/* $OpenBSD: rf_raid.h,v 1.2 1999/02/16 00:03:13 niklas Exp $ */ /* $NetBSD: rf_raid.h,v 1.3 1999/02/05 00:06:15 oster Exp $ */ /* * Copyright (c) 1995 Carnegie-Mellon University. * All rights reserved. * * Author: Mark Holland * * Permission to use, copy, modify and distribute this software and * its documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * Carnegie Mellon requests users of this software to return to * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 * * any improvements or extensions that they make and grant Carnegie the * rights to redistribute these changes. */ /********************************************** * rf_raid.h -- main header file for RAID driver **********************************************/ #ifndef _RF__RF_RAID_H_ #define _RF__RF_RAID_H_ #include "rf_archs.h" #include "rf_types.h" #include "rf_threadstuff.h" #if defined(__NetBSD__) #include "rf_netbsd.h" #elif defined(__OpenBSD__) #include "rf_openbsd.h" #endif #include #include #include "rf_alloclist.h" #include "rf_stripelocks.h" #include "rf_layout.h" #include "rf_disks.h" #include "rf_debugMem.h" #include "rf_diskqueue.h" #include "rf_reconstruct.h" #include "rf_acctrace.h" #if RF_INCLUDE_PARITYLOGGING > 0 #include "rf_paritylog.h" #endif /* RF_INCLUDE_PARITYLOGGING > 0 */ #define RF_MAX_DISKS 128 /* max disks per array */ #define RF_DEV2RAIDID(_dev) (DISKUNIT(_dev)) /* * Each row in the array is a distinct parity group, so * each has it's own status, which is one of the following. */ typedef enum RF_RowStatus_e { rf_rs_optimal, rf_rs_degraded, rf_rs_reconstructing, rf_rs_reconfigured } RF_RowStatus_t; struct RF_CumulativeStats_s { struct timeval start; /* the time when the stats were last started */ struct timeval stop; /* the time when the stats were last stopped */ long sum_io_us; /* sum of all user response times (us) */ long num_ios; /* total number of I/Os serviced */ long num_sect_moved; /* total number of sectors read or written */ }; struct RF_ThroughputStats_s { RF_DECLARE_MUTEX(mutex) /* a mutex used to lock the configuration * stuff */ struct timeval start; /* timer started when numOutstandingRequests * moves from 0 to 1 */ struct timeval stop; /* timer stopped when numOutstandingRequests * moves from 1 to 0 */ RF_uint64 sum_io_us; /* total time timer is enabled */ RF_uint64 num_ios; /* total number of ios processed by RAIDframe */ long num_out_ios; /* number of outstanding ios */ }; struct RF_Raid_s { /* This portion never changes, and can be accessed without locking */ /* an exception is Disks[][].status, which requires locking when it is * changed */ u_int numRow; /* number of rows of disks, typically == # of * ranks */ u_int numCol; /* number of columns of disks, typically == # * of disks/rank */ u_int numSpare; /* number of spare disks */ int maxQueueDepth; /* max disk queue depth */ RF_SectorCount_t totalSectors; /* total number of sectors in the * array */ RF_SectorCount_t sectorsPerDisk; /* number of sectors on each * disk */ u_int logBytesPerSector; /* base-2 log of the number of bytes * in a sector */ u_int bytesPerSector; /* bytes in a sector */ RF_int32 sectorMask; /* mask of bytes-per-sector */ RF_RaidLayout_t Layout; /* all information related to layout */ RF_RaidDisk_t **Disks; /* all information related to physical disks */ RF_DiskQueue_t **Queues;/* all information related to disk queues */ /* NOTE: This is an anchor point via which the queues can be * accessed, but the enqueue/dequeue routines in diskqueue.c use a * local copy of this pointer for the actual accesses. */ /* The remainder of the structure can change, and therefore requires * locking on reads and updates */ RF_DECLARE_MUTEX(mutex) /* mutex used to serialize access to * the fields below */ RF_RowStatus_t *status; /* the status of each row in the array */ int valid; /* indicates successful configuration */ RF_LockTableEntry_t *lockTable; /* stripe-lock table */ RF_LockTableEntry_t *quiesceLock; /* quiesnce table */ int numFailures; /* total number of failures in the array */ /* * Cleanup stuff */ RF_ShutdownList_t *shutdownList; /* shutdown activities */ RF_AllocListElem_t *cleanupList; /* memory to be freed at * shutdown time */ /* * Recon stuff */ RF_HeadSepLimit_t headSepLimit; int numFloatingReconBufs; int reconInProgress; RF_DECLARE_COND(waitForReconCond) RF_RaidReconDesc_t *reconDesc; /* reconstruction descriptor */ RF_ReconCtrl_t **reconControl; /* reconstruction control structure * pointers for each row in the array */ /* * Array-quiescence stuff */ RF_DECLARE_MUTEX(access_suspend_mutex) RF_DECLARE_COND(quiescent_cond) RF_IoCount_t accesses_suspended; RF_IoCount_t accs_in_flight; int access_suspend_release; int waiting_for_quiescence; RF_CallbackDesc_t *quiesce_wait_list; /* * Statistics */ #if !defined(_KERNEL) && !defined(SIMULATE) RF_ThroughputStats_t throughputstats; #endif /* !KERNEL && !SIMULATE */ RF_CumulativeStats_t userstats; /* * Engine thread control */ RF_DECLARE_MUTEX(node_queue_mutex) RF_DECLARE_COND(node_queue_cond) RF_DagNode_t *node_queue; RF_Thread_t engine_thread; RF_ThreadGroup_t engine_tg; int shutdown_engine; int dags_in_flight; /* debug */ /* * PSS (Parity Stripe Status) stuff */ RF_FreeList_t *pss_freelist; long pssTableSize; /* * Reconstruction stuff */ int procsInBufWait; int numFullReconBuffers; RF_AccTraceEntry_t *recon_tracerecs; unsigned long accumXorTimeUs; RF_ReconDoneProc_t *recon_done_procs; RF_DECLARE_MUTEX(recon_done_proc_mutex) /* * nAccOutstanding, waitShutdown protected by desc freelist lock * (This may seem strange, since that's a central serialization point * for a per-array piece of data, but otherwise, it'd be an extra * per-array lock, and that'd only be less efficient...) */ RF_DECLARE_COND(outstandingCond) int waitShutdown; int nAccOutstanding; RF_DiskId_t **diskids; RF_DiskId_t *sparediskids; int raidid; RF_AccTotals_t acc_totals; int keep_acc_totals; struct raidcinfo **raid_cinfo; /* array of component info */ struct proc *proc; /* XXX shouldn't be needed here.. :-p */ int terminate_disk_queues; /* * XXX * * config-specific information should be moved * somewhere else, or at least hung off this * in some generic way */ /* used by rf_compute_workload_shift */ RF_RowCol_t hist_diskreq[RF_MAXROW][RF_MAXCOL]; /* used by declustering */ int noRotate; #if RF_INCLUDE_PARITYLOGGING > 0 /* used by parity logging */ RF_SectorCount_t regionLogCapacity; RF_ParityLogQueue_t parityLogPool; /* pool of unused parity logs */ RF_RegionInfo_t *regionInfo; /* array of region state */ int numParityLogs; int numSectorsPerLog; int regionParityRange; int logsInUse; /* debugging */ RF_ParityLogDiskQueue_t parityLogDiskQueue; /* state of parity * logging disk work */ RF_RegionBufferQueue_t regionBufferPool; /* buffers for holding * region log */ RF_RegionBufferQueue_t parityBufferPool; /* buffers for holding * parity */ caddr_t parityLogBufferHeap; /* pool of unused parity logs */ RF_Thread_t pLogDiskThreadHandle; #endif /* RF_INCLUDE_PARITYLOGGING > 0 */ }; #endif /* !_RF__RF_RAID_H_ */