sun3/dev/si.c

1.10    gwr /*	$NetBSD: si.c,v 1.10 1994/12/12 18:59:25 gwr Exp $	*/
 1.8    cgd
 1.1  glass /*
 1.2    gwr  * Copyright (C) 1994 Adam Glass, Gordon W. Ross
 1.1  glass  * Copyright (C) 1993	Allen K. Briggs, Chris P. Caputo,
 1.1  glass  *			Michael L. Finch, Bradley A. Grantham, and
 1.1  glass  *			Lawrence A. Kesteloot
 1.1  glass  * All rights reserved.
 1.1  glass  *
 1.1  glass  * Redistribution and use in source and binary forms, with or without
 1.1  glass  * modification, are permitted provided that the following conditions
 1.1  glass  * are met:
 1.1  glass  * 1. Redistributions of source code must retain the above copyright
 1.1  glass  *    notice, this list of conditions and the following disclaimer.
 1.1  glass  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  glass  *    notice, this list of conditions and the following disclaimer in the
 1.1  glass  *    documentation and/or other materials provided with the distribution.
 1.1  glass  * 3. All advertising materials mentioning features or use of this software
 1.1  glass  *    must display the following acknowledgement:
 1.1  glass  *	This product includes software developed by the Alice Group.
 1.1  glass  * 4. The names of the Alice Group or any of its members may not be used
 1.1  glass  *    to endorse or promote products derived from this software without
 1.1  glass  *    specific prior written permission.
 1.1  glass  *
 1.1  glass  * THIS SOFTWARE IS PROVIDED BY THE ALICE GROUP ``AS IS'' AND ANY EXPRESS OR
 1.1  glass  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1  glass  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1  glass  * IN NO EVENT SHALL THE ALICE GROUP BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1  glass  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 1.1  glass  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 1.1  glass  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 1.1  glass  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 1.1  glass  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 1.1  glass  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1  glass  */
 1.1  glass
 1.3    gwr /* #define DEBUG 1 */
 1.2    gwr
 1.2    gwr /* XXX - Need to add support for real DMA. -gwr */
 1.2    gwr /* #define PSEUDO_DMA 1 (broken) */
 1.1  glass
 1.3    gwr static int si_debug=0;
 1.1  glass
 1.1  glass #include <sys/types.h>
 1.1  glass #include <sys/malloc.h>
 1.1  glass #include <sys/param.h>
 1.1  glass #include <sys/systm.h>
 1.1  glass #include <sys/errno.h>
 1.1  glass #include <sys/buf.h>
 1.1  glass #include <sys/proc.h>
 1.1  glass #include <sys/user.h>
 1.1  glass #include <sys/device.h>
 1.1  glass
 1.1  glass #include <machine/autoconf.h>
 1.1  glass #include <machine/isr.h>
 1.1  glass #include <machine/obio.h>
 1.1  glass
 1.2    gwr #include <scsi/scsi_all.h>
 1.2    gwr #include <scsi/scsi_debug.h>
 1.2    gwr #include <scsi/scsiconf.h>
 1.2    gwr
 1.1  glass #include "scsi_defs.h"
 1.1  glass #include "scsi_5380.h"
 1.1  glass
 1.1  glass #define SCI_PHASE_DISC		0	/* sort of ... */
1.10    gwr #define SCI_CLR_INTR(regs)	((volatile)(regs->sci_iack))
 1.1  glass #define SCI_ACK(ptr,phase)	(ptr)->sci_tcmd = (phase)
 1.1  glass #define SCSI_TIMEOUT_VAL	10000000
 1.1  glass #define WAIT_FOR_NOT_REQ(ptr) {	\
 1.1  glass 	int scsi_timeout = SCSI_TIMEOUT_VAL; \
 1.1  glass 	while ( ((ptr)->sci_bus_csr & SCI_BUS_REQ) && \
 1.1  glass 		 ((ptr)->sci_bus_csr & SCI_BUS_REQ) && \
 1.1  glass 		 ((ptr)->sci_bus_csr & SCI_BUS_REQ) && \
 1.1  glass 		 (--scsi_timeout) ); \
 1.1  glass 	if (!scsi_timeout) { \
 1.2    gwr 		printf("scsi timeout--WAIT_FOR_NOT_REQ---%s, line %d.\n", \
 1.2    gwr 			__FILE__, __LINE__); \
 1.1  glass 		goto scsi_timeout_error; \
 1.1  glass 	} \
 1.1  glass 	}
 1.1  glass #define WAIT_FOR_REQ(ptr) {	\
 1.1  glass 	int scsi_timeout = SCSI_TIMEOUT_VAL; \
 1.1  glass 	while ( (((ptr)->sci_bus_csr & SCI_BUS_REQ) == 0) && \
 1.1  glass 		(((ptr)->sci_bus_csr & SCI_BUS_REQ) == 0) && \
 1.1  glass 		(((ptr)->sci_bus_csr & SCI_BUS_REQ) == 0) && \
 1.1  glass 		 (--scsi_timeout) ); \
 1.1  glass 	if (!scsi_timeout) { \
 1.2    gwr 		printf("scsi timeout--WAIT_FOR_REQ---%s, line %d.\n", \
 1.2    gwr 			__FILE__, __LINE__); \
 1.1  glass 		goto scsi_timeout_error; \
 1.1  glass 	} \
 1.1  glass 	}
 1.1  glass #define WAIT_FOR_BSY(ptr) {	\
 1.1  glass 	int scsi_timeout = SCSI_TIMEOUT_VAL; \
 1.1  glass 	while ( (((ptr)->sci_bus_csr & SCI_BUS_BSY) == 0) && \
 1.1  glass 		(((ptr)->sci_bus_csr & SCI_BUS_BSY) == 0) && \
 1.1  glass 		(((ptr)->sci_bus_csr & SCI_BUS_BSY) == 0) && \
 1.1  glass 		 (--scsi_timeout) ); \
 1.1  glass 	if (!scsi_timeout) { \
 1.2    gwr 		printf("scsi timeout--WAIT_FOR_BSY---%s, line %d.\n", \
 1.2    gwr 			__FILE__, __LINE__); \
 1.1  glass 		goto scsi_timeout_error; \
 1.1  glass 	} \
 1.1  glass 	}
 1.1  glass
 1.1  glass #ifdef DDB
 1.1  glass int Debugger();
 1.1  glass #else
 1.2    gwr #define Debugger() panic("Should call Debugger here %s:%d", \
 1.2    gwr 			 __FILE__, __LINE__)
 1.1  glass #endif
 1.1  glass
 1.1  glass struct ncr5380_softc {
 1.1  glass     struct device sc_dev;
1.10    gwr     volatile void *sc_regs;
 1.1  glass     int sc_adapter_target;
 1.1  glass     struct scsi_link sc_link;
 1.1  glass };
 1.1  glass
 1.3    gwr static u_int	ncr5380_adapter_info(struct ncr5380_softc *ncr5380);
 1.3    gwr static void		ncr5380_minphys(struct buf *bp);
 1.3    gwr static int		ncr5380_scsi_cmd(struct scsi_xfer *xs);
 1.3    gwr
 1.3    gwr static int		ncr5380_show_scsi_cmd(struct scsi_xfer *xs);
 1.3    gwr static int		ncr5380_reset_target(int adapter, int target);
 1.3    gwr static int		ncr5380_poll(int adapter, int timeout);
 1.3    gwr static int		ncr5380_send_cmd(struct scsi_xfer *xs);
 1.1  glass
1.10    gwr int		ncr5380_intr(void *);
 1.1  glass
 1.3    gwr static int	si_generic(int adapter, int id, int lun,
 1.1  glass 			 struct scsi_generic *cmd, int cmdlen,
 1.1  glass 			 void *databuf, int datalen);
 1.3    gwr static int	si_group0(int adapter, int id, int lun,
 1.1  glass 			    int opcode, int addr, int len,
 1.1  glass 			    int flags, caddr_t databuf, int datalen);
 1.1  glass
 1.1  glass static char scsi_name[] = "si";
 1.1  glass
 1.1  glass struct scsi_adapter	ncr5380_switch = {
 1.1  glass 	ncr5380_scsi_cmd,		/* scsi_cmd()		*/
 1.1  glass 	ncr5380_minphys,		/* scsi_minphys()	*/
 1.1  glass 	0,				/* open_target_lu()	*/
 1.1  glass 	0,				/* close_target_lu()	*/
 1.1  glass 	ncr5380_adapter_info,		/* adapter_info()	*/
 1.1  glass 	scsi_name,			/* name			*/
 1.2    gwr 	0, 0				/* spare[2]		*/
 1.1  glass };
 1.1  glass
 1.1  glass /* This is copied from julian's bt driver */
 1.1  glass /* "so we have a default dev struct for our link struct." */
 1.1  glass struct scsi_device ncr_dev = {
 1.1  glass 	NULL,		/* Use default error handler.	    */
 1.2    gwr 	NULL,		/* Use default start handler.		*/
 1.2    gwr 	NULL,		/* Use default async handler.	    */
 1.1  glass 	NULL,		/* Use default "done" routine.	    */
 1.2    gwr 	"si",		/* name of device type */
 1.2    gwr 	0,			/* device type dependent flags */
 1.2    gwr 	0, 0		/* spare[2] */
 1.1  glass };
 1.1  glass
 1.1  glass extern int	matchbyname();
 1.3    gwr static int	si_match();
 1.3    gwr static void	si_attach();
 1.1  glass
 1.2    gwr struct cfdriver sicd = {
 1.2    gwr 	NULL, "si", si_match, si_attach, DV_DULL,
 1.2    gwr 	sizeof(struct ncr5380_softc), NULL, 0,
 1.2    gwr };
 1.1  glass
 1.3    gwr static int
 1.2    gwr si_print(aux, name)
 1.1  glass 	void *aux;
 1.1  glass 	char *name;
 1.1  glass {
 1.2    gwr 	if (name)
 1.2    gwr 		printf("%s: (sc_link = 0x%x)", name, (int) aux);
 1.2    gwr 	return UNCONF;
 1.1  glass }
 1.1  glass
 1.3    gwr static int
1.10    gwr si_match(parent, vcf, args)
 1.1  glass 	struct device	*parent;
1.10    gwr 	void		*vcf, *args;
 1.1  glass {
1.10    gwr 	struct cfdata	*cf = vcf;
1.10    gwr 	struct confargs *ca = args;
1.10    gwr 	int x;
1.10    gwr
1.10    gwr 	if (ca->ca_paddr == -1)
1.10    gwr 		ca->ca_paddr = OBIO_NCR_SCSI;
1.10    gwr 	if (ca->ca_intpri == -1)
1.10    gwr 		ca->ca_intpri = 2;
 1.1  glass
1.10    gwr 	/* The peek returns non-zero on error. */
1.10    gwr     return !bus_peek(ca, 0, 1, &x);
 1.1  glass }
 1.1  glass
 1.3    gwr static void
1.10    gwr si_attach(parent, self, args)
 1.1  glass 	struct device	*parent, *self;
1.10    gwr 	void		*args;
 1.1  glass {
1.10    gwr 	struct ncr5380_softc *ncr5380 = (struct ncr5380_softc *) self;
1.10    gwr 	register volatile sci_regmap_t *regs;
1.10    gwr 	struct confargs *ca = args;
1.10    gwr 	int unit = self->dv_unit;
1.10    gwr 	caddr_t dvma_malloc();	/* XXX */
 1.1  glass
1.10    gwr     printf("\n");
1.10    gwr
1.10    gwr 	regs = (sci_regmap_t *)
1.10    gwr 		obio_alloc(ca->ca_paddr, OBIO_NCR_SCSI_SIZE);
 1.1  glass
1.10    gwr 	ncr5380->sc_regs = regs;
 1.2    gwr     ncr5380->sc_link.scsibus = unit;	/* needed? */
 1.2    gwr     ncr5380->sc_link.adapter_softc = ncr5380;
 1.1  glass     ncr5380->sc_link.adapter_targ = 7;
 1.1  glass     ncr5380->sc_link.adapter = &ncr5380_switch;
 1.1  glass     ncr5380->sc_link.device = &ncr_dev;
 1.1  glass
1.10    gwr 	isr_add_autovect(ncr5380_intr, (void *)ncr5380, ca->ca_intpri);
1.10    gwr
1.10    gwr 	config_found(self, &(ncr5380->sc_link), si_print);
 1.1  glass }
 1.1  glass
 1.3    gwr static u_int
 1.1  glass ncr5380_adapter_info(struct ncr5380_softc *ncr5380)
 1.1  glass {
 1.1  glass 	return 1;
 1.1  glass }
 1.1  glass
 1.1  glass #define MIN_PHYS	65536	/*BARF!!!!*/
 1.3    gwr static void
 1.1  glass ncr5380_minphys(struct buf *bp)
 1.1  glass {
 1.1  glass 	if (bp->b_bcount > MIN_PHYS) {
 1.1  glass 		printf("Uh-oh...  ncr5380_minphys setting bp->b_bcount = %x.\n", MIN_PHYS);
 1.1  glass 		bp->b_bcount = MIN_PHYS;
 1.1  glass 	}
 1.1  glass }
 1.1  glass #undef MIN_PHYS
 1.1  glass
 1.5    gwr static int
 1.1  glass ncr5380_scsi_cmd(struct scsi_xfer *xs)
 1.1  glass {
 1.1  glass 	int flags, s, r;
 1.1  glass
 1.1  glass 	flags = xs->flags;
 1.1  glass 	if (xs->bp) flags |= (SCSI_NOSLEEP);
 1.1  glass 	if ( flags & ITSDONE ) {
 1.1  glass 		printf("Already done?");
 1.1  glass 		xs->flags &= ~ITSDONE;
 1.1  glass 	}
 1.1  glass 	if ( ! ( flags & INUSE ) ) {
 1.1  glass 		printf("Not in use?");
 1.1  glass 		xs->flags |= INUSE;
 1.1  glass 	}
 1.1  glass
 1.1  glass 	if ( flags & SCSI_RESET ) {
 1.1  glass 		printf("flags & SCSIRESET.\n");
 1.1  glass 		if ( ! ( flags & SCSI_NOSLEEP ) ) {
 1.1  glass 			s = splbio();
 1.1  glass 			ncr5380_reset_target(xs->sc_link->scsibus, xs->sc_link->target);
 1.1  glass 			splx(s);
 1.1  glass 			return(SUCCESSFULLY_QUEUED);
 1.1  glass 		} else {
 1.1  glass 			ncr5380_reset_target(xs->sc_link->scsibus, xs->sc_link->target);
 1.1  glass 			if (ncr5380_poll(xs->sc_link->scsibus, xs->timeout)) {
 1.1  glass 				return (HAD_ERROR);
 1.1  glass 			}
 1.1  glass 			return (COMPLETE);
 1.1  glass 		}
 1.1  glass 	}
 1.2    gwr #if 0
 1.1  glass 	/*
 1.1  glass 	 * OK.  Now that that's over with, let's pack up that
 1.1  glass 	 * SCSI puppy and send it off.  If we can, we'll just
 1.1  glass 	 * queue and go; otherwise, we'll wait for the command
 1.1  glass 	 * to finish.
 1.2    gwr 	 */
 1.1  glass 	if ( ! ( flags & SCSI_NOSLEEP ) ) {
 1.1  glass 		s = splbio();
 1.1  glass 		ncr5380_send_cmd(xs);
 1.1  glass 		splx(s);
 1.1  glass 		return(SUCCESSFULLY_QUEUED);
 1.1  glass 	}
 1.2    gwr #endif
 1.1  glass
 1.1  glass 	r = ncr5380_send_cmd(xs);
 1.1  glass 	xs->flags |= ITSDONE;
 1.1  glass 	scsi_done(xs);
 1.1  glass 	switch(r) {
 1.2    gwr 		case COMPLETE:
 1.2    gwr 		case SUCCESSFULLY_QUEUED:
 1.1  glass 			r = SUCCESSFULLY_QUEUED;
 1.1  glass 			if (xs->flags&SCSI_NOMASK)
 1.1  glass 				r = COMPLETE;
 1.1  glass 			break;
 1.1  glass 		default:
 1.1  glass 			break;
 1.1  glass 	}
 1.1  glass 	return r;
 1.2    gwr #if 0
 1.1  glass 	do {
 1.1  glass 		if (ncr5380_poll(xs->sc_link->scsibus, xs->timeout)) {
 1.1  glass 			if ( ! ( xs->flags & SCSI_SILENT ) )
 1.1  glass 				printf("cmd fail.\n");
 1.1  glass 			cmd_cleanup
 1.1  glass 			xs->error = XS_DRIVER_STUFFUP;
 1.1  glass 			splx(s);
 1.1  glass 		}
 1.1  glass 	} while ( ! ( xs->flags & ITSDONE ) );
 1.2    gwr #endif
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.1  glass ncr5380_show_scsi_cmd(struct scsi_xfer *xs)
 1.1  glass {
 1.1  glass 	u_char	*b = (u_char *) xs->cmd;
 1.1  glass 	int	i  = 0;
 1.1  glass
 1.1  glass 	if ( ! ( xs->flags & SCSI_RESET ) ) {
 1.1  glass 		printf("si(%d:%d:%d)-",
 1.2    gwr 			   xs->sc_link->scsibus,
 1.2    gwr 			   xs->sc_link->target,
 1.2    gwr 			   xs->sc_link->lun);
 1.1  glass 		while (i < xs->cmdlen) {
 1.1  glass 			if (i) printf(",");
 1.1  glass 			printf("%x",b[i++]);
 1.1  glass 		}
 1.1  glass 		printf("-\n");
 1.1  glass 	} else {
 1.1  glass 		printf("si(%d:%d:%d)-RESET-\n",
 1.2    gwr 			   xs->sc_link->scsibus,
 1.2    gwr 			   xs->sc_link->target,
 1.2    gwr 			   xs->sc_link->lun);
 1.1  glass 	}
 1.1  glass }
 1.1  glass
 1.1  glass /*
 1.1  glass  * Actual chip control.
 1.1  glass  */
 1.1  glass
1.10    gwr int
1.10    gwr ncr5380_intr(void *arg)
 1.1  glass {
1.10    gwr     register struct ncr5380_softc *ncr5380 = arg;
 1.1  glass     register volatile sci_regmap_t *regs = ncr5380->sc_regs;
 1.1  glass
1.10    gwr 	if (regs->sci_csr & SCI_CSR_INT) {
1.10    gwr 		SCI_CLR_INTR(regs);
 1.2    gwr #ifdef	DEBUG
1.10    gwr 		printf (" ncr_intr\n");
 1.2    gwr #endif
1.10    gwr 		return (1);	/* we handled it */
1.10    gwr 	}
1.10    gwr 	return (0);
 1.1  glass }
 1.1  glass
 1.2    gwr int
 1.1  glass scsi_irq_intr(void)
 1.1  glass {
 1.2    gwr #if 0	/* XXX - no way to get regs */
 1.1  glass     register volatile sci_regmap_t *regs = ncr;
 1.2    gwr 	if (regs->sci_csr != SCI_CSR_PHASE_MATCH)
 1.1  glass 		printf("scsi_irq_intr called (not just phase match -- "
 1.1  glass 			"csr = 0x%x, bus_csr = 0x%x).\n",
 1.1  glass 			regs->sci_csr, regs->sci_bus_csr);
 1.2    gwr 	ncr5380_intr(0);
 1.2    gwr #endif
 1.1  glass 	return 1;
 1.1  glass }
 1.1  glass
 1.2    gwr int
 1.1  glass scsi_drq_intr(void)
 1.1  glass {
 1.2    gwr #if 0
 1.2    gwr 	printf("scsi_drq_intr called.\n");
 1.2    gwr 	ncr5380_intr(0);
 1.2    gwr #endif
 1.1  glass 	return 1;
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.1  glass ncr5380_reset_target(int adapter, int target)
 1.1  glass {
 1.2    gwr 	register struct ncr5380_softc *ncr5380 = sicd.cd_devs[adapter];
 1.2    gwr 	register volatile sci_regmap_t *regs = ncr5380->sc_regs;
 1.2    gwr 	int dummy;
 1.2    gwr
 1.2    gwr 	regs->sci_icmd = SCI_ICMD_TEST;
 1.2    gwr 	regs->sci_icmd = SCI_ICMD_TEST | SCI_ICMD_RST;
 1.2    gwr 	delay(2500);
 1.2    gwr 	regs->sci_icmd = 0;
 1.1  glass
 1.2    gwr 	regs->sci_mode = 0;
 1.2    gwr 	regs->sci_tcmd = SCI_PHASE_DISC;
 1.2    gwr 	regs->sci_sel_enb = 0;
 1.1  glass
 1.2    gwr 	SCI_CLR_INTR(regs);
 1.2    gwr 	SCI_CLR_INTR(regs);
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.1  glass ncr5380_poll(int adapter, int timeout)
 1.1  glass {
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.1  glass ncr5380_send_cmd(struct scsi_xfer *xs)
 1.1  glass {
 1.1  glass 	int	s;
 1.1  glass 	int	sense;
 1.1  glass
 1.1  glass /*	ncr5380_show_scsi_cmd(xs); */
 1.1  glass 	s = splbio();
 1.2    gwr 	sense = si_generic( xs->sc_link->scsibus, xs->sc_link->target,
 1.1  glass 			  xs->sc_link->lun, xs->cmd, xs->cmdlen,
 1.1  glass 			  xs->data, xs->datalen );
 1.1  glass 	splx(s);
 1.1  glass 	if (sense) {
 1.1  glass 		switch (sense) {
 1.1  glass 			case 0x02:	/* Check condition */
 1.2    gwr #ifdef	DEBUG
 1.2    gwr 				printf("check cond. target %d.\n",
 1.2    gwr 					   xs->sc_link->target);
 1.2    gwr #endif
 1.6    gwr 				delay(10);	/* Phil's fix for slow devices. */
 1.1  glass 				s = splbio();
 1.2    gwr 				si_group0(xs->sc_link->scsibus,
 1.1  glass 					    xs->sc_link->target,
 1.1  glass 					    xs->sc_link->lun,
 1.1  glass 					    0x3, 0x0,
 1.1  glass 					    sizeof(struct scsi_sense_data),
 1.1  glass 					    0, (caddr_t) &(xs->sense),
 1.1  glass 					    sizeof(struct scsi_sense_data));
 1.1  glass 				splx(s);
 1.1  glass 				xs->error = XS_SENSE;
 1.1  glass 				return HAD_ERROR;
 1.1  glass 			case 0x08:	/* Busy */
 1.1  glass 				xs->error = XS_BUSY;
 1.1  glass 				return HAD_ERROR;
 1.1  glass 			default:
 1.1  glass 				xs->error = XS_DRIVER_STUFFUP;
 1.1  glass 				return HAD_ERROR;
 1.1  glass 		}
 1.1  glass 	}
 1.1  glass 	xs->error = XS_NOERROR;
 1.1  glass 	return (COMPLETE);
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.2    gwr si_select_target(register volatile sci_regmap_t *regs,
 1.1  glass 	      u_char myid, u_char tid, int with_atn)
 1.1  glass {
 1.1  glass 	register u_char	bid, icmd;
 1.1  glass 	int		ret = SCSI_RET_RETRY;
 1.1  glass
 1.1  glass 	if ((regs->sci_bus_csr & (SCI_BUS_BSY|SCI_BUS_SEL)) &&
 1.1  glass 	    (regs->sci_bus_csr & (SCI_BUS_BSY|SCI_BUS_SEL)) &&
 1.1  glass 	    (regs->sci_bus_csr & (SCI_BUS_BSY|SCI_BUS_SEL)))
 1.1  glass 		return ret;
 1.1  glass
 1.1  glass 	/* for our purposes.. */
 1.1  glass 	myid = 1 << myid;
 1.1  glass 	tid = 1 << tid;
 1.1  glass
 1.2    gwr 	regs->sci_sel_enb = 0; /* we don't want any interrupts. */
 1.2    gwr 	regs->sci_tcmd = 0;	/* get into a harmless state */
 1.2    gwr 	regs->sci_mode = 0;	/* get into a harmless state */
 1.1  glass
 1.1  glass 	regs->sci_odata = myid;
 1.1  glass 	regs->sci_mode = SCI_MODE_ARB;
 1.2    gwr /*	regs->sci_mode |= SCI_MODE_ARB;	XXX? */
 1.1  glass 	/* AIP might not set if BSY went true after we checked */
 1.1  glass 	for (bid = 0; bid < 20; bid++)	/* 20usec circa */
 1.1  glass 		if (regs->sci_icmd & SCI_ICMD_AIP)
 1.1  glass 			break;
 1.1  glass 	if ((regs->sci_icmd & SCI_ICMD_AIP) == 0) {
 1.1  glass 		goto lost;
 1.1  glass 	}
 1.1  glass
 1.2    gwr 	delay(2200);	/* 2.2 millisecond arbitration delay */
 1.1  glass
 1.1  glass 	if (regs->sci_icmd & SCI_ICMD_LST) {
 1.2    gwr #ifdef	DEBUG
 1.2    gwr 		printf ("lost 1\n");
 1.2    gwr #endif
 1.1  glass 		goto lost;
 1.1  glass 	}
 1.1  glass
 1.1  glass 	regs->sci_mode &= ~SCI_MODE_PAR_CHK;
 1.1  glass 	bid = regs->sci_data;
 1.1  glass
 1.1  glass 	if ((bid & ~myid) > myid) {
 1.2    gwr #ifdef	DEBUG
 1.2    gwr 		printf ("lost 2\n");
 1.2    gwr #endif
 1.1  glass 		goto lost;
 1.1  glass 	}
 1.1  glass 	if (regs->sci_icmd & SCI_ICMD_LST) {
 1.2    gwr #ifdef	DEBUG
 1.2    gwr 		printf ("lost 3\n");
 1.2    gwr #endif
 1.1  glass 		goto lost;
 1.1  glass 	}
 1.1  glass
 1.1  glass 	/* Won arbitration, enter selection phase now */
 1.1  glass 	icmd = regs->sci_icmd & ~(SCI_ICMD_DIFF|SCI_ICMD_TEST);
 1.1  glass 	icmd |= (with_atn ? (SCI_ICMD_SEL|SCI_ICMD_ATN) : SCI_ICMD_SEL);
 1.1  glass 	icmd |= SCI_ICMD_BSY;
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass
 1.1  glass 	if (regs->sci_icmd & SCI_ICMD_LST) {
 1.2    gwr #ifdef	DEBUG
 1.2    gwr 		printf ("nosel\n");
 1.2    gwr #endif
 1.1  glass 		goto nosel;
 1.1  glass 	}
 1.1  glass
 1.1  glass 	/* XXX a target that violates specs might still drive the bus XXX */
 1.1  glass 	/* XXX should put our id out, and after the delay check nothi XXX */
 1.1  glass 	/* XXX ng else is out there.				      XXX */
 1.1  glass
 1.2    gwr 	delay2us();
 1.1  glass
 1.1  glass 	regs->sci_tcmd = 0;
 1.1  glass 	regs->sci_odata = myid | tid;
 1.1  glass 	regs->sci_sel_enb = 0;
 1.1  glass
 1.1  glass /*	regs->sci_mode &= ~SCI_MODE_ARB;	 2 deskew delays, too */
 1.1  glass 	regs->sci_mode = 0;			/* 2 deskew delays, too */
 1.1  glass
 1.1  glass 	icmd |= SCI_ICMD_DATA;
 1.1  glass 	icmd &= ~(SCI_ICMD_BSY);
 1.1  glass
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass
 1.1  glass 	/* bus settle delay, 400ns */
 1.2    gwr 	delay2us(); /* too much (was 2) ? */
 1.1  glass
 1.1  glass /*	regs->sci_mode |= SCI_MODE_PAR_CHK; */
 1.1  glass
 1.1  glass 	{
 1.1  glass 		register int timeo  = 2500;/* 250 msecs in 100 usecs chunks */
 1.1  glass 		while ((regs->sci_bus_csr & SCI_BUS_BSY) == 0) {
 1.1  glass 			if (--timeo > 0) {
 1.1  glass 				delay(100);
 1.1  glass 			} else {
 1.1  glass 				goto nodev;
 1.1  glass 			}
 1.1  glass 		}
 1.1  glass 	}
 1.1  glass
 1.1  glass 	icmd &= ~(SCI_ICMD_DATA|SCI_ICMD_SEL);
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass /*	regs->sci_sel_enb = myid;*/	/* looks like we should NOT have it */
 1.1  glass 	return SCSI_RET_SUCCESS;
 1.1  glass nodev:
 1.1  glass 	ret = SCSI_RET_DEVICE_DOWN;
 1.1  glass 	regs->sci_sel_enb = myid;
 1.1  glass nosel:
 1.1  glass 	icmd &= ~(SCI_ICMD_DATA|SCI_ICMD_SEL|SCI_ICMD_ATN);
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass lost:
 1.1  glass 	regs->sci_mode = 0;
 1.1  glass
 1.1  glass 	return ret;
 1.1  glass }
 1.1  glass
 1.1  glass sci_data_out(regs, phase, count, data)
 1.2    gwr 	register volatile sci_regmap_t	*regs;
 1.1  glass 	unsigned char		*data;
 1.1  glass {
 1.1  glass 	register unsigned char	icmd;
 1.1  glass 	register int		cnt=0;
 1.1  glass
 1.1  glass 	/* ..checks.. */
 1.1  glass
 1.1  glass 	icmd = regs->sci_icmd & ~(SCI_ICMD_DIFF|SCI_ICMD_TEST);
 1.1  glass loop:
 1.1  glass 	if (SCI_CUR_PHASE(regs->sci_bus_csr) != phase)
 1.1  glass 		return cnt;
 1.1  glass
 1.1  glass 	WAIT_FOR_REQ(regs);
 1.1  glass 	icmd |= SCI_ICMD_DATA;
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass 	regs->sci_odata = *data++;
 1.1  glass 	icmd |= SCI_ICMD_ACK;
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass
 1.1  glass 	icmd &= ~(SCI_ICMD_DATA|SCI_ICMD_ACK);
 1.1  glass 	WAIT_FOR_NOT_REQ(regs);
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass 	++cnt;
 1.1  glass 	if (--count > 0)
 1.1  glass 		goto loop;
 1.1  glass scsi_timeout_error:
 1.1  glass 	return cnt;
 1.1  glass }
 1.1  glass
 1.1  glass sci_data_in(regs, phase, count, data)
 1.2    gwr 	register volatile sci_regmap_t	*regs;
 1.1  glass 	unsigned char		*data;
 1.1  glass {
 1.1  glass 	register unsigned char	icmd;
 1.1  glass 	register int		cnt=0;
 1.1  glass
 1.1  glass 	/* ..checks.. */
 1.1  glass
 1.1  glass 	icmd = regs->sci_icmd & ~(SCI_ICMD_DIFF|SCI_ICMD_TEST);
 1.1  glass
 1.1  glass loop:
 1.1  glass 	if (SCI_CUR_PHASE(regs->sci_bus_csr) != phase)
 1.1  glass 		return cnt;
 1.1  glass
 1.1  glass 	WAIT_FOR_REQ(regs);
 1.1  glass 	*data++ = regs->sci_data;
 1.1  glass 	icmd |= SCI_ICMD_ACK;
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass
 1.1  glass 	icmd &= ~SCI_ICMD_ACK;
 1.1  glass 	WAIT_FOR_NOT_REQ(regs);
 1.1  glass 	regs->sci_icmd = icmd;
 1.1  glass 	++cnt;
 1.1  glass 	if (--count > 0)
 1.1  glass 		goto loop;
 1.1  glass
 1.1  glass scsi_timeout_error:
 1.1  glass 	return cnt;
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.2    gwr si_command_transfer(register volatile sci_regmap_t *regs,
 1.1  glass 		 int maxlen, u_char *data, u_char *status, u_char *msg)
 1.1  glass {
 1.1  glass 	int	xfer=0, phase;
 1.1  glass
 1.1  glass /*	printf("command_transfer called for 0x%x.\n", *data); */
 1.1  glass
 1.1  glass 	regs->sci_icmd = 0;
 1.1  glass
 1.1  glass 	while (1) {
 1.1  glass
 1.1  glass 		WAIT_FOR_REQ(regs);
 1.1  glass
 1.1  glass 		phase = SCI_CUR_PHASE(regs->sci_bus_csr);
 1.1  glass
 1.1  glass 		switch (phase) {
 1.1  glass 			case SCSI_PHASE_CMD:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_CMD);
 1.1  glass 				xfer += sci_data_out(regs, SCSI_PHASE_CMD,
 1.1  glass 						   	maxlen, data);
 1.1  glass 				return xfer;
 1.1  glass 			case SCSI_PHASE_DATA_IN:
 1.1  glass 				printf("Data in phase in command_transfer?\n");
 1.1  glass 				return 0;
 1.1  glass 			case SCSI_PHASE_DATA_OUT:
 1.1  glass 				printf("Data out phase in command_transfer?\n");
 1.1  glass 				return 0;
 1.1  glass 			case SCSI_PHASE_STATUS:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_STATUS);
 1.1  glass 				printf("status in command_transfer.\n");
 1.1  glass 				sci_data_in(regs, SCSI_PHASE_STATUS,
 1.1  glass 					  	1, status);
 1.1  glass 				break;
 1.1  glass 			case SCSI_PHASE_MESSAGE_IN:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_MESSAGE_IN);
 1.1  glass 				printf("msgin in command_transfer.\n");
 1.1  glass 				sci_data_in(regs, SCSI_PHASE_MESSAGE_IN,
 1.1  glass 					  	1, msg);
 1.1  glass 				break;
 1.1  glass 			case SCSI_PHASE_MESSAGE_OUT:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_MESSAGE_OUT);
 1.1  glass 				sci_data_out(regs, SCSI_PHASE_MESSAGE_OUT,
 1.1  glass 					  	1, msg);
 1.1  glass 				break;
 1.1  glass 			default:
 1.1  glass 				printf("Unexpected phase 0x%x in "
 1.1  glass 					"command_transfer().\n", phase);
 1.1  glass scsi_timeout_error:
 1.1  glass 				return xfer;
 1.1  glass 				break;
 1.1  glass 		}
 1.1  glass 	}
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.2    gwr si_data_transfer(register volatile sci_regmap_t *regs,
 1.1  glass 	      int maxlen, u_char *data, u_char *status, u_char *msg)
 1.1  glass {
 1.1  glass 	int	retlen = 0, xfer, phase;
 1.1  glass
 1.1  glass 	regs->sci_icmd = 0;
 1.1  glass
 1.1  glass 	*status = 0;
 1.1  glass
 1.1  glass 	while (1) {
 1.1  glass
 1.1  glass 		WAIT_FOR_REQ(regs);
 1.1  glass
 1.1  glass 		phase = SCI_CUR_PHASE(regs->sci_bus_csr);
 1.1  glass
 1.1  glass 		switch (phase) {
 1.1  glass 			case SCSI_PHASE_CMD:
 1.1  glass 				printf("Command phase in data_transfer().\n");
 1.1  glass 				return retlen;
 1.1  glass 			case SCSI_PHASE_DATA_IN:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_DATA_IN);
 1.1  glass #if PSEUDO_DMA
 1.1  glass 				xfer = sci_pdma_in(regs, SCSI_PHASE_DATA_IN,
 1.1  glass 						  	maxlen, data);
 1.1  glass #else
 1.1  glass 				xfer = sci_data_in(regs, SCSI_PHASE_DATA_IN,
 1.1  glass 						  	maxlen, data);
 1.1  glass #endif
 1.1  glass 				retlen += xfer;
 1.1  glass 				maxlen -= xfer;
 1.1  glass 				break;
 1.1  glass 			case SCSI_PHASE_DATA_OUT:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_DATA_OUT);
 1.1  glass #if PSEUDO_DMA
 1.1  glass 				xfer = sci_pdma_out(regs, SCSI_PHASE_DATA_OUT,
 1.1  glass 						   	maxlen, data);
 1.1  glass #else
 1.1  glass 				xfer = sci_data_out(regs, SCSI_PHASE_DATA_OUT,
 1.1  glass 						   	maxlen, data);
 1.1  glass #endif
 1.1  glass 				retlen += xfer;
 1.1  glass 				maxlen -= xfer;
 1.1  glass 				break;
 1.1  glass 			case SCSI_PHASE_STATUS:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_STATUS);
 1.1  glass 				sci_data_in(regs, SCSI_PHASE_STATUS,
 1.1  glass 					  	1, status);
 1.1  glass 				break;
 1.1  glass 			case SCSI_PHASE_MESSAGE_IN:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_MESSAGE_IN);
 1.1  glass 				sci_data_in(regs, SCSI_PHASE_MESSAGE_IN,
 1.1  glass 					  	1, msg);
 1.1  glass 				if (*msg == 0) {
 1.1  glass 					return retlen;
 1.1  glass 				} else {
 1.1  glass 					printf( "message 0x%x in "
 1.1  glass 						"data_transfer.\n", *msg);
 1.1  glass 				}
 1.1  glass 				break;
 1.1  glass 			case SCSI_PHASE_MESSAGE_OUT:
 1.1  glass 				SCI_ACK(regs,SCSI_PHASE_MESSAGE_OUT);
 1.1  glass 				sci_data_out(regs, SCSI_PHASE_MESSAGE_OUT,
 1.1  glass 					  	1, msg);
 1.1  glass 				break;
 1.1  glass 			default:
 1.1  glass 				printf( "Unexpected phase 0x%x in "
 1.1  glass 					"data_transfer().\n", phase);
 1.1  glass scsi_timeout_error:
 1.1  glass 				return retlen;
 1.1  glass 				break;
 1.1  glass 		}
 1.1  glass 	}
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.2    gwr si_dorequest(register volatile sci_regmap_t *regs,
 1.1  glass 		int target, int lun, u_char *cmd, int cmdlen,
 1.1  glass 		char *databuf, int datalen, int *sent, int *ret)
 1.1  glass {
 1.1  glass /* Returns 0 on success, -1 on internal error, or the status byte */
 1.1  glass 	int	cmd_bytes_sent, r;
 1.1  glass 	u_char	stat, msg, c;
 1.1  glass
 1.1  glass 	*sent = 0;
 1.1  glass
 1.2    gwr 	if ( ( r = si_select_target(regs, 7, target, 1) ) != SCSI_RET_SUCCESS) {
 1.1  glass 		*ret = r;
 1.1  glass 		SCI_CLR_INTR(regs);
 1.1  glass 		switch (r) {
 1.1  glass 		case SCSI_RET_RETRY:
 1.1  glass 			return 0x08;
 1.1  glass 		default:
 1.2    gwr 			printf("si_select_target(target %d, lun %d) failed(%d).\n",
 1.1  glass 				target, lun, r);
 1.1  glass 		case SCSI_RET_DEVICE_DOWN:
 1.1  glass 			return -1;
 1.1  glass 		}
 1.1  glass 	}
 1.1  glass
 1.1  glass 	c = 0x80 | lun;
 1.1  glass
 1.2    gwr 	if ((cmd_bytes_sent = si_command_transfer(regs, cmdlen,
 1.1  glass 				(u_char *) cmd, &stat, &c))
 1.1  glass 	     != cmdlen) {
 1.1  glass 		SCI_CLR_INTR(regs);
 1.1  glass 		*ret = SCSI_RET_COMMAND_FAIL;
 1.1  glass 		printf("Data underrun sending CCB (%d bytes of %d, sent).\n",
 1.1  glass 			cmd_bytes_sent, cmdlen);
 1.1  glass 		return -1;
 1.1  glass 	}
 1.1  glass
 1.2    gwr 	*sent=si_data_transfer(regs, datalen, (u_char *)databuf,
 1.1  glass 				  &stat, &msg);
 1.1  glass
 1.1  glass 	*ret = 0;
 1.1  glass 	return stat;
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.2    gwr si_generic(int adapter, int id, int lun, struct scsi_generic *cmd,
 1.1  glass   	 int cmdlen, void *databuf, int datalen)
 1.1  glass {
 1.2    gwr 	register struct ncr5380_softc *ncr5380 = sicd.cd_devs[adapter];
 1.2    gwr 	register volatile sci_regmap_t *regs = ncr5380->sc_regs;
 1.2    gwr 	int i,j,sent,ret;
 1.1  glass
 1.2    gwr 	if (cmd->opcode == TEST_UNIT_READY)	/* XXX */
 1.2    gwr 		cmd->bytes[0] = ((u_char) lun << 5);
 1.1  glass
 1.2    gwr 	i = si_dorequest(regs, id, lun, (u_char *) cmd, cmdlen,
 1.2    gwr 					 databuf, datalen, &sent, &ret);
 1.1  glass
 1.2    gwr 	return i;
 1.1  glass }
 1.1  glass
 1.3    gwr static int
 1.2    gwr si_group0(int adapter, int id, int lun, int opcode, int addr, int len,
 1.1  glass 		int flags, caddr_t databuf, int datalen)
 1.1  glass {
 1.2    gwr 	register struct ncr5380_softc *ncr5380 = sicd.cd_devs[adapter];
 1.2    gwr 	register volatile sci_regmap_t *regs = ncr5380->sc_regs;
 1.2    gwr 	unsigned char cmd[6];
 1.2    gwr 	int i,j,sent,ret;
 1.2    gwr
 1.2    gwr 	cmd[0] = opcode;		/* Operation code           		*/
 1.2    gwr 	cmd[1] = (lun << 5) | ((addr >> 16) & 0x1F);	/* Lun & MSB of addr	*/
 1.2    gwr 	cmd[2] = (addr >> 8) & 0xFF;	/* addr					*/
 1.2    gwr 	cmd[3] = addr & 0xFF;		/* LSB of addr				*/
 1.2    gwr 	cmd[4] = len;			/* Allocation length			*/
 1.2    gwr 	cmd[5] = flags;		/* Link/Flag				*/
 1.1  glass
 1.2    gwr 	i = si_dorequest(regs, id, lun, cmd, 6, databuf, datalen, &sent, &ret);
 1.1  glass
 1.2    gwr 	return i;
 1.1  glass }