vax/uba/rk.c

23336Smckusick/*
23336Smckusick * Copyright (c) 1982 Regents of the University of California.
23336Smckusick * All rights reserved.  The Berkeley software License Agreement
23336Smckusick * specifies the terms and conditions for redistribution.
23336Smckusick *
*27675Skarels *	@(#)rk.c	6.11 (Berkeley) 05/02/86
23336Smckusick */
1899Swnj
1942Swnj#include "rk.h"
2648Swnj#if NHK > 0
3104Swnjint	rkpip;		/* DEBUG */
3104Swnjint	rknosval;	/* DEBUG */
3709Sroot#ifdef RKDEBUG
3293Swnjint	rkdebug;
3709Sroot#endif
3709Sroot#ifdef RKBDEBUG
3709Srootint	rkbdebug;
3709Sroot#endif
1899Swnj/*
3293Swnj * RK611/RK0[67] disk driver
2622Swnj *
2622Swnj * This driver mimics up.c; see it for an explanation of common code.
2685Swnj *
2885Swnj * TODO:
3208Swnj *	Learn why we lose an interrupt sometime when spinning drives down
1899Swnj */
9777Ssam#include "../machine/pte.h"
9777Ssam
17076Sbloom#include "param.h"
17076Sbloom#include "systm.h"
17076Sbloom#include "buf.h"
17076Sbloom#include "conf.h"
17076Sbloom#include "dir.h"
17076Sbloom#include "user.h"
17076Sbloom#include "map.h"
17076Sbloom#include "vm.h"
17076Sbloom#include "dk.h"
17076Sbloom#include "cmap.h"
17076Sbloom#include "dkbad.h"
17076Sbloom#include "uio.h"
17076Sbloom#include "kernel.h"
18315Sralph#include "syslog.h"
1899Swnj
8478Sroot#include "../vax/cpu.h"
17076Sbloom#include "ubareg.h"
17076Sbloom#include "ubavar.h"
17076Sbloom#include "rkreg.h"
1899Swnj
2618Swnjstruct	rk_softc {
2618Swnj	int	sc_softas;
2618Swnj	int	sc_ndrive;
2618Swnj	int	sc_wticks;
2618Swnj	int	sc_recal;
2648Swnj} rk_softc[NHK];
1899Swnj
24740Sbloom#define rkunit(dev)	(minor(dev) >> 3)
24740Sbloom
2618Swnj/* THIS SHOULD BE READ OFF THE PACK, PER DRIVE */
2787Swnjstruct size {
2618Swnj	daddr_t	nblocks;
2618Swnj	int	cyloff;
25322Smckusick} rk7_sizes[8] = {
2618Swnj	15884,	0,		/* A=cyl 0 thru 240 */
2665Swnj	10032,	241,		/* B=cyl 241 thru 392 */
2665Swnj	53790,	0,		/* C=cyl 0 thru 814 */
25322Smckusick	15884,	393,		/* D=cyl 393 thru 633 */
2618Swnj	0,	0,
25322Smckusick	11792,	634,		/* F=cyl 634 thru 814 */
25322Smckusick	27786,	393,		/* G=cyl 393 thru 814, should be 27698 */
2618Swnj	0,	0,
3709Sroot}, rk6_sizes[8] ={
3709Sroot	15884,	0,		/* A=cyl 0 thru 240 */
3709Sroot	11154,	241,		/* B=cyl 241 thru 409 */
3709Sroot	27126,	0,		/* C=cyl 0 thru 410 */
3709Sroot	0,	0,
3709Sroot	0,	0,
3709Sroot	0,	0,
3709Sroot	0,	0,
3709Sroot	0,	0,
2618Swnj};
2618Swnj/* END OF STUFF WHICH SHOULD BE READ IN PER DISK */
1899Swnj
3709Srootshort	rktypes[] = { RK_CDT, 0 };
3709Sroot
2618Swnjint	rkprobe(), rkslave(), rkattach(), rkdgo(), rkintr();
2981Swnjstruct	uba_ctlr *rkminfo[NHK];
2981Swnjstruct	uba_device *rkdinfo[NRK];
2981Swnjstruct	uba_device *rkip[NHK][4];
1899Swnj
2618Swnju_short	rkstd[] = { 0777440, 0 };
2618Swnjstruct	uba_driver hkdriver =
2622Swnj { rkprobe, rkslave, rkattach, rkdgo, rkstd, "rk", rkdinfo, "hk", rkminfo, 1 };
2648Swnjstruct	buf rkutab[NRK];
2648Swnjshort	rkcyl[NRK];
3709Srootstruct	dkbad rkbad[NRK];
3709Srootstruct	buf brkbuf[NRK];
1899Swnj
2618Swnjstruct	rkst {
2618Swnj	short	nsect;
2618Swnj	short	ntrak;
2618Swnj	short	nspc;
2618Swnj	short	ncyl;
2618Swnj	struct	size *sizes;
2618Swnj} rkst[] = {
2618Swnj	NRKSECT, NRKTRK, NRKSECT*NRKTRK,	NRK7CYL,	rk7_sizes,
3709Sroot	NRKSECT, NRKTRK, NRKSECT*NRKTRK,	NRK6CYL,	rk6_sizes,
2618Swnj};
1899Swnj
2618Swnju_char 	rk_offset[16] =
3293Swnj  { RKAS_P400,RKAS_M400,RKAS_P400,RKAS_M400,RKAS_P800,RKAS_M800,RKAS_P800,
3293Swnj    RKAS_M800,RKAS_P1200,RKAS_M1200,RKAS_P1200,RKAS_M1200,0,0,0,0
3293Swnj  };
1899Swnj
2648Swnjstruct	buf rrkbuf[NRK];
2618Swnj
2618Swnj#define	b_cylin	b_resid
2618Swnj
2618Swnjint	rkwstart, rkwatch();
2618Swnj
2618Swnjrkprobe(reg)
2618Swnj	caddr_t reg;
1899Swnj{
2618Swnj	register int br, cvec;
1899Swnj
2618Swnj#ifdef lint
2618Swnj	br = 0; cvec = br; br = cvec;
4935Swnj	rkintr(0);
2618Swnj#endif
2618Swnj	((struct rkdevice *)reg)->rkcs1 = RK_CDT|RK_IE|RK_CRDY;
2618Swnj	DELAY(10);
2618Swnj	((struct rkdevice *)reg)->rkcs1 = RK_CDT;
7416Skre	return (sizeof (struct rkdevice));
2618Swnj}
1899Swnj
2618Swnjrkslave(ui, reg)
2981Swnj	struct uba_device *ui;
2618Swnj	caddr_t reg;
2618Swnj{
2618Swnj	register struct rkdevice *rkaddr = (struct rkdevice *)reg;
1899Swnj
3709Sroot	ui->ui_type = 0;
3709Sroot	rkaddr->rkcs1 = RK_CCLR;
2618Swnj	rkaddr->rkcs2 = ui->ui_slave;
2957Swnj	rkaddr->rkcs1 = RK_CDT|RK_DCLR|RK_GO;
2622Swnj	rkwait(rkaddr);
2894Swnj	DELAY(50);
3293Swnj	if (rkaddr->rkcs2&RKCS2_NED || (rkaddr->rkds&RKDS_SVAL) == 0) {
3709Sroot		rkaddr->rkcs1 = RK_CCLR;
2618Swnj		return (0);
2618Swnj	}
3709Sroot	if (rkaddr->rkcs1&RK_CERR && rkaddr->rker&RKER_DTYE) {
3709Sroot		ui->ui_type = 1;
3709Sroot		rkaddr->rkcs1 = RK_CCLR;
3709Sroot	}
2618Swnj	return (1);
2618Swnj}
2618Swnj
2618Swnjrkattach(ui)
2981Swnj	register struct uba_device *ui;
2618Swnj{
2618Swnj
2618Swnj	if (rkwstart == 0) {
2758Swnj		timeout(rkwatch, (caddr_t)0, hz);
2618Swnj		rkwstart++;
2618Swnj	}
2618Swnj	if (ui->ui_dk >= 0)
2758Swnj		dk_mspw[ui->ui_dk] = 1.0 / (60 * NRKSECT * 256);
2618Swnj	rkip[ui->ui_ctlr][ui->ui_slave] = ui;
2618Swnj	rk_softc[ui->ui_ctlr].sc_ndrive++;
2618Swnj	rkcyl[ui->ui_unit] = -1;
3709Sroot	ui->ui_flags = 0;
2618Swnj}
2618Swnj
8573Srootrkopen(dev)
8573Sroot	dev_t dev;
8573Sroot{
24785Skarels	register int unit = rkunit(dev);
8573Sroot	register struct uba_device *ui;
8573Sroot
8573Sroot	if (unit >= NRK || (ui = rkdinfo[unit]) == 0 || ui->ui_alive == 0)
8573Sroot		return (ENXIO);
8573Sroot	return (0);
8573Sroot}
8573Sroot
1899Swnjrkstrategy(bp)
2618Swnj	register struct buf *bp;
1899Swnj{
2981Swnj	register struct uba_device *ui;
2618Swnj	register struct rkst *st;
2618Swnj	register int unit;
2618Swnj	register struct buf *dp;
2618Swnj	int xunit = minor(bp->b_dev) & 07;
2618Swnj	long bn, sz;
5433Sroot	int s;
1899Swnj
2618Swnj	sz = (bp->b_bcount+511) >> 9;
24740Sbloom	unit = rkunit(bp->b_dev);
24740Sbloom	if (unit >= NRK) {
24740Sbloom		bp->b_error = ENXIO;
2618Swnj		goto bad;
24740Sbloom	}
2618Swnj	ui = rkdinfo[unit];
24740Sbloom	if (ui == 0 || ui->ui_alive == 0) {
24740Sbloom		bp->b_error = ENXIO;
2618Swnj		goto bad;
24740Sbloom	}
2618Swnj	st = &rkst[ui->ui_type];
2618Swnj	if (bp->b_blkno < 0 ||
24740Sbloom	    (bn = bp->b_blkno)+sz > st->sizes[xunit].nblocks) {
24785Skarels		if (bp->b_blkno == st->sizes[xunit].nblocks) {
24785Skarels		    bp->b_resid = bp->b_bcount;
24740Sbloom		    goto done;
24785Skarels		}
24740Sbloom		bp->b_error = EINVAL;
2618Swnj		goto bad;
24740Sbloom	}
2618Swnj	bp->b_cylin = bn/st->nspc + st->sizes[xunit].cyloff;
5433Sroot	s = spl5();
2618Swnj	dp = &rkutab[ui->ui_unit];
2618Swnj	disksort(dp, bp);
2618Swnj	if (dp->b_active == 0) {
2618Swnj		(void) rkustart(ui);
2618Swnj		bp = &ui->ui_mi->um_tab;
2618Swnj		if (bp->b_actf && bp->b_active == 0)
2618Swnj			(void) rkstart(ui->ui_mi);
1899Swnj	}
5433Sroot	splx(s);
2618Swnj	return;
2618Swnj
2618Swnjbad:
2618Swnj	bp->b_flags |= B_ERROR;
24740Sbloomdone:
2618Swnj	iodone(bp);
2618Swnj	return;
1899Swnj}
1899Swnj
2618Swnjrkustart(ui)
2981Swnj	register struct uba_device *ui;
2618Swnj{
2618Swnj	register struct buf *bp, *dp;
2981Swnj	register struct uba_ctlr *um;
2618Swnj	register struct rkdevice *rkaddr;
1899Swnj
2618Swnj	if (ui == 0)
6347Swnj		return;
2618Swnj	dk_busy &= ~(1<<ui->ui_dk);
2618Swnj	dp = &rkutab[ui->ui_unit];
2618Swnj	um = ui->ui_mi;
2894Swnj	rkaddr = (struct rkdevice *)um->um_addr;
2618Swnj	if (um->um_tab.b_active) {
2618Swnj		rk_softc[um->um_ctlr].sc_softas |= 1<<ui->ui_slave;
6347Swnj		return;
2618Swnj	}
6347Swnj	if ((bp = dp->b_actf) == NULL)
6347Swnj		return;
3709Sroot	rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_CERR;
2618Swnj	rkaddr->rkcs2 = ui->ui_slave;
3709Sroot	rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_DCLR|RK_GO;
2618Swnj	rkwait(rkaddr);
3709Sroot	if ((rkaddr->rkds & RKDS_VV) == 0 || ui->ui_flags == 0) {
2618Swnj		/* SHOULD WARN SYSTEM THAT THIS HAPPENED */
3709Sroot		struct rkst *st = &rkst[ui->ui_type];
3709Sroot		struct buf *bbp = &brkbuf[ui->ui_unit];
3709Sroot
3709Sroot		rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_PACK|RK_GO;
3709Sroot		ui->ui_flags = 1;
3709Sroot		bbp->b_flags = B_READ|B_BUSY;
3709Sroot		bbp->b_dev = bp->b_dev;
3709Sroot		bbp->b_bcount = 512;
3709Sroot		bbp->b_un.b_addr = (caddr_t)&rkbad[ui->ui_unit];
3709Sroot		bbp->b_blkno = st->ncyl*st->nspc - st->nsect;
3709Sroot		bbp->b_cylin = st->ncyl - 1;
3709Sroot		dp->b_actf = bbp;
3709Sroot		bbp->av_forw = bp;
3709Sroot		bp = bbp;
2618Swnj		rkwait(rkaddr);
2618Swnj	}
2903Swnj	if (dp->b_active)
2903Swnj		goto done;
2903Swnj	dp->b_active = 1;
3293Swnj	if ((rkaddr->rkds & RKDS_DREADY) != RKDS_DREADY)
2894Swnj		goto done;
2618Swnj	if (rk_softc[um->um_ctlr].sc_ndrive == 1)
2618Swnj		goto done;
2618Swnj	if (bp->b_cylin == rkcyl[ui->ui_unit])
2618Swnj		goto done;
2618Swnj	rkaddr->rkcyl = bp->b_cylin;
2618Swnj	rkcyl[ui->ui_unit] = bp->b_cylin;
3709Sroot	rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_IE|RK_SEEK|RK_GO;
2618Swnj	if (ui->ui_dk >= 0) {
2618Swnj		dk_busy |= 1<<ui->ui_dk;
2618Swnj		dk_seek[ui->ui_dk]++;
2618Swnj	}
2618Swnj	goto out;
2618Swnjdone:
2618Swnj	if (dp->b_active != 2) {
2618Swnj		dp->b_forw = NULL;
2618Swnj		if (um->um_tab.b_actf == NULL)
2618Swnj			um->um_tab.b_actf = dp;
2618Swnj		else
2618Swnj			um->um_tab.b_actl->b_forw = dp;
2618Swnj		um->um_tab.b_actl = dp;
2618Swnj		dp->b_active = 2;
2618Swnj	}
2618Swnjout:
6347Swnj	return;
2618Swnj}
2618Swnj
2618Swnjrkstart(um)
2981Swnj	register struct uba_ctlr *um;
1899Swnj{
2618Swnj	register struct buf *bp, *dp;
2981Swnj	register struct uba_device *ui;
2618Swnj	register struct rkdevice *rkaddr;
2618Swnj	struct rkst *st;
1899Swnj	daddr_t bn;
2618Swnj	int sn, tn, cmd;
1899Swnj
2618Swnjloop:
2618Swnj	if ((dp = um->um_tab.b_actf) == NULL)
6347Swnj		return;
2618Swnj	if ((bp = dp->b_actf) == NULL) {
2618Swnj		um->um_tab.b_actf = dp->b_forw;
2618Swnj		goto loop;
1899Swnj	}
2618Swnj	um->um_tab.b_active++;
24740Sbloom	ui = rkdinfo[rkunit(bp->b_dev)];
24740Sbloom	bn = bp->b_blkno;
2618Swnj	st = &rkst[ui->ui_type];
2618Swnj	sn = bn%st->nspc;
2618Swnj	tn = sn/st->nsect;
2618Swnj	sn %= st->nsect;
2618Swnj	rkaddr = (struct rkdevice *)ui->ui_addr;
2957Swnjretry:
3709Sroot	rkaddr->rkcs1 = RK_CCLR;
2618Swnj	rkaddr->rkcs2 = ui->ui_slave;
3709Sroot	rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_DCLR|RK_GO;
2618Swnj	rkwait(rkaddr);
3293Swnj	if ((rkaddr->rkds&RKDS_SVAL) == 0) {
2957Swnj		rknosval++;
2957Swnj		goto nosval;
2894Swnj	}
3293Swnj	if (rkaddr->rkds&RKDS_PIP) {
2957Swnj		rkpip++;
2957Swnj		goto retry;
2957Swnj	}
3293Swnj	if ((rkaddr->rkds&RKDS_DREADY) != RKDS_DREADY) {
24740Sbloom		printf("rk%d: not ready", rkunit(bp->b_dev));
3293Swnj		if ((rkaddr->rkds&RKDS_DREADY) != RKDS_DREADY) {
2894Swnj			printf("\n");
3709Sroot			rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_DCLR|RK_GO;
2894Swnj			rkwait(rkaddr);
3709Sroot			rkaddr->rkcs1 = RK_CCLR;
2894Swnj			rkwait(rkaddr);
2894Swnj			um->um_tab.b_active = 0;
2894Swnj			um->um_tab.b_errcnt = 0;
2894Swnj			dp->b_actf = bp->av_forw;
2894Swnj			dp->b_active = 0;
2894Swnj			bp->b_flags |= B_ERROR;
2894Swnj			iodone(bp);
2894Swnj			goto loop;
2894Swnj		}
2894Swnj		printf(" (came back!)\n");
2894Swnj	}
2957Swnjnosval:
2618Swnj	rkaddr->rkcyl = bp->b_cylin;
2618Swnj	rkcyl[ui->ui_unit] = bp->b_cylin;
2618Swnj	rkaddr->rkda = (tn << 8) + sn;
2618Swnj	rkaddr->rkwc = -bp->b_bcount / sizeof (short);
2618Swnj	if (bp->b_flags & B_READ)
3709Sroot		cmd = rktypes[ui->ui_type]|RK_IE|RK_READ|RK_GO;
2618Swnj	else
3709Sroot		cmd = rktypes[ui->ui_type]|RK_IE|RK_WRITE|RK_GO;
2618Swnj	um->um_cmd = cmd;
3104Swnj	(void) ubago(ui);
1899Swnj}
1899Swnj
2618Swnjrkdgo(um)
2981Swnj	register struct uba_ctlr *um;
1899Swnj{
2618Swnj	register struct rkdevice *rkaddr = (struct rkdevice *)um->um_addr;
1899Swnj
7031Swnj	um->um_tab.b_active = 2;	/* should now be 2 */
2618Swnj	rkaddr->rkba = um->um_ubinfo;
2618Swnj	rkaddr->rkcs1 = um->um_cmd|((um->um_ubinfo>>8)&0x300);
2618Swnj}
2618Swnj
2710Swnjrkintr(rk11)
2618Swnj	int rk11;
2618Swnj{
2981Swnj	register struct uba_ctlr *um = rkminfo[rk11];
2981Swnj	register struct uba_device *ui;
2618Swnj	register struct rkdevice *rkaddr = (struct rkdevice *)um->um_addr;
2618Swnj	register struct buf *bp, *dp;
2618Swnj	int unit;
2618Swnj	struct rk_softc *sc = &rk_softc[um->um_ctlr];
2618Swnj	int as = (rkaddr->rkatt >> 8) | sc->sc_softas;
2618Swnj
2618Swnj	sc->sc_wticks = 0;
2618Swnj	sc->sc_softas = 0;
6347Swnj	if (um->um_tab.b_active == 2 || sc->sc_recal) {
7031Swnj		um->um_tab.b_active = 1;
2618Swnj		dp = um->um_tab.b_actf;
2618Swnj		bp = dp->b_actf;
24740Sbloom		ui = rkdinfo[rkunit(bp->b_dev)];
2618Swnj		dk_busy &= ~(1 << ui->ui_dk);
3709Sroot		if (bp->b_flags&B_BAD)
3709Sroot			if (rkecc(ui, CONT))
3709Sroot				return;
2618Swnj		if (rkaddr->rkcs1 & RK_CERR) {
2618Swnj			int recal;
2618Swnj			u_short ds = rkaddr->rkds;
2618Swnj			u_short cs2 = rkaddr->rkcs2;
2618Swnj			u_short er = rkaddr->rker;
3709Sroot#ifdef RKDEBUG
3293Swnj			if (rkdebug) {
3293Swnj				printf("cs2=%b ds=%b er=%b\n",
3293Swnj				    cs2, RKCS2_BITS, ds,
3293Swnj				    RKDS_BITS, er, RKER_BITS);
3293Swnj			}
3709Sroot#endif
3293Swnj			if (er & RKER_WLE) {
24740Sbloom				printf("rk%d: write locked\n",
24740Sbloom					rkunit(bp->b_dev));
2685Swnj				bp->b_flags |= B_ERROR;
2685Swnj			} else if (++um->um_tab.b_errcnt > 28 ||
2676Swnj			    ds&RKDS_HARD || er&RKER_HARD || cs2&RKCS2_HARD) {
3709Sroothard:
2927Swnj				harderr(bp, "rk");
2927Swnj				printf("cs2=%b ds=%b er=%b\n",
2894Swnj				    cs2, RKCS2_BITS, ds,
2676Swnj				    RKDS_BITS, er, RKER_BITS);
3145Swnj				bp->b_flags |= B_ERROR;
3145Swnj				sc->sc_recal = 0;
3709Sroot			} else if (er & RKER_BSE) {
3709Sroot				if (rkecc(ui, BSE))
3709Sroot					return;
3709Sroot				else
3709Sroot					goto hard;
7182Sroot			} else {
7182Sroot				if ((er & (RKER_DCK|RKER_ECH)) == RKER_DCK) {
7182Sroot					if (rkecc(ui, ECC))
7182Sroot						return;
7182Sroot				} else
7182Sroot					um->um_tab.b_active = 0;
7182Sroot			}
3293Swnj			if (cs2&RKCS2_MDS) {
3293Swnj				rkaddr->rkcs2 = RKCS2_SCLR;
2618Swnj				goto retry;
1899Swnj			}
2618Swnj			recal = 0;
3293Swnj			if (ds&RKDS_DROT || er&(RKER_OPI|RKER_SKI|RKER_UNS) ||
2618Swnj			    (um->um_tab.b_errcnt&07) == 4)
2618Swnj				recal = 1;
3709Sroot			rkaddr->rkcs1 = RK_CCLR;
2618Swnj			rkaddr->rkcs2 = ui->ui_slave;
3709Sroot			rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_DCLR|RK_GO;
2618Swnj			rkwait(rkaddr);
2618Swnj			if (recal && um->um_tab.b_active == 0) {
3709Sroot				rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_IE|RK_RECAL|RK_GO;
2618Swnj				rkcyl[ui->ui_unit] = -1;
2957Swnj				sc->sc_recal = 0;
2957Swnj				goto nextrecal;
2618Swnj			}
1899Swnj		}
2618Swnjretry:
2957Swnj		switch (sc->sc_recal) {
2957Swnj
2957Swnj		case 1:
2957Swnj			rkaddr->rkcyl = bp->b_cylin;
2957Swnj			rkcyl[ui->ui_unit] = bp->b_cylin;
3709Sroot			rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_IE|RK_SEEK|RK_GO;
2957Swnj			goto nextrecal;
2957Swnj		case 2:
2957Swnj			if (um->um_tab.b_errcnt < 16 ||
3290Swnj			    (bp->b_flags&B_READ) == 0)
3159Swnj				goto donerecal;
2957Swnj			rkaddr->rkatt = rk_offset[um->um_tab.b_errcnt & 017];
3709Sroot			rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_IE|RK_OFFSET|RK_GO;
2957Swnj			/* fall into ... */
2957Swnj		nextrecal:
2957Swnj			sc->sc_recal++;
2957Swnj			rkwait(rkaddr);
2957Swnj			um->um_tab.b_active = 1;
2957Swnj			return;
3159Swnj		donerecal:
2957Swnj		case 3:
2618Swnj			sc->sc_recal = 0;
2618Swnj			um->um_tab.b_active = 0;
2957Swnj			break;
1899Swnj		}
3709Sroot		ubadone(um);
2618Swnj		if (um->um_tab.b_active) {
2618Swnj			um->um_tab.b_active = 0;
2618Swnj			um->um_tab.b_errcnt = 0;
2618Swnj			um->um_tab.b_actf = dp->b_forw;
2618Swnj			dp->b_active = 0;
2618Swnj			dp->b_errcnt = 0;
2618Swnj			dp->b_actf = bp->av_forw;
2618Swnj			bp->b_resid = -rkaddr->rkwc * sizeof(short);
2618Swnj			iodone(bp);
2618Swnj			if (dp->b_actf)
6347Swnj				rkustart(ui);
1899Swnj		}
2618Swnj		as &= ~(1<<ui->ui_slave);
1899Swnj	}
2618Swnj	for (unit = 0; as; as >>= 1, unit++)
2981Swnj		if (as & 1) {
2981Swnj			ui = rkip[rk11][unit];
2981Swnj			if (ui) {
6347Swnj				rkustart(rkip[rk11][unit]);
2981Swnj			} else {
3709Sroot				rkaddr->rkcs1 = RK_CCLR;
2981Swnj				rkaddr->rkcs2 = unit;
3709Sroot				rkaddr->rkcs1 = RK_DCLR|RK_GO;
2981Swnj				rkwait(rkaddr);
3709Sroot				rkaddr->rkcs1 = RK_CCLR;
2981Swnj			}
2981Swnj		}
2618Swnj	if (um->um_tab.b_actf && um->um_tab.b_active == 0)
6347Swnj		rkstart(um);
8609Sroot	if (((rkaddr->rkcs1) & RK_IE) == 0)
3709Sroot		rkaddr->rkcs1 = RK_IE;
1899Swnj}
1899Swnj
2618Swnjrkwait(addr)
2618Swnj	register struct rkdevice *addr;
2618Swnj{
1899Swnj
2618Swnj	while ((addr->rkcs1 & RK_CRDY) == 0)
2618Swnj		;
2618Swnj}
2618Swnj
7731Srootrkread(dev, uio)
2618Swnj	dev_t dev;
7731Sroot	struct uio *uio;
1899Swnj{
24785Skarels	register int unit = rkunit(dev);
2618Swnj
2648Swnj	if (unit >= NRK)
8162Sroot		return (ENXIO);
8162Sroot	return (physio(rkstrategy, &rrkbuf[unit], dev, B_READ, minphys, uio));
1899Swnj}
1899Swnj
7836Srootrkwrite(dev, uio)
2618Swnj	dev_t dev;
7836Sroot	struct uio *uio;
1899Swnj{
24785Skarels	register int unit = rkunit(dev);
1899Swnj
2648Swnj	if (unit >= NRK)
8493Sroot		return (ENXIO);
8493Sroot	return (physio(rkstrategy, &rrkbuf[unit], dev, B_WRITE, minphys, uio));
1899Swnj}
1899Swnj
3709Srootrkecc(ui, flag)
2981Swnj	register struct uba_device *ui;
1899Swnj{
2618Swnj	register struct rkdevice *rk = (struct rkdevice *)ui->ui_addr;
2618Swnj	register struct buf *bp = rkutab[ui->ui_unit].b_actf;
2981Swnj	register struct uba_ctlr *um = ui->ui_mi;
2618Swnj	register struct rkst *st;
2618Swnj	struct uba_regs *ubp = ui->ui_hd->uh_uba;
2618Swnj	caddr_t addr;
3709Sroot	int reg, npf, o, cmd, ubaddr;
2618Swnj	int bn, cn, tn, sn;
1899Swnj
3709Sroot	if (flag == CONT)
3709Sroot		npf = bp->b_error;
3709Sroot	else
*27675Skarels		npf = btodb(bp->b_bcount + (rk->rkwc * sizeof(short)) + 511);
2618Swnj	reg = btop(um->um_ubinfo&0x3ffff) + npf;
2618Swnj	o = (int)bp->b_un.b_addr & PGOFSET;
24740Sbloom	bn = bp->b_blkno;
2618Swnj	st = &rkst[ui->ui_type];
2618Swnj	cn = bp->b_cylin;
3709Sroot	sn = bn%st->nspc + npf;
2618Swnj	tn = sn/st->nsect;
2618Swnj	sn %= st->nsect;
2618Swnj	cn += tn/st->ntrak;
2618Swnj	tn %= st->ntrak;
3709Sroot	ubapurge(um);
3709Sroot	switch (flag) {
3709Sroot	case ECC:
3709Sroot		{
3709Sroot		register int i;
3709Sroot		int bit, byte, mask;
3709Sroot
3709Sroot		npf--;
3709Sroot		reg--;
24847Seric		log(LOG_WARNING, "rk%d%c: soft ecc sn%d\n", rkunit(bp->b_dev),
3709Sroot		    'a'+(minor(bp->b_dev)&07), bp->b_blkno + npf);
3709Sroot		mask = rk->rkec2;
3709Sroot		i = rk->rkec1 - 1;		/* -1 makes 0 origin */
3709Sroot		bit = i&07;
3709Sroot		i = (i&~07)>>3;
3709Sroot		byte = i + o;
*27675Skarels		while (i < 512 && (int)dbtob(npf)+i < bp->b_bcount && bit > -11) {
3709Sroot			addr = ptob(ubp->uba_map[reg+btop(byte)].pg_pfnum)+
3709Sroot			    (byte & PGOFSET);
3709Sroot			putmemc(addr, getmemc(addr)^(mask<<bit));
3709Sroot			byte++;
3709Sroot			i++;
3709Sroot			bit -= 8;
3709Sroot		}
7182Sroot		if (rk->rkwc == 0) {
7182Sroot			um->um_tab.b_active = 0;
3709Sroot			return (0);
7182Sroot		}
3709Sroot		npf++;
3709Sroot		reg++;
3709Sroot		break;
3709Sroot		}
3709Sroot
3709Sroot	case BSE:
3709Sroot#ifdef RKBDEBUG
3709Sroot		if (rkbdebug)
3709Sroot	printf("rkecc, BSE: bn %d cn %d tn %d sn %d\n", bn, cn, tn, sn);
3709Sroot#endif
3709Sroot		if ((bn = isbad(&rkbad[ui->ui_unit], cn, tn, sn)) < 0)
3709Sroot			return(0);
3709Sroot		bp->b_flags |= B_BAD;
3709Sroot		bp->b_error = npf + 1;
3709Sroot		bn = st->ncyl*st->nspc - st->nsect - 1 - bn;
3709Sroot		cn = bn/st->nspc;
3709Sroot		sn = bn%st->nspc;
3709Sroot		tn = sn/st->nsect;
3709Sroot		sn %= st->nsect;
3709Sroot#ifdef RKBDEBUG
3709Sroot		if (rkbdebug)
3709Sroot	printf("revector to cn %d tn %d sn %d\n", cn, tn, sn);
3709Sroot#endif
3709Sroot		rk->rkwc = -(512 / sizeof (short));
3709Sroot		break;
3709Sroot
3709Sroot	case CONT:
3709Sroot#ifdef RKBDEBUG
3709Sroot		if (rkbdebug)
3709Sroot	printf("rkecc, CONT: bn %d cn %d tn %d sn %d\n", bn,cn,tn,sn);
3709Sroot#endif
3709Sroot		bp->b_flags &= ~B_BAD;
*27675Skarels		if ((int)dbtob(npf) >= bp->b_bcount)
7182Sroot			return (0);
*27675Skarels		rk->rkwc = -((bp->b_bcount - (int)dbtob(npf)) / sizeof (short));
3709Sroot		break;
3709Sroot	}
3709Sroot	rk->rkcs1 = RK_CCLR;
3709Sroot	rk->rkcs2 = ui->ui_slave;
3709Sroot	rk->rkcs1 = rktypes[ui->ui_type]|RK_DCLR|RK_GO;
3709Sroot	rkwait(rk);
2618Swnj	rk->rkcyl = cn;
2618Swnj	rk->rkda = (tn << 8) | sn;
3709Sroot	ubaddr = (int)ptob(reg) + o;
2618Swnj	rk->rkba = ubaddr;
3709Sroot	cmd = (bp->b_flags&B_READ ? RK_READ : RK_WRITE)|RK_IE|RK_GO;
3709Sroot	cmd |= (ubaddr >> 8) & 0x300;
3709Sroot	cmd |= rktypes[ui->ui_type];
2618Swnj	rk->rkcs1 = cmd;
7031Swnj	um->um_tab.b_active = 2;	/* continuing */
3709Sroot	um->um_tab.b_errcnt = 0;	/* error has been corrected */
2618Swnj	return (1);
1899Swnj}
1899Swnj
2618Swnjrkreset(uban)
2927Swnj	int uban;
1899Swnj{
2981Swnj	register struct uba_ctlr *um;
2981Swnj	register struct uba_device *ui;
2618Swnj	register rk11, unit;
1899Swnj
2648Swnj	for (rk11 = 0; rk11 < NHK; rk11++) {
2618Swnj		if ((um = rkminfo[rk11]) == 0 || um->um_ubanum != uban ||
2618Swnj		    um->um_alive == 0)
2618Swnj			continue;
2927Swnj		printf(" hk%d", rk11);
2618Swnj		um->um_tab.b_active = 0;
2618Swnj		um->um_tab.b_actf = um->um_tab.b_actl = 0;
2618Swnj		rk_softc[um->um_ctlr].sc_recal = 0;
6347Swnj		rk_softc[um->um_ctlr].sc_wticks = 0;
2618Swnj		if (um->um_ubinfo) {
2618Swnj			printf("<%d>", (um->um_ubinfo>>28)&0xf);
9354Ssam			um->um_ubinfo = 0;
2618Swnj		}
4039Swnj		for (unit = 0; unit < NRK; unit++) {
2618Swnj			if ((ui = rkdinfo[unit]) == 0)
2618Swnj				continue;
4039Swnj			if (ui->ui_alive == 0 || ui->ui_mi != um)
2618Swnj				continue;
2618Swnj			rkutab[unit].b_active = 0;
2618Swnj			(void) rkustart(ui);
2618Swnj		}
2618Swnj		(void) rkstart(um);
2618Swnj	}
1899Swnj}
2380Swnj
2618Swnjrkwatch()
2380Swnj{
2981Swnj	register struct uba_ctlr *um;
2618Swnj	register rk11, unit;
2618Swnj	register struct rk_softc *sc;
2380Swnj
2758Swnj	timeout(rkwatch, (caddr_t)0, hz);
2648Swnj	for (rk11 = 0; rk11 < NHK; rk11++) {
2618Swnj		um = rkminfo[rk11];
2618Swnj		if (um == 0 || um->um_alive == 0)
2618Swnj			continue;
2618Swnj		sc = &rk_softc[rk11];
2618Swnj		if (um->um_tab.b_active == 0) {
2648Swnj			for (unit = 0; unit < NRK; unit++)
2622Swnj				if (rkutab[unit].b_active &&
2622Swnj				    rkdinfo[unit]->ui_mi == um)
2618Swnj					goto active;
2618Swnj			sc->sc_wticks = 0;
2618Swnj			continue;
2618Swnj		}
2618Swnjactive:
2618Swnj		sc->sc_wticks++;
2618Swnj		if (sc->sc_wticks >= 20) {
2618Swnj			sc->sc_wticks = 0;
2927Swnj			printf("hk%d: lost interrupt\n", rk11);
2648Swnj			ubareset(um->um_ubanum);
2618Swnj		}
2618Swnj	}
2380Swnj}
2618Swnj
2618Swnj#define	DBSIZE	20
2618Swnj
2618Swnjrkdump(dev)
2618Swnj	dev_t dev;
2618Swnj{
2618Swnj	struct rkdevice *rkaddr;
2618Swnj	char *start;
2618Swnj	int num, blk, unit;
2618Swnj	struct size *sizes;
2618Swnj	register struct uba_regs *uba;
2981Swnj	register struct uba_device *ui;
2618Swnj	register short *rp;
2618Swnj	struct rkst *st;
2618Swnj
24785Skarels	unit = rkunit(dev);
2885Swnj	if (unit >= NRK)
2885Swnj		return (ENXIO);
2618Swnj#define	phys(cast, addr) ((cast)((int)addr & 0x7fffffff))
2981Swnj	ui = phys(struct uba_device *, rkdinfo[unit]);
2885Swnj	if (ui->ui_alive == 0)
2885Swnj		return (ENXIO);
2618Swnj	uba = phys(struct uba_hd *, ui->ui_hd)->uh_physuba;
3329Swnj	ubainit(uba);
2618Swnj	rkaddr = (struct rkdevice *)ui->ui_physaddr;
2618Swnj	num = maxfree;
2618Swnj	start = 0;
3709Sroot	rkaddr->rkcs1 = RK_CCLR;
2618Swnj	rkaddr->rkcs2 = unit;
3709Sroot	rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_DCLR|RK_GO;
2618Swnj	rkwait(rkaddr);
3293Swnj	if ((rkaddr->rkds & RKDS_VV) == 0) {
3709Sroot		rkaddr->rkcs1 = rktypes[ui->ui_type]|RK_IE|RK_PACK|RK_GO;
2618Swnj		rkwait(rkaddr);
2618Swnj	}
2618Swnj	st = &rkst[ui->ui_type];
2618Swnj	sizes = phys(struct size *, st->sizes);
24210Sbloom	if (dumplo < 0)
2885Swnj		return (EINVAL);
24210Sbloom	if (dumplo + num >= sizes[minor(dev)&07].nblocks)
24210Sbloom		num = sizes[minor(dev)&07].nblocks - dumplo;
2618Swnj	while (num > 0) {
2618Swnj		register struct pte *io;
2618Swnj		register int i;
2618Swnj		int cn, sn, tn;
2618Swnj		daddr_t bn;
2618Swnj
2618Swnj		blk = num > DBSIZE ? DBSIZE : num;
2618Swnj		io = uba->uba_map;
2618Swnj		for (i = 0; i < blk; i++)
2981Swnj			*(int *)io++ = (btop(start)+i) | (1<<21) | UBAMR_MRV;
2618Swnj		*(int *)io = 0;
2618Swnj		bn = dumplo + btop(start);
2618Swnj		cn = bn/st->nspc + sizes[minor(dev)&07].cyloff;
2618Swnj		sn = bn%st->nspc;
2618Swnj		tn = sn/st->nsect;
2618Swnj		sn = sn%st->nsect;
2618Swnj		rkaddr->rkcyl = cn;
2618Swnj		rp = (short *) &rkaddr->rkda;
2618Swnj		*rp = (tn << 8) + sn;
2618Swnj		*--rp = 0;
2618Swnj		*--rp = -blk*NBPG / sizeof (short);
3709Sroot		*--rp = rktypes[ui->ui_type]|RK_GO|RK_WRITE;
2618Swnj		rkwait(rkaddr);
2885Swnj		if (rkaddr->rkcs1 & RK_CERR)
2885Swnj			return (EIO);
2618Swnj		start += blk*NBPG;
2618Swnj		num -= blk;
2618Swnj	}
2618Swnj	return (0);
2618Swnj}
12503Ssam
12503Ssamrksize(dev)
12503Ssam	dev_t dev;
12503Ssam{
24785Skarels	int unit = rkunit(dev);
12503Ssam	struct uba_device *ui;
12503Ssam	struct rkst *st;
12503Ssam
12503Ssam	if (unit >= NRK || (ui = rkdinfo[unit]) == 0 || ui->ui_alive == 0)
12503Ssam		return (-1);
12503Ssam	st = &rkst[ui->ui_type];
12503Ssam	return (st->sizes[minor(dev) & 07].nblocks);
12503Ssam}
2618Swnj#endif