rf_dagffrd.c revision 1.8.6.3
1 1.8.6.3 skrll /* $NetBSD: rf_dagffrd.c,v 1.8.6.3 2004/09/21 13:32:51 skrll 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, Daniel Stodolsky, William V. Courtright II 7 1.1 oster * 8 1.1 oster * Permission to use, copy, modify and distribute this software and 9 1.1 oster * its documentation is hereby granted, provided that both the copyright 10 1.1 oster * notice and this permission notice appear in all copies of the 11 1.1 oster * software, derivative works or modified versions, and any portions 12 1.1 oster * thereof, and that both notices appear in supporting documentation. 13 1.1 oster * 14 1.1 oster * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 15 1.1 oster * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND 16 1.1 oster * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 17 1.1 oster * 18 1.1 oster * Carnegie Mellon requests users of this software to return to 19 1.1 oster * 20 1.1 oster * Software Distribution Coordinator or Software.Distribution (at) CS.CMU.EDU 21 1.1 oster * School of Computer Science 22 1.1 oster * Carnegie Mellon University 23 1.1 oster * Pittsburgh PA 15213-3890 24 1.1 oster * 25 1.1 oster * any improvements or extensions that they make and grant Carnegie the 26 1.1 oster * rights to redistribute these changes. 27 1.1 oster */ 28 1.1 oster 29 1.1 oster /* 30 1.1 oster * rf_dagffrd.c 31 1.1 oster * 32 1.1 oster * code for creating fault-free read DAGs 33 1.1 oster * 34 1.1 oster */ 35 1.6 lukem 36 1.6 lukem #include <sys/cdefs.h> 37 1.8.6.3 skrll __KERNEL_RCSID(0, "$NetBSD: rf_dagffrd.c,v 1.8.6.3 2004/09/21 13:32:51 skrll Exp $"); 38 1.1 oster 39 1.5 oster #include <dev/raidframe/raidframevar.h> 40 1.5 oster 41 1.1 oster #include "rf_raid.h" 42 1.1 oster #include "rf_dag.h" 43 1.1 oster #include "rf_dagutils.h" 44 1.1 oster #include "rf_dagfuncs.h" 45 1.1 oster #include "rf_debugMem.h" 46 1.1 oster #include "rf_general.h" 47 1.1 oster #include "rf_dagffrd.h" 48 1.1 oster 49 1.1 oster /****************************************************************************** 50 1.1 oster * 51 1.1 oster * General comments on DAG creation: 52 1.3 oster * 53 1.1 oster * All DAGs in this file use roll-away error recovery. Each DAG has a single 54 1.1 oster * commit node, usually called "Cmt." If an error occurs before the Cmt node 55 1.1 oster * is reached, the execution engine will halt forward execution and work 56 1.1 oster * backward through the graph, executing the undo functions. Assuming that 57 1.1 oster * each node in the graph prior to the Cmt node are undoable and atomic - or - 58 1.1 oster * does not make changes to permanent state, the graph will fail atomically. 59 1.1 oster * If an error occurs after the Cmt node executes, the engine will roll-forward 60 1.1 oster * through the graph, blindly executing nodes until it reaches the end. 61 1.1 oster * If a graph reaches the end, it is assumed to have completed successfully. 62 1.1 oster * 63 1.1 oster * A graph has only 1 Cmt node. 64 1.1 oster * 65 1.1 oster */ 66 1.1 oster 67 1.1 oster 68 1.1 oster /****************************************************************************** 69 1.1 oster * 70 1.1 oster * The following wrappers map the standard DAG creation interface to the 71 1.1 oster * DAG creation routines. Additionally, these wrappers enable experimentation 72 1.1 oster * with new DAG structures by providing an extra level of indirection, allowing 73 1.1 oster * the DAG creation routines to be replaced at this single point. 74 1.1 oster */ 75 1.1 oster 76 1.3 oster void 77 1.8.6.1 skrll rf_CreateFaultFreeReadDAG(RF_Raid_t *raidPtr, RF_AccessStripeMap_t *asmap, 78 1.8.6.1 skrll RF_DagHeader_t *dag_h, void *bp, 79 1.8.6.1 skrll RF_RaidAccessFlags_t flags, 80 1.8.6.1 skrll RF_AllocListElem_t *allocList) 81 1.1 oster { 82 1.3 oster rf_CreateNonredundantDAG(raidPtr, asmap, dag_h, bp, flags, allocList, 83 1.3 oster RF_IO_TYPE_READ); 84 1.1 oster } 85 1.1 oster 86 1.1 oster 87 1.1 oster /****************************************************************************** 88 1.1 oster * 89 1.1 oster * DAG creation code begins here 90 1.1 oster */ 91 1.1 oster 92 1.1 oster /****************************************************************************** 93 1.1 oster * 94 1.1 oster * creates a DAG to perform a nonredundant read or write of data within one 95 1.1 oster * stripe. 96 1.1 oster * For reads, this DAG is as follows: 97 1.1 oster * 98 1.3 oster * /---- read ----\ 99 1.1 oster * Header -- Block ---- read ---- Commit -- Terminate 100 1.1 oster * \---- read ----/ 101 1.1 oster * 102 1.1 oster * For writes, this DAG is as follows: 103 1.1 oster * 104 1.3 oster * /---- write ----\ 105 1.1 oster * Header -- Commit ---- write ---- Block -- Terminate 106 1.1 oster * \---- write ----/ 107 1.1 oster * 108 1.1 oster * There is one disk node per stripe unit accessed, and all disk nodes are in 109 1.1 oster * parallel. 110 1.1 oster * 111 1.1 oster * Tricky point here: The first disk node (read or write) is created 112 1.1 oster * normally. Subsequent disk nodes are created by copying the first one, 113 1.1 oster * and modifying a few params. The "succedents" and "antecedents" fields are 114 1.1 oster * _not_ re-created in each node, but rather left pointing to the same array 115 1.1 oster * that was malloc'd when the first node was created. Thus, it's essential 116 1.1 oster * that when this DAG is freed, the succedents and antecedents fields be freed 117 1.1 oster * in ONLY ONE of the read nodes. This does not apply to the "params" field 118 1.1 oster * because it is recreated for each READ node. 119 1.1 oster * 120 1.1 oster * Note that normal-priority accesses do not need to be tagged with their 121 1.1 oster * parity stripe ID, because they will never be promoted. Hence, I've 122 1.1 oster * commented-out the code to do this, and marked it with UNNEEDED. 123 1.1 oster * 124 1.1 oster *****************************************************************************/ 125 1.1 oster 126 1.3 oster void 127 1.8.6.1 skrll rf_CreateNonredundantDAG(RF_Raid_t *raidPtr, RF_AccessStripeMap_t *asmap, 128 1.8.6.1 skrll RF_DagHeader_t *dag_h, void *bp, 129 1.8.6.1 skrll RF_RaidAccessFlags_t flags, 130 1.8.6.1 skrll RF_AllocListElem_t *allocList, 131 1.8.6.1 skrll RF_IoType_t type) 132 1.1 oster { 133 1.8.6.1 skrll RF_DagNode_t *diskNodes, *blockNode, *commitNode, *termNode; 134 1.8.6.1 skrll RF_DagNode_t *tmpNode, *tmpdiskNode; 135 1.3 oster RF_PhysDiskAddr_t *pda = asmap->physInfo; 136 1.3 oster int (*doFunc) (RF_DagNode_t *), (*undoFunc) (RF_DagNode_t *); 137 1.3 oster int i, n, totalNumNodes; 138 1.3 oster char *name; 139 1.3 oster 140 1.3 oster n = asmap->numStripeUnitsAccessed; 141 1.3 oster dag_h->creator = "NonredundantDAG"; 142 1.3 oster 143 1.3 oster RF_ASSERT(RF_IO_IS_R_OR_W(type)); 144 1.3 oster switch (type) { 145 1.3 oster case RF_IO_TYPE_READ: 146 1.3 oster doFunc = rf_DiskReadFunc; 147 1.3 oster undoFunc = rf_DiskReadUndoFunc; 148 1.3 oster name = "R "; 149 1.8.6.1 skrll #if RF_DEBUG_DAG 150 1.3 oster if (rf_dagDebug) 151 1.3 oster printf("[Creating non-redundant read DAG]\n"); 152 1.8.6.1 skrll #endif 153 1.3 oster break; 154 1.3 oster case RF_IO_TYPE_WRITE: 155 1.3 oster doFunc = rf_DiskWriteFunc; 156 1.3 oster undoFunc = rf_DiskWriteUndoFunc; 157 1.3 oster name = "W "; 158 1.8.6.1 skrll #if RF_DEBUG_DAG 159 1.3 oster if (rf_dagDebug) 160 1.3 oster printf("[Creating non-redundant write DAG]\n"); 161 1.8.6.1 skrll #endif 162 1.3 oster break; 163 1.3 oster default: 164 1.3 oster RF_PANIC(); 165 1.3 oster } 166 1.3 oster 167 1.3 oster /* 168 1.3 oster * For reads, the dag can not commit until the block node is reached. 169 1.3 oster * for writes, the dag commits immediately. 170 1.3 oster */ 171 1.3 oster dag_h->numCommitNodes = 1; 172 1.3 oster dag_h->numCommits = 0; 173 1.3 oster dag_h->numSuccedents = 1; 174 1.3 oster 175 1.3 oster /* 176 1.3 oster * Node count: 177 1.3 oster * 1 block node 178 1.3 oster * n data reads (or writes) 179 1.3 oster * 1 commit node 180 1.3 oster * 1 terminator node 181 1.3 oster */ 182 1.3 oster RF_ASSERT(n > 0); 183 1.3 oster totalNumNodes = n + 3; 184 1.8.6.1 skrll 185 1.8.6.1 skrll for (i = 0; i < n; i++) { 186 1.8.6.1 skrll tmpNode = rf_AllocDAGNode(); 187 1.8.6.1 skrll tmpNode->list_next = dag_h->nodes; 188 1.8.6.1 skrll dag_h->nodes = tmpNode; 189 1.8.6.1 skrll } 190 1.8.6.1 skrll diskNodes = dag_h->nodes; 191 1.8.6.1 skrll 192 1.8.6.1 skrll blockNode = rf_AllocDAGNode(); 193 1.8.6.1 skrll blockNode->list_next = dag_h->nodes; 194 1.8.6.1 skrll dag_h->nodes = blockNode; 195 1.8.6.1 skrll 196 1.8.6.1 skrll commitNode = rf_AllocDAGNode(); 197 1.8.6.1 skrll commitNode->list_next = dag_h->nodes; 198 1.8.6.1 skrll dag_h->nodes = commitNode; 199 1.8.6.1 skrll 200 1.8.6.1 skrll termNode = rf_AllocDAGNode(); 201 1.8.6.1 skrll termNode->list_next = dag_h->nodes; 202 1.8.6.1 skrll dag_h->nodes = termNode; 203 1.3 oster 204 1.3 oster /* initialize nodes */ 205 1.3 oster switch (type) { 206 1.3 oster case RF_IO_TYPE_READ: 207 1.3 oster rf_InitNode(blockNode, rf_wait, RF_FALSE, rf_NullNodeFunc, rf_NullNodeUndoFunc, 208 1.3 oster NULL, n, 0, 0, 0, dag_h, "Nil", allocList); 209 1.3 oster rf_InitNode(commitNode, rf_wait, RF_TRUE, rf_NullNodeFunc, rf_NullNodeUndoFunc, 210 1.3 oster NULL, 1, n, 0, 0, dag_h, "Cmt", allocList); 211 1.3 oster rf_InitNode(termNode, rf_wait, RF_FALSE, rf_TerminateFunc, rf_TerminateUndoFunc, 212 1.3 oster NULL, 0, 1, 0, 0, dag_h, "Trm", allocList); 213 1.3 oster break; 214 1.3 oster case RF_IO_TYPE_WRITE: 215 1.3 oster rf_InitNode(blockNode, rf_wait, RF_FALSE, rf_NullNodeFunc, rf_NullNodeUndoFunc, 216 1.3 oster NULL, 1, 0, 0, 0, dag_h, "Nil", allocList); 217 1.3 oster rf_InitNode(commitNode, rf_wait, RF_TRUE, rf_NullNodeFunc, rf_NullNodeUndoFunc, 218 1.3 oster NULL, n, 1, 0, 0, dag_h, "Cmt", allocList); 219 1.3 oster rf_InitNode(termNode, rf_wait, RF_FALSE, rf_TerminateFunc, rf_TerminateUndoFunc, 220 1.3 oster NULL, 0, n, 0, 0, dag_h, "Trm", allocList); 221 1.3 oster break; 222 1.3 oster default: 223 1.3 oster RF_PANIC(); 224 1.3 oster } 225 1.3 oster 226 1.8.6.1 skrll tmpdiskNode = diskNodes; 227 1.3 oster for (i = 0; i < n; i++) { 228 1.3 oster RF_ASSERT(pda != NULL); 229 1.8.6.1 skrll rf_InitNode(tmpdiskNode, rf_wait, RF_FALSE, doFunc, undoFunc, rf_GenericWakeupFunc, 230 1.3 oster 1, 1, 4, 0, dag_h, name, allocList); 231 1.8.6.1 skrll tmpdiskNode->params[0].p = pda; 232 1.8.6.1 skrll tmpdiskNode->params[1].p = pda->bufPtr; 233 1.3 oster /* parity stripe id is not necessary */ 234 1.8.6.1 skrll tmpdiskNode->params[2].v = 0; 235 1.8.6.1 skrll tmpdiskNode->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, 0); 236 1.3 oster pda = pda->next; 237 1.8.6.1 skrll tmpdiskNode = tmpdiskNode->list_next; 238 1.3 oster } 239 1.3 oster 240 1.3 oster /* 241 1.3 oster * Connect nodes. 242 1.3 oster */ 243 1.3 oster 244 1.3 oster /* connect hdr to block node */ 245 1.3 oster RF_ASSERT(blockNode->numAntecedents == 0); 246 1.3 oster dag_h->succedents[0] = blockNode; 247 1.3 oster 248 1.3 oster if (type == RF_IO_TYPE_READ) { 249 1.3 oster /* connecting a nonredundant read DAG */ 250 1.3 oster RF_ASSERT(blockNode->numSuccedents == n); 251 1.3 oster RF_ASSERT(commitNode->numAntecedents == n); 252 1.8.6.1 skrll tmpdiskNode = diskNodes; 253 1.3 oster for (i = 0; i < n; i++) { 254 1.3 oster /* connect block node to each read node */ 255 1.8.6.1 skrll RF_ASSERT(tmpdiskNode->numAntecedents == 1); 256 1.8.6.1 skrll blockNode->succedents[i] = tmpdiskNode; 257 1.8.6.1 skrll tmpdiskNode->antecedents[0] = blockNode; 258 1.8.6.1 skrll tmpdiskNode->antType[0] = rf_control; 259 1.3 oster 260 1.3 oster /* connect each read node to the commit node */ 261 1.8.6.1 skrll RF_ASSERT(tmpdiskNode->numSuccedents == 1); 262 1.8.6.1 skrll tmpdiskNode->succedents[0] = commitNode; 263 1.8.6.1 skrll commitNode->antecedents[i] = tmpdiskNode; 264 1.3 oster commitNode->antType[i] = rf_control; 265 1.8.6.1 skrll tmpdiskNode = tmpdiskNode->list_next; 266 1.3 oster } 267 1.3 oster /* connect the commit node to the term node */ 268 1.3 oster RF_ASSERT(commitNode->numSuccedents == 1); 269 1.3 oster RF_ASSERT(termNode->numAntecedents == 1); 270 1.3 oster RF_ASSERT(termNode->numSuccedents == 0); 271 1.3 oster commitNode->succedents[0] = termNode; 272 1.3 oster termNode->antecedents[0] = commitNode; 273 1.3 oster termNode->antType[0] = rf_control; 274 1.3 oster } else { 275 1.3 oster /* connecting a nonredundant write DAG */ 276 1.3 oster /* connect the block node to the commit node */ 277 1.3 oster RF_ASSERT(blockNode->numSuccedents == 1); 278 1.3 oster RF_ASSERT(commitNode->numAntecedents == 1); 279 1.3 oster blockNode->succedents[0] = commitNode; 280 1.3 oster commitNode->antecedents[0] = blockNode; 281 1.3 oster commitNode->antType[0] = rf_control; 282 1.3 oster 283 1.3 oster RF_ASSERT(commitNode->numSuccedents == n); 284 1.3 oster RF_ASSERT(termNode->numAntecedents == n); 285 1.3 oster RF_ASSERT(termNode->numSuccedents == 0); 286 1.8.6.1 skrll tmpdiskNode = diskNodes; 287 1.3 oster for (i = 0; i < n; i++) { 288 1.3 oster /* connect the commit node to each write node */ 289 1.8.6.1 skrll RF_ASSERT(tmpdiskNode->numAntecedents == 1); 290 1.8.6.1 skrll commitNode->succedents[i] = tmpdiskNode; 291 1.8.6.1 skrll tmpdiskNode->antecedents[0] = commitNode; 292 1.8.6.1 skrll tmpdiskNode->antType[0] = rf_control; 293 1.3 oster 294 1.3 oster /* connect each write node to the term node */ 295 1.8.6.1 skrll RF_ASSERT(tmpdiskNode->numSuccedents == 1); 296 1.8.6.1 skrll tmpdiskNode->succedents[0] = termNode; 297 1.8.6.1 skrll termNode->antecedents[i] = tmpdiskNode; 298 1.3 oster termNode->antType[i] = rf_control; 299 1.8.6.1 skrll tmpdiskNode = tmpdiskNode->list_next; 300 1.3 oster } 301 1.3 oster } 302 1.1 oster } 303 1.1 oster /****************************************************************************** 304 1.1 oster * Create a fault-free read DAG for RAID level 1 305 1.1 oster * 306 1.1 oster * Hdr -> Nil -> Rmir -> Cmt -> Trm 307 1.1 oster * 308 1.1 oster * The "Rmir" node schedules a read from the disk in the mirror pair with the 309 1.1 oster * shortest disk queue. the proper queue is selected at Rmir execution. this 310 1.1 oster * deferred mapping is unlike other archs in RAIDframe which generally fix 311 1.1 oster * mapping at DAG creation time. 312 1.1 oster * 313 1.1 oster * Parameters: raidPtr - description of the physical array 314 1.1 oster * asmap - logical & physical addresses for this access 315 1.1 oster * bp - buffer ptr (for holding read data) 316 1.3 oster * flags - general flags (e.g. disk locking) 317 1.1 oster * allocList - list of memory allocated in DAG creation 318 1.1 oster *****************************************************************************/ 319 1.1 oster 320 1.3 oster static void 321 1.8.6.1 skrll CreateMirrorReadDAG(RF_Raid_t *raidPtr, RF_AccessStripeMap_t *asmap, 322 1.8.6.1 skrll RF_DagHeader_t *dag_h, void *bp, 323 1.8.6.1 skrll RF_RaidAccessFlags_t flags, 324 1.8.6.1 skrll RF_AllocListElem_t *allocList, 325 1.8.6.1 skrll int (*readfunc) (RF_DagNode_t * node)) 326 1.1 oster { 327 1.8.6.1 skrll RF_DagNode_t *readNodes, *blockNode, *commitNode, *termNode; 328 1.8.6.1 skrll RF_DagNode_t *tmpNode, *tmpreadNode; 329 1.3 oster RF_PhysDiskAddr_t *data_pda = asmap->physInfo; 330 1.3 oster RF_PhysDiskAddr_t *parity_pda = asmap->parityInfo; 331 1.3 oster int i, n, totalNumNodes; 332 1.3 oster 333 1.3 oster n = asmap->numStripeUnitsAccessed; 334 1.3 oster dag_h->creator = "RaidOneReadDAG"; 335 1.8.6.1 skrll #if RF_DEBUG_DAG 336 1.3 oster if (rf_dagDebug) { 337 1.3 oster printf("[Creating RAID level 1 read DAG]\n"); 338 1.3 oster } 339 1.8.6.1 skrll #endif 340 1.3 oster /* 341 1.3 oster * This dag can not commit until the commit node is reached 342 1.3 oster * errors prior to the commit point imply the dag has failed. 343 1.3 oster */ 344 1.3 oster dag_h->numCommitNodes = 1; 345 1.3 oster dag_h->numCommits = 0; 346 1.3 oster dag_h->numSuccedents = 1; 347 1.3 oster 348 1.3 oster /* 349 1.3 oster * Node count: 350 1.3 oster * n data reads 351 1.3 oster * 1 block node 352 1.3 oster * 1 commit node 353 1.3 oster * 1 terminator node 354 1.3 oster */ 355 1.3 oster RF_ASSERT(n > 0); 356 1.3 oster totalNumNodes = n + 3; 357 1.8.6.1 skrll 358 1.8.6.1 skrll for (i = 0; i < n; i++) { 359 1.8.6.1 skrll tmpNode = rf_AllocDAGNode(); 360 1.8.6.1 skrll tmpNode->list_next = dag_h->nodes; 361 1.8.6.1 skrll dag_h->nodes = tmpNode; 362 1.8.6.1 skrll } 363 1.8.6.1 skrll readNodes = dag_h->nodes; 364 1.8.6.1 skrll 365 1.8.6.1 skrll blockNode = rf_AllocDAGNode(); 366 1.8.6.1 skrll blockNode->list_next = dag_h->nodes; 367 1.8.6.1 skrll dag_h->nodes = blockNode; 368 1.8.6.1 skrll 369 1.8.6.1 skrll commitNode = rf_AllocDAGNode(); 370 1.8.6.1 skrll commitNode->list_next = dag_h->nodes; 371 1.8.6.1 skrll dag_h->nodes = commitNode; 372 1.8.6.1 skrll 373 1.8.6.1 skrll termNode = rf_AllocDAGNode(); 374 1.8.6.1 skrll termNode->list_next = dag_h->nodes; 375 1.8.6.1 skrll dag_h->nodes = termNode; 376 1.3 oster 377 1.3 oster /* initialize nodes */ 378 1.3 oster rf_InitNode(blockNode, rf_wait, RF_FALSE, rf_NullNodeFunc, 379 1.3 oster rf_NullNodeUndoFunc, NULL, n, 0, 0, 0, dag_h, "Nil", allocList); 380 1.3 oster rf_InitNode(commitNode, rf_wait, RF_TRUE, rf_NullNodeFunc, 381 1.3 oster rf_NullNodeUndoFunc, NULL, 1, n, 0, 0, dag_h, "Cmt", allocList); 382 1.3 oster rf_InitNode(termNode, rf_wait, RF_FALSE, rf_TerminateFunc, 383 1.3 oster rf_TerminateUndoFunc, NULL, 0, 1, 0, 0, dag_h, "Trm", allocList); 384 1.3 oster 385 1.8.6.1 skrll tmpreadNode = readNodes; 386 1.3 oster for (i = 0; i < n; i++) { 387 1.3 oster RF_ASSERT(data_pda != NULL); 388 1.3 oster RF_ASSERT(parity_pda != NULL); 389 1.8.6.1 skrll rf_InitNode(tmpreadNode, rf_wait, RF_FALSE, readfunc, 390 1.3 oster rf_DiskReadMirrorUndoFunc, rf_GenericWakeupFunc, 1, 1, 5, 0, dag_h, 391 1.3 oster "Rmir", allocList); 392 1.8.6.1 skrll tmpreadNode->params[0].p = data_pda; 393 1.8.6.1 skrll tmpreadNode->params[1].p = data_pda->bufPtr; 394 1.3 oster /* parity stripe id is not necessary */ 395 1.8.6.1 skrll tmpreadNode->params[2].p = 0; 396 1.8.6.1 skrll tmpreadNode->params[3].v = RF_CREATE_PARAM3(RF_IO_NORMAL_PRIORITY, 0); 397 1.8.6.1 skrll tmpreadNode->params[4].p = parity_pda; 398 1.3 oster data_pda = data_pda->next; 399 1.3 oster parity_pda = parity_pda->next; 400 1.8.6.1 skrll tmpreadNode = tmpreadNode->list_next; 401 1.3 oster } 402 1.3 oster 403 1.3 oster /* 404 1.3 oster * Connect nodes 405 1.3 oster */ 406 1.3 oster 407 1.3 oster /* connect hdr to block node */ 408 1.3 oster RF_ASSERT(blockNode->numAntecedents == 0); 409 1.3 oster dag_h->succedents[0] = blockNode; 410 1.3 oster 411 1.3 oster /* connect block node to read nodes */ 412 1.3 oster RF_ASSERT(blockNode->numSuccedents == n); 413 1.8.6.1 skrll tmpreadNode = readNodes; 414 1.3 oster for (i = 0; i < n; i++) { 415 1.8.6.1 skrll RF_ASSERT(tmpreadNode->numAntecedents == 1); 416 1.8.6.1 skrll blockNode->succedents[i] = tmpreadNode; 417 1.8.6.1 skrll tmpreadNode->antecedents[0] = blockNode; 418 1.8.6.1 skrll tmpreadNode->antType[0] = rf_control; 419 1.8.6.1 skrll tmpreadNode = tmpreadNode->list_next; 420 1.3 oster } 421 1.3 oster 422 1.3 oster /* connect read nodes to commit node */ 423 1.3 oster RF_ASSERT(commitNode->numAntecedents == n); 424 1.8.6.1 skrll tmpreadNode = readNodes; 425 1.3 oster for (i = 0; i < n; i++) { 426 1.8.6.1 skrll RF_ASSERT(tmpreadNode->numSuccedents == 1); 427 1.8.6.1 skrll tmpreadNode->succedents[0] = commitNode; 428 1.8.6.1 skrll commitNode->antecedents[i] = tmpreadNode; 429 1.3 oster commitNode->antType[i] = rf_control; 430 1.8.6.1 skrll tmpreadNode = tmpreadNode->list_next; 431 1.3 oster } 432 1.3 oster 433 1.3 oster /* connect commit node to term node */ 434 1.3 oster RF_ASSERT(commitNode->numSuccedents == 1); 435 1.3 oster RF_ASSERT(termNode->numAntecedents == 1); 436 1.3 oster RF_ASSERT(termNode->numSuccedents == 0); 437 1.3 oster commitNode->succedents[0] = termNode; 438 1.3 oster termNode->antecedents[0] = commitNode; 439 1.3 oster termNode->antType[0] = rf_control; 440 1.1 oster } 441 1.1 oster 442 1.3 oster void 443 1.3 oster rf_CreateMirrorIdleReadDAG( 444 1.3 oster RF_Raid_t * raidPtr, 445 1.3 oster RF_AccessStripeMap_t * asmap, 446 1.3 oster RF_DagHeader_t * dag_h, 447 1.3 oster void *bp, 448 1.3 oster RF_RaidAccessFlags_t flags, 449 1.3 oster RF_AllocListElem_t * allocList) 450 1.1 oster { 451 1.3 oster CreateMirrorReadDAG(raidPtr, asmap, dag_h, bp, flags, allocList, 452 1.3 oster rf_DiskReadMirrorIdleFunc); 453 1.1 oster } 454 1.1 oster 455 1.8 oster #if (RF_INCLUDE_CHAINDECLUSTER > 0) || (RF_INCLUDE_INTERDECLUSTER > 0) 456 1.8 oster 457 1.3 oster void 458 1.8.6.1 skrll rf_CreateMirrorPartitionReadDAG(RF_Raid_t *raidPtr, 459 1.8.6.1 skrll RF_AccessStripeMap_t *asmap, 460 1.8.6.1 skrll RF_DagHeader_t *dag_h, void *bp, 461 1.8.6.1 skrll RF_RaidAccessFlags_t flags, 462 1.8.6.1 skrll RF_AllocListElem_t *allocList) 463 1.1 oster { 464 1.3 oster CreateMirrorReadDAG(raidPtr, asmap, dag_h, bp, flags, allocList, 465 1.3 oster rf_DiskReadMirrorPartitionFunc); 466 1.1 oster } 467 1.8 oster #endif 468
Indexes created Mon Oct 13 16:09:52 GMT 2025