 1.3 oster 606 1.3 oster /* Main program for parity logging disk thread. This routine waits 607 1.3 oster * for work to appear in either the flush or reintegration queues and 608 1.3 oster * is responsible for flushing core logs to the log disk as well as 609 1.3 oster * reintegrating parity regions. 610 1.17 perry * 611 1.3 oster * BLOCKING */ 612 1.3 oster 613 1.8 oster s = splbio(); 614 1.8 oster 615 1.25 mrg rf_lock_mutex2(raidPtr->parityLogDiskQueue.mutex); 616 1.3 oster 617 1.3 oster /* 618 1.3 oster * Inform our creator that we're running. Don't bother doing the 619 1.3 oster * mutex lock/unlock dance- we locked above, and we'll unlock 620 1.3 oster * below with nothing to do, yet. 621 1.3 oster */ 622 1.3 oster raidPtr->parityLogDiskQueue.threadState |= RF_PLOG_RUNNING; 623 1.25 mrg rf_signal_cond2(raidPtr->parityLogDiskQueue.cond); 624 1.3 oster 625 1.3 oster /* empty the work queues */ 626 1.3 oster flushQueue = raidPtr->parityLogDiskQueue.flushQueue; 627 1.3 oster raidPtr->parityLogDiskQueue.flushQueue = NULL; 628 1.3 oster reintQueue = raidPtr->parityLogDiskQueue.reintQueue; 629 1.3 oster raidPtr->parityLogDiskQueue.reintQueue = NULL; 630 1.3 oster workNeeded = (flushQueue || reintQueue); 631 1.3 oster 632 1.3 oster while (!done) { 633 1.3 oster while (workNeeded) { 634 1.3 oster /* First, flush all logs in the flush queue, freeing 635 1.3 oster * buffers Second, reintegrate all regions which are 636 1.3 oster * reported as full. Third, append queued log data 637 1.3 oster * until blocked. 638 1.17 perry * 639 1.3 oster * Note: Incoming appends (ParityLogAppend) can block on 640 1.3 oster * either 1. empty buffer pool 2. region under 641 1.3 oster * reintegration To preserve a global FIFO ordering of 642 1.3 oster * appends, buffers are not released to the world 643 1.3 oster * until those appends blocked on buffers are removed 644 1.3 oster * from the append queue. Similarly, regions which 645 1.3 oster * are reintegrated are not opened for general use 646 1.3 oster * until the append queue has been emptied. */ 647 1.3 oster 648 1.25 mrg rf_unlock_mutex2(raidPtr->parityLogDiskQueue.mutex); 649 1.3 oster 650 1.3 oster /* empty flushQueue, using free'd log buffers to 651 1.3 oster * process bufTail */ 652 1.3 oster if (flushQueue) 653 1.8 oster FlushLogsToDisk(raidPtr, flushQueue); 654 1.3 oster 655 1.3 oster /* empty reintQueue, flushing from reintTail as we go */ 656 1.3 oster if (reintQueue) 657 1.3 oster ReintegrateLogs(raidPtr, reintQueue); 658 1.3 oster 659 1.25 mrg rf_lock_mutex2(raidPtr->parityLogDiskQueue.mutex); 660 1.3 oster flushQueue = raidPtr->parityLogDiskQueue.flushQueue; 661 1.3 oster raidPtr->parityLogDiskQueue.flushQueue = NULL; 662 1.3 oster reintQueue = raidPtr->parityLogDiskQueue.reintQueue; 663 1.3 oster raidPtr->parityLogDiskQueue.reintQueue = NULL; 664 1.3 oster workNeeded = (flushQueue || reintQueue); 665 1.3 oster } 666 1.3 oster /* no work is needed at this point */ 667 1.3 oster if (raidPtr->parityLogDiskQueue.threadState & RF_PLOG_TERMINATE) { 668 1.3 oster /* shutdown parity logging 1. disable parity logging 669 1.3 oster * in all regions 2. reintegrate all regions */ 670 1.3 oster done = RF_TRUE; /* thread disabled, no work needed */ 671 1.25 mrg rf_unlock_mutex2(raidPtr->parityLogDiskQueue.mutex); 672 1.3 oster rf_ShutdownLogging(raidPtr); 673 1.3 oster } 674 1.3 oster if (!done) { 675 1.3 oster /* thread enabled, no work needed, so sleep */ 676 1.3 oster if (rf_parityLogDebug) 677 1.3 oster printf("[parity logging disk manager sleeping]\n"); 678 1.25 mrg rf_wait_cond2(raidPtr->parityLogDiskQueue.cond, 679 1.25 mrg raidPtr->parityLogDiskQueue.mutex); 680 1.3 oster if (rf_parityLogDebug) 681 1.3 oster printf("[parity logging disk manager just woke up]\n"); 682 1.3 oster flushQueue = raidPtr->parityLogDiskQueue.flushQueue; 683 1.3 oster raidPtr->parityLogDiskQueue.flushQueue = NULL; 684 1.3 oster reintQueue = raidPtr->parityLogDiskQueue.reintQueue; 685 1.3 oster raidPtr->parityLogDiskQueue.reintQueue = NULL; 686 1.3 oster workNeeded = (flushQueue || reintQueue); 687 1.3 oster } 688 1.3 oster } 689 1.3 oster /* 690 1.3 oster * Announce that we're done. 691 1.3 oster */ 692 1.25 mrg rf_lock_mutex2(raidPtr->parityLogDiskQueue.mutex); 693 1.3 oster raidPtr->parityLogDiskQueue.threadState |= RF_PLOG_SHUTDOWN; 694 1.25 mrg rf_signal_cond2(raidPtr->parityLogDiskQueue.cond); 695 1.25 mrg rf_unlock_mutex2(raidPtr->parityLogDiskQueue.mutex); 696 1.8 oster 697 1.8 oster splx(s); 698 1.7 oster 699 1.3 oster /* 700 1.3 oster * In the NetBSD kernel, the thread must exit; returning would 701 1.3 oster * cause the proc trampoline to attempt to return to userspace. 702 1.3 oster */ 703 1.3 oster kthread_exit(0); /* does not return */ 704 1.1 oster } 705 1.3 oster #endif /* RF_INCLUDE_PARITYLOGGING > 0 */ 706
Indexes created Wed Sep 24 15:09:51 GMT 2025