dev/vme/xy.c

1.49   thorpej /*	$NetBSD: xy.c,v 1.49 2003/05/10 23:12:48 thorpej Exp $	*/
 1.1        pk
 1.1        pk /*
 1.1        pk  *
 1.1        pk  * Copyright (c) 1995 Charles D. Cranor
 1.1        pk  * All rights reserved.
 1.1        pk  *
 1.1        pk  * Redistribution and use in source and binary forms, with or without
 1.1        pk  * modification, are permitted provided that the following conditions
 1.1        pk  * are met:
 1.1        pk  * 1. Redistributions of source code must retain the above copyright
 1.1        pk  *    notice, this list of conditions and the following disclaimer.
 1.1        pk  * 2. Redistributions in binary form must reproduce the above copyright
 1.1        pk  *    notice, this list of conditions and the following disclaimer in the
 1.1        pk  *    documentation and/or other materials provided with the distribution.
 1.1        pk  * 3. All advertising materials mentioning features or use of this software
 1.1        pk  *    must display the following acknowledgement:
 1.1        pk  *      This product includes software developed by Charles D. Cranor.
 1.1        pk  * 4. The name of the author may not be used to endorse or promote products
 1.1        pk  *    derived from this software without specific prior written permission.
 1.1        pk  *
 1.1        pk  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1        pk  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1        pk  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1        pk  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1        pk  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 1.1        pk  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 1.1        pk  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 1.1        pk  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 1.1        pk  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 1.1        pk  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  *
 1.1        pk  * x y . c   x y l o g i c s   4 5 0 / 4 5 1   s m d   d r i v e r
 1.1        pk  *
 1.1        pk  * author: Chuck Cranor <chuck (at) ccrc.wustl.edu>
 1.1        pk  * started: 14-Sep-95
 1.1        pk  * references: [1] Xylogics Model 753 User's Manual
 1.1        pk  *                 part number: 166-753-001, Revision B, May 21, 1988.
 1.1        pk  *                 "Your Partner For Performance"
 1.1        pk  *             [2] other NetBSD disk device drivers
 1.1        pk  *	       [3] Xylogics Model 450 User's Manual
 1.1        pk  *		   part number: 166-017-001, Revision B, 1983.
 1.1        pk  *	       [4] Addendum to Xylogics Model 450 Disk Controller User's
 1.1        pk  *			Manual, Jan. 1985.
 1.1        pk  *	       [5] The 451 Controller, Rev. B3, September 2, 1986.
 1.1        pk  *	       [6] David Jones <dej (at) achilles.net>'s unfinished 450/451 driver
 1.1        pk  *
 1.1        pk  */
1.38     lukem
1.38     lukem #include <sys/cdefs.h>
1.49   thorpej __KERNEL_RCSID(0, "$NetBSD: xy.c,v 1.49 2003/05/10 23:12:48 thorpej Exp $");
 1.1        pk
 1.1        pk #undef XYC_DEBUG		/* full debug */
 1.1        pk #undef XYC_DIAG			/* extra sanity checks */
 1.1        pk #if defined(DIAGNOSTIC) && !defined(XYC_DIAG)
 1.1        pk #define XYC_DIAG		/* link in with master DIAG option */
 1.1        pk #endif
 1.1        pk
 1.1        pk #include <sys/param.h>
 1.1        pk #include <sys/proc.h>
 1.1        pk #include <sys/systm.h>
 1.1        pk #include <sys/kernel.h>
 1.1        pk #include <sys/file.h>
 1.1        pk #include <sys/stat.h>
 1.1        pk #include <sys/ioctl.h>
 1.1        pk #include <sys/buf.h>
 1.1        pk #include <sys/uio.h>
 1.1        pk #include <sys/malloc.h>
 1.1        pk #include <sys/device.h>
 1.1        pk #include <sys/disklabel.h>
 1.1        pk #include <sys/disk.h>
 1.1        pk #include <sys/syslog.h>
 1.1        pk #include <sys/dkbad.h>
 1.1        pk #include <sys/conf.h>
 1.1        pk
 1.1        pk #include <machine/bus.h>
1.12  drochner #include <machine/intr.h>
 1.9       mrg
1.25       chs #if defined(__sparc__) || defined(sun3)
 1.9       mrg #include <dev/sun/disklabel.h>
1.11        pk #endif
 1.1        pk
1.28        pk #include <dev/vme/vmereg.h>
 1.1        pk #include <dev/vme/vmevar.h>
1.12  drochner
 1.1        pk #include <dev/vme/xyreg.h>
 1.1        pk #include <dev/vme/xyvar.h>
 1.1        pk #include <dev/vme/xio.h>
 1.1        pk
 1.1        pk #include "locators.h"
 1.1        pk
 1.1        pk /*
 1.1        pk  * macros
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  * XYC_GO: start iopb ADDR (DVMA addr in a u_long) on XYC
 1.1        pk  */
 1.1        pk #define XYC_GO(XYC, ADDR) { \
 1.1        pk 	(XYC)->xyc_addr_lo = ((ADDR) & 0xff); \
 1.1        pk 	(ADDR) = ((ADDR) >> 8); \
 1.1        pk 	(XYC)->xyc_addr_hi = ((ADDR) & 0xff); \
 1.1        pk 	(ADDR) = ((ADDR) >> 8); \
 1.1        pk 	(XYC)->xyc_reloc_lo = ((ADDR) & 0xff); \
 1.1        pk 	(ADDR) = ((ADDR) >> 8); \
 1.1        pk 	(XYC)->xyc_reloc_hi = (ADDR); \
 1.1        pk 	(XYC)->xyc_csr = XYC_GBSY; /* go! */ \
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * XYC_DONE: don't need IORQ, get error code and free (done after xyc_cmd)
 1.1        pk  */
 1.1        pk
 1.1        pk #define XYC_DONE(SC,ER) { \
 1.1        pk 	if ((ER) == XY_ERR_AOK) { \
 1.1        pk 		(ER) = (SC)->ciorq->errno; \
 1.1        pk 		(SC)->ciorq->mode = XY_SUB_FREE; \
 1.1        pk 		wakeup((SC)->ciorq); \
 1.1        pk 	} \
 1.1        pk 	}
 1.1        pk
 1.1        pk /*
 1.1        pk  * XYC_ADVANCE: advance iorq's pointers by a number of sectors
 1.1        pk  */
 1.1        pk
 1.1        pk #define XYC_ADVANCE(IORQ, N) { \
 1.1        pk 	if (N) { \
 1.1        pk 		(IORQ)->sectcnt -= (N); \
 1.1        pk 		(IORQ)->blockno += (N); \
 1.1        pk 		(IORQ)->dbuf += ((N)*XYFM_BPS); \
 1.1        pk 	} \
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * note - addresses you can sleep on:
 1.1        pk  *   [1] & of xy_softc's "state" (waiting for a chance to attach a drive)
 1.1        pk  *   [2] & an iorq (waiting for an XY_SUB_WAIT iorq to finish)
 1.1        pk  */
 1.1        pk
 1.1        pk
 1.1        pk /*
 1.1        pk  * function prototypes
 1.1        pk  * "xyc_*" functions are internal, all others are external interfaces
 1.1        pk  */
 1.1        pk
 1.1        pk extern int pil_to_vme[];	/* from obio.c */
 1.1        pk
 1.1        pk /* internals */
 1.1        pk struct xy_iopb *xyc_chain __P((struct xyc_softc *, struct xy_iorq *));
 1.1        pk int	xyc_cmd __P((struct xyc_softc *, int, int, int, int, int, char *, int));
 1.1        pk char   *xyc_e2str __P((int));
 1.1        pk int	xyc_entoact __P((int));
 1.1        pk int	xyc_error __P((struct xyc_softc *, struct xy_iorq *,
 1.1        pk 		   struct xy_iopb *, int));
 1.1        pk int	xyc_ioctlcmd __P((struct xy_softc *, dev_t dev, struct xd_iocmd *));
 1.1        pk void	xyc_perror __P((struct xy_iorq *, struct xy_iopb *, int));
 1.1        pk int	xyc_piodriver __P((struct xyc_softc *, struct xy_iorq *));
 1.1        pk int	xyc_remove_iorq __P((struct xyc_softc *));
 1.1        pk int	xyc_reset __P((struct xyc_softc *, int, struct xy_iorq *, int,
 1.1        pk 			struct xy_softc *));
 1.1        pk inline void xyc_rqinit __P((struct xy_iorq *, struct xyc_softc *,
 1.1        pk 			    struct xy_softc *, int, u_long, int,
 1.1        pk 			    caddr_t, struct buf *));
 1.1        pk void	xyc_rqtopb __P((struct xy_iorq *, struct xy_iopb *, int, int));
 1.1        pk void	xyc_start __P((struct xyc_softc *, struct xy_iorq *));
 1.1        pk int	xyc_startbuf __P((struct xyc_softc *, struct xy_softc *, struct buf *));
 1.1        pk int	xyc_submit_iorq __P((struct xyc_softc *, struct xy_iorq *, int));
 1.1        pk void	xyc_tick __P((void *));
 1.1        pk int	xyc_unbusy __P((struct xyc *, int));
 1.1        pk void	xyc_xyreset __P((struct xyc_softc *, struct xy_softc *));
1.19        pk int	xy_dmamem_alloc(bus_dma_tag_t, bus_dmamap_t, bus_dma_segment_t *,
1.19        pk 			int *, bus_size_t, caddr_t *, bus_addr_t *);
1.19        pk void	xy_dmamem_free(bus_dma_tag_t, bus_dmamap_t, bus_dma_segment_t *,
1.19        pk 			int, bus_size_t, caddr_t);
 1.1        pk
 1.1        pk /* machine interrupt hook */
 1.1        pk int	xycintr __P((void *));
 1.1        pk
 1.1        pk /* autoconf */
 1.1        pk int	xycmatch __P((struct device *, struct cfdata *, void *));
 1.1        pk void	xycattach __P((struct device *, struct device *, void *));
 1.1        pk int	xymatch __P((struct device *, struct cfdata *, void *));
 1.1        pk void	xyattach __P((struct device *, struct device *, void *));
1.12  drochner static	int xyc_probe __P((void *, bus_space_tag_t, bus_space_handle_t));
 1.1        pk
 1.1        pk static	void xydummystrat __P((struct buf *));
 1.1        pk int	xygetdisklabel __P((struct xy_softc *, void *));
 1.1        pk
 1.1        pk /*
 1.3   thorpej  * cfattach's: device driver interface to autoconfig
 1.1        pk  */
 1.1        pk
1.44   thorpej CFATTACH_DECL(xyc, sizeof(struct xyc_softc),
1.45   thorpej     xycmatch, xycattach, NULL, NULL);
1.44   thorpej
1.44   thorpej CFATTACH_DECL(xy, sizeof(struct xy_softc),
1.45   thorpej     xymatch, xyattach, NULL, NULL);
 1.1        pk
 1.3   thorpej extern struct cfdriver xy_cd;
1.41   gehenna
1.41   gehenna dev_type_open(xyopen);
1.41   gehenna dev_type_close(xyclose);
1.41   gehenna dev_type_read(xyread);
1.41   gehenna dev_type_write(xywrite);
1.41   gehenna dev_type_ioctl(xyioctl);
1.41   gehenna dev_type_strategy(xystrategy);
1.41   gehenna dev_type_dump(xydump);
1.41   gehenna dev_type_size(xysize);
1.41   gehenna
1.41   gehenna const struct bdevsw xy_bdevsw = {
1.41   gehenna 	xyopen, xyclose, xystrategy, xyioctl, xydump, xysize, D_DISK
1.41   gehenna };
1.41   gehenna
1.41   gehenna const struct cdevsw xy_cdevsw = {
1.41   gehenna 	xyopen, xyclose, xyread, xywrite, xyioctl,
1.46  jdolecek 	nostop, notty, nopoll, nommap, nokqfilter, D_DISK
1.41   gehenna };
 1.1        pk
 1.1        pk struct xyc_attach_args {	/* this is the "aux" args to xyattach */
 1.1        pk 	int	driveno;	/* unit number */
 1.1        pk 	int	fullmode;	/* submit mode */
 1.1        pk 	int	booting;	/* are we booting or not? */
 1.1        pk };
 1.1        pk
 1.1        pk /*
 1.1        pk  * dkdriver
 1.1        pk  */
 1.1        pk
 1.1        pk struct dkdriver xydkdriver = { xystrategy };
 1.1        pk
 1.1        pk /*
 1.1        pk  * start: disk label fix code (XXX)
 1.1        pk  */
 1.1        pk
 1.1        pk static void *xy_labeldata;
 1.1        pk
 1.1        pk static void
 1.1        pk xydummystrat(bp)
 1.1        pk 	struct buf *bp;
 1.1        pk {
 1.1        pk 	if (bp->b_bcount != XYFM_BPS)
 1.1        pk 		panic("xydummystrat");
1.22   thorpej 	bcopy(xy_labeldata, bp->b_data, XYFM_BPS);
 1.1        pk 	bp->b_flags |= B_DONE;
 1.1        pk 	bp->b_flags &= ~B_BUSY;
 1.1        pk }
 1.1        pk
 1.1        pk int
 1.1        pk xygetdisklabel(xy, b)
 1.1        pk 	struct xy_softc *xy;
 1.1        pk 	void *b;
 1.1        pk {
1.48       dsl 	const char *err;
1.25       chs #if defined(__sparc__) || defined(sun3)
 1.1        pk 	struct sun_disklabel *sdl;
1.11        pk #endif
 1.1        pk
 1.1        pk 	/* We already have the label data in `b'; setup for dummy strategy */
 1.1        pk 	xy_labeldata = b;
 1.1        pk
 1.1        pk 	/* Required parameter for readdisklabel() */
 1.1        pk 	xy->sc_dk.dk_label->d_secsize = XYFM_BPS;
 1.1        pk
 1.1        pk 	err = readdisklabel(MAKEDISKDEV(0, xy->sc_dev.dv_unit, RAW_PART),
 1.1        pk 					xydummystrat,
 1.1        pk 				xy->sc_dk.dk_label, xy->sc_dk.dk_cpulabel);
 1.1        pk 	if (err) {
 1.1        pk 		printf("%s: %s\n", xy->sc_dev.dv_xname, err);
 1.1        pk 		return(XY_ERR_FAIL);
 1.1        pk 	}
 1.1        pk
1.25       chs #if defined(__sparc__) || defined(sun3)
 1.1        pk 	/* Ok, we have the label; fill in `pcyl' if there's SunOS magic */
 1.1        pk 	sdl = (struct sun_disklabel *)xy->sc_dk.dk_cpulabel->cd_block;
1.11        pk 	if (sdl->sl_magic == SUN_DKMAGIC) {
 1.1        pk 		xy->pcyl = sdl->sl_pcylinders;
1.11        pk 	} else
1.14  drochner #endif
1.11        pk 	{
 1.1        pk 		printf("%s: WARNING: no `pcyl' in disk label.\n",
 1.1        pk 			xy->sc_dev.dv_xname);
 1.1        pk 		xy->pcyl = xy->sc_dk.dk_label->d_ncylinders +
 1.1        pk 			xy->sc_dk.dk_label->d_acylinders;
 1.1        pk 		printf("%s: WARNING: guessing pcyl=%d (ncyl+acyl)\n",
 1.1        pk 		xy->sc_dev.dv_xname, xy->pcyl);
 1.1        pk 	}
 1.1        pk
 1.1        pk 	xy->ncyl = xy->sc_dk.dk_label->d_ncylinders;
 1.1        pk 	xy->acyl = xy->sc_dk.dk_label->d_acylinders;
 1.1        pk 	xy->nhead = xy->sc_dk.dk_label->d_ntracks;
 1.1        pk 	xy->nsect = xy->sc_dk.dk_label->d_nsectors;
 1.1        pk 	xy->sectpercyl = xy->nhead * xy->nsect;
 1.1        pk 	xy->sc_dk.dk_label->d_secsize = XYFM_BPS; /* not handled by
 1.1        pk                                           	  * sun->bsd */
 1.1        pk 	return(XY_ERR_AOK);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * end: disk label fix code (XXX)
 1.1        pk  */
 1.1        pk
 1.1        pk /*
1.19        pk  * Shorthand for allocating, mapping and loading a DMA buffer
1.19        pk  */
1.19        pk int
1.19        pk xy_dmamem_alloc(tag, map, seg, nsegp, len, kvap, dmap)
1.19        pk 	bus_dma_tag_t		tag;
1.19        pk 	bus_dmamap_t		map;
1.19        pk 	bus_dma_segment_t	*seg;
1.19        pk 	int			*nsegp;
1.19        pk 	bus_size_t		len;
1.19        pk 	caddr_t			*kvap;
1.19        pk 	bus_addr_t		*dmap;
1.19        pk {
1.19        pk 	int nseg;
1.19        pk 	int error;
1.19        pk
1.20        pk 	if ((error = bus_dmamem_alloc(tag, len, 0, 0,
1.19        pk 				      seg, 1, &nseg, BUS_DMA_NOWAIT)) != 0) {
1.19        pk 		return (error);
1.19        pk 	}
1.19        pk
1.34   thorpej 	if ((error = bus_dmamem_map(tag, seg, nseg,
1.34   thorpej 				    len, kvap,
1.34   thorpej 				    BUS_DMA_NOWAIT|BUS_DMA_COHERENT)) != 0) {
1.19        pk 		bus_dmamem_free(tag, seg, nseg);
1.19        pk 		return (error);
1.19        pk 	}
1.19        pk
1.35       chs 	if ((error = bus_dmamap_load(tag, map, *kvap, len, NULL,
1.34   thorpej 				     BUS_DMA_NOWAIT)) != 0) {
1.34   thorpej 		bus_dmamem_unmap(tag, *kvap, len);
1.19        pk 		bus_dmamem_free(tag, seg, nseg);
1.19        pk 		return (error);
1.19        pk 	}
1.19        pk
1.19        pk 	*dmap = map->dm_segs[0].ds_addr;
1.19        pk 	*nsegp = nseg;
1.19        pk 	return (0);
1.19        pk }
1.19        pk
1.19        pk void
1.19        pk xy_dmamem_free(tag, map, seg, nseg, len, kva)
1.19        pk 	bus_dma_tag_t		tag;
1.19        pk 	bus_dmamap_t		map;
1.19        pk 	bus_dma_segment_t	*seg;
1.19        pk 	int			nseg;
1.19        pk 	bus_size_t		len;
1.19        pk 	caddr_t			kva;
1.19        pk {
1.19        pk
1.19        pk 	bus_dmamap_unload(tag, map);
1.19        pk 	bus_dmamem_unmap(tag, kva, len);
1.19        pk 	bus_dmamem_free(tag, seg, nseg);
1.19        pk }
1.19        pk
1.19        pk
1.19        pk /*
 1.1        pk  * a u t o c o n f i g   f u n c t i o n s
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  * xycmatch: determine if xyc is present or not.   we do a
 1.1        pk  * soft reset to detect the xyc.
 1.1        pk  */
 1.6        pk int
1.12  drochner xyc_probe(arg, tag, handle)
 1.6        pk 	void *arg;
1.12  drochner 	bus_space_tag_t tag;
1.12  drochner 	bus_space_handle_t handle;
 1.6        pk {
1.12  drochner 	struct xyc *xyc = (void *)handle; /* XXX */
 1.6        pk
1.12  drochner 	return ((xyc_unbusy(xyc, XYC_RESETUSEC) != XY_ERR_FAIL) ? 0 : EIO);
 1.6        pk }
 1.1        pk
 1.1        pk int xycmatch(parent, cf, aux)
 1.1        pk 	struct device *parent;
 1.1        pk 	struct cfdata *cf;
 1.1        pk 	void *aux;
 1.1        pk {
 1.1        pk 	struct vme_attach_args	*va = aux;
1.12  drochner 	vme_chipset_tag_t	ct = va->va_vct;
1.12  drochner 	vme_am_t		mod;
1.12  drochner 	int error;
1.12  drochner
1.28        pk 	mod = VME_AM_A16 | VME_AM_MBO | VME_AM_SUPER | VME_AM_DATA;
1.28        pk 	if (vme_space_alloc(ct, va->r[0].offset, sizeof(struct xyc), mod))
1.12  drochner 		return (0);
1.28        pk
1.12  drochner 	error = vme_probe(ct, va->r[0].offset, sizeof(struct xyc),
1.28        pk 			  mod, VME_D16, xyc_probe, 0);
1.12  drochner 	vme_space_free(va->va_vct, va->r[0].offset, sizeof(struct xyc), mod);
1.12  drochner
1.12  drochner 	return (error == 0);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xycattach: attach controller
 1.1        pk  */
 1.1        pk void
 1.1        pk xycattach(parent, self, aux)
 1.1        pk 	struct device *parent, *self;
 1.1        pk 	void   *aux;
 1.1        pk
 1.1        pk {
1.28        pk 	struct xyc_softc	*xyc = (void *) self;
 1.1        pk 	struct vme_attach_args	*va = aux;
1.12  drochner 	vme_chipset_tag_t	ct = va->va_vct;
1.12  drochner 	bus_space_tag_t		bt;
 1.1        pk 	bus_space_handle_t	bh;
 1.1        pk 	vme_intr_handle_t	ih;
1.12  drochner 	vme_am_t		mod;
 1.1        pk 	struct xyc_attach_args	xa;
1.19        pk 	int			lcv, res, error;
 1.2        pk 	bus_dma_segment_t	seg;
 1.2        pk 	int			rseg;
1.12  drochner 	vme_mapresc_t resc;
 1.1        pk
 1.1        pk 	/* get addressing and intr level stuff from autoconfig and load it
 1.1        pk 	 * into our xyc_softc. */
 1.1        pk
1.28        pk 	mod = VME_AM_A16 | VME_AM_MBO | VME_AM_SUPER | VME_AM_DATA;
 1.1        pk
1.28        pk 	if (vme_space_alloc(ct, va->r[0].offset, sizeof(struct xyc), mod))
1.12  drochner 		panic("xyc: vme alloc");
1.28        pk
1.12  drochner 	if (vme_space_map(ct, va->r[0].offset, sizeof(struct xyc),
1.28        pk 			  mod, VME_D16, 0, &bt, &bh, &resc) != 0)
 1.1        pk 		panic("xyc: vme_map");
 1.1        pk
1.12  drochner 	xyc->xyc = (struct xyc *) bh; /* XXX */
1.12  drochner 	xyc->ipl = va->ilevel;
1.12  drochner 	xyc->vector = va->ivector;
 1.1        pk 	xyc->no_ols = 0; /* XXX should be from config */
 1.1        pk
 1.1        pk 	for (lcv = 0; lcv < XYC_MAXDEV; lcv++)
 1.1        pk 		xyc->sc_drives[lcv] = (struct xy_softc *) 0;
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * allocate and zero buffers
 1.1        pk 	 * check boundaries of the KVA's ... all IOPBs must reside in
 1.1        pk  	 * the same 64K region.
 1.1        pk 	 */
 1.1        pk
1.19        pk 	/* Get DMA handle for misc. transfers */
1.28        pk 	if ((error = vme_dmamap_create(
1.28        pk 				ct,		/* VME chip tag */
1.28        pk 				MAXPHYS,	/* size */
1.28        pk 				VME_AM_A24,	/* address modifier */
1.28        pk 				VME_D16,	/* data size */
1.28        pk 				0,		/* swap */
1.19        pk 				1,		/* nsegments */
1.28        pk 				MAXPHYS,	/* maxsegsz */
1.19        pk 				0,		/* boundary */
1.19        pk 				BUS_DMA_NOWAIT,
1.28        pk 				&xyc->reqs[lcv].dmamap)) != 0) {
1.28        pk
1.19        pk 		printf("%s: DMA buffer map create error %d\n",
1.19        pk 			xyc->sc_dev.dv_xname, error);
1.19        pk 		return;
1.19        pk 	}
 1.2        pk
1.19        pk 	/* Get DMA handle for mapping iorq descriptors */
1.28        pk 	if ((error = vme_dmamap_create(
1.28        pk 				ct,		/* VME chip tag */
1.19        pk 				XYC_MAXIOPB * sizeof(struct xy_iopb),
1.28        pk 				VME_AM_A24,	/* address modifier */
1.28        pk 				VME_D16,	/* data size */
1.28        pk 				0,		/* swap */
1.19        pk 				1,		/* nsegments */
1.19        pk 				XYC_MAXIOPB * sizeof(struct xy_iopb),
1.19        pk 				64*1024,	/* boundary */
1.19        pk 				BUS_DMA_NOWAIT,
1.19        pk 				&xyc->iopmap)) != 0) {
1.28        pk
1.19        pk 		printf("%s: DMA buffer map create error %d\n",
 1.2        pk 			xyc->sc_dev.dv_xname, error);
 1.2        pk 		return;
 1.2        pk 	}
 1.2        pk
1.19        pk 	/* Get DMA buffer for iorq descriptors */
1.19        pk 	if ((error = xy_dmamem_alloc(xyc->dmatag, xyc->iopmap, &seg, &rseg,
1.19        pk 				     XYC_MAXIOPB * sizeof(struct xy_iopb),
1.19        pk 				     (caddr_t *)&xyc->iopbase,
1.19        pk 				     (bus_addr_t *)&xyc->dvmaiopb)) != 0) {
1.19        pk 		printf("%s: DMA buffer alloc error %d\n",
 1.2        pk 			xyc->sc_dev.dv_xname, error);
 1.2        pk 		return;
 1.1        pk 	}
1.19        pk
1.19        pk 	bzero(xyc->iopbase, XYC_MAXIOPB * sizeof(struct xy_iopb));
 1.2        pk
 1.1        pk 	xyc->reqs = (struct xy_iorq *)
1.39   tsutsui 	    malloc(XYC_MAXIOPB * sizeof(struct xy_iorq),
1.39   tsutsui 	    M_DEVBUF, M_NOWAIT|M_ZERO);
 1.1        pk 	if (xyc->reqs == NULL)
 1.1        pk 		panic("xyc malloc");
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * init iorq to iopb pointers, and non-zero fields in the
 1.1        pk 	 * iopb which never change.
 1.1        pk 	 */
 1.1        pk
 1.1        pk 	for (lcv = 0; lcv < XYC_MAXIOPB; lcv++) {
 1.1        pk 		xyc->xy_chain[lcv] = NULL;
 1.1        pk 		xyc->reqs[lcv].iopb = &xyc->iopbase[lcv];
1.10        pk 		xyc->reqs[lcv].dmaiopb = &xyc->dvmaiopb[lcv];
 1.1        pk 		xyc->iopbase[lcv].asr = 1;	/* always the same */
 1.1        pk 		xyc->iopbase[lcv].eef = 1;	/* always the same */
 1.1        pk 		xyc->iopbase[lcv].ecm = XY_ECM;	/* always the same */
 1.1        pk 		xyc->iopbase[lcv].aud = 1;	/* always the same */
 1.1        pk 		xyc->iopbase[lcv].relo = 1;	/* always the same */
 1.1        pk 		xyc->iopbase[lcv].thro = XY_THRO;/* always the same */
 1.2        pk
1.28        pk 		if ((error = vme_dmamap_create(
1.28        pk 				ct,		/* VME chip tag */
 1.2        pk 				MAXPHYS,	/* size */
1.28        pk 				VME_AM_A24,	/* address modifier */
1.28        pk 				VME_D16,	/* data size */
1.28        pk 				0,		/* swap */
 1.2        pk 				1,		/* nsegments */
 1.2        pk 				MAXPHYS,	/* maxsegsz */
 1.2        pk 				0,		/* boundary */
 1.2        pk 				BUS_DMA_NOWAIT,
1.28        pk 				&xyc->reqs[lcv].dmamap)) != 0) {
1.28        pk
 1.2        pk 			printf("%s: DMA buffer map create error %d\n",
 1.2        pk 				xyc->sc_dev.dv_xname, error);
 1.2        pk 			return;
 1.2        pk 		}
 1.1        pk 	}
 1.1        pk 	xyc->ciorq = &xyc->reqs[XYC_CTLIOPB];    /* short hand name */
 1.1        pk 	xyc->ciopb = &xyc->iopbase[XYC_CTLIOPB]; /* short hand name */
 1.1        pk 	xyc->xy_hand = 0;
 1.1        pk
 1.1        pk 	/* read controller parameters and insure we have a 450/451 */
 1.1        pk
 1.2        pk 	error = xyc_cmd(xyc, XYCMD_ST, 0, 0, 0, 0, 0, XY_SUB_POLL);
 1.1        pk 	res = xyc->ciopb->ctyp;
 1.2        pk 	XYC_DONE(xyc, error);
 1.1        pk 	if (res != XYCT_450) {
 1.2        pk 		if (error)
 1.2        pk 			printf(": %s: ", xyc_e2str(error));
 1.1        pk 		printf(": doesn't identify as a 450/451\n");
 1.1        pk 		return;
 1.1        pk 	}
 1.1        pk 	printf(": Xylogics 450/451");
 1.1        pk 	if (xyc->no_ols)
 1.1        pk 		printf(" [OLS disabled]"); /* 450 doesn't overlap seek right */
 1.1        pk 	printf("\n");
 1.2        pk 	if (error) {
 1.1        pk 		printf("%s: error: %s\n", xyc->sc_dev.dv_xname,
 1.2        pk 				xyc_e2str(error));
 1.1        pk 		return;
 1.1        pk 	}
 1.1        pk 	if ((xyc->xyc->xyc_csr & XYC_ADRM) == 0) {
 1.1        pk 		printf("%s: 24 bit addressing turned off\n",
 1.1        pk 			xyc->sc_dev.dv_xname);
 1.1        pk 		printf("please set hardware jumpers JM1-JM2=in, JM3-JM4=out\n");
 1.1        pk 		printf("to enable 24 bit mode and this driver\n");
 1.1        pk 		return;
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/* link in interrupt with higher level software */
1.30       scw 	vme_intr_map(ct, va->ilevel, va->ivector, &ih);
1.12  drochner 	vme_intr_establish(ct, ih, IPL_BIO, xycintr, xyc);
1.24       cgd 	evcnt_attach_dynamic(&xyc->sc_intrcnt, EVCNT_TYPE_INTR, NULL,
1.24       cgd 	    xyc->sc_dev.dv_xname, "intr");
 1.1        pk
1.17   thorpej 	callout_init(&xyc->sc_tick_ch);
 1.1        pk
 1.1        pk 	/* now we must look for disks using autoconfig */
 1.1        pk 	xa.fullmode = XY_SUB_POLL;
 1.1        pk 	xa.booting = 1;
 1.1        pk
 1.1        pk 	for (xa.driveno = 0; xa.driveno < XYC_MAXDEV; xa.driveno++)
 1.1        pk 		(void) config_found(self, (void *) &xa, NULL);
 1.1        pk
 1.1        pk 	/* start the watchdog clock */
1.17   thorpej 	callout_reset(&xyc->sc_tick_ch, XYC_TICKCNT, xyc_tick, xyc);
 1.1        pk
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xymatch: probe for disk.
 1.1        pk  *
 1.1        pk  * note: we almost always say disk is present.   this allows us to
 1.1        pk  * spin up and configure a disk after the system is booted (we can
 1.1        pk  * call xyattach!).
 1.1        pk  */
 1.1        pk int
 1.1        pk xymatch(parent, cf, aux)
 1.1        pk 	struct device *parent;
 1.1        pk 	struct cfdata *cf;
 1.1        pk 	void *aux;
 1.1        pk {
 1.1        pk 	struct xyc_attach_args *xa = aux;
 1.1        pk
 1.1        pk 	/* looking for autoconf wildcard or exact match */
 1.1        pk
 1.1        pk 	if (cf->cf_loc[XYCCF_DRIVE] != XYCCF_DRIVE_DEFAULT &&
 1.1        pk 	    cf->cf_loc[XYCCF_DRIVE] != xa->driveno)
 1.1        pk 		return 0;
 1.1        pk
 1.1        pk 	return 1;
 1.1        pk
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyattach: attach a disk.   this can be called from autoconf and also
 1.1        pk  * from xyopen/xystrategy.
 1.1        pk  */
 1.1        pk void
 1.1        pk xyattach(parent, self, aux)
 1.1        pk 	struct device *parent, *self;
 1.1        pk 	void   *aux;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xy_softc *xy = (void *) self, *oxy;
 1.1        pk 	struct xyc_softc *xyc = (void *) parent;
 1.1        pk 	struct xyc_attach_args *xa = aux;
 1.2        pk 	int     spt, mb, blk, lcv, fmode, s = 0, newstate;
 1.1        pk 	struct dkbad *dkb;
 1.2        pk 	int			rseg, error;
 1.2        pk 	bus_dma_segment_t	seg;
 1.2        pk 	caddr_t			dmaddr;
 1.2        pk 	caddr_t			buf;
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * Always re-initialize the disk structure.  We want statistics
 1.1        pk 	 * to start with a clean slate.
 1.1        pk 	 */
 1.1        pk 	bzero(&xy->sc_dk, sizeof(xy->sc_dk));
 1.1        pk 	xy->sc_dk.dk_driver = &xydkdriver;
 1.1        pk 	xy->sc_dk.dk_name = xy->sc_dev.dv_xname;
 1.1        pk
 1.1        pk 	/* if booting, init the xy_softc */
 1.1        pk
 1.1        pk 	if (xa->booting) {
 1.1        pk 		xy->state = XY_DRIVE_UNKNOWN;	/* to start */
 1.1        pk 		xy->flags = 0;
 1.1        pk 		xy->parent = xyc;
 1.1        pk
 1.1        pk 		/* init queue of waiting bufs */
 1.1        pk
1.40   hannken 		bufq_alloc(&xy->xyq, BUFQ_DISKSORT|BUFQ_SORT_RAWBLOCK);
 1.1        pk
 1.1        pk 		xy->xyrq = &xyc->reqs[xa->driveno];
 1.1        pk
 1.1        pk 	}
 1.1        pk 	xy->xy_drive = xa->driveno;
 1.1        pk 	fmode = xa->fullmode;
 1.1        pk 	xyc->sc_drives[xa->driveno] = xy;
 1.1        pk
 1.1        pk 	/* if not booting, make sure we are the only process in the attach for
 1.1        pk 	 * this drive.   if locked out, sleep on it. */
 1.1        pk
 1.1        pk 	if (!xa->booting) {
 1.1        pk 		s = splbio();
 1.1        pk 		while (xy->state == XY_DRIVE_ATTACHING) {
 1.1        pk 			if (tsleep(&xy->state, PRIBIO, "xyattach", 0)) {
 1.1        pk 				splx(s);
 1.1        pk 				return;
 1.1        pk 			}
 1.1        pk 		}
 1.1        pk 		printf("%s at %s",
 1.1        pk 			xy->sc_dev.dv_xname, xy->parent->sc_dev.dv_xname);
 1.1        pk 	}
 1.2        pk
 1.1        pk 	/* we now have control */
 1.1        pk 	xy->state = XY_DRIVE_ATTACHING;
 1.1        pk 	newstate = XY_DRIVE_UNKNOWN;
 1.1        pk
 1.2        pk 	buf = NULL;
1.19        pk 	if ((error = xy_dmamem_alloc(xyc->dmatag, xyc->auxmap, &seg, &rseg,
1.19        pk 				     XYFM_BPS,
1.19        pk 				     (caddr_t *)&buf,
1.19        pk 				     (bus_addr_t *)&dmaddr)) != 0) {
 1.2        pk 		printf("%s: DMA buffer alloc error %d\n",
1.19        pk 			xyc->sc_dev.dv_xname, error);
1.19        pk 		return;
 1.2        pk 	}
 1.2        pk
 1.1        pk 	/* first try and reset the drive */
 1.2        pk 	error = xyc_cmd(xyc, XYCMD_RST, 0, xy->xy_drive, 0, 0, 0, fmode);
 1.2        pk 	XYC_DONE(xyc, error);
 1.2        pk 	if (error == XY_ERR_DNRY) {
 1.1        pk 		printf(" drive %d: off-line\n", xa->driveno);
 1.1        pk 		goto done;
 1.1        pk 	}
 1.2        pk 	if (error) {
 1.2        pk 		printf(": ERROR 0x%02x (%s)\n", error, xyc_e2str(error));
 1.1        pk 		goto done;
 1.1        pk 	}
 1.1        pk 	printf(" drive %d: ready", xa->driveno);
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * now set drive parameters (to semi-bogus values) so we can read the
 1.1        pk 	 * disk label.
 1.1        pk 	 */
 1.1        pk 	xy->pcyl = xy->ncyl = 1;
 1.1        pk 	xy->acyl = 0;
 1.1        pk 	xy->nhead = 1;
 1.1        pk 	xy->nsect = 1;
 1.1        pk 	xy->sectpercyl = 1;
 1.1        pk 	for (lcv = 0; lcv < 126; lcv++)	/* init empty bad144 table */
 1.1        pk 		xy->dkb.bt_bad[lcv].bt_cyl =
 1.1        pk 			xy->dkb.bt_bad[lcv].bt_trksec = 0xffff;
 1.1        pk
 1.1        pk 	/* read disk label */
 1.1        pk 	for (xy->drive_type = 0 ; xy->drive_type <= XYC_MAXDT ;
 1.1        pk 						xy->drive_type++) {
 1.2        pk 		error = xyc_cmd(xyc, XYCMD_RD, 0, xy->xy_drive, 0, 1,
 1.2        pk 						dmaddr, fmode);
 1.2        pk 		XYC_DONE(xyc, error);
 1.2        pk 		if (error == XY_ERR_AOK) break;
 1.1        pk 	}
 1.1        pk
 1.2        pk 	if (error != XY_ERR_AOK) {
 1.1        pk 		printf("\n%s: reading disk label failed: %s\n",
 1.2        pk 			xy->sc_dev.dv_xname, xyc_e2str(error));
 1.1        pk 		goto done;
 1.1        pk 	}
 1.1        pk 	printf(" (drive type %d)\n", xy->drive_type);
 1.1        pk
 1.1        pk 	newstate = XY_DRIVE_NOLABEL;
 1.1        pk
 1.1        pk 	xy->hw_spt = spt = 0; /* XXX needed ? */
 1.1        pk 	/* Attach the disk: must be before getdisklabel to malloc label */
 1.1        pk 	disk_attach(&xy->sc_dk);
 1.1        pk
 1.2        pk 	if (xygetdisklabel(xy, buf) != XY_ERR_AOK)
 1.1        pk 		goto done;
 1.1        pk
 1.1        pk 	/* inform the user of what is up */
 1.1        pk 	printf("%s: <%s>, pcyl %d\n", xy->sc_dev.dv_xname,
 1.2        pk 		buf, xy->pcyl);
 1.1        pk 	mb = xy->ncyl * (xy->nhead * xy->nsect) / (1048576 / XYFM_BPS);
 1.1        pk 	printf("%s: %dMB, %d cyl, %d head, %d sec, %d bytes/sec\n",
 1.1        pk 		xy->sc_dev.dv_xname, mb, xy->ncyl, xy->nhead, xy->nsect,
 1.1        pk 		XYFM_BPS);
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * 450/451 stupidity: the drive type is encoded into the format
 1.1        pk 	 * of the disk.   the drive type in the IOPB must match the drive
 1.1        pk 	 * type in the format, or you will not be able to do I/O to the
 1.1        pk 	 * disk (you get header not found errors).  if you have two drives
 1.1        pk 	 * of different sizes that have the same drive type in their
 1.1        pk 	 * formatting then you are out of luck.
 1.1        pk 	 *
 1.1        pk 	 * this problem was corrected in the 753/7053.
 1.1        pk 	 */
 1.1        pk
 1.1        pk 	for (lcv = 0 ; lcv < XYC_MAXDEV ; lcv++) {
 1.1        pk 		oxy = xyc->sc_drives[lcv];
 1.1        pk 		if (oxy == NULL || oxy == xy) continue;
 1.1        pk 		if (oxy->drive_type != xy->drive_type) continue;
 1.1        pk 		if (xy->nsect != oxy->nsect || xy->pcyl != oxy->pcyl ||
 1.1        pk 			xy->nhead != oxy->nhead) {
 1.1        pk 			printf("%s: %s and %s must be the same size!\n",
 1.1        pk 				xyc->sc_dev.dv_xname, xy->sc_dev.dv_xname,
 1.1        pk 				oxy->sc_dev.dv_xname);
 1.1        pk 			panic("xy drive size mismatch");
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk
 1.1        pk
 1.1        pk 	/* now set the real drive parameters! */
 1.1        pk
 1.1        pk 	blk = (xy->nsect - 1) +
 1.1        pk 		((xy->nhead - 1) * xy->nsect) +
 1.1        pk 		((xy->pcyl - 1) * xy->nsect * xy->nhead);
 1.2        pk 	error = xyc_cmd(xyc, XYCMD_SDS, 0, xy->xy_drive, blk, 0, 0, fmode);
 1.2        pk 	XYC_DONE(xyc, error);
 1.2        pk 	if (error) {
 1.1        pk 		printf("%s: write drive size failed: %s\n",
 1.2        pk 			xy->sc_dev.dv_xname, xyc_e2str(error));
 1.1        pk 		goto done;
 1.1        pk 	}
 1.1        pk 	newstate = XY_DRIVE_ONLINE;
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * read bad144 table. this table resides on the first sector of the
 1.1        pk 	 * last track of the disk (i.e. second cyl of "acyl" area).
 1.1        pk 	 */
 1.1        pk
 1.1        pk 	blk = (xy->ncyl + xy->acyl - 1) * (xy->nhead * xy->nsect) +
 1.1        pk 								/* last cyl */
 1.1        pk 	    (xy->nhead - 1) * xy->nsect;	/* last head */
 1.2        pk 	error = xyc_cmd(xyc, XYCMD_RD, 0, xy->xy_drive, blk, 1,
 1.2        pk 						dmaddr, fmode);
 1.2        pk 	XYC_DONE(xyc, error);
 1.2        pk 	if (error) {
 1.1        pk 		printf("%s: reading bad144 failed: %s\n",
 1.2        pk 			xy->sc_dev.dv_xname, xyc_e2str(error));
 1.1        pk 		goto done;
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/* check dkbad for sanity */
 1.2        pk 	dkb = (struct dkbad *) buf;
 1.1        pk 	for (lcv = 0; lcv < 126; lcv++) {
 1.1        pk 		if ((dkb->bt_bad[lcv].bt_cyl == 0xffff ||
 1.1        pk 				dkb->bt_bad[lcv].bt_cyl == 0) &&
 1.1        pk 		     dkb->bt_bad[lcv].bt_trksec == 0xffff)
 1.1        pk 			continue;	/* blank */
 1.1        pk 		if (dkb->bt_bad[lcv].bt_cyl >= xy->ncyl)
 1.1        pk 			break;
 1.1        pk 		if ((dkb->bt_bad[lcv].bt_trksec >> 8) >= xy->nhead)
 1.1        pk 			break;
 1.1        pk 		if ((dkb->bt_bad[lcv].bt_trksec & 0xff) >= xy->nsect)
 1.1        pk 			break;
 1.1        pk 	}
 1.1        pk 	if (lcv != 126) {
 1.1        pk 		printf("%s: warning: invalid bad144 sector!\n",
 1.1        pk 			xy->sc_dev.dv_xname);
 1.1        pk 	} else {
 1.2        pk 		bcopy(buf, &xy->dkb, XYFM_BPS);
 1.1        pk 	}
 1.1        pk
 1.1        pk done:
 1.2        pk 	if (buf != NULL) {
1.19        pk 		xy_dmamem_free(xyc->dmatag, xyc->auxmap,
1.19        pk 				&seg, rseg, XYFM_BPS, buf);
 1.2        pk 	}
 1.2        pk
 1.1        pk 	xy->state = newstate;
 1.1        pk 	if (!xa->booting) {
 1.1        pk 		wakeup(&xy->state);
 1.1        pk 		splx(s);
 1.1        pk 	}
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * end of autoconfig functions
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  * { b , c } d e v s w   f u n c t i o n s
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyclose: close device
 1.1        pk  */
 1.1        pk int
 1.1        pk xyclose(dev, flag, fmt, p)
 1.1        pk 	dev_t   dev;
 1.1        pk 	int     flag, fmt;
 1.1        pk 	struct proc *p;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xy_softc *xy = xy_cd.cd_devs[DISKUNIT(dev)];
 1.1        pk 	int     part = DISKPART(dev);
 1.1        pk
 1.1        pk 	/* clear mask bits */
 1.1        pk
 1.1        pk 	switch (fmt) {
 1.1        pk 	case S_IFCHR:
 1.1        pk 		xy->sc_dk.dk_copenmask &= ~(1 << part);
 1.1        pk 		break;
 1.1        pk 	case S_IFBLK:
 1.1        pk 		xy->sc_dk.dk_bopenmask &= ~(1 << part);
 1.1        pk 		break;
 1.1        pk 	}
 1.1        pk 	xy->sc_dk.dk_openmask = xy->sc_dk.dk_copenmask | xy->sc_dk.dk_bopenmask;
 1.1        pk
 1.1        pk 	return 0;
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xydump: crash dump system
 1.1        pk  */
 1.1        pk int
 1.1        pk xydump(dev, blkno, va, size)
 1.1        pk 	dev_t dev;
 1.1        pk 	daddr_t blkno;
 1.1        pk 	caddr_t va;
 1.1        pk 	size_t size;
 1.1        pk {
 1.1        pk 	int     unit, part;
 1.1        pk 	struct xy_softc *xy;
 1.1        pk
 1.1        pk 	unit = DISKUNIT(dev);
 1.1        pk 	if (unit >= xy_cd.cd_ndevs)
 1.1        pk 		return ENXIO;
 1.1        pk 	part = DISKPART(dev);
 1.1        pk
 1.1        pk 	xy = xy_cd.cd_devs[unit];
 1.1        pk
 1.1        pk 	printf("%s%c: crash dump not supported (yet)\n", xy->sc_dev.dv_xname,
 1.1        pk 	    'a' + part);
 1.1        pk
 1.1        pk 	return ENXIO;
 1.1        pk
 1.1        pk 	/* outline: globals: "dumplo" == sector number of partition to start
 1.1        pk 	 * dump at (convert to physical sector with partition table)
 1.1        pk 	 * "dumpsize" == size of dump in clicks "physmem" == size of physical
 1.1        pk 	 * memory (clicks, ctob() to get bytes) (normal case: dumpsize ==
 1.1        pk 	 * physmem)
 1.1        pk 	 *
 1.1        pk 	 * dump a copy of physical memory to the dump device starting at sector
 1.1        pk 	 * "dumplo" in the swap partition (make sure > 0).   map in pages as
 1.1        pk 	 * we go.   use polled I/O.
 1.1        pk 	 *
 1.1        pk 	 * XXX how to handle NON_CONTIG? */
 1.1        pk
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyioctl: ioctls on XY drives.   based on ioctl's of other netbsd disks.
 1.1        pk  */
 1.1        pk int
 1.1        pk xyioctl(dev, command, addr, flag, p)
 1.1        pk 	dev_t   dev;
 1.1        pk 	u_long  command;
 1.1        pk 	caddr_t addr;
 1.1        pk 	int     flag;
 1.1        pk 	struct proc *p;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xy_softc *xy;
 1.1        pk 	struct xd_iocmd *xio;
 1.1        pk 	int     error, s, unit;
1.31      fvdl #ifdef __HAVE_OLD_DISKLABEL
1.33      fvdl 	struct disklabel newlabel;
1.31      fvdl #endif
1.33      fvdl 	struct disklabel *lp;
1.33      fvdl
 1.1        pk 	unit = DISKUNIT(dev);
 1.1        pk
 1.1        pk 	if (unit >= xy_cd.cd_ndevs || (xy = xy_cd.cd_devs[unit]) == NULL)
 1.1        pk 		return (ENXIO);
 1.1        pk
 1.1        pk 	/* switch on ioctl type */
 1.1        pk
 1.1        pk 	switch (command) {
 1.1        pk 	case DIOCSBAD:		/* set bad144 info */
 1.1        pk 		if ((flag & FWRITE) == 0)
 1.1        pk 			return EBADF;
 1.1        pk 		s = splbio();
 1.1        pk 		bcopy(addr, &xy->dkb, sizeof(xy->dkb));
 1.1        pk 		splx(s);
 1.1        pk 		return 0;
 1.1        pk
 1.1        pk 	case DIOCGDINFO:	/* get disk label */
 1.1        pk 		bcopy(xy->sc_dk.dk_label, addr, sizeof(struct disklabel));
 1.1        pk 		return 0;
1.31      fvdl #ifdef __HAVE_OLD_DISKLABEL
1.31      fvdl 	case ODIOCGDINFO:
1.31      fvdl 		newlabel = *(xy->sc_dk.dk_label);
1.31      fvdl 		if (newlabel.d_npartitions > OLDMAXPARTITIONS)
1.32      fvdl 			return ENOTTY;
1.31      fvdl 		memcpy(addr, &newlabel, sizeof (struct olddisklabel));
1.31      fvdl 		return 0;
1.31      fvdl #endif
 1.1        pk
 1.1        pk 	case DIOCGPART:	/* get partition info */
 1.1        pk 		((struct partinfo *) addr)->disklab = xy->sc_dk.dk_label;
 1.1        pk 		((struct partinfo *) addr)->part =
 1.1        pk 		    &xy->sc_dk.dk_label->d_partitions[DISKPART(dev)];
 1.1        pk 		return 0;
 1.1        pk
 1.1        pk 	case DIOCSDINFO:	/* set disk label */
1.31      fvdl #ifdef __HAVE_OLD_DISKLABEL
1.31      fvdl 	case ODIOCSDINFO:
1.31      fvdl 		if (command == ODIOCSDINFO) {
1.31      fvdl 			memset(&newlabel, 0, sizeof newlabel);
1.31      fvdl 			memcpy(&newlabel, addr, sizeof (struct olddisklabel));
1.31      fvdl 			lp = &newlabel;
1.31      fvdl 		} else
1.31      fvdl #endif
1.31      fvdl 		lp = (struct disklabel *)addr;
1.31      fvdl
 1.1        pk 		if ((flag & FWRITE) == 0)
 1.1        pk 			return EBADF;
 1.1        pk 		error = setdisklabel(xy->sc_dk.dk_label,
1.31      fvdl 		    lp, /* xy->sc_dk.dk_openmask : */ 0,
 1.1        pk 		    xy->sc_dk.dk_cpulabel);
 1.1        pk 		if (error == 0) {
 1.1        pk 			if (xy->state == XY_DRIVE_NOLABEL)
 1.1        pk 				xy->state = XY_DRIVE_ONLINE;
 1.1        pk 		}
 1.1        pk 		return error;
 1.1        pk
 1.1        pk 	case DIOCWLABEL:	/* change write status of disk label */
 1.1        pk 		if ((flag & FWRITE) == 0)
 1.1        pk 			return EBADF;
 1.1        pk 		if (*(int *) addr)
 1.1        pk 			xy->flags |= XY_WLABEL;
 1.1        pk 		else
 1.1        pk 			xy->flags &= ~XY_WLABEL;
 1.1        pk 		return 0;
 1.1        pk
 1.1        pk 	case DIOCWDINFO:	/* write disk label */
1.31      fvdl #ifdef __HAVE_OLD_DISKLABEL
1.31      fvdl 	case ODIOCWDINFO:
1.31      fvdl 		if (command == ODIOCWDINFO) {
1.31      fvdl 			memset(&newlabel, 0, sizeof newlabel);
1.31      fvdl 			memcpy(&newlabel, addr, sizeof (struct olddisklabel));
1.31      fvdl 			lp = &newlabel;
1.31      fvdl 		} else
1.31      fvdl #endif
1.31      fvdl 		lp = (struct disklabel *)addr;
1.31      fvdl
 1.1        pk 		if ((flag & FWRITE) == 0)
 1.1        pk 			return EBADF;
 1.1        pk 		error = setdisklabel(xy->sc_dk.dk_label,
1.31      fvdl 		    lp, /* xy->sc_dk.dk_openmask : */ 0,
 1.1        pk 		    xy->sc_dk.dk_cpulabel);
 1.1        pk 		if (error == 0) {
 1.1        pk 			if (xy->state == XY_DRIVE_NOLABEL)
 1.1        pk 				xy->state = XY_DRIVE_ONLINE;
 1.1        pk
 1.1        pk 			/* Simulate opening partition 0 so write succeeds. */
 1.1        pk 			xy->sc_dk.dk_openmask |= (1 << 0);
 1.1        pk 			error = writedisklabel(MAKEDISKDEV(major(dev), DISKUNIT(dev), RAW_PART),
 1.1        pk 			    xystrategy, xy->sc_dk.dk_label,
 1.1        pk 			    xy->sc_dk.dk_cpulabel);
 1.1        pk 			xy->sc_dk.dk_openmask =
 1.1        pk 			    xy->sc_dk.dk_copenmask | xy->sc_dk.dk_bopenmask;
 1.1        pk 		}
 1.1        pk 		return error;
 1.1        pk
 1.1        pk 	case DIOSXDCMD:
 1.1        pk 		xio = (struct xd_iocmd *) addr;
 1.1        pk 		if ((error = suser(p->p_ucred, &p->p_acflag)) != 0)
 1.1        pk 			return (error);
 1.1        pk 		return (xyc_ioctlcmd(xy, dev, xio));
 1.1        pk
 1.1        pk 	default:
 1.1        pk 		return ENOTTY;
 1.1        pk 	}
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyopen: open drive
 1.1        pk  */
 1.1        pk
 1.1        pk int
 1.1        pk xyopen(dev, flag, fmt, p)
 1.1        pk 	dev_t   dev;
 1.1        pk 	int     flag, fmt;
 1.1        pk 	struct proc *p;
 1.1        pk {
 1.1        pk 	int     unit, part;
 1.1        pk 	struct xy_softc *xy;
 1.1        pk 	struct xyc_attach_args xa;
 1.1        pk
 1.1        pk 	/* first, could it be a valid target? */
 1.1        pk
 1.1        pk 	unit = DISKUNIT(dev);
 1.1        pk 	if (unit >= xy_cd.cd_ndevs || (xy = xy_cd.cd_devs[unit]) == NULL)
 1.1        pk 		return (ENXIO);
 1.1        pk 	part = DISKPART(dev);
 1.1        pk
 1.1        pk 	/* do we need to attach the drive? */
 1.1        pk
 1.1        pk 	if (xy->state == XY_DRIVE_UNKNOWN) {
 1.1        pk 		xa.driveno = xy->xy_drive;
 1.1        pk 		xa.fullmode = XY_SUB_WAIT;
 1.1        pk 		xa.booting = 0;
 1.1        pk 		xyattach((struct device *) xy->parent,
 1.1        pk 						(struct device *) xy, &xa);
 1.1        pk 		if (xy->state == XY_DRIVE_UNKNOWN) {
 1.1        pk 			return (EIO);
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk 	/* check for partition */
 1.1        pk
 1.1        pk 	if (part != RAW_PART &&
 1.1        pk 	    (part >= xy->sc_dk.dk_label->d_npartitions ||
 1.1        pk 		xy->sc_dk.dk_label->d_partitions[part].p_fstype == FS_UNUSED)) {
 1.1        pk 		return (ENXIO);
 1.1        pk 	}
 1.1        pk 	/* set open masks */
 1.1        pk
 1.1        pk 	switch (fmt) {
 1.1        pk 	case S_IFCHR:
 1.1        pk 		xy->sc_dk.dk_copenmask |= (1 << part);
 1.1        pk 		break;
 1.1        pk 	case S_IFBLK:
 1.1        pk 		xy->sc_dk.dk_bopenmask |= (1 << part);
 1.1        pk 		break;
 1.1        pk 	}
 1.1        pk 	xy->sc_dk.dk_openmask = xy->sc_dk.dk_copenmask | xy->sc_dk.dk_bopenmask;
 1.1        pk
 1.1        pk 	return 0;
 1.1        pk }
 1.1        pk
 1.1        pk int
 1.1        pk xyread(dev, uio, flags)
 1.1        pk 	dev_t   dev;
 1.1        pk 	struct uio *uio;
 1.1        pk 	int flags;
 1.1        pk {
 1.1        pk
 1.1        pk 	return (physio(xystrategy, NULL, dev, B_READ, minphys, uio));
 1.1        pk }
 1.1        pk
 1.1        pk int
 1.1        pk xywrite(dev, uio, flags)
 1.1        pk 	dev_t   dev;
 1.1        pk 	struct uio *uio;
 1.1        pk 	int flags;
 1.1        pk {
 1.1        pk
 1.1        pk 	return (physio(xystrategy, NULL, dev, B_WRITE, minphys, uio));
 1.1        pk }
 1.1        pk
 1.1        pk
 1.1        pk /*
 1.1        pk  * xysize: return size of a partition for a dump
 1.1        pk  */
 1.1        pk
 1.1        pk int
 1.1        pk xysize(dev)
 1.1        pk 	dev_t   dev;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xy_softc *xysc;
 1.1        pk 	int     unit, part, size, omask;
 1.1        pk
 1.1        pk 	/* valid unit? */
 1.1        pk 	unit = DISKUNIT(dev);
 1.1        pk 	if (unit >= xy_cd.cd_ndevs || (xysc = xy_cd.cd_devs[unit]) == NULL)
 1.1        pk 		return (-1);
 1.1        pk
 1.1        pk 	part = DISKPART(dev);
 1.1        pk 	omask = xysc->sc_dk.dk_openmask & (1 << part);
 1.1        pk
 1.1        pk 	if (omask == 0 && xyopen(dev, 0, S_IFBLK, NULL) != 0)
 1.1        pk 		return (-1);
 1.1        pk
 1.1        pk 	/* do it */
 1.1        pk 	if (xysc->sc_dk.dk_label->d_partitions[part].p_fstype != FS_SWAP)
 1.1        pk 		size = -1;	/* only give valid size for swap partitions */
 1.1        pk 	else
 1.1        pk 		size = xysc->sc_dk.dk_label->d_partitions[part].p_size *
 1.1        pk 		    (xysc->sc_dk.dk_label->d_secsize / DEV_BSIZE);
 1.1        pk 	if (omask == 0 && xyclose(dev, 0, S_IFBLK, NULL) != 0)
 1.1        pk 		return (-1);
 1.1        pk 	return (size);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xystrategy: buffering system interface to xy.
 1.1        pk  */
 1.1        pk
 1.1        pk void
 1.1        pk xystrategy(bp)
 1.1        pk 	struct buf *bp;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xy_softc *xy;
 1.1        pk 	int     s, unit;
 1.1        pk 	struct xyc_attach_args xa;
1.16   thorpej 	struct disklabel *lp;
1.16   thorpej 	daddr_t blkno;
 1.1        pk
 1.1        pk 	unit = DISKUNIT(bp->b_dev);
 1.1        pk
 1.1        pk 	/* check for live device */
 1.1        pk
 1.1        pk 	if (unit >= xy_cd.cd_ndevs || (xy = xy_cd.cd_devs[unit]) == 0 ||
 1.1        pk 	    bp->b_blkno < 0 ||
 1.1        pk 	    (bp->b_bcount % xy->sc_dk.dk_label->d_secsize) != 0) {
 1.1        pk 		bp->b_error = EINVAL;
 1.1        pk 		goto bad;
 1.1        pk 	}
 1.1        pk 	/* do we need to attach the drive? */
 1.1        pk
 1.1        pk 	if (xy->state == XY_DRIVE_UNKNOWN) {
 1.1        pk 		xa.driveno = xy->xy_drive;
 1.1        pk 		xa.fullmode = XY_SUB_WAIT;
 1.1        pk 		xa.booting = 0;
 1.1        pk 		xyattach((struct device *)xy->parent, (struct device *)xy, &xa);
 1.1        pk 		if (xy->state == XY_DRIVE_UNKNOWN) {
 1.1        pk 			bp->b_error = EIO;
 1.1        pk 			goto bad;
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk 	if (xy->state != XY_DRIVE_ONLINE && DISKPART(bp->b_dev) != RAW_PART) {
 1.1        pk 		/* no I/O to unlabeled disks, unless raw partition */
 1.1        pk 		bp->b_error = EIO;
 1.1        pk 		goto bad;
 1.1        pk 	}
 1.1        pk 	/* short circuit zero length request */
 1.1        pk
 1.1        pk 	if (bp->b_bcount == 0)
 1.1        pk 		goto done;
 1.1        pk
 1.1        pk 	/* check bounds with label (disksubr.c).  Determine the size of the
 1.1        pk 	 * transfer, and make sure it is within the boundaries of the
 1.1        pk 	 * partition. Adjust transfer if needed, and signal errors or early
 1.1        pk 	 * completion. */
 1.1        pk
1.16   thorpej 	lp = xy->sc_dk.dk_label;
1.16   thorpej
1.49   thorpej 	if (bounds_check_with_label(&xy->sc_dk, bp,
 1.1        pk 		(xy->flags & XY_WLABEL) != 0) <= 0)
 1.1        pk 		goto done;
 1.1        pk
 1.1        pk 	/*
1.16   thorpej 	 * Now convert the block number to absolute and put it in
1.16   thorpej 	 * terms of the device's logical block size.
1.16   thorpej 	 */
1.16   thorpej 	blkno = bp->b_blkno / (lp->d_secsize / DEV_BSIZE);
1.16   thorpej 	if (DISKPART(bp->b_dev) != RAW_PART)
1.16   thorpej 		blkno += lp->d_partitions[DISKPART(bp->b_dev)].p_offset;
1.16   thorpej
1.16   thorpej 	bp->b_rawblkno = blkno;
1.16   thorpej
1.16   thorpej 	/*
 1.1        pk 	 * now we know we have a valid buf structure that we need to do I/O
 1.1        pk 	 * on.
 1.1        pk 	 */
 1.1        pk 	s = splbio();		/* protect the queues */
 1.1        pk
1.40   hannken 	BUFQ_PUT(&xy->xyq, bp);
 1.1        pk
 1.1        pk 	/* start 'em up */
 1.1        pk
 1.1        pk 	xyc_start(xy->parent, NULL);
 1.1        pk
 1.1        pk 	/* done! */
 1.1        pk
 1.1        pk 	splx(s);
 1.1        pk 	return;
 1.1        pk
 1.1        pk bad:				/* tells upper layers we have an error */
 1.1        pk 	bp->b_flags |= B_ERROR;
 1.1        pk done:				/* tells upper layers we are done with this
 1.1        pk 				 * buf */
 1.1        pk 	bp->b_resid = bp->b_bcount;
 1.1        pk 	biodone(bp);
 1.1        pk }
 1.1        pk /*
 1.1        pk  * end of {b,c}devsw functions
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  * i n t e r r u p t   f u n c t i o n
 1.1        pk  *
 1.1        pk  * xycintr: hardware interrupt.
 1.1        pk  */
 1.1        pk int
 1.1        pk xycintr(v)
 1.1        pk 	void   *v;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xyc_softc *xycsc = v;
 1.1        pk
 1.1        pk 	/* kick the event counter */
 1.1        pk
 1.1        pk 	xycsc->sc_intrcnt.ev_count++;
 1.1        pk
 1.1        pk 	/* remove as many done IOPBs as possible */
 1.1        pk
 1.1        pk 	xyc_remove_iorq(xycsc);
 1.1        pk
 1.1        pk 	/* start any iorq's already waiting */
 1.1        pk
 1.1        pk 	xyc_start(xycsc, NULL);
 1.1        pk
 1.1        pk 	return (1);
 1.1        pk }
 1.1        pk /*
 1.1        pk  * end of interrupt function
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  * i n t e r n a l   f u n c t i o n s
 1.1        pk  */
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_rqinit: fill out the fields of an I/O request
 1.1        pk  */
 1.1        pk
 1.1        pk inline void
 1.1        pk xyc_rqinit(rq, xyc, xy, md, blk, cnt, db, bp)
 1.1        pk 	struct xy_iorq *rq;
 1.1        pk 	struct xyc_softc *xyc;
 1.1        pk 	struct xy_softc *xy;
 1.1        pk 	int     md;
 1.1        pk 	u_long  blk;
 1.1        pk 	int     cnt;
 1.1        pk 	caddr_t db;
 1.1        pk 	struct buf *bp;
 1.1        pk {
 1.1        pk 	rq->xyc = xyc;
 1.1        pk 	rq->xy = xy;
 1.1        pk 	rq->ttl = XYC_MAXTTL + 10;
 1.1        pk 	rq->mode = md;
 1.1        pk 	rq->tries = rq->errno = rq->lasterror = 0;
 1.1        pk 	rq->blockno = blk;
 1.1        pk 	rq->sectcnt = cnt;
 1.2        pk 	rq->dbuf = db;
 1.1        pk 	rq->buf = bp;
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_rqtopb: load up an IOPB based on an iorq
 1.1        pk  */
 1.1        pk
 1.1        pk void
 1.1        pk xyc_rqtopb(iorq, iopb, cmd, subfun)
 1.1        pk 	struct xy_iorq *iorq;
 1.1        pk 	struct xy_iopb *iopb;
 1.1        pk 	int     cmd, subfun;
 1.1        pk
 1.1        pk {
 1.1        pk 	u_long  block, dp;
 1.1        pk
 1.1        pk 	/* normal IOPB case, standard stuff */
 1.1        pk
 1.1        pk 	/* chain bit handled later */
 1.1        pk 	iopb->ien = (XY_STATE(iorq->mode) == XY_SUB_POLL) ? 0 : 1;
 1.1        pk 	iopb->com = cmd;
 1.1        pk 	iopb->errno = 0;
 1.1        pk 	iopb->errs = 0;
 1.1        pk 	iopb->done = 0;
 1.1        pk 	if (iorq->xy) {
 1.1        pk 		iopb->unit = iorq->xy->xy_drive;
 1.1        pk 		iopb->dt = iorq->xy->drive_type;
 1.1        pk 	} else {
 1.1        pk 		iopb->unit = 0;
 1.1        pk 		iopb->dt = 0;
 1.1        pk 	}
 1.1        pk 	block = iorq->blockno;
 1.1        pk 	if (iorq->xy == NULL || block == 0) {
 1.1        pk 		iopb->sect = iopb->head = iopb->cyl = 0;
 1.1        pk 	} else {
 1.1        pk 		iopb->sect = block % iorq->xy->nsect;
 1.1        pk 		block = block / iorq->xy->nsect;
 1.1        pk 		iopb->head = block % iorq->xy->nhead;
 1.1        pk 		block = block / iorq->xy->nhead;
 1.1        pk 		iopb->cyl = block;
 1.1        pk 	}
 1.1        pk 	iopb->scnt = iorq->sectcnt;
 1.2        pk 	dp = (u_long) iorq->dbuf;
 1.1        pk 	if (iorq->dbuf == NULL) {
 1.1        pk 		iopb->dataa = 0;
 1.1        pk 		iopb->datar = 0;
 1.1        pk 	} else {
 1.1        pk 		iopb->dataa = (dp & 0xffff);
 1.1        pk 		iopb->datar = ((dp & 0xff0000) >> 16);
 1.1        pk 	}
 1.1        pk 	iopb->subfn = subfun;
 1.1        pk }
 1.1        pk
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_unbusy: wait for the xyc to go unbusy, or timeout.
 1.1        pk  */
 1.1        pk
 1.1        pk int
 1.1        pk xyc_unbusy(xyc, del)
 1.1        pk
 1.1        pk struct xyc *xyc;
 1.1        pk int del;
 1.1        pk
 1.1        pk {
 1.1        pk 	while (del-- > 0) {
 1.1        pk 		if ((xyc->xyc_csr & XYC_GBSY) == 0)
 1.1        pk 			break;
 1.1        pk 		DELAY(1);
 1.1        pk 	}
 1.1        pk 	return(del == 0 ? XY_ERR_FAIL : XY_ERR_AOK);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_cmd: front end for POLL'd and WAIT'd commands.  Returns 0 or error.
1.36       wiz  * note that NORM requests are handled separately.
 1.1        pk  */
 1.1        pk int
 1.1        pk xyc_cmd(xycsc, cmd, subfn, unit, block, scnt, dptr, fullmode)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	int     cmd, subfn, unit, block, scnt;
 1.1        pk 	char   *dptr;
 1.1        pk 	int     fullmode;
 1.1        pk
 1.1        pk {
 1.1        pk 	int     submode = XY_STATE(fullmode);
 1.1        pk 	struct xy_iorq *iorq = xycsc->ciorq;
 1.1        pk 	struct xy_iopb *iopb = xycsc->ciopb;
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * is someone else using the control iopq wait for it if we can
 1.1        pk 	 */
 1.1        pk start:
 1.1        pk 	if (submode == XY_SUB_WAIT && XY_STATE(iorq->mode) != XY_SUB_FREE) {
 1.1        pk 		if (tsleep(iorq, PRIBIO, "xyc_cmd", 0))
 1.1        pk                                 return(XY_ERR_FAIL);
 1.1        pk 		goto start;
 1.1        pk 	}
 1.1        pk
 1.1        pk 	if (XY_STATE(iorq->mode) != XY_SUB_FREE) {
 1.1        pk 		DELAY(1000000);		/* XY_SUB_POLL: steal the iorq */
 1.1        pk 		iorq->mode = XY_SUB_FREE;
 1.1        pk 		printf("%s: stole control iopb\n", xycsc->sc_dev.dv_xname);
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/* init iorq/iopb */
 1.1        pk
 1.1        pk 	xyc_rqinit(iorq, xycsc,
 1.1        pk 	    (unit == XYC_NOUNIT) ? NULL : xycsc->sc_drives[unit],
 1.1        pk 	    fullmode, block, scnt, dptr, NULL);
 1.1        pk
 1.1        pk 	/* load IOPB from iorq */
 1.1        pk
 1.1        pk 	xyc_rqtopb(iorq, iopb, cmd, subfn);
 1.1        pk
 1.1        pk 	/* submit it for processing */
 1.1        pk
 1.1        pk 	xyc_submit_iorq(xycsc, iorq, fullmode);	/* error code will be in iorq */
 1.1        pk
 1.1        pk 	return(XY_ERR_AOK);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_startbuf
 1.1        pk  * start a buffer for running
 1.1        pk  */
 1.1        pk
 1.1        pk int
 1.1        pk xyc_startbuf(xycsc, xysc, bp)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	struct xy_softc *xysc;
 1.1        pk 	struct buf *bp;
 1.1        pk
 1.1        pk {
 1.2        pk 	int     partno, error;
 1.1        pk 	struct xy_iorq *iorq;
 1.1        pk 	struct xy_iopb *iopb;
 1.1        pk 	u_long  block;
 1.1        pk
 1.1        pk 	iorq = xysc->xyrq;
 1.1        pk 	iopb = iorq->iopb;
 1.1        pk
 1.1        pk 	/* get buf */
 1.1        pk
 1.1        pk 	if (bp == NULL)
 1.1        pk 		panic("xyc_startbuf null buf");
 1.1        pk
 1.1        pk 	partno = DISKPART(bp->b_dev);
 1.1        pk #ifdef XYC_DEBUG
 1.1        pk 	printf("xyc_startbuf: %s%c: %s block %d\n", xysc->sc_dev.dv_xname,
 1.1        pk 	    'a' + partno, (bp->b_flags & B_READ) ? "read" : "write", bp->b_blkno);
 1.1        pk 	printf("xyc_startbuf: b_bcount %d, b_data 0x%x\n",
 1.1        pk 	    bp->b_bcount, bp->b_data);
 1.1        pk #endif
 1.1        pk
 1.1        pk 	/*
1.16   thorpej 	 * load request.
 1.1        pk 	 *
 1.1        pk 	 * note that iorq points to the buffer as mapped into DVMA space,
 1.1        pk 	 * where as the bp->b_data points to its non-DVMA mapping.
 1.1        pk 	 */
 1.1        pk
1.16   thorpej 	block = bp->b_rawblkno;
 1.1        pk
 1.2        pk 	error = bus_dmamap_load(xycsc->dmatag, iorq->dmamap,
 1.2        pk 			bp->b_data, bp->b_bcount, 0, BUS_DMA_NOWAIT);
1.10        pk 	if (error != 0) {
 1.2        pk 		printf("%s: warning: cannot load DMA map\n",
 1.1        pk 			xycsc->sc_dev.dv_xname);
 1.1        pk 		return (XY_ERR_FAIL);	/* XXX: need some sort of
 1.1        pk 					 * call-back scheme here? */
 1.1        pk 	}
 1.1        pk
 1.7   thorpej 	bus_dmamap_sync(xycsc->dmatag, iorq->dmamap, 0,
 1.7   thorpej 			iorq->dmamap->dm_mapsize, (bp->b_flags & B_READ)
 1.2        pk 				? BUS_DMASYNC_PREREAD
 1.2        pk 				: BUS_DMASYNC_PREWRITE);
 1.2        pk
 1.1        pk 	/* init iorq and load iopb from it */
 1.1        pk 	xyc_rqinit(iorq, xycsc, xysc, XY_SUB_NORM | XY_MODE_VERBO, block,
 1.2        pk 		   bp->b_bcount / XYFM_BPS,
1.37       eeh 		   (caddr_t)(u_long)iorq->dmamap->dm_segs[0].ds_addr,
 1.2        pk 		   bp);
 1.1        pk
 1.1        pk 	xyc_rqtopb(iorq, iopb, (bp->b_flags & B_READ) ? XYCMD_RD : XYCMD_WR, 0);
 1.1        pk
 1.1        pk 	/* Instrumentation. */
 1.1        pk 	disk_busy(&xysc->sc_dk);
 1.1        pk
 1.1        pk 	return (XY_ERR_AOK);
 1.1        pk }
 1.1        pk
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_submit_iorq: submit an iorq for processing.  returns XY_ERR_AOK
 1.1        pk  * if ok.  if it fail returns an error code.  type is XY_SUB_*.
 1.1        pk  *
 1.1        pk  * note: caller frees iorq in all cases except NORM
 1.1        pk  *
 1.1        pk  * return value:
 1.1        pk  *   NORM: XY_AOK (req pending), XY_FAIL (couldn't submit request)
 1.1        pk  *   WAIT: XY_AOK (success), <error-code> (failed)
 1.1        pk  *   POLL: <same as WAIT>
 1.1        pk  *   NOQ : <same as NORM>
 1.1        pk  *
 1.1        pk  * there are three sources for i/o requests:
 1.1        pk  * [1] xystrategy: normal block I/O, using "struct buf" system.
 1.1        pk  * [2] autoconfig/crash dump: these are polled I/O requests, no interrupts.
 1.1        pk  * [3] open/ioctl: these are I/O requests done in the context of a process,
 1.1        pk  *                 and the process should block until they are done.
 1.1        pk  *
 1.1        pk  * software state is stored in the iorq structure.  each iorq has an
 1.1        pk  * iopb structure.  the hardware understands the iopb structure.
 1.1        pk  * every command must go through an iopb.  a 450 handles one iopb at a
 1.1        pk  * time, where as a 451 can take them in chains.  [the 450 claims it
 1.1        pk  * can handle chains, but is appears to be buggy...]   iopb are allocated
 1.1        pk  * in DVMA space at boot up time.  each disk gets one iopb, and the
 1.1        pk  * controller gets one (for POLL and WAIT commands).  what happens if
 1.1        pk  * the iopb is busy?  for i/o type [1], the buffers are queued at the
 1.1        pk  * "buff" layer and * picked up later by the interrupt routine.  for case
 1.1        pk  * [2] we can only be blocked if there is a WAIT type I/O request being
 1.1        pk  * run.   since this can only happen when we are crashing, we wait a sec
 1.1        pk  * and then steal the IOPB.  for case [3] the process can sleep
 1.1        pk  * on the iorq free list until some iopbs are avaliable.
 1.1        pk  */
 1.1        pk
 1.1        pk
 1.1        pk int
 1.1        pk xyc_submit_iorq(xycsc, iorq, type)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	struct xy_iorq *iorq;
 1.1        pk 	int     type;
 1.1        pk
 1.1        pk {
1.10        pk 	struct xy_iopb *dmaiopb;
 1.1        pk
 1.1        pk #ifdef XYC_DEBUG
 1.1        pk 	printf("xyc_submit_iorq(%s, addr=0x%x, type=%d)\n",
 1.1        pk 		xycsc->sc_dev.dv_xname, iorq, type);
 1.1        pk #endif
 1.1        pk
 1.1        pk 	/* first check and see if controller is busy */
 1.1        pk 	if ((xycsc->xyc->xyc_csr & XYC_GBSY) != 0) {
 1.1        pk #ifdef XYC_DEBUG
 1.1        pk 		printf("xyc_submit_iorq: XYC not ready (BUSY)\n");
 1.1        pk #endif
 1.1        pk 		if (type == XY_SUB_NOQ)
 1.1        pk 			return (XY_ERR_FAIL);	/* failed */
 1.1        pk 		switch (type) {
 1.1        pk 		case XY_SUB_NORM:
 1.1        pk 			return XY_ERR_AOK;	/* success */
 1.1        pk 		case XY_SUB_WAIT:
 1.1        pk 			while (iorq->iopb->done == 0) {
1.23   thorpej 				(void) tsleep(iorq, PRIBIO, "xyciorq", 0);
 1.1        pk 			}
 1.1        pk 			return (iorq->errno);
 1.1        pk 		case XY_SUB_POLL:		/* steal controller */
1.10        pk 			(void)xycsc->xyc->xyc_rsetup; /* RESET */
 1.1        pk 			if (xyc_unbusy(xycsc->xyc,XYC_RESETUSEC) == XY_ERR_FAIL)
 1.1        pk 				panic("xyc_submit_iorq: stuck xyc");
 1.1        pk 			printf("%s: stole controller\n",
 1.1        pk 				xycsc->sc_dev.dv_xname);
 1.1        pk 			break;
 1.1        pk 		default:
 1.1        pk 			panic("xyc_submit_iorq adding");
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk
1.10        pk 	dmaiopb = xyc_chain(xycsc, iorq);	 /* build chain */
1.10        pk 	if (dmaiopb == NULL) { /* nothing doing? */
 1.1        pk 		if (type == XY_SUB_NORM || type == XY_SUB_NOQ)
 1.1        pk 			return(XY_ERR_AOK);
1.42    provos 		panic("xyc_submit_iorq: xyc_chain failed!");
 1.1        pk 	}
 1.1        pk
1.10        pk 	XYC_GO(xycsc->xyc, (u_long)dmaiopb);
 1.1        pk
 1.1        pk 	/* command now running, wrap it up */
 1.1        pk 	switch (type) {
 1.1        pk 	case XY_SUB_NORM:
 1.1        pk 	case XY_SUB_NOQ:
 1.1        pk 		return (XY_ERR_AOK);	/* success */
 1.1        pk 	case XY_SUB_WAIT:
 1.1        pk 		while (iorq->iopb->done == 0) {
1.23   thorpej 			(void) tsleep(iorq, PRIBIO, "xyciorq", 0);
 1.1        pk 		}
 1.1        pk 		return (iorq->errno);
 1.1        pk 	case XY_SUB_POLL:
 1.1        pk 		return (xyc_piodriver(xycsc, iorq));
 1.1        pk 	default:
 1.1        pk 		panic("xyc_submit_iorq wrap up");
 1.1        pk 	}
 1.1        pk 	panic("xyc_submit_iorq");
 1.1        pk 	return 0;	/* not reached */
 1.1        pk }
 1.1        pk
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_chain: build a chain.  return dvma address of first element in
 1.1        pk  * the chain.   iorq != NULL: means we only want that item on the chain.
 1.1        pk  */
 1.1        pk
 1.1        pk struct xy_iopb *
 1.1        pk xyc_chain(xycsc, iorq)
1.10        pk 	struct xyc_softc *xycsc;
1.10        pk 	struct xy_iorq *iorq;
1.10        pk
1.10        pk {
1.10        pk 	int togo, chain, hand;
1.10        pk
1.10        pk 	bzero(xycsc->xy_chain, sizeof(xycsc->xy_chain));
1.10        pk
1.10        pk 	/*
1.10        pk 	 * promote control IOPB to the top
1.10        pk 	 */
1.10        pk 	if (iorq == NULL) {
1.10        pk 		if ((XY_STATE(xycsc->reqs[XYC_CTLIOPB].mode) == XY_SUB_POLL ||
1.10        pk 		     XY_STATE(xycsc->reqs[XYC_CTLIOPB].mode) == XY_SUB_WAIT) &&
1.10        pk 		     xycsc->iopbase[XYC_CTLIOPB].done == 0)
1.10        pk 			iorq = &xycsc->reqs[XYC_CTLIOPB];
1.10        pk 	}
1.10        pk
1.10        pk 	/*
1.10        pk 	 * special case: if iorq != NULL then we have a POLL or WAIT request.
1.10        pk 	 * we let these take priority and do them first.
1.10        pk 	 */
1.10        pk 	if (iorq) {
1.10        pk 		xycsc->xy_chain[0] = iorq;
1.10        pk 		iorq->iopb->chen = 0;
1.10        pk 		return(iorq->dmaiopb);
1.10        pk 	}
 1.1        pk
1.10        pk 	/*
1.10        pk 	 * NORM case: do round robin and maybe chain (if allowed and possible)
1.10        pk 	 */
1.10        pk 	chain = 0;
1.10        pk 	hand = xycsc->xy_hand;
1.10        pk 	xycsc->xy_hand = (xycsc->xy_hand + 1) % XYC_MAXIOPB;
1.10        pk
1.10        pk 	for (togo = XYC_MAXIOPB; togo > 0;
1.10        pk 	     togo--, hand = (hand + 1) % XYC_MAXIOPB) {
1.10        pk 		struct xy_iopb *iopb, *prev_iopb, *dmaiopb;
1.10        pk
1.10        pk 		if (XY_STATE(xycsc->reqs[hand].mode) != XY_SUB_NORM ||
1.10        pk 		    xycsc->iopbase[hand].done)
1.10        pk 			continue;   /* not ready-for-i/o */
1.10        pk
1.10        pk 		xycsc->xy_chain[chain] = &xycsc->reqs[hand];
1.10        pk 		iopb = xycsc->xy_chain[chain]->iopb;
1.10        pk 		iopb->chen = 0;
1.10        pk 		if (chain != 0) {
1.10        pk 			/* adding a link to a chain */
1.10        pk 			prev_iopb = xycsc->xy_chain[chain-1]->iopb;
1.10        pk 			prev_iopb->chen = 1;
1.10        pk 			dmaiopb = xycsc->xy_chain[chain]->dmaiopb;
1.10        pk 			prev_iopb->nxtiopb = ((u_long)dmaiopb) & 0xffff;
1.10        pk 		} else {
1.10        pk 			/* head of chain */
1.10        pk 			iorq = xycsc->xy_chain[chain];
1.10        pk 		}
1.10        pk 		chain++;
1.10        pk
1.10        pk 		/* quit if chaining dis-allowed */
1.10        pk 		if (xycsc->no_ols)
1.10        pk 			break;
1.10        pk 	}
 1.1        pk
1.10        pk 	return(iorq ? iorq->dmaiopb : NULL);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_piodriver
 1.1        pk  *
 1.1        pk  * programmed i/o driver.   this function takes over the computer
 1.1        pk  * and drains off the polled i/o request.   it returns the status of the iorq
 1.1        pk  * the caller is interesting in.
 1.1        pk  */
 1.1        pk int
 1.1        pk xyc_piodriver(xycsc, iorq)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	struct xy_iorq  *iorq;
 1.1        pk
 1.1        pk {
 1.1        pk 	int     nreset = 0;
 1.1        pk 	int     retval = 0;
 1.1        pk 	u_long  res;
 1.1        pk #ifdef XYC_DEBUG
 1.1        pk 	printf("xyc_piodriver(%s, 0x%x)\n", xycsc->sc_dev.dv_xname, iorq);
 1.1        pk #endif
 1.1        pk
 1.1        pk 	while (iorq->iopb->done == 0) {
 1.1        pk
 1.1        pk 		res = xyc_unbusy(xycsc->xyc, XYC_MAXTIME);
 1.1        pk
 1.1        pk 		/* we expect some progress soon */
 1.1        pk 		if (res == XY_ERR_FAIL && nreset >= 2) {
 1.1        pk 			xyc_reset(xycsc, 0, XY_RSET_ALL, XY_ERR_FAIL, 0);
 1.1        pk #ifdef XYC_DEBUG
 1.1        pk 			printf("xyc_piodriver: timeout\n");
 1.1        pk #endif
 1.1        pk 			return (XY_ERR_FAIL);
 1.1        pk 		}
 1.1        pk 		if (res == XY_ERR_FAIL) {
 1.1        pk 			if (xyc_reset(xycsc, 0,
 1.1        pk 				      (nreset++ == 0) ? XY_RSET_NONE : iorq,
 1.1        pk 				      XY_ERR_FAIL,
 1.1        pk 				      0) == XY_ERR_FAIL)
 1.1        pk 				return (XY_ERR_FAIL);	/* flushes all but POLL
 1.1        pk 							 * requests, resets */
 1.1        pk 			continue;
 1.1        pk 		}
 1.1        pk
 1.1        pk 		xyc_remove_iorq(xycsc);	 /* may resubmit request */
 1.1        pk
 1.1        pk 		if (iorq->iopb->done == 0)
 1.1        pk 			xyc_start(xycsc, iorq);
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/* get return value */
 1.1        pk
 1.1        pk 	retval = iorq->errno;
 1.1        pk
 1.1        pk #ifdef XYC_DEBUG
 1.1        pk 	printf("xyc_piodriver: done, retval = 0x%x (%s)\n",
 1.1        pk 	    iorq->errno, xyc_e2str(iorq->errno));
 1.1        pk #endif
 1.1        pk
 1.1        pk 	/* start up any bufs that have queued */
 1.1        pk
 1.1        pk 	xyc_start(xycsc, NULL);
 1.1        pk
 1.1        pk 	return (retval);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_xyreset: reset one drive.   NOTE: assumes xyc was just reset.
 1.1        pk  * we steal iopb[XYC_CTLIOPB] for this, but we put it back when we are done.
 1.1        pk  */
 1.1        pk void
 1.1        pk xyc_xyreset(xycsc, xysc)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	struct xy_softc *xysc;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xy_iopb tmpiopb;
1.10        pk 	struct xy_iopb *iopb;
 1.1        pk 	int     del;
 1.1        pk
1.10        pk 	iopb = xycsc->ciopb;
1.10        pk
1.10        pk 	/* Save contents */
1.10        pk 	bcopy(iopb, &tmpiopb, sizeof(struct xy_iopb));
1.10        pk
1.10        pk 	iopb->chen = iopb->done = iopb->errs = 0;
1.10        pk 	iopb->ien = 0;
1.10        pk 	iopb->com = XYCMD_RST;
1.10        pk 	iopb->unit = xysc->xy_drive;
1.10        pk
1.10        pk 	XYC_GO(xycsc->xyc, (u_long)xycsc->ciorq->dmaiopb);
 1.1        pk
 1.1        pk 	del = XYC_RESETUSEC;
 1.1        pk 	while (del > 0) {
1.10        pk 		if ((xycsc->xyc->xyc_csr & XYC_GBSY) == 0)
1.10        pk 			break;
 1.1        pk 		DELAY(1);
 1.1        pk 		del--;
 1.1        pk 	}
 1.1        pk
1.10        pk 	if (del <= 0 || iopb->errs) {
 1.1        pk 		printf("%s: off-line: %s\n", xycsc->sc_dev.dv_xname,
1.10        pk 		    xyc_e2str(iopb->errno));
 1.1        pk 		del = xycsc->xyc->xyc_rsetup;
 1.1        pk 		if (xyc_unbusy(xycsc->xyc, XYC_RESETUSEC) == XY_ERR_FAIL)
 1.1        pk 			panic("xyc_reset");
 1.1        pk 	} else {
 1.1        pk 		xycsc->xyc->xyc_csr = XYC_IPND;	/* clear IPND */
 1.1        pk 	}
1.10        pk
1.10        pk 	/* Restore contents */
1.10        pk 	bcopy(&tmpiopb, iopb, sizeof(struct xy_iopb));
 1.1        pk }
 1.1        pk
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_reset: reset everything: requests are marked as errors except
 1.1        pk  * a polled request (which is resubmitted)
 1.1        pk  */
 1.1        pk int
 1.1        pk xyc_reset(xycsc, quiet, blastmode, error, xysc)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	int     quiet, error;
 1.1        pk 	struct xy_iorq *blastmode;
 1.1        pk 	struct xy_softc *xysc;
 1.1        pk
 1.1        pk {
 1.1        pk 	int     del = 0, lcv, retval = XY_ERR_AOK;
 1.1        pk
 1.1        pk 	/* soft reset hardware */
 1.1        pk
 1.1        pk 	if (!quiet)
 1.1        pk 		printf("%s: soft reset\n", xycsc->sc_dev.dv_xname);
 1.1        pk 	del = xycsc->xyc->xyc_rsetup;
 1.1        pk 	del = xyc_unbusy(xycsc->xyc, XYC_RESETUSEC);
 1.1        pk 	if (del == XY_ERR_FAIL) {
 1.1        pk 		blastmode = XY_RSET_ALL;	/* dead, flush all requests */
 1.1        pk 		retval = XY_ERR_FAIL;
 1.1        pk 	}
 1.1        pk 	if (xysc)
 1.1        pk 		xyc_xyreset(xycsc, xysc);
 1.1        pk
 1.1        pk 	/* fix queues based on "blast-mode" */
 1.1        pk
 1.1        pk 	for (lcv = 0; lcv < XYC_MAXIOPB; lcv++) {
 1.1        pk 		register struct xy_iorq *iorq = &xycsc->reqs[lcv];
 1.1        pk
 1.1        pk 		if (XY_STATE(iorq->mode) != XY_SUB_POLL &&
 1.1        pk 		    XY_STATE(iorq->mode) != XY_SUB_WAIT &&
 1.1        pk 		    XY_STATE(iorq->mode) != XY_SUB_NORM)
 1.1        pk 			/* is it active? */
 1.1        pk 			continue;
 1.1        pk
 1.1        pk 		if (blastmode == XY_RSET_ALL ||
 1.1        pk 				blastmode != iorq) {
 1.1        pk 			/* failed */
 1.1        pk 			iorq->errno = error;
 1.1        pk 			xycsc->iopbase[lcv].done = xycsc->iopbase[lcv].errs = 1;
 1.1        pk 			switch (XY_STATE(iorq->mode)) {
 1.1        pk 			case XY_SUB_NORM:
 1.1        pk 			    iorq->buf->b_error = EIO;
 1.1        pk 			    iorq->buf->b_flags |= B_ERROR;
 1.1        pk 			    iorq->buf->b_resid = iorq->sectcnt * XYFM_BPS;
 1.2        pk
 1.7   thorpej 			    bus_dmamap_sync(xycsc->dmatag, iorq->dmamap, 0,
 1.7   thorpej 					iorq->dmamap->dm_mapsize,
 1.2        pk 					(iorq->buf->b_flags & B_READ)
 1.2        pk 						? BUS_DMASYNC_POSTREAD
 1.2        pk 						: BUS_DMASYNC_POSTWRITE);
 1.2        pk
 1.2        pk 			    bus_dmamap_unload(xycsc->dmatag, iorq->dmamap);
 1.2        pk
1.40   hannken 			    (void)BUFQ_GET(&iorq->xy->xyq);
 1.1        pk 			    disk_unbusy(&xycsc->reqs[lcv].xy->sc_dk,
 1.1        pk 				(xycsc->reqs[lcv].buf->b_bcount -
1.47       mrg 				xycsc->reqs[lcv].buf->b_resid),
1.47       mrg 				(xycsc->reqs[lcv].buf->b_flags & B_READ));
 1.1        pk 			    biodone(iorq->buf);
 1.1        pk 			    iorq->mode = XY_SUB_FREE;
 1.1        pk 			    break;
 1.1        pk 			case XY_SUB_WAIT:
 1.1        pk 			    wakeup(iorq);
 1.1        pk 			case XY_SUB_POLL:
 1.1        pk 			    iorq->mode =
 1.1        pk 				XY_NEWSTATE(iorq->mode, XY_SUB_DONE);
 1.1        pk 			    break;
 1.1        pk 			}
 1.1        pk
 1.1        pk 		} else {
 1.1        pk
 1.1        pk 			/* resubmit, no need to do anything here */
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * now, if stuff is waiting, start it.
 1.1        pk 	 * since we just reset it should go
 1.1        pk 	 */
 1.1        pk 	xyc_start(xycsc, NULL);
 1.1        pk
 1.1        pk 	return (retval);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_start: start waiting buffers
 1.1        pk  */
 1.1        pk
 1.1        pk void
 1.1        pk xyc_start(xycsc, iorq)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	struct xy_iorq *iorq;
 1.1        pk
 1.1        pk {
 1.1        pk 	int lcv;
 1.1        pk 	struct xy_softc *xy;
 1.1        pk
 1.1        pk 	if (iorq == NULL) {
 1.1        pk 		for (lcv = 0; lcv < XYC_MAXDEV ; lcv++) {
 1.1        pk 			if ((xy = xycsc->sc_drives[lcv]) == NULL) continue;
1.40   hannken 			if (BUFQ_PEEK(&xy->xyq) == NULL) continue;
 1.1        pk 			if (xy->xyrq->mode != XY_SUB_FREE) continue;
1.40   hannken 			xyc_startbuf(xycsc, xy, BUFQ_PEEK(&xy->xyq));
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk 	xyc_submit_iorq(xycsc, iorq, XY_SUB_NOQ);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_remove_iorq: remove "done" IOPB's.
 1.1        pk  */
 1.1        pk
 1.1        pk int
 1.1        pk xyc_remove_iorq(xycsc)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk
 1.1        pk {
 1.1        pk 	int     errno, rq, comm, errs;
 1.1        pk 	struct xyc *xyc = xycsc->xyc;
 1.1        pk 	u_long  addr;
 1.1        pk 	struct xy_iopb *iopb;
 1.1        pk 	struct xy_iorq *iorq;
 1.1        pk 	struct buf *bp;
 1.1        pk
 1.1        pk 	if (xyc->xyc_csr & XYC_DERR) {
 1.1        pk 		/*
 1.1        pk 		 * DOUBLE ERROR: should never happen under normal use. This
 1.1        pk 		 * error is so bad, you can't even tell which IOPB is bad, so
 1.1        pk 		 * we dump them all.
 1.1        pk 		 */
 1.1        pk 		errno = XY_ERR_DERR;
 1.1        pk 		printf("%s: DOUBLE ERROR!\n", xycsc->sc_dev.dv_xname);
 1.1        pk 		if (xyc_reset(xycsc, 0, XY_RSET_ALL, errno, 0) != XY_ERR_AOK) {
 1.1        pk 			printf("%s: soft reset failed!\n",
 1.1        pk 				xycsc->sc_dev.dv_xname);
 1.1        pk 			panic("xyc_remove_iorq: controller DEAD");
 1.1        pk 		}
 1.1        pk 		return (XY_ERR_AOK);
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * get iopb that is done, loop down the chain
 1.1        pk 	 */
 1.1        pk
 1.1        pk 	if (xyc->xyc_csr & XYC_ERR) {
 1.1        pk 		xyc->xyc_csr = XYC_ERR; /* clear error condition */
 1.1        pk 	}
 1.1        pk 	if (xyc->xyc_csr & XYC_IPND) {
 1.1        pk 		xyc->xyc_csr = XYC_IPND; /* clear interrupt */
 1.1        pk 	}
 1.1        pk
 1.1        pk 	for (rq = 0; rq < XYC_MAXIOPB; rq++) {
 1.1        pk 		iorq = xycsc->xy_chain[rq];
 1.1        pk 		if (iorq == NULL) break; /* done ! */
 1.1        pk 		if (iorq->mode == 0 || XY_STATE(iorq->mode) == XY_SUB_DONE)
 1.1        pk 			continue;	/* free, or done */
 1.1        pk 		iopb = iorq->iopb;
 1.1        pk 		if (iopb->done == 0)
 1.1        pk 			continue;	/* not done yet */
 1.1        pk
 1.1        pk 		comm = iopb->com;
 1.1        pk 		errs = iopb->errs;
 1.1        pk
 1.1        pk 		if (errs)
 1.1        pk 			iorq->errno = iopb->errno;
 1.1        pk 		else
 1.1        pk 			iorq->errno = 0;
 1.1        pk
 1.1        pk 		/* handle non-fatal errors */
 1.1        pk
 1.1        pk 		if (errs &&
 1.1        pk 		    xyc_error(xycsc, iorq, iopb, comm) == XY_ERR_AOK)
 1.1        pk 			continue;	/* AOK: we resubmitted it */
 1.1        pk
 1.1        pk
 1.1        pk 		/* this iorq is now done (hasn't been restarted or anything) */
 1.1        pk
 1.1        pk 		if ((iorq->mode & XY_MODE_VERBO) && iorq->lasterror)
 1.1        pk 			xyc_perror(iorq, iopb, 0);
 1.1        pk
 1.1        pk 		/* now, if read/write check to make sure we got all the data
 1.1        pk 		 * we needed. (this may not be the case if we got an error in
 1.1        pk 		 * the middle of a multisector request).   */
 1.1        pk
 1.1        pk 		if ((iorq->mode & XY_MODE_B144) != 0 && errs == 0 &&
 1.1        pk 		    (comm == XYCMD_RD || comm == XYCMD_WR)) {
 1.1        pk 			/* we just successfully processed a bad144 sector
 1.1        pk 			 * note: if we are in bad 144 mode, the pointers have
 1.1        pk 			 * been advanced already (see above) and are pointing
 1.1        pk 			 * at the bad144 sector.   to exit bad144 mode, we
 1.1        pk 			 * must advance the pointers 1 sector and issue a new
 1.1        pk 			 * request if there are still sectors left to process
 1.1        pk 			 *
 1.1        pk 			 */
 1.1        pk 			XYC_ADVANCE(iorq, 1);	/* advance 1 sector */
 1.1        pk
 1.1        pk 			/* exit b144 mode */
 1.1        pk 			iorq->mode = iorq->mode & (~XY_MODE_B144);
 1.1        pk
 1.1        pk 			if (iorq->sectcnt) {	/* more to go! */
 1.1        pk 				iorq->lasterror = iorq->errno = iopb->errno = 0;
 1.1        pk 				iopb->errs = iopb->done = 0;
 1.1        pk 				iorq->tries = 0;
 1.1        pk 				iopb->scnt = iorq->sectcnt;
 1.1        pk 				iopb->cyl = iorq->blockno /
 1.1        pk 						iorq->xy->sectpercyl;
 1.1        pk 				iopb->head =
 1.1        pk 					(iorq->blockno / iorq->xy->nhead) %
 1.1        pk 						iorq->xy->nhead;
 1.1        pk 				iopb->sect = iorq->blockno % XYFM_BPS;
 1.2        pk 				addr = (u_long) iorq->dbuf;
 1.1        pk 				iopb->dataa = (addr & 0xffff);
 1.1        pk 				iopb->datar = ((addr & 0xff0000) >> 16);
 1.1        pk 				/* will resubit at end */
 1.1        pk 				continue;
 1.1        pk 			}
 1.1        pk 		}
 1.1        pk 		/* final cleanup, totally done with this request */
 1.1        pk
 1.1        pk 		switch (XY_STATE(iorq->mode)) {
 1.1        pk 		case XY_SUB_NORM:
 1.1        pk 			bp = iorq->buf;
 1.1        pk 			if (errs) {
 1.1        pk 				bp->b_error = EIO;
 1.1        pk 				bp->b_flags |= B_ERROR;
 1.1        pk 				bp->b_resid = iorq->sectcnt * XYFM_BPS;
 1.1        pk 			} else {
 1.1        pk 				bp->b_resid = 0;	/* done */
 1.1        pk 			}
 1.7   thorpej 			bus_dmamap_sync(xycsc->dmatag, iorq->dmamap, 0,
 1.7   thorpej 					iorq->dmamap->dm_mapsize,
 1.2        pk 					(iorq->buf->b_flags & B_READ)
 1.2        pk 						? BUS_DMASYNC_POSTREAD
 1.2        pk 						: BUS_DMASYNC_POSTWRITE);
 1.2        pk
 1.2        pk 			bus_dmamap_unload(xycsc->dmatag, iorq->dmamap);
 1.2        pk
1.40   hannken 			(void)BUFQ_GET(&iorq->xy->xyq);
 1.1        pk 			disk_unbusy(&iorq->xy->sc_dk,
1.47       mrg 			    (bp->b_bcount - bp->b_resid),
1.47       mrg 			    (bp->b_flags & B_READ));
 1.1        pk 			iorq->mode = XY_SUB_FREE;
 1.1        pk 			biodone(bp);
 1.1        pk 			break;
 1.1        pk 		case XY_SUB_WAIT:
 1.1        pk 			iorq->mode = XY_NEWSTATE(iorq->mode, XY_SUB_DONE);
 1.1        pk 			wakeup(iorq);
 1.1        pk 			break;
 1.1        pk 		case XY_SUB_POLL:
 1.1        pk 			iorq->mode = XY_NEWSTATE(iorq->mode, XY_SUB_DONE);
 1.1        pk 			break;
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk
 1.1        pk 	return (XY_ERR_AOK);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_perror: print error.
 1.1        pk  * - if still_trying is true: we got an error, retried and got a
 1.1        pk  *   different error.  in that case lasterror is the old error,
 1.1        pk  *   and errno is the new one.
 1.1        pk  * - if still_trying is not true, then if we ever had an error it
 1.1        pk  *   is in lasterror. also, if iorq->errno == 0, then we recovered
 1.1        pk  *   from that error (otherwise iorq->errno == iorq->lasterror).
 1.1        pk  */
 1.1        pk void
 1.1        pk xyc_perror(iorq, iopb, still_trying)
 1.1        pk 	struct xy_iorq *iorq;
 1.1        pk 	struct xy_iopb *iopb;
 1.1        pk 	int     still_trying;
 1.1        pk
 1.1        pk {
 1.1        pk
 1.1        pk 	int     error = iorq->lasterror;
 1.1        pk
 1.1        pk 	printf("%s", (iorq->xy) ? iorq->xy->sc_dev.dv_xname
 1.1        pk 	    : iorq->xyc->sc_dev.dv_xname);
 1.1        pk 	if (iorq->buf)
 1.1        pk 		printf("%c: ", 'a' + DISKPART(iorq->buf->b_dev));
 1.1        pk 	if (iopb->com == XYCMD_RD || iopb->com == XYCMD_WR)
 1.1        pk 		printf("%s %d/%d/%d: ",
 1.1        pk 			(iopb->com == XYCMD_RD) ? "read" : "write",
 1.1        pk 			iopb->cyl, iopb->head, iopb->sect);
 1.1        pk 	printf("%s", xyc_e2str(error));
 1.1        pk
 1.1        pk 	if (still_trying)
 1.1        pk 		printf(" [still trying, new error=%s]", xyc_e2str(iorq->errno));
 1.1        pk 	else
 1.1        pk 		if (iorq->errno == 0)
 1.1        pk 			printf(" [recovered in %d tries]", iorq->tries);
 1.1        pk
 1.1        pk 	printf("\n");
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_error: non-fatal error encountered... recover.
 1.1        pk  * return AOK if resubmitted, return FAIL if this iopb is done
 1.1        pk  */
 1.1        pk int
 1.1        pk xyc_error(xycsc, iorq, iopb, comm)
 1.1        pk 	struct xyc_softc *xycsc;
 1.1        pk 	struct xy_iorq *iorq;
 1.1        pk 	struct xy_iopb *iopb;
 1.1        pk 	int     comm;
 1.1        pk
 1.1        pk {
 1.1        pk 	int     errno = iorq->errno;
 1.1        pk 	int     erract = xyc_entoact(errno);
1.12  drochner 	int     oldmode, advance;
1.18       chs #ifdef __sparc__
1.12  drochner 	int i;
1.12  drochner #endif
 1.1        pk
 1.1        pk 	if (erract == XY_ERA_RSET) {	/* some errors require a reset */
 1.1        pk 		oldmode = iorq->mode;
 1.1        pk 		iorq->mode = XY_SUB_DONE | (~XY_SUB_MASK & oldmode);
 1.1        pk 		/* make xyc_start ignore us */
 1.1        pk 		xyc_reset(xycsc, 1, XY_RSET_NONE, errno, iorq->xy);
 1.1        pk 		iorq->mode = oldmode;
 1.1        pk 	}
 1.1        pk 	/* check for read/write to a sector in bad144 table if bad: redirect
 1.1        pk 	 * request to bad144 area */
 1.1        pk
 1.1        pk 	if ((comm == XYCMD_RD || comm == XYCMD_WR) &&
 1.1        pk 	    (iorq->mode & XY_MODE_B144) == 0) {
 1.1        pk 		advance = iorq->sectcnt - iopb->scnt;
 1.1        pk 		XYC_ADVANCE(iorq, advance);
1.18       chs #ifdef __sparc__
 1.1        pk 		if ((i = isbad(&iorq->xy->dkb, iorq->blockno / iorq->xy->sectpercyl,
 1.1        pk 			    (iorq->blockno / iorq->xy->nsect) % iorq->xy->nhead,
 1.1        pk 			    iorq->blockno % iorq->xy->nsect)) != -1) {
 1.1        pk 			iorq->mode |= XY_MODE_B144;	/* enter bad144 mode &
 1.1        pk 							 * redirect */
 1.1        pk 			iopb->errno = iopb->done = iopb->errs = 0;
 1.1        pk 			iopb->scnt = 1;
 1.1        pk 			iopb->cyl = (iorq->xy->ncyl + iorq->xy->acyl) - 2;
 1.1        pk 			/* second to last acyl */
 1.1        pk 			i = iorq->xy->sectpercyl - 1 - i;	/* follow bad144
 1.1        pk 								 * standard */
 1.1        pk 			iopb->head = i / iorq->xy->nhead;
 1.1        pk 			iopb->sect = i % iorq->xy->nhead;
 1.1        pk 			/* will resubmit when we come out of remove_iorq */
 1.1        pk 			return (XY_ERR_AOK);	/* recovered! */
 1.1        pk 		}
1.12  drochner #endif
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/*
 1.1        pk 	 * it isn't a bad144 sector, must be real error! see if we can retry
 1.1        pk 	 * it?
 1.1        pk 	 */
 1.1        pk 	if ((iorq->mode & XY_MODE_VERBO) && iorq->lasterror)
 1.1        pk 		xyc_perror(iorq, iopb, 1);	/* inform of error state
 1.1        pk 						 * change */
 1.1        pk 	iorq->lasterror = errno;
 1.1        pk
 1.1        pk 	if ((erract == XY_ERA_RSET || erract == XY_ERA_HARD)
 1.1        pk 	    && iorq->tries < XYC_MAXTRIES) {	/* retry? */
 1.1        pk 		iorq->tries++;
 1.1        pk 		iorq->errno = iopb->errno = iopb->done = iopb->errs = 0;
 1.1        pk 		/* will resubmit at end of remove_iorq */
 1.1        pk 		return (XY_ERR_AOK);	/* recovered! */
 1.1        pk 	}
 1.1        pk
 1.1        pk 	/* failed to recover from this error */
 1.1        pk 	return (XY_ERR_FAIL);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_tick: make sure xy is still alive and ticking (err, kicking).
 1.1        pk  */
 1.1        pk void
 1.1        pk xyc_tick(arg)
 1.1        pk 	void   *arg;
 1.1        pk
 1.1        pk {
 1.1        pk 	struct xyc_softc *xycsc = arg;
 1.1        pk 	int     lcv, s, reset = 0;
 1.1        pk
 1.1        pk 	/* reduce ttl for each request if one goes to zero, reset xyc */
 1.1        pk 	s = splbio();
 1.1        pk 	for (lcv = 0; lcv < XYC_MAXIOPB; lcv++) {
 1.1        pk 		if (xycsc->reqs[lcv].mode == 0 ||
 1.1        pk 		    XY_STATE(xycsc->reqs[lcv].mode) == XY_SUB_DONE)
 1.1        pk 			continue;
 1.1        pk 		xycsc->reqs[lcv].ttl--;
 1.1        pk 		if (xycsc->reqs[lcv].ttl == 0)
 1.1        pk 			reset = 1;
 1.1        pk 	}
 1.1        pk 	if (reset) {
 1.1        pk 		printf("%s: watchdog timeout\n", xycsc->sc_dev.dv_xname);
 1.1        pk 		xyc_reset(xycsc, 0, XY_RSET_NONE, XY_ERR_FAIL, NULL);
 1.1        pk 	}
 1.1        pk 	splx(s);
 1.1        pk
 1.1        pk 	/* until next time */
 1.1        pk
1.17   thorpej 	callout_reset(&xycsc->sc_tick_ch, XYC_TICKCNT, xyc_tick, xycsc);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_ioctlcmd: this function provides a user level interface to the
 1.1        pk  * controller via ioctl.   this allows "format" programs to be written
 1.1        pk  * in user code, and is also useful for some debugging.   we return
 1.1        pk  * an error code.   called at user priority.
 1.1        pk  *
 1.1        pk  * XXX missing a few commands (see the 7053 driver for ideas)
 1.1        pk  */
 1.1        pk int
 1.1        pk xyc_ioctlcmd(xy, dev, xio)
 1.1        pk 	struct xy_softc *xy;
 1.1        pk 	dev_t   dev;
 1.1        pk 	struct xd_iocmd *xio;
 1.1        pk
 1.1        pk {
 1.2        pk 	int     s, rqno, dummy = 0;
 1.1        pk 	caddr_t dvmabuf = NULL, buf = NULL;
 1.1        pk 	struct xyc_softc *xycsc;
 1.2        pk 	int			rseg, error;
 1.2        pk 	bus_dma_segment_t	seg;
 1.1        pk
 1.1        pk 	/* check sanity of requested command */
 1.1        pk
 1.1        pk 	switch (xio->cmd) {
 1.1        pk
 1.1        pk 	case XYCMD_NOP:	/* no op: everything should be zero */
 1.1        pk 		if (xio->subfn || xio->dptr || xio->dlen ||
 1.1        pk 		    xio->block || xio->sectcnt)
 1.1        pk 			return (EINVAL);
 1.1        pk 		break;
 1.1        pk
 1.1        pk 	case XYCMD_RD:		/* read / write sectors (up to XD_IOCMD_MAXS) */
 1.1        pk 	case XYCMD_WR:
 1.1        pk 		if (xio->subfn || xio->sectcnt > XD_IOCMD_MAXS ||
 1.1        pk 		    xio->sectcnt * XYFM_BPS != xio->dlen || xio->dptr == NULL)
 1.1        pk 			return (EINVAL);
 1.1        pk 		break;
 1.1        pk
 1.1        pk 	case XYCMD_SK:		/* seek: doesn't seem useful to export this */
 1.1        pk 		return (EINVAL);
 1.1        pk
 1.1        pk 		break;
 1.1        pk
 1.1        pk 	default:
 1.1        pk 		return (EINVAL);/* ??? */
 1.1        pk 	}
 1.1        pk
 1.2        pk 	xycsc = xy->parent;
 1.2        pk
 1.1        pk 	/* create DVMA buffer for request if needed */
 1.2        pk 	if (xio->dlen) {
1.19        pk 		if ((error = xy_dmamem_alloc(xycsc->dmatag, xycsc->auxmap,
1.19        pk 					     &seg, &rseg,
1.19        pk 					     xio->dlen, &buf,
1.19        pk 					     (bus_addr_t *)&dvmabuf)) != 0) {
 1.2        pk 			return (error);
 1.2        pk 		}
 1.1        pk
 1.1        pk 		if (xio->cmd == XYCMD_WR) {
 1.2        pk 			if ((error = copyin(xio->dptr, buf, xio->dlen)) != 0) {
 1.2        pk 				bus_dmamem_unmap(xycsc->dmatag, buf, xio->dlen);
 1.2        pk 				bus_dmamem_free(xycsc->dmatag, &seg, rseg);
 1.2        pk 				return (error);
 1.1        pk 			}
 1.1        pk 		}
 1.1        pk 	}
 1.1        pk 	/* do it! */
 1.1        pk
 1.2        pk 	error = 0;
 1.1        pk 	s = splbio();
 1.1        pk 	rqno = xyc_cmd(xycsc, xio->cmd, xio->subfn, xy->xy_drive, xio->block,
 1.1        pk 	    xio->sectcnt, dvmabuf, XY_SUB_WAIT);
 1.1        pk 	if (rqno == XY_ERR_FAIL) {
 1.2        pk 		error = EIO;
 1.1        pk 		goto done;
 1.1        pk 	}
 1.1        pk 	xio->errno = xycsc->ciorq->errno;
 1.1        pk 	xio->tries = xycsc->ciorq->tries;
 1.1        pk 	XYC_DONE(xycsc, dummy);
 1.1        pk
 1.1        pk 	if (xio->cmd == XYCMD_RD)
 1.2        pk 		error = copyout(buf, xio->dptr, xio->dlen);
 1.1        pk
 1.1        pk done:
 1.1        pk 	splx(s);
 1.2        pk 	if (dvmabuf) {
1.19        pk 		xy_dmamem_free(xycsc->dmatag, xycsc->auxmap, &seg, rseg,
1.19        pk 				xio->dlen, buf);
 1.2        pk 	}
 1.2        pk 	return (error);
 1.1        pk }
 1.1        pk
 1.1        pk /*
 1.1        pk  * xyc_e2str: convert error code number into an error string
 1.1        pk  */
 1.1        pk char *
 1.1        pk xyc_e2str(no)
 1.1        pk 	int     no;
 1.1        pk {
 1.1        pk 	switch (no) {
 1.1        pk 	case XY_ERR_FAIL:
 1.1        pk 		return ("Software fatal error");
 1.1        pk 	case XY_ERR_DERR:
 1.1        pk 		return ("DOUBLE ERROR");
 1.1        pk 	case XY_ERR_AOK:
 1.1        pk 		return ("Successful completion");
 1.1        pk 	case XY_ERR_IPEN:
 1.1        pk 		return("Interrupt pending");
 1.1        pk 	case XY_ERR_BCFL:
 1.1        pk 		return("Busy conflict");
 1.1        pk 	case XY_ERR_TIMO:
 1.1        pk 		return("Operation timeout");
 1.1        pk 	case XY_ERR_NHDR:
 1.1        pk 		return("Header not found");
 1.1        pk 	case XY_ERR_HARD:
 1.1        pk 		return("Hard ECC error");
 1.1        pk 	case XY_ERR_ICYL:
 1.1        pk 		return("Illegal cylinder address");
 1.1        pk 	case XY_ERR_ISEC:
 1.1        pk 		return("Illegal sector address");
 1.1        pk 	case XY_ERR_SMAL:
 1.1        pk 		return("Last sector too small");
 1.1        pk 	case XY_ERR_SACK:
 1.1        pk 		return("Slave ACK error (non-existent memory)");
 1.1        pk 	case XY_ERR_CHER:
 1.1        pk 		return("Cylinder and head/header error");
 1.1        pk 	case XY_ERR_SRTR:
 1.1        pk 		return("Auto-seek retry successful");
 1.1        pk 	case XY_ERR_WPRO:
 1.1        pk 		return("Write-protect error");
 1.1        pk 	case XY_ERR_UIMP:
 1.1        pk 		return("Unimplemented command");
 1.1        pk 	case XY_ERR_DNRY:
 1.1        pk 		return("Drive not ready");
 1.1        pk 	case XY_ERR_SZER:
 1.1        pk 		return("Sector count zero");
 1.1        pk 	case XY_ERR_DFLT:
 1.1        pk 		return("Drive faulted");
 1.1        pk 	case XY_ERR_ISSZ:
 1.1        pk 		return("Illegal sector size");
 1.1        pk 	case XY_ERR_SLTA:
 1.1        pk 		return("Self test A");
 1.1        pk 	case XY_ERR_SLTB:
 1.1        pk 		return("Self test B");
 1.1        pk 	case XY_ERR_SLTC:
 1.1        pk 		return("Self test C");
 1.1        pk 	case XY_ERR_SOFT:
 1.1        pk 		return("Soft ECC error");
 1.1        pk 	case XY_ERR_SFOK:
 1.1        pk 		return("Soft ECC error recovered");
 1.1        pk 	case XY_ERR_IHED:
 1.1        pk 		return("Illegal head");
 1.1        pk 	case XY_ERR_DSEQ:
 1.1        pk 		return("Disk sequencer error");
 1.1        pk 	case XY_ERR_SEEK:
 1.1        pk 		return("Seek error");
 1.1        pk 	default:
 1.1        pk 		return ("Unknown error");
 1.1        pk 	}
 1.1        pk }
 1.1        pk
 1.1        pk int
 1.1        pk xyc_entoact(errno)
 1.1        pk
 1.1        pk int errno;
 1.1        pk
 1.1        pk {
 1.1        pk   switch (errno) {
 1.1        pk     case XY_ERR_FAIL:	case XY_ERR_DERR:	case XY_ERR_IPEN:
 1.1        pk     case XY_ERR_BCFL:	case XY_ERR_ICYL:	case XY_ERR_ISEC:
 1.1        pk     case XY_ERR_UIMP:	case XY_ERR_SZER:	case XY_ERR_ISSZ:
 1.1        pk     case XY_ERR_SLTA:	case XY_ERR_SLTB:	case XY_ERR_SLTC:
 1.1        pk     case XY_ERR_IHED:	case XY_ERR_SACK:	case XY_ERR_SMAL:
 1.1        pk
 1.1        pk 	return(XY_ERA_PROG); /* program error ! */
 1.1        pk
 1.1        pk     case XY_ERR_TIMO:	case XY_ERR_NHDR:	case XY_ERR_HARD:
 1.1        pk     case XY_ERR_DNRY:	case XY_ERR_CHER:	case XY_ERR_SEEK:
 1.1        pk     case XY_ERR_SOFT:
 1.1        pk
 1.1        pk 	return(XY_ERA_HARD); /* hard error, retry */
 1.1        pk
 1.1        pk     case XY_ERR_DFLT:	case XY_ERR_DSEQ:
 1.1        pk
 1.1        pk 	return(XY_ERA_RSET); /* hard error reset */
 1.1        pk
 1.1        pk     case XY_ERR_SRTR:	case XY_ERR_SFOK:	case XY_ERR_AOK:
 1.1        pk
 1.1        pk 	return(XY_ERA_SOFT); /* an FYI error */
 1.1        pk
 1.1        pk     case XY_ERR_WPRO:
 1.1        pk
 1.1        pk 	return(XY_ERA_WPRO); /* write protect */
 1.1        pk   }
 1.1        pk
 1.1        pk   return(XY_ERA_PROG); /* ??? */
 1.1        pk }