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mha.c revision 1.11
      1  1.11    mjacob /*	$NetBSD: mha.c,v 1.11 1998/12/05 19:43:47 mjacob Exp $	*/
      2   1.1       oki 
      3   1.1       oki /*
      4   1.1       oki  * Copyright (c) 1996 Masaru Oki, Takumi Nakamura and Masanobu Saitoh.  All rights reserved.
      5   1.1       oki  * Copyright (c) 1994, 1995, 1996 Charles M. Hannum.  All rights reserved.
      6   1.1       oki  *
      7   1.1       oki  * Redistribution and use in source and binary forms, with or without
      8   1.1       oki  * modification, are permitted provided that the following conditions
      9   1.1       oki  * are met:
     10   1.1       oki  * 1. Redistributions of source code must retain the above copyright
     11   1.1       oki  *    notice, this list of conditions and the following disclaimer.
     12   1.1       oki  * 2. Redistributions in binary form must reproduce the above copyright
     13   1.1       oki  *    notice, this list of conditions and the following disclaimer in the
     14   1.1       oki  *    documentation and/or other materials provided with the distribution.
     15   1.1       oki  * 3. All advertising materials mentioning features or use of this software
     16   1.1       oki  *    must display the following acknowledgement:
     17   1.1       oki  *	This product includes software developed by Charles M. Hannum.
     18   1.1       oki  * 4. The name of the author may not be used to endorse or promote products
     19   1.1       oki  *    derived from this software without specific prior written permission.
     20   1.1       oki  *
     21   1.1       oki  * Copyright (c) 1994 Jarle Greipsland
     22   1.1       oki  * All rights reserved.
     23   1.1       oki  *
     24   1.1       oki  * Redistribution and use in source and binary forms, with or without
     25   1.1       oki  * modification, are permitted provided that the following conditions
     26   1.1       oki  * are met:
     27   1.1       oki  * 1. Redistributions of source code must retain the above copyright
     28   1.1       oki  *    notice, this list of conditions and the following disclaimer.
     29   1.1       oki  * 2. Redistributions in binary form must reproduce the above copyright
     30   1.1       oki  *    notice, this list of conditions and the following disclaimer in the
     31   1.1       oki  *    documentation and/or other materials provided with the distribution.
     32   1.1       oki  * 3. The name of the author may not be used to endorse or promote products
     33   1.1       oki  *    derived from this software without specific prior written permission.
     34   1.1       oki  *
     35   1.1       oki  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     36   1.1       oki  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
     37   1.1       oki  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
     38   1.1       oki  * DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
     39   1.1       oki  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
     40   1.1       oki  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
     41   1.1       oki  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
     42   1.1       oki  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
     43   1.1       oki  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
     44   1.1       oki  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     45   1.1       oki  * POSSIBILITY OF SUCH DAMAGE.
     46   1.1       oki  */
     47   1.5  jonathan 
     48   1.5  jonathan #include "opt_ddb.h"
     49   1.1       oki 
     50   1.1       oki /* Synchronous data transfers? */
     51   1.1       oki #define SPC_USE_SYNCHRONOUS	0
     52   1.1       oki #define SPC_SYNC_REQ_ACK_OFS 	8
     53   1.1       oki 
     54   1.4   msaitoh /* Default DMA mode? */
     55   1.4   msaitoh #define MHA_DMA_LIMIT_XFER	1
     56   1.4   msaitoh #define MHA_DMA_BURST_XFER	1
     57   1.4   msaitoh #define MHA_DMA_SHORT_BUS_CYCLE	1
     58   1.4   msaitoh 
     59   1.4   msaitoh #define MHA_DMA_DATAIN	(0 | (MHA_DMA_LIMIT_XFER << 1)		\
     60   1.4   msaitoh 			   | (MHA_DMA_BURST_XFER << 2)		\
     61   1.4   msaitoh 			   | (MHA_DMA_SHORT_BUS_CYCLE << 3))
     62   1.4   msaitoh #define MHA_DMA_DATAOUT	(1 | (MHA_DMA_LIMIT_XFER << 1)		\
     63   1.4   msaitoh 			   | (MHA_DMA_BURST_XFER << 2)		\
     64   1.4   msaitoh 			   | (MHA_DMA_SHORT_BUS_CYCLE << 3))
     65   1.4   msaitoh 
     66   1.1       oki /* Include debug functions?  At the end of this file there are a bunch of
     67   1.1       oki  * functions that will print out various information regarding queued SCSI
     68   1.1       oki  * commands, driver state and chip contents.  You can call them from the
     69   1.1       oki  * kernel debugger.  If you set SPC_DEBUG to 0 they are not included (the
     70   1.1       oki  * kernel uses less memory) but you lose the debugging facilities.
     71   1.1       oki  */
     72   1.1       oki #define SPC_DEBUG		0
     73   1.1       oki 
     74   1.1       oki /* End of customizable parameters */
     75   1.1       oki 
     76   1.1       oki /*
     77   1.1       oki  * MB86601A SCSI Protocol Controller (SPC) routines for MANKAI Mach-2
     78   1.1       oki  */
     79   1.1       oki 
     80   1.1       oki #include <sys/types.h>
     81   1.1       oki #include <sys/param.h>
     82   1.1       oki #include <sys/systm.h>
     83   1.1       oki #include <sys/kernel.h>
     84   1.1       oki #include <sys/errno.h>
     85   1.1       oki #include <sys/ioctl.h>
     86   1.1       oki #include <sys/device.h>
     87   1.1       oki #include <sys/buf.h>
     88   1.1       oki #include <sys/proc.h>
     89   1.1       oki #include <sys/user.h>
     90   1.1       oki #include <sys/queue.h>
     91   1.1       oki 
     92   1.1       oki #include <dev/scsipi/scsi_all.h>
     93   1.1       oki #include <dev/scsipi/scsipi_all.h>
     94   1.1       oki #include <dev/scsipi/scsi_message.h>
     95   1.1       oki #include <dev/scsipi/scsiconf.h>
     96   1.1       oki 
     97   1.1       oki #include <x68k/x68k/iodevice.h>
     98   1.1       oki #include <x68k/dev/mb86601reg.h>
     99   1.1       oki #include <x68k/dev/mhavar.h>
    100   1.1       oki #include <x68k/dev/dmavar.h>
    101   1.1       oki 
    102   1.1       oki #if 0
    103   1.1       oki #define WAIT {if (sc->sc_pc[2]) {printf("[W_%d", __LINE__); while (sc->sc_pc[2] & 0x40);printf("]");}}
    104   1.1       oki #else
    105   1.1       oki #define WAIT {while (sc->sc_pc[2] & 0x40);}
    106   1.1       oki #endif
    107   1.1       oki 
    108   1.1       oki #define SSR	(sc->sc_pc[2])
    109   1.1       oki #define	SS_IREQUEST	0x80
    110   1.1       oki #define	SS_BUSY		0x40
    111   1.1       oki #define	SS_DREG_FULL	0x02
    112   1.1       oki 
    113   1.1       oki #define	NSR	(sc->sc_pc[3])
    114   1.1       oki 
    115   1.1       oki #define	SIR	(sc->sc_pc[4])
    116   1.1       oki 
    117   1.1       oki #define	CMR	(sc->sc_pc[5])
    118   1.1       oki #define	CMD_SEL_AND_CMD	0x00
    119   1.1       oki #define	CMD_SELECT	0x09
    120   1.1       oki #define	CMD_SET_ATN	0x0a
    121   1.1       oki #define	CMD_RESET_ATN	0x0b
    122   1.1       oki #define	CMD_RESET_ACK	0x0d
    123   1.1       oki #define	CMD_SEND_FROM_MPU	0x10
    124   1.1       oki #define	CMD_SEND_FROM_DMA	0x11
    125   1.1       oki #define	CMD_RECEIVE_TO_MPU	0x12
    126   1.1       oki #define	CMD_RECEIVE_TO_DMA	0x13
    127   1.1       oki #define	CMD_RECEIVE_MSG	0x1a
    128   1.1       oki #define	CMD_RECEIVE_STS	0x1c
    129   1.1       oki #define	CMD_SOFT_RESET	0x40
    130   1.1       oki #define	CMD_SCSI_RESET	0x42
    131   1.1       oki #define	CMD_SET_UP_REG	0x43
    132   1.1       oki 
    133   1.1       oki #define	SCR	(sc->sc_pc[11])
    134   1.1       oki 
    135   1.1       oki #define	TMR	(sc->sc_pc[12])
    136   1.1       oki #define	TM_SYNC		0x80
    137   1.1       oki #define	TM_ASYNC	0x00
    138   1.1       oki 
    139   1.1       oki #define	WAR	(sc->sc_pc[15])
    140   1.1       oki #define	WA_MCSBUFWIN	0x00
    141   1.1       oki #define	WA_UPMWIN	0x80
    142   1.1       oki #define	WA_INITWIN	0xc0
    143   1.1       oki 
    144   1.1       oki #define	MBR	(sc->sc_pc[15])
    145   1.1       oki 
    146   1.1       oki #define ISCSR	(sc->sc_ps[2])
    147   1.1       oki 
    148   1.1       oki #define	CCR	(sc->sc_pcx[0])
    149   1.1       oki #define	OIR	(sc->sc_pcx[1])
    150   1.1       oki #define	AMR	(sc->sc_pcx[2])
    151   1.1       oki #define	SMR	(sc->sc_pcx[3])
    152   1.1       oki #define	SRR	(sc->sc_pcx[4])
    153   1.1       oki #define	STR	(sc->sc_pcx[5])
    154   1.1       oki #define	RTR	(sc->sc_pcx[6])
    155   1.1       oki #define	ATR	(sc->sc_pcx[7])
    156   1.1       oki #define	PER	(sc->sc_pcx[8])
    157   1.1       oki #define	IER	(sc->sc_pcx[9])
    158   1.1       oki #define	IE_ALL	0xBF
    159   1.1       oki 
    160   1.1       oki #define	GLR	(sc->sc_pcx[10])
    161   1.1       oki #define	DMR	(sc->sc_pcx[11])
    162   1.1       oki #define	IMR	(sc->sc_pcx[12])
    163   1.1       oki 
    164   1.1       oki 
    165   1.1       oki #ifndef DDB
    167   1.1       oki #define	Debugger() panic("should call debugger here (mha.c)")
    168   1.1       oki #endif /* ! DDB */
    169   1.1       oki 
    170   1.1       oki 
    171   1.1       oki #if SPC_DEBUG
    172   1.1       oki #define SPC_SHOWACBS	0x01
    173   1.1       oki #define SPC_SHOWINTS	0x02
    174   1.1       oki #define SPC_SHOWCMDS	0x04
    175   1.1       oki #define SPC_SHOWMISC	0x08
    176   1.1       oki #define SPC_SHOWTRAC	0x10
    177   1.1       oki #define SPC_SHOWSTART	0x20
    178   1.1       oki #define SPC_SHOWPHASE	0x40
    179   1.1       oki #define SPC_SHOWDMA	0x80
    180   1.1       oki #define SPC_SHOWCCMDS	0x100
    181   1.1       oki #define SPC_SHOWMSGS	0x200
    182   1.1       oki #define SPC_DOBREAK	0x400
    183   1.1       oki 
    184   1.1       oki int mha_debug =
    185   1.1       oki #if 0
    186   1.1       oki 0x7FF;
    187   1.1       oki #else
    188   1.1       oki SPC_SHOWSTART|SPC_SHOWTRAC;
    189   1.1       oki #endif
    190   1.1       oki 
    191   1.1       oki 
    192   1.1       oki #define SPC_ACBS(str)  do {if (mha_debug & SPC_SHOWACBS) printf str;} while (0)
    193   1.1       oki #define SPC_MISC(str)  do {if (mha_debug & SPC_SHOWMISC) printf str;} while (0)
    194   1.1       oki #define SPC_INTS(str)  do {if (mha_debug & SPC_SHOWINTS) printf str;} while (0)
    195   1.1       oki #define SPC_TRACE(str) do {if (mha_debug & SPC_SHOWTRAC) printf str;} while (0)
    196   1.1       oki #define SPC_CMDS(str)  do {if (mha_debug & SPC_SHOWCMDS) printf str;} while (0)
    197   1.1       oki #define SPC_START(str) do {if (mha_debug & SPC_SHOWSTART) printf str;}while (0)
    198   1.1       oki #define SPC_PHASE(str) do {if (mha_debug & SPC_SHOWPHASE) printf str;}while (0)
    199   1.1       oki #define SPC_DMA(str)   do {if (mha_debug & SPC_SHOWDMA) printf str;}while (0)
    200   1.1       oki #define SPC_MSGS(str)  do {if (mha_debug & SPC_SHOWMSGS) printf str;}while (0)
    201   1.1       oki #define	SPC_BREAK()    do {if ((mha_debug & SPC_DOBREAK) != 0) Debugger();} while (0)
    202   1.1       oki #define	SPC_ASSERT(x)  do {if (x) {} else {printf("%s at line %d: assertion failed\n", sc->sc_dev.dv_xname, __LINE__); Debugger();}} while (0)
    203   1.1       oki #else
    204   1.1       oki #define SPC_ACBS(str)
    205   1.1       oki #define SPC_MISC(str)
    206   1.1       oki #define SPC_INTS(str)
    207   1.1       oki #define SPC_TRACE(str)
    208   1.1       oki #define SPC_CMDS(str)
    209   1.1       oki #define SPC_START(str)
    210   1.1       oki #define SPC_PHASE(str)
    211   1.1       oki #define SPC_DMA(str)
    212   1.1       oki #define SPC_MSGS(str)
    213   1.1       oki #define	SPC_BREAK()
    214   1.1       oki #define	SPC_ASSERT(x)
    215   1.1       oki #endif
    216   1.6   minoura 
    217   1.1       oki int	mhamatch	__P((struct device *, struct cfdata *, void *));
    218   1.1       oki void	mhaattach	__P((struct device *, struct device *, void *));
    219   1.1       oki void	mhaselect	__P((struct mha_softc *,
    220   1.1       oki 				     u_char, u_char, u_char *, u_char));
    221   1.1       oki void	mha_scsi_reset	__P((struct mha_softc *));
    222   1.1       oki void	mha_reset	__P((struct mha_softc *));
    223   1.1       oki void	mha_free_acb	__P((struct mha_softc *, struct acb *, int));
    224   1.1       oki void	mha_sense	__P((struct mha_softc *, struct acb *));
    225   1.1       oki void	mha_msgin	__P((struct mha_softc *));
    226   1.1       oki void	mha_msgout	__P((struct mha_softc *));
    227   1.1       oki int	mha_dataout_pio	__P((struct mha_softc *, u_char *, int));
    228   1.1       oki int	mha_datain_pio	__P((struct mha_softc *, u_char *, int));
    229   1.1       oki int	mha_dataout	__P((struct mha_softc *, u_char *, int));
    230   1.1       oki int	mha_datain	__P((struct mha_softc *, u_char *, int));
    231   1.1       oki void	mha_abort	__P((struct mha_softc *, struct acb *));
    232   1.1       oki void 	mha_init	__P((struct mha_softc *));
    233   1.1       oki int	mha_scsi_cmd	__P((struct scsipi_xfer *));
    234   1.1       oki int	mha_poll	__P((struct mha_softc *, struct acb *));
    235   1.1       oki void	mha_sched	__P((struct mha_softc *));
    236   1.1       oki void	mha_done	__P((struct mha_softc *, struct acb *));
    237   1.1       oki int	mhaintr		__P((int));
    238   1.1       oki void	mha_timeout	__P((void *));
    239   1.1       oki void	mha_minphys	__P((struct buf *));
    240   1.1       oki void	mha_dequeue	__P((struct mha_softc *, struct acb *));
    241   1.4   msaitoh inline void	mha_setsync	__P((struct mha_softc *, struct spc_tinfo *));
    242   1.1       oki #if SPC_DEBUG
    243   1.1       oki void	mha_print_acb __P((struct acb *));
    244   1.1       oki void	mha_show_scsi_cmd __P((struct acb *));
    245   1.1       oki void	mha_print_active_acb __P((void));
    246   1.1       oki void	mha_dump_driver __P((struct mha_softc *));
    247   1.1       oki #endif
    248   1.1       oki volatile void *	mha_find	__P((int));
    249   1.1       oki 
    250   1.1       oki static int mha_dataio_dma __P((int, int, struct mha_softc *, u_char *, int));
    251   1.1       oki 
    252   1.1       oki struct cfattach mha_ca = {
    253   1.1       oki 	sizeof(struct mha_softc), mhamatch, mhaattach
    254   1.1       oki };
    255   1.3   thorpej 
    256   1.1       oki extern struct cfdriver mha_cd;
    257   1.1       oki 
    258   1.1       oki struct scsipi_device mha_dev = {
    259   1.1       oki 	NULL,			/* Use default error handler */
    260   1.1       oki 	NULL,			/* have a queue, served by this */
    261   1.1       oki 	NULL,			/* have no async handler */
    262   1.1       oki 	NULL,			/* Use default 'done' routine */
    263   1.1       oki };
    264   1.1       oki 
    265   1.1       oki /*
    267   1.1       oki  * returns non-zero value if a controller is found.
    268   1.6   minoura  */
    269   1.1       oki int
    270   1.6   minoura mhamatch(parent, cf, aux)
    271   1.6   minoura 	struct device *parent;
    272   1.1       oki 	struct cfdata *cf;
    273   1.1       oki 	void *aux;
    274   1.1       oki {
    275   1.1       oki 	if (strcmp(aux, "mha") || mha_find(cf->cf_unit) == 0)
    276   1.1       oki 		return 0;
    277   1.1       oki 	return 1;
    278   1.1       oki }
    279   1.1       oki 
    280   1.1       oki /*
    281   1.1       oki  * Find the board
    282   1.1       oki  */
    283   1.1       oki volatile void *
    284   1.1       oki mha_find(unit)
    285   1.1       oki 	int unit;
    286   1.1       oki {
    287   1.1       oki 	volatile void *addr;
    288   1.1       oki 
    289   1.1       oki 	if (unit > 1)
    290   1.6   minoura 		return 0;
    291   1.6   minoura 	/* Find only on-board ROM */
    292   1.6   minoura 	if (badaddr(IODEVbase->exscsirom)
    293   1.6   minoura 	    || bcmp((void *)&IODEVbase->exscsirom[0x24], "SCSIEX", 6))
    294   1.6   minoura 	  return 0;
    295   1.6   minoura 
    296   1.6   minoura 	/* If bdid exists, this board is ``CZ-6BS1'' */
    297   1.1       oki 	if (!badbaddr(&IODEVbase->io_exspc.bdid))
    298   1.1       oki 		return 0;
    299   1.1       oki 
    300   1.1       oki 	return (void *)(&IODEVbase->exscsirom[0x60]);
    301   1.1       oki }
    302   1.1       oki 
    303   1.1       oki /*
    304   1.1       oki  */
    305   1.1       oki 
    306   1.1       oki struct mha_softc *tmpsc;
    307   1.1       oki 
    308   1.1       oki void
    309   1.1       oki mhaattach(parent, self, aux)
    310   1.1       oki 	struct device *parent, *self;
    311   1.1       oki 	void *aux;
    312   1.1       oki {
    313   1.1       oki 	struct mha_softc *sc = (void *)self;
    314   1.1       oki 
    315   1.1       oki 	tmpsc = sc;	/* XXX */
    316   1.1       oki 
    317   1.1       oki 	SPC_TRACE(("mhaattach  "));
    318   1.1       oki 	sc->sc_state = SPC_INIT;
    319   1.1       oki 	sc->sc_iobase = mha_find(sc->sc_dev.dv_unit); /* XXX */
    320   1.1       oki 
    321   1.1       oki 	sc->sc_pc = (volatile u_char *)sc->sc_iobase;
    322   1.1       oki 	sc->sc_ps = (volatile u_short *)sc->sc_iobase;
    323   1.1       oki 	sc->sc_pcx = &sc->sc_pc[0x10];
    324   1.1       oki 
    325   1.1       oki 	sc->sc_id = IODEVbase->io_sram[0x70] & 0x7; /* XXX */
    326   1.1       oki 
    327   1.1       oki 	mha_init(sc);	/* Init chip and driver */
    328   1.1       oki 	sc->sc_phase  = BUSFREE_PHASE;
    329  1.10   thorpej 
    330  1.10   thorpej 	/*
    331  1.10   thorpej 	 * Fill in the adapter.
    332  1.10   thorpej 	 */
    333  1.10   thorpej 	sc->sc_adapter.scsipi_cmd = mha_scsi_cmd;
    334  1.10   thorpej 	sc->sc_adapter.scsipi_minphys = mha_minphys;
    335   1.1       oki 
    336   1.1       oki 	/*
    337   1.1       oki 	 * Fill in the prototype scsi_link
    338   1.1       oki 	 */
    339   1.1       oki 	sc->sc_link.scsipi_scsi.channel = SCSI_CHANNEL_ONLY_ONE;
    340  1.10   thorpej 	sc->sc_link.adapter_softc = sc;
    341   1.1       oki 	sc->sc_link.scsipi_scsi.adapter_target = sc->sc_id;
    342   1.1       oki 	sc->sc_link.adapter = &sc->sc_adapter;
    343   1.1       oki 	sc->sc_link.device = &mha_dev;
    344  1.11    mjacob 	sc->sc_link.openings = 2;
    345   1.1       oki 	sc->sc_link.scsipi_scsi.max_target = 7;
    346   1.1       oki 	sc->sc_link.scsipi_scsi.max_lun = 7;
    347   1.1       oki 	sc->sc_link.type = BUS_SCSI;
    348   1.1       oki 
    349   1.1       oki 	sc->sc_spcinitialized = 0;
    350   1.1       oki 	WAR = WA_INITWIN;
    351   1.1       oki #if 1
    352   1.1       oki 	CCR = 0x14;
    353   1.1       oki 	OIR = sc->sc_id;
    354   1.1       oki 	AMR = 0x00;
    355   1.1       oki 	SMR = 0x00;
    356   1.1       oki 	SRR = 0x00;
    357   1.1       oki 	STR = 0x20;
    358   1.1       oki 	RTR = 0x40;
    359   1.1       oki 	ATR = 0x01;
    360   1.1       oki 	PER = 0xc9;
    361   1.1       oki #endif
    362   1.1       oki 	IER = IE_ALL;	/* $B$9$Y$F$N3d$j9~$_$r5v2D(B */
    363   1.1       oki #if 1
    364   1.1       oki 	GLR = 0x00;
    365   1.1       oki 	DMR = 0x30;
    366   1.1       oki 	IMR = 0x00;
    367   1.1       oki #endif
    368   1.1       oki 	WAR = WA_MCSBUFWIN;
    369   1.1       oki 
    370   1.1       oki 	/* drop off */
    371   1.1       oki 	while (SSR & SS_IREQUEST)
    372   1.1       oki 	  {
    373   1.1       oki 	    unsigned a = ISCSR;
    374   1.1       oki 	  }
    375   1.1       oki 
    376   1.1       oki 	CMR = CMD_SET_UP_REG;	/* setup reg cmd. */
    377   1.8   minoura 
    378   1.8   minoura 	SPC_TRACE(("waiting for intr..."));
    379   1.8   minoura 	while (!(SSR & SS_IREQUEST))
    380   1.1       oki 	  delay(10);
    381   1.1       oki 	mhaintr	(sc->sc_dev.dv_unit);
    382   1.1       oki 
    383   1.1       oki 	tmpsc = NULL;
    384   1.1       oki 
    385   1.1       oki 	printf("\n");
    386   1.1       oki 
    387   1.1       oki 	config_found(self, &sc->sc_link, scsiprint);
    388   1.1       oki }
    389   1.1       oki 
    390   1.1       oki void
    391   1.1       oki mha_reset(sc)
    392   1.1       oki 	struct mha_softc *sc;
    393   1.1       oki {
    394   1.1       oki 	u_short	dummy;
    395   1.1       oki printf("reset...");
    396   1.1       oki 	CMR = CMD_SOFT_RESET;
    397   1.1       oki 	asm volatile ("nop");	/* XXX wait (4clk in 20mhz) ??? */
    398   1.1       oki 	dummy = sc->sc_ps[-1];
    399   1.1       oki 	dummy = sc->sc_ps[-1];
    400   1.1       oki 	dummy = sc->sc_ps[-1];
    401   1.1       oki 	dummy = sc->sc_ps[-1];
    402   1.1       oki 	asm volatile ("nop");
    403   1.1       oki 	CMR = CMD_SOFT_RESET;
    404   1.1       oki 	sc->sc_spcinitialized = 0;
    405   1.1       oki 	CMR = CMD_SET_UP_REG;	/* setup reg cmd. */
    406   1.1       oki 	while(!sc->sc_spcinitialized);
    407   1.1       oki 
    408   1.1       oki 	sc->sc_id = IODEVbase->io_sram[0x70] & 0x7; /* XXX */
    409   1.1       oki printf("done.\n");
    410   1.1       oki }
    411   1.1       oki 
    412   1.1       oki /*
    413   1.1       oki  * Pull the SCSI RST line for 500us.
    414   1.1       oki  */
    415   1.1       oki void
    416   1.1       oki mha_scsi_reset(sc)	/* FINISH? */
    417   1.1       oki 	struct mha_softc *sc;
    418   1.1       oki {
    419   1.1       oki 
    420   1.1       oki 	CMR = CMD_SCSI_RESET;	/* SCSI RESET */
    421   1.1       oki 	WAIT;
    422   1.1       oki }
    423   1.1       oki 
    424   1.1       oki /*
    425   1.1       oki  * Initialize mha SCSI driver.
    426   1.1       oki  */
    427   1.1       oki void
    428   1.1       oki mha_init(sc)
    429   1.1       oki 	struct mha_softc *sc;
    430   1.1       oki {
    431   1.1       oki 	struct acb *acb;
    432   1.1       oki 	int r;
    433   1.1       oki 
    434   1.1       oki 	if (sc->sc_state == SPC_INIT) {
    435   1.1       oki 		/* First time through; initialize. */
    436   1.1       oki 		TAILQ_INIT(&sc->ready_list);
    437   1.1       oki 		TAILQ_INIT(&sc->nexus_list);
    438   1.1       oki 		TAILQ_INIT(&sc->free_list);
    439   1.1       oki 		sc->sc_nexus = NULL;
    440   1.1       oki 		acb = sc->sc_acb;
    441   1.1       oki 		bzero(acb, sizeof(sc->sc_acb));
    442   1.1       oki 		for (r = 0; r < sizeof(sc->sc_acb) / sizeof(*acb); r++) {
    443   1.1       oki 			TAILQ_INSERT_TAIL(&sc->free_list, acb, chain);
    444   1.1       oki 			acb++;
    445   1.1       oki 		}
    446   1.1       oki 		bzero(&sc->sc_tinfo, sizeof(sc->sc_tinfo));
    447   1.1       oki 	} else {
    448   1.1       oki 		/* Cancel any active commands. */
    449   1.1       oki 		sc->sc_flags |= SPC_ABORTING;
    450   1.1       oki 		sc->sc_state = SPC_IDLE;
    451   1.1       oki 		if ((acb = sc->sc_nexus) != NULL) {
    452   1.1       oki 			acb->xs->error = XS_DRIVER_STUFFUP;
    453   1.1       oki 			mha_done(sc, acb);
    454   1.1       oki 		}
    455   1.1       oki 		while ((acb = sc->nexus_list.tqh_first) != NULL) {
    456   1.1       oki 			acb->xs->error = XS_DRIVER_STUFFUP;
    457   1.1       oki 			mha_done(sc, acb);
    458   1.1       oki 		}
    459   1.1       oki 	}
    460   1.1       oki 
    461   1.1       oki 	sc->sc_phase = sc->sc_prevphase = INVALID_PHASE;
    462   1.1       oki 	for (r = 0; r < 8; r++) {
    463   1.1       oki 		struct spc_tinfo *ti = &sc->sc_tinfo[r];
    464   1.1       oki 
    465   1.1       oki 		ti->flags = 0;
    466   1.1       oki #if SPC_USE_SYNCHRONOUS
    467   1.1       oki 		ti->flags |= T_SYNCMODE;
    468   1.1       oki 		ti->period = sc->sc_minsync;
    469   1.1       oki 		ti->offset = SPC_SYNC_REQ_ACK_OFS;
    470   1.1       oki #else
    471   1.1       oki 		ti->period = ti->offset = 0;
    472   1.1       oki #endif
    473   1.1       oki 		ti->width = 0;
    474   1.1       oki 	}
    475   1.1       oki 
    476   1.1       oki 	sc->sc_state = SPC_IDLE;
    477   1.1       oki #if 0
    478   1.1       oki 	mha_reset(sc);
    479   1.1       oki #endif
    480   1.1       oki }
    481   1.1       oki 
    482   1.1       oki void
    483   1.1       oki mha_free_acb(sc, acb, flags)
    484   1.1       oki 	struct mha_softc *sc;
    485   1.1       oki 	struct acb *acb;
    486   1.1       oki 	int flags;
    487   1.1       oki {
    488   1.1       oki 	int s;
    489   1.1       oki 
    490   1.1       oki 	s = splbio();
    491   1.1       oki 
    492   1.1       oki 	acb->flags = 0;
    493   1.1       oki 	TAILQ_INSERT_HEAD(&sc->free_list, acb, chain);
    494   1.1       oki 
    495   1.1       oki 	/*
    496   1.1       oki 	 * If there were none, wake anybody waiting for one to come free,
    497   1.1       oki 	 * starting with queued entries.
    498   1.1       oki 	 */
    499   1.1       oki 	if (acb->chain.tqe_next == 0)
    500   1.1       oki 		wakeup(&sc->free_list);
    501   1.1       oki 
    502   1.1       oki 	splx(s);
    503   1.1       oki }
    504   1.1       oki 
    505   1.1       oki 
    506   1.1       oki /*
    508   1.1       oki  * DRIVER FUNCTIONS CALLABLE FROM HIGHER LEVEL DRIVERS
    509   1.1       oki  */
    510   1.1       oki 
    511   1.1       oki /*
    512   1.1       oki  * Expected sequence:
    513   1.1       oki  * 1) Command inserted into ready list
    514   1.1       oki  * 2) Command selected for execution
    515   1.1       oki  * 3) Command won arbitration and has selected target device
    516   1.1       oki  * 4) Send message out (identify message, eventually also sync.negotiations)
    517   1.1       oki  * 5) Send command
    518   1.1       oki  * 5a) Receive disconnect message, disconnect.
    519   1.1       oki  * 5b) Reselected by target
    520   1.1       oki  * 5c) Receive identify message from target.
    521   1.1       oki  * 6) Send or receive data
    522   1.1       oki  * 7) Receive status
    523   1.1       oki  * 8) Receive message (command complete etc.)
    524   1.1       oki  * 9) If status == SCSI_CHECK construct a synthetic request sense SCSI cmd.
    525   1.1       oki  *    Repeat 2-8 (no disconnects please...)
    526   1.1       oki  */
    527   1.1       oki 
    528   1.1       oki /*
    529   1.1       oki  * Start a selection.  This is used by mha_sched() to select an idle target,
    530   1.1       oki  * and by mha_done() to immediately reselect a target to get sense information.
    531   1.1       oki  */
    532   1.1       oki void
    533   1.1       oki mhaselect(sc, target, lun, cmd, clen)
    534   1.1       oki 	struct mha_softc *sc;
    535   1.1       oki 	u_char target, lun;
    536   1.1       oki 	u_char *cmd;
    537   1.1       oki 	u_char clen;
    538   1.1       oki {
    539   1.1       oki #if 0
    540   1.1       oki 	struct scsi_link *sc_link = acb->xs->sc_link;
    541   1.1       oki #endif
    542   1.1       oki 	struct spc_tinfo *ti = &sc->sc_tinfo[target];
    543   1.1       oki 	int i;
    544   1.1       oki 	int s;
    545   1.1       oki 
    546   1.1       oki 	s = splbio();	/* XXX */
    547   1.1       oki 
    548   1.1       oki 	SPC_TRACE(("[mhaselect(t%d,l%d,cmd:%x)] ", target, lun, *(u_char *)cmd));
    549   1.1       oki 
    550   1.1       oki 	/* CDB $B$r(B SPC $B$N(B MCS REG $B$K%;%C%H$9$k(B */
    551   1.1       oki 	/* Now the command into the FIFO */
    552   1.1       oki 	WAIT;
    553   1.1       oki #if 1
    554   1.1       oki 	SPC_MISC(("[cmd:"));
    555   1.1       oki 	for (i = 0; i < clen; i++)
    556   1.1       oki 	  {
    557   1.1       oki 	    unsigned c = cmd[i];
    558   1.1       oki 	    if (i == 1)
    559   1.1       oki 	      c |= lun << 5;
    560   1.1       oki 	    SPC_MISC((" %02x", c));
    561   1.1       oki 	    sc->sc_pcx[i] = c;
    562   1.1       oki 	  }
    563   1.1       oki 	SPC_MISC(("], target=%d\n", target));
    564   1.1       oki #else
    565   1.1       oki 	bcopy(cmd, sc->sc_pcx, clen);
    566   1.1       oki #endif
    567   1.1       oki 	if (NSR & 0x80)
    568   1.1       oki 		panic("scsistart: already selected...");
    569   1.1       oki 	sc->sc_phase  = COMMAND_PHASE;
    570   1.1       oki 
    571   1.1       oki 	/* new state ASP_SELECTING */
    572   1.1       oki 	sc->sc_state = SPC_SELECTING;
    573   1.1       oki 
    574   1.1       oki 	SIR = target;
    575   1.1       oki #if 0
    576   1.1       oki 	CMR = CMD_SELECT;
    577   1.1       oki #else
    578   1.1       oki 	CMR = CMD_SEL_AND_CMD;	/* select & cmd */
    579   1.1       oki #endif
    580   1.1       oki 	splx(s);
    581   1.1       oki }
    582   1.1       oki 
    583   1.1       oki #if 0
    584   1.1       oki int
    585   1.1       oki mha_reselect(sc, message)
    586   1.1       oki 	struct mha_softc *sc;
    587   1.1       oki 	u_char message;
    588   1.1       oki {
    589   1.1       oki 	u_char selid, target, lun;
    590   1.1       oki 	struct acb *acb;
    591   1.1       oki 	struct scsipi_link *sc_link;
    592   1.1       oki 	struct spc_tinfo *ti;
    593   1.1       oki 
    594   1.1       oki 	/*
    595   1.1       oki 	 * The SCSI chip made a snapshot of the data bus while the reselection
    596   1.1       oki 	 * was being negotiated.  This enables us to determine which target did
    597   1.1       oki 	 * the reselect.
    598   1.1       oki 	 */
    599   1.1       oki 	selid = sc->sc_selid & ~(1 << sc->sc_id);
    600   1.1       oki 	if (selid & (selid - 1)) {
    601   1.1       oki 		printf("%s: reselect with invalid selid %02x; sending DEVICE RESET\n",
    602   1.1       oki 		    sc->sc_dev.dv_xname, selid);
    603   1.1       oki 		SPC_BREAK();
    604   1.1       oki 		goto reset;
    605   1.1       oki 	}
    606   1.1       oki 
    607   1.1       oki 	/*
    608   1.1       oki 	 * Search wait queue for disconnected cmd
    609   1.1       oki 	 * The list should be short, so I haven't bothered with
    610   1.1       oki 	 * any more sophisticated structures than a simple
    611   1.1       oki 	 * singly linked list.
    612   1.1       oki 	 */
    613   1.1       oki 	target = ffs(selid) - 1;
    614   1.1       oki 	lun = message & 0x07;
    615   1.1       oki 	for (acb = sc->nexus_list.tqh_first; acb != NULL;
    616   1.1       oki 	     acb = acb->chain.tqe_next) {
    617   1.1       oki 		sc_link = acb->xs->sc_link;
    618   1.1       oki 		if (sc_link->scsipi_scsi.target == target &&
    619   1.1       oki 		    sc_link->scsipi_scsi.lun == lun)
    620   1.1       oki 			break;
    621   1.1       oki 	}
    622   1.1       oki 	if (acb == NULL) {
    623   1.1       oki 		printf("%s: reselect from target %d lun %d with no nexus; sending ABORT\n",
    624   1.1       oki 		    sc->sc_dev.dv_xname, target, lun);
    625   1.1       oki 		SPC_BREAK();
    626   1.1       oki 		goto abort;
    627   1.1       oki 	}
    628   1.1       oki 
    629   1.1       oki 	/* Make this nexus active again. */
    630   1.1       oki 	TAILQ_REMOVE(&sc->nexus_list, acb, chain);
    631   1.1       oki 	sc->sc_state = SPC_HASNEXUS;
    632   1.1       oki 	sc->sc_nexus = acb;
    633   1.1       oki 	ti = &sc->sc_tinfo[target];
    634   1.1       oki 	ti->lubusy |= (1 << lun);
    635   1.1       oki 	mha_setsync(sc, ti);
    636   1.1       oki 
    637   1.1       oki 	if (acb->flags & ACB_RESET)
    638   1.1       oki 		mha_sched_msgout(sc, SEND_DEV_RESET);
    639   1.1       oki 	else if (acb->flags & ACB_ABORTED)
    640   1.1       oki 		mha_sched_msgout(sc, SEND_ABORT);
    641   1.1       oki 
    642   1.1       oki 	/* Do an implicit RESTORE POINTERS. */
    643   1.1       oki 	sc->sc_dp = acb->daddr;
    644   1.1       oki 	sc->sc_dleft = acb->dleft;
    645   1.1       oki 	sc->sc_cp = (u_char *)&acb->cmd;
    646   1.1       oki 	sc->sc_cleft = acb->clen;
    647   1.1       oki 
    648   1.1       oki 	return (0);
    649   1.1       oki 
    650   1.1       oki reset:
    651   1.1       oki 	mha_sched_msgout(sc, SEND_DEV_RESET);
    652   1.1       oki 	return (1);
    653   1.1       oki 
    654   1.1       oki abort:
    655   1.1       oki 	mha_sched_msgout(sc, SEND_ABORT);
    656   1.1       oki 	return (1);
    657   1.1       oki }
    658   1.1       oki #endif
    659   1.1       oki /*
    660   1.1       oki  * Start a SCSI-command
    661   1.1       oki  * This function is called by the higher level SCSI-driver to queue/run
    662   1.1       oki  * SCSI-commands.
    663   1.1       oki  */
    664   1.1       oki int
    665   1.1       oki mha_scsi_cmd(xs)
    666   1.1       oki 	struct scsipi_xfer *xs;
    667   1.1       oki {
    668   1.1       oki 	struct scsipi_link *sc_link = xs->sc_link;
    669   1.1       oki 	struct mha_softc *sc = sc_link->adapter_softc;
    670   1.1       oki 	struct acb *acb;
    671   1.1       oki 	int s, flags;
    672   1.1       oki 
    673   1.1       oki 	SPC_TRACE(("[mha_scsi_cmd] "));
    674   1.1       oki 	SPC_CMDS(("[0x%x, %d]->%d ", (int)xs->cmd->opcode, xs->cmdlen,
    675   1.1       oki 	    sc_link->scsipi_scsi.target));
    676   1.1       oki 
    677   1.1       oki 	flags = xs->flags;
    678   1.1       oki 
    679   1.1       oki 	/* Get a mha command block */
    680   1.1       oki 	s = splbio();
    681   1.1       oki 	acb = sc->free_list.tqh_first;
    682   1.1       oki 	if (acb) {
    683   1.1       oki 		TAILQ_REMOVE(&sc->free_list, acb, chain);
    684   1.1       oki 		ACB_SETQ(acb, ACB_QNONE);
    685   1.1       oki 	}
    686   1.1       oki 	splx(s);
    687   1.1       oki 
    688   1.1       oki 	if (acb == NULL) {
    689   1.1       oki 		SPC_MISC(("TRY_AGAIN_LATER"));
    690   1.1       oki 		return TRY_AGAIN_LATER;
    691   1.1       oki 	}
    692   1.1       oki 
    693   1.1       oki 	/* Initialize acb */
    694   1.1       oki 	acb->xs = xs;
    695   1.1       oki 	bcopy(xs->cmd, &acb->cmd, xs->cmdlen);
    696   1.1       oki 	acb->clen = xs->cmdlen;
    697   1.1       oki 	acb->daddr = xs->data;
    698   1.1       oki 	acb->dleft = xs->datalen;
    699   1.1       oki 	acb->stat = 0;
    700   1.1       oki 
    701   1.1       oki 	s = splbio();
    702   1.1       oki 	ACB_SETQ(acb, ACB_QREADY);
    703   1.1       oki 	TAILQ_INSERT_TAIL(&sc->ready_list, acb, chain);
    704   1.1       oki #if 1
    705   1.1       oki 	timeout(mha_timeout, acb, (xs->timeout*hz)/1000);
    706   1.1       oki #endif
    707   1.1       oki 
    708   1.1       oki 	/*
    709   1.1       oki 	 * $B%-%e!<$N=hM}Cf$G$J$1$l$P!"%9%1%8%e!<%j%s%03+;O$9$k(B
    710   1.1       oki 	 */
    711   1.1       oki 	if (sc->sc_state == SPC_IDLE)
    712   1.1       oki 		mha_sched(sc);
    713   1.1       oki 
    714   1.1       oki 	splx(s);
    715   1.1       oki 
    716   1.1       oki 	if (flags & SCSI_POLL) {
    717   1.1       oki 		/* Not allowed to use interrupts, use polling instead */
    718   1.1       oki 		return mha_poll(sc, acb);
    719   1.1       oki 	}
    720   1.1       oki 
    721   1.1       oki 	SPC_MISC(("SUCCESSFULLY_QUEUED"));
    722   1.1       oki 	return SUCCESSFULLY_QUEUED;
    723   1.1       oki }
    724   1.1       oki 
    725   1.1       oki /*
    726   1.1       oki  * Adjust transfer size in buffer structure
    727   1.1       oki  */
    728   1.1       oki void
    729   1.1       oki mha_minphys(bp)
    730   1.1       oki 	struct buf *bp;
    731   1.1       oki {
    732   1.1       oki 
    733   1.1       oki 	SPC_TRACE(("mha_minphys  "));
    734   1.1       oki 	minphys(bp);
    735   1.1       oki }
    736   1.1       oki 
    737   1.1       oki /*
    738   1.1       oki  * Used when interrupt driven I/O isn't allowed, e.g. during boot.
    739   1.1       oki  */
    740   1.1       oki int
    741   1.1       oki mha_poll(sc, acb)
    742   1.1       oki 	struct mha_softc *sc;
    743   1.1       oki 	struct acb *acb;
    744   1.1       oki {
    745   1.1       oki 	struct scsipi_xfer *xs = acb->xs;
    746   1.1       oki 	int count = xs->timeout * 100;
    747   1.1       oki 	int s = splbio();
    748   1.1       oki 
    749   1.1       oki 	SPC_TRACE(("[mha_poll] "));
    750   1.1       oki 
    751   1.1       oki 	while (count) {
    752   1.1       oki 		/*
    753   1.1       oki 		 * If we had interrupts enabled, would we
    754   1.1       oki 		 * have got an interrupt?
    755   1.1       oki 		 */
    756   1.1       oki 		if (SSR & SS_IREQUEST)
    757   1.1       oki 			mhaintr(sc->sc_dev.dv_unit);
    758   1.1       oki 		if ((xs->flags & ITSDONE) != 0)
    759   1.1       oki 			break;
    760   1.1       oki 		DELAY(10);
    761   1.1       oki #if 1
    762   1.1       oki 		if (sc->sc_state == SPC_IDLE) {
    763   1.1       oki 			SPC_TRACE(("[mha_poll: rescheduling] "));
    764   1.1       oki 			mha_sched(sc);
    765   1.1       oki 		}
    766   1.1       oki #endif
    767   1.1       oki 		count--;
    768   1.1       oki 	}
    769   1.1       oki 
    770   1.1       oki 	if (count == 0) {
    771   1.1       oki 		SPC_MISC(("mha_poll: timeout"));
    772   1.1       oki 		mha_timeout((caddr_t)acb);
    773   1.1       oki 	}
    774   1.1       oki 	splx(s);
    775   1.1       oki 	return COMPLETE;
    776   1.1       oki }
    777   1.1       oki 
    778   1.1       oki /*
    780   1.1       oki  * LOW LEVEL SCSI UTILITIES
    781   1.1       oki  */
    782   1.1       oki 
    783   1.1       oki /*
    784   1.1       oki  * Set synchronous transfer offset and period.
    785   1.1       oki  */
    786   1.1       oki inline void
    787   1.1       oki mha_setsync(sc, ti)
    788   1.1       oki 	struct mha_softc *sc;
    789   1.1       oki 	struct spc_tinfo *ti;
    790   1.1       oki {
    791   1.1       oki }
    792   1.1       oki 
    793   1.1       oki 
    794   1.1       oki /*
    796   1.1       oki  * Schedule a SCSI operation.  This has now been pulled out of the interrupt
    797   1.1       oki  * handler so that we may call it from mha_scsi_cmd and mha_done.  This may
    798   1.1       oki  * save us an unecessary interrupt just to get things going.  Should only be
    799   1.1       oki  * called when state == SPC_IDLE and at bio pl.
    800   1.1       oki  */
    801   1.1       oki void
    802   1.1       oki mha_sched(sc)
    803   1.1       oki 	register struct mha_softc *sc;
    804   1.1       oki {
    805   1.1       oki 	struct scsipi_link *sc_link;
    806   1.1       oki 	struct acb *acb;
    807   1.1       oki 	int t;
    808   1.1       oki 
    809   1.1       oki 	SPC_TRACE(("[mha_sched] "));
    810   1.1       oki 	if (sc->sc_state != SPC_IDLE)
    811   1.1       oki 		panic("mha_sched: not IDLE (state=%d)", sc->sc_state);
    812   1.1       oki 
    813   1.1       oki 	if (sc->sc_flags & SPC_ABORTING)
    814   1.1       oki 		return;
    815   1.1       oki 
    816   1.1       oki 	/*
    817   1.1       oki 	 * Find first acb in ready queue that is for a target/lunit
    818   1.1       oki 	 * combinations that is not busy.
    819   1.1       oki 	 */
    820   1.1       oki 	for (acb = sc->ready_list.tqh_first; acb ; acb = acb->chain.tqe_next) {
    821   1.1       oki 		struct spc_tinfo *ti;
    822   1.1       oki 		sc_link = acb->xs->sc_link;
    823   1.1       oki 		t = sc_link->scsipi_scsi.target;
    824   1.1       oki 		ti = &sc->sc_tinfo[t];
    825   1.1       oki 		if (!(ti->lubusy & (1 << sc_link->scsipi_scsi.lun))) {
    826   1.1       oki 			if ((acb->flags & ACB_QBITS) != ACB_QREADY)
    827   1.1       oki 				panic("mha: busy entry on ready list");
    828   1.1       oki 			TAILQ_REMOVE(&sc->ready_list, acb, chain);
    829   1.1       oki 			ACB_SETQ(acb, ACB_QNONE);
    830   1.1       oki 			sc->sc_nexus = acb;
    831   1.1       oki 			sc->sc_flags = 0;
    832   1.1       oki 			sc->sc_prevphase = INVALID_PHASE;
    833   1.1       oki 			sc->sc_dp = acb->daddr;
    834   1.1       oki 			sc->sc_dleft = acb->dleft;
    835   1.1       oki 			ti->lubusy |= (1<<sc_link->scsipi_scsi.lun);
    836   1.1       oki 			mhaselect(sc, t, sc_link->scsipi_scsi.lun,
    837   1.1       oki 				     (u_char *)&acb->cmd, acb->clen);
    838   1.1       oki 			break;
    839   1.1       oki 		} else {
    840   1.1       oki 			SPC_MISC(("%d:%d busy\n",
    841   1.1       oki 			    sc_link->scsipi_scsi.target,
    842   1.1       oki 			    sc_link->scsipi_scsi.lun));
    843   1.1       oki 		}
    844   1.1       oki 	}
    845   1.1       oki }
    846   1.1       oki 
    847   1.1       oki void
    849   1.1       oki mha_sense(sc, acb)
    850   1.1       oki 	struct mha_softc *sc;
    851   1.1       oki 	struct acb *acb;
    852   1.1       oki {
    853   1.1       oki 	struct scsipi_xfer *xs = acb->xs;
    854   1.1       oki 	struct scsipi_link *sc_link = xs->sc_link;
    855   1.1       oki 	struct spc_tinfo *ti = &sc->sc_tinfo[sc_link->scsipi_scsi.target];
    856   1.1       oki 	struct scsipi_sense *ss = (void *)&acb->cmd;
    857   1.1       oki 
    858   1.1       oki 	SPC_MISC(("requesting sense  "));
    859   1.1       oki 	/* Next, setup a request sense command block */
    860   1.1       oki 	bzero(ss, sizeof(*ss));
    861   1.1       oki 	ss->opcode = REQUEST_SENSE;
    862   1.1       oki 	ss->byte2 = sc_link->scsipi_scsi.lun << 5;
    863   1.1       oki 	ss->length = sizeof(struct scsipi_sense_data);
    864   1.1       oki 	acb->clen = sizeof(*ss);
    865   1.1       oki 	acb->daddr = (char *)&xs->sense;
    866   1.1       oki 	acb->dleft = sizeof(struct scsipi_sense_data);
    867   1.1       oki 	acb->flags |= ACB_CHKSENSE;
    868   1.1       oki 	ti->senses++;
    869   1.1       oki 	if (acb->flags & ACB_QNEXUS)
    870   1.1       oki 		ti->lubusy &= ~(1 << sc_link->scsipi_scsi.lun);
    871   1.1       oki 	if (acb == sc->sc_nexus) {
    872   1.1       oki 		mhaselect(sc, sc_link->scsipi_scsi.target,
    873   1.1       oki 			  sc_link->scsipi_scsi.lun,
    874   1.1       oki 			     (void *)&acb->cmd, acb->clen);
    875   1.1       oki 	} else {
    876   1.1       oki 		mha_dequeue(sc, acb);
    877   1.1       oki 		TAILQ_INSERT_HEAD(&sc->ready_list, acb, chain);
    878   1.1       oki 		if (sc->sc_state == SPC_IDLE)
    879   1.1       oki 			mha_sched(sc);
    880   1.1       oki 	}
    881   1.1       oki }
    882   1.1       oki 
    883   1.1       oki /*
    884   1.1       oki  * POST PROCESSING OF SCSI_CMD (usually current)
    885   1.1       oki  */
    886   1.1       oki void
    887   1.1       oki mha_done(sc, acb)
    888   1.1       oki 	struct mha_softc *sc;
    889   1.1       oki 	struct acb *acb;
    890   1.1       oki {
    891   1.1       oki 	struct scsipi_xfer *xs = acb->xs;
    892   1.1       oki 	struct scsipi_link *sc_link = xs->sc_link;
    893   1.1       oki 	struct spc_tinfo *ti = &sc->sc_tinfo[sc_link->scsipi_scsi.target];
    894   1.1       oki 
    895   1.1       oki 	SPC_TRACE(("[mha_done(error:%x)] ", xs->error));
    896   1.1       oki 
    897   1.1       oki #if 1
    898   1.1       oki 	untimeout(mha_timeout, acb);
    899   1.1       oki #endif
    900   1.1       oki 
    901   1.1       oki 	/*
    902   1.1       oki 	 * Now, if we've come here with no error code, i.e. we've kept the
    903   1.1       oki 	 * initial XS_NOERROR, and the status code signals that we should
    904   1.1       oki 	 * check sense, we'll need to set up a request sense cmd block and
    905   1.1       oki 	 * push the command back into the ready queue *before* any other
    906   1.1       oki 	 * commands for this target/lunit, else we lose the sense info.
    907   1.1       oki 	 * We don't support chk sense conditions for the request sense cmd.
    908   1.4   msaitoh 	 */
    909   1.4   msaitoh 	if (xs->error == XS_NOERROR) {
    910   1.4   msaitoh 		if ((acb->flags & ACB_ABORTED) != 0) {
    911   1.4   msaitoh 			xs->error = XS_TIMEOUT;
    912   1.4   msaitoh 		} else if (acb->flags & ACB_CHKSENSE) {
    913   1.4   msaitoh 			xs->error = XS_SENSE;
    914   1.4   msaitoh 		} else {
    915   1.4   msaitoh 			switch (acb->stat & ST_MASK) {
    916   1.4   msaitoh 			case SCSI_CHECK:
    917   1.4   msaitoh 			{
    918   1.4   msaitoh 				struct scsipi_sense *ss = (void *)&acb->cmd;
    919   1.4   msaitoh 				SPC_MISC(("requesting sense "));
    920   1.4   msaitoh 				/* First, save the return values */
    921   1.4   msaitoh 				xs->resid = acb->dleft;
    922   1.4   msaitoh 				xs->status = acb->stat;
    923   1.4   msaitoh 				/* Next, setup a request sense command block */
    924   1.4   msaitoh 				bzero(ss, sizeof(*ss));
    925   1.4   msaitoh 				ss->opcode = REQUEST_SENSE;
    926   1.1       oki 				/*ss->byte2 = sc_link->lun << 5;*/
    927   1.4   msaitoh 				ss->length = sizeof(struct scsipi_sense_data);
    928   1.4   msaitoh 				acb->clen = sizeof(*ss);
    929   1.4   msaitoh 				acb->daddr = (char *)&xs->sense;
    930   1.4   msaitoh 				acb->dleft = sizeof(struct scsipi_sense_data);
    931   1.4   msaitoh 				acb->flags |= ACB_CHKSENSE;
    932   1.4   msaitoh /*XXX - must take off queue here */
    933   1.4   msaitoh 				if (acb != sc->sc_nexus) {
    934   1.4   msaitoh 					panic("%s: mha_sched: floating acb %p",
    935   1.4   msaitoh 						sc->sc_dev.dv_xname, acb);
    936   1.4   msaitoh 				}
    937   1.4   msaitoh 				TAILQ_INSERT_HEAD(&sc->ready_list, acb, chain);
    938   1.4   msaitoh 				ACB_SETQ(acb, ACB_QREADY);
    939   1.4   msaitoh 				ti->lubusy &= ~(1<<sc_link->scsipi_scsi.lun);
    940   1.4   msaitoh 				ti->senses++;
    941   1.4   msaitoh 				timeout(mha_timeout, acb, (xs->timeout*hz)/1000);
    942   1.4   msaitoh 				if (sc->sc_nexus == acb) {
    943   1.4   msaitoh 					sc->sc_nexus = NULL;
    944   1.4   msaitoh 					sc->sc_state = SPC_IDLE;
    945   1.1       oki 					mha_sched(sc);
    946   1.4   msaitoh 				}
    947   1.4   msaitoh #if 0
    948   1.4   msaitoh 				mha_sense(sc, acb);
    949   1.4   msaitoh #endif
    950   1.4   msaitoh 				return;
    951   1.4   msaitoh 			}
    952   1.4   msaitoh 			case SCSI_BUSY:
    953   1.4   msaitoh 				xs->error = XS_BUSY;
    954   1.4   msaitoh 				break;
    955   1.4   msaitoh 			case SCSI_OK:
    956   1.4   msaitoh 				xs->resid = acb->dleft;
    957   1.4   msaitoh 				break;
    958   1.4   msaitoh 			default:
    959   1.1       oki 				xs->error = XS_DRIVER_STUFFUP;
    960   1.1       oki #if SPC_DEBUG
    961   1.1       oki 				printf("%s: mha_done: bad stat 0x%x\n",
    962   1.1       oki 					sc->sc_dev.dv_xname, acb->stat);
    963   1.1       oki #endif
    964   1.1       oki 				break;
    965   1.1       oki 			}
    966   1.1       oki 		}
    967   1.1       oki 	}
    968   1.1       oki 
    969   1.1       oki 	xs->flags |= ITSDONE;
    970   1.4   msaitoh 
    971   1.1       oki #if SPC_DEBUG
    972   1.1       oki 	if ((mha_debug & SPC_SHOWMISC) != 0) {
    973   1.1       oki 		if (xs->resid != 0)
    974   1.1       oki 			printf("resid=%d ", xs->resid);
    975   1.1       oki 		if (xs->error == XS_SENSE)
    976   1.1       oki 			printf("sense=0x%02x\n", xs->sense.scsi_sense.error_code);
    977   1.1       oki 		else
    978   1.1       oki 			printf("error=%d\n", xs->error);
    979   1.1       oki 	}
    980   1.1       oki #endif
    981   1.1       oki 
    982   1.1       oki 	/*
    983   1.1       oki 	 * Remove the ACB from whatever queue it's on.
    984   1.1       oki 	 */
    985   1.1       oki 	switch (acb->flags & ACB_QBITS) {
    986   1.1       oki 	case ACB_QNONE:
    987   1.1       oki 		if (acb != sc->sc_nexus) {
    988   1.1       oki 			panic("%s: floating acb", sc->sc_dev.dv_xname);
    989   1.1       oki 		}
    990   1.1       oki 		sc->sc_nexus = NULL;
    991   1.1       oki 		sc->sc_state = SPC_IDLE;
    992   1.1       oki 		ti->lubusy &= ~(1<<sc_link->scsipi_scsi.lun);
    993   1.1       oki 		mha_sched(sc);
    994   1.1       oki 		break;
    995   1.1       oki 	case ACB_QREADY:
    996   1.1       oki 		TAILQ_REMOVE(&sc->ready_list, acb, chain);
    997   1.1       oki 		break;
    998   1.1       oki 	case ACB_QNEXUS:
    999   1.1       oki 		TAILQ_REMOVE(&sc->nexus_list, acb, chain);
   1000   1.1       oki 		ti->lubusy &= ~(1<<sc_link->scsipi_scsi.lun);
   1001   1.1       oki 		break;
   1002   1.1       oki 	case ACB_QFREE:
   1003   1.1       oki 		panic("%s: dequeue: busy acb on free list",
   1004   1.1       oki 			sc->sc_dev.dv_xname);
   1005   1.1       oki 		break;
   1006   1.1       oki 	default:
   1007   1.1       oki 		panic("%s: dequeue: unknown queue %d",
   1008   1.1       oki 			sc->sc_dev.dv_xname, acb->flags & ACB_QBITS);
   1009   1.1       oki 	}
   1010   1.1       oki 
   1011   1.1       oki 	/* Put it on the free list, and clear flags. */
   1012   1.1       oki #if 0
   1013   1.1       oki 	TAILQ_INSERT_HEAD(&sc->free_list, acb, chain);
   1014   1.1       oki 	acb->flags = ACB_QFREE;
   1015   1.1       oki #else
   1016   1.1       oki 	mha_free_acb(sc, acb, xs->flags);
   1017   1.1       oki #endif
   1018   1.1       oki 
   1019   1.1       oki 	ti->cmds++;
   1020   1.1       oki 	scsipi_done(xs);
   1021   1.1       oki }
   1022   1.1       oki 
   1023   1.1       oki void
   1024   1.1       oki mha_dequeue(sc, acb)
   1025   1.1       oki 	struct mha_softc *sc;
   1026   1.1       oki 	struct acb *acb;
   1027   1.1       oki {
   1028   1.1       oki 
   1029   1.1       oki 	if (acb->flags & ACB_QNEXUS) {
   1030   1.1       oki 		TAILQ_REMOVE(&sc->nexus_list, acb, chain);
   1031   1.1       oki 	} else {
   1032   1.1       oki 		TAILQ_REMOVE(&sc->ready_list, acb, chain);
   1033   1.1       oki 	}
   1034   1.1       oki }
   1035   1.1       oki 
   1036   1.1       oki /*
   1038   1.1       oki  * INTERRUPT/PROTOCOL ENGINE
   1039   1.1       oki  */
   1040   1.1       oki 
   1041   1.1       oki /*
   1042   1.1       oki  * Schedule an outgoing message by prioritizing it, and asserting
   1043   1.1       oki  * attention on the bus. We can only do this when we are the initiator
   1044   1.1       oki  * else there will be an illegal command interrupt.
   1045   1.1       oki  */
   1046   1.1       oki #define mha_sched_msgout(m) \
   1047   1.1       oki 	do {				\
   1048   1.1       oki 		SPC_MISC(("mha_sched_msgout %d ", m)); \
   1049   1.1       oki 		CMR = CMD_SET_ATN;	\
   1050   1.1       oki 		sc->sc_msgpriq |= (m);	\
   1051   1.1       oki 	} while (0)
   1052   1.1       oki 
   1053   1.1       oki #define IS1BYTEMSG(m) (((m) != 0x01 && (m) < 0x20) || (m) >= 0x80)
   1054   1.1       oki #define IS2BYTEMSG(m) (((m) & 0xf0) == 0x20)
   1055   1.1       oki #define ISEXTMSG(m) ((m) == 0x01)
   1056   1.1       oki 
   1057   1.1       oki /*
   1058   1.1       oki  * Precondition:
   1059   1.1       oki  * The SCSI bus is already in the MSGI phase and there is a message byte
   1060   1.1       oki  * on the bus, along with an asserted REQ signal.
   1061   1.1       oki  */
   1062   1.1       oki void
   1063   1.1       oki mha_msgin(sc)
   1064   1.1       oki 	register struct mha_softc *sc;
   1065   1.1       oki {
   1066   1.1       oki 	register int v;
   1067   1.1       oki 	int n;
   1068   1.1       oki 
   1069   1.1       oki 	SPC_TRACE(("[mha_msgin(curmsglen:%d)] ", sc->sc_imlen));
   1070   1.1       oki 
   1071   1.1       oki 	/*
   1072   1.1       oki 	 * Prepare for a new message.  A message should (according
   1073   1.1       oki 	 * to the SCSI standard) be transmitted in one single
   1074   1.1       oki 	 * MESSAGE_IN_PHASE. If we have been in some other phase,
   1075   1.1       oki 	 * then this is a new message.
   1076   1.1       oki 	 */
   1077   1.1       oki 	if (sc->sc_prevphase != MESSAGE_IN_PHASE) {
   1078   1.1       oki 		sc->sc_flags &= ~SPC_DROP_MSGI;
   1079   1.1       oki 		sc->sc_imlen = 0;
   1080   1.1       oki 	}
   1081   1.1       oki 
   1082   1.1       oki 	WAIT;
   1083   1.1       oki 
   1084   1.1       oki 	v = MBR;	/* modified byte */
   1085   1.1       oki 	v = sc->sc_pcx[0];
   1086   1.1       oki 
   1087   1.1       oki 	sc->sc_imess[sc->sc_imlen] = v;
   1088   1.1       oki 
   1089   1.1       oki 	/*
   1090   1.1       oki 	 * If we're going to reject the message, don't bother storing
   1091   1.1       oki 	 * the incoming bytes.  But still, we need to ACK them.
   1092   1.1       oki 	 */
   1093   1.1       oki 
   1094   1.1       oki 	if ((sc->sc_flags & SPC_DROP_MSGI)) {
   1095   1.1       oki 		CMR = CMD_SET_ATN;
   1096   1.1       oki /*		ESPCMD(sc, ESPCMD_MSGOK);*/
   1097   1.1       oki 		printf("<dropping msg byte %x>",
   1098   1.1       oki 			sc->sc_imess[sc->sc_imlen]);
   1099   1.1       oki 		return;
   1100   1.1       oki 	}
   1101   1.1       oki 
   1102   1.1       oki 	if (sc->sc_imlen >= SPC_MAX_MSG_LEN) {
   1103   1.1       oki 		mha_sched_msgout(SEND_REJECT);
   1104   1.1       oki 		sc->sc_flags |= SPC_DROP_MSGI;
   1105   1.1       oki 	} else {
   1106   1.1       oki 		sc->sc_imlen++;
   1107   1.1       oki 		/*
   1108   1.1       oki 		 * This testing is suboptimal, but most
   1109   1.1       oki 		 * messages will be of the one byte variety, so
   1110   1.1       oki 		 * it should not effect performance
   1111   1.1       oki 		 * significantly.
   1112   1.1       oki 		 */
   1113   1.1       oki 		if (sc->sc_imlen == 1 && IS1BYTEMSG(sc->sc_imess[0]))
   1114   1.1       oki 			goto gotit;
   1115   1.1       oki 		if (sc->sc_imlen == 2 && IS2BYTEMSG(sc->sc_imess[0]))
   1116   1.1       oki 			goto gotit;
   1117   1.1       oki 		if (sc->sc_imlen >= 3 && ISEXTMSG(sc->sc_imess[0]) &&
   1118   1.1       oki 		    sc->sc_imlen == sc->sc_imess[1] + 2)
   1119   1.1       oki 			goto gotit;
   1120   1.1       oki 	}
   1121   1.1       oki #if 0
   1122   1.1       oki 	/* Ack what we have so far */
   1123   1.1       oki 	ESPCMD(sc, ESPCMD_MSGOK);
   1124   1.1       oki #endif
   1125   1.1       oki 	return;
   1126   1.1       oki 
   1127   1.1       oki gotit:
   1128   1.1       oki 	SPC_MSGS(("gotmsg(%x)", sc->sc_imess[0]));
   1129   1.1       oki 	/*
   1130   1.1       oki 	 * Now we should have a complete message (1 byte, 2 byte
   1131   1.1       oki 	 * and moderately long extended messages).  We only handle
   1132   1.1       oki 	 * extended messages which total length is shorter than
   1133   1.1       oki 	 * SPC_MAX_MSG_LEN.  Longer messages will be amputated.
   1134   1.1       oki 	 */
   1135   1.1       oki 	if (sc->sc_state == SPC_HASNEXUS) {
   1136   1.1       oki 		struct acb *acb = sc->sc_nexus;
   1137   1.1       oki 		struct spc_tinfo *ti =
   1138   1.1       oki 			&sc->sc_tinfo[acb->xs->sc_link->scsipi_scsi.target];
   1139   1.1       oki 
   1140   1.1       oki 		switch (sc->sc_imess[0]) {
   1141   1.1       oki 		case MSG_CMDCOMPLETE:
   1142   1.1       oki 			SPC_MSGS(("cmdcomplete "));
   1143   1.1       oki 			if (sc->sc_dleft < 0) {
   1144   1.1       oki 				struct scsipi_link *sc_link = acb->xs->sc_link;
   1145   1.1       oki 				printf("mha: %d extra bytes from %d:%d\n",
   1146   1.1       oki 					-sc->sc_dleft,
   1147   1.1       oki 					sc_link->scsipi_scsi.target,
   1148   1.1       oki 				        sc_link->scsipi_scsi.lun);
   1149   1.1       oki 				sc->sc_dleft = 0;
   1150   1.1       oki 			}
   1151   1.1       oki 			acb->xs->resid = acb->dleft = sc->sc_dleft;
   1152   1.1       oki 			sc->sc_flags |= SPC_BUSFREE_OK;
   1153   1.1       oki 			break;
   1154   1.1       oki 
   1155   1.1       oki 		case MSG_MESSAGE_REJECT:
   1156   1.1       oki #if SPC_DEBUG
   1157   1.1       oki 			if (mha_debug & SPC_SHOWMSGS)
   1158   1.1       oki 				printf("%s: our msg rejected by target\n",
   1159   1.1       oki 					sc->sc_dev.dv_xname);
   1160   1.1       oki #endif
   1161   1.1       oki #if 1 /* XXX - must remember last message */
   1162   1.1       oki scsi_print_addr(acb->xs->sc_link); printf("MSG_MESSAGE_REJECT>>");
   1163   1.1       oki #endif
   1164   1.1       oki 			if (sc->sc_flags & SPC_SYNCHNEGO) {
   1165   1.1       oki 				ti->period = ti->offset = 0;
   1166   1.1       oki 				sc->sc_flags &= ~SPC_SYNCHNEGO;
   1167   1.1       oki 				ti->flags &= ~T_NEGOTIATE;
   1168   1.1       oki 			}
   1169   1.1       oki 			/* Not all targets understand INITIATOR_DETECTED_ERR */
   1170   1.1       oki 			if (sc->sc_msgout == SEND_INIT_DET_ERR)
   1171   1.1       oki 				mha_sched_msgout(SEND_ABORT);
   1172   1.1       oki 			break;
   1173   1.1       oki 		case MSG_NOOP:
   1174   1.1       oki 			SPC_MSGS(("noop "));
   1175   1.1       oki 			break;
   1176   1.1       oki 		case MSG_DISCONNECT:
   1177   1.1       oki 			SPC_MSGS(("disconnect "));
   1178   1.1       oki 			ti->dconns++;
   1179   1.1       oki 			sc->sc_flags |= SPC_DISCON;
   1180   1.1       oki 			sc->sc_flags |= SPC_BUSFREE_OK;
   1181   1.1       oki 			if ((acb->xs->sc_link->quirks & SDEV_AUTOSAVE) == 0)
   1182   1.1       oki 				break;
   1183   1.1       oki 			/*FALLTHROUGH*/
   1184   1.1       oki 		case MSG_SAVEDATAPOINTER:
   1185   1.1       oki 			SPC_MSGS(("save datapointer "));
   1186   1.1       oki 			acb->dleft = sc->sc_dleft;
   1187   1.1       oki 			acb->daddr = sc->sc_dp;
   1188   1.1       oki 			break;
   1189   1.1       oki 		case MSG_RESTOREPOINTERS:
   1190   1.1       oki 			SPC_MSGS(("restore datapointer "));
   1191   1.1       oki 			if (!acb) {
   1192   1.1       oki 				mha_sched_msgout(SEND_ABORT);
   1193   1.1       oki 				printf("%s: no DATAPOINTERs to restore\n",
   1194   1.1       oki 				    sc->sc_dev.dv_xname);
   1195   1.1       oki 				break;
   1196   1.1       oki 			}
   1197   1.1       oki 			sc->sc_dp = acb->daddr;
   1198   1.1       oki 			sc->sc_dleft = acb->dleft;
   1199   1.1       oki 			break;
   1200   1.1       oki 		case MSG_PARITY_ERROR:
   1201   1.1       oki 			printf("%s:target%d: MSG_PARITY_ERROR\n",
   1202   1.1       oki 				sc->sc_dev.dv_xname,
   1203   1.1       oki 				acb->xs->sc_link->scsipi_scsi.target);
   1204   1.1       oki 			break;
   1205   1.1       oki 		case MSG_EXTENDED:
   1206   1.1       oki 			SPC_MSGS(("extended(%x) ", sc->sc_imess[2]));
   1207   1.1       oki 			switch (sc->sc_imess[2]) {
   1208   1.1       oki 			case MSG_EXT_SDTR:
   1209   1.1       oki 				SPC_MSGS(("SDTR period %d, offset %d ",
   1210   1.1       oki 					sc->sc_imess[3], sc->sc_imess[4]));
   1211   1.1       oki 				ti->period = sc->sc_imess[3];
   1212   1.1       oki 				ti->offset = sc->sc_imess[4];
   1213   1.1       oki 				if (sc->sc_minsync == 0) {
   1214   1.1       oki 					/* We won't do synch */
   1215   1.1       oki 					ti->offset = 0;
   1216   1.1       oki 					mha_sched_msgout(SEND_SDTR);
   1217   1.1       oki 				} else if (ti->offset == 0) {
   1218   1.1       oki 					printf("%s:%d: async\n", "mha",
   1219   1.1       oki 						acb->xs->sc_link->scsipi_scsi.target);
   1220   1.1       oki 					ti->offset = 0;
   1221   1.1       oki 					sc->sc_flags &= ~SPC_SYNCHNEGO;
   1222   1.1       oki 				} else if (ti->period > 124) {
   1223   1.1       oki 					printf("%s:%d: async\n", "mha",
   1224   1.1       oki 						acb->xs->sc_link->scsipi_scsi.target);
   1225   1.1       oki 					ti->offset = 0;
   1226   1.1       oki 					mha_sched_msgout(SEND_SDTR);
   1227   1.1       oki 				} else {
   1228   1.1       oki 					int r = 250/ti->period;
   1229   1.4   msaitoh 					int s = (100*250)/ti->period - 100*r;
   1230   1.1       oki 					int p;
   1231   1.1       oki #if 0
   1232   1.1       oki 					p =  mha_stp2cpb(sc, ti->period);
   1233   1.1       oki 					ti->period = mha_cpb2stp(sc, p);
   1234   1.1       oki #endif
   1235   1.1       oki 
   1236   1.4   msaitoh #if SPC_DEBUG
   1237   1.1       oki 					scsi_print_addr(acb->xs->sc_link);
   1238   1.1       oki #endif
   1239   1.1       oki 					if ((sc->sc_flags&SPC_SYNCHNEGO) == 0) {
   1240   1.1       oki 						/* Target initiated negotiation */
   1241   1.1       oki 						if (ti->flags & T_SYNCMODE) {
   1242   1.1       oki 						    ti->flags &= ~T_SYNCMODE;
   1243   1.1       oki #if SPC_DEBUG
   1244   1.1       oki 						    printf("renegotiated ");
   1245   1.1       oki #endif
   1246   1.1       oki 						}
   1247   1.1       oki 						TMR=TM_ASYNC;
   1248   1.1       oki 						/* Clamp to our maxima */
   1249   1.1       oki 						if (ti->period < sc->sc_minsync)
   1250   1.1       oki 							ti->period = sc->sc_minsync;
   1251   1.1       oki 						if (ti->offset > 15)
   1252   1.1       oki 							ti->offset = 15;
   1253   1.4   msaitoh 						mha_sched_msgout(SEND_SDTR);
   1254   1.1       oki 					} else {
   1255   1.1       oki 						/* we are sync */
   1256   1.1       oki 						sc->sc_flags &= ~SPC_SYNCHNEGO;
   1257   1.1       oki 						TMR = TM_SYNC;
   1258   1.1       oki 						ti->flags |= T_SYNCMODE;
   1259   1.1       oki 					}
   1260   1.1       oki #if SPC_DEBUG
   1261   1.1       oki 					printf("max sync rate %d.%02dMb/s\n",
   1262   1.1       oki 						r, s);
   1263   1.1       oki #endif
   1264   1.1       oki 				}
   1265   1.1       oki 				ti->flags &= ~T_NEGOTIATE;
   1266   1.1       oki 				break;
   1267   1.1       oki 			default: /* Extended messages we don't handle */
   1268   1.1       oki 				CMR = CMD_SET_ATN; /* XXX? */
   1269   1.1       oki 				break;
   1270   1.1       oki 			}
   1271   1.1       oki 			break;
   1272   1.1       oki 		default:
   1273   1.1       oki 			SPC_MSGS(("ident "));
   1274   1.1       oki 			/* thanks for that ident... */
   1275   1.1       oki 			if (!MSG_ISIDENTIFY(sc->sc_imess[0])) {
   1276   1.1       oki 				SPC_MISC(("unknown "));
   1277   1.1       oki printf("%s: unimplemented message: %d\n", sc->sc_dev.dv_xname, sc->sc_imess[0]);
   1278   1.1       oki 				CMR = CMD_SET_ATN; /* XXX? */
   1279   1.1       oki 			}
   1280   1.1       oki 			break;
   1281   1.1       oki 		}
   1282   1.1       oki 	} else if (sc->sc_state == SPC_RESELECTED) {
   1283   1.1       oki 		struct scsipi_link *sc_link = NULL;
   1284   1.1       oki 		struct acb *acb;
   1285   1.1       oki 		struct spc_tinfo *ti;
   1286   1.1       oki 		u_char lunit;
   1287   1.1       oki 
   1288   1.1       oki 		if (MSG_ISIDENTIFY(sc->sc_imess[0])) { 	/* Identify? */
   1289   1.1       oki 			SPC_MISC(("searching "));
   1290   1.1       oki 			/*
   1291   1.1       oki 			 * Search wait queue for disconnected cmd
   1292   1.1       oki 			 * The list should be short, so I haven't bothered with
   1293   1.1       oki 			 * any more sophisticated structures than a simple
   1294   1.1       oki 			 * singly linked list.
   1295   1.1       oki 			 */
   1296   1.1       oki 			lunit = sc->sc_imess[0] & 0x07;
   1297   1.1       oki 			for (acb = sc->nexus_list.tqh_first; acb;
   1298   1.1       oki 			     acb = acb->chain.tqe_next) {
   1299   1.1       oki 				sc_link = acb->xs->sc_link;
   1300   1.1       oki 				if (sc_link->scsipi_scsi.lun == lunit &&
   1301   1.1       oki 				    sc->sc_selid == (1<<sc_link->scsipi_scsi.target)) {
   1302   1.1       oki 					TAILQ_REMOVE(&sc->nexus_list, acb,
   1303   1.1       oki 					    chain);
   1304   1.1       oki 					ACB_SETQ(acb, ACB_QNONE);
   1305   1.1       oki 					break;
   1306   1.1       oki 				}
   1307   1.1       oki 			}
   1308   1.1       oki 
   1309   1.1       oki 			if (!acb) {		/* Invalid reselection! */
   1310   1.1       oki 				mha_sched_msgout(SEND_ABORT);
   1311   1.1       oki 				printf("mmespc: invalid reselect (idbit=0x%2x)\n",
   1312   1.1       oki 				    sc->sc_selid);
   1313   1.1       oki 			} else {		/* Reestablish nexus */
   1314   1.1       oki 				/*
   1315   1.1       oki 				 * Setup driver data structures and
   1316   1.1       oki 				 * do an implicit RESTORE POINTERS
   1317   1.1       oki 				 */
   1318   1.1       oki 				ti = &sc->sc_tinfo[sc_link->scsipi_scsi.target];
   1319   1.1       oki 				sc->sc_nexus = acb;
   1320   1.1       oki 				sc->sc_dp = acb->daddr;
   1321   1.1       oki 				sc->sc_dleft = acb->dleft;
   1322   1.1       oki 				sc->sc_tinfo[sc_link->scsipi_scsi.target].lubusy
   1323   1.1       oki 					|= (1<<sc_link->scsipi_scsi.lun);
   1324   1.1       oki 				if (ti->flags & T_SYNCMODE) {
   1325   1.1       oki 					TMR = TM_SYNC;	/* XXX */
   1326   1.1       oki 				} else {
   1327   1.1       oki 					TMR = TM_ASYNC;
   1328   1.1       oki 				}
   1329   1.1       oki 				SPC_MISC(("... found acb"));
   1330   1.1       oki 				sc->sc_state = SPC_HASNEXUS;
   1331   1.1       oki 			}
   1332   1.1       oki 		} else {
   1333   1.1       oki 			printf("%s: bogus reselect (no IDENTIFY) %0x2x\n",
   1334   1.1       oki 			    sc->sc_dev.dv_xname, sc->sc_selid);
   1335   1.1       oki 			mha_sched_msgout(SEND_DEV_RESET);
   1336   1.1       oki 		}
   1337   1.1       oki 	} else { /* Neither SPC_HASNEXUS nor SPC_RESELECTED! */
   1338   1.1       oki 		printf("%s: unexpected message in; will send DEV_RESET\n",
   1339   1.1       oki 		    sc->sc_dev.dv_xname);
   1340   1.1       oki 		mha_sched_msgout(SEND_DEV_RESET);
   1341   1.1       oki 	}
   1342   1.1       oki 
   1343   1.1       oki 	/* Ack last message byte */
   1344   1.1       oki #if 0
   1345   1.1       oki 	ESPCMD(sc, ESPCMD_MSGOK);
   1346   1.1       oki #endif
   1347   1.1       oki 
   1348   1.1       oki 	/* Done, reset message pointer. */
   1349   1.1       oki 	sc->sc_flags &= ~SPC_DROP_MSGI;
   1350   1.1       oki 	sc->sc_imlen = 0;
   1351   1.1       oki }
   1352   1.1       oki 
   1353   1.1       oki /*
   1354   1.1       oki  * Send the highest priority, scheduled message.
   1355   1.1       oki  */
   1356   1.1       oki void
   1357   1.1       oki mha_msgout(sc)
   1358   1.1       oki 	register struct mha_softc *sc;
   1359   1.1       oki {
   1360   1.1       oki 	struct spc_tinfo *ti;
   1361   1.1       oki 	int n;
   1362   1.1       oki 
   1363   1.1       oki 	SPC_TRACE(("mha_msgout  "));
   1364   1.1       oki 
   1365   1.1       oki 	if (sc->sc_prevphase == MESSAGE_OUT_PHASE) {
   1366   1.1       oki 		if (sc->sc_omp == sc->sc_omess) {
   1367   1.1       oki 			/*
   1368   1.1       oki 			 * This is a retransmission.
   1369   1.1       oki 			 *
   1370   1.1       oki 			 * We get here if the target stayed in MESSAGE OUT
   1371   1.1       oki 			 * phase.  Section 5.1.9.2 of the SCSI 2 spec indicates
   1372   1.1       oki 			 * that all of the previously transmitted messages must
   1373   1.1       oki 			 * be sent again, in the same order.  Therefore, we
   1374   1.1       oki 			 * requeue all the previously transmitted messages, and
   1375   1.1       oki 			 * start again from the top.  Our simple priority
   1376   1.1       oki 			 * scheme keeps the messages in the right order.
   1377   1.1       oki 			 */
   1378   1.1       oki 			SPC_MISC(("retransmitting  "));
   1379   1.1       oki 			sc->sc_msgpriq |= sc->sc_msgoutq;
   1380   1.1       oki 			/*
   1381   1.1       oki 			 * Set ATN.  If we're just sending a trivial 1-byte
   1382   1.1       oki 			 * message, we'll clear ATN later on anyway.
   1383   1.1       oki 			 */
   1384   1.1       oki 			CMR = CMD_SET_ATN; /* XXX? */
   1385   1.1       oki 		} else {
   1386   1.1       oki 			/* This is a continuation of the previous message. */
   1387   1.1       oki 			n = sc->sc_omp - sc->sc_omess;
   1388   1.1       oki 			goto nextbyte;
   1389   1.1       oki 		}
   1390   1.1       oki 	}
   1391   1.1       oki 
   1392   1.1       oki 	/* No messages transmitted so far. */
   1393   1.1       oki 	sc->sc_msgoutq = 0;
   1394   1.1       oki 	sc->sc_lastmsg = 0;
   1395   1.1       oki 
   1396   1.1       oki nextmsg:
   1397   1.1       oki 	/* Pick up highest priority message. */
   1398   1.1       oki 	sc->sc_currmsg = sc->sc_msgpriq & -sc->sc_msgpriq;
   1399   1.1       oki 	sc->sc_msgpriq &= ~sc->sc_currmsg;
   1400   1.1       oki 	sc->sc_msgoutq |= sc->sc_currmsg;
   1401   1.1       oki 
   1402   1.1       oki 	/* Build the outgoing message data. */
   1403   1.1       oki 	switch (sc->sc_currmsg) {
   1404   1.1       oki 	case SEND_IDENTIFY:
   1405   1.1       oki 		SPC_ASSERT(sc->sc_nexus != NULL);
   1406   1.1       oki 		sc->sc_omess[0] =
   1407   1.1       oki 		    MSG_IDENTIFY(sc->sc_nexus->xs->sc_link->scsipi_scsi.lun, 1);
   1408   1.1       oki 		n = 1;
   1409   1.1       oki 		break;
   1410   1.1       oki 
   1411   1.1       oki #if SPC_USE_SYNCHRONOUS
   1412   1.1       oki 	case SEND_SDTR:
   1413   1.1       oki 		SPC_ASSERT(sc->sc_nexus != NULL);
   1414   1.1       oki 		ti = &sc->sc_tinfo[sc->sc_nexus->xs->sc_link->scsipi_scsi.target];
   1415   1.1       oki 		sc->sc_omess[4] = MSG_EXTENDED;
   1416   1.1       oki 		sc->sc_omess[3] = 3;
   1417   1.1       oki 		sc->sc_omess[2] = MSG_EXT_SDTR;
   1418   1.1       oki 		sc->sc_omess[1] = ti->period >> 2;
   1419   1.1       oki 		sc->sc_omess[0] = ti->offset;
   1420   1.1       oki 		n = 5;
   1421   1.1       oki 		break;
   1422   1.1       oki #endif
   1423   1.1       oki 
   1424   1.1       oki #if SPC_USE_WIDE
   1425   1.1       oki 	case SEND_WDTR:
   1426   1.1       oki 		SPC_ASSERT(sc->sc_nexus != NULL);
   1427   1.1       oki 		ti = &sc->sc_tinfo[sc->sc_nexus->xs->sc_link->scsipi_scsi.target];
   1428   1.1       oki 		sc->sc_omess[3] = MSG_EXTENDED;
   1429   1.1       oki 		sc->sc_omess[2] = 2;
   1430   1.1       oki 		sc->sc_omess[1] = MSG_EXT_WDTR;
   1431   1.1       oki 		sc->sc_omess[0] = ti->width;
   1432   1.1       oki 		n = 4;
   1433   1.1       oki 		break;
   1434   1.1       oki #endif
   1435   1.1       oki 
   1436   1.1       oki 	case SEND_DEV_RESET:
   1437   1.1       oki 		sc->sc_flags |= SPC_ABORTING;
   1438   1.1       oki 		sc->sc_omess[0] = MSG_BUS_DEV_RESET;
   1439   1.1       oki 		n = 1;
   1440   1.1       oki 		break;
   1441   1.1       oki 
   1442   1.1       oki 	case SEND_REJECT:
   1443   1.1       oki 		sc->sc_omess[0] = MSG_MESSAGE_REJECT;
   1444   1.1       oki 		n = 1;
   1445   1.1       oki 		break;
   1446   1.1       oki 
   1447   1.1       oki 	case SEND_PARITY_ERROR:
   1448   1.1       oki 		sc->sc_omess[0] = MSG_PARITY_ERROR;
   1449   1.1       oki 		n = 1;
   1450   1.1       oki 		break;
   1451   1.1       oki 
   1452   1.1       oki 	case SEND_INIT_DET_ERR:
   1453   1.1       oki 		sc->sc_omess[0] = MSG_INITIATOR_DET_ERR;
   1454   1.1       oki 		n = 1;
   1455   1.1       oki 		break;
   1456   1.1       oki 
   1457   1.1       oki 	case SEND_ABORT:
   1458   1.1       oki 		sc->sc_flags |= SPC_ABORTING;
   1459   1.1       oki 		sc->sc_omess[0] = MSG_ABORT;
   1460   1.1       oki 		n = 1;
   1461   1.1       oki 		break;
   1462   1.1       oki 
   1463   1.1       oki 	default:
   1464   1.1       oki 		printf("%s: unexpected MESSAGE OUT; sending NOOP\n",
   1465   1.1       oki 		    sc->sc_dev.dv_xname);
   1466   1.1       oki 		SPC_BREAK();
   1467   1.1       oki 		sc->sc_omess[0] = MSG_NOOP;
   1468   1.1       oki 		n = 1;
   1469   1.1       oki 		break;
   1470   1.1       oki 	}
   1471   1.1       oki 	sc->sc_omp = &sc->sc_omess[n];
   1472   1.1       oki 
   1473   1.1       oki nextbyte:
   1474   1.1       oki 	/* Send message bytes. */
   1475   1.1       oki 	/* send TRANSFER command. */
   1476   1.1       oki 	sc->sc_ps[3] = 1;
   1477   1.1       oki 	sc->sc_ps[4] = n >> 8;
   1478   1.1       oki 	sc->sc_pc[10] = n;
   1479   1.1       oki 	sc->sc_ps[-1] = 0x000F;	/* burst */
   1480   1.1       oki 	asm volatile ("nop");
   1481   1.1       oki 	CMR = CMD_SEND_FROM_DMA;	/* send from DMA */
   1482   1.1       oki 	for (;;) {
   1483   1.1       oki 		if ((SSR & SS_BUSY) != 0)
   1484   1.1       oki 			break;
   1485   1.1       oki 		if (SSR & SS_IREQUEST)
   1486   1.1       oki 			goto out;
   1487   1.1       oki 	}
   1488   1.1       oki 	for (;;) {
   1489   1.1       oki #if 0
   1490   1.1       oki 		for (;;) {
   1491   1.1       oki 			if ((PSNS & PSNS_REQ) != 0)
   1492   1.1       oki 				break;
   1493   1.1       oki 			/* Wait for REQINIT.  XXX Need timeout. */
   1494   1.1       oki 		}
   1495   1.1       oki #endif
   1496   1.1       oki 		if (SSR & SS_IREQUEST) {
   1497   1.1       oki 			/*
   1498   1.1       oki 			 * Target left MESSAGE OUT, possibly to reject
   1499   1.1       oki 			 * our message.
   1500   1.1       oki 			 *
   1501   1.1       oki 			 * If this is the last message being sent, then we
   1502   1.1       oki 			 * deassert ATN, since either the target is going to
   1503   1.1       oki 			 * ignore this message, or it's going to ask for a
   1504   1.1       oki 			 * retransmission via MESSAGE PARITY ERROR (in which
   1505   1.1       oki 			 * case we reassert ATN anyway).
   1506   1.1       oki 			 */
   1507   1.1       oki #if 0
   1508   1.1       oki 			if (sc->sc_msgpriq == 0)
   1509   1.1       oki 				CMR = CMD_RESET_ATN;
   1510   1.1       oki #endif
   1511   1.1       oki 			goto out;
   1512   1.1       oki 		}
   1513   1.1       oki 
   1514   1.1       oki #if 0
   1515   1.1       oki 		/* Clear ATN before last byte if this is the last message. */
   1516   1.1       oki 		if (n == 1 && sc->sc_msgpriq == 0)
   1517   1.1       oki 			CMR = CMD_RESET_ATN;
   1518   1.1       oki #endif
   1519   1.1       oki 
   1520   1.1       oki 		while ((SSR & SS_DREG_FULL) != 0)
   1521   1.1       oki 			;
   1522   1.1       oki 		/* Send message byte. */
   1523   1.1       oki 		sc->sc_pc[0] = *--sc->sc_omp;
   1524   1.1       oki 		--n;
   1525   1.1       oki 		/* Keep track of the last message we've sent any bytes of. */
   1526   1.1       oki 		sc->sc_lastmsg = sc->sc_currmsg;
   1527   1.1       oki 
   1528   1.1       oki 		if (n == 0)
   1529   1.1       oki 			break;
   1530   1.1       oki 	}
   1531   1.1       oki 
   1532   1.1       oki 	/* We get here only if the entire message has been transmitted. */
   1533   1.1       oki 	if (sc->sc_msgpriq != 0) {
   1534   1.1       oki 		/* There are more outgoing messages. */
   1535   1.1       oki 		goto nextmsg;
   1536   1.1       oki 	}
   1537   1.1       oki 
   1538   1.1       oki 	/*
   1539   1.1       oki 	 * The last message has been transmitted.  We need to remember the last
   1540   1.1       oki 	 * message transmitted (in case the target switches to MESSAGE IN phase
   1541   1.1       oki 	 * and sends a MESSAGE REJECT), and the list of messages transmitted
   1542   1.1       oki 	 * this time around (in case the target stays in MESSAGE OUT phase to
   1543   1.1       oki 	 * request a retransmit).
   1544   1.1       oki 	 */
   1545   1.1       oki 
   1546   1.1       oki out:
   1547   1.1       oki 	/* Disable REQ/ACK protocol. */
   1548   1.1       oki }
   1549   1.1       oki 
   1550   1.1       oki 
   1551   1.1       oki /***************************************************************
   1553   1.1       oki  *
   1554   1.1       oki  *	datain/dataout
   1555   1.1       oki  *
   1556   1.1       oki  */
   1557   1.1       oki 
   1558   1.1       oki int
   1559   1.1       oki mha_datain_pio(sc, p, n)
   1560   1.1       oki 	register struct mha_softc *sc;
   1561   1.1       oki 	u_char *p;
   1562   1.1       oki 	int n;
   1563   1.1       oki {
   1564   1.1       oki 	u_short d;
   1565   1.1       oki 	int a;
   1566   1.1       oki 	int total_n = n;
   1567   1.1       oki 
   1568   1.1       oki 	SPC_TRACE(("[mha_datain_pio(%x,%d)", p, n));
   1569   1.1       oki 
   1570   1.1       oki 	WAIT;
   1571   1.1       oki 	sc->sc_ps[3] = 1;
   1572   1.1       oki 	sc->sc_ps[4] = n >> 8;
   1573   1.1       oki 	sc->sc_pc[10] = n;
   1574   1.1       oki 	/* $BHa$7$-%=%U%HE>Aw(B */
   1575   1.1       oki 	CMR = CMD_RECEIVE_TO_MPU;
   1576   1.1       oki 	for (;;) {
   1577   1.1       oki 		a = SSR;
   1578   1.1       oki 		if (a & 0x04) {
   1579   1.1       oki 			d = sc->sc_ps[0];
   1580   1.1       oki 			*p++ = d >> 8;
   1581   1.1       oki 			if (--n > 0) {
   1582   1.1       oki 				*p++ = d;
   1583   1.1       oki 				--n;
   1584   1.1       oki 			}
   1585   1.1       oki 			a = SSR;
   1586   1.1       oki 		}
   1587   1.1       oki 		if (a & 0x40)
   1588   1.1       oki 			continue;
   1589   1.1       oki 		if (a & 0x80)
   1590   1.1       oki 			break;
   1591   1.1       oki 	}
   1592   1.1       oki 	SPC_TRACE(("...%d resd]", n));
   1593   1.1       oki 	return total_n - n;
   1594   1.1       oki }
   1595   1.1       oki 
   1596   1.1       oki int
   1597   1.1       oki mha_dataout_pio(sc, p, n)
   1598   1.1       oki 	register struct mha_softc *sc;
   1599   1.1       oki 	u_char *p;
   1600   1.1       oki 	int n;
   1601   1.1       oki {
   1602   1.1       oki 	u_short d;
   1603   1.1       oki 	int a;
   1604   1.1       oki 	int total_n = n;
   1605   1.1       oki 
   1606   1.1       oki 	SPC_TRACE(("[mha_dataout_pio(%x,%d)", p, n));
   1607   1.1       oki 
   1608   1.1       oki 	WAIT;
   1609   1.1       oki 	sc->sc_ps[3] = 1;
   1610   1.1       oki 	sc->sc_ps[4] = n >> 8;
   1611   1.1       oki 	sc->sc_pc[10] = n;
   1612   1.1       oki 	/* $BHa$7$-%=%U%HE>Aw(B */
   1613   1.1       oki 	CMR = CMD_SEND_FROM_MPU;
   1614   1.1       oki 	for (;;) {
   1615   1.1       oki 		a = SSR;
   1616   1.1       oki 		if (a & 0x04) {
   1617   1.1       oki 			d = *p++ << 8;
   1618   1.1       oki 			if (--n > 0) {
   1619   1.1       oki 				d |= *p++;
   1620   1.1       oki 				--n;
   1621   1.1       oki 			}
   1622   1.1       oki 			sc->sc_ps[0] = d;
   1623   1.1       oki 			a = SSR;
   1624   1.1       oki 		}
   1625   1.1       oki 		if (a & 0x40)
   1626   1.1       oki 			continue;
   1627   1.1       oki 		if (a & 0x80)
   1628   1.1       oki 			break;
   1629   1.1       oki 	}
   1630   1.1       oki 	SPC_TRACE(("...%d resd]", n));
   1631   1.1       oki 	return total_n - n;
   1632   1.1       oki }
   1633   1.1       oki 
   1634   1.1       oki static int
   1635   1.1       oki mha_dataio_dma(dw, cw, sc, p, n)
   1636   1.1       oki 	int dw;		/* DMA word */
   1637   1.1       oki 	int cw;		/* CMR word */
   1638   1.1       oki 	register struct mha_softc *sc;
   1639   1.4   msaitoh 	u_char *p;
   1640   1.7   minoura 	int n;
   1641   1.4   msaitoh {
   1642   1.4   msaitoh   int ts;
   1643   1.4   msaitoh   char *paddr, *vaddr;
   1644   1.4   msaitoh 
   1645   1.4   msaitoh   vaddr = p;
   1646   1.4   msaitoh   paddr = (char *)kvtop(vaddr);
   1647   1.7   minoura #if MHA_DMA_SHORT_BUS_CYCLE == 1
   1648   1.4   msaitoh   if ((*(int *)&IODEVbase->io_sram[0xac]) & (1 << ((paddr_t)paddr >> 19)))
   1649   1.1       oki     dw &= ~(1 << 3);
   1650   1.1       oki #endif
   1651   1.1       oki #if defined(M68040) || defined(M68060)
   1652   1.4   msaitoh #if defined(M68020) || defined(M68030)
   1653   1.4   msaitoh   if (mmutype == MMU_68040)
   1654   1.4   msaitoh #endif
   1655   1.4   msaitoh     DCFP((paddr_t)paddr);	/* XXX */
   1656   1.7   minoura #endif
   1657   1.4   msaitoh   for (ts = (NBPG - ((long)vaddr & PGOFSET));
   1658   1.4   msaitoh        ts < n && (char *)kvtop(vaddr + ts + 4) == paddr + ts + 4;
   1659   1.4   msaitoh        ts += NBPG)
   1660   1.1       oki #if defined(M68040) || defined(M68060)
   1661   1.1       oki #if defined(M68020) || defined(M68030)
   1662   1.1       oki     if (mmutype == MMU_68040)
   1663   1.1       oki #endif
   1664   1.1       oki       DCFP((paddr_t)paddr + ts);
   1665   1.1       oki #else
   1666   1.1       oki     ;
   1667   1.1       oki #endif
   1668   1.1       oki   if (ts > n)
   1669   1.1       oki     ts = n;
   1670   1.1       oki #if 0
   1671   1.1       oki   printf("(%x,%x)->(%x,%x)\n", p, n, paddr, ts);
   1672   1.1       oki   PCIA();	/* XXX */
   1673   1.1       oki #endif
   1674   1.1       oki   sc->sc_pc[0x80 + (((long)paddr >> 16) & 0xFF)] = 0;
   1675   1.1       oki   sc->sc_pc[0x180 + (((long)paddr >> 8) & 0xFF)] = 0;
   1676   1.1       oki   sc->sc_pc[0x280 + (((long)paddr >> 0) & 0xFF)] = 0;
   1677   1.1       oki   WAIT;
   1678   1.1       oki   sc->sc_ps[3] = 1;
   1679   1.1       oki   sc->sc_ps[4] = ts >> 8;
   1680   1.1       oki   sc->sc_pc[10] = ts;
   1681   1.1       oki   /* DMA $BE>Aw@)8f$O0J2<$NDL$j!#(B
   1682   1.1       oki      3 ... short bus cycle
   1683   1.1       oki      2 ... MAXIMUM XFER.
   1684   1.1       oki      1 ... BURST XFER.
   1685   1.1       oki      0 ... R/W */
   1686   1.1       oki   sc->sc_ps[-1] = dw;	/* burst */
   1687   1.1       oki   asm volatile ("nop");
   1688   1.1       oki   CMR = cw;	/* receive to DMA */
   1689   1.1       oki   return ts;
   1690   1.1       oki }
   1691   1.1       oki int
   1692   1.1       oki mha_dataout(sc, p, n)
   1693   1.1       oki 	register struct mha_softc *sc;
   1694   1.1       oki 	u_char *p;
   1695   1.1       oki 	int n;
   1696   1.4   msaitoh {
   1697   1.1       oki   register struct acb *acb = sc->sc_nexus;
   1698   1.1       oki 
   1699   1.1       oki   if (n == 0)
   1700   1.1       oki     return n;
   1701   1.1       oki 
   1702   1.1       oki   if (((long)p & 1) || (n & 1))
   1703   1.1       oki     return mha_dataout_pio(sc, p, n);
   1704   1.1       oki   return mha_dataio_dma(MHA_DMA_DATAOUT, CMD_SEND_FROM_DMA, sc, p, n);
   1705   1.1       oki }
   1706   1.1       oki 
   1707   1.1       oki int
   1709   1.1       oki mha_datain(sc, p, n)
   1710   1.1       oki 	register struct mha_softc *sc;
   1711   1.1       oki 	u_char *p;
   1712   1.1       oki 	int n;
   1713   1.4   msaitoh {
   1714   1.1       oki   int ts;
   1715   1.1       oki   register struct acb *acb = sc->sc_nexus;
   1716   1.1       oki   char *paddr, *vaddr;
   1717   1.1       oki 
   1718   1.1       oki   if (n == 0)
   1719   1.1       oki     return n;
   1720   1.1       oki   if (acb->cmd.opcode == 0x03 || ((long)p & 1) || (n & 1))
   1721   1.1       oki     return mha_datain_pio(sc, p, n);
   1722   1.1       oki   return mha_dataio_dma(MHA_DMA_DATAIN, CMD_RECEIVE_TO_DMA, sc, p, n);
   1723   1.1       oki }
   1724   1.1       oki 
   1725   1.1       oki 
   1727   1.1       oki /*
   1728   1.1       oki  * Catch an interrupt from the adaptor
   1729   1.4   msaitoh  */
   1730   1.1       oki /*
   1731   1.2       oki  * This is the workhorse routine of the driver.
   1732   1.2       oki  * Deficiencies (for now):
   1733   1.1       oki  * 1) always uses programmed I/O
   1734   1.1       oki  */
   1735   1.1       oki int
   1736   1.1       oki mhaintr(unit)
   1737   1.1       oki 	int unit;
   1738   1.4   msaitoh {
   1739   1.4   msaitoh 	struct mha_softc *sc;
   1740   1.4   msaitoh 	u_char ints;
   1741   1.4   msaitoh 	struct acb *acb;
   1742   1.4   msaitoh 	struct scsipi_link *sc_link;
   1743   1.4   msaitoh 	struct spc_tinfo *ti;
   1744   1.4   msaitoh 	u_char ph;
   1745   1.2       oki 	u_short r;
   1746   1.4   msaitoh 	int n;
   1747   1.4   msaitoh 
   1748   1.4   msaitoh #if 1	/* XXX called during attach? */
   1749   1.4   msaitoh 	if (tmpsc != NULL) {
   1750   1.2       oki 		SPC_MISC(("[%x %x]\n", mha_cd.cd_devs, sc));
   1751   1.1       oki 		sc = tmpsc;
   1752   1.4   msaitoh 	} else {
   1753   1.1       oki #endif
   1754   1.1       oki 
   1755   1.1       oki 	/* return if not configured */
   1756   1.1       oki 	if (!mha_cd.cd_devs)	/* Check if at least one unit is attached. */
   1757   1.1       oki 		return;		/* XXX should check if THE unit exists. */
   1758   1.1       oki 
   1759   1.1       oki 	sc = mha_cd.cd_devs[unit];
   1760   1.1       oki 
   1761   1.1       oki #if 1	/* XXX */
   1762   1.1       oki 	}
   1763   1.1       oki #endif
   1764   1.1       oki 
   1765   1.1       oki 	/*
   1766   1.1       oki 	 * $B3d$j9~$_6X;_$K$9$k(B
   1767   1.1       oki 	 */
   1768   1.1       oki #if 0
   1769   1.1       oki 	SCTL &= ~SCTL_INTR_ENAB;
   1770   1.1       oki #endif
   1771   1.1       oki 
   1772   1.1       oki 	SPC_TRACE(("[mhaintr]"));
   1773   1.1       oki 
   1774   1.1       oki loop:
   1775   1.1       oki 	/*
   1776   1.1       oki 	 * $BA4E>Aw$,40A4$K=*N;$9$k$^$G%k!<%W$9$k(B
   1777   1.1       oki 	 */
   1778   1.1       oki 	/*
   1779   1.1       oki 	 * First check for abnormal conditions, such as reset.
   1780   1.1       oki 	 */
   1781   1.1       oki #if 0
   1782   1.1       oki #if 1 /* XXX? */
   1783   1.1       oki 	while (((ints = SSR) & SS_IREQUEST) == 0)
   1784   1.1       oki 		delay(1);
   1785   1.1       oki 	SPC_MISC(("ints = 0x%x  ", ints));
   1786   1.1       oki #else /* usually? */
   1787   1.1       oki 	ints = SSR;
   1788   1.1       oki #endif
   1789   1.1       oki #endif
   1790   1.1       oki   while (SSR & SS_IREQUEST)
   1791   1.1       oki     {
   1792   1.1       oki       acb = sc->sc_nexus;
   1793   1.1       oki       r = ISCSR;
   1794   1.1       oki       SPC_MISC(("[r=0x%x]", r));
   1795   1.1       oki       switch (r >> 8)
   1796   1.1       oki 	{
   1797   1.1       oki 	default:
   1798   1.1       oki 	  printf("[addr=%x\n"
   1799   1.1       oki 		 "result=0x%x\n"
   1800   1.1       oki 		 "cmd=0x%x\n"
   1801   1.1       oki 		 "ph=0x%x(ought to be %d)]\n",
   1802   1.1       oki 		 &ISCSR,
   1803   1.1       oki 		 r,
   1804   1.1       oki 		 acb->xs->cmd->opcode,
   1805   1.1       oki 		 SCR, sc->sc_phase);
   1806   1.1       oki 	  panic("unexpected result.");
   1807   1.1       oki 	case 0x82:	/* selection timeout */
   1808   1.1       oki 	  SPC_MISC(("selection timeout  "));
   1809   1.1       oki 	  sc->sc_phase = BUSFREE_PHASE;
   1810   1.1       oki 	  SPC_ASSERT(sc->sc_nexus != NULL);
   1811   1.1       oki 	  acb = sc->sc_nexus;
   1812   1.1       oki 	  delay(250);
   1813   1.1       oki 	  acb->xs->error = XS_SELTIMEOUT;
   1814   1.1       oki 	  mha_done(sc, acb);
   1815   1.1       oki 	  continue;	/* XXX ??? msaitoh */
   1816   1.1       oki 	case 0x60:	/* command completed */
   1817   1.1       oki 	  sc->sc_spcinitialized++;
   1818   1.1       oki 	  if (sc->sc_phase == BUSFREE_PHASE)
   1819   1.1       oki 	    continue;
   1820   1.1       oki 	  ph = SCR;
   1821   1.1       oki 	  if (ph & PSNS_ACK)
   1822   1.1       oki 	    {
   1823   1.1       oki 	      int s;
   1824   1.1       oki 	      /* $B$U$D!<$N%3%^%s%I$,=*N;$7$?$i$7$$(B */
   1825   1.1       oki SPC_MISC(("0x60)phase = %x(ought to be %x)\n", ph & PHASE_MASK, sc->sc_phase));
   1826   1.1       oki # if 0
   1827   1.1       oki 	      switch (sc->sc_phase)
   1828   1.1       oki #else
   1829   1.1       oki 	      switch (ph & PHASE_MASK)
   1830   1.1       oki #endif
   1831   1.1       oki 		{
   1832   1.1       oki 		case STATUS_PHASE:
   1833   1.1       oki 			if (sc->sc_state != SPC_HASNEXUS)
   1834   1.1       oki 			  {
   1835   1.1       oki 			    printf("stsin: !SPC_HASNEXUS->(%d)\n", sc->sc_state);
   1836   1.1       oki 			  }
   1837   1.1       oki 			SPC_ASSERT(sc->sc_nexus != NULL);
   1838   1.1       oki 			acb = sc->sc_nexus;
   1839   1.1       oki 			WAIT;
   1840   1.1       oki 			s = MBR;
   1841   1.1       oki 			SPC_ASSERT(s == 1);
   1842   1.1       oki 			acb->stat = sc->sc_pcx[0]; /* XXX */
   1843   1.1       oki 			SPC_MISC(("stat=0x%02x  ", acb->stat));
   1844   1.1       oki 			sc->sc_prevphase = STATUS_PHASE;
   1845   1.1       oki 			break;
   1846   1.1       oki 		case MESSAGE_IN_PHASE:
   1847   1.1       oki 			mha_msgin(sc);
   1848   1.1       oki 			sc->sc_prevphase = MESSAGE_IN_PHASE;
   1849   1.1       oki 			break;
   1850   1.1       oki 		}
   1851   1.1       oki 	      WAIT;
   1852   1.1       oki 	      CMR = CMD_RESET_ACK;	/* reset ack */
   1853   1.1       oki 	      /*mha_done(sc, acb);	XXX */
   1854   1.1       oki 	      continue;
   1855   1.1       oki 	    }
   1856   1.1       oki 	  else if (NSR & 0x80)	/* nexus */
   1857   1.1       oki 	    {
   1858   1.1       oki #if 1
   1859   1.1       oki 		if (sc->sc_state == SPC_SELECTING)	/* XXX msaitoh */
   1860   1.1       oki 		  sc->sc_state = SPC_HASNEXUS;
   1861   1.1       oki 	      /* $B%U%'!<%:$N7h$aBG$A$r$9$k(B
   1862   1.1       oki 		 $B30$l$?$i!"(Binitial-phase error(0x54) $B$,(B
   1863   1.1       oki 		 $BJV$C$F$/$k$s$GCm0U$7$?$^$(!#(B
   1864   1.1       oki 		 $B$G$b$J$<$+(B 0x65 $B$,JV$C$F$-$?$j$7$F$M!<$+(B? */
   1865   1.1       oki 	      WAIT;
   1866   1.1       oki 	      if (SSR & SS_IREQUEST)
   1867   1.1       oki 		continue;
   1868   1.1       oki 	      switch (sc->sc_phase)
   1869   1.1       oki 		{
   1870   1.1       oki 		default:
   1871   1.1       oki 		  panic("$B8+CN$i$L(B phase $B$,Mh$A$^$C$?$@$h(B");
   1872   1.1       oki 		case MESSAGE_IN_PHASE:
   1873   1.1       oki 		  /* $B2?$b$7$J$$(B */
   1874   1.1       oki 		  continue;
   1875   1.1       oki 		case STATUS_PHASE:
   1876   1.1       oki 		  sc->sc_phase = MESSAGE_IN_PHASE;
   1877   1.1       oki 		  CMR = CMD_RECEIVE_MSG;	/* receive msg */
   1878   1.1       oki 		  continue;
   1879   1.1       oki 		case DATA_IN_PHASE:
   1880   1.1       oki 		  sc->sc_prevphase = DATA_IN_PHASE;
   1881   1.1       oki 		  if (sc->sc_dleft == 0)
   1882   1.1       oki 		    {
   1883   1.1       oki 		      /* $BE>Aw%G!<%?$O$b$&$J$$$N$G(B
   1884   1.1       oki 			 $B%9%F!<%?%9%U%'!<%:$r4|BT$7$h$&(B */
   1885   1.1       oki 		      sc->sc_phase = STATUS_PHASE;
   1886   1.1       oki 		      CMR = CMD_RECEIVE_STS;	/* receive sts */
   1887   1.1       oki 		      continue;
   1888   1.1       oki 		    }
   1889   1.1       oki 		  n = mha_datain(sc, sc->sc_dp, sc->sc_dleft);
   1890   1.1       oki 		  sc->sc_dp += n;
   1891   1.1       oki 		  sc->sc_dleft -= n;
   1892   1.1       oki 		  continue;
   1893   1.1       oki 		case DATA_OUT_PHASE:
   1894   1.1       oki 		  sc->sc_prevphase = DATA_OUT_PHASE;
   1895   1.1       oki 		  if (sc->sc_dleft == 0)
   1896   1.1       oki 		    {
   1897   1.1       oki 		      /* $BE>Aw%G!<%?$O$b$&$J$$$N$G(B
   1898   1.1       oki 			 $B%9%F!<%?%9%U%'!<%:$r4|BT$7$h$&(B */
   1899   1.1       oki 		      sc->sc_phase = STATUS_PHASE;
   1900   1.1       oki 		      CMR = CMD_RECEIVE_STS;	/* receive sts */
   1901   1.1       oki 		      continue;
   1902   1.1       oki 		    }
   1903   1.1       oki 		  /* data phase $B$NB3$-$r$d$m$&(B */
   1904   1.1       oki 		  n = mha_dataout(sc, sc->sc_dp, sc->sc_dleft);
   1905   1.1       oki 		  sc->sc_dp += n;
   1906   1.1       oki 		  sc->sc_dleft -= n;
   1907   1.1       oki 		  continue;
   1908   1.1       oki 		case COMMAND_PHASE:
   1909   1.1       oki 		  /* $B:G=i$O(B CMD PHASE $B$H$$$&$3$H$i$7$$(B */
   1910   1.1       oki 		  if (acb->dleft)
   1911   1.1       oki 		    {
   1912   1.1       oki 		      /* $B%G!<%?E>Aw$,$"$j$&$k>l9g(B */
   1913   1.1       oki 		      if (acb->xs->flags & SCSI_DATA_IN)
   1914   1.1       oki 			{
   1915   1.1       oki 			  sc->sc_phase = DATA_IN_PHASE;
   1916   1.1       oki 			  n = mha_datain(sc, sc->sc_dp, sc->sc_dleft);
   1917   1.1       oki 			  sc->sc_dp += n;
   1918   1.1       oki 			  sc->sc_dleft -= n;
   1919   1.1       oki 			}
   1920   1.1       oki 		      else if (acb->xs->flags & SCSI_DATA_OUT)
   1921   1.1       oki 			{
   1922   1.1       oki 			  sc->sc_phase = DATA_OUT_PHASE;
   1923   1.1       oki 			  n = mha_dataout(sc, sc->sc_dp, sc->sc_dleft);
   1924   1.1       oki 			  sc->sc_dp += n;
   1925   1.1       oki 			  sc->sc_dleft -= n;
   1926   1.1       oki 			}
   1927   1.1       oki 		      continue;
   1928   1.1       oki 		    }
   1929   1.1       oki 		  else
   1930   1.1       oki 		    {
   1931   1.1       oki 		      /* $B%G!<%?E>Aw$O$J$$$i$7$$(B?! */
   1932   1.1       oki 		      WAIT;
   1933   1.1       oki 		      sc->sc_phase = STATUS_PHASE;
   1934   1.1       oki 		      CMR = CMD_RECEIVE_STS;	/* receive sts */
   1935   1.1       oki 		      continue;
   1936   1.1       oki 		    }
   1937   1.1       oki 		}
   1938   1.1       oki #endif
   1939   1.1       oki 	    }
   1940   1.1       oki 	  continue;
   1941   1.1       oki 	case 0x31:	/* disconnected in xfer progress. */
   1942   1.1       oki 	  SPC_MISC(("[0x31]"));
   1943   1.1       oki 	case 0x70:	/* disconnected. */
   1944   1.1       oki 	  SPC_ASSERT(sc->sc_flags & SPC_BUSFREE_OK);
   1945   1.1       oki 	  sc->sc_phase = BUSFREE_PHASE;
   1946   1.1       oki 	  sc->sc_state = SPC_IDLE;
   1947   1.1       oki #if 1
   1948   1.1       oki 	  acb = sc->sc_nexus;
   1949   1.1       oki 	  SPC_ASSERT(sc->sc_nexus != NULL);
   1950   1.1       oki 	  acb->xs->error = XS_NOERROR;
   1951   1.1       oki 	  mha_done(sc, acb);
   1952   1.1       oki #else
   1953   1.1       oki 	  TAILQ_INSERT_HEAD(&sc->nexus_list, acb, chain);
   1954   1.1       oki 	  mha_sched(sc);
   1955   1.1       oki #endif
   1956   1.1       oki 	  continue;
   1957   1.1       oki 	case 0x32:	/* phase error in xfer progress. */
   1958   1.1       oki 	  SPC_MISC(("[0x32]"));
   1959   1.1       oki 	case 0x65:	/* invalid command.
   1960   1.1       oki 			   $B$J$<$3$s$J$b$N$,=P$k$N$+(B
   1961   1.1       oki 			   $B26$K$OA4$/M}2r$G$-$J$$(B */
   1962   1.1       oki #if 1
   1963   1.1       oki 	  SPC_MISC(("[0x%04x]", r));
   1964   1.1       oki #endif
   1965   1.1       oki 	case 0x54:	/* initial-phase error. */
   1966   1.1       oki 	  SPC_MISC(("[0x54, ns=%x, ph=%x(ought to be %x)]",
   1967   1.1       oki 		    NSR,
   1968   1.1       oki 		    SCR, sc->sc_phase));
   1969   1.1       oki 	  /* thru */
   1970   1.1       oki 	case 0x71:	/* assert req */
   1971   1.1       oki 	  WAIT;
   1972   1.1       oki 	  if (SSR & 0x40)
   1973   1.1       oki 	    {
   1974   1.1       oki 	      printf("SPC sts=%2x, r=%04x, ns=%x, ph=%x\n",
   1975   1.1       oki 		     SSR, r, NSR, SCR);
   1976   1.1       oki 	      WAIT;
   1977   1.1       oki 	    }
   1978   1.1       oki 	  ph = SCR;
   1979   1.1       oki 	  if (sc->sc_state == SPC_SELECTING)	/* XXX msaitoh */
   1980   1.1       oki 	    {
   1981   1.1       oki 	      sc->sc_state = SPC_HASNEXUS;
   1982   1.1       oki 	    }
   1983   1.1       oki 	  if (ph & 0x80)
   1984   1.1       oki 	    {
   1985   1.1       oki 	      switch (ph & PHASE_MASK)
   1986   1.1       oki 		{
   1987   1.1       oki 		default:
   1988   1.1       oki 			printf("phase = %x\n", ph);
   1989   1.1       oki 			panic("assert req: the phase I don't know!");
   1990   1.1       oki 		case DATA_IN_PHASE:
   1991   1.1       oki 			sc->sc_prevphase = DATA_IN_PHASE;
   1992   1.1       oki 			SPC_MISC(("DATAIN(%d)...", sc->sc_dleft));
   1993   1.1       oki 			n = mha_datain(sc, sc->sc_dp, sc->sc_dleft);
   1994   1.1       oki 			sc->sc_dp += n;
   1995   1.1       oki 			sc->sc_dleft -= n;
   1996   1.1       oki 			SPC_MISC(("done\n"));
   1997   1.1       oki 			continue;
   1998   1.1       oki 		case DATA_OUT_PHASE:
   1999   1.1       oki 			sc->sc_prevphase = DATA_OUT_PHASE;
   2000   1.1       oki 			SPC_MISC(("DATAOUT\n"));
   2001   1.1       oki 			n = mha_dataout(sc, sc->sc_dp, sc->sc_dleft);
   2002   1.1       oki 			sc->sc_dp += n;
   2003   1.1       oki 			sc->sc_dleft -= n;
   2004   1.1       oki 			continue;
   2005   1.1       oki 		case STATUS_PHASE:
   2006   1.1       oki 			sc->sc_phase = STATUS_PHASE;
   2007   1.1       oki 			SPC_MISC(("[RECV_STS]"));
   2008   1.1       oki 			WAIT;
   2009   1.1       oki 			CMR = CMD_RECEIVE_STS;	/* receive sts */
   2010   1.1       oki 			continue;
   2011   1.1       oki 		case MESSAGE_IN_PHASE:
   2012   1.1       oki 			sc->sc_phase = MESSAGE_IN_PHASE;
   2013   1.1       oki 			WAIT;
   2014   1.1       oki 			CMR = CMD_RECEIVE_MSG;
   2015   1.1       oki 			continue;
   2016   1.1       oki 		}
   2017   1.1       oki 	    }
   2018   1.1       oki 	  continue;
   2019   1.1       oki 	}
   2020   1.1       oki     }
   2021   1.1       oki }
   2022   1.1       oki 
   2023   1.1       oki void
   2024   1.1       oki mha_abort(sc, acb)
   2025   1.1       oki 	struct mha_softc *sc;
   2026   1.1       oki 	struct acb *acb;
   2027   1.1       oki {
   2028   1.1       oki 	acb->flags |= ACB_ABORTED;
   2029   1.1       oki 
   2030   1.1       oki 	if (acb == sc->sc_nexus) {
   2031   1.1       oki 		/*
   2032   1.1       oki 		 * If we're still selecting, the message will be scheduled
   2033   1.1       oki 		 * after selection is complete.
   2034   1.1       oki 		 */
   2035   1.1       oki 		if (sc->sc_state == SPC_HASNEXUS) {
   2036   1.1       oki 			sc->sc_flags |= SPC_ABORTING;
   2037   1.1       oki 			mha_sched_msgout(SEND_ABORT);
   2038   1.1       oki 		}
   2039   1.1       oki 	} else {
   2040   1.1       oki 		if (sc->sc_state == SPC_IDLE)
   2041   1.1       oki 			mha_sched(sc);
   2042   1.1       oki 	}
   2043   1.1       oki }
   2044   1.1       oki 
   2045   1.1       oki void
   2046   1.1       oki mha_timeout(arg)
   2047   1.1       oki 	void *arg;
   2048   1.1       oki {
   2049   1.1       oki 	int s = splbio();
   2050   1.1       oki 	struct acb *acb = (struct acb *)arg;
   2051   1.1       oki 	struct scsipi_xfer *xs = acb->xs;
   2052   1.1       oki 	struct scsipi_link *sc_link = xs->sc_link;
   2053   1.1       oki 	struct mha_softc *sc = sc_link->adapter_softc;
   2054   1.1       oki 
   2055   1.1       oki 	scsi_print_addr(sc_link);
   2056   1.1       oki again:
   2057   1.1       oki 	printf("%s: timed out [acb %p (flags 0x%x, dleft %x, stat %x)], "
   2058   1.1       oki 	       "<state %d, nexus %p, phase(c %x, p %x), resid %x, msg(q %x,o %x) >",
   2059   1.1       oki 		sc->sc_dev.dv_xname,
   2060   1.1       oki 		acb, acb->flags, acb->dleft, acb->stat,
   2061   1.1       oki 		sc->sc_state, sc->sc_nexus, sc->sc_phase, sc->sc_prevphase,
   2062   1.1       oki 		sc->sc_dleft, sc->sc_msgpriq, sc->sc_msgout
   2063   1.1       oki 		);
   2064   1.1       oki 	printf("[%04x %02x]\n", sc->sc_ps[1], SCR);
   2065   1.1       oki 	panic("timeout, ouch!");
   2066   1.1       oki 
   2067   1.1       oki 	if (acb->flags & ACB_ABORTED) {
   2068   1.1       oki 		/* abort timed out */
   2069   1.1       oki 		printf(" AGAIN\n");
   2070   1.1       oki #if 0
   2071   1.1       oki 		mha_init(sc, 1); /* XXX 1?*/
   2072   1.1       oki #endif
   2073   1.4   msaitoh 	} else {
   2074   1.1       oki 		/* abort the operation that has timed out */
   2075   1.1       oki 		printf("\n");
   2076   1.1       oki 		xs->error = XS_TIMEOUT;
   2077   1.1       oki 		mha_abort(sc, acb);
   2078   1.1       oki 	}
   2079   1.1       oki 
   2080   1.1       oki 	splx(s);
   2081   1.1       oki }
   2082   1.1       oki 
   2083   1.1       oki #if SPC_DEBUG
   2085   1.1       oki /*
   2086   1.1       oki  * The following functions are mostly used for debugging purposes, either
   2087   1.1       oki  * directly called from the driver or from the kernel debugger.
   2088   1.1       oki  */
   2089   1.1       oki 
   2090   1.1       oki void
   2091   1.1       oki mha_show_scsi_cmd(acb)
   2092   1.1       oki 	struct acb *acb;
   2093   1.1       oki {
   2094   1.1       oki 	u_char  *b = (u_char *)&acb->cmd;
   2095   1.1       oki 	struct scsipi_link *sc_link = acb->xs->sc_link;
   2096   1.1       oki 	int i;
   2097   1.1       oki 
   2098   1.1       oki 	scsi_print_addr(sc_link);
   2099   1.1       oki 	if ((acb->xs->flags & SCSI_RESET) == 0) {
   2100   1.1       oki 		for (i = 0; i < acb->clen; i++) {
   2101   1.1       oki 			if (i)
   2102   1.1       oki 				printf(",");
   2103   1.1       oki 			printf("%x", b[i]);
   2104   1.1       oki 		}
   2105   1.1       oki 		printf("\n");
   2106   1.1       oki 	} else
   2107   1.1       oki 		printf("RESET\n");
   2108   1.1       oki }
   2109   1.1       oki 
   2110   1.1       oki void
   2111   1.1       oki mha_print_acb(acb)
   2112   1.1       oki 	struct acb *acb;
   2113   1.1       oki {
   2114   1.1       oki 
   2115   1.1       oki 	printf("acb@%x xs=%x flags=%x", acb, acb->xs, acb->flags);
   2116   1.1       oki 	printf(" dp=%x dleft=%d stat=%x\n",
   2117   1.1       oki 	    (long)acb->daddr, acb->dleft, acb->stat);
   2118   1.1       oki 	mha_show_scsi_cmd(acb);
   2119   1.1       oki }
   2120   1.1       oki 
   2121   1.1       oki void
   2122   1.1       oki mha_print_active_acb()
   2123   1.1       oki {
   2124   1.1       oki 	struct acb *acb;
   2125   1.1       oki 	struct mha_softc *sc = mha_cd.cd_devs[0]; /* XXX */
   2126   1.1       oki 
   2127   1.1       oki 	printf("ready list:\n");
   2128   1.1       oki 	for (acb = sc->ready_list.tqh_first; acb != NULL;
   2129   1.1       oki 	    acb = acb->chain.tqe_next)
   2130   1.1       oki 		mha_print_acb(acb);
   2131   1.1       oki 	printf("nexus:\n");
   2132   1.1       oki 	if (sc->sc_nexus != NULL)
   2133   1.1       oki 		mha_print_acb(sc->sc_nexus);
   2134   1.1       oki 	printf("nexus list:\n");
   2135   1.1       oki 	for (acb = sc->nexus_list.tqh_first; acb != NULL;
   2136   1.1       oki 	    acb = acb->chain.tqe_next)
   2137   1.1       oki 		mha_print_acb(acb);
   2138   1.1       oki }
   2139   1.1       oki 
   2140   1.1       oki void
   2141   1.1       oki mha_dump_driver(sc)
   2142   1.1       oki 	struct mha_softc *sc;
   2143   1.1       oki {
   2144   1.1       oki 	struct spc_tinfo *ti;
   2145   1.1       oki 	int i;
   2146   1.1       oki 
   2147   1.1       oki 	printf("nexus=%x prevphase=%x\n", sc->sc_nexus, sc->sc_prevphase);
   2148                 	printf("state=%x msgin=%x msgpriq=%x msgoutq=%x lastmsg=%x currmsg=%x\n",
   2149                 	    sc->sc_state, sc->sc_imess[0],
   2150                 	    sc->sc_msgpriq, sc->sc_msgoutq, sc->sc_lastmsg, sc->sc_currmsg);
   2151                 	for (i = 0; i < 7; i++) {
   2152                 		ti = &sc->sc_tinfo[i];
   2153                 		printf("tinfo%d: %d cmds %d disconnects %d timeouts",
   2154                 		    i, ti->cmds, ti->dconns, ti->touts);
   2155                 		printf(" %d senses flags=%x\n", ti->senses, ti->flags);
   2156                 	}
   2157                 }
   2158                 #endif
   2159