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/* $OpenBSD: rf_diskqueue.h,v 1.3 2000/01/11 18:02:21 peter Exp $ */
/* $NetBSD: rf_diskqueue.h,v 1.4 2000/01/08 23:02:16 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_diskqueue.h -- header file for disk queues
*
* see comments in rf_diskqueue.c
*
****************************************************************************************/
#ifndef _RF__RF_DISKQUEUE_H_
#define _RF__RF_DISKQUEUE_H_
#include "rf_threadstuff.h"
#include "rf_acctrace.h"
#include "rf_alloclist.h"
#include "rf_types.h"
#include "rf_etimer.h"
#if defined(__NetBSD__)
#include "rf_netbsd.h"
#elif defined(__OpenBSD__)
#include "rf_openbsd.h"
#endif
#define RF_IO_NORMAL_PRIORITY 1
#define RF_IO_LOW_PRIORITY 0
/* the data held by a disk queue entry */
struct RF_DiskQueueData_s {
RF_SectorNum_t sectorOffset; /* sector offset into the disk */
RF_SectorCount_t numSector; /* number of sectors to read/write */
RF_IoType_t type; /* read/write/nop */
caddr_t buf; /* buffer pointer */
RF_StripeNum_t parityStripeID; /* the RAID parity stripe ID this
* access is for */
RF_ReconUnitNum_t which_ru; /* which RU within this parity stripe */
int priority; /* the priority of this request */
int (*CompleteFunc) (void *, int); /* function to be called upon
* completion */
int (*AuxFunc) (void *,...); /* function called upon
* completion of the first I/O
* of a Read_Op_Write pair */
void *argument; /* argument to be passed to CompleteFunc */
RF_Raid_t *raidPtr; /* needed for simulation */
RF_AccTraceEntry_t *tracerec; /* perf mon only */
RF_Etimer_t qtime; /* perf mon only - time request is in queue */
long entryTime;
RF_DiskQueueData_t *next;
RF_DiskQueueData_t *prev;
caddr_t buf2; /* for read-op-write */
dev_t dev; /* the device number for in-kernel version */
RF_DiskQueue_t *queue; /* the disk queue to which this req is
* targeted */
RF_DiskQueueDataFlags_t flags; /* flags controlling operation */
struct proc *b_proc; /* the b_proc from the original bp passed into
* the driver for this I/O */
struct buf *bp; /* a bp to use to get this I/O done */
};
#define RF_LOCK_DISK_QUEUE 0x01
#define RF_UNLOCK_DISK_QUEUE 0x02
/* note: "Create" returns type-specific queue header pointer cast to (void *) */
struct RF_DiskQueueSW_s {
RF_DiskQueueType_t queueType;
void *(*Create) (RF_SectorCount_t, RF_AllocListElem_t *, RF_ShutdownList_t **); /* creation routine --
* one call per queue in
* system */
void (*Enqueue) (void *, RF_DiskQueueData_t *, int); /* enqueue routine */
RF_DiskQueueData_t *(*Dequeue) (void *); /* dequeue routine */
RF_DiskQueueData_t *(*Peek) (void *); /* peek at head of queue */
/* the rest are optional: they improve performance, but the driver
* will deal with it if they don't exist */
int (*Promote) (void *, RF_StripeNum_t, RF_ReconUnitNum_t); /* promotes priority of
* tagged accesses */
};
struct RF_DiskQueue_s {
RF_DiskQueueSW_t *qPtr; /* access point to queue functions */
void *qHdr; /* queue header, of whatever type */
RF_DECLARE_MUTEX(mutex) /* mutex locking data structures */
RF_DECLARE_COND(cond) /* condition variable for
* synchronization */
long numOutstanding; /* number of I/Os currently outstanding on
* disk */
long maxOutstanding; /* max # of I/Os that can be outstanding on a
* disk (in-kernel only) */
int curPriority; /* the priority of accs all that are currently
* outstanding */
long queueLength; /* number of requests in queue */
RF_DiskQueueData_t *nextLockingOp; /* a locking op that has
* arrived at the head of the
* queue & is waiting for
* drainage */
RF_DiskQueueData_t *unlockingOp; /* used at user level to
* communicate unlocking op
* b/w user (or dag exec) &
* disk threads */
int numWaiting; /* number of threads waiting on this variable.
* user-level only */
RF_DiskQueueFlags_t flags; /* terminate, locked */
RF_Raid_t *raidPtr; /* associated array */
dev_t dev; /* device number for kernel version */
RF_SectorNum_t last_deq_sector; /* last sector number dequeued or
* dispatched */
int row, col; /* debug only */
struct raidcinfo *rf_cinfo; /* disks component info.. */
};
#define RF_DQ_LOCKED 0x02 /* no new accs allowed until queue is
* explicitly unlocked */
/* macros setting & returning information about queues and requests */
#define RF_QUEUE_LOCKED(_q) ((_q)->flags & RF_DQ_LOCKED)
#define RF_QUEUE_EMPTY(_q) (((_q)->numOutstanding == 0) && ((_q)->nextLockingOp == NULL) && !RF_QUEUE_LOCKED(_q))
#define RF_QUEUE_FULL(_q) ((_q)->numOutstanding == (_q)->maxOutstanding)
#define RF_LOCK_QUEUE(_q) (_q)->flags |= RF_DQ_LOCKED
#define RF_UNLOCK_QUEUE(_q) (_q)->flags &= ~RF_DQ_LOCKED
#define RF_LOCK_QUEUE_MUTEX(_q_,_wh_) RF_LOCK_MUTEX((_q_)->mutex)
#define RF_UNLOCK_QUEUE_MUTEX(_q_,_wh_) RF_UNLOCK_MUTEX((_q_)->mutex)
#define RF_LOCKING_REQ(_r) ((_r)->flags & RF_LOCK_DISK_QUEUE)
#define RF_UNLOCKING_REQ(_r) ((_r)->flags & RF_UNLOCK_DISK_QUEUE)
/* whether it is ok to dispatch a regular request */
#define RF_OK_TO_DISPATCH(_q_,_r_) \
(RF_QUEUE_EMPTY(_q_) || \
(!RF_QUEUE_FULL(_q_) && ((_r_)->priority >= (_q_)->curPriority)))
int rf_ConfigureDiskQueueSystem(RF_ShutdownList_t ** listp);
void rf_TerminateDiskQueues(RF_Raid_t * raidPtr);
int
rf_ConfigureDiskQueues(RF_ShutdownList_t ** listp, RF_Raid_t * raidPtr,
RF_Config_t * cfgPtr);
void rf_DiskIOEnqueue(RF_DiskQueue_t * queue, RF_DiskQueueData_t * req, int pri);
void rf_DiskIOComplete(RF_DiskQueue_t * queue, RF_DiskQueueData_t * req, int status);
int
rf_DiskIOPromote(RF_DiskQueue_t * queue, RF_StripeNum_t parityStripeID,
RF_ReconUnitNum_t which_ru);
RF_DiskQueueData_t *
rf_CreateDiskQueueData(RF_IoType_t typ,
RF_SectorNum_t ssect, RF_SectorCount_t nsect, caddr_t buf,
RF_StripeNum_t parityStripeID, RF_ReconUnitNum_t which_ru,
int (*wakeF) (void *, int),
void *arg, RF_DiskQueueData_t * next, RF_AccTraceEntry_t * tracerec,
void *raidPtr, RF_DiskQueueDataFlags_t flags, void *kb_proc);
RF_DiskQueueData_t *rf_CreateDiskQueueDataFull(RF_IoType_t typ,
RF_SectorNum_t ssect, RF_SectorCount_t nsect, caddr_t buf,
RF_StripeNum_t parityStripeID, RF_ReconUnitNum_t which_ru,
int (*wakeF) (void *, int),
void *arg, RF_DiskQueueData_t * next, RF_AccTraceEntry_t * tracerec,
int priority, int (*AuxFunc) (void *,...), caddr_t buf2,
void *raidPtr, RF_DiskQueueDataFlags_t flags, void *kb_proc);
void rf_FreeDiskQueueData(RF_DiskQueueData_t * p);
#endif /* !_RF__RF_DISKQUEUE_H_ */
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