mac68k/dev/mac68k5380.c

1.17  briggs /*	$NetBSD: mac68k5380.c,v 1.17 1996/01/24 06:02:06 briggs Exp $	*/
 1.1  briggs
 1.1  briggs /*
 1.1  briggs  * Copyright (c) 1995 Allen Briggs
 1.1  briggs  * All rights reserved.
 1.1  briggs  *
 1.1  briggs  * Redistribution and use in source and binary forms, with or without
 1.1  briggs  * modification, are permitted provided that the following conditions
 1.1  briggs  * are met:
 1.1  briggs  * 1. Redistributions of source code must retain the above copyright
 1.1  briggs  *    notice, this list of conditions and the following disclaimer.
 1.1  briggs  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  briggs  *    notice, this list of conditions and the following disclaimer in the
 1.1  briggs  *    documentation and/or other materials provided with the distribution.
 1.1  briggs  * 3. All advertising materials mentioning features or use of this software
 1.1  briggs  *    must display the following acknowledgement:
 1.1  briggs  *      This product includes software developed by Allen Briggs
 1.1  briggs  * 4. The name of the author may not be used to endorse or promote products
 1.1  briggs  *    derived from this software without specific prior written permission
 1.1  briggs  *
 1.1  briggs  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1  briggs  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1  briggs  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1  briggs  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1  briggs  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 1.1  briggs  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 1.1  briggs  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 1.1  briggs  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 1.1  briggs  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 1.1  briggs  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1  briggs  *
 1.1  briggs  * Derived from atari5380.c for the mac68k port of NetBSD.
 1.1  briggs  *
 1.1  briggs  */
 1.1  briggs
 1.1  briggs #include <sys/param.h>
 1.1  briggs #include <sys/systm.h>
 1.1  briggs #include <sys/kernel.h>
 1.1  briggs #include <sys/device.h>
1.10  briggs #include <sys/dkstat.h>
 1.1  briggs #include <sys/syslog.h>
 1.1  briggs #include <sys/buf.h>
 1.1  briggs #include <scsi/scsi_all.h>
 1.1  briggs #include <scsi/scsi_message.h>
 1.1  briggs #include <scsi/scsiconf.h>
 1.1  briggs
 1.1  briggs /*
 1.1  briggs  * Include the driver definitions
 1.1  briggs  */
 1.5  briggs #include <mac68k/dev/ncr5380reg.h>
 1.1  briggs
 1.1  briggs #include <machine/stdarg.h>
 1.1  briggs
 1.1  briggs #include "../mac68k/via.h"
 1.1  briggs
 1.1  briggs /*
 1.1  briggs  * Set the various driver options
 1.1  briggs  */
 1.1  briggs #define	NREQ		18	/* Size of issue queue			*/
 1.1  briggs #define	AUTO_SENSE	1	/* Automatically issue a request-sense 	*/
 1.1  briggs
 1.1  briggs #define	DRNAME		ncrscsi	/* used in various prints	*/
 1.1  briggs #undef	DBG_SEL			/* Show the selection process		*/
 1.1  briggs #undef	DBG_REQ			/* Show enqueued/ready requests		*/
 1.1  briggs #undef	DBG_NOWRITE		/* Do not allow writes to the targets	*/
 1.1  briggs #undef	DBG_PIO			/* Show the polled-I/O process		*/
 1.1  briggs #undef	DBG_INF			/* Show information transfer process	*/
 1.1  briggs #define	DBG_NOSTATIC		/* No static functions, all in DDB trace*/
1.17  briggs #define	DBG_PID		20	/* Keep track of driver			*/
 1.1  briggs #undef 	REAL_DMA		/* Use DMA if sensible			*/
 1.1  briggs #define fair_to_keep_dma()	1
 1.1  briggs #define claimed_dma()		1
 1.1  briggs #define reconsider_dma()
 1.1  briggs #define	USE_PDMA	1	/* Use special pdma-transfer function	*/
1.10  briggs #define MIN_PHYS	0x2000	/* pdma space w/ /DSACK is only 0x2000  */
 1.1  briggs
 1.1  briggs #define	ENABLE_NCR5380(sc)	cur_softc = sc;
 1.1  briggs
 1.1  briggs /*
 1.1  briggs  * softc of currently active controller (well, we only have one for now).
 1.1  briggs  */
 1.1  briggs
 1.1  briggs static struct ncr_softc	*cur_softc;
 1.1  briggs
 1.1  briggs struct scsi_5380 {
 1.1  briggs 	volatile u_char	scsi_5380[8*16]; /* 8 regs, 1 every 16th byte. */
 1.1  briggs };
 1.1  briggs
 1.1  briggs extern vm_offset_t	SCSIBase;
 1.1  briggs static volatile u_char	*ncr		= (volatile u_char *) 0x10000;
 1.1  briggs static volatile u_char	*ncr_5380_with_drq	= (volatile u_char *)  0x6000;
 1.1  briggs static volatile u_char	*ncr_5380_without_drq	= (volatile u_char *) 0x12000;
 1.1  briggs
 1.4  briggs static volatile u_char	*scsi_enable		= NULL;
 1.4  briggs
 1.1  briggs #define SCSI_5380		((struct scsi_5380 *) ncr)
 1.1  briggs #define GET_5380_REG(rnum)	SCSI_5380->scsi_5380[((rnum)<<4)]
 1.1  briggs #define SET_5380_REG(rnum,val)	(SCSI_5380->scsi_5380[((rnum)<<4)] = (val))
 1.1  briggs
 1.6  briggs void	ncr5380_irq_intr(void *);
 1.6  briggs void	ncr5380_drq_intr(void *);
 1.4  briggs
 1.1  briggs static __inline__ void
 1.1  briggs scsi_clr_ipend()
 1.1  briggs {
 1.1  briggs 	int	tmp;
 1.1  briggs
 1.1  briggs 	tmp = GET_5380_REG(NCR5380_IRCV);
 1.1  briggs }
 1.1  briggs
 1.1  briggs extern __inline__ void
 1.1  briggs scsi_ienable()
 1.1  briggs {
 1.1  briggs 	int	s;
 1.1  briggs
 1.1  briggs 	s = splhigh();
 1.4  briggs 	*scsi_enable = 0x80 | (V2IF_SCSIIRQ | V2IF_SCSIDRQ);
 1.1  briggs 	splx(s);
 1.1  briggs }
 1.1  briggs
 1.1  briggs extern __inline__ void
 1.1  briggs scsi_idisable()
 1.1  briggs {
 1.1  briggs 	int	s;
 1.1  briggs
 1.1  briggs 	s = splhigh();
 1.4  briggs 	*scsi_enable = V2IF_SCSIIRQ | V2IF_SCSIDRQ;
 1.1  briggs 	splx(s);
 1.1  briggs }
 1.1  briggs
 1.1  briggs static void
 1.1  briggs scsi_mach_init(sc)
 1.1  briggs 	struct ncr_softc	*sc;
 1.1  briggs {
 1.1  briggs 	static int	initted = 0;
 1.1  briggs
 1.1  briggs 	if (initted++)
 1.1  briggs 		panic("scsi_mach_init called again.\n");
 1.1  briggs
 1.1  briggs 	ncr		= (volatile u_char *)
 1.1  briggs 			  (SCSIBase + (u_long) ncr);
 1.1  briggs 	ncr_5380_with_drq	= (volatile u_char *)
 1.1  briggs 			  (SCSIBase + (u_int) ncr_5380_with_drq);
 1.1  briggs 	ncr_5380_without_drq	= (volatile u_char *)
 1.1  briggs 			  (SCSIBase + (u_int) ncr_5380_without_drq);
 1.4  briggs
 1.4  briggs 	if (VIA2 == VIA2OFF)
 1.4  briggs 		scsi_enable = Via1Base + VIA2 * 0x2000 + vIER;
 1.4  briggs 	else
 1.4  briggs 		scsi_enable = Via1Base + VIA2 * 0x2000 + rIER;
 1.4  briggs
 1.6  briggs 	mac68k_register_scsi_irq(ncr5380_irq_intr, sc);
 1.6  briggs 	mac68k_register_scsi_drq(ncr5380_drq_intr, sc);
 1.1  briggs }
 1.1  briggs
 1.1  briggs static int
 1.1  briggs machine_match(pdp, cdp, auxp, cd)
 1.1  briggs 	struct device	*pdp;
 1.1  briggs 	struct cfdata	*cdp;
 1.1  briggs 	void		*auxp;
 1.1  briggs 	struct cfdriver	*cd;
 1.1  briggs {
 1.1  briggs 	if (matchbyname(pdp, cdp, auxp) == 0)
 1.1  briggs 		return 0;
 1.1  briggs 	if (!mac68k_machine.scsi80)
 1.1  briggs 		return 0;
 1.1  briggs 	if (cdp->cf_unit != 0)
 1.1  briggs 		return 0;
 1.1  briggs 	return 1;
 1.1  briggs }
 1.1  briggs
 1.1  briggs #if USE_PDMA
 1.4  briggs int	pdma_5380_dir = 0;
 1.1  briggs
 1.4  briggs u_char	*pending_5380_data;
 1.4  briggs u_long	pending_5380_count;
 1.1  briggs
1.17  briggs #define NCR5380_PDMA_DEBUG 1 	/* Maybe we try with this off eventually. */
1.10  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
 1.1  briggs int		pdma_5380_sends = 0;
 1.2  briggs int		pdma_5380_bytes = 0;
 1.1  briggs
1.16  briggs char	*pdma_5380_state="", *pdma_5380_prev_state="";
1.16  briggs #define DBG_SET(x) {pdma_5380_prev_state=pdma_5380_state; pdma_5380_state=(x);}
 1.4  briggs
 1.1  briggs void
 1.1  briggs pdma_stat()
 1.1  briggs {
1.10  briggs 	printf("PDMA SCSI: %d xfers completed for %d bytes.\n",
 1.4  briggs 		pdma_5380_sends, pdma_5380_bytes);
1.17  briggs 	printf("pdma_5380_dir = %d\t",
 1.4  briggs 		pdma_5380_dir);
 1.1  briggs 	printf("datap = 0x%x, remainder = %d.\n",
 1.1  briggs 		pending_5380_data, pending_5380_count);
1.17  briggs 	printf("state: %s\t", pdma_5380_state);
1.17  briggs 	printf("last state: %s\n", pdma_5380_prev_state);
1.17  briggs 	scsi_show();
 1.1  briggs }
 1.1  briggs #endif
 1.1  briggs
 1.1  briggs void
 1.2  briggs pdma_cleanup(void)
 1.2  briggs {
 1.2  briggs 	SC_REQ	*reqp = connected;
 1.2  briggs 	int	bytes, s;
 1.2  briggs
 1.2  briggs 	s = splbio();
 1.2  briggs
 1.4  briggs 	pdma_5380_dir = 0;
 1.2  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 	DBG_SET("in pdma_cleanup().")
 1.2  briggs 	pdma_5380_sends++;
 1.2  briggs 	pdma_5380_bytes+=(reqp->xdata_len - pending_5380_count);
 1.2  briggs #endif
 1.2  briggs
 1.2  briggs 	/*
 1.2  briggs 	 * Update pointers.
 1.2  briggs 	 */
 1.2  briggs 	reqp->xdata_ptr += reqp->xdata_len - pending_5380_count;
 1.2  briggs 	reqp->xdata_len  = pending_5380_count;
 1.2  briggs
 1.2  briggs 	/*
 1.2  briggs 	 * Reset DMA mode.
 1.2  briggs 	 */
 1.2  briggs 	SET_5380_REG(NCR5380_MODE, GET_5380_REG(NCR5380_MODE) & ~SC_M_DMA);
 1.2  briggs
 1.2  briggs 	/*
1.10  briggs 	 * Clear any pending interrupts.
1.10  briggs 	 */
1.10  briggs 	scsi_clr_ipend();
1.10  briggs
1.10  briggs 	/*
 1.2  briggs 	 * Tell interrupt functions that DMA has ended.
 1.2  briggs 	 */
 1.2  briggs 	reqp->dr_flag &= ~DRIVER_IN_DMA;
 1.2  briggs
 1.2  briggs 	SET_5380_REG(NCR5380_MODE, IMODE_BASE);
 1.2  briggs 	SET_5380_REG(NCR5380_ICOM, 0);
 1.2  briggs
 1.2  briggs 	splx(s);
 1.2  briggs
 1.2  briggs 	/*
 1.2  briggs 	 * Back for more punishment.
 1.2  briggs 	 */
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 	pdma_5380_state = "pdma_cleanup() -- going back to run_main().";
1.16  briggs #endif
 1.2  briggs 	run_main(cur_softc);
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 	pdma_5380_state = "pdma_cleanup() -- back from run_main().";
1.16  briggs #endif
 1.2  briggs }
1.11  briggs #endif
 1.2  briggs
 1.4  briggs static __inline__ int
 1.8  briggs pdma_ready()
 1.1  briggs {
1.11  briggs #if USE_PDMA
1.11  briggs 	SC_REQ	*reqp = connected;
1.11  briggs 	int	dmstat, idstat;
1.11  briggs extern	u_char	ncr5380_no_parchk;
1.11  briggs
 1.4  briggs 	if (pdma_5380_dir) {
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 		DBG_SET("got irq interrupt in xfer.")
 1.1  briggs #endif
 1.1  briggs 		/*
 1.1  briggs 		 * If Mr. IRQ isn't set one might wonder how we got
 1.1  briggs 		 * here.  It does happen, though.
 1.1  briggs 		 */
1.11  briggs 		dmstat = GET_5380_REG(NCR5380_DMSTAT);
1.11  briggs 		if (!(dmstat & SC_IRQ_SET)) {
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("irq not set.")
1.17  briggs #endif
 1.3  briggs 			return 0;
 1.1  briggs 		}
 1.1  briggs 		/*
 1.1  briggs 		 * For a phase mis-match, ATN is a "don't care," IRQ is 1 and
 1.1  briggs 		 * all other bits in the Bus & Status Register are 0.  Also,
 1.1  briggs 		 * the current SCSI Bus Status Register has a 1 for BSY and
 1.1  briggs 		 * REQ.  Since we're just checking that this interrupt isn't a
 1.1  briggs 		 * reselection or a reset, we just check for either.
 1.1  briggs 		 */
1.11  briggs 		idstat = GET_5380_REG(NCR5380_IDSTAT);
1.11  briggs 		if (   ((dmstat & (0xff & ~SC_ATN_STAT)) == SC_IRQ_SET)
1.11  briggs 		    && ((idstat & (SC_S_BSY|SC_S_REQ))
1.11  briggs 			== (SC_S_BSY | SC_S_REQ)) ) {
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("BSY|REQ.")
1.17  briggs #endif
1.11  briggs 			pdma_cleanup();
1.11  briggs 			return 1;
1.11  briggs 		} else if (PH_IN(reqp->phase) && (dmstat & SC_PAR_ERR)) {
1.11  briggs 			if (!(ncr5380_no_parchk & (1 << reqp->targ_id)))
1.11  briggs 				/* XXX: Should be parity error ???? */
1.11  briggs 				reqp->xs->error = XS_DRIVER_STUFFUP;
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("PARITY.")
1.17  briggs #endif
1.11  briggs 			/* XXX: is this the right reaction? */
1.11  briggs 			pdma_cleanup();
1.11  briggs 			return 1;
1.11  briggs 		} else if (   !(idstat & SC_S_REQ)
1.11  briggs 			   || (((idstat>>2) & 7) != reqp->phase)) {
1.11  briggs #ifdef DIAGNOSTIC
1.11  briggs 			/* XXX: is this the right reaction? Can this happen? */
1.11  briggs 			scsi_show();
1.11  briggs 			printf("Unexpected phase change.\n");
1.11  briggs #endif
1.11  briggs 			reqp->xs->error = XS_DRIVER_STUFFUP;
 1.2  briggs 			pdma_cleanup();
 1.3  briggs 			return 1;
 1.2  briggs 		} else {
 1.2  briggs 			scsi_show();
 1.2  briggs 			panic("Spurious interrupt during PDMA xfer.\n");
 1.1  briggs 		}
 1.3  briggs 	}
1.11  briggs #endif
 1.3  briggs 	return 0;
 1.3  briggs }
 1.3  briggs
 1.3  briggs void
 1.6  briggs ncr5380_irq_intr(p)
 1.6  briggs 	void	*p;
 1.3  briggs {
 1.6  briggs 	struct ncr_softc	*sc = p;
 1.6  briggs
1.11  briggs #if USE_PDMA
 1.8  briggs 	if (pdma_ready()) {
 1.3  briggs 		return;
 1.1  briggs 	}
1.11  briggs #endif
 1.1  briggs 	if (GET_5380_REG(NCR5380_DMSTAT) & SC_IRQ_SET) {
 1.1  briggs 		scsi_idisable();
 1.1  briggs 		ncr_ctrl_intr(cur_softc);
 1.1  briggs 	}
 1.1  briggs }
 1.1  briggs
 1.4  briggs /*
1.10  briggs  * This is the meat of the PDMA transfer.
1.10  briggs  * When we get here, we shove data as fast as the mac can take it.
1.10  briggs  * We depend on several things:
1.10  briggs  *   * All macs after the Mac Plus that have a 5380 chip should have a general
1.10  briggs  *     logic IC that handshakes data for blind transfers.
1.10  briggs  *   * If the SCSI controller finishes sending/receiving data before we do,
1.10  briggs  *     the same general logic IC will generate a /BERR for us in short order.
1.10  briggs  *   * The fault address for said /BERR minus the base address for the
1.10  briggs  *     transfer will be the amount of data that was actually written.
1.10  briggs  *
1.10  briggs  * We use the nofault flag and the setjmp/longjmp in locore.s so we can
1.10  briggs  * detect and handle the bus error for early termination of a command.
1.10  briggs  * This is usually caused by a disconnecting target.
 1.4  briggs  */
 1.1  briggs void
 1.6  briggs ncr5380_drq_intr(p)
 1.6  briggs 	void	*p;
 1.1  briggs {
1.10  briggs #if USE_PDMA
1.10  briggs extern	int			*nofault, mac68k_buserr_addr;
 1.6  briggs 	struct ncr_softc	*sc = p;
1.10  briggs 	label_t			faultbuf;
1.10  briggs 	register int		count;
1.10  briggs 	volatile u_int32_t	*long_drq;
1.10  briggs 	u_int32_t		*long_data;
1.10  briggs 	volatile u_int8_t	*drq;
1.10  briggs 	u_int8_t		*data;
1.10  briggs
1.10  briggs 	/*
1.10  briggs 	 * If we're not ready to xfer data, just return.
1.10  briggs 	 */
1.10  briggs 	if (   !(GET_5380_REG(NCR5380_DMSTAT) & SC_DMA_REQ)
1.17  briggs 	    || !pdma_5380_dir) {
1.17  briggs 		return;
1.17  briggs 	}
1.17  briggs
1.17  briggs 	/*
1.17  briggs 	 * I don't think this should be necessary, but it is
1.17  briggs 	 * for writes--at least to some devices.  They don't
1.17  briggs 	 * let go of PH_DATAOUT until we do pdma_cleanup().
1.17  briggs 	 */
1.17  briggs 	if (pending_5380_count == 0) {
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("forcing pdma_cleanup().")
1.17  briggs #endif
1.17  briggs 		pdma_cleanup();
1.10  briggs 		return;
1.17  briggs 	}
 1.4  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 	DBG_SET("got drq interrupt.")
 1.1  briggs #endif
1.10  briggs
1.10  briggs 	/*
1.10  briggs 	 * Setup for a possible bus error caused by SCSI controller
1.10  briggs 	 * switching out of DATA-IN/OUT before we're done with the
1.10  briggs 	 * current transfer.
1.10  briggs 	 */
1.10  briggs 	nofault = (int *) &faultbuf;
1.10  briggs
1.10  briggs 	if (setjmp((label_t *) nofault)) {
1.10  briggs 		nofault = (int *) 0;
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 		DBG_SET("buserr in xfer.")
1.10  briggs #endif
1.10  briggs 		count = (  (u_long) mac68k_buserr_addr
1.10  briggs 			 - (u_long) ncr_5380_with_drq);
1.10  briggs 		if ((count < 0) || (count > pending_5380_count)) {
1.15  briggs 			printf("pdma %s: count = %d (0x%x) (pending "
1.15  briggs 				"count %d)\n",
1.15  briggs 				(pdma_5380_dir == 2) ? "in" : "out",
1.15  briggs 				count, count, pending_5380_count);
1.10  briggs 			panic("something is wrong");
1.10  briggs 		}
1.10  briggs
1.10  briggs 		pending_5380_data += count;
1.10  briggs 		pending_5380_count -= count;
1.10  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 		DBG_SET("handled bus error in xfer.")
1.10  briggs #endif
1.10  briggs 		mac68k_buserr_addr = 0;
1.10  briggs 		return;
1.10  briggs 	}
1.10  briggs
 1.4  briggs 	if (pdma_5380_dir == 2) { /* Data In */
1.10  briggs 		int	resid;
1.10  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("Data in.")
1.17  briggs #endif
1.10  briggs 		/*
1.10  briggs 		 * Get the dest address aligned.
1.10  briggs 		 */
1.17  briggs 		resid = count = min(pending_5380_count,
1.17  briggs 				    4 - (((int) pending_5380_data) & 0x3));
1.17  briggs 		if (count && (count < 4)) {
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 			DBG_SET("Data in (aligning dest).")
1.17  briggs #endif
1.10  briggs 			data = (u_int8_t *) pending_5380_data;
1.10  briggs 			drq = (u_int8_t *) ncr_5380_with_drq;
1.10  briggs 			while (count) {
1.10  briggs #define R1	*data++ = *drq++
1.10  briggs 				R1; count--;
1.10  briggs #undef R1
1.10  briggs 			}
1.10  briggs 			pending_5380_data += resid;
1.10  briggs 			pending_5380_count -= resid;
1.10  briggs 		}
1.10  briggs
 1.4  briggs 		/*
1.10  briggs 		 * Get ready to start the transfer.
 1.4  briggs 		 */
1.11  briggs 		while (pending_5380_count) {
1.11  briggs 		int dcount;
1.11  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("Data in (starting read).")
1.17  briggs #endif
1.11  briggs 		dcount = count = min(pending_5380_count, MIN_PHYS);
1.10  briggs 		long_drq = (volatile u_int32_t *) ncr_5380_with_drq;
1.13  briggs 		long_data = (u_int32_t *) pending_5380_data;
1.10  briggs
1.10  briggs #define R4	*long_data++ = *long_drq++
1.10  briggs 		while ( count >= 512 ) {
1.10  briggs 			if (!(GET_5380_REG(NCR5380_DMSTAT) & SC_DMA_REQ)) {
1.10  briggs 				nofault = (int *) 0;
1.10  briggs
1.14  briggs 				pending_5380_data += (dcount - count);
1.14  briggs 				pending_5380_count -= (dcount - count);
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 				DBG_SET("drq low")
 1.4  briggs #endif
 1.4  briggs 				return;
 1.4  briggs 			}
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;	/* 64 */
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;	/* 128 */
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;	/* 256 */
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;
1.10  briggs 			R4; R4; R4; R4; R4; R4; R4; R4;	/* 512 */
1.10  briggs 			count -= 512;
1.10  briggs 		}
1.10  briggs 		while (count >= 4) {
1.10  briggs 			R4; count -= 4;
1.10  briggs 		}
1.10  briggs #undef R4
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("Data in (finishing up).")
1.17  briggs #endif
1.10  briggs 		data = (u_int8_t *) long_data;
1.10  briggs 		drq = (u_int8_t *) long_drq;
1.10  briggs 		while (count) {
1.10  briggs #define R1	*data++ = *drq++
1.10  briggs 			R1; count--;
1.10  briggs #undef R1
1.10  briggs 		}
1.11  briggs 		pending_5380_count -= dcount;
1.13  briggs 		pending_5380_data += dcount;
1.11  briggs 		}
1.10  briggs 	} else {
1.10  briggs 		int	resid;
1.10  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("Data out.")
1.17  briggs #endif
1.10  briggs 		/*
1.10  briggs 		 * Get the source address aligned.
1.10  briggs 		 */
1.17  briggs 		resid = count = min(pending_5380_count,
1.17  briggs 				    4 - (((int) pending_5380_data) & 0x3));
1.17  briggs 		if (count && (count < 4)) {
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 			DBG_SET("Data out (aligning dest).")
1.17  briggs #endif
1.10  briggs 			data = (u_int8_t *) pending_5380_data;
1.10  briggs 			drq = (u_int8_t *) ncr_5380_with_drq;
1.10  briggs 			while (count) {
1.10  briggs #define W1	*drq++ = *data++
1.10  briggs 				W1; count--;
1.10  briggs #undef W1
1.10  briggs 			}
1.10  briggs 			pending_5380_data += resid;
1.10  briggs 			pending_5380_count -= resid;
1.10  briggs 		}
1.10  briggs
 1.4  briggs 		/*
1.10  briggs 		 * Get ready to start the transfer.
 1.4  briggs 		 */
1.11  briggs 		while (pending_5380_count) {
1.11  briggs 		int dcount;
1.11  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("Data out (starting write).")
1.17  briggs #endif
1.11  briggs 		dcount = count = min(pending_5380_count, MIN_PHYS);
1.10  briggs 		long_drq = (volatile u_int32_t *) ncr_5380_with_drq;
1.13  briggs 		long_data = (u_int32_t *) pending_5380_data;
1.10  briggs
1.10  briggs #define W4	*long_drq++ = *long_data++
1.10  briggs 		while ( count >= 64 ) {
1.10  briggs 			W4; W4; W4; W4; W4; W4; W4; W4;
1.11  briggs 			W4; W4; W4; W4; W4; W4; W4; W4; /*  64 */
1.10  briggs 			count -= 64;
1.10  briggs 		}
1.10  briggs 		while (count >= 4) {
1.10  briggs 			W4; count -= 4;
1.10  briggs 		}
1.10  briggs #undef W4
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 		DBG_SET("Data out (cleaning up).")
1.17  briggs #endif
1.10  briggs 		data = (u_int8_t *) long_data;
1.10  briggs 		drq = (u_int8_t *) long_drq;
1.10  briggs 		while (count) {
1.10  briggs #define W1	*drq++ = *data++
1.10  briggs 			W1; count--;
1.11  briggs #undef W1
1.11  briggs 		}
1.11  briggs 		pending_5380_count -= dcount;
1.13  briggs 		pending_5380_data += dcount;
 1.4  briggs 		}
1.10  briggs 	}
1.10  briggs
1.10  briggs 	/*
1.10  briggs 	 * OK.  No bus error occurred above.  Clear the nofault flag
1.10  briggs 	 * so we no longer short-circuit bus errors.
1.10  briggs 	 */
1.10  briggs 	nofault = (int *) 0;
1.10  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 	DBG_SET("done in xfer.")
 1.2  briggs #endif
1.10  briggs
 1.4  briggs #endif	/* if USE_PDMA */
 1.1  briggs }
 1.1  briggs
 1.4  briggs #if USE_PDMA
 1.4  briggs
 1.1  briggs #define SCSI_TIMEOUT_VAL	10000000
 1.1  briggs
 1.1  briggs static int
 1.1  briggs transfer_pdma(phasep, data, count)
 1.1  briggs 	u_char	*phasep;
 1.1  briggs 	u_char	*data;
 1.1  briggs 	u_long	*count;
 1.1  briggs {
 1.1  briggs 	SC_REQ	*reqp = connected;
 1.1  briggs 	int	len = *count, i, scsi_timeout = SCSI_TIMEOUT_VAL;
 1.1  briggs 	int	s, err;
 1.1  briggs
 1.4  briggs 	if (pdma_5380_dir) {
 1.1  briggs 		panic("ncrscsi: transfer_pdma called when operation already "
 1.1  briggs 			"pending.\n");
 1.1  briggs 	}
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 	DBG_SET("in transfer_pdma.")
 1.1  briggs #endif
 1.1  briggs
 1.2  briggs 	/*
1.10  briggs  	 * Don't bother with PDMA if we can't sleep or for small transfers.
 1.2  briggs  	 */
 1.9  briggs 	if (reqp->dr_flag & DRIVER_NOINT) {
1.17  briggs #if NCR5380_PDMA_DEBUG
1.16  briggs 		DBG_SET("pdma, actually using transfer_pio.")
 1.1  briggs #endif
 1.7  briggs 		transfer_pio(phasep, data, count, 0);
 1.2  briggs 		return -1;
 1.1  briggs 	}
 1.1  briggs
 1.1  briggs 	/*
1.10  briggs 	 * We are probably already at spl2(), so this is likely a no-op.
1.10  briggs 	 * Paranoia.
 1.1  briggs 	 */
1.10  briggs 	s = splbio();
1.10  briggs
1.10  briggs 	scsi_idisable();
 1.2  briggs
 1.2  briggs 	/*
1.10  briggs 	 * Match phases with target.
 1.2  briggs 	 */
1.10  briggs 	SET_5380_REG(NCR5380_TCOM, *phasep);
 1.2  briggs
 1.2  briggs 	/*
 1.2  briggs 	 * Clear pending interrupts.
 1.2  briggs 	 */
 1.1  briggs 	scsi_clr_ipend();
 1.1  briggs
 1.1  briggs 	/*
 1.1  briggs 	 * Wait until target asserts BSY.
 1.1  briggs 	 */
1.10  briggs 	while (    ((GET_5380_REG(NCR5380_IDSTAT) & SC_S_BSY) == 0)
1.10  briggs 		&& (--scsi_timeout) );
 1.1  briggs 	if (!scsi_timeout) {
 1.1  briggs #if DIAGNOSTIC
 1.1  briggs 		printf("scsi timeout: waiting for BSY in %s.\n",
1.10  briggs 			(*phasep == PH_DATAOUT) ? "pdma_out" : "pdma_in");
 1.1  briggs #endif
 1.1  briggs 		goto scsi_timeout_error;
 1.1  briggs 	}
 1.1  briggs
 1.1  briggs 	/*
 1.2  briggs 	 * Tell the driver that we're in DMA mode.
 1.2  briggs 	 */
 1.2  briggs 	reqp->dr_flag |= DRIVER_IN_DMA;
 1.2  briggs
 1.2  briggs 	/*
 1.4  briggs 	 * Load transfer values for DRQ interrupt handlers.
 1.1  briggs 	 */
 1.4  briggs 	pending_5380_data = data;
 1.1  briggs 	pending_5380_count = len;
 1.1  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 	DBG_SET("setting up for interrupt.")
 1.1  briggs #endif
 1.1  briggs
 1.1  briggs 	/*
 1.1  briggs 	 * Set the transfer function to be called on DRQ interrupts.
 1.2  briggs 	 * And note that we're waiting.
 1.1  briggs 	 */
 1.4  briggs 	switch (*phasep) {
 1.4  briggs 	default:
 1.4  briggs 		panic("Unexpected phase in transfer_pdma.\n");
 1.4  briggs 	case PH_DATAOUT:
 1.4  briggs 		pdma_5380_dir = 1;
1.17  briggs 		SET_5380_REG(NCR5380_ICOM, GET_5380_REG(NCR5380_ICOM)|SC_ADTB);
1.17  briggs 		SET_5380_REG(NCR5380_MODE, GET_5380_REG(NCR5380_MODE)|SC_M_DMA);
1.10  briggs 		SET_5380_REG(NCR5380_DMSTAT, 0);
 1.4  briggs 		break;
 1.4  briggs 	case PH_DATAIN:
 1.4  briggs 		pdma_5380_dir = 2;
1.17  briggs 		SET_5380_REG(NCR5380_ICOM, 0);
1.17  briggs 		SET_5380_REG(NCR5380_MODE, GET_5380_REG(NCR5380_MODE)|SC_M_DMA);
1.10  briggs 		SET_5380_REG(NCR5380_IRCV, 0);
 1.4  briggs 		break;
 1.1  briggs 	}
1.17  briggs
1.17  briggs #if NCR5380_PDMA_DEBUG
1.17  briggs 	DBG_SET("wait for interrupt.")
1.17  briggs #endif
 1.1  briggs
 1.1  briggs 	/*
 1.1  briggs 	 * Now that we're set up, enable interrupts and drop processor
 1.2  briggs 	 * priority back down.
 1.1  briggs 	 */
 1.1  briggs 	scsi_ienable();
 1.1  briggs 	splx(s);
 1.2  briggs 	return 0;
 1.1  briggs
 1.1  briggs scsi_timeout_error:
 1.1  briggs 	/*
 1.1  briggs 	 * Clear the DMA mode.
 1.1  briggs 	 */
 1.1  briggs 	SET_5380_REG(NCR5380_MODE, GET_5380_REG(NCR5380_MODE) & ~SC_M_DMA);
 1.1  briggs 	return -1;
 1.1  briggs }
 1.1  briggs #endif /* if USE_PDMA */
 1.1  briggs
 1.1  briggs /* Include general routines. */
 1.5  briggs #include <mac68k/dev/ncr5380.c>