dev/raidframe/rf_interdecluster.c

1.5  oster /*	$NetBSD: rf_interdecluster.c,v 1.5 2001/01/26 05:09:13 oster Exp $	*/
1.1  oster /*
1.1  oster  * Copyright (c) 1995 Carnegie-Mellon University.
1.1  oster  * All rights reserved.
1.1  oster  *
1.1  oster  * Author: Khalil Amiri
1.1  oster  *
1.1  oster  * Permission to use, copy, modify and distribute this software and
1.1  oster  * its documentation is hereby granted, provided that both the copyright
1.1  oster  * notice and this permission notice appear in all copies of the
1.1  oster  * software, derivative works or modified versions, and any portions
1.1  oster  * thereof, and that both notices appear in supporting documentation.
1.1  oster  *
1.1  oster  * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
1.1  oster  * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND
1.1  oster  * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
1.1  oster  *
1.1  oster  * Carnegie Mellon requests users of this software to return to
1.1  oster  *
1.1  oster  *  Software Distribution Coordinator  or  Software.Distribution (at) CS.CMU.EDU
1.1  oster  *  School of Computer Science
1.1  oster  *  Carnegie Mellon University
1.1  oster  *  Pittsburgh PA 15213-3890
1.1  oster  *
1.1  oster  * any improvements or extensions that they make and grant Carnegie the
1.1  oster  * rights to redistribute these changes.
1.1  oster  */
1.1  oster
1.1  oster /************************************************************
1.1  oster  *
1.3  oster  * rf_interdecluster.c -- implements interleaved declustering
1.1  oster  *
1.1  oster  ************************************************************/
1.1  oster
1.5  oster #include "rf_archs.h"
1.5  oster
1.5  oster #if RF_INCLUDE_INTERDECLUSTER > 0
1.1  oster
1.1  oster #include "rf_types.h"
1.1  oster #include "rf_raid.h"
1.1  oster #include "rf_interdecluster.h"
1.1  oster #include "rf_dag.h"
1.1  oster #include "rf_dagutils.h"
1.1  oster #include "rf_dagfuncs.h"
1.1  oster #include "rf_general.h"
1.1  oster #include "rf_utils.h"
1.1  oster #include "rf_dagffrd.h"
1.1  oster #include "rf_dagdegrd.h"
1.1  oster #include "rf_dagffwr.h"
1.1  oster #include "rf_dagdegwr.h"
1.1  oster
1.1  oster typedef struct RF_InterdeclusterConfigInfo_s {
1.3  oster 	RF_RowCol_t **stripeIdentifier;	/* filled in at config time and used
1.3  oster 					 * by IdentifyStripe */
1.3  oster 	RF_StripeCount_t numSparingRegions;
1.3  oster 	RF_StripeCount_t stripeUnitsPerSparingRegion;
1.3  oster 	RF_SectorNum_t mirrorStripeOffset;
1.3  oster }       RF_InterdeclusterConfigInfo_t;
1.3  oster
1.3  oster int
1.3  oster rf_ConfigureInterDecluster(
1.3  oster     RF_ShutdownList_t ** listp,
1.3  oster     RF_Raid_t * raidPtr,
1.3  oster     RF_Config_t * cfgPtr)
1.1  oster {
1.3  oster 	RF_RaidLayout_t *layoutPtr = &raidPtr->Layout;
1.3  oster 	RF_StripeCount_t num_used_stripeUnitsPerDisk;
1.3  oster 	RF_InterdeclusterConfigInfo_t *info;
1.3  oster 	RF_RowCol_t i, tmp, SUs_per_region;
1.3  oster
1.3  oster 	/* create an Interleaved Declustering configuration structure */
1.3  oster 	RF_MallocAndAdd(info, sizeof(RF_InterdeclusterConfigInfo_t), (RF_InterdeclusterConfigInfo_t *),
1.3  oster 	    raidPtr->cleanupList);
1.3  oster 	if (info == NULL)
1.3  oster 		return (ENOMEM);
1.3  oster 	layoutPtr->layoutSpecificInfo = (void *) info;
1.3  oster
1.3  oster 	/* fill in the config structure.  */
1.3  oster 	SUs_per_region = raidPtr->numCol * (raidPtr->numCol - 1);
1.3  oster 	info->stripeIdentifier = rf_make_2d_array(SUs_per_region, 2, raidPtr->cleanupList);
1.3  oster 	if (info->stripeIdentifier == NULL)
1.3  oster 		return (ENOMEM);
1.3  oster 	for (i = 0; i < SUs_per_region; i++) {
1.3  oster 		info->stripeIdentifier[i][0] = i / (raidPtr->numCol - 1);
1.3  oster 		tmp = i / raidPtr->numCol;
1.3  oster 		info->stripeIdentifier[i][1] = (i + 1 + tmp) % raidPtr->numCol;
1.3  oster 	}
1.3  oster
1.3  oster 	/* no spare tables */
1.3  oster 	RF_ASSERT(raidPtr->numRow == 1);
1.3  oster
1.3  oster 	/* fill in the remaining layout parameters */
1.3  oster
1.3  oster 	/* total number of stripes should a multiple of 2*numCol: Each sparing
1.3  oster 	 * region consists of 2*numCol stripes: n-1 primary copy, n-1
1.3  oster 	 * secondary copy and 2 for spare .. */
1.3  oster 	num_used_stripeUnitsPerDisk = layoutPtr->stripeUnitsPerDisk - (layoutPtr->stripeUnitsPerDisk %
1.3  oster 	    (2 * raidPtr->numCol));
1.3  oster 	info->numSparingRegions = num_used_stripeUnitsPerDisk / (2 * raidPtr->numCol);
1.3  oster 	/* this is in fact the number of stripe units (that are primary data
1.3  oster 	 * copies) in the sparing region */
1.3  oster 	info->stripeUnitsPerSparingRegion = raidPtr->numCol * (raidPtr->numCol - 1);
1.3  oster 	info->mirrorStripeOffset = info->numSparingRegions * (raidPtr->numCol + 1);
1.3  oster 	layoutPtr->numStripe = info->numSparingRegions * info->stripeUnitsPerSparingRegion;
1.3  oster 	layoutPtr->bytesPerStripeUnit = layoutPtr->sectorsPerStripeUnit << raidPtr->logBytesPerSector;
1.3  oster 	layoutPtr->numDataCol = 1;
1.3  oster 	layoutPtr->dataSectorsPerStripe = layoutPtr->numDataCol * layoutPtr->sectorsPerStripeUnit;
1.3  oster 	layoutPtr->numParityCol = 1;
1.3  oster
1.3  oster 	layoutPtr->dataStripeUnitsPerDisk = num_used_stripeUnitsPerDisk;
1.3  oster
1.3  oster 	raidPtr->sectorsPerDisk =
1.3  oster 	    num_used_stripeUnitsPerDisk * layoutPtr->sectorsPerStripeUnit;
1.1  oster
1.3  oster 	raidPtr->totalSectors =
1.3  oster 	    (layoutPtr->numStripe) * layoutPtr->sectorsPerStripeUnit;
1.1  oster
1.3  oster 	layoutPtr->stripeUnitsPerDisk = raidPtr->sectorsPerDisk / layoutPtr->sectorsPerStripeUnit;
1.1  oster
1.3  oster 	return (0);
1.1  oster }
1.1  oster
1.3  oster int
1.3  oster rf_GetDefaultNumFloatingReconBuffersInterDecluster(RF_Raid_t * raidPtr)
1.1  oster {
1.3  oster 	return (30);
1.1  oster }
1.1  oster
1.3  oster RF_HeadSepLimit_t
1.3  oster rf_GetDefaultHeadSepLimitInterDecluster(RF_Raid_t * raidPtr)
1.1  oster {
1.3  oster 	return (raidPtr->sectorsPerDisk);
1.1  oster }
1.1  oster
1.3  oster RF_ReconUnitCount_t
1.3  oster rf_GetNumSpareRUsInterDecluster(
1.3  oster     RF_Raid_t * raidPtr)
1.1  oster {
1.3  oster 	RF_InterdeclusterConfigInfo_t *info = (RF_InterdeclusterConfigInfo_t *) raidPtr->Layout.layoutSpecificInfo;
1.1  oster
1.3  oster 	return (2 * ((RF_ReconUnitCount_t) info->numSparingRegions));
1.3  oster 	/* the layout uses two stripe units per disk as spare within each
1.3  oster 	 * sparing region */
1.1  oster }
1.1  oster /* Maps to the primary copy of the data, i.e. the first mirror pair */
1.3  oster void
1.3  oster rf_MapSectorInterDecluster(
1.3  oster     RF_Raid_t * raidPtr,
1.3  oster     RF_RaidAddr_t raidSector,
1.3  oster     RF_RowCol_t * row,
1.3  oster     RF_RowCol_t * col,
1.3  oster     RF_SectorNum_t * diskSector,
1.3  oster     int remap)
1.1  oster {
1.3  oster 	RF_InterdeclusterConfigInfo_t *info = (RF_InterdeclusterConfigInfo_t *) raidPtr->Layout.layoutSpecificInfo;
1.3  oster 	RF_StripeNum_t SUID = raidSector / raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 	RF_StripeNum_t su_offset_into_disk, mirror_su_offset_into_disk;
1.3  oster 	RF_StripeNum_t sparing_region_id, index_within_region;
1.3  oster 	int     col_before_remap;
1.3  oster
1.3  oster 	*row = 0;
1.3  oster 	sparing_region_id = SUID / info->stripeUnitsPerSparingRegion;
1.3  oster 	index_within_region = SUID % info->stripeUnitsPerSparingRegion;
1.3  oster 	su_offset_into_disk = index_within_region % (raidPtr->numCol - 1);
1.3  oster 	mirror_su_offset_into_disk = index_within_region / raidPtr->numCol;
1.3  oster 	col_before_remap = index_within_region / (raidPtr->numCol - 1);
1.3  oster
1.3  oster 	if (!remap) {
1.3  oster 		*col = col_before_remap;;
1.3  oster 		*diskSector = (su_offset_into_disk + ((raidPtr->numCol - 1) * sparing_region_id)) *
1.3  oster 		    raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += (raidSector % raidPtr->Layout.sectorsPerStripeUnit);
1.3  oster 	} else {
1.3  oster 		/* remap sector to spare space... */
1.3  oster 		*diskSector = sparing_region_id * (raidPtr->numCol + 1) * raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += (raidPtr->numCol - 1) * raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += (raidSector % raidPtr->Layout.sectorsPerStripeUnit);
1.3  oster 		*col = (index_within_region + 1 + mirror_su_offset_into_disk) % raidPtr->numCol;
1.3  oster 		*col = (*col + 1) % raidPtr->numCol;
1.3  oster 		if (*col == col_before_remap)
1.3  oster 			*col = (*col + 1) % raidPtr->numCol;
1.3  oster 	}
1.1  oster }
1.1  oster /* Maps to the second copy of the mirror pair. */
1.3  oster void
1.3  oster rf_MapParityInterDecluster(
1.3  oster     RF_Raid_t * raidPtr,
1.3  oster     RF_RaidAddr_t raidSector,
1.3  oster     RF_RowCol_t * row,
1.3  oster     RF_RowCol_t * col,
1.3  oster     RF_SectorNum_t * diskSector,
1.3  oster     int remap)
1.1  oster {
1.3  oster 	RF_InterdeclusterConfigInfo_t *info = (RF_InterdeclusterConfigInfo_t *) raidPtr->Layout.layoutSpecificInfo;
1.3  oster 	RF_StripeNum_t sparing_region_id, index_within_region, mirror_su_offset_into_disk;
1.3  oster 	RF_StripeNum_t SUID = raidSector / raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 	int     col_before_remap;
1.3  oster
1.3  oster 	sparing_region_id = SUID / info->stripeUnitsPerSparingRegion;
1.3  oster 	index_within_region = SUID % info->stripeUnitsPerSparingRegion;
1.3  oster 	mirror_su_offset_into_disk = index_within_region / raidPtr->numCol;
1.3  oster 	col_before_remap = (index_within_region + 1 + mirror_su_offset_into_disk) % raidPtr->numCol;
1.3  oster
1.3  oster 	*row = 0;
1.3  oster 	if (!remap) {
1.3  oster 		*col = col_before_remap;
1.3  oster 		*diskSector = info->mirrorStripeOffset * raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += sparing_region_id * (raidPtr->numCol - 1) * raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += mirror_su_offset_into_disk * raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += (raidSector % raidPtr->Layout.sectorsPerStripeUnit);
1.3  oster 	} else {
1.3  oster 		/* remap parity to spare space ... */
1.3  oster 		*diskSector = sparing_region_id * (raidPtr->numCol + 1) * raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += (raidPtr->numCol) * raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 		*diskSector += (raidSector % raidPtr->Layout.sectorsPerStripeUnit);
1.3  oster 		*col = index_within_region / (raidPtr->numCol - 1);
1.3  oster 		*col = (*col + 1) % raidPtr->numCol;
1.3  oster 		if (*col == col_before_remap)
1.3  oster 			*col = (*col + 1) % raidPtr->numCol;
1.3  oster 	}
1.1  oster }
1.1  oster
1.3  oster void
1.3  oster rf_IdentifyStripeInterDecluster(
1.3  oster     RF_Raid_t * raidPtr,
1.3  oster     RF_RaidAddr_t addr,
1.3  oster     RF_RowCol_t ** diskids,
1.3  oster     RF_RowCol_t * outRow)
1.1  oster {
1.3  oster 	RF_InterdeclusterConfigInfo_t *info = (RF_InterdeclusterConfigInfo_t *) raidPtr->Layout.layoutSpecificInfo;
1.3  oster 	RF_StripeNum_t SUID;
1.1  oster
1.3  oster 	SUID = addr / raidPtr->Layout.sectorsPerStripeUnit;
1.3  oster 	SUID = SUID % info->stripeUnitsPerSparingRegion;
1.1  oster
1.3  oster 	*outRow = 0;
1.3  oster 	*diskids = info->stripeIdentifier[SUID];
1.1  oster }
1.1  oster
1.3  oster void
1.3  oster rf_MapSIDToPSIDInterDecluster(
1.3  oster     RF_RaidLayout_t * layoutPtr,
1.3  oster     RF_StripeNum_t stripeID,
1.3  oster     RF_StripeNum_t * psID,
1.3  oster     RF_ReconUnitNum_t * which_ru)
1.1  oster {
1.3  oster 	*which_ru = 0;
1.3  oster 	*psID = stripeID;
1.1  oster }
1.1  oster /******************************************************************************
1.1  oster  * select a graph to perform a single-stripe access
1.1  oster  *
1.1  oster  * Parameters:  raidPtr    - description of the physical array
1.1  oster  *              type       - type of operation (read or write) requested
1.1  oster  *              asmap      - logical & physical addresses for this access
1.1  oster  *              createFunc - name of function to use to create the graph
1.1  oster  *****************************************************************************/
1.1  oster
1.3  oster void
1.3  oster rf_RAIDIDagSelect(
1.3  oster     RF_Raid_t * raidPtr,
1.3  oster     RF_IoType_t type,
1.3  oster     RF_AccessStripeMap_t * asmap,
1.3  oster     RF_VoidFuncPtr * createFunc)
1.1  oster {
1.3  oster 	RF_ASSERT(RF_IO_IS_R_OR_W(type));
1.1  oster
1.3  oster 	if (asmap->numDataFailed + asmap->numParityFailed > 1) {
1.3  oster 		RF_ERRORMSG("Multiple disks failed in a single group!  Aborting I/O operation.\n");
1.3  oster 		*createFunc = NULL;
1.3  oster 		return;
1.3  oster 	}
1.3  oster 	*createFunc = (type == RF_IO_TYPE_READ) ? (RF_VoidFuncPtr) rf_CreateFaultFreeReadDAG : (RF_VoidFuncPtr) rf_CreateRaidOneWriteDAG;
1.3  oster 	if (type == RF_IO_TYPE_READ) {
1.3  oster 		if (asmap->numDataFailed == 0)
1.3  oster 			*createFunc = (RF_VoidFuncPtr) rf_CreateMirrorPartitionReadDAG;
1.3  oster 		else
1.3  oster 			*createFunc = (RF_VoidFuncPtr) rf_CreateRaidOneDegradedReadDAG;
1.3  oster 	} else
1.3  oster 		*createFunc = (RF_VoidFuncPtr) rf_CreateRaidOneWriteDAG;
1.1  oster }
1.5  oster #endif /* RF_INCLUDE_INTERDECLUSTER > 0 */