rf_reconstruct.c revision 1.28.2.2
1 1.28.2.2 thorpej /* $NetBSD: rf_reconstruct.c,v 1.28.2.2 2002/01/10 19:57:58 thorpej Exp $ */ 2 1.1 oster /* 3 1.1 oster * Copyright (c) 1995 Carnegie-Mellon University. 4 1.1 oster * All rights reserved. 5 1.1 oster * 6 1.1 oster * Author: Mark Holland 7 1.1 oster * 8 1.1 oster * Permission to use, copy, modify and distribute this software and 9 1.1 oster * its documentation is hereby granted, provided that both the copyright 10 1.1 oster * notice and this permission notice appear in all copies of the 11 1.1 oster * software, derivative works or modified versions, and any portions 12 1.1 oster * thereof, and that both notices appear in supporting documentation. 13 1.1 oster * 14 1.1 oster * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 15 1.1 oster * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND 16 1.1 oster * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 17 1.1 oster * 18 1.1 oster * Carnegie Mellon requests users of this software to return to 19 1.1 oster * 20 1.1 oster * Software Distribution Coordinator or Software.Distribution (at) CS.CMU.EDU 21 1.1 oster * School of Computer Science 22 1.1 oster * Carnegie Mellon University 23 1.1 oster * Pittsburgh PA 15213-3890 24 1.1 oster * 25 1.1 oster * any improvements or extensions that they make and grant Carnegie the 26 1.1 oster * rights to redistribute these changes. 27 1.1 oster */ 28 1.1 oster 29 1.1 oster /************************************************************ 30 1.1 oster * 31 1.1 oster * rf_reconstruct.c -- code to perform on-line reconstruction 32 1.1 oster * 33 1.1 oster ************************************************************/ 34 1.1 oster 35 1.28.2.2 thorpej #include <sys/cdefs.h> 36 1.28.2.2 thorpej __KERNEL_RCSID(0, "$NetBSD: rf_reconstruct.c,v 1.28.2.2 2002/01/10 19:57:58 thorpej Exp $"); 37 1.28.2.2 thorpej 38 1.1 oster #include <sys/time.h> 39 1.1 oster #include <sys/buf.h> 40 1.1 oster #include <sys/errno.h> 41 1.5 oster 42 1.5 oster #include <sys/param.h> 43 1.5 oster #include <sys/systm.h> 44 1.5 oster #include <sys/proc.h> 45 1.5 oster #include <sys/ioctl.h> 46 1.5 oster #include <sys/fcntl.h> 47 1.5 oster #include <sys/vnode.h> 48 1.28.2.2 thorpej #include <dev/raidframe/raidframevar.h> 49 1.5 oster 50 1.1 oster #include "rf_raid.h" 51 1.1 oster #include "rf_reconutil.h" 52 1.1 oster #include "rf_revent.h" 53 1.1 oster #include "rf_reconbuffer.h" 54 1.1 oster #include "rf_acctrace.h" 55 1.1 oster #include "rf_etimer.h" 56 1.1 oster #include "rf_dag.h" 57 1.1 oster #include "rf_desc.h" 58 1.1 oster #include "rf_general.h" 59 1.1 oster #include "rf_freelist.h" 60 1.1 oster #include "rf_debugprint.h" 61 1.1 oster #include "rf_driver.h" 62 1.1 oster #include "rf_utils.h" 63 1.1 oster #include "rf_shutdown.h" 64 1.1 oster 65 1.1 oster #include "rf_kintf.h" 66 1.1 oster 67 1.1 oster /* setting these to -1 causes them to be set to their default values if not set by debug options */ 68 1.1 oster 69 1.28.2.2 thorpej #ifdef DEBUG 70 1.1 oster #define Dprintf(s) if (rf_reconDebug) rf_debug_printf(s,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL) 71 1.1 oster #define Dprintf1(s,a) if (rf_reconDebug) rf_debug_printf(s,(void *)((unsigned long)a),NULL,NULL,NULL,NULL,NULL,NULL,NULL) 72 1.1 oster #define Dprintf2(s,a,b) if (rf_reconDebug) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),NULL,NULL,NULL,NULL,NULL,NULL) 73 1.1 oster #define Dprintf3(s,a,b,c) if (rf_reconDebug) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),NULL,NULL,NULL,NULL,NULL) 74 1.1 oster #define Dprintf4(s,a,b,c,d) if (rf_reconDebug) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),(void *)((unsigned long)c),(void *)((unsigned long)d),NULL,NULL,NULL,NULL) 75 1.1 oster #define Dprintf5(s,a,b,c,d,e) if (rf_reconDebug) 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) 76 1.1 oster #define Dprintf6(s,a,b,c,d,e,f) if (rf_reconDebug) 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) 77 1.1 oster #define Dprintf7(s,a,b,c,d,e,f,g) if (rf_reconDebug) 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) 78 1.1 oster 79 1.1 oster #define DDprintf1(s,a) if (rf_reconDebug) rf_debug_printf(s,(void *)((unsigned long)a),NULL,NULL,NULL,NULL,NULL,NULL,NULL) 80 1.1 oster #define DDprintf2(s,a,b) if (rf_reconDebug) rf_debug_printf(s,(void *)((unsigned long)a),(void *)((unsigned long)b),NULL,NULL,NULL,NULL,NULL,NULL) 81 1.28.2.2 thorpej 82 1.28.2.2 thorpej #else /* DEBUG */ 83 1.28.2.2 thorpej 84 1.28.2.2 thorpej #define Dprintf(s) {} 85 1.28.2.2 thorpej #define Dprintf1(s,a) {} 86 1.28.2.2 thorpej #define Dprintf2(s,a,b) {} 87 1.28.2.2 thorpej #define Dprintf3(s,a,b,c) {} 88 1.28.2.2 thorpej #define Dprintf4(s,a,b,c,d) {} 89 1.28.2.2 thorpej #define Dprintf5(s,a,b,c,d,e) {} 90 1.28.2.2 thorpej #define Dprintf6(s,a,b,c,d,e,f) {} 91 1.28.2.2 thorpej #define Dprintf7(s,a,b,c,d,e,f,g) {} 92 1.28.2.2 thorpej 93 1.28.2.2 thorpej #define DDprintf1(s,a) {} 94 1.28.2.2 thorpej #define DDprintf2(s,a,b) {} 95 1.28.2.2 thorpej 96 1.28.2.2 thorpej #endif /* DEBUG */ 97 1.28.2.2 thorpej 98 1.1 oster 99 1.1 oster static RF_FreeList_t *rf_recond_freelist; 100 1.1 oster #define RF_MAX_FREE_RECOND 4 101 1.1 oster #define RF_RECOND_INC 1 102 1.1 oster 103 1.4 oster static RF_RaidReconDesc_t * 104 1.4 oster AllocRaidReconDesc(RF_Raid_t * raidPtr, 105 1.4 oster RF_RowCol_t row, RF_RowCol_t col, RF_RaidDisk_t * spareDiskPtr, 106 1.4 oster int numDisksDone, RF_RowCol_t srow, RF_RowCol_t scol); 107 1.4 oster static void FreeReconDesc(RF_RaidReconDesc_t * reconDesc); 108 1.4 oster static int 109 1.4 oster ProcessReconEvent(RF_Raid_t * raidPtr, RF_RowCol_t frow, 110 1.4 oster RF_ReconEvent_t * event); 111 1.4 oster static int 112 1.4 oster IssueNextReadRequest(RF_Raid_t * raidPtr, RF_RowCol_t row, 113 1.4 oster RF_RowCol_t col); 114 1.4 oster static int TryToRead(RF_Raid_t * raidPtr, RF_RowCol_t row, RF_RowCol_t col); 115 1.4 oster static int 116 1.4 oster ComputePSDiskOffsets(RF_Raid_t * raidPtr, RF_StripeNum_t psid, 117 1.4 oster RF_RowCol_t row, RF_RowCol_t col, RF_SectorNum_t * outDiskOffset, 118 1.4 oster RF_SectorNum_t * outFailedDiskSectorOffset, RF_RowCol_t * spRow, 119 1.4 oster RF_RowCol_t * spCol, RF_SectorNum_t * spOffset); 120 1.4 oster static int IssueNextWriteRequest(RF_Raid_t * raidPtr, RF_RowCol_t row); 121 1.1 oster static int ReconReadDoneProc(void *arg, int status); 122 1.1 oster static int ReconWriteDoneProc(void *arg, int status); 123 1.4 oster static void 124 1.4 oster CheckForNewMinHeadSep(RF_Raid_t * raidPtr, RF_RowCol_t row, 125 1.4 oster RF_HeadSepLimit_t hsCtr); 126 1.4 oster static int 127 1.4 oster CheckHeadSeparation(RF_Raid_t * raidPtr, RF_PerDiskReconCtrl_t * ctrl, 128 1.4 oster RF_RowCol_t row, RF_RowCol_t col, RF_HeadSepLimit_t hsCtr, 129 1.4 oster RF_ReconUnitNum_t which_ru); 130 1.4 oster static int 131 1.4 oster CheckForcedOrBlockedReconstruction(RF_Raid_t * raidPtr, 132 1.4 oster RF_ReconParityStripeStatus_t * pssPtr, RF_PerDiskReconCtrl_t * ctrl, 133 1.4 oster RF_RowCol_t row, RF_RowCol_t col, RF_StripeNum_t psid, 134 1.4 oster RF_ReconUnitNum_t which_ru); 135 1.1 oster static void ForceReconReadDoneProc(void *arg, int status); 136 1.1 oster 137 1.1 oster static void rf_ShutdownReconstruction(void *); 138 1.1 oster 139 1.1 oster struct RF_ReconDoneProc_s { 140 1.4 oster void (*proc) (RF_Raid_t *, void *); 141 1.4 oster void *arg; 142 1.4 oster RF_ReconDoneProc_t *next; 143 1.1 oster }; 144 1.1 oster 145 1.1 oster static RF_FreeList_t *rf_rdp_freelist; 146 1.1 oster #define RF_MAX_FREE_RDP 4 147 1.1 oster #define RF_RDP_INC 1 148 1.1 oster 149 1.4 oster static void 150 1.4 oster SignalReconDone(RF_Raid_t * raidPtr) 151 1.1 oster { 152 1.4 oster RF_ReconDoneProc_t *p; 153 1.1 oster 154 1.4 oster RF_LOCK_MUTEX(raidPtr->recon_done_proc_mutex); 155 1.4 oster for (p = raidPtr->recon_done_procs; p; p = p->next) { 156 1.4 oster p->proc(raidPtr, p->arg); 157 1.4 oster } 158 1.4 oster RF_UNLOCK_MUTEX(raidPtr->recon_done_proc_mutex); 159 1.1 oster } 160 1.1 oster 161 1.4 oster int 162 1.4 oster rf_RegisterReconDoneProc( 163 1.4 oster RF_Raid_t * raidPtr, 164 1.4 oster void (*proc) (RF_Raid_t *, void *), 165 1.4 oster void *arg, 166 1.4 oster RF_ReconDoneProc_t ** handlep) 167 1.4 oster { 168 1.4 oster RF_ReconDoneProc_t *p; 169 1.4 oster 170 1.4 oster RF_FREELIST_GET(rf_rdp_freelist, p, next, (RF_ReconDoneProc_t *)); 171 1.4 oster if (p == NULL) 172 1.4 oster return (ENOMEM); 173 1.4 oster p->proc = proc; 174 1.4 oster p->arg = arg; 175 1.4 oster RF_LOCK_MUTEX(raidPtr->recon_done_proc_mutex); 176 1.4 oster p->next = raidPtr->recon_done_procs; 177 1.4 oster raidPtr->recon_done_procs = p; 178 1.4 oster RF_UNLOCK_MUTEX(raidPtr->recon_done_proc_mutex); 179 1.4 oster if (handlep) 180 1.4 oster *handlep = p; 181 1.4 oster return (0); 182 1.4 oster } 183 1.13 oster /************************************************************************** 184 1.1 oster * 185 1.1 oster * sets up the parameters that will be used by the reconstruction process 186 1.1 oster * currently there are none, except for those that the layout-specific 187 1.1 oster * configuration (e.g. rf_ConfigureDeclustered) routine sets up. 188 1.1 oster * 189 1.1 oster * in the kernel, we fire off the recon thread. 190 1.1 oster * 191 1.13 oster **************************************************************************/ 192 1.4 oster static void 193 1.4 oster rf_ShutdownReconstruction(ignored) 194 1.4 oster void *ignored; 195 1.4 oster { 196 1.4 oster RF_FREELIST_DESTROY(rf_recond_freelist, next, (RF_RaidReconDesc_t *)); 197 1.4 oster RF_FREELIST_DESTROY(rf_rdp_freelist, next, (RF_ReconDoneProc_t *)); 198 1.4 oster } 199 1.4 oster 200 1.4 oster int 201 1.4 oster rf_ConfigureReconstruction(listp) 202 1.4 oster RF_ShutdownList_t **listp; 203 1.4 oster { 204 1.4 oster int rc; 205 1.4 oster 206 1.4 oster RF_FREELIST_CREATE(rf_recond_freelist, RF_MAX_FREE_RECOND, 207 1.4 oster RF_RECOND_INC, sizeof(RF_RaidReconDesc_t)); 208 1.4 oster if (rf_recond_freelist == NULL) 209 1.4 oster return (ENOMEM); 210 1.4 oster RF_FREELIST_CREATE(rf_rdp_freelist, RF_MAX_FREE_RDP, 211 1.4 oster RF_RDP_INC, sizeof(RF_ReconDoneProc_t)); 212 1.4 oster if (rf_rdp_freelist == NULL) { 213 1.4 oster RF_FREELIST_DESTROY(rf_recond_freelist, next, (RF_RaidReconDesc_t *)); 214 1.4 oster return (ENOMEM); 215 1.4 oster } 216 1.4 oster rc = rf_ShutdownCreate(listp, rf_ShutdownReconstruction, NULL); 217 1.4 oster if (rc) { 218 1.4 oster RF_ERRORMSG3("Unable to add to shutdown list file %s line %d rc=%d\n", 219 1.4 oster __FILE__, __LINE__, rc); 220 1.4 oster rf_ShutdownReconstruction(NULL); 221 1.4 oster return (rc); 222 1.4 oster } 223 1.4 oster return (0); 224 1.4 oster } 225 1.4 oster 226 1.4 oster static RF_RaidReconDesc_t * 227 1.4 oster AllocRaidReconDesc(raidPtr, row, col, spareDiskPtr, numDisksDone, srow, scol) 228 1.4 oster RF_Raid_t *raidPtr; 229 1.4 oster RF_RowCol_t row; 230 1.4 oster RF_RowCol_t col; 231 1.4 oster RF_RaidDisk_t *spareDiskPtr; 232 1.4 oster int numDisksDone; 233 1.4 oster RF_RowCol_t srow; 234 1.4 oster RF_RowCol_t scol; 235 1.1 oster { 236 1.1 oster 237 1.4 oster RF_RaidReconDesc_t *reconDesc; 238 1.4 oster 239 1.4 oster RF_FREELIST_GET(rf_recond_freelist, reconDesc, next, (RF_RaidReconDesc_t *)); 240 1.4 oster 241 1.4 oster reconDesc->raidPtr = raidPtr; 242 1.4 oster reconDesc->row = row; 243 1.4 oster reconDesc->col = col; 244 1.4 oster reconDesc->spareDiskPtr = spareDiskPtr; 245 1.4 oster reconDesc->numDisksDone = numDisksDone; 246 1.4 oster reconDesc->srow = srow; 247 1.4 oster reconDesc->scol = scol; 248 1.4 oster reconDesc->state = 0; 249 1.4 oster reconDesc->next = NULL; 250 1.1 oster 251 1.4 oster return (reconDesc); 252 1.1 oster } 253 1.1 oster 254 1.4 oster static void 255 1.4 oster FreeReconDesc(reconDesc) 256 1.4 oster RF_RaidReconDesc_t *reconDesc; 257 1.1 oster { 258 1.1 oster #if RF_RECON_STATS > 0 259 1.4 oster printf("RAIDframe: %lu recon event waits, %lu recon delays\n", 260 1.4 oster (long) reconDesc->numReconEventWaits, (long) reconDesc->numReconExecDelays); 261 1.4 oster #endif /* RF_RECON_STATS > 0 */ 262 1.4 oster printf("RAIDframe: %lu max exec ticks\n", 263 1.4 oster (long) reconDesc->maxReconExecTicks); 264 1.1 oster #if (RF_RECON_STATS > 0) || defined(KERNEL) 265 1.4 oster printf("\n"); 266 1.4 oster #endif /* (RF_RECON_STATS > 0) || KERNEL */ 267 1.4 oster RF_FREELIST_FREE(rf_recond_freelist, reconDesc, next); 268 1.1 oster } 269 1.1 oster 270 1.1 oster 271 1.13 oster /***************************************************************************** 272 1.1 oster * 273 1.1 oster * primary routine to reconstruct a failed disk. This should be called from 274 1.1 oster * within its own thread. It won't return until reconstruction completes, 275 1.1 oster * fails, or is aborted. 276 1.13 oster *****************************************************************************/ 277 1.4 oster int 278 1.4 oster rf_ReconstructFailedDisk(raidPtr, row, col) 279 1.4 oster RF_Raid_t *raidPtr; 280 1.4 oster RF_RowCol_t row; 281 1.4 oster RF_RowCol_t col; 282 1.4 oster { 283 1.4 oster RF_LayoutSW_t *lp; 284 1.4 oster int rc; 285 1.4 oster 286 1.4 oster lp = raidPtr->Layout.map; 287 1.4 oster if (lp->SubmitReconBuffer) { 288 1.4 oster /* 289 1.4 oster * The current infrastructure only supports reconstructing one 290 1.4 oster * disk at a time for each array. 291 1.4 oster */ 292 1.4 oster RF_LOCK_MUTEX(raidPtr->mutex); 293 1.4 oster while (raidPtr->reconInProgress) { 294 1.4 oster RF_WAIT_COND(raidPtr->waitForReconCond, raidPtr->mutex); 295 1.4 oster } 296 1.4 oster raidPtr->reconInProgress++; 297 1.4 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 298 1.4 oster rc = rf_ReconstructFailedDiskBasic(raidPtr, row, col); 299 1.6 oster RF_LOCK_MUTEX(raidPtr->mutex); 300 1.6 oster raidPtr->reconInProgress--; 301 1.6 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 302 1.4 oster } else { 303 1.4 oster RF_ERRORMSG1("RECON: no way to reconstruct failed disk for arch %c\n", 304 1.4 oster lp->parityConfig); 305 1.4 oster rc = EIO; 306 1.4 oster } 307 1.4 oster RF_SIGNAL_COND(raidPtr->waitForReconCond); 308 1.4 oster wakeup(&raidPtr->waitForReconCond); /* XXX Methinks this will be 309 1.4 oster * needed at some point... GO */ 310 1.4 oster return (rc); 311 1.4 oster } 312 1.4 oster 313 1.4 oster int 314 1.4 oster rf_ReconstructFailedDiskBasic(raidPtr, row, col) 315 1.4 oster RF_Raid_t *raidPtr; 316 1.4 oster RF_RowCol_t row; 317 1.4 oster RF_RowCol_t col; 318 1.4 oster { 319 1.5 oster RF_ComponentLabel_t c_label; 320 1.4 oster RF_RaidDisk_t *spareDiskPtr = NULL; 321 1.4 oster RF_RaidReconDesc_t *reconDesc; 322 1.4 oster RF_RowCol_t srow, scol; 323 1.4 oster int numDisksDone = 0, rc; 324 1.4 oster 325 1.4 oster /* first look for a spare drive onto which to reconstruct the data */ 326 1.4 oster /* spare disk descriptors are stored in row 0. This may have to 327 1.4 oster * change eventually */ 328 1.4 oster 329 1.4 oster RF_LOCK_MUTEX(raidPtr->mutex); 330 1.4 oster RF_ASSERT(raidPtr->Disks[row][col].status == rf_ds_failed); 331 1.4 oster 332 1.4 oster if (raidPtr->Layout.map->flags & RF_DISTRIBUTE_SPARE) { 333 1.4 oster if (raidPtr->status[row] != rf_rs_degraded) { 334 1.4 oster RF_ERRORMSG2("Unable to reconstruct disk at row %d col %d because status not degraded\n", row, col); 335 1.4 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 336 1.4 oster return (EINVAL); 337 1.4 oster } 338 1.4 oster srow = row; 339 1.4 oster scol = (-1); 340 1.4 oster } else { 341 1.4 oster srow = 0; 342 1.4 oster for (scol = raidPtr->numCol; scol < raidPtr->numCol + raidPtr->numSpare; scol++) { 343 1.4 oster if (raidPtr->Disks[srow][scol].status == rf_ds_spare) { 344 1.4 oster spareDiskPtr = &raidPtr->Disks[srow][scol]; 345 1.4 oster spareDiskPtr->status = rf_ds_used_spare; 346 1.4 oster break; 347 1.4 oster } 348 1.4 oster } 349 1.4 oster if (!spareDiskPtr) { 350 1.4 oster RF_ERRORMSG2("Unable to reconstruct disk at row %d col %d because no spares are available\n", row, col); 351 1.4 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 352 1.4 oster return (ENOSPC); 353 1.4 oster } 354 1.4 oster printf("RECON: initiating reconstruction on row %d col %d -> spare at row %d col %d\n", row, col, srow, scol); 355 1.4 oster } 356 1.4 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 357 1.1 oster 358 1.4 oster reconDesc = AllocRaidReconDesc((void *) raidPtr, row, col, spareDiskPtr, numDisksDone, srow, scol); 359 1.4 oster raidPtr->reconDesc = (void *) reconDesc; 360 1.1 oster #if RF_RECON_STATS > 0 361 1.4 oster reconDesc->hsStallCount = 0; 362 1.4 oster reconDesc->numReconExecDelays = 0; 363 1.4 oster reconDesc->numReconEventWaits = 0; 364 1.4 oster #endif /* RF_RECON_STATS > 0 */ 365 1.4 oster reconDesc->reconExecTimerRunning = 0; 366 1.4 oster reconDesc->reconExecTicks = 0; 367 1.4 oster reconDesc->maxReconExecTicks = 0; 368 1.4 oster rc = rf_ContinueReconstructFailedDisk(reconDesc); 369 1.5 oster 370 1.5 oster if (!rc) { 371 1.5 oster /* fix up the component label */ 372 1.5 oster /* Don't actually need the read here.. */ 373 1.5 oster raidread_component_label( 374 1.5 oster raidPtr->raid_cinfo[srow][scol].ci_dev, 375 1.5 oster raidPtr->raid_cinfo[srow][scol].ci_vp, 376 1.5 oster &c_label); 377 1.5 oster 378 1.15 oster raid_init_component_label( raidPtr, &c_label); 379 1.5 oster c_label.row = row; 380 1.5 oster c_label.column = col; 381 1.5 oster c_label.clean = RF_RAID_DIRTY; 382 1.5 oster c_label.status = rf_ds_optimal; 383 1.27 oster c_label.partitionSize = raidPtr->Disks[srow][scol].partitionSize; 384 1.15 oster 385 1.28 oster /* We've just done a rebuild based on all the other 386 1.28 oster disks, so at this point the parity is known to be 387 1.28 oster clean, even if it wasn't before. */ 388 1.28 oster 389 1.28 oster /* XXX doesn't hold for RAID 6!!*/ 390 1.28 oster 391 1.28 oster raidPtr->parity_good = RF_RAID_CLEAN; 392 1.28 oster 393 1.15 oster /* XXXX MORE NEEDED HERE */ 394 1.5 oster 395 1.5 oster raidwrite_component_label( 396 1.5 oster raidPtr->raid_cinfo[srow][scol].ci_dev, 397 1.5 oster raidPtr->raid_cinfo[srow][scol].ci_vp, 398 1.5 oster &c_label); 399 1.5 oster 400 1.5 oster } 401 1.5 oster return (rc); 402 1.5 oster } 403 1.5 oster 404 1.5 oster /* 405 1.5 oster 406 1.5 oster Allow reconstructing a disk in-place -- i.e. component /dev/sd2e goes AWOL, 407 1.5 oster and you don't get a spare until the next Monday. With this function 408 1.5 oster (and hot-swappable drives) you can now put your new disk containing 409 1.5 oster /dev/sd2e on the bus, scsictl it alive, and then use raidctl(8) to 410 1.5 oster rebuild the data "on the spot". 411 1.5 oster 412 1.5 oster */ 413 1.5 oster 414 1.5 oster int 415 1.5 oster rf_ReconstructInPlace(raidPtr, row, col) 416 1.5 oster RF_Raid_t *raidPtr; 417 1.5 oster RF_RowCol_t row; 418 1.5 oster RF_RowCol_t col; 419 1.5 oster { 420 1.5 oster RF_RaidDisk_t *spareDiskPtr = NULL; 421 1.5 oster RF_RaidReconDesc_t *reconDesc; 422 1.5 oster RF_LayoutSW_t *lp; 423 1.5 oster RF_RaidDisk_t *badDisk; 424 1.5 oster RF_ComponentLabel_t c_label; 425 1.5 oster int numDisksDone = 0, rc; 426 1.5 oster struct partinfo dpart; 427 1.5 oster struct vnode *vp; 428 1.5 oster struct vattr va; 429 1.5 oster struct proc *proc; 430 1.5 oster int retcode; 431 1.21 oster int ac; 432 1.5 oster 433 1.5 oster lp = raidPtr->Layout.map; 434 1.5 oster if (lp->SubmitReconBuffer) { 435 1.5 oster /* 436 1.5 oster * The current infrastructure only supports reconstructing one 437 1.5 oster * disk at a time for each array. 438 1.5 oster */ 439 1.5 oster RF_LOCK_MUTEX(raidPtr->mutex); 440 1.5 oster if ((raidPtr->Disks[row][col].status == rf_ds_optimal) && 441 1.5 oster (raidPtr->numFailures > 0)) { 442 1.5 oster /* XXX 0 above shouldn't be constant!!! */ 443 1.5 oster /* some component other than this has failed. 444 1.5 oster Let's not make things worse than they already 445 1.5 oster are... */ 446 1.5 oster printf("RAIDFRAME: Unable to reconstruct to disk at:\n"); 447 1.5 oster printf(" Row: %d Col: %d Too many failures.\n", 448 1.5 oster row, col); 449 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 450 1.5 oster return (EINVAL); 451 1.5 oster } 452 1.5 oster if (raidPtr->Disks[row][col].status == rf_ds_reconstructing) { 453 1.5 oster printf("RAIDFRAME: Unable to reconstruct to disk at:\n"); 454 1.5 oster printf(" Row: %d Col: %d Reconstruction already occuring!\n", row, col); 455 1.5 oster 456 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 457 1.5 oster return (EINVAL); 458 1.5 oster } 459 1.5 oster 460 1.5 oster 461 1.5 oster if (raidPtr->Disks[row][col].status != rf_ds_failed) { 462 1.5 oster /* "It's gone..." */ 463 1.5 oster raidPtr->numFailures++; 464 1.5 oster raidPtr->Disks[row][col].status = rf_ds_failed; 465 1.5 oster raidPtr->status[row] = rf_rs_degraded; 466 1.26 oster rf_update_component_labels(raidPtr, 467 1.26 oster RF_NORMAL_COMPONENT_UPDATE); 468 1.5 oster } 469 1.5 oster 470 1.5 oster while (raidPtr->reconInProgress) { 471 1.5 oster RF_WAIT_COND(raidPtr->waitForReconCond, raidPtr->mutex); 472 1.5 oster } 473 1.5 oster 474 1.6 oster raidPtr->reconInProgress++; 475 1.6 oster 476 1.5 oster 477 1.5 oster /* first look for a spare drive onto which to reconstruct 478 1.5 oster the data. spare disk descriptors are stored in row 0. 479 1.5 oster This may have to change eventually */ 480 1.5 oster 481 1.5 oster /* Actually, we don't care if it's failed or not... 482 1.5 oster On a RAID set with correct parity, this function 483 1.5 oster should be callable on any component without ill affects. */ 484 1.5 oster /* RF_ASSERT(raidPtr->Disks[row][col].status == rf_ds_failed); 485 1.5 oster */ 486 1.5 oster 487 1.5 oster if (raidPtr->Layout.map->flags & RF_DISTRIBUTE_SPARE) { 488 1.5 oster RF_ERRORMSG2("Unable to reconstruct to disk at row %d col %d: operation not supported for RF_DISTRIBUTE_SPARE\n", row, col); 489 1.5 oster 490 1.6 oster raidPtr->reconInProgress--; 491 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 492 1.5 oster return (EINVAL); 493 1.5 oster } 494 1.5 oster 495 1.5 oster /* XXX need goop here to see if the disk is alive, 496 1.5 oster and, if not, make it so... */ 497 1.5 oster 498 1.5 oster 499 1.5 oster 500 1.5 oster badDisk = &raidPtr->Disks[row][col]; 501 1.5 oster 502 1.8 oster proc = raidPtr->engine_thread; 503 1.5 oster 504 1.5 oster /* This device may have been opened successfully the 505 1.5 oster first time. Close it before trying to open it again.. */ 506 1.5 oster 507 1.5 oster if (raidPtr->raid_cinfo[row][col].ci_vp != NULL) { 508 1.5 oster printf("Closed the open device: %s\n", 509 1.5 oster raidPtr->Disks[row][col].devname); 510 1.21 oster vp = raidPtr->raid_cinfo[row][col].ci_vp; 511 1.21 oster ac = raidPtr->Disks[row][col].auto_configured; 512 1.21 oster rf_close_component(raidPtr, vp, ac); 513 1.5 oster raidPtr->raid_cinfo[row][col].ci_vp = NULL; 514 1.5 oster } 515 1.20 oster /* note that this disk was *not* auto_configured (any longer)*/ 516 1.20 oster raidPtr->Disks[row][col].auto_configured = 0; 517 1.20 oster 518 1.5 oster printf("About to (re-)open the device for rebuilding: %s\n", 519 1.5 oster raidPtr->Disks[row][col].devname); 520 1.5 oster 521 1.5 oster retcode = raidlookup(raidPtr->Disks[row][col].devname, 522 1.5 oster proc, &vp); 523 1.5 oster 524 1.5 oster if (retcode) { 525 1.5 oster printf("raid%d: rebuilding: raidlookup on device: %s failed: %d!\n",raidPtr->raidid, 526 1.5 oster raidPtr->Disks[row][col].devname, retcode); 527 1.5 oster 528 1.5 oster /* XXX the component isn't responding properly... 529 1.6 oster must be still dead :-( */ 530 1.6 oster raidPtr->reconInProgress--; 531 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 532 1.5 oster return(retcode); 533 1.5 oster 534 1.5 oster } else { 535 1.5 oster 536 1.5 oster /* Ok, so we can at least do a lookup... 537 1.5 oster How about actually getting a vp for it? */ 538 1.5 oster 539 1.5 oster if ((retcode = VOP_GETATTR(vp, &va, proc->p_ucred, 540 1.5 oster proc)) != 0) { 541 1.6 oster raidPtr->reconInProgress--; 542 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 543 1.5 oster return(retcode); 544 1.5 oster } 545 1.5 oster retcode = VOP_IOCTL(vp, DIOCGPART, (caddr_t) & dpart, 546 1.5 oster FREAD, proc->p_ucred, proc); 547 1.5 oster if (retcode) { 548 1.6 oster raidPtr->reconInProgress--; 549 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 550 1.5 oster return(retcode); 551 1.5 oster } 552 1.5 oster raidPtr->Disks[row][col].blockSize = 553 1.5 oster dpart.disklab->d_secsize; 554 1.5 oster 555 1.5 oster raidPtr->Disks[row][col].numBlocks = 556 1.5 oster dpart.part->p_size - rf_protectedSectors; 557 1.5 oster 558 1.5 oster raidPtr->raid_cinfo[row][col].ci_vp = vp; 559 1.5 oster raidPtr->raid_cinfo[row][col].ci_dev = va.va_rdev; 560 1.5 oster 561 1.5 oster raidPtr->Disks[row][col].dev = va.va_rdev; 562 1.5 oster 563 1.5 oster /* we allow the user to specify that only a 564 1.5 oster fraction of the disks should be used this is 565 1.5 oster just for debug: it speeds up 566 1.5 oster * the parity scan */ 567 1.5 oster raidPtr->Disks[row][col].numBlocks = 568 1.5 oster raidPtr->Disks[row][col].numBlocks * 569 1.5 oster rf_sizePercentage / 100; 570 1.5 oster } 571 1.5 oster 572 1.5 oster 573 1.5 oster 574 1.5 oster spareDiskPtr = &raidPtr->Disks[row][col]; 575 1.5 oster spareDiskPtr->status = rf_ds_used_spare; 576 1.5 oster 577 1.5 oster printf("RECON: initiating in-place reconstruction on\n"); 578 1.5 oster printf(" row %d col %d -> spare at row %d col %d\n", 579 1.5 oster row, col, row, col); 580 1.5 oster 581 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 582 1.5 oster 583 1.5 oster reconDesc = AllocRaidReconDesc((void *) raidPtr, row, col, 584 1.5 oster spareDiskPtr, numDisksDone, 585 1.5 oster row, col); 586 1.5 oster raidPtr->reconDesc = (void *) reconDesc; 587 1.5 oster #if RF_RECON_STATS > 0 588 1.5 oster reconDesc->hsStallCount = 0; 589 1.5 oster reconDesc->numReconExecDelays = 0; 590 1.5 oster reconDesc->numReconEventWaits = 0; 591 1.5 oster #endif /* RF_RECON_STATS > 0 */ 592 1.5 oster reconDesc->reconExecTimerRunning = 0; 593 1.5 oster reconDesc->reconExecTicks = 0; 594 1.5 oster reconDesc->maxReconExecTicks = 0; 595 1.5 oster rc = rf_ContinueReconstructFailedDisk(reconDesc); 596 1.6 oster 597 1.6 oster RF_LOCK_MUTEX(raidPtr->mutex); 598 1.6 oster raidPtr->reconInProgress--; 599 1.6 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 600 1.6 oster 601 1.5 oster } else { 602 1.5 oster RF_ERRORMSG1("RECON: no way to reconstruct failed disk for arch %c\n", 603 1.5 oster lp->parityConfig); 604 1.5 oster rc = EIO; 605 1.5 oster } 606 1.5 oster RF_LOCK_MUTEX(raidPtr->mutex); 607 1.5 oster 608 1.5 oster if (!rc) { 609 1.5 oster /* Need to set these here, as at this point it'll be claiming 610 1.5 oster that the disk is in rf_ds_spared! But we know better :-) */ 611 1.5 oster 612 1.5 oster raidPtr->Disks[row][col].status = rf_ds_optimal; 613 1.5 oster raidPtr->status[row] = rf_rs_optimal; 614 1.5 oster 615 1.5 oster /* fix up the component label */ 616 1.5 oster /* Don't actually need the read here.. */ 617 1.5 oster raidread_component_label(raidPtr->raid_cinfo[row][col].ci_dev, 618 1.5 oster raidPtr->raid_cinfo[row][col].ci_vp, 619 1.5 oster &c_label); 620 1.16 oster 621 1.16 oster raid_init_component_label(raidPtr, &c_label); 622 1.16 oster 623 1.5 oster c_label.row = row; 624 1.5 oster c_label.column = col; 625 1.28 oster 626 1.28 oster /* We've just done a rebuild based on all the other 627 1.28 oster disks, so at this point the parity is known to be 628 1.28 oster clean, even if it wasn't before. */ 629 1.28 oster 630 1.28 oster /* XXX doesn't hold for RAID 6!!*/ 631 1.28 oster 632 1.28 oster raidPtr->parity_good = RF_RAID_CLEAN; 633 1.28 oster 634 1.5 oster raidwrite_component_label(raidPtr->raid_cinfo[row][col].ci_dev, 635 1.5 oster raidPtr->raid_cinfo[row][col].ci_vp, 636 1.5 oster &c_label); 637 1.5 oster 638 1.5 oster } 639 1.5 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 640 1.5 oster RF_SIGNAL_COND(raidPtr->waitForReconCond); 641 1.5 oster wakeup(&raidPtr->waitForReconCond); 642 1.4 oster return (rc); 643 1.4 oster } 644 1.4 oster 645 1.4 oster 646 1.4 oster int 647 1.4 oster rf_ContinueReconstructFailedDisk(reconDesc) 648 1.4 oster RF_RaidReconDesc_t *reconDesc; 649 1.4 oster { 650 1.4 oster RF_Raid_t *raidPtr = reconDesc->raidPtr; 651 1.4 oster RF_RowCol_t row = reconDesc->row; 652 1.4 oster RF_RowCol_t col = reconDesc->col; 653 1.4 oster RF_RowCol_t srow = reconDesc->srow; 654 1.4 oster RF_RowCol_t scol = reconDesc->scol; 655 1.4 oster RF_ReconMap_t *mapPtr; 656 1.4 oster 657 1.4 oster RF_ReconEvent_t *event; 658 1.4 oster struct timeval etime, elpsd; 659 1.4 oster unsigned long xor_s, xor_resid_us; 660 1.4 oster int retcode, i, ds; 661 1.4 oster 662 1.4 oster switch (reconDesc->state) { 663 1.4 oster 664 1.4 oster 665 1.4 oster case 0: 666 1.4 oster 667 1.4 oster raidPtr->accumXorTimeUs = 0; 668 1.4 oster 669 1.4 oster /* create one trace record per physical disk */ 670 1.4 oster RF_Malloc(raidPtr->recon_tracerecs, raidPtr->numCol * sizeof(RF_AccTraceEntry_t), (RF_AccTraceEntry_t *)); 671 1.4 oster 672 1.4 oster /* quiesce the array prior to starting recon. this is needed 673 1.4 oster * to assure no nasty interactions with pending user writes. 674 1.4 oster * We need to do this before we change the disk or row status. */ 675 1.4 oster reconDesc->state = 1; 676 1.4 oster 677 1.4 oster Dprintf("RECON: begin request suspend\n"); 678 1.4 oster retcode = rf_SuspendNewRequestsAndWait(raidPtr); 679 1.4 oster Dprintf("RECON: end request suspend\n"); 680 1.4 oster rf_StartUserStats(raidPtr); /* zero out the stats kept on 681 1.4 oster * user accs */ 682 1.4 oster 683 1.4 oster /* fall through to state 1 */ 684 1.4 oster 685 1.4 oster case 1: 686 1.4 oster 687 1.4 oster RF_LOCK_MUTEX(raidPtr->mutex); 688 1.4 oster 689 1.4 oster /* create the reconstruction control pointer and install it in 690 1.4 oster * the right slot */ 691 1.4 oster raidPtr->reconControl[row] = rf_MakeReconControl(reconDesc, row, col, srow, scol); 692 1.4 oster mapPtr = raidPtr->reconControl[row]->reconMap; 693 1.4 oster raidPtr->status[row] = rf_rs_reconstructing; 694 1.4 oster raidPtr->Disks[row][col].status = rf_ds_reconstructing; 695 1.4 oster raidPtr->Disks[row][col].spareRow = srow; 696 1.4 oster raidPtr->Disks[row][col].spareCol = scol; 697 1.4 oster 698 1.4 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 699 1.4 oster 700 1.4 oster RF_GETTIME(raidPtr->reconControl[row]->starttime); 701 1.4 oster 702 1.4 oster /* now start up the actual reconstruction: issue a read for 703 1.4 oster * each surviving disk */ 704 1.14 oster 705 1.4 oster reconDesc->numDisksDone = 0; 706 1.4 oster for (i = 0; i < raidPtr->numCol; i++) { 707 1.4 oster if (i != col) { 708 1.4 oster /* find and issue the next I/O on the 709 1.4 oster * indicated disk */ 710 1.4 oster if (IssueNextReadRequest(raidPtr, row, i)) { 711 1.4 oster Dprintf2("RECON: done issuing for r%d c%d\n", row, i); 712 1.4 oster reconDesc->numDisksDone++; 713 1.4 oster } 714 1.4 oster } 715 1.4 oster } 716 1.4 oster 717 1.4 oster case 2: 718 1.4 oster Dprintf("RECON: resume requests\n"); 719 1.4 oster rf_ResumeNewRequests(raidPtr); 720 1.4 oster 721 1.4 oster 722 1.4 oster reconDesc->state = 3; 723 1.4 oster 724 1.4 oster case 3: 725 1.4 oster 726 1.4 oster /* process reconstruction events until all disks report that 727 1.4 oster * they've completed all work */ 728 1.4 oster mapPtr = raidPtr->reconControl[row]->reconMap; 729 1.4 oster 730 1.4 oster 731 1.4 oster 732 1.4 oster while (reconDesc->numDisksDone < raidPtr->numCol - 1) { 733 1.4 oster 734 1.4 oster event = rf_GetNextReconEvent(reconDesc, row, (void (*) (void *)) rf_ContinueReconstructFailedDisk, reconDesc); 735 1.4 oster RF_ASSERT(event); 736 1.4 oster 737 1.4 oster if (ProcessReconEvent(raidPtr, row, event)) 738 1.4 oster reconDesc->numDisksDone++; 739 1.24 oster raidPtr->reconControl[row]->numRUsTotal = 740 1.24 oster mapPtr->totalRUs; 741 1.23 oster raidPtr->reconControl[row]->numRUsComplete = 742 1.24 oster mapPtr->totalRUs - 743 1.23 oster rf_UnitsLeftToReconstruct(mapPtr); 744 1.23 oster 745 1.23 oster raidPtr->reconControl[row]->percentComplete = 746 1.25 oster (raidPtr->reconControl[row]->numRUsComplete * 100 / raidPtr->reconControl[row]->numRUsTotal); 747 1.4 oster if (rf_prReconSched) { 748 1.4 oster rf_PrintReconSchedule(raidPtr->reconControl[row]->reconMap, &(raidPtr->reconControl[row]->starttime)); 749 1.4 oster } 750 1.4 oster } 751 1.4 oster 752 1.4 oster 753 1.4 oster 754 1.4 oster reconDesc->state = 4; 755 1.4 oster 756 1.4 oster 757 1.4 oster case 4: 758 1.4 oster mapPtr = raidPtr->reconControl[row]->reconMap; 759 1.4 oster if (rf_reconDebug) { 760 1.4 oster printf("RECON: all reads completed\n"); 761 1.4 oster } 762 1.4 oster /* at this point all the reads have completed. We now wait 763 1.4 oster * for any pending writes to complete, and then we're done */ 764 1.4 oster 765 1.4 oster while (rf_UnitsLeftToReconstruct(raidPtr->reconControl[row]->reconMap) > 0) { 766 1.4 oster 767 1.4 oster event = rf_GetNextReconEvent(reconDesc, row, (void (*) (void *)) rf_ContinueReconstructFailedDisk, reconDesc); 768 1.4 oster RF_ASSERT(event); 769 1.4 oster 770 1.4 oster (void) ProcessReconEvent(raidPtr, row, event); /* ignore return code */ 771 1.4 oster raidPtr->reconControl[row]->percentComplete = 100 - (rf_UnitsLeftToReconstruct(mapPtr) * 100 / mapPtr->totalRUs); 772 1.4 oster if (rf_prReconSched) { 773 1.4 oster rf_PrintReconSchedule(raidPtr->reconControl[row]->reconMap, &(raidPtr->reconControl[row]->starttime)); 774 1.4 oster } 775 1.4 oster } 776 1.4 oster reconDesc->state = 5; 777 1.4 oster 778 1.4 oster case 5: 779 1.4 oster /* Success: mark the dead disk as reconstructed. We quiesce 780 1.4 oster * the array here to assure no nasty interactions with pending 781 1.4 oster * user accesses when we free up the psstatus structure as 782 1.4 oster * part of FreeReconControl() */ 783 1.4 oster 784 1.4 oster reconDesc->state = 6; 785 1.4 oster 786 1.4 oster retcode = rf_SuspendNewRequestsAndWait(raidPtr); 787 1.4 oster rf_StopUserStats(raidPtr); 788 1.4 oster rf_PrintUserStats(raidPtr); /* print out the stats on user 789 1.4 oster * accs accumulated during 790 1.4 oster * recon */ 791 1.4 oster 792 1.4 oster /* fall through to state 6 */ 793 1.4 oster case 6: 794 1.4 oster 795 1.4 oster 796 1.4 oster 797 1.4 oster RF_LOCK_MUTEX(raidPtr->mutex); 798 1.4 oster raidPtr->numFailures--; 799 1.4 oster ds = (raidPtr->Layout.map->flags & RF_DISTRIBUTE_SPARE); 800 1.4 oster raidPtr->Disks[row][col].status = (ds) ? rf_ds_dist_spared : rf_ds_spared; 801 1.4 oster raidPtr->status[row] = (ds) ? rf_rs_reconfigured : rf_rs_optimal; 802 1.4 oster RF_UNLOCK_MUTEX(raidPtr->mutex); 803 1.4 oster RF_GETTIME(etime); 804 1.4 oster RF_TIMEVAL_DIFF(&(raidPtr->reconControl[row]->starttime), &etime, &elpsd); 805 1.4 oster 806 1.4 oster /* XXX -- why is state 7 different from state 6 if there is no 807 1.4 oster * return() here? -- XXX Note that I set elpsd above & use it 808 1.4 oster * below, so if you put a return here you'll have to fix this. 809 1.4 oster * (also, FreeReconControl is called below) */ 810 1.4 oster 811 1.4 oster case 7: 812 1.4 oster 813 1.4 oster rf_ResumeNewRequests(raidPtr); 814 1.4 oster 815 1.19 oster printf("Reconstruction of disk at row %d col %d completed\n", 816 1.19 oster row, col); 817 1.4 oster xor_s = raidPtr->accumXorTimeUs / 1000000; 818 1.4 oster xor_resid_us = raidPtr->accumXorTimeUs % 1000000; 819 1.4 oster printf("Recon time was %d.%06d seconds, accumulated XOR time was %ld us (%ld.%06ld)\n", 820 1.4 oster (int) elpsd.tv_sec, (int) elpsd.tv_usec, raidPtr->accumXorTimeUs, xor_s, xor_resid_us); 821 1.4 oster printf(" (start time %d sec %d usec, end time %d sec %d usec)\n", 822 1.4 oster (int) raidPtr->reconControl[row]->starttime.tv_sec, 823 1.4 oster (int) raidPtr->reconControl[row]->starttime.tv_usec, 824 1.4 oster (int) etime.tv_sec, (int) etime.tv_usec); 825 1.14 oster 826 1.1 oster #if RF_RECON_STATS > 0 827 1.4 oster printf("Total head-sep stall count was %d\n", 828 1.4 oster (int) reconDesc->hsStallCount); 829 1.4 oster #endif /* RF_RECON_STATS > 0 */ 830 1.4 oster rf_FreeReconControl(raidPtr, row); 831 1.4 oster RF_Free(raidPtr->recon_tracerecs, raidPtr->numCol * sizeof(RF_AccTraceEntry_t)); 832 1.4 oster FreeReconDesc(reconDesc); 833 1.4 oster 834 1.4 oster } 835 1.1 oster 836 1.4 oster SignalReconDone(raidPtr); 837 1.4 oster return (0); 838 1.1 oster } 839 1.13 oster /***************************************************************************** 840 1.1 oster * do the right thing upon each reconstruction event. 841 1.13 oster * returns nonzero if and only if there is nothing left unread on the 842 1.13 oster * indicated disk 843 1.13 oster *****************************************************************************/ 844 1.4 oster static int 845 1.4 oster ProcessReconEvent(raidPtr, frow, event) 846 1.4 oster RF_Raid_t *raidPtr; 847 1.4 oster RF_RowCol_t frow; 848 1.4 oster RF_ReconEvent_t *event; 849 1.4 oster { 850 1.4 oster int retcode = 0, submitblocked; 851 1.4 oster RF_ReconBuffer_t *rbuf; 852 1.4 oster RF_SectorCount_t sectorsPerRU; 853 1.4 oster 854 1.4 oster Dprintf1("RECON: ProcessReconEvent type %d\n", event->type); 855 1.4 oster switch (event->type) { 856 1.4 oster 857 1.4 oster /* a read I/O has completed */ 858 1.4 oster case RF_REVENT_READDONE: 859 1.4 oster rbuf = raidPtr->reconControl[frow]->perDiskInfo[event->col].rbuf; 860 1.4 oster Dprintf3("RECON: READDONE EVENT: row %d col %d psid %ld\n", 861 1.4 oster frow, event->col, rbuf->parityStripeID); 862 1.4 oster Dprintf7("RECON: done read psid %ld buf %lx %02x %02x %02x %02x %02x\n", 863 1.4 oster rbuf->parityStripeID, rbuf->buffer, rbuf->buffer[0] & 0xff, rbuf->buffer[1] & 0xff, 864 1.4 oster rbuf->buffer[2] & 0xff, rbuf->buffer[3] & 0xff, rbuf->buffer[4] & 0xff); 865 1.4 oster rf_FreeDiskQueueData((RF_DiskQueueData_t *) rbuf->arg); 866 1.4 oster submitblocked = rf_SubmitReconBuffer(rbuf, 0, 0); 867 1.4 oster Dprintf1("RECON: submitblocked=%d\n", submitblocked); 868 1.4 oster if (!submitblocked) 869 1.4 oster retcode = IssueNextReadRequest(raidPtr, frow, event->col); 870 1.4 oster break; 871 1.4 oster 872 1.4 oster /* a write I/O has completed */ 873 1.4 oster case RF_REVENT_WRITEDONE: 874 1.4 oster if (rf_floatingRbufDebug) { 875 1.4 oster rf_CheckFloatingRbufCount(raidPtr, 1); 876 1.4 oster } 877 1.4 oster sectorsPerRU = raidPtr->Layout.sectorsPerStripeUnit * raidPtr->Layout.SUsPerRU; 878 1.4 oster rbuf = (RF_ReconBuffer_t *) event->arg; 879 1.4 oster rf_FreeDiskQueueData((RF_DiskQueueData_t *) rbuf->arg); 880 1.4 oster Dprintf3("RECON: WRITEDONE EVENT: psid %d ru %d (%d %% complete)\n", 881 1.4 oster rbuf->parityStripeID, rbuf->which_ru, raidPtr->reconControl[frow]->percentComplete); 882 1.4 oster rf_ReconMapUpdate(raidPtr, raidPtr->reconControl[frow]->reconMap, 883 1.4 oster rbuf->failedDiskSectorOffset, rbuf->failedDiskSectorOffset + sectorsPerRU - 1); 884 1.4 oster rf_RemoveFromActiveReconTable(raidPtr, frow, rbuf->parityStripeID, rbuf->which_ru); 885 1.4 oster 886 1.4 oster if (rbuf->type == RF_RBUF_TYPE_FLOATING) { 887 1.4 oster RF_LOCK_MUTEX(raidPtr->reconControl[frow]->rb_mutex); 888 1.4 oster raidPtr->numFullReconBuffers--; 889 1.4 oster rf_ReleaseFloatingReconBuffer(raidPtr, frow, rbuf); 890 1.4 oster RF_UNLOCK_MUTEX(raidPtr->reconControl[frow]->rb_mutex); 891 1.4 oster } else 892 1.4 oster if (rbuf->type == RF_RBUF_TYPE_FORCED) 893 1.4 oster rf_FreeReconBuffer(rbuf); 894 1.4 oster else 895 1.4 oster RF_ASSERT(0); 896 1.4 oster break; 897 1.4 oster 898 1.4 oster case RF_REVENT_BUFCLEAR: /* A buffer-stall condition has been 899 1.4 oster * cleared */ 900 1.4 oster Dprintf2("RECON: BUFCLEAR EVENT: row %d col %d\n", frow, event->col); 901 1.4 oster submitblocked = rf_SubmitReconBuffer(raidPtr->reconControl[frow]->perDiskInfo[event->col].rbuf, 0, (int) (long) event->arg); 902 1.4 oster RF_ASSERT(!submitblocked); /* we wouldn't have gotten the 903 1.4 oster * BUFCLEAR event if we 904 1.4 oster * couldn't submit */ 905 1.4 oster retcode = IssueNextReadRequest(raidPtr, frow, event->col); 906 1.4 oster break; 907 1.4 oster 908 1.4 oster case RF_REVENT_BLOCKCLEAR: /* A user-write reconstruction 909 1.4 oster * blockage has been cleared */ 910 1.4 oster DDprintf2("RECON: BLOCKCLEAR EVENT: row %d col %d\n", frow, event->col); 911 1.4 oster retcode = TryToRead(raidPtr, frow, event->col); 912 1.4 oster break; 913 1.4 oster 914 1.4 oster case RF_REVENT_HEADSEPCLEAR: /* A max-head-separation 915 1.4 oster * reconstruction blockage has been 916 1.4 oster * cleared */ 917 1.4 oster Dprintf2("RECON: HEADSEPCLEAR EVENT: row %d col %d\n", frow, event->col); 918 1.4 oster retcode = TryToRead(raidPtr, frow, event->col); 919 1.4 oster break; 920 1.4 oster 921 1.4 oster /* a buffer has become ready to write */ 922 1.4 oster case RF_REVENT_BUFREADY: 923 1.4 oster Dprintf2("RECON: BUFREADY EVENT: row %d col %d\n", frow, event->col); 924 1.4 oster retcode = IssueNextWriteRequest(raidPtr, frow); 925 1.4 oster if (rf_floatingRbufDebug) { 926 1.4 oster rf_CheckFloatingRbufCount(raidPtr, 1); 927 1.4 oster } 928 1.4 oster break; 929 1.4 oster 930 1.4 oster /* we need to skip the current RU entirely because it got 931 1.4 oster * recon'd while we were waiting for something else to happen */ 932 1.4 oster case RF_REVENT_SKIP: 933 1.4 oster DDprintf2("RECON: SKIP EVENT: row %d col %d\n", frow, event->col); 934 1.4 oster retcode = IssueNextReadRequest(raidPtr, frow, event->col); 935 1.4 oster break; 936 1.4 oster 937 1.4 oster /* a forced-reconstruction read access has completed. Just 938 1.4 oster * submit the buffer */ 939 1.4 oster case RF_REVENT_FORCEDREADDONE: 940 1.4 oster rbuf = (RF_ReconBuffer_t *) event->arg; 941 1.4 oster rf_FreeDiskQueueData((RF_DiskQueueData_t *) rbuf->arg); 942 1.4 oster DDprintf2("RECON: FORCEDREADDONE EVENT: row %d col %d\n", frow, event->col); 943 1.4 oster submitblocked = rf_SubmitReconBuffer(rbuf, 1, 0); 944 1.4 oster RF_ASSERT(!submitblocked); 945 1.4 oster break; 946 1.4 oster 947 1.4 oster default: 948 1.4 oster RF_PANIC(); 949 1.4 oster } 950 1.4 oster rf_FreeReconEventDesc(event); 951 1.4 oster return (retcode); 952 1.1 oster } 953 1.13 oster /***************************************************************************** 954 1.1 oster * 955 1.13 oster * find the next thing that's needed on the indicated disk, and issue 956 1.13 oster * a read request for it. We assume that the reconstruction buffer 957 1.13 oster * associated with this process is free to receive the data. If 958 1.13 oster * reconstruction is blocked on the indicated RU, we issue a 959 1.13 oster * blockage-release request instead of a physical disk read request. 960 1.13 oster * If the current disk gets too far ahead of the others, we issue a 961 1.13 oster * head-separation wait request and return. 962 1.13 oster * 963 1.13 oster * ctrl->{ru_count, curPSID, diskOffset} and 964 1.22 soren * rbuf->failedDiskSectorOffset are maintained to point to the unit 965 1.13 oster * we're currently accessing. Note that this deviates from the 966 1.13 oster * standard C idiom of having counters point to the next thing to be 967 1.13 oster * accessed. This allows us to easily retry when we're blocked by 968 1.13 oster * head separation or reconstruction-blockage events. 969 1.1 oster * 970 1.13 oster * returns nonzero if and only if there is nothing left unread on the 971 1.13 oster * indicated disk 972 1.13 oster * 973 1.13 oster *****************************************************************************/ 974 1.4 oster static int 975 1.4 oster IssueNextReadRequest(raidPtr, row, col) 976 1.4 oster RF_Raid_t *raidPtr; 977 1.4 oster RF_RowCol_t row; 978 1.4 oster RF_RowCol_t col; 979 1.4 oster { 980 1.4 oster RF_PerDiskReconCtrl_t *ctrl = &raidPtr->reconControl[row]->perDiskInfo[col]; 981 1.4 oster RF_RaidLayout_t *layoutPtr = &raidPtr->Layout; 982 1.4 oster RF_ReconBuffer_t *rbuf = ctrl->rbuf; 983 1.4 oster RF_ReconUnitCount_t RUsPerPU = layoutPtr->SUsPerPU / layoutPtr->SUsPerRU; 984 1.4 oster RF_SectorCount_t sectorsPerRU = layoutPtr->sectorsPerStripeUnit * layoutPtr->SUsPerRU; 985 1.4 oster int do_new_check = 0, retcode = 0, status; 986 1.4 oster 987 1.4 oster /* if we are currently the slowest disk, mark that we have to do a new 988 1.4 oster * check */ 989 1.4 oster if (ctrl->headSepCounter <= raidPtr->reconControl[row]->minHeadSepCounter) 990 1.4 oster do_new_check = 1; 991 1.4 oster 992 1.4 oster while (1) { 993 1.4 oster 994 1.4 oster ctrl->ru_count++; 995 1.4 oster if (ctrl->ru_count < RUsPerPU) { 996 1.4 oster ctrl->diskOffset += sectorsPerRU; 997 1.4 oster rbuf->failedDiskSectorOffset += sectorsPerRU; 998 1.4 oster } else { 999 1.4 oster ctrl->curPSID++; 1000 1.4 oster ctrl->ru_count = 0; 1001 1.4 oster /* code left over from when head-sep was based on 1002 1.4 oster * parity stripe id */ 1003 1.4 oster if (ctrl->curPSID >= raidPtr->reconControl[row]->lastPSID) { 1004 1.4 oster CheckForNewMinHeadSep(raidPtr, row, ++(ctrl->headSepCounter)); 1005 1.4 oster return (1); /* finito! */ 1006 1.4 oster } 1007 1.4 oster /* find the disk offsets of the start of the parity 1008 1.4 oster * stripe on both the current disk and the failed 1009 1.4 oster * disk. skip this entire parity stripe if either disk 1010 1.4 oster * does not appear in the indicated PS */ 1011 1.4 oster status = ComputePSDiskOffsets(raidPtr, ctrl->curPSID, row, col, &ctrl->diskOffset, &rbuf->failedDiskSectorOffset, 1012 1.4 oster &rbuf->spRow, &rbuf->spCol, &rbuf->spOffset); 1013 1.4 oster if (status) { 1014 1.4 oster ctrl->ru_count = RUsPerPU - 1; 1015 1.4 oster continue; 1016 1.4 oster } 1017 1.4 oster } 1018 1.4 oster rbuf->which_ru = ctrl->ru_count; 1019 1.4 oster 1020 1.4 oster /* skip this RU if it's already been reconstructed */ 1021 1.4 oster if (rf_CheckRUReconstructed(raidPtr->reconControl[row]->reconMap, rbuf->failedDiskSectorOffset)) { 1022 1.4 oster Dprintf2("Skipping psid %ld ru %d: already reconstructed\n", ctrl->curPSID, ctrl->ru_count); 1023 1.4 oster continue; 1024 1.4 oster } 1025 1.4 oster break; 1026 1.4 oster } 1027 1.4 oster ctrl->headSepCounter++; 1028 1.4 oster if (do_new_check) 1029 1.4 oster CheckForNewMinHeadSep(raidPtr, row, ctrl->headSepCounter); /* update min if needed */ 1030 1.4 oster 1031 1.4 oster 1032 1.4 oster /* at this point, we have definitely decided what to do, and we have 1033 1.4 oster * only to see if we can actually do it now */ 1034 1.4 oster rbuf->parityStripeID = ctrl->curPSID; 1035 1.4 oster rbuf->which_ru = ctrl->ru_count; 1036 1.28.2.1 lukem memset((char *) &raidPtr->recon_tracerecs[col], 0, 1037 1.28.2.1 lukem sizeof(raidPtr->recon_tracerecs[col])); 1038 1.4 oster raidPtr->recon_tracerecs[col].reconacc = 1; 1039 1.4 oster RF_ETIMER_START(raidPtr->recon_tracerecs[col].recon_timer); 1040 1.4 oster retcode = TryToRead(raidPtr, row, col); 1041 1.4 oster return (retcode); 1042 1.1 oster } 1043 1.13 oster 1044 1.13 oster /* 1045 1.13 oster * tries to issue the next read on the indicated disk. We may be 1046 1.13 oster * blocked by (a) the heads being too far apart, or (b) recon on the 1047 1.13 oster * indicated RU being blocked due to a write by a user thread. In 1048 1.13 oster * this case, we issue a head-sep or blockage wait request, which will 1049 1.13 oster * cause this same routine to be invoked again later when the blockage 1050 1.13 oster * has cleared. 1051 1.1 oster */ 1052 1.13 oster 1053 1.4 oster static int 1054 1.4 oster TryToRead(raidPtr, row, col) 1055 1.4 oster RF_Raid_t *raidPtr; 1056 1.4 oster RF_RowCol_t row; 1057 1.4 oster RF_RowCol_t col; 1058 1.4 oster { 1059 1.4 oster RF_PerDiskReconCtrl_t *ctrl = &raidPtr->reconControl[row]->perDiskInfo[col]; 1060 1.4 oster RF_SectorCount_t sectorsPerRU = raidPtr->Layout.sectorsPerStripeUnit * raidPtr->Layout.SUsPerRU; 1061 1.4 oster RF_StripeNum_t psid = ctrl->curPSID; 1062 1.4 oster RF_ReconUnitNum_t which_ru = ctrl->ru_count; 1063 1.4 oster RF_DiskQueueData_t *req; 1064 1.4 oster int status, created = 0; 1065 1.4 oster RF_ReconParityStripeStatus_t *pssPtr; 1066 1.4 oster 1067 1.4 oster /* if the current disk is too far ahead of the others, issue a 1068 1.4 oster * head-separation wait and return */ 1069 1.4 oster if (CheckHeadSeparation(raidPtr, ctrl, row, col, ctrl->headSepCounter, which_ru)) 1070 1.4 oster return (0); 1071 1.4 oster RF_LOCK_PSS_MUTEX(raidPtr, row, psid); 1072 1.4 oster pssPtr = rf_LookupRUStatus(raidPtr, raidPtr->reconControl[row]->pssTable, psid, which_ru, RF_PSS_CREATE, &created); 1073 1.4 oster 1074 1.4 oster /* if recon is blocked on the indicated parity stripe, issue a 1075 1.4 oster * block-wait request and return. this also must mark the indicated RU 1076 1.4 oster * in the stripe as under reconstruction if not blocked. */ 1077 1.4 oster status = CheckForcedOrBlockedReconstruction(raidPtr, pssPtr, ctrl, row, col, psid, which_ru); 1078 1.4 oster if (status == RF_PSS_RECON_BLOCKED) { 1079 1.4 oster Dprintf2("RECON: Stalling psid %ld ru %d: recon blocked\n", psid, which_ru); 1080 1.4 oster goto out; 1081 1.4 oster } else 1082 1.4 oster if (status == RF_PSS_FORCED_ON_WRITE) { 1083 1.4 oster rf_CauseReconEvent(raidPtr, row, col, NULL, RF_REVENT_SKIP); 1084 1.4 oster goto out; 1085 1.4 oster } 1086 1.4 oster /* make one last check to be sure that the indicated RU didn't get 1087 1.4 oster * reconstructed while we were waiting for something else to happen. 1088 1.4 oster * This is unfortunate in that it causes us to make this check twice 1089 1.4 oster * in the normal case. Might want to make some attempt to re-work 1090 1.4 oster * this so that we only do this check if we've definitely blocked on 1091 1.4 oster * one of the above checks. When this condition is detected, we may 1092 1.4 oster * have just created a bogus status entry, which we need to delete. */ 1093 1.4 oster if (rf_CheckRUReconstructed(raidPtr->reconControl[row]->reconMap, ctrl->rbuf->failedDiskSectorOffset)) { 1094 1.4 oster Dprintf2("RECON: Skipping psid %ld ru %d: prior recon after stall\n", psid, which_ru); 1095 1.4 oster if (created) 1096 1.4 oster rf_PSStatusDelete(raidPtr, raidPtr->reconControl[row]->pssTable, pssPtr); 1097 1.4 oster rf_CauseReconEvent(raidPtr, row, col, NULL, RF_REVENT_SKIP); 1098 1.4 oster goto out; 1099 1.4 oster } 1100 1.4 oster /* found something to read. issue the I/O */ 1101 1.4 oster Dprintf5("RECON: Read for psid %ld on row %d col %d offset %ld buf %lx\n", 1102 1.4 oster psid, row, col, ctrl->diskOffset, ctrl->rbuf->buffer); 1103 1.4 oster RF_ETIMER_STOP(raidPtr->recon_tracerecs[col].recon_timer); 1104 1.4 oster RF_ETIMER_EVAL(raidPtr->recon_tracerecs[col].recon_timer); 1105 1.4 oster raidPtr->recon_tracerecs[col].specific.recon.recon_start_to_fetch_us = 1106 1.4 oster RF_ETIMER_VAL_US(raidPtr->recon_tracerecs[col].recon_timer); 1107 1.4 oster RF_ETIMER_START(raidPtr->recon_tracerecs[col].recon_timer); 1108 1.4 oster 1109 1.4 oster /* should be ok to use a NULL proc pointer here, all the bufs we use 1110 1.4 oster * should be in kernel space */ 1111 1.4 oster req = rf_CreateDiskQueueData(RF_IO_TYPE_READ, ctrl->diskOffset, sectorsPerRU, ctrl->rbuf->buffer, psid, which_ru, 1112 1.4 oster ReconReadDoneProc, (void *) ctrl, NULL, &raidPtr->recon_tracerecs[col], (void *) raidPtr, 0, NULL); 1113 1.4 oster 1114 1.4 oster RF_ASSERT(req); /* XXX -- fix this -- XXX */ 1115 1.4 oster 1116 1.4 oster ctrl->rbuf->arg = (void *) req; 1117 1.4 oster rf_DiskIOEnqueue(&raidPtr->Queues[row][col], req, RF_IO_RECON_PRIORITY); 1118 1.4 oster pssPtr->issued[col] = 1; 1119 1.1 oster 1120 1.1 oster out: 1121 1.4 oster RF_UNLOCK_PSS_MUTEX(raidPtr, row, psid); 1122 1.4 oster return (0); 1123 1.1 oster } 1124 1.1 oster 1125 1.1 oster 1126 1.13 oster /* 1127 1.13 oster * given a parity stripe ID, we want to find out whether both the 1128 1.13 oster * current disk and the failed disk exist in that parity stripe. If 1129 1.13 oster * not, we want to skip this whole PS. If so, we want to find the 1130 1.13 oster * disk offset of the start of the PS on both the current disk and the 1131 1.13 oster * failed disk. 1132 1.13 oster * 1133 1.13 oster * this works by getting a list of disks comprising the indicated 1134 1.13 oster * parity stripe, and searching the list for the current and failed 1135 1.13 oster * disks. Once we've decided they both exist in the parity stripe, we 1136 1.13 oster * need to decide whether each is data or parity, so that we'll know 1137 1.13 oster * which mapping function to call to get the corresponding disk 1138 1.1 oster * offsets. 1139 1.1 oster * 1140 1.13 oster * this is kind of unpleasant, but doing it this way allows the 1141 1.13 oster * reconstruction code to use parity stripe IDs rather than physical 1142 1.13 oster * disks address to march through the failed disk, which greatly 1143 1.13 oster * simplifies a lot of code, as well as eliminating the need for a 1144 1.13 oster * reverse-mapping function. I also think it will execute faster, 1145 1.13 oster * since the calls to the mapping module are kept to a minimum. 1146 1.1 oster * 1147 1.13 oster * ASSUMES THAT THE STRIPE IDENTIFIER IDENTIFIES THE DISKS COMPRISING 1148 1.13 oster * THE STRIPE IN THE CORRECT ORDER */ 1149 1.13 oster 1150 1.13 oster 1151 1.4 oster static int 1152 1.4 oster ComputePSDiskOffsets( 1153 1.4 oster RF_Raid_t * raidPtr, /* raid descriptor */ 1154 1.4 oster RF_StripeNum_t psid, /* parity stripe identifier */ 1155 1.4 oster RF_RowCol_t row, /* row and column of disk to find the offsets 1156 1.4 oster * for */ 1157 1.4 oster RF_RowCol_t col, 1158 1.4 oster RF_SectorNum_t * outDiskOffset, 1159 1.4 oster RF_SectorNum_t * outFailedDiskSectorOffset, 1160 1.4 oster RF_RowCol_t * spRow, /* OUT: row,col of spare unit for failed unit */ 1161 1.4 oster RF_RowCol_t * spCol, 1162 1.4 oster RF_SectorNum_t * spOffset) 1163 1.4 oster { /* OUT: offset into disk containing spare unit */ 1164 1.4 oster RF_RaidLayout_t *layoutPtr = &raidPtr->Layout; 1165 1.4 oster RF_RowCol_t fcol = raidPtr->reconControl[row]->fcol; 1166 1.4 oster RF_RaidAddr_t sosRaidAddress; /* start-of-stripe */ 1167 1.4 oster RF_RowCol_t *diskids; 1168 1.4 oster u_int i, j, k, i_offset, j_offset; 1169 1.4 oster RF_RowCol_t prow, pcol; 1170 1.4 oster int testcol, testrow; 1171 1.4 oster RF_RowCol_t stripe; 1172 1.4 oster RF_SectorNum_t poffset; 1173 1.4 oster char i_is_parity = 0, j_is_parity = 0; 1174 1.4 oster RF_RowCol_t stripeWidth = layoutPtr->numDataCol + layoutPtr->numParityCol; 1175 1.4 oster 1176 1.4 oster /* get a listing of the disks comprising that stripe */ 1177 1.4 oster sosRaidAddress = rf_ParityStripeIDToRaidAddress(layoutPtr, psid); 1178 1.4 oster (layoutPtr->map->IdentifyStripe) (raidPtr, sosRaidAddress, &diskids, &stripe); 1179 1.4 oster RF_ASSERT(diskids); 1180 1.4 oster 1181 1.4 oster /* reject this entire parity stripe if it does not contain the 1182 1.4 oster * indicated disk or it does not contain the failed disk */ 1183 1.4 oster if (row != stripe) 1184 1.4 oster goto skipit; 1185 1.4 oster for (i = 0; i < stripeWidth; i++) { 1186 1.4 oster if (col == diskids[i]) 1187 1.4 oster break; 1188 1.4 oster } 1189 1.4 oster if (i == stripeWidth) 1190 1.4 oster goto skipit; 1191 1.4 oster for (j = 0; j < stripeWidth; j++) { 1192 1.4 oster if (fcol == diskids[j]) 1193 1.4 oster break; 1194 1.4 oster } 1195 1.4 oster if (j == stripeWidth) { 1196 1.4 oster goto skipit; 1197 1.4 oster } 1198 1.4 oster /* find out which disk the parity is on */ 1199 1.4 oster (layoutPtr->map->MapParity) (raidPtr, sosRaidAddress, &prow, &pcol, &poffset, RF_DONT_REMAP); 1200 1.4 oster 1201 1.4 oster /* find out if either the current RU or the failed RU is parity */ 1202 1.4 oster /* also, if the parity occurs in this stripe prior to the data and/or 1203 1.4 oster * failed col, we need to decrement i and/or j */ 1204 1.4 oster for (k = 0; k < stripeWidth; k++) 1205 1.4 oster if (diskids[k] == pcol) 1206 1.4 oster break; 1207 1.4 oster RF_ASSERT(k < stripeWidth); 1208 1.4 oster i_offset = i; 1209 1.4 oster j_offset = j; 1210 1.4 oster if (k < i) 1211 1.4 oster i_offset--; 1212 1.4 oster else 1213 1.4 oster if (k == i) { 1214 1.4 oster i_is_parity = 1; 1215 1.4 oster i_offset = 0; 1216 1.4 oster } /* set offsets to zero to disable multiply 1217 1.4 oster * below */ 1218 1.4 oster if (k < j) 1219 1.4 oster j_offset--; 1220 1.4 oster else 1221 1.4 oster if (k == j) { 1222 1.4 oster j_is_parity = 1; 1223 1.4 oster j_offset = 0; 1224 1.4 oster } 1225 1.4 oster /* at this point, [ij]_is_parity tells us whether the [current,failed] 1226 1.4 oster * disk is parity at the start of this RU, and, if data, "[ij]_offset" 1227 1.4 oster * tells us how far into the stripe the [current,failed] disk is. */ 1228 1.4 oster 1229 1.4 oster /* call the mapping routine to get the offset into the current disk, 1230 1.4 oster * repeat for failed disk. */ 1231 1.4 oster if (i_is_parity) 1232 1.4 oster layoutPtr->map->MapParity(raidPtr, sosRaidAddress + i_offset * layoutPtr->sectorsPerStripeUnit, &testrow, &testcol, outDiskOffset, RF_DONT_REMAP); 1233 1.4 oster else 1234 1.4 oster layoutPtr->map->MapSector(raidPtr, sosRaidAddress + i_offset * layoutPtr->sectorsPerStripeUnit, &testrow, &testcol, outDiskOffset, RF_DONT_REMAP); 1235 1.4 oster 1236 1.4 oster RF_ASSERT(row == testrow && col == testcol); 1237 1.4 oster 1238 1.4 oster if (j_is_parity) 1239 1.4 oster layoutPtr->map->MapParity(raidPtr, sosRaidAddress + j_offset * layoutPtr->sectorsPerStripeUnit, &testrow, &testcol, outFailedDiskSectorOffset, RF_DONT_REMAP); 1240 1.4 oster else 1241 1.4 oster layoutPtr->map->MapSector(raidPtr, sosRaidAddress + j_offset * layoutPtr->sectorsPerStripeUnit, &testrow, &testcol, outFailedDiskSectorOffset, RF_DONT_REMAP); 1242 1.4 oster RF_ASSERT(row == testrow && fcol == testcol); 1243 1.4 oster 1244 1.4 oster /* now locate the spare unit for the failed unit */ 1245 1.4 oster if (layoutPtr->map->flags & RF_DISTRIBUTE_SPARE) { 1246 1.4 oster if (j_is_parity) 1247 1.4 oster layoutPtr->map->MapParity(raidPtr, sosRaidAddress + j_offset * layoutPtr->sectorsPerStripeUnit, spRow, spCol, spOffset, RF_REMAP); 1248 1.4 oster else 1249 1.4 oster layoutPtr->map->MapSector(raidPtr, sosRaidAddress + j_offset * layoutPtr->sectorsPerStripeUnit, spRow, spCol, spOffset, RF_REMAP); 1250 1.4 oster } else { 1251 1.4 oster *spRow = raidPtr->reconControl[row]->spareRow; 1252 1.4 oster *spCol = raidPtr->reconControl[row]->spareCol; 1253 1.4 oster *spOffset = *outFailedDiskSectorOffset; 1254 1.4 oster } 1255 1.4 oster 1256 1.4 oster return (0); 1257 1.1 oster 1258 1.1 oster skipit: 1259 1.4 oster Dprintf3("RECON: Skipping psid %ld: nothing needed from r%d c%d\n", 1260 1.4 oster psid, row, col); 1261 1.4 oster return (1); 1262 1.1 oster } 1263 1.4 oster /* this is called when a buffer has become ready to write to the replacement disk */ 1264 1.4 oster static int 1265 1.4 oster IssueNextWriteRequest(raidPtr, row) 1266 1.4 oster RF_Raid_t *raidPtr; 1267 1.4 oster RF_RowCol_t row; 1268 1.4 oster { 1269 1.4 oster RF_RaidLayout_t *layoutPtr = &raidPtr->Layout; 1270 1.4 oster RF_SectorCount_t sectorsPerRU = layoutPtr->sectorsPerStripeUnit * layoutPtr->SUsPerRU; 1271 1.4 oster RF_RowCol_t fcol = raidPtr->reconControl[row]->fcol; 1272 1.4 oster RF_ReconBuffer_t *rbuf; 1273 1.4 oster RF_DiskQueueData_t *req; 1274 1.4 oster 1275 1.4 oster rbuf = rf_GetFullReconBuffer(raidPtr->reconControl[row]); 1276 1.4 oster RF_ASSERT(rbuf); /* there must be one available, or we wouldn't 1277 1.4 oster * have gotten the event that sent us here */ 1278 1.4 oster RF_ASSERT(rbuf->pssPtr); 1279 1.4 oster 1280 1.4 oster rbuf->pssPtr->writeRbuf = rbuf; 1281 1.4 oster rbuf->pssPtr = NULL; 1282 1.4 oster 1283 1.4 oster Dprintf7("RECON: New write (r %d c %d offs %d) for psid %ld ru %d (failed disk offset %ld) buf %lx\n", 1284 1.4 oster rbuf->spRow, rbuf->spCol, rbuf->spOffset, rbuf->parityStripeID, 1285 1.4 oster rbuf->which_ru, rbuf->failedDiskSectorOffset, rbuf->buffer); 1286 1.4 oster Dprintf6("RECON: new write psid %ld %02x %02x %02x %02x %02x\n", 1287 1.4 oster rbuf->parityStripeID, rbuf->buffer[0] & 0xff, rbuf->buffer[1] & 0xff, 1288 1.4 oster rbuf->buffer[2] & 0xff, rbuf->buffer[3] & 0xff, rbuf->buffer[4] & 0xff); 1289 1.4 oster 1290 1.4 oster /* should be ok to use a NULL b_proc here b/c all addrs should be in 1291 1.4 oster * kernel space */ 1292 1.4 oster req = rf_CreateDiskQueueData(RF_IO_TYPE_WRITE, rbuf->spOffset, 1293 1.4 oster sectorsPerRU, rbuf->buffer, 1294 1.4 oster rbuf->parityStripeID, rbuf->which_ru, 1295 1.4 oster ReconWriteDoneProc, (void *) rbuf, NULL, 1296 1.4 oster &raidPtr->recon_tracerecs[fcol], 1297 1.4 oster (void *) raidPtr, 0, NULL); 1298 1.4 oster 1299 1.4 oster RF_ASSERT(req); /* XXX -- fix this -- XXX */ 1300 1.1 oster 1301 1.4 oster rbuf->arg = (void *) req; 1302 1.4 oster rf_DiskIOEnqueue(&raidPtr->Queues[rbuf->spRow][rbuf->spCol], req, RF_IO_RECON_PRIORITY); 1303 1.1 oster 1304 1.4 oster return (0); 1305 1.1 oster } 1306 1.13 oster 1307 1.13 oster /* 1308 1.13 oster * this gets called upon the completion of a reconstruction read 1309 1.13 oster * operation the arg is a pointer to the per-disk reconstruction 1310 1.13 oster * control structure for the process that just finished a read. 1311 1.1 oster * 1312 1.13 oster * called at interrupt context in the kernel, so don't do anything 1313 1.13 oster * illegal here. 1314 1.1 oster */ 1315 1.4 oster static int 1316 1.4 oster ReconReadDoneProc(arg, status) 1317 1.4 oster void *arg; 1318 1.4 oster int status; 1319 1.4 oster { 1320 1.4 oster RF_PerDiskReconCtrl_t *ctrl = (RF_PerDiskReconCtrl_t *) arg; 1321 1.4 oster RF_Raid_t *raidPtr = ctrl->reconCtrl->reconDesc->raidPtr; 1322 1.4 oster 1323 1.4 oster if (status) { 1324 1.4 oster /* 1325 1.4 oster * XXX 1326 1.4 oster */ 1327 1.4 oster printf("Recon read failed!\n"); 1328 1.4 oster RF_PANIC(); 1329 1.4 oster } 1330 1.4 oster RF_ETIMER_STOP(raidPtr->recon_tracerecs[ctrl->col].recon_timer); 1331 1.4 oster RF_ETIMER_EVAL(raidPtr->recon_tracerecs[ctrl->col].recon_timer); 1332 1.4 oster raidPtr->recon_tracerecs[ctrl->col].specific.recon.recon_fetch_to_return_us = 1333 1.4 oster RF_ETIMER_VAL_US(raidPtr->recon_tracerecs[ctrl->col].recon_timer); 1334 1.4 oster RF_ETIMER_START(raidPtr->recon_tracerecs[ctrl->col].recon_timer); 1335 1.4 oster 1336 1.4 oster rf_CauseReconEvent(raidPtr, ctrl->row, ctrl->col, NULL, RF_REVENT_READDONE); 1337 1.4 oster return (0); 1338 1.1 oster } 1339 1.1 oster /* this gets called upon the completion of a reconstruction write operation. 1340 1.1 oster * the arg is a pointer to the rbuf that was just written 1341 1.1 oster * 1342 1.1 oster * called at interrupt context in the kernel, so don't do anything illegal here. 1343 1.1 oster */ 1344 1.4 oster static int 1345 1.4 oster ReconWriteDoneProc(arg, status) 1346 1.4 oster void *arg; 1347 1.4 oster int status; 1348 1.4 oster { 1349 1.4 oster RF_ReconBuffer_t *rbuf = (RF_ReconBuffer_t *) arg; 1350 1.4 oster 1351 1.4 oster Dprintf2("Reconstruction completed on psid %ld ru %d\n", rbuf->parityStripeID, rbuf->which_ru); 1352 1.4 oster if (status) { 1353 1.4 oster printf("Recon write failed!\n"); /* fprintf(stderr,"Recon 1354 1.4 oster * write failed!\n"); */ 1355 1.4 oster RF_PANIC(); 1356 1.4 oster } 1357 1.4 oster rf_CauseReconEvent((RF_Raid_t *) rbuf->raidPtr, rbuf->row, rbuf->col, arg, RF_REVENT_WRITEDONE); 1358 1.4 oster return (0); 1359 1.1 oster } 1360 1.1 oster 1361 1.1 oster 1362 1.13 oster /* 1363 1.13 oster * computes a new minimum head sep, and wakes up anyone who needs to 1364 1.13 oster * be woken as a result 1365 1.13 oster */ 1366 1.4 oster static void 1367 1.4 oster CheckForNewMinHeadSep(raidPtr, row, hsCtr) 1368 1.4 oster RF_Raid_t *raidPtr; 1369 1.4 oster RF_RowCol_t row; 1370 1.4 oster RF_HeadSepLimit_t hsCtr; 1371 1.4 oster { 1372 1.4 oster RF_ReconCtrl_t *reconCtrlPtr = raidPtr->reconControl[row]; 1373 1.4 oster RF_HeadSepLimit_t new_min; 1374 1.4 oster RF_RowCol_t i; 1375 1.4 oster RF_CallbackDesc_t *p; 1376 1.4 oster RF_ASSERT(hsCtr >= reconCtrlPtr->minHeadSepCounter); /* from the definition 1377 1.4 oster * of a minimum */ 1378 1.4 oster 1379 1.4 oster 1380 1.4 oster RF_LOCK_MUTEX(reconCtrlPtr->rb_mutex); 1381 1.4 oster 1382 1.4 oster new_min = ~(1L << (8 * sizeof(long) - 1)); /* 0x7FFF....FFF */ 1383 1.4 oster for (i = 0; i < raidPtr->numCol; i++) 1384 1.4 oster if (i != reconCtrlPtr->fcol) { 1385 1.4 oster if (reconCtrlPtr->perDiskInfo[i].headSepCounter < new_min) 1386 1.4 oster new_min = reconCtrlPtr->perDiskInfo[i].headSepCounter; 1387 1.4 oster } 1388 1.4 oster /* set the new minimum and wake up anyone who can now run again */ 1389 1.4 oster if (new_min != reconCtrlPtr->minHeadSepCounter) { 1390 1.4 oster reconCtrlPtr->minHeadSepCounter = new_min; 1391 1.4 oster Dprintf1("RECON: new min head pos counter val is %ld\n", new_min); 1392 1.4 oster while (reconCtrlPtr->headSepCBList) { 1393 1.4 oster if (reconCtrlPtr->headSepCBList->callbackArg.v > new_min) 1394 1.4 oster break; 1395 1.4 oster p = reconCtrlPtr->headSepCBList; 1396 1.4 oster reconCtrlPtr->headSepCBList = p->next; 1397 1.4 oster p->next = NULL; 1398 1.4 oster rf_CauseReconEvent(raidPtr, p->row, p->col, NULL, RF_REVENT_HEADSEPCLEAR); 1399 1.4 oster rf_FreeCallbackDesc(p); 1400 1.4 oster } 1401 1.1 oster 1402 1.4 oster } 1403 1.4 oster RF_UNLOCK_MUTEX(reconCtrlPtr->rb_mutex); 1404 1.1 oster } 1405 1.13 oster 1406 1.13 oster /* 1407 1.13 oster * checks to see that the maximum head separation will not be violated 1408 1.13 oster * if we initiate a reconstruction I/O on the indicated disk. 1409 1.13 oster * Limiting the maximum head separation between two disks eliminates 1410 1.13 oster * the nasty buffer-stall conditions that occur when one disk races 1411 1.13 oster * ahead of the others and consumes all of the floating recon buffers. 1412 1.13 oster * This code is complex and unpleasant but it's necessary to avoid 1413 1.13 oster * some very nasty, albeit fairly rare, reconstruction behavior. 1414 1.1 oster * 1415 1.13 oster * returns non-zero if and only if we have to stop working on the 1416 1.13 oster * indicated disk due to a head-separation delay. 1417 1.1 oster */ 1418 1.4 oster static int 1419 1.4 oster CheckHeadSeparation( 1420 1.4 oster RF_Raid_t * raidPtr, 1421 1.4 oster RF_PerDiskReconCtrl_t * ctrl, 1422 1.4 oster RF_RowCol_t row, 1423 1.4 oster RF_RowCol_t col, 1424 1.4 oster RF_HeadSepLimit_t hsCtr, 1425 1.4 oster RF_ReconUnitNum_t which_ru) 1426 1.4 oster { 1427 1.4 oster RF_ReconCtrl_t *reconCtrlPtr = raidPtr->reconControl[row]; 1428 1.4 oster RF_CallbackDesc_t *cb, *p, *pt; 1429 1.10 oster int retval = 0; 1430 1.4 oster 1431 1.4 oster /* if we're too far ahead of the slowest disk, stop working on this 1432 1.4 oster * disk until the slower ones catch up. We do this by scheduling a 1433 1.4 oster * wakeup callback for the time when the slowest disk has caught up. 1434 1.4 oster * We define "caught up" with 20% hysteresis, i.e. the head separation 1435 1.4 oster * must have fallen to at most 80% of the max allowable head 1436 1.4 oster * separation before we'll wake up. 1437 1.4 oster * 1438 1.4 oster */ 1439 1.4 oster RF_LOCK_MUTEX(reconCtrlPtr->rb_mutex); 1440 1.4 oster if ((raidPtr->headSepLimit >= 0) && 1441 1.4 oster ((ctrl->headSepCounter - reconCtrlPtr->minHeadSepCounter) > raidPtr->headSepLimit)) { 1442 1.10 oster Dprintf6("raid%d: RECON: head sep stall: row %d col %d hsCtr %ld minHSCtr %ld limit %ld\n", 1443 1.10 oster raidPtr->raidid, row, col, ctrl->headSepCounter, 1444 1.10 oster reconCtrlPtr->minHeadSepCounter, 1445 1.10 oster raidPtr->headSepLimit); 1446 1.4 oster cb = rf_AllocCallbackDesc(); 1447 1.4 oster /* the minHeadSepCounter value we have to get to before we'll 1448 1.4 oster * wake up. build in 20% hysteresis. */ 1449 1.4 oster cb->callbackArg.v = (ctrl->headSepCounter - raidPtr->headSepLimit + raidPtr->headSepLimit / 5); 1450 1.4 oster cb->row = row; 1451 1.4 oster cb->col = col; 1452 1.4 oster cb->next = NULL; 1453 1.4 oster 1454 1.4 oster /* insert this callback descriptor into the sorted list of 1455 1.4 oster * pending head-sep callbacks */ 1456 1.4 oster p = reconCtrlPtr->headSepCBList; 1457 1.4 oster if (!p) 1458 1.4 oster reconCtrlPtr->headSepCBList = cb; 1459 1.4 oster else 1460 1.4 oster if (cb->callbackArg.v < p->callbackArg.v) { 1461 1.4 oster cb->next = reconCtrlPtr->headSepCBList; 1462 1.4 oster reconCtrlPtr->headSepCBList = cb; 1463 1.4 oster } else { 1464 1.4 oster for (pt = p, p = p->next; p && (p->callbackArg.v < cb->callbackArg.v); pt = p, p = p->next); 1465 1.4 oster cb->next = p; 1466 1.4 oster pt->next = cb; 1467 1.4 oster } 1468 1.4 oster retval = 1; 1469 1.1 oster #if RF_RECON_STATS > 0 1470 1.4 oster ctrl->reconCtrl->reconDesc->hsStallCount++; 1471 1.4 oster #endif /* RF_RECON_STATS > 0 */ 1472 1.4 oster } 1473 1.4 oster RF_UNLOCK_MUTEX(reconCtrlPtr->rb_mutex); 1474 1.1 oster 1475 1.4 oster return (retval); 1476 1.1 oster } 1477 1.13 oster /* 1478 1.13 oster * checks to see if reconstruction has been either forced or blocked 1479 1.13 oster * by a user operation. if forced, we skip this RU entirely. else if 1480 1.13 oster * blocked, put ourselves on the wait list. else return 0. 1481 1.1 oster * 1482 1.13 oster * ASSUMES THE PSS MUTEX IS LOCKED UPON ENTRY 1483 1.1 oster */ 1484 1.4 oster static int 1485 1.4 oster CheckForcedOrBlockedReconstruction( 1486 1.4 oster RF_Raid_t * raidPtr, 1487 1.4 oster RF_ReconParityStripeStatus_t * pssPtr, 1488 1.4 oster RF_PerDiskReconCtrl_t * ctrl, 1489 1.4 oster RF_RowCol_t row, 1490 1.4 oster RF_RowCol_t col, 1491 1.4 oster RF_StripeNum_t psid, 1492 1.4 oster RF_ReconUnitNum_t which_ru) 1493 1.4 oster { 1494 1.4 oster RF_CallbackDesc_t *cb; 1495 1.4 oster int retcode = 0; 1496 1.4 oster 1497 1.4 oster if ((pssPtr->flags & RF_PSS_FORCED_ON_READ) || (pssPtr->flags & RF_PSS_FORCED_ON_WRITE)) 1498 1.4 oster retcode = RF_PSS_FORCED_ON_WRITE; 1499 1.4 oster else 1500 1.4 oster if (pssPtr->flags & RF_PSS_RECON_BLOCKED) { 1501 1.4 oster Dprintf4("RECON: row %d col %d blocked at psid %ld ru %d\n", row, col, psid, which_ru); 1502 1.4 oster cb = rf_AllocCallbackDesc(); /* append ourselves to 1503 1.4 oster * the blockage-wait 1504 1.4 oster * list */ 1505 1.4 oster cb->row = row; 1506 1.4 oster cb->col = col; 1507 1.4 oster cb->next = pssPtr->blockWaitList; 1508 1.4 oster pssPtr->blockWaitList = cb; 1509 1.4 oster retcode = RF_PSS_RECON_BLOCKED; 1510 1.4 oster } 1511 1.4 oster if (!retcode) 1512 1.4 oster pssPtr->flags |= RF_PSS_UNDER_RECON; /* mark this RU as under 1513 1.4 oster * reconstruction */ 1514 1.4 oster 1515 1.4 oster return (retcode); 1516 1.1 oster } 1517 1.13 oster /* 1518 1.13 oster * if reconstruction is currently ongoing for the indicated stripeID, 1519 1.13 oster * reconstruction is forced to completion and we return non-zero to 1520 1.13 oster * indicate that the caller must wait. If not, then reconstruction is 1521 1.13 oster * blocked on the indicated stripe and the routine returns zero. If 1522 1.13 oster * and only if we return non-zero, we'll cause the cbFunc to get 1523 1.13 oster * invoked with the cbArg when the reconstruction has completed. 1524 1.1 oster */ 1525 1.4 oster int 1526 1.4 oster rf_ForceOrBlockRecon(raidPtr, asmap, cbFunc, cbArg) 1527 1.4 oster RF_Raid_t *raidPtr; 1528 1.4 oster RF_AccessStripeMap_t *asmap; 1529 1.4 oster void (*cbFunc) (RF_Raid_t *, void *); 1530 1.4 oster void *cbArg; 1531 1.4 oster { 1532 1.4 oster RF_RowCol_t row = asmap->physInfo->row; /* which row of the array 1533 1.4 oster * we're working on */ 1534 1.4 oster RF_StripeNum_t stripeID = asmap->stripeID; /* the stripe ID we're 1535 1.4 oster * forcing recon on */ 1536 1.4 oster RF_SectorCount_t sectorsPerRU = raidPtr->Layout.sectorsPerStripeUnit * raidPtr->Layout.SUsPerRU; /* num sects in one RU */ 1537 1.4 oster RF_ReconParityStripeStatus_t *pssPtr; /* a pointer to the parity 1538 1.4 oster * stripe status structure */ 1539 1.4 oster RF_StripeNum_t psid; /* parity stripe id */ 1540 1.4 oster RF_SectorNum_t offset, fd_offset; /* disk offset, failed-disk 1541 1.4 oster * offset */ 1542 1.4 oster RF_RowCol_t *diskids; 1543 1.4 oster RF_RowCol_t stripe; 1544 1.4 oster RF_ReconUnitNum_t which_ru; /* RU within parity stripe */ 1545 1.4 oster RF_RowCol_t fcol, diskno, i; 1546 1.4 oster RF_ReconBuffer_t *new_rbuf; /* ptr to newly allocated rbufs */ 1547 1.4 oster RF_DiskQueueData_t *req;/* disk I/O req to be enqueued */ 1548 1.4 oster RF_CallbackDesc_t *cb; 1549 1.4 oster int created = 0, nPromoted; 1550 1.4 oster 1551 1.4 oster psid = rf_MapStripeIDToParityStripeID(&raidPtr->Layout, stripeID, &which_ru); 1552 1.4 oster 1553 1.4 oster RF_LOCK_PSS_MUTEX(raidPtr, row, psid); 1554 1.4 oster 1555 1.4 oster pssPtr = rf_LookupRUStatus(raidPtr, raidPtr->reconControl[row]->pssTable, psid, which_ru, RF_PSS_CREATE | RF_PSS_RECON_BLOCKED, &created); 1556 1.4 oster 1557 1.4 oster /* if recon is not ongoing on this PS, just return */ 1558 1.4 oster if (!(pssPtr->flags & RF_PSS_UNDER_RECON)) { 1559 1.4 oster RF_UNLOCK_PSS_MUTEX(raidPtr, row, psid); 1560 1.4 oster return (0); 1561 1.4 oster } 1562 1.4 oster /* otherwise, we have to wait for reconstruction to complete on this 1563 1.4 oster * RU. */ 1564 1.4 oster /* In order to avoid waiting for a potentially large number of 1565 1.4 oster * low-priority accesses to complete, we force a normal-priority (i.e. 1566 1.4 oster * not low-priority) reconstruction on this RU. */ 1567 1.4 oster if (!(pssPtr->flags & RF_PSS_FORCED_ON_WRITE) && !(pssPtr->flags & RF_PSS_FORCED_ON_READ)) { 1568 1.4 oster DDprintf1("Forcing recon on psid %ld\n", psid); 1569 1.4 oster pssPtr->flags |= RF_PSS_FORCED_ON_WRITE; /* mark this RU as under 1570 1.4 oster * forced recon */ 1571 1.4 oster pssPtr->flags &= ~RF_PSS_RECON_BLOCKED; /* clear the blockage 1572 1.4 oster * that we just set */ 1573 1.4 oster fcol = raidPtr->reconControl[row]->fcol; 1574 1.4 oster 1575 1.4 oster /* get a listing of the disks comprising the indicated stripe */ 1576 1.4 oster (raidPtr->Layout.map->IdentifyStripe) (raidPtr, asmap->raidAddress, &diskids, &stripe); 1577 1.4 oster RF_ASSERT(row == stripe); 1578 1.4 oster 1579 1.4 oster /* For previously issued reads, elevate them to normal 1580 1.4 oster * priority. If the I/O has already completed, it won't be 1581 1.4 oster * found in the queue, and hence this will be a no-op. For 1582 1.4 oster * unissued reads, allocate buffers and issue new reads. The 1583 1.4 oster * fact that we've set the FORCED bit means that the regular 1584 1.4 oster * recon procs will not re-issue these reqs */ 1585 1.4 oster for (i = 0; i < raidPtr->Layout.numDataCol + raidPtr->Layout.numParityCol; i++) 1586 1.4 oster if ((diskno = diskids[i]) != fcol) { 1587 1.4 oster if (pssPtr->issued[diskno]) { 1588 1.4 oster nPromoted = rf_DiskIOPromote(&raidPtr->Queues[row][diskno], psid, which_ru); 1589 1.4 oster if (rf_reconDebug && nPromoted) 1590 1.10 oster printf("raid%d: promoted read from row %d col %d\n", raidPtr->raidid, row, diskno); 1591 1.4 oster } else { 1592 1.4 oster new_rbuf = rf_MakeReconBuffer(raidPtr, row, diskno, RF_RBUF_TYPE_FORCED); /* create new buf */ 1593 1.4 oster ComputePSDiskOffsets(raidPtr, psid, row, diskno, &offset, &fd_offset, 1594 1.4 oster &new_rbuf->spRow, &new_rbuf->spCol, &new_rbuf->spOffset); /* find offsets & spare 1595 1.4 oster * location */ 1596 1.4 oster new_rbuf->parityStripeID = psid; /* fill in the buffer */ 1597 1.4 oster new_rbuf->which_ru = which_ru; 1598 1.4 oster new_rbuf->failedDiskSectorOffset = fd_offset; 1599 1.4 oster new_rbuf->priority = RF_IO_NORMAL_PRIORITY; 1600 1.4 oster 1601 1.4 oster /* use NULL b_proc b/c all addrs 1602 1.4 oster * should be in kernel space */ 1603 1.4 oster req = rf_CreateDiskQueueData(RF_IO_TYPE_READ, offset + which_ru * sectorsPerRU, sectorsPerRU, new_rbuf->buffer, 1604 1.4 oster psid, which_ru, (int (*) (void *, int)) ForceReconReadDoneProc, (void *) new_rbuf, NULL, 1605 1.4 oster NULL, (void *) raidPtr, 0, NULL); 1606 1.4 oster 1607 1.4 oster RF_ASSERT(req); /* XXX -- fix this -- 1608 1.4 oster * XXX */ 1609 1.4 oster 1610 1.4 oster new_rbuf->arg = req; 1611 1.4 oster rf_DiskIOEnqueue(&raidPtr->Queues[row][diskno], req, RF_IO_NORMAL_PRIORITY); /* enqueue the I/O */ 1612 1.10 oster Dprintf3("raid%d: Issued new read req on row %d col %d\n", raidPtr->raidid, row, diskno); 1613 1.4 oster } 1614 1.4 oster } 1615 1.4 oster /* if the write is sitting in the disk queue, elevate its 1616 1.4 oster * priority */ 1617 1.4 oster if (rf_DiskIOPromote(&raidPtr->Queues[row][fcol], psid, which_ru)) 1618 1.10 oster printf("raid%d: promoted write to row %d col %d\n", 1619 1.10 oster raidPtr->raidid, row, fcol); 1620 1.4 oster } 1621 1.4 oster /* install a callback descriptor to be invoked when recon completes on 1622 1.4 oster * this parity stripe. */ 1623 1.4 oster cb = rf_AllocCallbackDesc(); 1624 1.4 oster /* XXX the following is bogus.. These functions don't really match!! 1625 1.4 oster * GO */ 1626 1.4 oster cb->callbackFunc = (void (*) (RF_CBParam_t)) cbFunc; 1627 1.4 oster cb->callbackArg.p = (void *) cbArg; 1628 1.4 oster cb->next = pssPtr->procWaitList; 1629 1.4 oster pssPtr->procWaitList = cb; 1630 1.10 oster DDprintf2("raid%d: Waiting for forced recon on psid %ld\n", 1631 1.10 oster raidPtr->raidid, psid); 1632 1.4 oster 1633 1.4 oster RF_UNLOCK_PSS_MUTEX(raidPtr, row, psid); 1634 1.4 oster return (1); 1635 1.1 oster } 1636 1.1 oster /* called upon the completion of a forced reconstruction read. 1637 1.1 oster * all we do is schedule the FORCEDREADONE event. 1638 1.1 oster * called at interrupt context in the kernel, so don't do anything illegal here. 1639 1.1 oster */ 1640 1.4 oster static void 1641 1.4 oster ForceReconReadDoneProc(arg, status) 1642 1.4 oster void *arg; 1643 1.4 oster int status; 1644 1.4 oster { 1645 1.4 oster RF_ReconBuffer_t *rbuf = arg; 1646 1.4 oster 1647 1.4 oster if (status) { 1648 1.4 oster printf("Forced recon read failed!\n"); /* fprintf(stderr,"Forced 1649 1.4 oster * recon read 1650 1.4 oster * failed!\n"); */ 1651 1.4 oster RF_PANIC(); 1652 1.4 oster } 1653 1.4 oster rf_CauseReconEvent((RF_Raid_t *) rbuf->raidPtr, rbuf->row, rbuf->col, (void *) rbuf, RF_REVENT_FORCEDREADDONE); 1654 1.1 oster } 1655 1.1 oster /* releases a block on the reconstruction of the indicated stripe */ 1656 1.4 oster int 1657 1.4 oster rf_UnblockRecon(raidPtr, asmap) 1658 1.4 oster RF_Raid_t *raidPtr; 1659 1.4 oster RF_AccessStripeMap_t *asmap; 1660 1.4 oster { 1661 1.4 oster RF_RowCol_t row = asmap->origRow; 1662 1.4 oster RF_StripeNum_t stripeID = asmap->stripeID; 1663 1.4 oster RF_ReconParityStripeStatus_t *pssPtr; 1664 1.4 oster RF_ReconUnitNum_t which_ru; 1665 1.4 oster RF_StripeNum_t psid; 1666 1.10 oster int created = 0; 1667 1.4 oster RF_CallbackDesc_t *cb; 1668 1.4 oster 1669 1.4 oster psid = rf_MapStripeIDToParityStripeID(&raidPtr->Layout, stripeID, &which_ru); 1670 1.4 oster RF_LOCK_PSS_MUTEX(raidPtr, row, psid); 1671 1.4 oster pssPtr = rf_LookupRUStatus(raidPtr, raidPtr->reconControl[row]->pssTable, psid, which_ru, RF_PSS_NONE, &created); 1672 1.4 oster 1673 1.4 oster /* When recon is forced, the pss desc can get deleted before we get 1674 1.4 oster * back to unblock recon. But, this can _only_ happen when recon is 1675 1.4 oster * forced. It would be good to put some kind of sanity check here, but 1676 1.4 oster * how to decide if recon was just forced or not? */ 1677 1.4 oster if (!pssPtr) { 1678 1.4 oster /* printf("Warning: no pss descriptor upon unblock on psid %ld 1679 1.4 oster * RU %d\n",psid,which_ru); */ 1680 1.4 oster if (rf_reconDebug || rf_pssDebug) 1681 1.4 oster printf("Warning: no pss descriptor upon unblock on psid %ld RU %d\n", (long) psid, which_ru); 1682 1.4 oster goto out; 1683 1.4 oster } 1684 1.4 oster pssPtr->blockCount--; 1685 1.10 oster Dprintf3("raid%d: unblocking recon on psid %ld: blockcount is %d\n", 1686 1.10 oster raidPtr->raidid, psid, pssPtr->blockCount); 1687 1.4 oster if (pssPtr->blockCount == 0) { /* if recon blockage has been released */ 1688 1.4 oster 1689 1.4 oster /* unblock recon before calling CauseReconEvent in case 1690 1.4 oster * CauseReconEvent causes us to try to issue a new read before 1691 1.4 oster * returning here. */ 1692 1.4 oster pssPtr->flags &= ~RF_PSS_RECON_BLOCKED; 1693 1.4 oster 1694 1.4 oster 1695 1.13 oster while (pssPtr->blockWaitList) { 1696 1.13 oster /* spin through the block-wait list and 1697 1.13 oster release all the waiters */ 1698 1.4 oster cb = pssPtr->blockWaitList; 1699 1.4 oster pssPtr->blockWaitList = cb->next; 1700 1.4 oster cb->next = NULL; 1701 1.4 oster rf_CauseReconEvent(raidPtr, cb->row, cb->col, NULL, RF_REVENT_BLOCKCLEAR); 1702 1.4 oster rf_FreeCallbackDesc(cb); 1703 1.4 oster } 1704 1.13 oster if (!(pssPtr->flags & RF_PSS_UNDER_RECON)) { 1705 1.13 oster /* if no recon was requested while recon was blocked */ 1706 1.4 oster rf_PSStatusDelete(raidPtr, raidPtr->reconControl[row]->pssTable, pssPtr); 1707 1.4 oster } 1708 1.4 oster } 1709 1.1 oster out: 1710 1.4 oster RF_UNLOCK_PSS_MUTEX(raidPtr, row, psid); 1711 1.4 oster return (0); 1712 1.1 oster } 1713
Indexes created Tue Sep 23 14:10:03 GMT 2025