rf_evenodd.c revision 1.21
1 1.21 christos /* $NetBSD: rf_evenodd.c,v 1.21 2014/03/23 09:30:59 christos 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: Chang-Ming Wu 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 * 31 1.1 oster * rf_evenodd.c -- implements EVENODD array architecture 32 1.1 oster * 33 1.1 oster ****************************************************************************************/ 34 1.7 lukem 35 1.7 lukem #include <sys/cdefs.h> 36 1.21 christos __KERNEL_RCSID(0, "$NetBSD: rf_evenodd.c,v 1.21 2014/03/23 09:30:59 christos Exp $"); 37 1.1 oster 38 1.1 oster #include "rf_archs.h" 39 1.1 oster 40 1.1 oster #if RF_INCLUDE_EVENODD > 0 41 1.1 oster 42 1.6 oster #include <dev/raidframe/raidframevar.h> 43 1.6 oster 44 1.1 oster #include "rf_raid.h" 45 1.1 oster #include "rf_dag.h" 46 1.1 oster #include "rf_dagffrd.h" 47 1.1 oster #include "rf_dagffwr.h" 48 1.1 oster #include "rf_dagdegrd.h" 49 1.1 oster #include "rf_dagdegwr.h" 50 1.1 oster #include "rf_dagutils.h" 51 1.1 oster #include "rf_dagfuncs.h" 52 1.1 oster #include "rf_etimer.h" 53 1.1 oster #include "rf_general.h" 54 1.1 oster #include "rf_evenodd.h" 55 1.1 oster #include "rf_parityscan.h" 56 1.1 oster #include "rf_utils.h" 57 1.1 oster #include "rf_map.h" 58 1.1 oster #include "rf_pq.h" 59 1.1 oster #include "rf_mcpair.h" 60 1.1 oster #include "rf_evenodd_dagfuncs.h" 61 1.1 oster #include "rf_evenodd_dags.h" 62 1.1 oster #include "rf_engine.h" 63 1.1 oster 64 1.1 oster typedef struct RF_EvenOddConfigInfo_s { 65 1.2 oster RF_RowCol_t **stripeIdentifier; /* filled in at config time & used by 66 1.2 oster * IdentifyStripe */ 67 1.2 oster } RF_EvenOddConfigInfo_t; 68 1.2 oster 69 1.14 perry int 70 1.18 christos rf_ConfigureEvenOdd(RF_ShutdownList_t **listp, RF_Raid_t *raidPtr, 71 1.18 christos RF_Config_t *cfgPtr) 72 1.2 oster { 73 1.2 oster RF_RaidLayout_t *layoutPtr = &raidPtr->Layout; 74 1.2 oster RF_EvenOddConfigInfo_t *info; 75 1.2 oster RF_RowCol_t i, j, startdisk; 76 1.2 oster 77 1.2 oster RF_MallocAndAdd(info, sizeof(RF_EvenOddConfigInfo_t), (RF_EvenOddConfigInfo_t *), raidPtr->cleanupList); 78 1.2 oster layoutPtr->layoutSpecificInfo = (void *) info; 79 1.2 oster 80 1.2 oster info->stripeIdentifier = rf_make_2d_array(raidPtr->numCol, raidPtr->numCol, raidPtr->cleanupList); 81 1.2 oster startdisk = 0; 82 1.2 oster for (i = 0; i < raidPtr->numCol; i++) { 83 1.2 oster for (j = 0; j < raidPtr->numCol; j++) { 84 1.2 oster info->stripeIdentifier[i][j] = (startdisk + j) % raidPtr->numCol; 85 1.2 oster } 86 1.2 oster if ((startdisk -= 2) < 0) 87 1.2 oster startdisk += raidPtr->numCol; 88 1.2 oster } 89 1.1 oster 90 1.2 oster /* fill in the remaining layout parameters */ 91 1.2 oster layoutPtr->numStripe = layoutPtr->stripeUnitsPerDisk; 92 1.2 oster layoutPtr->numDataCol = raidPtr->numCol - 2; /* ORIG: 93 1.2 oster * layoutPtr->numDataCol 94 1.2 oster * = raidPtr->numCol-1; */ 95 1.1 oster #if RF_EO_MATRIX_DIM > 17 96 1.2 oster if (raidPtr->numCol <= 17) { 97 1.2 oster printf("Number of stripe units in a parity stripe is smaller than 17. Please\n"); 98 1.2 oster printf("define the macro RF_EO_MATRIX_DIM in file rf_evenodd_dagfuncs.h to \n"); 99 1.2 oster printf("be 17 to increase performance. \n"); 100 1.2 oster return (EINVAL); 101 1.2 oster } 102 1.1 oster #elif RF_EO_MATRIX_DIM == 17 103 1.2 oster if (raidPtr->numCol > 17) { 104 1.2 oster printf("Number of stripe units in a parity stripe is bigger than 17. Please\n"); 105 1.2 oster printf("define the macro RF_EO_MATRIX_DIM in file rf_evenodd_dagfuncs.h to \n"); 106 1.2 oster printf("be 257 for encoding and decoding functions to work. \n"); 107 1.2 oster return (EINVAL); 108 1.2 oster } 109 1.1 oster #endif 110 1.2 oster layoutPtr->dataSectorsPerStripe = layoutPtr->numDataCol * layoutPtr->sectorsPerStripeUnit; 111 1.2 oster layoutPtr->numParityCol = 2; 112 1.2 oster layoutPtr->dataStripeUnitsPerDisk = layoutPtr->stripeUnitsPerDisk; 113 1.2 oster raidPtr->sectorsPerDisk = layoutPtr->stripeUnitsPerDisk * layoutPtr->sectorsPerStripeUnit; 114 1.1 oster 115 1.2 oster raidPtr->totalSectors = layoutPtr->stripeUnitsPerDisk * layoutPtr->numDataCol * layoutPtr->sectorsPerStripeUnit; 116 1.1 oster 117 1.2 oster return (0); 118 1.1 oster } 119 1.1 oster 120 1.14 perry int 121 1.18 christos rf_GetDefaultNumFloatingReconBuffersEvenOdd(RF_Raid_t *raidPtr) 122 1.1 oster { 123 1.2 oster return (20); 124 1.1 oster } 125 1.1 oster 126 1.14 perry RF_HeadSepLimit_t 127 1.18 christos rf_GetDefaultHeadSepLimitEvenOdd(RF_Raid_t *raidPtr) 128 1.1 oster { 129 1.2 oster return (10); 130 1.1 oster } 131 1.1 oster 132 1.14 perry void 133 1.12 oster rf_IdentifyStripeEvenOdd(RF_Raid_t *raidPtr, RF_RaidAddr_t addr, 134 1.16 oster RF_RowCol_t **diskids) 135 1.1 oster { 136 1.2 oster RF_StripeNum_t stripeID = rf_RaidAddressToStripeID(&raidPtr->Layout, addr); 137 1.2 oster RF_EvenOddConfigInfo_t *info = (RF_EvenOddConfigInfo_t *) raidPtr->Layout.layoutSpecificInfo; 138 1.1 oster 139 1.2 oster *diskids = info->stripeIdentifier[stripeID % raidPtr->numCol]; 140 1.1 oster } 141 1.2 oster /* The layout of stripe unit on the disks are: c0 c1 c2 c3 c4 142 1.1 oster 143 1.1 oster 0 1 2 E P 144 1.1 oster 5 E P 3 4 145 1.1 oster P 6 7 8 E 146 1.1 oster 10 11 E P 9 147 1.1 oster E P 12 13 14 148 1.1 oster .... 149 1.1 oster 150 1.2 oster We use the MapSectorRAID5 to map data information because the routine can be shown to map exactly 151 1.1 oster the layout of data stripe unit as shown above although we have 2 redundant information now. 152 1.1 oster But for E and P, we use rf_MapEEvenOdd and rf_MapParityEvenOdd which are different method from raid-5. 153 1.1 oster */ 154 1.1 oster 155 1.1 oster 156 1.14 perry void 157 1.12 oster rf_MapParityEvenOdd(RF_Raid_t *raidPtr, RF_RaidAddr_t raidSector, 158 1.16 oster RF_RowCol_t *col, 159 1.18 christos RF_SectorNum_t *diskSector, int remap) 160 1.1 oster { 161 1.2 oster RF_StripeNum_t SUID = raidSector / raidPtr->Layout.sectorsPerStripeUnit; 162 1.2 oster RF_StripeNum_t endSUIDofthisStrip = (SUID / raidPtr->Layout.numDataCol + 1) * raidPtr->Layout.numDataCol - 1; 163 1.1 oster 164 1.2 oster *col = (endSUIDofthisStrip + 2) % raidPtr->numCol; 165 1.2 oster *diskSector = (SUID / (raidPtr->Layout.numDataCol)) * raidPtr->Layout.sectorsPerStripeUnit + 166 1.2 oster (raidSector % raidPtr->Layout.sectorsPerStripeUnit); 167 1.1 oster } 168 1.1 oster 169 1.14 perry void 170 1.12 oster rf_MapEEvenOdd(RF_Raid_t *raidPtr, RF_RaidAddr_t raidSector, 171 1.16 oster RF_RowCol_t *col, RF_SectorNum_t *diskSector, 172 1.18 christos int remap) 173 1.1 oster { 174 1.2 oster RF_StripeNum_t SUID = raidSector / raidPtr->Layout.sectorsPerStripeUnit; 175 1.2 oster RF_StripeNum_t endSUIDofthisStrip = (SUID / raidPtr->Layout.numDataCol + 1) * raidPtr->Layout.numDataCol - 1; 176 1.1 oster 177 1.2 oster *col = (endSUIDofthisStrip + 1) % raidPtr->numCol; 178 1.2 oster *diskSector = (SUID / (raidPtr->Layout.numDataCol)) * raidPtr->Layout.sectorsPerStripeUnit + 179 1.2 oster (raidSector % raidPtr->Layout.sectorsPerStripeUnit); 180 1.1 oster } 181 1.1 oster 182 1.14 perry void 183 1.12 oster rf_EODagSelect(RF_Raid_t *raidPtr, RF_IoType_t type, 184 1.12 oster RF_AccessStripeMap_t *asmap, RF_VoidFuncPtr *createFunc) 185 1.1 oster { 186 1.2 oster RF_RaidLayout_t *layoutPtr = &(raidPtr->Layout); 187 1.2 oster unsigned ndfail = asmap->numDataFailed; 188 1.2 oster unsigned npfail = asmap->numParityFailed + asmap->numQFailed; 189 1.2 oster unsigned ntfail = npfail + ndfail; 190 1.2 oster 191 1.2 oster RF_ASSERT(RF_IO_IS_R_OR_W(type)); 192 1.2 oster if (ntfail > 2) { 193 1.2 oster RF_ERRORMSG("more than two disks failed in a single group! Aborting I/O operation.\n"); 194 1.10 oster *createFunc = NULL; 195 1.2 oster return; 196 1.2 oster } 197 1.2 oster /* ok, we can do this I/O */ 198 1.2 oster if (type == RF_IO_TYPE_READ) { 199 1.2 oster switch (ndfail) { 200 1.2 oster case 0: 201 1.2 oster /* fault free read */ 202 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_CreateFaultFreeReadDAG; /* same as raid 5 */ 203 1.2 oster break; 204 1.2 oster case 1: 205 1.2 oster /* lost a single data unit */ 206 1.2 oster /* two cases: (1) parity is not lost. do a normal raid 207 1.2 oster * 5 reconstruct read. (2) parity is lost. do a 208 1.2 oster * reconstruct read using "e". */ 209 1.2 oster if (ntfail == 2) { /* also lost redundancy */ 210 1.2 oster if (asmap->failedPDAs[1]->type == RF_PDA_TYPE_PARITY) 211 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_110_CreateReadDAG; 212 1.2 oster else 213 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_101_CreateReadDAG; 214 1.2 oster } else { 215 1.2 oster /* P and E are ok. But is there a failure in 216 1.2 oster * some unaccessed data unit? */ 217 1.2 oster if (rf_NumFailedDataUnitsInStripe(raidPtr, asmap) == 2) 218 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_200_CreateReadDAG; 219 1.2 oster else 220 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_100_CreateReadDAG; 221 1.2 oster } 222 1.2 oster break; 223 1.2 oster case 2: 224 1.2 oster /* *createFunc = rf_EO_200_CreateReadDAG; */ 225 1.2 oster *createFunc = NULL; 226 1.2 oster break; 227 1.2 oster } 228 1.2 oster return; 229 1.2 oster } 230 1.2 oster /* a write */ 231 1.2 oster switch (ntfail) { 232 1.2 oster case 0: /* fault free */ 233 1.2 oster if (rf_suppressLocksAndLargeWrites || 234 1.2 oster (((asmap->numStripeUnitsAccessed <= (layoutPtr->numDataCol / 2)) && (layoutPtr->numDataCol != 1)) || 235 1.2 oster (asmap->parityInfo->next != NULL) || (asmap->qInfo->next != NULL) || rf_CheckStripeForFailures(raidPtr, asmap))) { 236 1.2 oster 237 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EOCreateSmallWriteDAG; 238 1.2 oster } else { 239 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EOCreateLargeWriteDAG; 240 1.2 oster } 241 1.2 oster break; 242 1.2 oster 243 1.2 oster case 1: /* single disk fault */ 244 1.2 oster if (npfail == 1) { 245 1.2 oster RF_ASSERT((asmap->failedPDAs[0]->type == RF_PDA_TYPE_PARITY) || (asmap->failedPDAs[0]->type == RF_PDA_TYPE_Q)); 246 1.2 oster if (asmap->failedPDAs[0]->type == RF_PDA_TYPE_Q) { /* q died, treat like 247 1.2 oster * normal mode raid5 248 1.2 oster * write. */ 249 1.2 oster if (((asmap->numStripeUnitsAccessed <= (layoutPtr->numDataCol / 2)) || (asmap->numStripeUnitsAccessed == 1)) 250 1.2 oster || (asmap->parityInfo->next != NULL) || rf_NumFailedDataUnitsInStripe(raidPtr, asmap)) 251 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_001_CreateSmallWriteDAG; 252 1.2 oster else 253 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_001_CreateLargeWriteDAG; 254 1.2 oster } else {/* parity died, small write only updating Q */ 255 1.2 oster if (((asmap->numStripeUnitsAccessed <= (layoutPtr->numDataCol / 2)) || (asmap->numStripeUnitsAccessed == 1)) 256 1.2 oster || (asmap->qInfo->next != NULL) || rf_NumFailedDataUnitsInStripe(raidPtr, asmap)) 257 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_010_CreateSmallWriteDAG; 258 1.2 oster else 259 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_010_CreateLargeWriteDAG; 260 1.2 oster } 261 1.2 oster } else { /* data missing. Do a P reconstruct write if 262 1.2 oster * only a single data unit is lost in the 263 1.2 oster * stripe, otherwise a reconstruct write which 264 1.2 oster * employnig both P and E units. */ 265 1.2 oster if (rf_NumFailedDataUnitsInStripe(raidPtr, asmap) == 2) { 266 1.2 oster if (asmap->numStripeUnitsAccessed == 1) 267 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_200_CreateWriteDAG; 268 1.2 oster else 269 1.2 oster *createFunc = NULL; /* No direct support for 270 1.2 oster * this case now, like 271 1.2 oster * that in Raid-5 */ 272 1.2 oster } else { 273 1.2 oster if (asmap->numStripeUnitsAccessed != 1 && asmap->failedPDAs[0]->numSector != layoutPtr->sectorsPerStripeUnit) 274 1.2 oster *createFunc = NULL; /* No direct support for 275 1.2 oster * this case now, like 276 1.2 oster * that in Raid-5 */ 277 1.2 oster else 278 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_100_CreateWriteDAG; 279 1.2 oster } 280 1.2 oster } 281 1.2 oster break; 282 1.2 oster 283 1.2 oster case 2: /* two disk faults */ 284 1.2 oster switch (npfail) { 285 1.2 oster case 2: /* both p and q dead */ 286 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_011_CreateWriteDAG; 287 1.2 oster break; 288 1.2 oster case 1: /* either p or q and dead data */ 289 1.2 oster RF_ASSERT(asmap->failedPDAs[0]->type == RF_PDA_TYPE_DATA); 290 1.2 oster RF_ASSERT((asmap->failedPDAs[1]->type == RF_PDA_TYPE_PARITY) || (asmap->failedPDAs[1]->type == RF_PDA_TYPE_Q)); 291 1.2 oster if (asmap->failedPDAs[1]->type == RF_PDA_TYPE_Q) { 292 1.2 oster if (asmap->numStripeUnitsAccessed != 1 && asmap->failedPDAs[0]->numSector != layoutPtr->sectorsPerStripeUnit) 293 1.2 oster *createFunc = NULL; /* In both PQ and 294 1.2 oster * EvenOdd, no direct 295 1.2 oster * support for this case 296 1.2 oster * now, like that in 297 1.2 oster * Raid-5 */ 298 1.2 oster else 299 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_101_CreateWriteDAG; 300 1.2 oster } else { 301 1.2 oster if (asmap->numStripeUnitsAccessed != 1 && asmap->failedPDAs[0]->numSector != layoutPtr->sectorsPerStripeUnit) 302 1.2 oster *createFunc = NULL; /* No direct support for 303 1.2 oster * this case, like that 304 1.2 oster * in Raid-5 */ 305 1.2 oster else 306 1.2 oster *createFunc = (RF_VoidFuncPtr) rf_EO_110_CreateWriteDAG; 307 1.2 oster } 308 1.2 oster break; 309 1.2 oster case 0: /* double data loss */ 310 1.2 oster /* if(asmap->failedPDAs[0]->numSector + 311 1.2 oster * asmap->failedPDAs[1]->numSector == 2 * 312 1.2 oster * layoutPtr->sectorsPerStripeUnit ) createFunc = 313 1.2 oster * rf_EOCreateLargeWriteDAG; else */ 314 1.2 oster *createFunc = NULL; /* currently, in Evenodd, No 315 1.2 oster * support for simultaneous 316 1.2 oster * access of both failed SUs */ 317 1.2 oster break; 318 1.2 oster } 319 1.2 oster break; 320 1.2 oster 321 1.2 oster default: /* more than 2 disk faults */ 322 1.2 oster *createFunc = NULL; 323 1.2 oster RF_PANIC(); 324 1.2 oster } 325 1.2 oster return; 326 1.1 oster } 327 1.1 oster 328 1.1 oster 329 1.14 perry int 330 1.12 oster rf_VerifyParityEvenOdd(RF_Raid_t *raidPtr, RF_RaidAddr_t raidAddr, 331 1.12 oster RF_PhysDiskAddr_t *parityPDA, int correct_it, 332 1.12 oster RF_RaidAccessFlags_t flags) 333 1.1 oster { 334 1.2 oster RF_RaidLayout_t *layoutPtr = &(raidPtr->Layout); 335 1.2 oster RF_RaidAddr_t startAddr = rf_RaidAddressOfPrevStripeBoundary(layoutPtr, raidAddr); 336 1.2 oster RF_SectorCount_t numsector = parityPDA->numSector; 337 1.2 oster int numbytes = rf_RaidAddressToByte(raidPtr, numsector); 338 1.2 oster int bytesPerStripe = numbytes * layoutPtr->numDataCol; 339 1.2 oster RF_DagHeader_t *rd_dag_h, *wr_dag_h; /* read, write dag */ 340 1.21 christos RF_DagNode_t *blockNode, *wrBlock; 341 1.2 oster RF_AccessStripeMapHeader_t *asm_h; 342 1.2 oster RF_AccessStripeMap_t *asmap; 343 1.2 oster RF_AllocListElem_t *alloclist; 344 1.2 oster RF_PhysDiskAddr_t *pda; 345 1.2 oster char *pbuf, *buf, *end_p, *p; 346 1.2 oster char *redundantbuf2; 347 1.2 oster int redundantTwoErr = 0, redundantOneErr = 0; 348 1.2 oster int parity_cant_correct = RF_FALSE, red2_cant_correct = RF_FALSE, 349 1.2 oster parity_corrected = RF_FALSE, red2_corrected = RF_FALSE; 350 1.2 oster int i, retcode; 351 1.2 oster RF_ReconUnitNum_t which_ru; 352 1.2 oster RF_StripeNum_t psID = rf_RaidAddressToParityStripeID(layoutPtr, raidAddr, &which_ru); 353 1.2 oster int stripeWidth = layoutPtr->numDataCol + layoutPtr->numParityCol; 354 1.2 oster RF_AccTraceEntry_t tracerec; 355 1.2 oster RF_MCPair_t *mcpair; 356 1.2 oster 357 1.2 oster retcode = RF_PARITY_OKAY; 358 1.2 oster 359 1.2 oster mcpair = rf_AllocMCPair(); 360 1.2 oster rf_MakeAllocList(alloclist); 361 1.2 oster RF_MallocAndAdd(buf, numbytes * (layoutPtr->numDataCol + layoutPtr->numParityCol), (char *), alloclist); 362 1.11 oster RF_MallocAndAdd(pbuf, numbytes, (char *), alloclist); 363 1.2 oster end_p = buf + bytesPerStripe; 364 1.11 oster RF_MallocAndAdd(redundantbuf2, numbytes, (char *), alloclist); 365 1.2 oster 366 1.2 oster rd_dag_h = rf_MakeSimpleDAG(raidPtr, stripeWidth, numbytes, buf, rf_DiskReadFunc, rf_DiskReadUndoFunc, 367 1.2 oster "Rod", alloclist, flags, RF_IO_NORMAL_PRIORITY); 368 1.2 oster blockNode = rd_dag_h->succedents[0]; 369 1.2 oster 370 1.2 oster /* map the stripe and fill in the PDAs in the dag */ 371 1.2 oster asm_h = rf_MapAccess(raidPtr, startAddr, layoutPtr->dataSectorsPerStripe, buf, RF_DONT_REMAP); 372 1.2 oster asmap = asm_h->stripeMap; 373 1.2 oster 374 1.2 oster for (pda = asmap->physInfo, i = 0; i < layoutPtr->numDataCol; i++, pda = pda->next) { 375 1.2 oster RF_ASSERT(pda); 376 1.2 oster rf_RangeRestrictPDA(raidPtr, parityPDA, pda, 0, 1); 377 1.2 oster RF_ASSERT(pda->numSector != 0); 378 1.2 oster if (rf_TryToRedirectPDA(raidPtr, pda, 0)) 379 1.2 oster goto out; /* no way to verify parity if disk is 380 1.2 oster * dead. return w/ good status */ 381 1.2 oster blockNode->succedents[i]->params[0].p = pda; 382 1.2 oster blockNode->succedents[i]->params[2].v = psID; 383 1.13 oster blockNode->succedents[i]->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, which_ru); 384 1.2 oster } 385 1.2 oster 386 1.2 oster RF_ASSERT(!asmap->parityInfo->next); 387 1.2 oster rf_RangeRestrictPDA(raidPtr, parityPDA, asmap->parityInfo, 0, 1); 388 1.2 oster RF_ASSERT(asmap->parityInfo->numSector != 0); 389 1.2 oster if (rf_TryToRedirectPDA(raidPtr, asmap->parityInfo, 1)) 390 1.2 oster goto out; 391 1.2 oster blockNode->succedents[layoutPtr->numDataCol]->params[0].p = asmap->parityInfo; 392 1.2 oster 393 1.2 oster RF_ASSERT(!asmap->qInfo->next); 394 1.2 oster rf_RangeRestrictPDA(raidPtr, parityPDA, asmap->qInfo, 0, 1); 395 1.2 oster RF_ASSERT(asmap->qInfo->numSector != 0); 396 1.2 oster if (rf_TryToRedirectPDA(raidPtr, asmap->qInfo, 1)) 397 1.2 oster goto out; 398 1.2 oster /* if disk is dead, b/c no reconstruction is implemented right now, 399 1.2 oster * the function "rf_TryToRedirectPDA" always return one, which cause 400 1.2 oster * go to out and return w/ good status */ 401 1.2 oster blockNode->succedents[layoutPtr->numDataCol + 1]->params[0].p = asmap->qInfo; 402 1.2 oster 403 1.2 oster /* fire off the DAG */ 404 1.5 thorpej memset((char *) &tracerec, 0, sizeof(tracerec)); 405 1.2 oster rd_dag_h->tracerec = &tracerec; 406 1.2 oster 407 1.8 oster #if RF_DEBUG_VALIDATE_DAG 408 1.2 oster if (rf_verifyParityDebug) { 409 1.2 oster printf("Parity verify read dag:\n"); 410 1.2 oster rf_PrintDAGList(rd_dag_h); 411 1.2 oster } 412 1.8 oster #endif 413 1.20 mrg RF_LOCK_MCPAIR(mcpair); 414 1.2 oster mcpair->flag = 0; 415 1.2 oster rf_DispatchDAG(rd_dag_h, (void (*) (void *)) rf_MCPairWakeupFunc, 416 1.2 oster (void *) mcpair); 417 1.2 oster while (!mcpair->flag) 418 1.20 mrg RF_WAIT_MCPAIR(mcpair); 419 1.20 mrg RF_UNLOCK_MCPAIR(mcpair); 420 1.2 oster if (rd_dag_h->status != rf_enable) { 421 1.2 oster RF_ERRORMSG("Unable to verify parity: can't read the stripe\n"); 422 1.2 oster retcode = RF_PARITY_COULD_NOT_VERIFY; 423 1.2 oster goto out; 424 1.2 oster } 425 1.2 oster for (p = buf, i = 0; p < end_p; p += numbytes, i++) { 426 1.2 oster rf_e_encToBuf(raidPtr, i, p, RF_EO_MATRIX_DIM - 2, redundantbuf2, numsector); 427 1.2 oster /* the corresponding columes in EvenOdd encoding Matrix for 428 1.2 oster * these p pointers which point to the databuffer in a full 429 1.2 oster * stripe are sequentially from 0 to layoutPtr->numDataCol-1 */ 430 1.16 oster rf_bxor(p, pbuf, numbytes); 431 1.2 oster } 432 1.2 oster RF_ASSERT(i == layoutPtr->numDataCol); 433 1.2 oster 434 1.2 oster for (i = 0; i < numbytes; i++) { 435 1.2 oster if (pbuf[i] != buf[bytesPerStripe + i]) { 436 1.2 oster if (!correct_it) { 437 1.2 oster RF_ERRORMSG3("Parity verify error: byte %d of parity is 0x%x should be 0x%x\n", 438 1.2 oster i, (u_char) buf[bytesPerStripe + i], (u_char) pbuf[i]); 439 1.2 oster } 440 1.2 oster } 441 1.2 oster redundantOneErr = 1; 442 1.2 oster break; 443 1.2 oster } 444 1.2 oster 445 1.2 oster for (i = 0; i < numbytes; i++) { 446 1.2 oster if (redundantbuf2[i] != buf[bytesPerStripe + numbytes + i]) { 447 1.2 oster if (!correct_it) { 448 1.2 oster RF_ERRORMSG3("Parity verify error: byte %d of second redundant information is 0x%x should be 0x%x\n", 449 1.2 oster i, (u_char) buf[bytesPerStripe + numbytes + i], (u_char) redundantbuf2[i]); 450 1.2 oster } 451 1.2 oster redundantTwoErr = 1; 452 1.2 oster break; 453 1.2 oster } 454 1.2 oster } 455 1.2 oster if (redundantOneErr || redundantTwoErr) 456 1.2 oster retcode = RF_PARITY_BAD; 457 1.2 oster 458 1.2 oster /* correct the first redundant disk, ie parity if it is error */ 459 1.2 oster if (redundantOneErr && correct_it) { 460 1.2 oster wr_dag_h = rf_MakeSimpleDAG(raidPtr, 1, numbytes, pbuf, rf_DiskWriteFunc, rf_DiskWriteUndoFunc, 461 1.2 oster "Wnp", alloclist, flags, RF_IO_NORMAL_PRIORITY); 462 1.2 oster wrBlock = wr_dag_h->succedents[0]; 463 1.2 oster wrBlock->succedents[0]->params[0].p = asmap->parityInfo; 464 1.2 oster wrBlock->succedents[0]->params[2].v = psID; 465 1.13 oster wrBlock->succedents[0]->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, which_ru); 466 1.5 thorpej memset((char *) &tracerec, 0, sizeof(tracerec)); 467 1.2 oster wr_dag_h->tracerec = &tracerec; 468 1.8 oster #if RF_DEBUG_VALIDATE_DAG 469 1.2 oster if (rf_verifyParityDebug) { 470 1.2 oster printf("Parity verify write dag:\n"); 471 1.2 oster rf_PrintDAGList(wr_dag_h); 472 1.2 oster } 473 1.8 oster #endif 474 1.20 mrg RF_LOCK_MCPAIR(mcpair); 475 1.2 oster mcpair->flag = 0; 476 1.2 oster rf_DispatchDAG(wr_dag_h, (void (*) (void *)) rf_MCPairWakeupFunc, 477 1.2 oster (void *) mcpair); 478 1.2 oster while (!mcpair->flag) 479 1.20 mrg RF_WAIT_MCPAIR(mcpair); 480 1.20 mrg RF_UNLOCK_MCPAIR(mcpair); 481 1.2 oster if (wr_dag_h->status != rf_enable) { 482 1.2 oster RF_ERRORMSG("Unable to correct parity in VerifyParity: can't write the stripe\n"); 483 1.2 oster parity_cant_correct = RF_TRUE; 484 1.2 oster } else { 485 1.2 oster parity_corrected = RF_TRUE; 486 1.2 oster } 487 1.2 oster rf_FreeDAG(wr_dag_h); 488 1.2 oster } 489 1.2 oster if (redundantTwoErr && correct_it) { 490 1.2 oster wr_dag_h = rf_MakeSimpleDAG(raidPtr, 1, numbytes, redundantbuf2, rf_DiskWriteFunc, rf_DiskWriteUndoFunc, 491 1.2 oster "Wnred2", alloclist, flags, RF_IO_NORMAL_PRIORITY); 492 1.2 oster wrBlock = wr_dag_h->succedents[0]; 493 1.2 oster wrBlock->succedents[0]->params[0].p = asmap->qInfo; 494 1.2 oster wrBlock->succedents[0]->params[2].v = psID; 495 1.13 oster wrBlock->succedents[0]->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, which_ru); 496 1.5 thorpej memset((char *) &tracerec, 0, sizeof(tracerec)); 497 1.2 oster wr_dag_h->tracerec = &tracerec; 498 1.8 oster #if RF_DEBUG_VALIDATE_DAG 499 1.2 oster if (rf_verifyParityDebug) { 500 1.2 oster printf("Dag of write new second redundant information in parity verify :\n"); 501 1.2 oster rf_PrintDAGList(wr_dag_h); 502 1.2 oster } 503 1.8 oster #endif 504 1.20 mrg RF_LOCK_MCPAIR(mcpair); 505 1.2 oster mcpair->flag = 0; 506 1.2 oster rf_DispatchDAG(wr_dag_h, (void (*) (void *)) rf_MCPairWakeupFunc, 507 1.2 oster (void *) mcpair); 508 1.2 oster while (!mcpair->flag) 509 1.20 mrg RF_WAIT_MCPAIR(mcpair); 510 1.20 mrg RF_UNLOCK_MCPAIR(mcpair); 511 1.2 oster if (wr_dag_h->status != rf_enable) { 512 1.2 oster RF_ERRORMSG("Unable to correct second redundant information in VerifyParity: can't write the stripe\n"); 513 1.2 oster red2_cant_correct = RF_TRUE; 514 1.2 oster } else { 515 1.2 oster red2_corrected = RF_TRUE; 516 1.2 oster } 517 1.2 oster rf_FreeDAG(wr_dag_h); 518 1.2 oster } 519 1.2 oster if ((redundantOneErr && parity_cant_correct) || 520 1.2 oster (redundantTwoErr && red2_cant_correct)) 521 1.2 oster retcode = RF_PARITY_COULD_NOT_CORRECT; 522 1.2 oster if ((retcode = RF_PARITY_BAD) && parity_corrected && red2_corrected) 523 1.2 oster retcode = RF_PARITY_CORRECTED; 524 1.1 oster 525 1.1 oster 526 1.1 oster out: 527 1.2 oster rf_FreeAccessStripeMap(asm_h); 528 1.2 oster rf_FreeAllocList(alloclist); 529 1.2 oster rf_FreeDAG(rd_dag_h); 530 1.2 oster rf_FreeMCPair(mcpair); 531 1.2 oster return (retcode); 532 1.1 oster } 533 1.2 oster #endif /* RF_INCLUDE_EVENODD > 0 */ 534
Indexes created Thu Oct 02 14:10:14 GMT 2025