tahoe/vba/vd.c

*25877Ssam/*	vd.c	1.5	86/01/12	*/
24004Ssam
24004Ssam#include "fsd.h"
24004Ssam#if NVD > 0
24004Ssam/*
25675Ssam * VDDC - Versabus SMD/ESMD driver.
25675Ssam */
*25877Ssam#ifdef VDDCPERF
*25877Ssam#define	DOSCOPE
*25877Ssam#endif
*25877Ssam
25675Ssam#include "../tahoe/mtpr.h"
25675Ssam#include "../tahoe/pte.h"
24004Ssam
25675Ssam#include "param.h"
25675Ssam#include "buf.h"
25675Ssam#include "cmap.h"
25675Ssam#include "conf.h"
25675Ssam#include "dir.h"
25675Ssam#include "dk.h"
25675Ssam#include "map.h"
25675Ssam#include "systm.h"
25675Ssam#include "user.h"
25675Ssam#include "vmmac.h"
25675Ssam#include "proc.h"
25675Ssam#include "uio.h"
24004Ssam
25675Ssam#include "../tahoevba/vbavar.h"
25675Ssam#define	VDGENDATA
25675Ssam#include "../tahoevba/vddcreg.h"
25675Ssam#undef VDGENDATA
*25877Ssam#include "../tahoevba/scope.h"
24004Ssam
25675Ssam#define	MAX_BLOCKSIZE	(MAXBPTE*NBPG)
25675Ssam#define	DUMPSIZE	64	/* controller limit */
24004Ssam
24004Ssam#define VDUNIT(x)	(minor(x) >> 3)
25675Ssam#define FILSYS(x)	(minor(x) & 0x07)
25675Ssam#define PHYS(x)		(vtoph((struct proc *)0, (unsigned)(x)))
25675Ssam#define TRUE		1
25675Ssam#define	FALSE		0
24004Ssam
25675Ssam#define CTLR_ERROR	1
25675Ssam#define DRIVE_ERROR	2
25675Ssam#define HARD_DATA_ERROR	3
25675Ssam#define SOFT_DATA_ERROR	4
24004Ssam
25675Ssam#define b_cylin	b_resid
25675Ssam#define b_daddr	b_error
24004Ssam
24004Ssamstruct	vba_ctlr *vdminfo[NVD];
24004Ssamstruct  vba_device *vddinfo[NFSD];
25675Ssamint	vdprobe(), vdslave(), vdattach(), vddgo();
25675Ssamstruct	vba_driver vddriver =
25675Ssam    { vdprobe, vdslave, vdattach, vddgo, vddcaddr, "smd/fsd",
25675Ssam      vddinfo, "vd", vdminfo };
24004Ssam
24004Ssam/*
25675Ssam * Per-drive state.
25675Ssam */
25675Ssamtypedef struct {
25675Ssam	struct	buf raw_q_element;
25675Ssam	short	sec_per_blk;
25675Ssam	short	sec_per_cyl;
25675Ssam	char	status;
25675Ssam	struct	buf xfer_queue;
25675Ssam	int	drive_type;
25675Ssam	fs_tab	info;
25675Ssam} unit_tab;
24004Ssam
24004Ssam/*
25675Ssam * Per-controller state.
25675Ssam */
25675Ssamtypedef struct {
25675Ssam	char	ctlr_type;	/* controller type */
25675Ssam	char	*map;		/* i/o page map */
25675Ssam	char	*utl;		/* mapped i/o space */
25675Ssam	u_int	cur_slave:8;	/* last active unit number */
25675Ssam	u_int	int_expected:1;	/* expect an interupt */
25675Ssam	u_int	ctlr_started:1;	/* start command was issued */
25675Ssam	u_int	overlap_seeks:1;/* should overlap seeks */
25675Ssam	u_int	off_cylinder:16;/* off cylinder bit map */
25675Ssam	u_int	unit_type[16];	/* slave types */
25675Ssam	u_int	cur_cyl[16];	/* cylinder last selected */
25675Ssam	long	cur_trk[16];	/* track last selected */
25675Ssam	fmt_mdcb ctlr_mdcb;	/* controller mdcb */
25675Ssam	fmt_dcb	ctlr_dcb;	/* r/w dcb */
25675Ssam	fmt_dcb	seek_dcb[4];	/* dcbs for overlapped seeks */
25675Ssam	/* buffer for raw/swap i/o */
25675Ssam	char	rawbuf[MAX_BLOCKSIZE];
25675Ssam} ctlr_tab;
24004Ssam
25675Ssamextern char	vd0utl[];
25675Ssam#if NVD > 1
25675Ssamextern char	vd1utl[];
25675Ssam#endif
25675Ssam#if NVD > 2
25675Ssamextern char	vd2utl[];
25675Ssam#endif
25675Ssam#if NVD > 3
25675Ssamextern char	vd3utl[];
25675Ssam#endif
24004Ssam
25675Ssam#define	VDCINIT(map, utl) { \
25675Ssam    UNKNOWN, (char *)map, utl, 0, FALSE, FALSE, TRUE, 0, \
25675Ssam	{ UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN, \
25675Ssam	  UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN,UNKNOWN } \
25675Ssam}
25675Ssamctlr_tab vdctlr_info[NVD] = {
25675Ssam	VDCINIT(VD0map, vd0utl),
25675Ssam#if NVD > 1
25675Ssam	VDCINIT(VD1map, vd1utl),
25675Ssam#endif
25675Ssam#if NVD > 2
25675Ssam	VDCINIT(VD2map, vd2utl),
25675Ssam#endif
25675Ssam#if NVD > 3
25675Ssam	VDCINIT(VD3map, vd3utl),
25675Ssam#endif
24004Ssam};
24004Ssam
25675Ssamunit_tab vdunit_info[NFSD];
24004Ssam
24004Ssam/*
25675Ssam * See if the controller is really there; if so, initialize it.
25675Ssam */
25857Ssamvdprobe(reg, vm)
25857Ssam	caddr_t reg;
25857Ssam	struct vba_ctlr *vm;
25675Ssam{
25857Ssam	register br, cvec;		/* must be r12, r11 */
25857Ssam	register cdr *cp = (cdr *)reg;
25857Ssam
25857Ssam	if (badaddr((caddr_t)reg, 2))
25675Ssam		return (0);
25857Ssam	cp->cdr_reset = 0xffffffff;
25675Ssam	DELAY(1000000);
25857Ssam	if (cp->cdr_reset != (unsigned)0xffffffff) {
25675Ssam		DELAY(1000000);
25675Ssam	} else {
25857Ssam		cp->cdr_reserved = 0x0;
25675Ssam		DELAY(3000000);
25675Ssam	}
25857Ssam	br = 0x17, cvec = 0xe0 + vm->um_ctlr;	/* XXX */
25857Ssam	return (sizeof (*cp));
25675Ssam}
24004Ssam
24004Ssam/*
25675Ssam * See if a drive is really there
25675Ssam * Try to reset/configure the drive, then test its status.
25675Ssam */
25675Ssamvdslave(vi, addr)
25675Ssam	register struct vba_device *vi;
25675Ssam	register cdr *addr;
25675Ssam{
25675Ssam	register ctlr_tab *ci = &vdctlr_info[vi->ui_ctlr];
25675Ssam	register unit_tab *ui = &vdunit_info[vi->ui_unit];
25675Ssam	register fmt_mdcb *mdcb = &ci->ctlr_mdcb;
25675Ssam	register fmt_dcb *dcb = &ci->ctlr_dcb;
25675Ssam	register int type;
24004Ssam
25675Ssam	if (ci->ctlr_type == UNKNOWN) {
25675Ssam		addr->cdr_reset = 0xffffffff;
25675Ssam		DELAY(1000000);
25675Ssam		if (addr->cdr_reset != (unsigned)0xffffffff) {
25675Ssam			ci->ctlr_type = SMDCTLR;
25675Ssam			ci->overlap_seeks = 0;
25675Ssam			DELAY(1000000);
25675Ssam		} else {
25675Ssam			ci->overlap_seeks = 1;
25675Ssam			ci->ctlr_type = SMD_ECTLR;
25675Ssam			addr->cdr_reserved = 0x0;
25675Ssam			DELAY(3000000);
25675Ssam			addr->cdr_csr = 0;
25675Ssam			addr->mdcb_tcf = AM_ENPDA;
25675Ssam			addr->dcb_tcf = AM_ENPDA;
25675Ssam			addr->trail_tcf = AM_ENPDA;
25675Ssam			addr->data_tcf = AM_ENPDA;
25675Ssam			addr->cdr_ccf = CCF_STS | XMD_32BIT | BSZ_16WRD |
25675Ssam			    CCF_ENP | CCF_EPE | CCF_EDE | CCF_ECE | CCF_ERR;
25675Ssam		}
25860Ssam		printf("vd%d: %s controller\n", vi->ui_unit,
25860Ssam		    ci->ctlr_type == SMDCTLR ? "smd" : "xsmd");
25675Ssam		if (vdnotrailer(addr,
25675Ssam		    vi->ui_ctlr, vi->ui_slave, INIT, 10) & HRDERR) {
25675Ssam			printf("vd%d: init error\n", vi->ui_unit);
25675Ssam			return (0);
25675Ssam		}
25675Ssam		if (vdnotrailer(addr,
25675Ssam		    vi->ui_ctlr, vi->ui_slave, DIAG, 10) & HRDERR) {
25675Ssam			printf("vd%d: diagnostic error\n", vi->ui_unit);
25675Ssam			return (0);
25675Ssam		}
25675Ssam	}
25675Ssam	/*
25675Ssam	 * Seek on all drive types starting from the largest one.
25675Ssam	 * a successful seek to the last sector/cylinder/track verifies
25675Ssam	 * the drive type connected to this port.
25675Ssam	 */
25675Ssam	for (type = 0; type < nvddrv; type++) {
25675Ssam		/* XXX */
25675Ssam		if (ci->ctlr_type == SMDCTLR && vdst[type].nsec != 32)
25675Ssam			continue;
25675Ssam		/* XXX */
25675Ssam		if (!vdconfigure_drive(addr, vi->ui_ctlr, vi->ui_slave, type,0))
25675Ssam			return (0);
25675Ssam		dcb->opcode = (short)RD;
25675Ssam		dcb->intflg = NOINT;
25675Ssam		dcb->nxtdcb = (fmt_dcb *)0;	/* end of chain */
25675Ssam		dcb->operrsta = 0;
25675Ssam		dcb->devselect = (char)(vi->ui_slave);
25675Ssam		dcb->trailcnt = (char)(sizeof (trrw) / sizeof (long));
25675Ssam		dcb->trail.rwtrail.memadr = (char *)PHYS(ci->rawbuf);
25675Ssam		dcb->trail.rwtrail.wcount = vdst[type].secsize/sizeof(short);
25675Ssam		dcb->trail.rwtrail.disk.cylinder = vdst[type].ncyl - 2;
25675Ssam		dcb->trail.rwtrail.disk.track = vdst[type].ntrak - 1;
25675Ssam		dcb->trail.rwtrail.disk.sector = vdst[type].nsec - 1;
25675Ssam		mdcb->firstdcb = (fmt_dcb *)(PHYS(dcb));
25675Ssam		mdcb->vddcstat = 0;
25675Ssam		VDDC_ATTENTION(addr, (fmt_mdcb *)(PHYS(mdcb)), ci->ctlr_type);
25675Ssam		POLLTILLDONE(addr, dcb, 60, ci->ctlr_type);
25675Ssam		if (vdtimeout <= 0)
25675Ssam			printf(" during probe\n");
25675Ssam		if ((dcb->operrsta&HRDERR) == 0)
25675Ssam			break;
25675Ssam	}
25675Ssam	if (type >= nvddrv) {
25675Ssam		/*
25675Ssam		 * If reached here, a drive which is not defined in the
25675Ssam		 * 'vdst' tables is connected. Cannot set it's type.
25675Ssam		 */
25675Ssam		printf("vd%d: unknown drive type\n", vi->ui_unit);
25675Ssam		return (0);
25675Ssam	}
25675Ssam	ui->drive_type = type;
25675Ssam	ui->info = vdst[type];
25675Ssam	ui->sec_per_blk = DEV_BSIZE / ui->info.secsize;
25675Ssam	vi->ui_type = type;
25675Ssam 	vi->ui_dk = 1;
25675Ssam	vddriver.ud_dname = ui->info.type_name;
25675Ssam	return (1);
24004Ssam}
24004Ssam
25675Ssamvdconfigure_drive(addr, ctlr, slave, type, pass)
25675Ssam	register cdr *addr;
25675Ssam	int ctlr, slave, type, pass;
24004Ssam{
25675Ssam	register ctlr_tab *ci = &vdctlr_info[ctlr];
25675Ssam
25675Ssam	ci->ctlr_dcb.opcode = RSTCFG;		/* command */
25675Ssam	ci->ctlr_dcb.intflg = NOINT;
25675Ssam	ci->ctlr_dcb.nxtdcb = (fmt_dcb *)0;	/* end of chain */
25675Ssam	ci->ctlr_dcb.operrsta = 0;
25675Ssam	ci->ctlr_dcb.devselect = (char)slave;
25675Ssam	ci->ctlr_dcb.trail.rstrail.ncyl = vdst[type].ncyl;
25675Ssam	ci->ctlr_dcb.trail.rstrail.nsurfaces = vdst[type].ntrak;
25675Ssam	if (ci->ctlr_type == SMD_ECTLR) {
25675Ssam		ci->ctlr_dcb.trailcnt = (char)4;
25675Ssam		ci->ctlr_dcb.trail.rstrail.nsectors = vdst[type].nsec;
25675Ssam		ci->ctlr_dcb.trail.rstrail.slip_sec = vdst[type].nslip;
25675Ssam	} else
25675Ssam		ci->ctlr_dcb.trailcnt = (char)2;
25675Ssam	ci->ctlr_mdcb.firstdcb = (fmt_dcb *)(PHYS(&ci->ctlr_dcb));
25675Ssam	ci->ctlr_mdcb.vddcstat = 0;
25675Ssam	VDDC_ATTENTION(addr, (fmt_mdcb *)(PHYS(&ci->ctlr_mdcb)), ci->ctlr_type);
25675Ssam	POLLTILLDONE(addr, &ci->ctlr_dcb, 5, ci->ctlr_type);
25675Ssam	if (vdtimeout <= 0) {
25675Ssam		printf(" during config\n");
25675Ssam		return (0);
25675Ssam	}
25675Ssam	if (ci->ctlr_dcb.operrsta & HRDERR) {
25675Ssam		if ((ci->ctlr_dcb.operrsta & (NOTCYLERR|DRVNRDY)) == 0)
25675Ssam			printf("vd%d: drive %d: config error\n", ctlr, slave);
25675Ssam		else if (pass == 0) {
25675Ssam			vdstart_drive(addr, ctlr, slave);
25675Ssam			return (vdconfigure_drive(addr, ctlr, slave, type, 1));
25675Ssam		} else if (pass == 2)
25675Ssam			return (vdconfigure_drive(addr, ctlr, slave, type, 3));
25675Ssam		return (0);
25675Ssam	}
25675Ssam	return (1);
24004Ssam}
24004Ssam
25675Ssamvdstart_drive(addr, ctlr, slave)
25675Ssam	cdr *addr;
25675Ssam	register int ctlr, slave;
24004Ssam{
25675Ssam	int error = 0;
24004Ssam
25675Ssam	printf("vd%d: starting drive %d, wait...", ctlr, slave);
25675Ssam	if (vdctlr_info[ctlr].ctlr_started) {
25675Ssamprintf("DELAY(5500000)...");
25675Ssam		DELAY(5500000);
25675Ssam		goto done;
24004Ssam	}
25675Ssam	vdctlr_info[ctlr].ctlr_started = 1;
25675Ssam	error = vdnotrailer(addr, ctlr, 0, VDSTART, (slave*6)+62) & HRDERR;
25675Ssam	if (!error) {
25675Ssamprintf("DELAY(%d)...", (slave * 5500000) + 62000000);
25675Ssam		DELAY((slave * 5500000) + 62000000);
24004Ssam	}
25675Ssamdone:
25675Ssam	printf("\n");
25675Ssam	return (error == 0);
25675Ssam}
24004Ssam
25675Ssamvdnotrailer(addr, ctlr, unit, function, time)
25675Ssam	register cdr *addr;
25675Ssam	int ctlr, unit, function, time;
24004Ssam{
25675Ssam	fmt_mdcb *mdcb = &vdctlr_info[ctlr].ctlr_mdcb;
25675Ssam	fmt_dcb *dcb = &vdctlr_info[ctlr].ctlr_dcb;
25675Ssam	int type = vdctlr_info[ctlr].ctlr_type;
24004Ssam
25675Ssam	dcb->opcode = function;		/* command */
24004Ssam	dcb->intflg = NOINT;
25675Ssam	dcb->nxtdcb = (fmt_dcb *)0;	/* end of chain */
25675Ssam	dcb->operrsta = 0;
25675Ssam	dcb->devselect = (char)unit;
24004Ssam	dcb->trailcnt = (char)0;
25675Ssam	mdcb->firstdcb = (fmt_dcb *)(PHYS(dcb));
24004Ssam	mdcb->vddcstat = 0;
25675Ssam	VDDC_ATTENTION(addr, (fmt_mdcb *)(PHYS(mdcb)), type);
25675Ssam	POLLTILLDONE(addr, dcb, time, type);
25675Ssam	if (vdtimeout <= 0) {
25675Ssam		printf(" during init\n");
25675Ssam		return (DCBCMP|ANYERR|HRDERR|OPABRT);
24004Ssam	}
25675Ssam	return (dcb->operrsta);
25675Ssam}
24004Ssam
25675Ssamvdattach(vi)
25675Ssam	register struct vba_device *vi;
25675Ssam{
25675Ssam	register unit_tab *ui = &vdunit_info[vi->ui_unit];
25675Ssam	register ctlr_tab *ci = &vdctlr_info[vi->ui_ctlr];
25675Ssam	register struct buf *cq = &vi->ui_mi->um_tab;
25675Ssam	register struct buf *uq = cq->b_forw;
25675Ssam	register struct buf *start_queue = uq;
25675Ssam	register fs_tab	*fs = &ui->info;
25675Ssam
25675Ssam	ui->info = vdst[vi->ui_type];
25675Ssam	ui->sec_per_blk = DEV_BSIZE / ui->info.secsize;
25675Ssam	ui->sec_per_cyl = ui->info.nsec * ui->info.ntrak;
25675Ssam	ui->xfer_queue.b_dev = vi->ui_slave;
25675Ssam	ci->unit_type[vi->ui_slave] = vi->ui_type;
25675Ssam	/* load unit into controller's active unit list */
25675Ssam	if (uq == NULL) {
25675Ssam		cq->b_forw = &ui->xfer_queue;
25675Ssam		ui->xfer_queue.b_forw = &ui->xfer_queue;
25675Ssam		ui->xfer_queue.b_back = &ui->xfer_queue;
25675Ssam	} else {
25675Ssam		while (uq->b_forw != start_queue)
25675Ssam			uq = uq->b_forw;
25675Ssam		ui->xfer_queue.b_forw = start_queue;
25675Ssam		ui->xfer_queue.b_back = uq;
25675Ssam		uq->b_forw = &ui->xfer_queue;
25675Ssam		start_queue->b_back = &ui->xfer_queue;
25675Ssam	}
24004Ssam	/*
25675Ssam	 * (60 / rpm) / (number of sectors per track * (bytes per sector / 2))
24004Ssam	 */
25675Ssam	dk_mspw[vi->ui_unit] = 120.0 / (fs->rpm * fs->nsec * fs->secsize);
24004Ssam}
24004Ssam
25675Ssam/*ARGSUSED*/
25675Ssamvddgo(um)
25675Ssam	struct vba_ctlr *um;
24004Ssam{
24004Ssam
24004Ssam}
24004Ssam
24004Ssamvdstrategy(bp)
25675Ssam	register struct buf *bp;
24004Ssam{
25675Ssam	register int unit = VDUNIT(bp->b_dev);
25675Ssam	register struct vba_device *vi = vddinfo[unit];
25675Ssam	register par_tab *par;
25675Ssam	register unit_tab *ui;
25675Ssam	register fs_tab *fs;
25675Ssam	register int blks, bn, s;
24004Ssam
25675Ssam	if (bp->b_bcount == 0 || vi == 0 || vi->ui_alive == 0)
25675Ssam		goto bad;
25675Ssam	ui = &vdunit_info[unit];
25675Ssam	fs = &ui->info;
25675Ssam	par = &fs->partition[FILSYS(bp->b_dev)];
25675Ssam	blks = (bp->b_bcount + DEV_BSIZE-1) >> DEV_BSHIFT;
25675Ssam	if (bp->b_blkno + blks >= par->par_len) {
25675Ssam		blks = par->par_len - bp->b_blkno;
25675Ssam		if (blks <= 0)
25675Ssam			goto bad;
25675Ssam		bp->b_bcount = blks * DEV_BSIZE;
25675Ssam	}
25675Ssam	bn = bp->b_blkno + par->par_start;
25675Ssam	bn *= ui->sec_per_blk;
25675Ssam	bp->b_daddr = (bn / fs->nsec) % fs->ntrak;
25675Ssam	bp->b_cylin = bn / ui->sec_per_cyl;
25675Ssam	vbasetup(bp, ui->info.secsize);
25675Ssam	s = spl7();
25675Ssam	if (ui->xfer_queue.av_forw == NULL) {
25675Ssam		register ctlr_tab *ci = &vdctlr_info[vi->ui_ctlr];
25675Ssam		int slave = vi->ui_slave;
24004Ssam
25675Ssam		if (bp->b_cylin != ci->cur_cyl[slave] ||
25675Ssam		    bp->b_daddr != ci->cur_trk[slave])
25675Ssam			ci->off_cylinder |= 1 << slave;
24004Ssam	}
25675Ssam	bp->b_daddr |= (bn % fs->nsec) << 8;
25675Ssam	disksort(&ui->xfer_queue, bp);
25675Ssam	if (!vddinfo[unit]->ui_mi->um_tab.b_active++) {
25675Ssam		splx(s);
25675Ssam		vdstart(vddinfo[unit]->ui_mi);
25675Ssam	} else
25675Ssam		splx(s);
24004Ssam	return;
25675Ssambad:
25675Ssam	bp->b_flags |= B_ERROR, bp->b_error = ENXIO;
25675Ssam	bp->b_resid = bp->b_bcount;
24004Ssam	iodone(bp);
24004Ssam}
24004Ssam
24004Ssam/*
24004Ssam * Start up a transfer on a drive.
24004Ssam */
25675Ssamvdstart(ci)
25675Ssam	register struct vba_ctlr *ci;
24004Ssam{
25675Ssam	register struct buf *cq = &ci->um_tab;
25675Ssam	register struct buf *uq = cq->b_forw;
24004Ssam
25675Ssam	/* search for next ready unit */
25675Ssam	cq->b_forw = cq->b_forw->b_forw;
25675Ssam	uq = cq->b_forw;
25675Ssam	do {
25675Ssam		if (uq->av_forw != NULL) {
25675Ssam			cq->b_forw = uq;
25675Ssam			vdexecute(ci, uq);
25675Ssam			return;
25675Ssam		}
25675Ssam		uq = uq->b_forw;
25675Ssam	} while (uq != cq->b_forw);
25675Ssam}
25675Ssam
25675Ssam/*
25675Ssam * Initiate seeks for all drives off-cylinder.
25675Ssam */
25675Ssamvdload_seeks(ci, uq)
25675Ssam	register ctlr_tab *ci;
25675Ssam	register struct buf *uq;
25675Ssam{
25675Ssam	register int unit, slave, nseeks;
25675Ssam	register fmt_dcb *dcb;
25675Ssam	register struct buf *bp;
25675Ssam	register struct buf *start_queue = uq;
25675Ssam
25675Ssam	nseeks = 0;
25675Ssam	do {
25675Ssam		bp = uq->av_forw;
25675Ssam		if (bp != NULL) {
25675Ssam			unit = VDUNIT(bp->b_dev);
25675Ssam			slave = vddinfo[unit]->ui_slave;
25675Ssam			if (ci->off_cylinder & (1 << slave)) {
25675Ssam				ci->off_cylinder &= ~(1 << slave);
25675Ssam				if (ci->cur_cyl[slave] != bp->b_cylin) {
25675Ssam					ci->cur_cyl[slave] = bp->b_cylin;
25675Ssam					dk_seek[unit]++;
25675Ssam				}
25675Ssam				ci->cur_trk[slave] = bp->b_daddr&0xff;
25675Ssam				dcb = &ci->seek_dcb[nseeks++];
25675Ssam				dcb->opcode = SEEK;
25675Ssam				dcb->intflg = NOINT | INT_PBA;
25675Ssam				dcb->operrsta = 0;
25675Ssam				dcb->devselect = (char)slave;
25675Ssam				dcb->trailcnt = (char)1;
25675Ssam				dcb->trail.sktrail.skaddr.cylinder =
25675Ssam				    bp->b_cylin;
25675Ssam				dcb->trail.sktrail.skaddr.track =
25675Ssam				    bp->b_daddr & 0xff;
25675Ssam				dcb->trail.sktrail.skaddr.sector = 0;
25675Ssam			}
25675Ssam		}
25675Ssam		uq = uq->b_forw;
25675Ssam	} while (uq != start_queue && nseeks < 4);
25675Ssam	return (nseeks);
25675Ssam}
25675Ssam
25675Ssamextern	vd_int_timeout();
25675Ssam/*
25675Ssam * Execute the next command on the unit queue uq.
25675Ssam */
25675Ssamvdexecute(controller_info, uq)
25675Ssam	register struct vba_ctlr *controller_info;
25675Ssam	register struct buf *uq;
25675Ssam{
25675Ssam	register struct	buf *bp = uq->av_forw;
25675Ssam	register int ctlr = controller_info->um_ctlr;
25675Ssam	register ctlr_tab *ci = &vdctlr_info[ctlr];
25675Ssam	register int unit = VDUNIT(bp->b_dev);
25675Ssam	register int slave = vddinfo[unit]->ui_slave;
25675Ssam	register fmt_mdcb *mdcb = &ci->ctlr_mdcb;
25675Ssam	register fmt_dcb *dcb = &ci->ctlr_dcb;
25675Ssam
24004Ssam	/*
25675Ssam	 * If there are overlapped seeks to perform, shuffle
25675Ssam	 * them to the front of the queue and get them started
25675Ssam	 * before any data transfers (to get some parallelism).
24004Ssam	 */
25675Ssam	if ((ci->off_cylinder & ~(1<<slave)) && ci->overlap_seeks) {
25675Ssam		register int i, nseeks;
25675Ssam
25675Ssam		/* setup seek requests in seek-q */
25675Ssam		nseeks = vdload_seeks(ci, uq);
25675Ssam		/* place at the front of the master q */
25675Ssam		mdcb->firstdcb = (fmt_dcb *)PHYS(&ci->seek_dcb[0]);
25675Ssam		/* shuffle any remaining seeks up in the seek-q */
25675Ssam		for (i = 1; i < nseeks; i++)
25675Ssam			ci->seek_dcb[i-1].nxtdcb =
25675Ssam			    (fmt_dcb *)PHYS(&ci->seek_dcb[i]);
25675Ssam		ci->seek_dcb[nseeks-1].nxtdcb = (fmt_dcb *)PHYS(dcb);
25675Ssam	} else {
25675Ssam		if (bp->b_cylin != ci->cur_cyl[slave]) {
25675Ssam			ci->cur_cyl[slave] = bp->b_cylin;
25675Ssam			dk_seek[unit]++;
25675Ssam		}
25675Ssam		ci->cur_trk[slave] = bp->b_daddr & 0xff;
25675Ssam		ci->off_cylinder = 0;
25675Ssam		mdcb->firstdcb = (fmt_dcb *)(PHYS(dcb));
24004Ssam	}
24004Ssam	dcb->opcode = (bp->b_flags & B_READ) ? RD : WD;
25675Ssam	dcb->intflg = INTDONE;
25675Ssam	dcb->nxtdcb = (fmt_dcb *)0;	/* end of chain */
24004Ssam	dcb->operrsta = 0;
25675Ssam	dcb->devselect = (char)slave;
25675Ssam	dcb->trailcnt = (char)(sizeof (trrw) / sizeof (long));
25675Ssam	dcb->trail.rwtrail.memadr = (char *)
25675Ssam	    vbastart(bp, ci->rawbuf, (long *)ci->map, ci->utl);
25675Ssam	dcb->trail.rwtrail.wcount = (short)((bp->b_bcount+1) / sizeof (short));
25675Ssam	dcb->trail.rwtrail.disk.cylinder = bp->b_cylin;
25675Ssam	dcb->trail.rwtrail.disk.track = bp->b_daddr & 0xff;
25675Ssam	dcb->trail.rwtrail.disk.sector = bp->b_daddr >> 8;
25675Ssam	mdcb->vddcstat = 0;
25675Ssam   	dk_wds[unit] += bp->b_bcount / 32;
25675Ssam	ci->int_expected = 1;
25675Ssam	timeout(vd_int_timeout, (caddr_t)ctlr, 20*60);
25675Ssam  	dk_busy |= 1 << unit;
25675Ssam	scope_out(1);
25675Ssam	VDDC_ATTENTION((cdr *)(vdminfo[ctlr]->um_addr),
25675Ssam	    (fmt_mdcb *)(PHYS(mdcb)), ci->ctlr_type);
25675Ssam}
24004Ssam
24004Ssam/*
25675Ssam * Watch for lost interrupts.
25675Ssam */
25675Ssamvd_int_timeout(ctlr)
25675Ssam	register int ctlr;
25675Ssam{
25675Ssam	register ctlr_tab *ci = &vdctlr_info[ctlr];
25675Ssam	register fmt_dcb *dcb = &ci->ctlr_dcb;
24004Ssam
25675Ssam	uncache(&dcb->operrsta);
25675Ssam	printf("vd%d: lost interupt, status %x", ctlr, dcb->operrsta);
25675Ssam	if (ci->ctlr_type == SMD_ECTLR) {
25675Ssam		uncache(&dcb->err_code);
25675Ssam		printf(", error code %x", dcb->err_code);
24004Ssam	}
25675Ssam	printf("\n");
25675Ssam	if ((dcb->operrsta&DCBCMP) == 0) {
25675Ssam		VDDC_ABORT((cdr *)(vdminfo[ctlr]->um_addr), ci->ctlr_type);
25675Ssam		dcb->operrsta |= DCBUSC | DCBABT | ANYERR | HRDERR | CTLRERR;
25675Ssam	}
25675Ssam	vdintr(ctlr);
24004Ssam}
24004Ssam
24004Ssam/*
24004Ssam * Handle a disk interrupt.
24004Ssam */
25675Ssamvdintr(ctlr)
25675Ssam	register int ctlr;
24004Ssam{
25675Ssam	register ctlr_tab *ci;
25675Ssam	register struct buf *cq, *uq, *bp;
25675Ssam	register int slave, unit;
25675Ssam	register fmt_mdcb  *mdcb;
25675Ssam	register fmt_dcb *dcb;
25675Ssam	int code, s;
24004Ssam
25675Ssam	untimeout(vd_int_timeout, (caddr_t)ctlr);
24004Ssam	scope_out(2);
25675Ssam	ci = &vdctlr_info[ctlr];
25675Ssam	if (!ci->int_expected) {
25675Ssam		printf("vd%d: stray interrupt\n", ctlr);
24004Ssam		return;
24004Ssam	}
25675Ssam	/*
25675Ssam	 * Take first request off controller's queue.
25675Ssam	 */
25675Ssam	cq = &vdminfo[ctlr]->um_tab;
25675Ssam	uq = cq->b_forw;
25675Ssam	bp = uq->av_forw;
24004Ssam	unit = VDUNIT(bp->b_dev);
25675Ssam	dk_busy &= ~(1 << unit);
25675Ssam	dk_xfer[unit]++;
25675Ssam	ci->int_expected = 0;
25675Ssam	/* find associated control blocks */
25675Ssam	mdcb = &ci->ctlr_mdcb, uncache(&mdcb->intdcb);
25675Ssam	dcb = &ci->ctlr_dcb, uncache(&dcb->operrsta);
25675Ssam	if (ci->ctlr_type == SMD_ECTLR)
25675Ssam		uncache(&dcb->err_code);
25675Ssam	slave = uq->b_dev;
25675Ssam	switch (code = vddecode_error(dcb)) {
24004Ssam
25675Ssam	case CTLR_ERROR:
25675Ssam	case DRIVE_ERROR:
25675Ssam		if (cq->b_errcnt >= 2)
25675Ssam			vdhard_error(ci, bp, dcb);
25675Ssam		if (code == CTLR_ERROR)
25675Ssam			vdreset_ctlr((cdr *)vdminfo[ctlr]->um_addr, ctlr);
25675Ssam		else
25675Ssam			reset_drive((cdr *)vdminfo[ctlr]->um_addr, ctlr,
25675Ssam			    slave, 2);
25675Ssam		if (cq->b_errcnt++ < 2) {	/* retry error */
25675Ssam			cq->b_forw = uq->b_back;
25675Ssam			vdstart(vdminfo[ctlr]);
25675Ssam			return;
25675Ssam		}
25675Ssam		bp->b_resid = bp->b_bcount;
25675Ssam		break;
25675Ssam
25675Ssam	case HARD_DATA_ERROR:
25675Ssam		vdhard_error(ci, bp, dcb);
25675Ssam		bp->b_resid = 0;
25675Ssam		break;
25675Ssam
25675Ssam	case SOFT_DATA_ERROR:
25675Ssam		vdsoft_error(ci, bp, dcb);
25675Ssam		/* fall thru... */
25675Ssam
25675Ssam	default:			/* operation completed */
25675Ssam		bp->b_error = 0;
25675Ssam		bp->b_resid = 0;
25675Ssam		break;
24004Ssam	}
25675Ssam	vbadone(bp, ci->rawbuf, (long *)ci->map, ci->utl);
25675Ssam	/*
25675Ssam	 * Take next request on this unit q, or, if none,
25675Ssam	 * the next request on the next active unit q.
25675Ssam	 */
25675Ssam	s = spl7();
25675Ssam	uq->av_forw = bp->av_forw;
25675Ssam	if (uq->av_back != bp) {
25675Ssam		register struct buf *next;
24004Ssam
25675Ssam		unit = VDUNIT(uq->av_forw->b_dev);
25675Ssam		slave = vddinfo[unit]->ui_slave;
25675Ssam		next = uq->av_forw;
25675Ssam		if (next->b_cylin != ci->cur_cyl[slave] ||
25675Ssam		    (next->b_daddr & 0xff) != ci->cur_trk[slave])
25675Ssam			ci->off_cylinder |= 1 << slave;
25675Ssam	} else
25675Ssam		uq->av_back = NULL;
25675Ssam	splx(s);
25675Ssam	/* reset controller state */
25675Ssam	cq->b_errcnt = 0;
25675Ssam	cq->b_active--;
24004Ssam	scope_out(3);
25675Ssam	if (bp->b_flags & B_ERROR)
25675Ssam		bp->b_error = EIO;
24004Ssam	iodone(bp);
25675Ssam	vdstart(vdminfo[ctlr]);
24004Ssam}
24004Ssam
25675Ssam/*
25675Ssam * Convert controller status to internal operation/error code.
25675Ssam */
25675Ssamvddecode_error(dcb)
25675Ssam	register fmt_dcb *dcb;
25675Ssam{
24004Ssam
25675Ssam	if (dcb->operrsta & HRDERR) {
25675Ssam		if (dcb->operrsta & (HCRCERR | HCMPERR | UCDATERR | WPTERR |
25675Ssam		    DSEEKERR | NOTCYLERR |DRVNRDY | INVDADR))
25675Ssam			return (DRIVE_ERROR);
25675Ssam		if (dcb->operrsta & (CTLRERR | OPABRT | INVCMD | DNEMEM))
25675Ssam			return (CTLR_ERROR);
25675Ssam		return (HARD_DATA_ERROR);
25675Ssam	}
25675Ssam	if (dcb->operrsta & SFTERR)
25675Ssam		return (SOFT_DATA_ERROR);
25675Ssam	return (0);
25675Ssam}
25675Ssam
25675Ssam/*
25675Ssam * Report a hard error.
25675Ssam */
25675Ssamvdhard_error(ci, bp, dcb)
25675Ssam	ctlr_tab *ci;
25675Ssam	register struct buf *bp;
25675Ssam	register fmt_dcb *dcb;
25675Ssam{
25675Ssam	unit_tab *ui = &vdunit_info[VDUNIT(bp->b_dev)];
25675Ssam
25675Ssam	bp->b_flags |= B_ERROR;
25675Ssam	harderr(bp, ui->info.type_name);
25675Ssam	printf("status %x", dcb->operrsta);
25675Ssam	if (ci->ctlr_type == SMD_ECTLR)
25675Ssam		printf(" ecode %x", dcb->err_code);
25675Ssam	printf("\n");
25675Ssam}
25675Ssam
25675Ssam/*
25675Ssam * Report a soft error.
25675Ssam */
25675Ssamvdsoft_error(ci, bp, dcb)
25675Ssam	ctlr_tab *ci;
25675Ssam	register struct buf *bp;
25675Ssam	register fmt_dcb *dcb;
25675Ssam{
25675Ssam	unit_tab *ui = &vdunit_info[VDUNIT(bp->b_dev)];
25675Ssam
25675Ssam	printf("%s%d%c: soft error sn%d status %x", ui->info.type_name,
25857Ssam	    minor(bp->b_dev) >> 3, 'a'+(minor(bp->b_dev)&07), bp->b_blkno,
25675Ssam	    dcb->operrsta);
25675Ssam	if (ci->ctlr_type == SMD_ECTLR)
25675Ssam		printf(" ecode %x", dcb->err_code);
25675Ssam	printf("\n");
25675Ssam}
25675Ssam
25675Ssam/*ARGSUSED*/
25675Ssamvdopen(dev, flag)
25675Ssam	dev_t dev;
25675Ssam	int flag;
25675Ssam{
25675Ssam	register unit = VDUNIT(dev);
25675Ssam	register struct vba_device *vi = vddinfo[unit];
25675Ssam
25675Ssam	if (vi == 0 || vi->ui_alive == 0 || vi->ui_type >= nvddrv)
25675Ssam		return (ENXIO);
25675Ssam	if (vdunit_info[unit].info.partition[FILSYS(dev)].par_len == 0)
25675Ssam		return (ENXIO);
25675Ssam	return (0);
25675Ssam}
25675Ssam
24004Ssamvdread(dev, uio)
25675Ssam	dev_t dev;
25675Ssam	struct uio *uio;
24004Ssam{
24004Ssam	register int unit = VDUNIT(dev);
25675Ssam	register unit_tab *ui = &vdunit_info[unit];
24004Ssam
24004Ssam	if (unit >= NFSD)
25675Ssam		return (ENXIO);
25675Ssam	return (physio(vdstrategy, &ui->raw_q_element, dev, B_READ,
25675Ssam	    minphys, uio));
24004Ssam}
24004Ssam
24004Ssamvdwrite(dev, uio)
25675Ssam	dev_t dev;
25675Ssam	struct uio *uio;
24004Ssam{
24004Ssam	register int unit = VDUNIT(dev);
25675Ssam	register unit_tab *ui = &vdunit_info[unit];
24004Ssam
24004Ssam	if (unit >= NFSD)
25675Ssam		return (ENXIO);
25675Ssam	return (physio(vdstrategy, &ui->raw_q_element, dev, B_WRITE,
25675Ssam	    minphys, uio));
24004Ssam}
24004Ssam
24004Ssam/*
25675Ssam * Crash dump.
24004Ssam */
25675Ssamvddump(dev)
25675Ssam	dev_t dev;
24004Ssam{
25675Ssam	register int unit = VDUNIT(dev);
25675Ssam	register unit_tab *ui = &vdunit_info[unit];
25675Ssam	register fs_tab *fs = &ui->info;
25675Ssam	register int ctlr = vddinfo[unit]->ui_ctlr;
25675Ssam	register struct vba_ctlr *vba_vdctlr_info = vdminfo[ctlr];
25675Ssam	register int filsys = FILSYS(dev);
25675Ssam	register cdr *addr = (cdr *)(vba_vdctlr_info->um_addr);
25675Ssam	register int cur_blk, blkcount, blocks;
25675Ssam	caddr_t memaddr;
24004Ssam
25675Ssam	vdreset_ctlr(addr, ctlr);
24004Ssam	blkcount = maxfree - 2;		/* In 1k byte pages */
25675Ssam	if (dumplo + blkcount > fs->partition[filsys].par_len) {
25675Ssam		blkcount = fs->partition[filsys].par_len - dumplo;
25675Ssam		printf("vd%d: Dump truncated to %dMB\n", unit, blkcount/1024);
25675Ssam	}
25675Ssam	cur_blk = fs->partition[filsys].par_start + dumplo;
25675Ssam	memaddr = 0;
24004Ssam	while (blkcount > 0) {
25675Ssam		blocks = MIN(blkcount, DUMPSIZE);
25675Ssam		if (!vdwrite_block(addr, ctlr, unit, memaddr, cur_blk, blocks))
25675Ssam			return (EIO);
25675Ssam		blkcount -= blocks;
25675Ssam		memaddr += blocks * NBPG;
25675Ssam		cur_blk += blocks;
24004Ssam	}
25675Ssam	return (0);
24004Ssam}
24004Ssam
25675Ssam/*
25675Ssam * Write a block to disk during a crash dump.
25675Ssam */
25675Ssamvdwrite_block(caddr, ctlr, unit, addr, block, blocks)
25675Ssam	register cdr *caddr;
25675Ssam	register int ctlr, unit;
25675Ssam	register caddr_t addr;
25675Ssam	register int block, blocks;
24004Ssam{
25675Ssam	register fmt_mdcb *mdcb = &vdctlr_info[ctlr].ctlr_mdcb;
25675Ssam	register fmt_dcb *dcb = &vdctlr_info[ctlr].ctlr_dcb;
25675Ssam	register unit_tab *ui = &vdunit_info[unit];
25675Ssam	register fs_tab	 *fs = &ui->info;
24004Ssam
25675Ssam	block *= (int)ui->sec_per_blk;
25675Ssam	blocks *= (int)ui->sec_per_blk;
25675Ssam	mdcb->firstdcb = (fmt_dcb *)(PHYS(dcb));
25675Ssam	dcb->intflg = NOINT;
25675Ssam	dcb->opcode = WD;
25675Ssam	dcb->operrsta = 0;
25675Ssam	dcb->devselect = (char)(vddinfo[unit])->ui_slave;
25675Ssam	dcb->trailcnt = (char)(sizeof (trrw) / sizeof (long));
25675Ssam	dcb->trail.rwtrail.memadr = addr;
25675Ssam	dcb->trail.rwtrail.wcount = (short)
25675Ssam	    ((blocks * fs->secsize)/ sizeof (short));
25675Ssam	dcb->trail.rwtrail.disk.cylinder = (short)(block / ui->sec_per_cyl);
25675Ssam	dcb->trail.rwtrail.disk.track = (char)((block / fs->nsec) % fs->ntrak);
25675Ssam	dcb->trail.rwtrail.disk.sector = (char)(block % fs->nsec);
25675Ssam	VDDC_ATTENTION(caddr, (fmt_mdcb *)(PHYS(mdcb)),
25675Ssam	    vdctlr_info[ctlr].ctlr_type);
25675Ssam	POLLTILLDONE(caddr, dcb, 5, vdctlr_info[ctlr].ctlr_type);
25675Ssam	if (vdtimeout <= 0) {
25675Ssam		printf(" during dump\n");
25675Ssam		return (0);
25675Ssam	}
25675Ssam	if (dcb->operrsta & HRDERR) {
25675Ssam		printf("vd%d: hard error, status %x\n", unit, dcb->operrsta);
25675Ssam		return (0);
25675Ssam	}
25675Ssam	return (1);
24004Ssam}
24004Ssam
24004Ssamvdsize(dev)
25675Ssam	dev_t dev;
24004Ssam{
25675Ssam	struct vba_device *vi = vddinfo[VDUNIT(dev)];
24004Ssam
25675Ssam	if (vi == 0 || vi->ui_alive == 0 || vi->ui_type >= nvddrv)
25675Ssam		return (-1);
25675Ssam	return (vdunit_info[VDUNIT(dev)].info.partition[FILSYS(dev)].par_len);
24004Ssam}
24004Ssam
25675Ssam/*
25675Ssam * Perform a controller reset.
25675Ssam */
25675Ssamvdreset_ctlr(addr, ctlr)
25675Ssam	register cdr *addr;
25675Ssam	register int ctlr;
24004Ssam{
25675Ssam	register struct buf *cq = &vdminfo[ctlr]->um_tab;
25675Ssam	register struct buf *uq = cq->b_forw;
25675Ssam	register ctlr_tab *ci = &vdctlr_info[ctlr];
25675Ssam
25675Ssam	VDDC_RESET(addr, ci->ctlr_type);
25675Ssam	ci->ctlr_started = 0;
25675Ssam	if (ci->ctlr_type == SMD_ECTLR) {
25675Ssam		addr->cdr_csr = 0;
25675Ssam		addr->mdcb_tcf = AM_ENPDA;
25675Ssam		addr->dcb_tcf = AM_ENPDA;
25675Ssam		addr->trail_tcf = AM_ENPDA;
25675Ssam		addr->data_tcf = AM_ENPDA;
25675Ssam		addr->cdr_ccf = CCF_STS | XMD_32BIT | BSZ_16WRD |
25675Ssam		    CCF_ENP | CCF_EPE | CCF_EDE | CCF_ECE | CCF_ERR;
25675Ssam	}
25675Ssam	if (vdnotrailer(addr, ctlr, 0, INIT, 10) & HRDERR) {
25675Ssam		printf("failed to init\n");
25675Ssam		return (0);
25675Ssam	}
25675Ssam	if (vdnotrailer(addr, ctlr, 0, DIAG, 10) & HRDERR) {
25675Ssam		printf("diagnostic error\n");
25675Ssam		return (0);
25675Ssam	}
25675Ssam	/*  reset all units attached to controller */
25675Ssam	uq = cq->b_forw;
25675Ssam	do {
25675Ssam		reset_drive(addr, ctlr, uq->b_dev, 0);
25675Ssam		uq = uq->b_forw;
25675Ssam	} while (uq != cq->b_forw);
25675Ssam	return (1);
25675Ssam}
24004Ssam
25675Ssam/*
25675Ssam * Perform a reset on a drive.
25675Ssam */
25675Ssamreset_drive(addr, ctlr, slave, start)
25675Ssam	register cdr *addr;
25675Ssam	register int ctlr, slave, start;
25675Ssam{
25675Ssam	register int type = vdctlr_info[ctlr].unit_type[slave];
25675Ssam
25675Ssam	if (type == UNKNOWN)
25675Ssam		return;
25675Ssam	if (!vdconfigure_drive(addr, ctlr, slave, type, start))
25675Ssam		printf("vd%d: drive %d: couldn't reset\n", ctlr, slave);
25675Ssam}
25675Ssam
25675Ssam#ifdef notdef
25675Ssam/*
25675Ssam * Dump the mdcb and DCB for diagnostic purposes.
25675Ssam */
25675Ssamvdprintdcb(lp)
25675Ssam	register long *lp;
25675Ssam{
25675Ssam	register int i, dcb, tc;
25675Ssam
25675Ssam	for (dcb = 0; lp; lp = (long *)(*lp), dcb++) {
25675Ssam		lp = (long *)((long)lp | 0xc0000000);
25675Ssam		printf("\nDump of dcb%d@%x:", dcb, lp);
25675Ssam		for (i = 0, tc = lp[3] & 0xff; i < tc+7; i++)
25675Ssam			printf(" %lx", lp[i]);
25675Ssam		printf("\n");
24004Ssam	}
25675Ssam	DELAY(1750000);
24004Ssam}
24004Ssam#endif
25675Ssam#endif