1 /**************************************************************************
2 **
3 **
4 **  Device driver for the   NCR 53C8XX   PCI-SCSI-Controller Family.
5 **
6 **-------------------------------------------------------------------------
7 **
8 **  Written for 386bsd and FreeBSD by
9 **	Wolfgang Stanglmeier	<wolf@cologne.de>
10 **	Stefan Esser		<se@mi.Uni-Koeln.de>
11 **
12 **-------------------------------------------------------------------------
13 */
14 /*-
15 ** Copyright (c) 1994 Wolfgang Stanglmeier.  All rights reserved.
16 **
17 ** Redistribution and use in source and binary forms, with or without
18 ** modification, are permitted provided that the following conditions
19 ** are met:
20 ** 1. Redistributions of source code must retain the above copyright
21 **    notice, this list of conditions and the following disclaimer.
22 ** 2. Redistributions in binary form must reproduce the above copyright
23 **    notice, this list of conditions and the following disclaimer in the
24 **    documentation and/or other materials provided with the distribution.
25 ** 3. The name of the author may not be used to endorse or promote products
26 **    derived from this software without specific prior written permission.
27 **
28 ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
29 ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
30 ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
31 ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
32 ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
33 ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
34 ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
35 ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
36 ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
37 ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
38 **
39 ***************************************************************************
40 */
41 
42 #include <sys/cdefs.h>
43 __FBSDID("$FreeBSD: stable/9/sys/pci/ncr.c 254306 2013-08-13 22:05:50Z scottl $");
44 
45 
46 #define NCR_DATE "pl30 98/1/1"
47 
48 #define NCR_VERSION	(2)
49 #define	MAX_UNITS	(16)
50 
51 #define NCR_GETCC_WITHMSG
52 
53 #if defined (__FreeBSD__) && defined(_KERNEL)
54 #include "opt_ncr.h"
55 #endif
56 
57 /*==========================================================
58 **
59 **	Configuration and Debugging
60 **
61 **	May be overwritten in <arch/conf/xxxx>
62 **
63 **==========================================================
64 */
65 
66 /*
67 **    SCSI address of this device.
68 **    The boot routines should have set it.
69 **    If not, use this.
70 */
71 
72 #ifndef SCSI_NCR_MYADDR
73 #define SCSI_NCR_MYADDR      (7)
74 #endif /* SCSI_NCR_MYADDR */
75 
76 /*
77 **    The default synchronous period factor
78 **    (0=asynchronous)
79 **    If maximum synchronous frequency is defined, use it instead.
80 */
81 
82 #ifndef	SCSI_NCR_MAX_SYNC
83 
84 #ifndef SCSI_NCR_DFLT_SYNC
85 #define SCSI_NCR_DFLT_SYNC   (12)
86 #endif /* SCSI_NCR_DFLT_SYNC */
87 
88 #else
89 
90 #if	SCSI_NCR_MAX_SYNC == 0
91 #define	SCSI_NCR_DFLT_SYNC 0
92 #else
93 #define	SCSI_NCR_DFLT_SYNC (250000 / SCSI_NCR_MAX_SYNC)
94 #endif
95 
96 #endif
97 
98 /*
99 **    The minimal asynchronous pre-scaler period (ns)
100 **    Shall be 40.
101 */
102 
103 #ifndef SCSI_NCR_MIN_ASYNC
104 #define SCSI_NCR_MIN_ASYNC   (40)
105 #endif /* SCSI_NCR_MIN_ASYNC */
106 
107 /*
108 **    The maximal bus with (in log2 byte)
109 **    (0=8 bit, 1=16 bit)
110 */
111 
112 #ifndef SCSI_NCR_MAX_WIDE
113 #define SCSI_NCR_MAX_WIDE   (1)
114 #endif /* SCSI_NCR_MAX_WIDE */
115 
116 /*==========================================================
117 **
118 **      Configuration and Debugging
119 **
120 **==========================================================
121 */
122 
123 /*
124 **    Number of targets supported by the driver.
125 **    n permits target numbers 0..n-1.
126 **    Default is 7, meaning targets #0..#6.
127 **    #7 .. is myself.
128 */
129 
130 #define MAX_TARGET  (16)
131 
132 /*
133 **    Number of logic units supported by the driver.
134 **    n enables logic unit numbers 0..n-1.
135 **    The common SCSI devices require only
136 **    one lun, so take 1 as the default.
137 */
138 
139 #ifndef	MAX_LUN
140 #define MAX_LUN     (8)
141 #endif	/* MAX_LUN */
142 
143 /*
144 **    The maximum number of jobs scheduled for starting.
145 **    There should be one slot per target, and one slot
146 **    for each tag of each target in use.
147 */
148 
149 #define MAX_START   (256)
150 
151 /*
152 **    The maximum number of segments a transfer is split into.
153 */
154 
155 #define MAX_SCATTER (33)
156 
157 /*
158 **    The maximum transfer length (should be >= 64k).
159 **    MUST NOT be greater than (MAX_SCATTER-1) * PAGE_SIZE.
160 */
161 
162 #define MAX_SIZE  ((MAX_SCATTER-1) * (long) PAGE_SIZE)
163 
164 /*
165 **	other
166 */
167 
168 #define NCR_SNOOP_TIMEOUT (1000000)
169 
170 /*==========================================================
171 **
172 **      Include files
173 **
174 **==========================================================
175 */
176 
177 #include <sys/param.h>
178 #include <sys/time.h>
179 
180 #ifdef _KERNEL
181 #include <sys/systm.h>
182 #include <sys/malloc.h>
183 #include <sys/kernel.h>
184 #include <sys/module.h>
185 #include <sys/sysctl.h>
186 #include <sys/lock.h>
187 #include <sys/mutex.h>
188 #include <sys/bus.h>
189 #include <machine/md_var.h>
190 #include <machine/bus.h>
191 #include <machine/resource.h>
192 #include <sys/rman.h>
193 #include <vm/vm.h>
194 #include <vm/pmap.h>
195 #include <vm/vm_extern.h>
196 #endif
197 
198 #include <dev/pci/pcivar.h>
199 #include <dev/pci/pcireg.h>
200 #include <pci/ncrreg.h>
201 
202 #include <cam/cam.h>
203 #include <cam/cam_ccb.h>
204 #include <cam/cam_sim.h>
205 #include <cam/cam_xpt_sim.h>
206 #include <cam/cam_debug.h>
207 
208 #include <cam/scsi/scsi_all.h>
209 #include <cam/scsi/scsi_message.h>
210 
211 /*==========================================================
212 **
213 **	Debugging tags
214 **
215 **==========================================================
216 */
217 
218 #define DEBUG_ALLOC    (0x0001)
219 #define DEBUG_PHASE    (0x0002)
220 #define DEBUG_POLL     (0x0004)
221 #define DEBUG_QUEUE    (0x0008)
222 #define DEBUG_RESULT   (0x0010)
223 #define DEBUG_SCATTER  (0x0020)
224 #define DEBUG_SCRIPT   (0x0040)
225 #define DEBUG_TINY     (0x0080)
226 #define DEBUG_TIMING   (0x0100)
227 #define DEBUG_NEGO     (0x0200)
228 #define DEBUG_TAGS     (0x0400)
229 #define DEBUG_FREEZE   (0x0800)
230 #define DEBUG_RESTART  (0x1000)
231 
232 /*
233 **    Enable/Disable debug messages.
234 **    Can be changed at runtime too.
235 */
236 #ifdef SCSI_NCR_DEBUG
237 	#define DEBUG_FLAGS ncr_debug
238 #else /* SCSI_NCR_DEBUG */
239 	#define SCSI_NCR_DEBUG	0
240 	#define DEBUG_FLAGS	0
241 #endif /* SCSI_NCR_DEBUG */
242 
243 
244 
245 /*==========================================================
246 **
247 **	assert ()
248 **
249 **==========================================================
250 **
251 **	modified copy from 386bsd:/usr/include/sys/assert.h
252 **
253 **----------------------------------------------------------
254 */
255 
256 #ifdef DIAGNOSTIC
257 #define	assert(expression) {					\
258 	KASSERT(expression, ("%s", #expression));		\
259 }
260 #else
261 #define	assert(expression) {					\
262 	if (!(expression)) {					\
263 		(void)printf("assertion \"%s\" failed: "	\
264 			     "file \"%s\", line %d\n",		\
265 			     #expression, __FILE__, __LINE__);	\
266 	}							\
267 }
268 #endif
269 
270 /*==========================================================
271 **
272 **	Access to the controller chip.
273 **
274 **==========================================================
275 */
276 
277 #define	INB(r) bus_space_read_1(np->bst, np->bsh, offsetof(struct ncr_reg, r))
278 #define	INW(r) bus_space_read_2(np->bst, np->bsh, offsetof(struct ncr_reg, r))
279 #define	INL(r) bus_space_read_4(np->bst, np->bsh, offsetof(struct ncr_reg, r))
280 
281 #define	OUTB(r, val) bus_space_write_1(np->bst, np->bsh, \
282 				       offsetof(struct ncr_reg, r), val)
283 #define	OUTW(r, val) bus_space_write_2(np->bst, np->bsh, \
284 				       offsetof(struct ncr_reg, r), val)
285 #define	OUTL(r, val) bus_space_write_4(np->bst, np->bsh, \
286 				       offsetof(struct ncr_reg, r), val)
287 #define	OUTL_OFF(o, val) bus_space_write_4(np->bst, np->bsh, o, val)
288 
289 #define	INB_OFF(o) bus_space_read_1(np->bst, np->bsh, o)
290 #define	INW_OFF(o) bus_space_read_2(np->bst, np->bsh, o)
291 #define	INL_OFF(o) bus_space_read_4(np->bst, np->bsh, o)
292 
293 #define	READSCRIPT_OFF(base, off)					\
294     (base ? *((volatile u_int32_t *)((volatile char *)base + (off))) :	\
295     bus_space_read_4(np->bst2, np->bsh2, off))
296 
297 #define	WRITESCRIPT_OFF(base, off, val)					\
298     do {								\
299     	if (base)							\
300     		*((volatile u_int32_t *)				\
301 			((volatile char *)base + (off))) = (val);	\
302     	else								\
303 		bus_space_write_4(np->bst2, np->bsh2, off, val);	\
304     } while (0)
305 
306 #define	READSCRIPT(r) \
307     READSCRIPT_OFF(np->script, offsetof(struct script, r))
308 
309 #define	WRITESCRIPT(r, val) \
310     WRITESCRIPT_OFF(np->script, offsetof(struct script, r), val)
311 
312 /*
313 **	Set bit field ON, OFF
314 */
315 
316 #define OUTONB(r, m)	OUTB(r, INB(r) | (m))
317 #define OUTOFFB(r, m)	OUTB(r, INB(r) & ~(m))
318 #define OUTONW(r, m)	OUTW(r, INW(r) | (m))
319 #define OUTOFFW(r, m)	OUTW(r, INW(r) & ~(m))
320 #define OUTONL(r, m)	OUTL(r, INL(r) | (m))
321 #define OUTOFFL(r, m)	OUTL(r, INL(r) & ~(m))
322 
323 /*==========================================================
324 **
325 **	Command control block states.
326 **
327 **==========================================================
328 */
329 
330 #define HS_IDLE		(0)
331 #define HS_BUSY		(1)
332 #define HS_NEGOTIATE	(2)	/* sync/wide data transfer*/
333 #define HS_DISCONNECT	(3)	/* Disconnected by target */
334 
335 #define HS_COMPLETE	(4)
336 #define HS_SEL_TIMEOUT	(5)	/* Selection timeout      */
337 #define HS_RESET	(6)	/* SCSI reset	     */
338 #define HS_ABORTED	(7)	/* Transfer aborted       */
339 #define HS_TIMEOUT	(8)	/* Software timeout       */
340 #define HS_FAIL		(9)	/* SCSI or PCI bus errors */
341 #define HS_UNEXPECTED	(10)	/* Unexpected disconnect  */
342 #define HS_STALL	(11)	/* QUEUE FULL or BUSY	  */
343 
344 #define HS_DONEMASK	(0xfc)
345 
346 /*==========================================================
347 **
348 **	Software Interrupt Codes
349 **
350 **==========================================================
351 */
352 
353 #define	SIR_SENSE_RESTART	(1)
354 #define	SIR_SENSE_FAILED	(2)
355 #define	SIR_STALL_RESTART	(3)
356 #define	SIR_STALL_QUEUE		(4)
357 #define	SIR_NEGO_SYNC		(5)
358 #define	SIR_NEGO_WIDE		(6)
359 #define	SIR_NEGO_FAILED		(7)
360 #define	SIR_NEGO_PROTO		(8)
361 #define	SIR_REJECT_RECEIVED	(9)
362 #define	SIR_REJECT_SENT		(10)
363 #define	SIR_IGN_RESIDUE		(11)
364 #define	SIR_MISSING_SAVE	(12)
365 #define	SIR_MAX			(12)
366 
367 /*==========================================================
368 **
369 **	Extended error codes.
370 **	xerr_status field of struct nccb.
371 **
372 **==========================================================
373 */
374 
375 #define	XE_OK		(0)
376 #define	XE_EXTRA_DATA	(1)	/* unexpected data phase */
377 #define	XE_BAD_PHASE	(2)	/* illegal phase (4/5)   */
378 
379 /*==========================================================
380 **
381 **	Negotiation status.
382 **	nego_status field	of struct nccb.
383 **
384 **==========================================================
385 */
386 
387 #define NS_SYNC		(1)
388 #define NS_WIDE		(2)
389 
390 /*==========================================================
391 **
392 **	XXX These are no longer used.  Remove once the
393 **	    script is updated.
394 **	"Special features" of targets.
395 **	quirks field of struct tcb.
396 **	actualquirks field of struct nccb.
397 **
398 **==========================================================
399 */
400 
401 #define	QUIRK_AUTOSAVE	(0x01)
402 #define	QUIRK_NOMSG	(0x02)
403 #define	QUIRK_NOSYNC	(0x10)
404 #define	QUIRK_NOWIDE16	(0x20)
405 #define	QUIRK_NOTAGS	(0x40)
406 #define	QUIRK_UPDATE	(0x80)
407 
408 /*==========================================================
409 **
410 **	Misc.
411 **
412 **==========================================================
413 */
414 
415 #define CCB_MAGIC	(0xf2691ad2)
416 #define	MAX_TAGS	(32)		/* hard limit */
417 
418 /*==========================================================
419 **
420 **	OS dependencies.
421 **
422 **==========================================================
423 */
424 
425 #define PRINT_ADDR(ccb) xpt_print_path((ccb)->ccb_h.path)
426 
427 /*==========================================================
428 **
429 **	Declaration of structs.
430 **
431 **==========================================================
432 */
433 
434 struct tcb;
435 struct lcb;
436 struct nccb;
437 struct ncb;
438 struct script;
439 
440 typedef struct ncb * ncb_p;
441 typedef struct tcb * tcb_p;
442 typedef struct lcb * lcb_p;
443 typedef struct nccb * nccb_p;
444 
445 struct link {
446 	ncrcmd	l_cmd;
447 	ncrcmd	l_paddr;
448 };
449 
450 struct	usrcmd {
451 	u_long	target;
452 	u_long	lun;
453 	u_long	data;
454 	u_long	cmd;
455 };
456 
457 #define UC_SETSYNC      10
458 #define UC_SETTAGS	11
459 #define UC_SETDEBUG	12
460 #define UC_SETORDER	13
461 #define UC_SETWIDE	14
462 #define UC_SETFLAG	15
463 
464 #define	UF_TRACE	(0x01)
465 
466 /*---------------------------------------
467 **
468 **	Timestamps for profiling
469 **
470 **---------------------------------------
471 */
472 
473 /* Type of the kernel variable `ticks'.  XXX should be declared with the var. */
474 typedef int ticks_t;
475 
476 struct tstamp {
477 	ticks_t	start;
478 	ticks_t	end;
479 	ticks_t	select;
480 	ticks_t	command;
481 	ticks_t	data;
482 	ticks_t	status;
483 	ticks_t	disconnect;
484 };
485 
486 /*
487 **	profiling data (per device)
488 */
489 
490 struct profile {
491 	u_long	num_trans;
492 	u_long	num_bytes;
493 	u_long	num_disc;
494 	u_long	num_break;
495 	u_long	num_int;
496 	u_long	num_fly;
497 	u_long	ms_setup;
498 	u_long	ms_data;
499 	u_long	ms_disc;
500 	u_long	ms_post;
501 };
502 
503 /*==========================================================
504 **
505 **	Declaration of structs:		target control block
506 **
507 **==========================================================
508 */
509 
510 #define NCR_TRANS_CUR		0x01	/* Modify current neogtiation status */
511 #define NCR_TRANS_ACTIVE	0x03	/* Assume this is the active target */
512 #define NCR_TRANS_GOAL		0x04	/* Modify negotiation goal */
513 #define NCR_TRANS_USER		0x08	/* Modify user negotiation settings */
514 
515 struct ncr_transinfo {
516 	u_int8_t width;
517 	u_int8_t period;
518 	u_int8_t offset;
519 };
520 
521 struct ncr_target_tinfo {
522 	/* Hardware version of our sync settings */
523 	u_int8_t disc_tag;
524 #define		NCR_CUR_DISCENB	0x01
525 #define		NCR_CUR_TAGENB	0x02
526 #define		NCR_USR_DISCENB	0x04
527 #define		NCR_USR_TAGENB	0x08
528 	u_int8_t sval;
529         struct	 ncr_transinfo current;
530         struct	 ncr_transinfo goal;
531         struct	 ncr_transinfo user;
532 	/* Hardware version of our wide settings */
533 	u_int8_t wval;
534 };
535 
536 struct tcb {
537 	/*
538 	**	during reselection the ncr jumps to this point
539 	**	with SFBR set to the encoded target number
540 	**	with bit 7 set.
541 	**	if it's not this target, jump to the next.
542 	**
543 	**	JUMP  IF (SFBR != #target#)
544 	**	@(next tcb)
545 	*/
546 
547 	struct link   jump_tcb;
548 
549 	/*
550 	**	load the actual values for the sxfer and the scntl3
551 	**	register (sync/wide mode).
552 	**
553 	**	SCR_COPY (1);
554 	**	@(sval field of this tcb)
555 	**	@(sxfer register)
556 	**	SCR_COPY (1);
557 	**	@(wval field of this tcb)
558 	**	@(scntl3 register)
559 	*/
560 
561 	ncrcmd	getscr[6];
562 
563 	/*
564 	**	if next message is "identify"
565 	**	then load the message to SFBR,
566 	**	else load 0 to SFBR.
567 	**
568 	**	CALL
569 	**	<RESEL_LUN>
570 	*/
571 
572 	struct link   call_lun;
573 
574 	/*
575 	**	now look for the right lun.
576 	**
577 	**	JUMP
578 	**	@(first nccb of this lun)
579 	*/
580 
581 	struct link   jump_lcb;
582 
583 	/*
584 	**	pointer to interrupted getcc nccb
585 	*/
586 
587 	nccb_p   hold_cp;
588 
589 	/*
590 	**	pointer to nccb used for negotiating.
591 	**	Avoid to start a nego for all queued commands
592 	**	when tagged command queuing is enabled.
593 	*/
594 
595 	nccb_p   nego_cp;
596 
597 	/*
598 	**	statistical data
599 	*/
600 
601 	u_long	transfers;
602 	u_long	bytes;
603 
604 	/*
605 	**	user settable limits for sync transfer
606 	**	and tagged commands.
607 	*/
608 
609 	struct	 ncr_target_tinfo tinfo;
610 
611 	/*
612 	**	the lcb's of this tcb
613 	*/
614 
615 	lcb_p   lp[MAX_LUN];
616 };
617 
618 /*==========================================================
619 **
620 **	Declaration of structs:		lun control block
621 **
622 **==========================================================
623 */
624 
625 struct lcb {
626 	/*
627 	**	during reselection the ncr jumps to this point
628 	**	with SFBR set to the "Identify" message.
629 	**	if it's not this lun, jump to the next.
630 	**
631 	**	JUMP  IF (SFBR != #lun#)
632 	**	@(next lcb of this target)
633 	*/
634 
635 	struct link	jump_lcb;
636 
637 	/*
638 	**	if next message is "simple tag",
639 	**	then load the tag to SFBR,
640 	**	else load 0 to SFBR.
641 	**
642 	**	CALL
643 	**	<RESEL_TAG>
644 	*/
645 
646 	struct link	call_tag;
647 
648 	/*
649 	**	now look for the right nccb.
650 	**
651 	**	JUMP
652 	**	@(first nccb of this lun)
653 	*/
654 
655 	struct link	jump_nccb;
656 
657 	/*
658 	**	start of the nccb chain
659 	*/
660 
661 	nccb_p	next_nccb;
662 
663 	/*
664 	**	Control of tagged queueing
665 	*/
666 
667 	u_char		reqnccbs;
668 	u_char		reqlink;
669 	u_char		actlink;
670 	u_char		usetags;
671 	u_char		lasttag;
672 };
673 
674 /*==========================================================
675 **
676 **      Declaration of structs:     COMMAND control block
677 **
678 **==========================================================
679 **
680 **	This substructure is copied from the nccb to a
681 **	global address after selection (or reselection)
682 **	and copied back before disconnect.
683 **
684 **	These fields are accessible to the script processor.
685 **
686 **----------------------------------------------------------
687 */
688 
689 struct head {
690 	/*
691 	**	Execution of a nccb starts at this point.
692 	**	It's a jump to the "SELECT" label
693 	**	of the script.
694 	**
695 	**	After successful selection the script
696 	**	processor overwrites it with a jump to
697 	**	the IDLE label of the script.
698 	*/
699 
700 	struct link	launch;
701 
702 	/*
703 	**	Saved data pointer.
704 	**	Points to the position in the script
705 	**	responsible for the actual transfer
706 	**	of data.
707 	**	It's written after reception of a
708 	**	"SAVE_DATA_POINTER" message.
709 	**	The goalpointer points after
710 	**	the last transfer command.
711 	*/
712 
713 	u_int32_t	savep;
714 	u_int32_t	lastp;
715 	u_int32_t	goalp;
716 
717 	/*
718 	**	The virtual address of the nccb
719 	**	containing this header.
720 	*/
721 
722 	nccb_p	cp;
723 
724 	/*
725 	**	space for some timestamps to gather
726 	**	profiling data about devices and this driver.
727 	*/
728 
729 	struct tstamp	stamp;
730 
731 	/*
732 	**	status fields.
733 	*/
734 
735 	u_char		status[8];
736 };
737 
738 /*
739 **	The status bytes are used by the host and the script processor.
740 **
741 **	The first four byte are copied to the scratchb register
742 **	(declared as scr0..scr3 in ncr_reg.h) just after the select/reselect,
743 **	and copied back just after disconnecting.
744 **	Inside the script the XX_REG are used.
745 **
746 **	The last four bytes are used inside the script by "COPY" commands.
747 **	Because source and destination must have the same alignment
748 **	in a longword, the fields HAVE to be at the choosen offsets.
749 **		xerr_st	(4)	0	(0x34)	scratcha
750 **		sync_st	(5)	1	(0x05)	sxfer
751 **		wide_st	(7)	3	(0x03)	scntl3
752 */
753 
754 /*
755 **	First four bytes (script)
756 */
757 #define  QU_REG	scr0
758 #define  HS_REG	scr1
759 #define  HS_PRT	nc_scr1
760 #define  SS_REG	scr2
761 #define  PS_REG	scr3
762 
763 /*
764 **	First four bytes (host)
765 */
766 #define  actualquirks  phys.header.status[0]
767 #define  host_status   phys.header.status[1]
768 #define  s_status      phys.header.status[2]
769 #define  parity_status phys.header.status[3]
770 
771 /*
772 **	Last four bytes (script)
773 */
774 #define  xerr_st       header.status[4]	/* MUST be ==0 mod 4 */
775 #define  sync_st       header.status[5]	/* MUST be ==1 mod 4 */
776 #define  nego_st       header.status[6]
777 #define  wide_st       header.status[7]	/* MUST be ==3 mod 4 */
778 
779 /*
780 **	Last four bytes (host)
781 */
782 #define  xerr_status   phys.xerr_st
783 #define  sync_status   phys.sync_st
784 #define  nego_status   phys.nego_st
785 #define  wide_status   phys.wide_st
786 
787 /*==========================================================
788 **
789 **      Declaration of structs:     Data structure block
790 **
791 **==========================================================
792 **
793 **	During execution of a nccb by the script processor,
794 **	the DSA (data structure address) register points
795 **	to this substructure of the nccb.
796 **	This substructure contains the header with
797 **	the script-processor-changable data and
798 **	data blocks for the indirect move commands.
799 **
800 **----------------------------------------------------------
801 */
802 
803 struct dsb {
804 
805 	/*
806 	**	Header.
807 	**	Has to be the first entry,
808 	**	because it's jumped to by the
809 	**	script processor
810 	*/
811 
812 	struct head	header;
813 
814 	/*
815 	**	Table data for Script
816 	*/
817 
818 	struct scr_tblsel  select;
819 	struct scr_tblmove smsg  ;
820 	struct scr_tblmove smsg2 ;
821 	struct scr_tblmove cmd   ;
822 	struct scr_tblmove scmd  ;
823 	struct scr_tblmove sense ;
824 	struct scr_tblmove data [MAX_SCATTER];
825 };
826 
827 /*==========================================================
828 **
829 **      Declaration of structs:     Command control block.
830 **
831 **==========================================================
832 **
833 **	During execution of a nccb by the script processor,
834 **	the DSA (data structure address) register points
835 **	to this substructure of the nccb.
836 **	This substructure contains the header with
837 **	the script-processor-changable data and then
838 **	data blocks for the indirect move commands.
839 **
840 **----------------------------------------------------------
841 */
842 
843 
844 struct nccb {
845 	/*
846 	**	This filler ensures that the global header is
847 	**	cache line size aligned.
848 	*/
849 	ncrcmd	filler[4];
850 
851 	/*
852 	**	during reselection the ncr jumps to this point.
853 	**	If a "SIMPLE_TAG" message was received,
854 	**	then SFBR is set to the tag.
855 	**	else SFBR is set to 0
856 	**	If looking for another tag, jump to the next nccb.
857 	**
858 	**	JUMP  IF (SFBR != #TAG#)
859 	**	@(next nccb of this lun)
860 	*/
861 
862 	struct link		jump_nccb;
863 
864 	/*
865 	**	After execution of this call, the return address
866 	**	(in  the TEMP register) points to the following
867 	**	data structure block.
868 	**	So copy it to the DSA register, and start
869 	**	processing of this data structure.
870 	**
871 	**	CALL
872 	**	<RESEL_TMP>
873 	*/
874 
875 	struct link		call_tmp;
876 
877 	/*
878 	**	This is the data structure which is
879 	**	to be executed by the script processor.
880 	*/
881 
882 	struct dsb		phys;
883 
884 	/*
885 	**	If a data transfer phase is terminated too early
886 	**	(after reception of a message (i.e. DISCONNECT)),
887 	**	we have to prepare a mini script to transfer
888 	**	the rest of the data.
889 	*/
890 
891 	ncrcmd			patch[8];
892 
893 	/*
894 	**	The general SCSI driver provides a
895 	**	pointer to a control block.
896 	*/
897 
898 	union	ccb *ccb;
899 
900 	/*
901 	**	We prepare a message to be sent after selection,
902 	**	and a second one to be sent after getcc selection.
903 	**      Contents are IDENTIFY and SIMPLE_TAG.
904 	**	While negotiating sync or wide transfer,
905 	**	a SDTM or WDTM message is appended.
906 	*/
907 
908 	u_char			scsi_smsg [8];
909 	u_char			scsi_smsg2[8];
910 
911 	/*
912 	**	Lock this nccb.
913 	**	Flag is used while looking for a free nccb.
914 	*/
915 
916 	u_long		magic;
917 
918 	/*
919 	**	Physical address of this instance of nccb
920 	*/
921 
922 	u_long		p_nccb;
923 
924 	/*
925 	**	Completion time out for this job.
926 	**	It's set to time of start + allowed number of seconds.
927 	*/
928 
929 	time_t		tlimit;
930 
931 	/*
932 	**	All nccbs of one hostadapter are chained.
933 	*/
934 
935 	nccb_p		link_nccb;
936 
937 	/*
938 	**	All nccbs of one target/lun are chained.
939 	*/
940 
941 	nccb_p		next_nccb;
942 
943 	/*
944 	**	Sense command
945 	*/
946 
947 	u_char		sensecmd[6];
948 
949 	/*
950 	**	Tag for this transfer.
951 	**	It's patched into jump_nccb.
952 	**	If it's not zero, a SIMPLE_TAG
953 	**	message is included in smsg.
954 	*/
955 
956 	u_char			tag;
957 };
958 
959 #define CCB_PHYS(cp,lbl)	(cp->p_nccb + offsetof(struct nccb, lbl))
960 
961 /*==========================================================
962 **
963 **      Declaration of structs:     NCR device descriptor
964 **
965 **==========================================================
966 */
967 
968 struct ncb {
969 	/*
970 	**	The global header.
971 	**	Accessible to both the host and the
972 	**	script-processor.
973 	**	We assume it is cache line size aligned.
974 	*/
975 	struct head     header;
976 
977 	int	unit;
978 
979 	/*-----------------------------------------------
980 	**	Scripts ..
981 	**-----------------------------------------------
982 	**
983 	**	During reselection the ncr jumps to this point.
984 	**	The SFBR register is loaded with the encoded target id.
985 	**
986 	**	Jump to the first target.
987 	**
988 	**	JUMP
989 	**	@(next tcb)
990 	*/
991 	struct link     jump_tcb;
992 
993 	/*-----------------------------------------------
994 	**	Configuration ..
995 	**-----------------------------------------------
996 	**
997 	**	virtual and physical addresses
998 	**	of the 53c810 chip.
999 	*/
1000 	int		reg_rid;
1001 	struct resource *reg_res;
1002 	bus_space_tag_t	bst;
1003 	bus_space_handle_t bsh;
1004 
1005 	int		sram_rid;
1006 	struct resource *sram_res;
1007 	bus_space_tag_t	bst2;
1008 	bus_space_handle_t bsh2;
1009 
1010 	struct resource *irq_res;
1011 	void		*irq_handle;
1012 
1013 	/*
1014 	**	Scripts instance virtual address.
1015 	*/
1016 	struct script	*script;
1017 	struct scripth	*scripth;
1018 
1019 	/*
1020 	**	Scripts instance physical address.
1021 	*/
1022 	u_long		p_script;
1023 	u_long		p_scripth;
1024 
1025 	/*
1026 	**	The SCSI address of the host adapter.
1027 	*/
1028 	u_char		myaddr;
1029 
1030 	/*
1031 	**	timing parameters
1032 	*/
1033 	u_char		minsync;	/* Minimum sync period factor	*/
1034 	u_char		maxsync;	/* Maximum sync period factor	*/
1035 	u_char		maxoffs;	/* Max scsi offset		*/
1036 	u_char		clock_divn;	/* Number of clock divisors	*/
1037 	u_long		clock_khz;	/* SCSI clock frequency in KHz	*/
1038 	u_long		features;	/* Chip features map		*/
1039 	u_char		multiplier;	/* Clock multiplier (1,2,4)	*/
1040 
1041 	u_char		maxburst;	/* log base 2 of dwords burst	*/
1042 
1043 	/*
1044 	**	BIOS supplied PCI bus options
1045 	*/
1046 	u_char		rv_scntl3;
1047 	u_char		rv_dcntl;
1048 	u_char		rv_dmode;
1049 	u_char		rv_ctest3;
1050 	u_char		rv_ctest4;
1051 	u_char		rv_ctest5;
1052 	u_char		rv_gpcntl;
1053 	u_char		rv_stest2;
1054 
1055 	/*-----------------------------------------------
1056 	**	CAM SIM information for this instance
1057 	**-----------------------------------------------
1058 	*/
1059 
1060 	struct		cam_sim  *sim;
1061 	struct		cam_path *path;
1062 
1063 	/*-----------------------------------------------
1064 	**	Job control
1065 	**-----------------------------------------------
1066 	**
1067 	**	Commands from user
1068 	*/
1069 	struct usrcmd	user;
1070 
1071 	/*
1072 	**	Target data
1073 	*/
1074 	struct tcb	target[MAX_TARGET];
1075 
1076 	/*
1077 	**	Start queue.
1078 	*/
1079 	u_int32_t	squeue [MAX_START];
1080 	u_short		squeueput;
1081 
1082 	/*
1083 	**	Timeout handler
1084 	*/
1085 	time_t		heartbeat;
1086 	u_short		ticks;
1087 	u_short		latetime;
1088 	time_t		lasttime;
1089 	struct		callout_handle timeout_ch;
1090 
1091 	/*-----------------------------------------------
1092 	**	Debug and profiling
1093 	**-----------------------------------------------
1094 	**
1095 	**	register dump
1096 	*/
1097 	struct ncr_reg	regdump;
1098 	time_t		regtime;
1099 
1100 	/*
1101 	**	Profiling data
1102 	*/
1103 	struct profile	profile;
1104 	u_long		disc_phys;
1105 	u_long		disc_ref;
1106 
1107 	/*
1108 	**	Head of list of all nccbs for this controller.
1109 	*/
1110 	nccb_p		link_nccb;
1111 
1112 	/*
1113 	**	message buffers.
1114 	**	Should be longword aligned,
1115 	**	because they're written with a
1116 	**	COPY script command.
1117 	*/
1118 	u_char		msgout[8];
1119 	u_char		msgin [8];
1120 	u_int32_t	lastmsg;
1121 
1122 	/*
1123 	**	Buffer for STATUS_IN phase.
1124 	*/
1125 	u_char		scratch;
1126 
1127 	/*
1128 	**	controller chip dependent maximal transfer width.
1129 	*/
1130 	u_char		maxwide;
1131 
1132 #ifdef NCR_IOMAPPED
1133 	/*
1134 	**	address of the ncr control registers in io space
1135 	*/
1136 	pci_port_t	port;
1137 #endif
1138 };
1139 
1140 #define NCB_SCRIPT_PHYS(np,lbl)	(np->p_script + offsetof (struct script, lbl))
1141 #define NCB_SCRIPTH_PHYS(np,lbl) (np->p_scripth + offsetof (struct scripth,lbl))
1142 
1143 /*==========================================================
1144 **
1145 **
1146 **      Script for NCR-Processor.
1147 **
1148 **	Use ncr_script_fill() to create the variable parts.
1149 **	Use ncr_script_copy_and_bind() to make a copy and
1150 **	bind to physical addresses.
1151 **
1152 **
1153 **==========================================================
1154 **
1155 **	We have to know the offsets of all labels before
1156 **	we reach them (for forward jumps).
1157 **	Therefore we declare a struct here.
1158 **	If you make changes inside the script,
1159 **	DONT FORGET TO CHANGE THE LENGTHS HERE!
1160 **
1161 **----------------------------------------------------------
1162 */
1163 
1164 /*
1165 **	Script fragments which are loaded into the on-board RAM
1166 **	of 825A, 875 and 895 chips.
1167 */
1168 struct script {
1169 	ncrcmd	start		[  7];
1170 	ncrcmd	start0		[  2];
1171 	ncrcmd	start1		[  3];
1172 	ncrcmd  startpos	[  1];
1173 	ncrcmd  trysel		[  8];
1174 	ncrcmd	skip		[  8];
1175 	ncrcmd	skip2		[  3];
1176 	ncrcmd  idle		[  2];
1177 	ncrcmd	select		[ 18];
1178 	ncrcmd	prepare		[  4];
1179 	ncrcmd	loadpos		[ 14];
1180 	ncrcmd	prepare2	[ 24];
1181 	ncrcmd	setmsg		[  5];
1182 	ncrcmd  clrack		[  2];
1183 	ncrcmd  dispatch	[ 33];
1184 	ncrcmd	no_data		[ 17];
1185 	ncrcmd  checkatn	[ 10];
1186 	ncrcmd  command		[ 15];
1187 	ncrcmd  status		[ 27];
1188 	ncrcmd  msg_in		[ 26];
1189 	ncrcmd  msg_bad		[  6];
1190 	ncrcmd  complete	[ 13];
1191 	ncrcmd	cleanup		[ 12];
1192 	ncrcmd	cleanup0	[  9];
1193 	ncrcmd	signal		[ 12];
1194 	ncrcmd  save_dp		[  5];
1195 	ncrcmd  restore_dp	[  5];
1196 	ncrcmd  disconnect	[ 12];
1197 	ncrcmd  disconnect0	[  5];
1198 	ncrcmd  disconnect1	[ 23];
1199 	ncrcmd	msg_out		[  9];
1200 	ncrcmd	msg_out_done	[  7];
1201 	ncrcmd  badgetcc	[  6];
1202 	ncrcmd	reselect	[  8];
1203 	ncrcmd	reselect1	[  8];
1204 	ncrcmd	reselect2	[  8];
1205 	ncrcmd	resel_tmp	[  5];
1206 	ncrcmd  resel_lun	[ 18];
1207 	ncrcmd	resel_tag	[ 24];
1208 	ncrcmd  data_in		[MAX_SCATTER * 4 + 7];
1209 	ncrcmd  data_out	[MAX_SCATTER * 4 + 7];
1210 };
1211 
1212 /*
1213 **	Script fragments which stay in main memory for all chips.
1214 */
1215 struct scripth {
1216 	ncrcmd  tryloop		[MAX_START*5+2];
1217 	ncrcmd  msg_parity	[  6];
1218 	ncrcmd	msg_reject	[  8];
1219 	ncrcmd	msg_ign_residue	[ 32];
1220 	ncrcmd  msg_extended	[ 18];
1221 	ncrcmd  msg_ext_2	[ 18];
1222 	ncrcmd	msg_wdtr	[ 27];
1223 	ncrcmd  msg_ext_3	[ 18];
1224 	ncrcmd	msg_sdtr	[ 27];
1225 	ncrcmd	msg_out_abort	[ 10];
1226 	ncrcmd  getcc		[  4];
1227 	ncrcmd  getcc1		[  5];
1228 #ifdef NCR_GETCC_WITHMSG
1229 	ncrcmd	getcc2		[ 29];
1230 #else
1231 	ncrcmd	getcc2		[ 14];
1232 #endif
1233 	ncrcmd	getcc3		[  6];
1234 	ncrcmd	aborttag	[  4];
1235 	ncrcmd	abort		[ 22];
1236 	ncrcmd	snooptest	[  9];
1237 	ncrcmd	snoopend	[  2];
1238 };
1239 
1240 /*==========================================================
1241 **
1242 **
1243 **      Function headers.
1244 **
1245 **
1246 **==========================================================
1247 */
1248 
1249 #ifdef _KERNEL
1250 static	nccb_p	ncr_alloc_nccb(ncb_p np, u_long target, u_long lun);
1251 static	void	ncr_complete(ncb_p np, nccb_p cp);
1252 static	int	ncr_delta(int * from, int * to);
1253 static	void	ncr_exception(ncb_p np);
1254 static	void	ncr_free_nccb(ncb_p np, nccb_p cp);
1255 static	void	ncr_freeze_devq(ncb_p np, struct cam_path *path);
1256 static	void	ncr_selectclock(ncb_p np, u_char scntl3);
1257 static	void	ncr_getclock(ncb_p np, u_char multiplier);
1258 static	nccb_p	ncr_get_nccb(ncb_p np, u_long t,u_long l);
1259 #if 0
1260 static  u_int32_t ncr_info(int unit);
1261 #endif
1262 static	void	ncr_init(ncb_p np, char * msg, u_long code);
1263 static	void	ncr_intr(void *vnp);
1264 static	void	ncr_int_ma(ncb_p np, u_char dstat);
1265 static	void	ncr_int_sir(ncb_p np);
1266 static  void    ncr_int_sto(ncb_p np);
1267 #if 0
1268 static	void	ncr_min_phys(struct buf *bp);
1269 #endif
1270 static	void	ncr_poll(struct cam_sim *sim);
1271 static	void	ncb_profile(ncb_p np, nccb_p cp);
1272 static	void	ncr_script_copy_and_bind(ncb_p np, ncrcmd *src, ncrcmd *dst,
1273 		    int len);
1274 static  void    ncr_script_fill(struct script * scr, struct scripth *scrh);
1275 static	int	ncr_scatter(struct dsb* phys, vm_offset_t vaddr,
1276 		    vm_size_t datalen);
1277 static	void	ncr_getsync(ncb_p np, u_char sfac, u_char *fakp,
1278 		    u_char *scntl3p);
1279 static	void	ncr_setsync(ncb_p np, nccb_p cp,u_char scntl3,u_char sxfer,
1280 		    u_char period);
1281 static	void	ncr_setwide(ncb_p np, nccb_p cp, u_char wide, u_char ack);
1282 static	int	ncr_show_msg(u_char * msg);
1283 static	int	ncr_snooptest(ncb_p np);
1284 static	void	ncr_action(struct cam_sim *sim, union ccb *ccb);
1285 static	void	ncr_timeout(void *arg);
1286 static  void    ncr_wakeup(ncb_p np, u_long code);
1287 
1288 static  int	ncr_probe(device_t dev);
1289 static	int	ncr_attach(device_t dev);
1290 
1291 #endif /* _KERNEL */
1292 
1293 /*==========================================================
1294 **
1295 **
1296 **      Global static data.
1297 **
1298 **
1299 **==========================================================
1300 */
1301 
1302 static const u_long	ncr_version = NCR_VERSION	* 11
1303 	+ (u_long) sizeof (struct ncb)	*  7
1304 	+ (u_long) sizeof (struct nccb)	*  5
1305 	+ (u_long) sizeof (struct lcb)	*  3
1306 	+ (u_long) sizeof (struct tcb)	*  2;
1307 
1308 #ifdef _KERNEL
1309 
1310 static int ncr_debug = SCSI_NCR_DEBUG;
1311 SYSCTL_INT(_debug, OID_AUTO, ncr_debug, CTLFLAG_RW, &ncr_debug, 0, "");
1312 
1313 static int ncr_cache; /* to be aligned _NOT_ static */
1314 
1315 /*==========================================================
1316 **
1317 **
1318 **      Global static data:	auto configure
1319 **
1320 **
1321 **==========================================================
1322 */
1323 
1324 #define	NCR_810_ID	(0x00011000ul)
1325 #define	NCR_815_ID	(0x00041000ul)
1326 #define	NCR_820_ID	(0x00021000ul)
1327 #define	NCR_825_ID	(0x00031000ul)
1328 #define	NCR_860_ID	(0x00061000ul)
1329 #define	NCR_875_ID	(0x000f1000ul)
1330 #define	NCR_875_ID2	(0x008f1000ul)
1331 #define	NCR_885_ID	(0x000d1000ul)
1332 #define	NCR_895_ID	(0x000c1000ul)
1333 #define	NCR_896_ID	(0x000b1000ul)
1334 #define	NCR_895A_ID	(0x00121000ul)
1335 #define	NCR_1510D_ID	(0x000a1000ul)
1336 
1337 
ncr_name(ncb_p np)1338 static char *ncr_name (ncb_p np)
1339 {
1340 	static char name[10];
1341 	snprintf(name, sizeof(name), "ncr%d", np->unit);
1342 	return (name);
1343 }
1344 
1345 /*==========================================================
1346 **
1347 **
1348 **      Scripts for NCR-Processor.
1349 **
1350 **      Use ncr_script_bind for binding to physical addresses.
1351 **
1352 **
1353 **==========================================================
1354 **
1355 **	NADDR generates a reference to a field of the controller data.
1356 **	PADDR generates a reference to another part of the script.
1357 **	RADDR generates a reference to a script processor register.
1358 **	FADDR generates a reference to a script processor register
1359 **		with offset.
1360 **
1361 **----------------------------------------------------------
1362 */
1363 
1364 #define	RELOC_SOFTC	0x40000000
1365 #define	RELOC_LABEL	0x50000000
1366 #define	RELOC_REGISTER	0x60000000
1367 #define	RELOC_KVAR	0x70000000
1368 #define	RELOC_LABELH	0x80000000
1369 #define	RELOC_MASK	0xf0000000
1370 
1371 #define	NADDR(label)	(RELOC_SOFTC | offsetof(struct ncb, label))
1372 #define PADDR(label)    (RELOC_LABEL | offsetof(struct script, label))
1373 #define PADDRH(label)   (RELOC_LABELH | offsetof(struct scripth, label))
1374 #define	RADDR(label)	(RELOC_REGISTER | REG(label))
1375 #define	FADDR(label,ofs)(RELOC_REGISTER | ((REG(label))+(ofs)))
1376 #define	KVAR(which)	(RELOC_KVAR | (which))
1377 
1378 #define KVAR_SECOND			(0)
1379 #define KVAR_TICKS			(1)
1380 #define KVAR_NCR_CACHE			(2)
1381 
1382 #define	SCRIPT_KVAR_FIRST		(0)
1383 #define	SCRIPT_KVAR_LAST		(3)
1384 
1385 /*
1386  * Kernel variables referenced in the scripts.
1387  * THESE MUST ALL BE ALIGNED TO A 4-BYTE BOUNDARY.
1388  */
1389 static volatile void *script_kvars[] =
1390 	{ &time_second, &ticks, &ncr_cache };
1391 
1392 static	struct script script0 = {
1393 /*--------------------------< START >-----------------------*/ {
1394 	/*
1395 	**	Claim to be still alive ...
1396 	*/
1397 	SCR_COPY (sizeof (((struct ncb *)0)->heartbeat)),
1398 		KVAR (KVAR_SECOND),
1399 		NADDR (heartbeat),
1400 	/*
1401 	**      Make data structure address invalid.
1402 	**      clear SIGP.
1403 	*/
1404 	SCR_LOAD_REG (dsa, 0xff),
1405 		0,
1406 	SCR_FROM_REG (ctest2),
1407 		0,
1408 }/*-------------------------< START0 >----------------------*/,{
1409 	/*
1410 	**	Hook for interrupted GetConditionCode.
1411 	**	Will be patched to ... IFTRUE by
1412 	**	the interrupt handler.
1413 	*/
1414 	SCR_INT ^ IFFALSE (0),
1415 		SIR_SENSE_RESTART,
1416 
1417 }/*-------------------------< START1 >----------------------*/,{
1418 	/*
1419 	**	Hook for stalled start queue.
1420 	**	Will be patched to IFTRUE by the interrupt handler.
1421 	*/
1422 	SCR_INT ^ IFFALSE (0),
1423 		SIR_STALL_RESTART,
1424 	/*
1425 	**	Then jump to a certain point in tryloop.
1426 	**	Due to the lack of indirect addressing the code
1427 	**	is self modifying here.
1428 	*/
1429 	SCR_JUMP,
1430 }/*-------------------------< STARTPOS >--------------------*/,{
1431 		PADDRH(tryloop),
1432 
1433 }/*-------------------------< TRYSEL >----------------------*/,{
1434 	/*
1435 	**	Now:
1436 	**	DSA: Address of a Data Structure
1437 	**	or   Address of the IDLE-Label.
1438 	**
1439 	**	TEMP:	Address of a script, which tries to
1440 	**		start the NEXT entry.
1441 	**
1442 	**	Save the TEMP register into the SCRATCHA register.
1443 	**	Then copy the DSA to TEMP and RETURN.
1444 	**	This is kind of an indirect jump.
1445 	**	(The script processor has NO stack, so the
1446 	**	CALL is actually a jump and link, and the
1447 	**	RETURN is an indirect jump.)
1448 	**
1449 	**	If the slot was empty, DSA contains the address
1450 	**	of the IDLE part of this script. The processor
1451 	**	jumps to IDLE and waits for a reselect.
1452 	**	It will wake up and try the same slot again
1453 	**	after the SIGP bit becomes set by the host.
1454 	**
1455 	**	If the slot was not empty, DSA contains
1456 	**	the address of the phys-part of a nccb.
1457 	**	The processor jumps to this address.
1458 	**	phys starts with head,
1459 	**	head starts with launch,
1460 	**	so actually the processor jumps to
1461 	**	the lauch part.
1462 	**	If the entry is scheduled for execution,
1463 	**	then launch contains a jump to SELECT.
1464 	**	If it's not scheduled, it contains a jump to IDLE.
1465 	*/
1466 	SCR_COPY (4),
1467 		RADDR (temp),
1468 		RADDR (scratcha),
1469 	SCR_COPY (4),
1470 		RADDR (dsa),
1471 		RADDR (temp),
1472 	SCR_RETURN,
1473 		0
1474 
1475 }/*-------------------------< SKIP >------------------------*/,{
1476 	/*
1477 	**	This entry has been canceled.
1478 	**	Next time use the next slot.
1479 	*/
1480 	SCR_COPY (4),
1481 		RADDR (scratcha),
1482 		PADDR (startpos),
1483 	/*
1484 	**	patch the launch field.
1485 	**	should look like an idle process.
1486 	*/
1487 	SCR_COPY_F (4),
1488 		RADDR (dsa),
1489 		PADDR (skip2),
1490 	SCR_COPY (8),
1491 		PADDR (idle),
1492 }/*-------------------------< SKIP2 >-----------------------*/,{
1493 		0,
1494 	SCR_JUMP,
1495 		PADDR(start),
1496 }/*-------------------------< IDLE >------------------------*/,{
1497 	/*
1498 	**	Nothing to do?
1499 	**	Wait for reselect.
1500 	*/
1501 	SCR_JUMP,
1502 		PADDR(reselect),
1503 
1504 }/*-------------------------< SELECT >----------------------*/,{
1505 	/*
1506 	**	DSA	contains the address of a scheduled
1507 	**		data structure.
1508 	**
1509 	**	SCRATCHA contains the address of the script,
1510 	**		which starts the next entry.
1511 	**
1512 	**	Set Initiator mode.
1513 	**
1514 	**	(Target mode is left as an exercise for the reader)
1515 	*/
1516 
1517 	SCR_CLR (SCR_TRG),
1518 		0,
1519 	SCR_LOAD_REG (HS_REG, 0xff),
1520 		0,
1521 
1522 	/*
1523 	**      And try to select this target.
1524 	*/
1525 	SCR_SEL_TBL_ATN ^ offsetof (struct dsb, select),
1526 		PADDR (reselect),
1527 
1528 	/*
1529 	**	Now there are 4 possibilities:
1530 	**
1531 	**	(1) The ncr loses arbitration.
1532 	**	This is ok, because it will try again,
1533 	**	when the bus becomes idle.
1534 	**	(But beware of the timeout function!)
1535 	**
1536 	**	(2) The ncr is reselected.
1537 	**	Then the script processor takes the jump
1538 	**	to the RESELECT label.
1539 	**
1540 	**	(3) The ncr completes the selection.
1541 	**	Then it will execute the next statement.
1542 	**
1543 	**	(4) There is a selection timeout.
1544 	**	Then the ncr should interrupt the host and stop.
1545 	**	Unfortunately, it seems to continue execution
1546 	**	of the script. But it will fail with an
1547 	**	IID-interrupt on the next WHEN.
1548 	*/
1549 
1550 	SCR_JUMPR ^ IFTRUE (WHEN (SCR_MSG_IN)),
1551 		0,
1552 
1553 	/*
1554 	**	Send the IDENTIFY and SIMPLE_TAG messages
1555 	**	(and the MSG_EXT_SDTR message)
1556 	*/
1557 	SCR_MOVE_TBL ^ SCR_MSG_OUT,
1558 		offsetof (struct dsb, smsg),
1559 #ifdef undef /* XXX better fail than try to deal with this ... */
1560 	SCR_JUMPR ^ IFTRUE (WHEN (SCR_MSG_OUT)),
1561 		-16,
1562 #endif
1563 	SCR_CLR (SCR_ATN),
1564 		0,
1565 	SCR_COPY (1),
1566 		RADDR (sfbr),
1567 		NADDR (lastmsg),
1568 	/*
1569 	**	Selection complete.
1570 	**	Next time use the next slot.
1571 	*/
1572 	SCR_COPY (4),
1573 		RADDR (scratcha),
1574 		PADDR (startpos),
1575 }/*-------------------------< PREPARE >----------------------*/,{
1576 	/*
1577 	**      The ncr doesn't have an indirect load
1578 	**	or store command. So we have to
1579 	**	copy part of the control block to a
1580 	**	fixed place, where we can access it.
1581 	**
1582 	**	We patch the address part of a
1583 	**	COPY command with the DSA-register.
1584 	*/
1585 	SCR_COPY_F (4),
1586 		RADDR (dsa),
1587 		PADDR (loadpos),
1588 	/*
1589 	**	then we do the actual copy.
1590 	*/
1591 	SCR_COPY (sizeof (struct head)),
1592 	/*
1593 	**	continued after the next label ...
1594 	*/
1595 
1596 }/*-------------------------< LOADPOS >---------------------*/,{
1597 		0,
1598 		NADDR (header),
1599 	/*
1600 	**      Mark this nccb as not scheduled.
1601 	*/
1602 	SCR_COPY (8),
1603 		PADDR (idle),
1604 		NADDR (header.launch),
1605 	/*
1606 	**      Set a time stamp for this selection
1607 	*/
1608 	SCR_COPY (sizeof (ticks)),
1609 		KVAR (KVAR_TICKS),
1610 		NADDR (header.stamp.select),
1611 	/*
1612 	**      load the savep (saved pointer) into
1613 	**      the TEMP register (actual pointer)
1614 	*/
1615 	SCR_COPY (4),
1616 		NADDR (header.savep),
1617 		RADDR (temp),
1618 	/*
1619 	**      Initialize the status registers
1620 	*/
1621 	SCR_COPY (4),
1622 		NADDR (header.status),
1623 		RADDR (scr0),
1624 
1625 }/*-------------------------< PREPARE2 >---------------------*/,{
1626 	/*
1627 	**      Load the synchronous mode register
1628 	*/
1629 	SCR_COPY (1),
1630 		NADDR (sync_st),
1631 		RADDR (sxfer),
1632 	/*
1633 	**      Load the wide mode and timing register
1634 	*/
1635 	SCR_COPY (1),
1636 		NADDR (wide_st),
1637 		RADDR (scntl3),
1638 	/*
1639 	**	Initialize the msgout buffer with a NOOP message.
1640 	*/
1641 	SCR_LOAD_REG (scratcha, MSG_NOOP),
1642 		0,
1643 	SCR_COPY (1),
1644 		RADDR (scratcha),
1645 		NADDR (msgout),
1646 	SCR_COPY (1),
1647 		RADDR (scratcha),
1648 		NADDR (msgin),
1649 	/*
1650 	**	Message in phase ?
1651 	*/
1652 	SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)),
1653 		PADDR (dispatch),
1654 	/*
1655 	**	Extended or reject message ?
1656 	*/
1657 	SCR_FROM_REG (sbdl),
1658 		0,
1659 	SCR_JUMP ^ IFTRUE (DATA (MSG_EXTENDED)),
1660 		PADDR (msg_in),
1661 	SCR_JUMP ^ IFTRUE (DATA (MSG_MESSAGE_REJECT)),
1662 		PADDRH (msg_reject),
1663 	/*
1664 	**	normal processing
1665 	*/
1666 	SCR_JUMP,
1667 		PADDR (dispatch),
1668 }/*-------------------------< SETMSG >----------------------*/,{
1669 	SCR_COPY (1),
1670 		RADDR (scratcha),
1671 		NADDR (msgout),
1672 	SCR_SET (SCR_ATN),
1673 		0,
1674 }/*-------------------------< CLRACK >----------------------*/,{
1675 	/*
1676 	**	Terminate possible pending message phase.
1677 	*/
1678 	SCR_CLR (SCR_ACK),
1679 		0,
1680 
1681 }/*-----------------------< DISPATCH >----------------------*/,{
1682 	SCR_FROM_REG (HS_REG),
1683 		0,
1684 	SCR_INT ^ IFTRUE (DATA (HS_NEGOTIATE)),
1685 		SIR_NEGO_FAILED,
1686 	/*
1687 	**	remove bogus output signals
1688 	*/
1689 	SCR_REG_REG (socl, SCR_AND, CACK|CATN),
1690 		0,
1691 	SCR_RETURN ^ IFTRUE (WHEN (SCR_DATA_OUT)),
1692 		0,
1693 	SCR_RETURN ^ IFTRUE (IF (SCR_DATA_IN)),
1694 		0,
1695 	SCR_JUMP ^ IFTRUE (IF (SCR_MSG_OUT)),
1696 		PADDR (msg_out),
1697 	SCR_JUMP ^ IFTRUE (IF (SCR_MSG_IN)),
1698 		PADDR (msg_in),
1699 	SCR_JUMP ^ IFTRUE (IF (SCR_COMMAND)),
1700 		PADDR (command),
1701 	SCR_JUMP ^ IFTRUE (IF (SCR_STATUS)),
1702 		PADDR (status),
1703 	/*
1704 	**      Discard one illegal phase byte, if required.
1705 	*/
1706 	SCR_LOAD_REG (scratcha, XE_BAD_PHASE),
1707 		0,
1708 	SCR_COPY (1),
1709 		RADDR (scratcha),
1710 		NADDR (xerr_st),
1711 	SCR_JUMPR ^ IFFALSE (IF (SCR_ILG_OUT)),
1712 		8,
1713 	SCR_MOVE_ABS (1) ^ SCR_ILG_OUT,
1714 		NADDR (scratch),
1715 	SCR_JUMPR ^ IFFALSE (IF (SCR_ILG_IN)),
1716 		8,
1717 	SCR_MOVE_ABS (1) ^ SCR_ILG_IN,
1718 		NADDR (scratch),
1719 	SCR_JUMP,
1720 		PADDR (dispatch),
1721 
1722 }/*-------------------------< NO_DATA >--------------------*/,{
1723 	/*
1724 	**	The target wants to tranfer too much data
1725 	**	or in the wrong direction.
1726 	**      Remember that in extended error.
1727 	*/
1728 	SCR_LOAD_REG (scratcha, XE_EXTRA_DATA),
1729 		0,
1730 	SCR_COPY (1),
1731 		RADDR (scratcha),
1732 		NADDR (xerr_st),
1733 	/*
1734 	**      Discard one data byte, if required.
1735 	*/
1736 	SCR_JUMPR ^ IFFALSE (WHEN (SCR_DATA_OUT)),
1737 		8,
1738 	SCR_MOVE_ABS (1) ^ SCR_DATA_OUT,
1739 		NADDR (scratch),
1740 	SCR_JUMPR ^ IFFALSE (IF (SCR_DATA_IN)),
1741 		8,
1742 	SCR_MOVE_ABS (1) ^ SCR_DATA_IN,
1743 		NADDR (scratch),
1744 	/*
1745 	**      .. and repeat as required.
1746 	*/
1747 	SCR_CALL,
1748 		PADDR (dispatch),
1749 	SCR_JUMP,
1750 		PADDR (no_data),
1751 }/*-------------------------< CHECKATN >--------------------*/,{
1752 	/*
1753 	**	If AAP (bit 1 of scntl0 register) is set
1754 	**	and a parity error is detected,
1755 	**	the script processor asserts ATN.
1756 	**
1757 	**	The target should switch to a MSG_OUT phase
1758 	**	to get the message.
1759 	*/
1760 	SCR_FROM_REG (socl),
1761 		0,
1762 	SCR_JUMP ^ IFFALSE (MASK (CATN, CATN)),
1763 		PADDR (dispatch),
1764 	/*
1765 	**	count it
1766 	*/
1767 	SCR_REG_REG (PS_REG, SCR_ADD, 1),
1768 		0,
1769 	/*
1770 	**	Prepare a MSG_INITIATOR_DET_ERR message
1771 	**	(initiator detected error).
1772 	**	The target should retry the transfer.
1773 	*/
1774 	SCR_LOAD_REG (scratcha, MSG_INITIATOR_DET_ERR),
1775 		0,
1776 	SCR_JUMP,
1777 		PADDR (setmsg),
1778 
1779 }/*-------------------------< COMMAND >--------------------*/,{
1780 	/*
1781 	**	If this is not a GETCC transfer ...
1782 	*/
1783 	SCR_FROM_REG (SS_REG),
1784 		0,
1785 /*<<<*/	SCR_JUMPR ^ IFTRUE (DATA (SCSI_STATUS_CHECK_COND)),
1786 		28,
1787 	/*
1788 	**	... set a timestamp ...
1789 	*/
1790 	SCR_COPY (sizeof (ticks)),
1791 		KVAR (KVAR_TICKS),
1792 		NADDR (header.stamp.command),
1793 	/*
1794 	**	... and send the command
1795 	*/
1796 	SCR_MOVE_TBL ^ SCR_COMMAND,
1797 		offsetof (struct dsb, cmd),
1798 	SCR_JUMP,
1799 		PADDR (dispatch),
1800 	/*
1801 	**	Send the GETCC command
1802 	*/
1803 /*>>>*/	SCR_MOVE_TBL ^ SCR_COMMAND,
1804 		offsetof (struct dsb, scmd),
1805 	SCR_JUMP,
1806 		PADDR (dispatch),
1807 
1808 }/*-------------------------< STATUS >--------------------*/,{
1809 	/*
1810 	**	set the timestamp.
1811 	*/
1812 	SCR_COPY (sizeof (ticks)),
1813 		KVAR (KVAR_TICKS),
1814 		NADDR (header.stamp.status),
1815 	/*
1816 	**	If this is a GETCC transfer,
1817 	*/
1818 	SCR_FROM_REG (SS_REG),
1819 		0,
1820 /*<<<*/	SCR_JUMPR ^ IFFALSE (DATA (SCSI_STATUS_CHECK_COND)),
1821 		40,
1822 	/*
1823 	**	get the status
1824 	*/
1825 	SCR_MOVE_ABS (1) ^ SCR_STATUS,
1826 		NADDR (scratch),
1827 	/*
1828 	**	Save status to scsi_status.
1829 	**	Mark as complete.
1830 	**	And wait for disconnect.
1831 	*/
1832 	SCR_TO_REG (SS_REG),
1833 		0,
1834 	SCR_REG_REG (SS_REG, SCR_OR, SCSI_STATUS_SENSE),
1835 		0,
1836 	SCR_LOAD_REG (HS_REG, HS_COMPLETE),
1837 		0,
1838 	SCR_JUMP,
1839 		PADDR (checkatn),
1840 	/*
1841 	**	If it was no GETCC transfer,
1842 	**	save the status to scsi_status.
1843 	*/
1844 /*>>>*/	SCR_MOVE_ABS (1) ^ SCR_STATUS,
1845 		NADDR (scratch),
1846 	SCR_TO_REG (SS_REG),
1847 		0,
1848 	/*
1849 	**	if it was no check condition ...
1850 	*/
1851 	SCR_JUMP ^ IFTRUE (DATA (SCSI_STATUS_CHECK_COND)),
1852 		PADDR (checkatn),
1853 	/*
1854 	**	... mark as complete.
1855 	*/
1856 	SCR_LOAD_REG (HS_REG, HS_COMPLETE),
1857 		0,
1858 	SCR_JUMP,
1859 		PADDR (checkatn),
1860 
1861 }/*-------------------------< MSG_IN >--------------------*/,{
1862 	/*
1863 	**	Get the first byte of the message
1864 	**	and save it to SCRATCHA.
1865 	**
1866 	**	The script processor doesn't negate the
1867 	**	ACK signal after this transfer.
1868 	*/
1869 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
1870 		NADDR (msgin[0]),
1871 	/*
1872 	**	Check for message parity error.
1873 	*/
1874 	SCR_TO_REG (scratcha),
1875 		0,
1876 	SCR_FROM_REG (socl),
1877 		0,
1878 	SCR_JUMP ^ IFTRUE (MASK (CATN, CATN)),
1879 		PADDRH (msg_parity),
1880 	SCR_FROM_REG (scratcha),
1881 		0,
1882 	/*
1883 	**	Parity was ok, handle this message.
1884 	*/
1885 	SCR_JUMP ^ IFTRUE (DATA (MSG_CMDCOMPLETE)),
1886 		PADDR (complete),
1887 	SCR_JUMP ^ IFTRUE (DATA (MSG_SAVEDATAPOINTER)),
1888 		PADDR (save_dp),
1889 	SCR_JUMP ^ IFTRUE (DATA (MSG_RESTOREPOINTERS)),
1890 		PADDR (restore_dp),
1891 	SCR_JUMP ^ IFTRUE (DATA (MSG_DISCONNECT)),
1892 		PADDR (disconnect),
1893 	SCR_JUMP ^ IFTRUE (DATA (MSG_EXTENDED)),
1894 		PADDRH (msg_extended),
1895 	SCR_JUMP ^ IFTRUE (DATA (MSG_NOOP)),
1896 		PADDR (clrack),
1897 	SCR_JUMP ^ IFTRUE (DATA (MSG_MESSAGE_REJECT)),
1898 		PADDRH (msg_reject),
1899 	SCR_JUMP ^ IFTRUE (DATA (MSG_IGN_WIDE_RESIDUE)),
1900 		PADDRH (msg_ign_residue),
1901 	/*
1902 	**	Rest of the messages left as
1903 	**	an exercise ...
1904 	**
1905 	**	Unimplemented messages:
1906 	**	fall through to MSG_BAD.
1907 	*/
1908 }/*-------------------------< MSG_BAD >------------------*/,{
1909 	/*
1910 	**	unimplemented message - reject it.
1911 	*/
1912 	SCR_INT,
1913 		SIR_REJECT_SENT,
1914 	SCR_LOAD_REG (scratcha, MSG_MESSAGE_REJECT),
1915 		0,
1916 	SCR_JUMP,
1917 		PADDR (setmsg),
1918 
1919 }/*-------------------------< COMPLETE >-----------------*/,{
1920 	/*
1921 	**	Complete message.
1922 	**
1923 	**	If it's not the get condition code,
1924 	**	copy TEMP register to LASTP in header.
1925 	*/
1926 	SCR_FROM_REG (SS_REG),
1927 		0,
1928 /*<<<*/	SCR_JUMPR ^ IFTRUE (MASK (SCSI_STATUS_SENSE, SCSI_STATUS_SENSE)),
1929 		12,
1930 	SCR_COPY (4),
1931 		RADDR (temp),
1932 		NADDR (header.lastp),
1933 /*>>>*/	/*
1934 	**	When we terminate the cycle by clearing ACK,
1935 	**	the target may disconnect immediately.
1936 	**
1937 	**	We don't want to be told of an
1938 	**	"unexpected disconnect",
1939 	**	so we disable this feature.
1940 	*/
1941 	SCR_REG_REG (scntl2, SCR_AND, 0x7f),
1942 		0,
1943 	/*
1944 	**	Terminate cycle ...
1945 	*/
1946 	SCR_CLR (SCR_ACK|SCR_ATN),
1947 		0,
1948 	/*
1949 	**	... and wait for the disconnect.
1950 	*/
1951 	SCR_WAIT_DISC,
1952 		0,
1953 }/*-------------------------< CLEANUP >-------------------*/,{
1954 	/*
1955 	**      dsa:    Pointer to nccb
1956 	**	      or xxxxxxFF (no nccb)
1957 	**
1958 	**      HS_REG:   Host-Status (<>0!)
1959 	*/
1960 	SCR_FROM_REG (dsa),
1961 		0,
1962 	SCR_JUMP ^ IFTRUE (DATA (0xff)),
1963 		PADDR (signal),
1964 	/*
1965 	**      dsa is valid.
1966 	**	save the status registers
1967 	*/
1968 	SCR_COPY (4),
1969 		RADDR (scr0),
1970 		NADDR (header.status),
1971 	/*
1972 	**	and copy back the header to the nccb.
1973 	*/
1974 	SCR_COPY_F (4),
1975 		RADDR (dsa),
1976 		PADDR (cleanup0),
1977 	SCR_COPY (sizeof (struct head)),
1978 		NADDR (header),
1979 }/*-------------------------< CLEANUP0 >--------------------*/,{
1980 		0,
1981 
1982 	/*
1983 	**	If command resulted in "check condition"
1984 	**	status and is not yet completed,
1985 	**	try to get the condition code.
1986 	*/
1987 	SCR_FROM_REG (HS_REG),
1988 		0,
1989 /*<<<*/	SCR_JUMPR ^ IFFALSE (MASK (0, HS_DONEMASK)),
1990 		16,
1991 	SCR_FROM_REG (SS_REG),
1992 		0,
1993 	SCR_JUMP ^ IFTRUE (DATA (SCSI_STATUS_CHECK_COND)),
1994 		PADDRH(getcc2),
1995 }/*-------------------------< SIGNAL >----------------------*/,{
1996 	/*
1997 	**	if status = queue full,
1998 	**	reinsert in startqueue and stall queue.
1999 	*/
2000 /*>>>*/	SCR_FROM_REG (SS_REG),
2001 		0,
2002 	SCR_INT ^ IFTRUE (DATA (SCSI_STATUS_QUEUE_FULL)),
2003 		SIR_STALL_QUEUE,
2004   	/*
2005 	**	And make the DSA register invalid.
2006 	*/
2007 	SCR_LOAD_REG (dsa, 0xff), /* invalid */
2008 		0,
2009 	/*
2010 	**	if job completed ...
2011 	*/
2012 	SCR_FROM_REG (HS_REG),
2013 		0,
2014 	/*
2015 	**	... signal completion to the host
2016 	*/
2017 	SCR_INT_FLY ^ IFFALSE (MASK (0, HS_DONEMASK)),
2018 		0,
2019 	/*
2020 	**	Auf zu neuen Schandtaten!
2021 	*/
2022 	SCR_JUMP,
2023 		PADDR(start),
2024 
2025 }/*-------------------------< SAVE_DP >------------------*/,{
2026 	/*
2027 	**	SAVE_DP message:
2028 	**	Copy TEMP register to SAVEP in header.
2029 	*/
2030 	SCR_COPY (4),
2031 		RADDR (temp),
2032 		NADDR (header.savep),
2033 	SCR_JUMP,
2034 		PADDR (clrack),
2035 }/*-------------------------< RESTORE_DP >---------------*/,{
2036 	/*
2037 	**	RESTORE_DP message:
2038 	**	Copy SAVEP in header to TEMP register.
2039 	*/
2040 	SCR_COPY (4),
2041 		NADDR (header.savep),
2042 		RADDR (temp),
2043 	SCR_JUMP,
2044 		PADDR (clrack),
2045 
2046 }/*-------------------------< DISCONNECT >---------------*/,{
2047 	/*
2048 	**	If QUIRK_AUTOSAVE is set,
2049 	**	do a "save pointer" operation.
2050 	*/
2051 	SCR_FROM_REG (QU_REG),
2052 		0,
2053 /*<<<*/	SCR_JUMPR ^ IFFALSE (MASK (QUIRK_AUTOSAVE, QUIRK_AUTOSAVE)),
2054 		12,
2055 	/*
2056 	**	like SAVE_DP message:
2057 	**	Copy TEMP register to SAVEP in header.
2058 	*/
2059 	SCR_COPY (4),
2060 		RADDR (temp),
2061 		NADDR (header.savep),
2062 /*>>>*/	/*
2063 	**	Check if temp==savep or temp==goalp:
2064 	**	if not, log a missing save pointer message.
2065 	**	In fact, it's a comparison mod 256.
2066 	**
2067 	**	Hmmm, I hadn't thought that I would be urged to
2068 	**	write this kind of ugly self modifying code.
2069 	**
2070 	**	It's unbelievable, but the ncr53c8xx isn't able
2071 	**	to subtract one register from another.
2072 	*/
2073 	SCR_FROM_REG (temp),
2074 		0,
2075 	/*
2076 	**	You are not expected to understand this ..
2077 	**
2078 	**	CAUTION: only little endian architectures supported! XXX
2079 	*/
2080 	SCR_COPY_F (1),
2081 		NADDR (header.savep),
2082 		PADDR (disconnect0),
2083 }/*-------------------------< DISCONNECT0 >--------------*/,{
2084 /*<<<*/	SCR_JUMPR ^ IFTRUE (DATA (1)),
2085 		20,
2086 	/*
2087 	**	neither this
2088 	*/
2089 	SCR_COPY_F (1),
2090 		NADDR (header.goalp),
2091 		PADDR (disconnect1),
2092 }/*-------------------------< DISCONNECT1 >--------------*/,{
2093 	SCR_INT ^ IFFALSE (DATA (1)),
2094 		SIR_MISSING_SAVE,
2095 /*>>>*/
2096 
2097 	/*
2098 	**	DISCONNECTing  ...
2099 	**
2100 	**	disable the "unexpected disconnect" feature,
2101 	**	and remove the ACK signal.
2102 	*/
2103 	SCR_REG_REG (scntl2, SCR_AND, 0x7f),
2104 		0,
2105 	SCR_CLR (SCR_ACK|SCR_ATN),
2106 		0,
2107 	/*
2108 	**	Wait for the disconnect.
2109 	*/
2110 	SCR_WAIT_DISC,
2111 		0,
2112 	/*
2113 	**	Profiling:
2114 	**	Set a time stamp,
2115 	**	and count the disconnects.
2116 	*/
2117 	SCR_COPY (sizeof (ticks)),
2118 		KVAR (KVAR_TICKS),
2119 		NADDR (header.stamp.disconnect),
2120 	SCR_COPY (4),
2121 		NADDR (disc_phys),
2122 		RADDR (temp),
2123 	SCR_REG_REG (temp, SCR_ADD, 0x01),
2124 		0,
2125 	SCR_COPY (4),
2126 		RADDR (temp),
2127 		NADDR (disc_phys),
2128 	/*
2129 	**	Status is: DISCONNECTED.
2130 	*/
2131 	SCR_LOAD_REG (HS_REG, HS_DISCONNECT),
2132 		0,
2133 	SCR_JUMP,
2134 		PADDR (cleanup),
2135 
2136 }/*-------------------------< MSG_OUT >-------------------*/,{
2137 	/*
2138 	**	The target requests a message.
2139 	*/
2140 	SCR_MOVE_ABS (1) ^ SCR_MSG_OUT,
2141 		NADDR (msgout),
2142 	SCR_COPY (1),
2143 		RADDR (sfbr),
2144 		NADDR (lastmsg),
2145 	/*
2146 	**	If it was no ABORT message ...
2147 	*/
2148 	SCR_JUMP ^ IFTRUE (DATA (MSG_ABORT)),
2149 		PADDRH (msg_out_abort),
2150 	/*
2151 	**	... wait for the next phase
2152 	**	if it's a message out, send it again, ...
2153 	*/
2154 	SCR_JUMP ^ IFTRUE (WHEN (SCR_MSG_OUT)),
2155 		PADDR (msg_out),
2156 }/*-------------------------< MSG_OUT_DONE >--------------*/,{
2157 	/*
2158 	**	... else clear the message ...
2159 	*/
2160 	SCR_LOAD_REG (scratcha, MSG_NOOP),
2161 		0,
2162 	SCR_COPY (4),
2163 		RADDR (scratcha),
2164 		NADDR (msgout),
2165 	/*
2166 	**	... and process the next phase
2167 	*/
2168 	SCR_JUMP,
2169 		PADDR (dispatch),
2170 
2171 }/*------------------------< BADGETCC >---------------------*/,{
2172 	/*
2173 	**	If SIGP was set, clear it and try again.
2174 	*/
2175 	SCR_FROM_REG (ctest2),
2176 		0,
2177 	SCR_JUMP ^ IFTRUE (MASK (CSIGP,CSIGP)),
2178 		PADDRH (getcc2),
2179 	SCR_INT,
2180 		SIR_SENSE_FAILED,
2181 }/*-------------------------< RESELECT >--------------------*/,{
2182 	/*
2183 	**	This NOP will be patched with LED OFF
2184 	**	SCR_REG_REG (gpreg, SCR_OR, 0x01)
2185 	*/
2186 	SCR_NO_OP,
2187 		0,
2188 
2189 	/*
2190 	**	make the DSA invalid.
2191 	*/
2192 	SCR_LOAD_REG (dsa, 0xff),
2193 		0,
2194 	SCR_CLR (SCR_TRG),
2195 		0,
2196 	/*
2197 	**	Sleep waiting for a reselection.
2198 	**	If SIGP is set, special treatment.
2199 	**
2200 	**	Zu allem bereit ..
2201 	*/
2202 	SCR_WAIT_RESEL,
2203 		PADDR(reselect2),
2204 }/*-------------------------< RESELECT1 >--------------------*/,{
2205 	/*
2206 	**	This NOP will be patched with LED ON
2207 	**	SCR_REG_REG (gpreg, SCR_AND, 0xfe)
2208 	*/
2209 	SCR_NO_OP,
2210 		0,
2211 	/*
2212 	**	... zu nichts zu gebrauchen ?
2213 	**
2214 	**      load the target id into the SFBR
2215 	**	and jump to the control block.
2216 	**
2217 	**	Look at the declarations of
2218 	**	- struct ncb
2219 	**	- struct tcb
2220 	**	- struct lcb
2221 	**	- struct nccb
2222 	**	to understand what's going on.
2223 	*/
2224 	SCR_REG_SFBR (ssid, SCR_AND, 0x8F),
2225 		0,
2226 	SCR_TO_REG (sdid),
2227 		0,
2228 	SCR_JUMP,
2229 		NADDR (jump_tcb),
2230 }/*-------------------------< RESELECT2 >-------------------*/,{
2231 	/*
2232 	**	This NOP will be patched with LED ON
2233 	**	SCR_REG_REG (gpreg, SCR_AND, 0xfe)
2234 	*/
2235 	SCR_NO_OP,
2236 		0,
2237 	/*
2238 	**	If it's not connected :(
2239 	**	-> interrupted by SIGP bit.
2240 	**	Jump to start.
2241 	*/
2242 	SCR_FROM_REG (ctest2),
2243 		0,
2244 	SCR_JUMP ^ IFTRUE (MASK (CSIGP,CSIGP)),
2245 		PADDR (start),
2246 	SCR_JUMP,
2247 		PADDR (reselect),
2248 
2249 }/*-------------------------< RESEL_TMP >-------------------*/,{
2250 	/*
2251 	**	The return address in TEMP
2252 	**	is in fact the data structure address,
2253 	**	so copy it to the DSA register.
2254 	*/
2255 	SCR_COPY (4),
2256 		RADDR (temp),
2257 		RADDR (dsa),
2258 	SCR_JUMP,
2259 		PADDR (prepare),
2260 
2261 }/*-------------------------< RESEL_LUN >-------------------*/,{
2262 	/*
2263 	**	come back to this point
2264 	**	to get an IDENTIFY message
2265 	**	Wait for a msg_in phase.
2266 	*/
2267 /*<<<*/	SCR_JUMPR ^ IFFALSE (WHEN (SCR_MSG_IN)),
2268 		48,
2269 	/*
2270 	**	message phase
2271 	**	It's not a sony, it's a trick:
2272 	**	read the data without acknowledging it.
2273 	*/
2274 	SCR_FROM_REG (sbdl),
2275 		0,
2276 /*<<<*/	SCR_JUMPR ^ IFFALSE (MASK (MSG_IDENTIFYFLAG, 0x98)),
2277 		32,
2278 	/*
2279 	**	It WAS an Identify message.
2280 	**	get it and ack it!
2281 	*/
2282 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2283 		NADDR (msgin),
2284 	SCR_CLR (SCR_ACK),
2285 		0,
2286 	/*
2287 	**	Mask out the lun.
2288 	*/
2289 	SCR_REG_REG (sfbr, SCR_AND, 0x07),
2290 		0,
2291 	SCR_RETURN,
2292 		0,
2293 	/*
2294 	**	No message phase or no IDENTIFY message:
2295 	**	return 0.
2296 	*/
2297 /*>>>*/	SCR_LOAD_SFBR (0),
2298 		0,
2299 	SCR_RETURN,
2300 		0,
2301 
2302 }/*-------------------------< RESEL_TAG >-------------------*/,{
2303 	/*
2304 	**	come back to this point
2305 	**	to get a SIMPLE_TAG message
2306 	**	Wait for a MSG_IN phase.
2307 	*/
2308 /*<<<*/	SCR_JUMPR ^ IFFALSE (WHEN (SCR_MSG_IN)),
2309 		64,
2310 	/*
2311 	**	message phase
2312 	**	It's a trick - read the data
2313 	**	without acknowledging it.
2314 	*/
2315 	SCR_FROM_REG (sbdl),
2316 		0,
2317 /*<<<*/	SCR_JUMPR ^ IFFALSE (DATA (MSG_SIMPLE_Q_TAG)),
2318 		48,
2319 	/*
2320 	**	It WAS a SIMPLE_TAG message.
2321 	**	get it and ack it!
2322 	*/
2323 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2324 		NADDR (msgin),
2325 	SCR_CLR (SCR_ACK),
2326 		0,
2327 	/*
2328 	**	Wait for the second byte (the tag)
2329 	*/
2330 /*<<<*/	SCR_JUMPR ^ IFFALSE (WHEN (SCR_MSG_IN)),
2331 		24,
2332 	/*
2333 	**	Get it and ack it!
2334 	*/
2335 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2336 		NADDR (msgin),
2337 	SCR_CLR (SCR_ACK|SCR_CARRY),
2338 		0,
2339 	SCR_RETURN,
2340 		0,
2341 	/*
2342 	**	No message phase or no SIMPLE_TAG message
2343 	**	or no second byte: return 0.
2344 	*/
2345 /*>>>*/	SCR_LOAD_SFBR (0),
2346 		0,
2347 	SCR_SET (SCR_CARRY),
2348 		0,
2349 	SCR_RETURN,
2350 		0,
2351 
2352 }/*-------------------------< DATA_IN >--------------------*/,{
2353 /*
2354 **	Because the size depends on the
2355 **	#define MAX_SCATTER parameter,
2356 **	it is filled in at runtime.
2357 **
2358 **	SCR_JUMP ^ IFFALSE (WHEN (SCR_DATA_IN)),
2359 **		PADDR (no_data),
2360 **	SCR_COPY (sizeof (ticks)),
2361 **		KVAR (KVAR_TICKS),
2362 **		NADDR (header.stamp.data),
2363 **	SCR_MOVE_TBL ^ SCR_DATA_IN,
2364 **		offsetof (struct dsb, data[ 0]),
2365 **
2366 **  ##===========< i=1; i<MAX_SCATTER >=========
2367 **  ||	SCR_CALL ^ IFFALSE (WHEN (SCR_DATA_IN)),
2368 **  ||		PADDR (checkatn),
2369 **  ||	SCR_MOVE_TBL ^ SCR_DATA_IN,
2370 **  ||		offsetof (struct dsb, data[ i]),
2371 **  ##==========================================
2372 **
2373 **	SCR_CALL,
2374 **		PADDR (checkatn),
2375 **	SCR_JUMP,
2376 **		PADDR (no_data),
2377 */
2378 0
2379 }/*-------------------------< DATA_OUT >-------------------*/,{
2380 /*
2381 **	Because the size depends on the
2382 **	#define MAX_SCATTER parameter,
2383 **	it is filled in at runtime.
2384 **
2385 **	SCR_JUMP ^ IFFALSE (WHEN (SCR_DATA_OUT)),
2386 **		PADDR (no_data),
2387 **	SCR_COPY (sizeof (ticks)),
2388 **		KVAR (KVAR_TICKS),
2389 **		NADDR (header.stamp.data),
2390 **	SCR_MOVE_TBL ^ SCR_DATA_OUT,
2391 **		offsetof (struct dsb, data[ 0]),
2392 **
2393 **  ##===========< i=1; i<MAX_SCATTER >=========
2394 **  ||	SCR_CALL ^ IFFALSE (WHEN (SCR_DATA_OUT)),
2395 **  ||		PADDR (dispatch),
2396 **  ||	SCR_MOVE_TBL ^ SCR_DATA_OUT,
2397 **  ||		offsetof (struct dsb, data[ i]),
2398 **  ##==========================================
2399 **
2400 **	SCR_CALL,
2401 **		PADDR (dispatch),
2402 **	SCR_JUMP,
2403 **		PADDR (no_data),
2404 **
2405 **---------------------------------------------------------
2406 */
2407 (u_long)0
2408 
2409 }/*--------------------------------------------------------*/
2410 };
2411 
2412 
2413 static	struct scripth scripth0 = {
2414 /*-------------------------< TRYLOOP >---------------------*/{
2415 /*
2416 **	Load an entry of the start queue into dsa
2417 **	and try to start it by jumping to TRYSEL.
2418 **
2419 **	Because the size depends on the
2420 **	#define MAX_START parameter, it is filled
2421 **	in at runtime.
2422 **
2423 **-----------------------------------------------------------
2424 **
2425 **  ##===========< I=0; i<MAX_START >===========
2426 **  ||	SCR_COPY (4),
2427 **  ||		NADDR (squeue[i]),
2428 **  ||		RADDR (dsa),
2429 **  ||	SCR_CALL,
2430 **  ||		PADDR (trysel),
2431 **  ##==========================================
2432 **
2433 **	SCR_JUMP,
2434 **		PADDRH(tryloop),
2435 **
2436 **-----------------------------------------------------------
2437 */
2438 0
2439 }/*-------------------------< MSG_PARITY >---------------*/,{
2440 	/*
2441 	**	count it
2442 	*/
2443 	SCR_REG_REG (PS_REG, SCR_ADD, 0x01),
2444 		0,
2445 	/*
2446 	**	send a "message parity error" message.
2447 	*/
2448 	SCR_LOAD_REG (scratcha, MSG_PARITY_ERROR),
2449 		0,
2450 	SCR_JUMP,
2451 		PADDR (setmsg),
2452 }/*-------------------------< MSG_MESSAGE_REJECT >---------------*/,{
2453 	/*
2454 	**	If a negotiation was in progress,
2455 	**	negotiation failed.
2456 	*/
2457 	SCR_FROM_REG (HS_REG),
2458 		0,
2459 	SCR_INT ^ IFTRUE (DATA (HS_NEGOTIATE)),
2460 		SIR_NEGO_FAILED,
2461 	/*
2462 	**	else make host log this message
2463 	*/
2464 	SCR_INT ^ IFFALSE (DATA (HS_NEGOTIATE)),
2465 		SIR_REJECT_RECEIVED,
2466 	SCR_JUMP,
2467 		PADDR (clrack),
2468 
2469 }/*-------------------------< MSG_IGN_RESIDUE >----------*/,{
2470 	/*
2471 	**	Terminate cycle
2472 	*/
2473 	SCR_CLR (SCR_ACK),
2474 		0,
2475 	SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)),
2476 		PADDR (dispatch),
2477 	/*
2478 	**	get residue size.
2479 	*/
2480 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2481 		NADDR (msgin[1]),
2482 	/*
2483 	**	Check for message parity error.
2484 	*/
2485 	SCR_TO_REG (scratcha),
2486 		0,
2487 	SCR_FROM_REG (socl),
2488 		0,
2489 	SCR_JUMP ^ IFTRUE (MASK (CATN, CATN)),
2490 		PADDRH (msg_parity),
2491 	SCR_FROM_REG (scratcha),
2492 		0,
2493 	/*
2494 	**	Size is 0 .. ignore message.
2495 	*/
2496 	SCR_JUMP ^ IFTRUE (DATA (0)),
2497 		PADDR (clrack),
2498 	/*
2499 	**	Size is not 1 .. have to interrupt.
2500 	*/
2501 /*<<<*/	SCR_JUMPR ^ IFFALSE (DATA (1)),
2502 		40,
2503 	/*
2504 	**	Check for residue byte in swide register
2505 	*/
2506 	SCR_FROM_REG (scntl2),
2507 		0,
2508 /*<<<*/	SCR_JUMPR ^ IFFALSE (MASK (WSR, WSR)),
2509 		16,
2510 	/*
2511 	**	There IS data in the swide register.
2512 	**	Discard it.
2513 	*/
2514 	SCR_REG_REG (scntl2, SCR_OR, WSR),
2515 		0,
2516 	SCR_JUMP,
2517 		PADDR (clrack),
2518 	/*
2519 	**	Load again the size to the sfbr register.
2520 	*/
2521 /*>>>*/	SCR_FROM_REG (scratcha),
2522 		0,
2523 /*>>>*/	SCR_INT,
2524 		SIR_IGN_RESIDUE,
2525 	SCR_JUMP,
2526 		PADDR (clrack),
2527 
2528 }/*-------------------------< MSG_EXTENDED >-------------*/,{
2529 	/*
2530 	**	Terminate cycle
2531 	*/
2532 	SCR_CLR (SCR_ACK),
2533 		0,
2534 	SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)),
2535 		PADDR (dispatch),
2536 	/*
2537 	**	get length.
2538 	*/
2539 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2540 		NADDR (msgin[1]),
2541 	/*
2542 	**	Check for message parity error.
2543 	*/
2544 	SCR_TO_REG (scratcha),
2545 		0,
2546 	SCR_FROM_REG (socl),
2547 		0,
2548 	SCR_JUMP ^ IFTRUE (MASK (CATN, CATN)),
2549 		PADDRH (msg_parity),
2550 	SCR_FROM_REG (scratcha),
2551 		0,
2552 	/*
2553 	*/
2554 	SCR_JUMP ^ IFTRUE (DATA (3)),
2555 		PADDRH (msg_ext_3),
2556 	SCR_JUMP ^ IFFALSE (DATA (2)),
2557 		PADDR (msg_bad),
2558 }/*-------------------------< MSG_EXT_2 >----------------*/,{
2559 	SCR_CLR (SCR_ACK),
2560 		0,
2561 	SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)),
2562 		PADDR (dispatch),
2563 	/*
2564 	**	get extended message code.
2565 	*/
2566 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2567 		NADDR (msgin[2]),
2568 	/*
2569 	**	Check for message parity error.
2570 	*/
2571 	SCR_TO_REG (scratcha),
2572 		0,
2573 	SCR_FROM_REG (socl),
2574 		0,
2575 	SCR_JUMP ^ IFTRUE (MASK (CATN, CATN)),
2576 		PADDRH (msg_parity),
2577 	SCR_FROM_REG (scratcha),
2578 		0,
2579 	SCR_JUMP ^ IFTRUE (DATA (MSG_EXT_WDTR)),
2580 		PADDRH (msg_wdtr),
2581 	/*
2582 	**	unknown extended message
2583 	*/
2584 	SCR_JUMP,
2585 		PADDR (msg_bad)
2586 }/*-------------------------< MSG_WDTR >-----------------*/,{
2587 	SCR_CLR (SCR_ACK),
2588 		0,
2589 	SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)),
2590 		PADDR (dispatch),
2591 	/*
2592 	**	get data bus width
2593 	*/
2594 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2595 		NADDR (msgin[3]),
2596 	SCR_FROM_REG (socl),
2597 		0,
2598 	SCR_JUMP ^ IFTRUE (MASK (CATN, CATN)),
2599 		PADDRH (msg_parity),
2600 	/*
2601 	**	let the host do the real work.
2602 	*/
2603 	SCR_INT,
2604 		SIR_NEGO_WIDE,
2605 	/*
2606 	**	let the target fetch our answer.
2607 	*/
2608 	SCR_SET (SCR_ATN),
2609 		0,
2610 	SCR_CLR (SCR_ACK),
2611 		0,
2612 
2613 	SCR_INT ^ IFFALSE (WHEN (SCR_MSG_OUT)),
2614 		SIR_NEGO_PROTO,
2615 	/*
2616 	**	Send the MSG_EXT_WDTR
2617 	*/
2618 	SCR_MOVE_ABS (4) ^ SCR_MSG_OUT,
2619 		NADDR (msgout),
2620 	SCR_CLR (SCR_ATN),
2621 		0,
2622 	SCR_COPY (1),
2623 		RADDR (sfbr),
2624 		NADDR (lastmsg),
2625 	SCR_JUMP,
2626 		PADDR (msg_out_done),
2627 
2628 }/*-------------------------< MSG_EXT_3 >----------------*/,{
2629 	SCR_CLR (SCR_ACK),
2630 		0,
2631 	SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)),
2632 		PADDR (dispatch),
2633 	/*
2634 	**	get extended message code.
2635 	*/
2636 	SCR_MOVE_ABS (1) ^ SCR_MSG_IN,
2637 		NADDR (msgin[2]),
2638 	/*
2639 	**	Check for message parity error.
2640 	*/
2641 	SCR_TO_REG (scratcha),
2642 		0,
2643 	SCR_FROM_REG (socl),
2644 		0,
2645 	SCR_JUMP ^ IFTRUE (MASK (CATN, CATN)),
2646 		PADDRH (msg_parity),
2647 	SCR_FROM_REG (scratcha),
2648 		0,
2649 	SCR_JUMP ^ IFTRUE (DATA (MSG_EXT_SDTR)),
2650 		PADDRH (msg_sdtr),
2651 	/*
2652 	**	unknown extended message
2653 	*/
2654 	SCR_JUMP,
2655 		PADDR (msg_bad)
2656 
2657 }/*-------------------------< MSG_SDTR >-----------------*/,{
2658 	SCR_CLR (SCR_ACK),
2659 		0,
2660 	SCR_JUMP ^ IFFALSE (WHEN (SCR_MSG_IN)),
2661 		PADDR (dispatch),
2662 	/*
2663 	**	get period and offset
2664 	*/
2665 	SCR_MOVE_ABS (2) ^ SCR_MSG_IN,
2666 		NADDR (msgin[3]),
2667 	SCR_FROM_REG (socl),
2668 		0,
2669 	SCR_JUMP ^ IFTRUE (MASK (CATN, CATN)),
2670 		PADDRH (msg_parity),
2671 	/*
2672 	**	let the host do the real work.
2673 	*/
2674 	SCR_INT,
2675 		SIR_NEGO_SYNC,
2676 	/*
2677 	**	let the target fetch our answer.
2678 	*/
2679 	SCR_SET (SCR_ATN),
2680 		0,
2681 	SCR_CLR (SCR_ACK),
2682 		0,
2683 
2684 	SCR_INT ^ IFFALSE (WHEN (SCR_MSG_OUT)),
2685 		SIR_NEGO_PROTO,
2686 	/*
2687 	**	Send the MSG_EXT_SDTR
2688 	*/
2689 	SCR_MOVE_ABS (5) ^ SCR_MSG_OUT,
2690 		NADDR (msgout),
2691 	SCR_CLR (SCR_ATN),
2692 		0,
2693 	SCR_COPY (1),
2694 		RADDR (sfbr),
2695 		NADDR (lastmsg),
2696 	SCR_JUMP,
2697 		PADDR (msg_out_done),
2698 
2699 }/*-------------------------< MSG_OUT_ABORT >-------------*/,{
2700 	/*
2701 	**	After ABORT message,
2702 	**
2703 	**	expect an immediate disconnect, ...
2704 	*/
2705 	SCR_REG_REG (scntl2, SCR_AND, 0x7f),
2706 		0,
2707 	SCR_CLR (SCR_ACK|SCR_ATN),
2708 		0,
2709 	SCR_WAIT_DISC,
2710 		0,
2711 	/*
2712 	**	... and set the status to "ABORTED"
2713 	*/
2714 	SCR_LOAD_REG (HS_REG, HS_ABORTED),
2715 		0,
2716 	SCR_JUMP,
2717 		PADDR (cleanup),
2718 
2719 }/*-------------------------< GETCC >-----------------------*/,{
2720 	/*
2721 	**	The ncr doesn't have an indirect load
2722 	**	or store command. So we have to
2723 	**	copy part of the control block to a
2724 	**	fixed place, where we can modify it.
2725 	**
2726 	**	We patch the address part of a COPY command
2727 	**	with the address of the dsa register ...
2728 	*/
2729 	SCR_COPY_F (4),
2730 		RADDR (dsa),
2731 		PADDRH (getcc1),
2732 	/*
2733 	**	... then we do the actual copy.
2734 	*/
2735 	SCR_COPY (sizeof (struct head)),
2736 }/*-------------------------< GETCC1 >----------------------*/,{
2737 		0,
2738 		NADDR (header),
2739 	/*
2740 	**	Initialize the status registers
2741 	*/
2742 	SCR_COPY (4),
2743 		NADDR (header.status),
2744 		RADDR (scr0),
2745 }/*-------------------------< GETCC2 >----------------------*/,{
2746 	/*
2747 	**	Get the condition code from a target.
2748 	**
2749 	**	DSA points to a data structure.
2750 	**	Set TEMP to the script location
2751 	**	that receives the condition code.
2752 	**
2753 	**	Because there is no script command
2754 	**	to load a longword into a register,
2755 	**	we use a CALL command.
2756 	*/
2757 /*<<<*/	SCR_CALLR,
2758 		24,
2759 	/*
2760 	**	Get the condition code.
2761 	*/
2762 	SCR_MOVE_TBL ^ SCR_DATA_IN,
2763 		offsetof (struct dsb, sense),
2764 	/*
2765 	**	No data phase may follow!
2766 	*/
2767 	SCR_CALL,
2768 		PADDR (checkatn),
2769 	SCR_JUMP,
2770 		PADDR (no_data),
2771 /*>>>*/
2772 
2773 	/*
2774 	**	The CALL jumps to this point.
2775 	**	Prepare for a RESTORE_POINTER message.
2776 	**	Save the TEMP register into the saved pointer.
2777 	*/
2778 	SCR_COPY (4),
2779 		RADDR (temp),
2780 		NADDR (header.savep),
2781 	/*
2782 	**	Load scratcha, because in case of a selection timeout,
2783 	**	the host will expect a new value for startpos in
2784 	**	the scratcha register.
2785 	*/
2786 	SCR_COPY (4),
2787 		PADDR (startpos),
2788 		RADDR (scratcha),
2789 #ifdef NCR_GETCC_WITHMSG
2790 	/*
2791 	**	If QUIRK_NOMSG is set, select without ATN.
2792 	**	and don't send a message.
2793 	*/
2794 	SCR_FROM_REG (QU_REG),
2795 		0,
2796 	SCR_JUMP ^ IFTRUE (MASK (QUIRK_NOMSG, QUIRK_NOMSG)),
2797 		PADDRH(getcc3),
2798 	/*
2799 	**	Then try to connect to the target.
2800 	**	If we are reselected, special treatment
2801 	**	of the current job is required before
2802 	**	accepting the reselection.
2803 	*/
2804 	SCR_SEL_TBL_ATN ^ offsetof (struct dsb, select),
2805 		PADDR(badgetcc),
2806 	/*
2807 	**	Send the IDENTIFY message.
2808 	**	In case of short transfer, remove ATN.
2809 	*/
2810 	SCR_MOVE_TBL ^ SCR_MSG_OUT,
2811 		offsetof (struct dsb, smsg2),
2812 	SCR_CLR (SCR_ATN),
2813 		0,
2814 	/*
2815 	**	save the first byte of the message.
2816 	*/
2817 	SCR_COPY (1),
2818 		RADDR (sfbr),
2819 		NADDR (lastmsg),
2820 	SCR_JUMP,
2821 		PADDR (prepare2),
2822 
2823 #endif
2824 }/*-------------------------< GETCC3 >----------------------*/,{
2825 	/*
2826 	**	Try to connect to the target.
2827 	**	If we are reselected, special treatment
2828 	**	of the current job is required before
2829 	**	accepting the reselection.
2830 	**
2831 	**	Silly target won't accept a message.
2832 	**	Select without ATN.
2833 	*/
2834 	SCR_SEL_TBL ^ offsetof (struct dsb, select),
2835 		PADDR(badgetcc),
2836 	/*
2837 	**	Force error if selection timeout
2838 	*/
2839 	SCR_JUMPR ^ IFTRUE (WHEN (SCR_MSG_IN)),
2840 		0,
2841 	/*
2842 	**	don't negotiate.
2843 	*/
2844 	SCR_JUMP,
2845 		PADDR (prepare2),
2846 }/*-------------------------< ABORTTAG >-------------------*/,{
2847 	/*
2848 	**      Abort a bad reselection.
2849 	**	Set the message to ABORT vs. ABORT_TAG
2850 	*/
2851 	SCR_LOAD_REG (scratcha, MSG_ABORT_TAG),
2852 		0,
2853 	SCR_JUMPR ^ IFFALSE (CARRYSET),
2854 		8,
2855 }/*-------------------------< ABORT >----------------------*/,{
2856 	SCR_LOAD_REG (scratcha, MSG_ABORT),
2857 		0,
2858 	SCR_COPY (1),
2859 		RADDR (scratcha),
2860 		NADDR (msgout),
2861 	SCR_SET (SCR_ATN),
2862 		0,
2863 	SCR_CLR (SCR_ACK),
2864 		0,
2865 	/*
2866 	**	and send it.
2867 	**	we expect an immediate disconnect
2868 	*/
2869 	SCR_REG_REG (scntl2, SCR_AND, 0x7f),
2870 		0,
2871 	SCR_MOVE_ABS (1) ^ SCR_MSG_OUT,
2872 		NADDR (msgout),
2873 	SCR_COPY (1),
2874 		RADDR (sfbr),
2875 		NADDR (lastmsg),
2876 	SCR_CLR (SCR_ACK|SCR_ATN),
2877 		0,
2878 	SCR_WAIT_DISC,
2879 		0,
2880 	SCR_JUMP,
2881 		PADDR (start),
2882 }/*-------------------------< SNOOPTEST >-------------------*/,{
2883 	/*
2884 	**	Read the variable.
2885 	*/
2886 	SCR_COPY (4),
2887 		KVAR (KVAR_NCR_CACHE),
2888 		RADDR (scratcha),
2889 	/*
2890 	**	Write the variable.
2891 	*/
2892 	SCR_COPY (4),
2893 		RADDR (temp),
2894 		KVAR (KVAR_NCR_CACHE),
2895 	/*
2896 	**	Read back the variable.
2897 	*/
2898 	SCR_COPY (4),
2899 		KVAR (KVAR_NCR_CACHE),
2900 		RADDR (temp),
2901 }/*-------------------------< SNOOPEND >-------------------*/,{
2902 	/*
2903 	**	And stop.
2904 	*/
2905 	SCR_INT,
2906 		99,
2907 }/*--------------------------------------------------------*/
2908 };
2909 
2910 
2911 /*==========================================================
2912 **
2913 **
2914 **	Fill in #define dependent parts of the script
2915 **
2916 **
2917 **==========================================================
2918 */
2919 
ncr_script_fill(struct script * scr,struct scripth * scrh)2920 static void ncr_script_fill (struct script * scr, struct scripth * scrh)
2921 {
2922 	int	i;
2923 	ncrcmd	*p;
2924 
2925 	p = scrh->tryloop;
2926 	for (i=0; i<MAX_START; i++) {
2927 		*p++ =SCR_COPY (4);
2928 		*p++ =NADDR (squeue[i]);
2929 		*p++ =RADDR (dsa);
2930 		*p++ =SCR_CALL;
2931 		*p++ =PADDR (trysel);
2932 	};
2933 	*p++ =SCR_JUMP;
2934 	*p++ =PADDRH(tryloop);
2935 
2936 	assert ((char *)p == (char *)&scrh->tryloop + sizeof (scrh->tryloop));
2937 
2938 	p = scr->data_in;
2939 
2940 	*p++ =SCR_JUMP ^ IFFALSE (WHEN (SCR_DATA_IN));
2941 	*p++ =PADDR (no_data);
2942 	*p++ =SCR_COPY (sizeof (ticks));
2943 	*p++ =(ncrcmd) KVAR (KVAR_TICKS);
2944 	*p++ =NADDR (header.stamp.data);
2945 	*p++ =SCR_MOVE_TBL ^ SCR_DATA_IN;
2946 	*p++ =offsetof (struct dsb, data[ 0]);
2947 
2948 	for (i=1; i<MAX_SCATTER; i++) {
2949 		*p++ =SCR_CALL ^ IFFALSE (WHEN (SCR_DATA_IN));
2950 		*p++ =PADDR (checkatn);
2951 		*p++ =SCR_MOVE_TBL ^ SCR_DATA_IN;
2952 		*p++ =offsetof (struct dsb, data[i]);
2953 	};
2954 
2955 	*p++ =SCR_CALL;
2956 	*p++ =PADDR (checkatn);
2957 	*p++ =SCR_JUMP;
2958 	*p++ =PADDR (no_data);
2959 
2960 	assert ((char *)p == (char *)&scr->data_in + sizeof (scr->data_in));
2961 
2962 	p = scr->data_out;
2963 
2964 	*p++ =SCR_JUMP ^ IFFALSE (WHEN (SCR_DATA_OUT));
2965 	*p++ =PADDR (no_data);
2966 	*p++ =SCR_COPY (sizeof (ticks));
2967 	*p++ =(ncrcmd) KVAR (KVAR_TICKS);
2968 	*p++ =NADDR (header.stamp.data);
2969 	*p++ =SCR_MOVE_TBL ^ SCR_DATA_OUT;
2970 	*p++ =offsetof (struct dsb, data[ 0]);
2971 
2972 	for (i=1; i<MAX_SCATTER; i++) {
2973 		*p++ =SCR_CALL ^ IFFALSE (WHEN (SCR_DATA_OUT));
2974 		*p++ =PADDR (dispatch);
2975 		*p++ =SCR_MOVE_TBL ^ SCR_DATA_OUT;
2976 		*p++ =offsetof (struct dsb, data[i]);
2977 	};
2978 
2979 	*p++ =SCR_CALL;
2980 	*p++ =PADDR (dispatch);
2981 	*p++ =SCR_JUMP;
2982 	*p++ =PADDR (no_data);
2983 
2984 	assert ((char *)p == (char *)&scr->data_out + sizeof (scr->data_out));
2985 }
2986 
2987 /*==========================================================
2988 **
2989 **
2990 **	Copy and rebind a script.
2991 **
2992 **
2993 **==========================================================
2994 */
2995 
ncr_script_copy_and_bind(ncb_p np,ncrcmd * src,ncrcmd * dst,int len)2996 static void ncr_script_copy_and_bind (ncb_p np, ncrcmd *src, ncrcmd *dst, int len)
2997 {
2998 	ncrcmd  opcode, new, old, tmp1, tmp2;
2999 	ncrcmd	*start, *end;
3000 	int relocs, offset;
3001 
3002 	start = src;
3003 	end = src + len/4;
3004 	offset = 0;
3005 
3006 	while (src < end) {
3007 
3008 		opcode = *src++;
3009 		WRITESCRIPT_OFF(dst, offset, opcode);
3010 		offset += 4;
3011 
3012 		/*
3013 		**	If we forget to change the length
3014 		**	in struct script, a field will be
3015 		**	padded with 0. This is an illegal
3016 		**	command.
3017 		*/
3018 
3019 		if (opcode == 0) {
3020 			printf ("%s: ERROR0 IN SCRIPT at %d.\n",
3021 				ncr_name(np), (int) (src-start-1));
3022 			DELAY (1000000);
3023 		};
3024 
3025 		if (DEBUG_FLAGS & DEBUG_SCRIPT)
3026 			printf ("%p:  <%x>\n",
3027 				(src-1), (unsigned)opcode);
3028 
3029 		/*
3030 		**	We don't have to decode ALL commands
3031 		*/
3032 		switch (opcode >> 28) {
3033 
3034 		case 0xc:
3035 			/*
3036 			**	COPY has TWO arguments.
3037 			*/
3038 			relocs = 2;
3039 			tmp1 = src[0];
3040 			if ((tmp1 & RELOC_MASK) == RELOC_KVAR)
3041 				tmp1 = 0;
3042 			tmp2 = src[1];
3043 			if ((tmp2 & RELOC_MASK) == RELOC_KVAR)
3044 				tmp2 = 0;
3045 			if ((tmp1 ^ tmp2) & 3) {
3046 				printf ("%s: ERROR1 IN SCRIPT at %d.\n",
3047 					ncr_name(np), (int) (src-start-1));
3048 				DELAY (1000000);
3049 			}
3050 			/*
3051 			**	If PREFETCH feature not enabled, remove
3052 			**	the NO FLUSH bit if present.
3053 			*/
3054 			if ((opcode & SCR_NO_FLUSH) && !(np->features&FE_PFEN))
3055 				WRITESCRIPT_OFF(dst, offset - 4,
3056 				    (opcode & ~SCR_NO_FLUSH));
3057 			break;
3058 
3059 		case 0x0:
3060 			/*
3061 			**	MOVE (absolute address)
3062 			*/
3063 			relocs = 1;
3064 			break;
3065 
3066 		case 0x8:
3067 			/*
3068 			**	JUMP / CALL
3069 			**	dont't relocate if relative :-)
3070 			*/
3071 			if (opcode & 0x00800000)
3072 				relocs = 0;
3073 			else
3074 				relocs = 1;
3075 			break;
3076 
3077 		case 0x4:
3078 		case 0x5:
3079 		case 0x6:
3080 		case 0x7:
3081 			relocs = 1;
3082 			break;
3083 
3084 		default:
3085 			relocs = 0;
3086 			break;
3087 		};
3088 
3089 		if (relocs) {
3090 			while (relocs--) {
3091 				old = *src++;
3092 
3093 				switch (old & RELOC_MASK) {
3094 				case RELOC_REGISTER:
3095 					new = (old & ~RELOC_MASK) + rman_get_start(np->reg_res);
3096 					break;
3097 				case RELOC_LABEL:
3098 					new = (old & ~RELOC_MASK) + np->p_script;
3099 					break;
3100 				case RELOC_LABELH:
3101 					new = (old & ~RELOC_MASK) + np->p_scripth;
3102 					break;
3103 				case RELOC_SOFTC:
3104 					new = (old & ~RELOC_MASK) + vtophys(np);
3105 					break;
3106 				case RELOC_KVAR:
3107 					if (((old & ~RELOC_MASK) <
3108 					     SCRIPT_KVAR_FIRST) ||
3109 					    ((old & ~RELOC_MASK) >
3110 					     SCRIPT_KVAR_LAST))
3111 						panic("ncr KVAR out of range");
3112 					new = vtophys(script_kvars[old &
3113 					    ~RELOC_MASK]);
3114 					break;
3115 				case 0:
3116 					/* Don't relocate a 0 address. */
3117 					if (old == 0) {
3118 						new = old;
3119 						break;
3120 					}
3121 					/* FALLTHROUGH */
3122 				default:
3123 					panic("ncr_script_copy_and_bind: weird relocation %x @ %d\n", old, (int)(src - start));
3124 					break;
3125 				}
3126 
3127 				WRITESCRIPT_OFF(dst, offset, new);
3128 				offset += 4;
3129 			}
3130 		} else {
3131 			WRITESCRIPT_OFF(dst, offset, *src++);
3132 			offset += 4;
3133 		}
3134 
3135 	};
3136 }
3137 
3138 /*==========================================================
3139 **
3140 **
3141 **      Auto configuration.
3142 **
3143 **
3144 **==========================================================
3145 */
3146 
3147 #if 0
3148 /*----------------------------------------------------------
3149 **
3150 **	Reduce the transfer length to the max value
3151 **	we can transfer safely.
3152 **
3153 **      Reading a block greater then MAX_SIZE from the
3154 **	raw (character) device exercises a memory leak
3155 **	in the vm subsystem. This is common to ALL devices.
3156 **	We have submitted a description of this bug to
3157 **	<FreeBSD-bugs@freefall.cdrom.com>.
3158 **	It should be fixed in the current release.
3159 **
3160 **----------------------------------------------------------
3161 */
3162 
3163 void ncr_min_phys (struct  buf *bp)
3164 {
3165 	if ((unsigned long)bp->b_bcount > MAX_SIZE) bp->b_bcount = MAX_SIZE;
3166 }
3167 
3168 #endif
3169 
3170 #if 0
3171 /*----------------------------------------------------------
3172 **
3173 **	Maximal number of outstanding requests per target.
3174 **
3175 **----------------------------------------------------------
3176 */
3177 
3178 u_int32_t ncr_info (int unit)
3179 {
3180 	return (1);   /* may be changed later */
3181 }
3182 
3183 #endif
3184 
3185 /*----------------------------------------------------------
3186 **
3187 **	NCR chip devices table and chip look up function.
3188 **	Features bit are defined in ncrreg.h. Is it the
3189 **	right place?
3190 **
3191 **----------------------------------------------------------
3192 */
3193 typedef struct {
3194 	unsigned long	device_id;
3195 	unsigned short	minrevid;
3196 	char	       *name;
3197 	unsigned char	maxburst;
3198 	unsigned char	maxoffs;
3199 	unsigned char	clock_divn;
3200 	unsigned int	features;
3201 } ncr_chip;
3202 
3203 static ncr_chip ncr_chip_table[] = {
3204  {NCR_810_ID, 0x00,	"ncr 53c810 fast10 scsi",		4,  8, 4,
3205  FE_ERL}
3206  ,
3207  {NCR_810_ID, 0x10,	"ncr 53c810a fast10 scsi",		4,  8, 4,
3208  FE_ERL|FE_LDSTR|FE_PFEN|FE_BOF}
3209  ,
3210  {NCR_815_ID, 0x00,	"ncr 53c815 fast10 scsi", 		4,  8, 4,
3211  FE_ERL|FE_BOF}
3212  ,
3213  {NCR_820_ID, 0x00,	"ncr 53c820 fast10 wide scsi", 		4,  8, 4,
3214  FE_WIDE|FE_ERL}
3215  ,
3216  {NCR_825_ID, 0x00,	"ncr 53c825 fast10 wide scsi",		4,  8, 4,
3217  FE_WIDE|FE_ERL|FE_BOF}
3218  ,
3219  {NCR_825_ID, 0x10,	"ncr 53c825a fast10 wide scsi",		7,  8, 4,
3220  FE_WIDE|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3221  ,
3222  {NCR_860_ID, 0x00,	"ncr 53c860 fast20 scsi",		4,  8, 5,
3223  FE_ULTRA|FE_CLK80|FE_CACHE_SET|FE_LDSTR|FE_PFEN}
3224  ,
3225  {NCR_875_ID, 0x00,	"ncr 53c875 fast20 wide scsi",		7, 16, 5,
3226  FE_WIDE|FE_ULTRA|FE_CLK80|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3227  ,
3228  {NCR_875_ID, 0x02,	"ncr 53c875 fast20 wide scsi",		7, 16, 5,
3229  FE_WIDE|FE_ULTRA|FE_DBLR|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3230  ,
3231  {NCR_875_ID2, 0x00,	"ncr 53c875j fast20 wide scsi",		7, 16, 5,
3232  FE_WIDE|FE_ULTRA|FE_DBLR|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3233  ,
3234  {NCR_885_ID, 0x00,	"ncr 53c885 fast20 wide scsi",		7, 16, 5,
3235  FE_WIDE|FE_ULTRA|FE_DBLR|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3236  ,
3237  {NCR_895_ID, 0x00,	"ncr 53c895 fast40 wide scsi",		7, 31, 7,
3238  FE_WIDE|FE_ULTRA2|FE_QUAD|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3239  ,
3240  {NCR_896_ID, 0x00,	"ncr 53c896 fast40 wide scsi",		7, 31, 7,
3241  FE_WIDE|FE_ULTRA2|FE_QUAD|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3242  ,
3243  {NCR_895A_ID, 0x00,	"ncr 53c895a fast40 wide scsi",		7, 31, 7,
3244  FE_WIDE|FE_ULTRA2|FE_QUAD|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3245  ,
3246  {NCR_1510D_ID, 0x00,	"ncr 53c1510d fast40 wide scsi",	7, 31, 7,
3247  FE_WIDE|FE_ULTRA2|FE_QUAD|FE_CACHE_SET|FE_DFS|FE_LDSTR|FE_PFEN|FE_RAM}
3248 };
3249 
ncr_chip_lookup(u_long device_id,u_char revision_id)3250 static int ncr_chip_lookup(u_long device_id, u_char revision_id)
3251 {
3252 	int i, found;
3253 
3254 	found = -1;
3255 	for (i = 0; i < sizeof(ncr_chip_table)/sizeof(ncr_chip_table[0]); i++) {
3256 		if (device_id	== ncr_chip_table[i].device_id &&
3257 		    ncr_chip_table[i].minrevid <= revision_id) {
3258 			if (found < 0 ||
3259 			    ncr_chip_table[found].minrevid
3260 			      < ncr_chip_table[i].minrevid) {
3261 				found = i;
3262 			}
3263 		}
3264 	}
3265 	return found;
3266 }
3267 
3268 /*----------------------------------------------------------
3269 **
3270 **	Probe the hostadapter.
3271 **
3272 **----------------------------------------------------------
3273 */
3274 
3275 
3276 
ncr_probe(device_t dev)3277 static	int ncr_probe (device_t dev)
3278 {
3279 	int i;
3280 
3281 	i = ncr_chip_lookup(pci_get_devid(dev), pci_get_revid(dev));
3282 	if (i >= 0) {
3283 		device_set_desc(dev, ncr_chip_table[i].name);
3284 		return (BUS_PROBE_DEFAULT);
3285 	}
3286 
3287 	return (ENXIO);
3288 }
3289 
3290 
3291 
3292 /*==========================================================
3293 **
3294 **	NCR chip clock divisor table.
3295 **	Divisors are multiplied by 10,000,000 in order to make
3296 **	calculations more simple.
3297 **
3298 **==========================================================
3299 */
3300 
3301 #define _5M 5000000
3302 static u_long div_10M[] =
3303 	{2*_5M, 3*_5M, 4*_5M, 6*_5M, 8*_5M, 12*_5M, 16*_5M};
3304 
3305 /*===============================================================
3306 **
3307 **	NCR chips allow burst lengths of 2, 4, 8, 16, 32, 64, 128
3308 **	transfers. 32,64,128 are only supported by 875 and 895 chips.
3309 **	We use log base 2 (burst length) as internal code, with
3310 **	value 0 meaning "burst disabled".
3311 **
3312 **===============================================================
3313 */
3314 
3315 /*
3316  *	Burst length from burst code.
3317  */
3318 #define burst_length(bc) (!(bc))? 0 : 1 << (bc)
3319 
3320 /*
3321  *	Burst code from io register bits.
3322  */
3323 #define burst_code(dmode, ctest4, ctest5) \
3324 	(ctest4) & 0x80? 0 : (((dmode) & 0xc0) >> 6) + ((ctest5) & 0x04) + 1
3325 
3326 /*
3327  *	Set initial io register bits from burst code.
3328  */
3329 static void
ncr_init_burst(ncb_p np,u_char bc)3330 ncr_init_burst(ncb_p np, u_char bc)
3331 {
3332 	np->rv_ctest4	&= ~0x80;
3333 	np->rv_dmode	&= ~(0x3 << 6);
3334 	np->rv_ctest5	&= ~0x4;
3335 
3336 	if (!bc) {
3337 		np->rv_ctest4	|= 0x80;
3338 	}
3339 	else {
3340 		--bc;
3341 		np->rv_dmode	|= ((bc & 0x3) << 6);
3342 		np->rv_ctest5	|= (bc & 0x4);
3343 	}
3344 }
3345 
3346 /*==========================================================
3347 **
3348 **
3349 **      Auto configuration:  attach and init a host adapter.
3350 **
3351 **
3352 **==========================================================
3353 */
3354 
3355 
3356 static int
ncr_attach(device_t dev)3357 ncr_attach (device_t dev)
3358 {
3359 	ncb_p np = (struct ncb*) device_get_softc(dev);
3360 	u_char	 rev = 0;
3361 	u_long	 period;
3362 	int	 i, rid;
3363 	u_int8_t usrsync;
3364 	u_int8_t usrwide;
3365 	struct cam_devq *devq;
3366 
3367 	/*
3368 	**	allocate and initialize structures.
3369 	*/
3370 
3371 	np->unit = device_get_unit(dev);
3372 
3373 	/*
3374 	**	Try to map the controller chip to
3375 	**	virtual and physical memory.
3376 	*/
3377 
3378 	np->reg_rid = 0x14;
3379 	np->reg_res = bus_alloc_resource_any(dev, SYS_RES_MEMORY,
3380 					     &np->reg_rid, RF_ACTIVE);
3381 	if (!np->reg_res) {
3382 		device_printf(dev, "could not map memory\n");
3383 		return ENXIO;
3384 	}
3385 
3386 	/*
3387 	**	Make the controller's registers available.
3388 	**	Now the INB INW INL OUTB OUTW OUTL macros
3389 	**	can be used safely.
3390 	*/
3391 
3392 	np->bst = rman_get_bustag(np->reg_res);
3393 	np->bsh = rman_get_bushandle(np->reg_res);
3394 
3395 
3396 #ifdef NCR_IOMAPPED
3397 	/*
3398 	**	Try to map the controller chip into iospace.
3399 	*/
3400 
3401 	if (!pci_map_port (config_id, 0x10, &np->port))
3402 		return;
3403 #endif
3404 
3405 
3406 	/*
3407 	**	Save some controller register default values
3408 	*/
3409 
3410 	np->rv_scntl3	= INB(nc_scntl3) & 0x77;
3411 	np->rv_dmode	= INB(nc_dmode)  & 0xce;
3412 	np->rv_dcntl	= INB(nc_dcntl)  & 0xa9;
3413 	np->rv_ctest3	= INB(nc_ctest3) & 0x01;
3414 	np->rv_ctest4	= INB(nc_ctest4) & 0x88;
3415 	np->rv_ctest5	= INB(nc_ctest5) & 0x24;
3416 	np->rv_gpcntl	= INB(nc_gpcntl);
3417 	np->rv_stest2	= INB(nc_stest2) & 0x20;
3418 
3419 	if (bootverbose >= 2) {
3420 		printf ("\tBIOS values:  SCNTL3:%02x DMODE:%02x  DCNTL:%02x\n",
3421 			np->rv_scntl3, np->rv_dmode, np->rv_dcntl);
3422 		printf ("\t              CTEST3:%02x CTEST4:%02x CTEST5:%02x\n",
3423 			np->rv_ctest3, np->rv_ctest4, np->rv_ctest5);
3424 	}
3425 
3426 	np->rv_dcntl  |= NOCOM;
3427 
3428 	/*
3429 	**	Do chip dependent initialization.
3430 	*/
3431 
3432 	rev = pci_get_revid(dev);
3433 
3434 	/*
3435 	**	Get chip features from chips table.
3436 	*/
3437 	i = ncr_chip_lookup(pci_get_devid(dev), rev);
3438 
3439 	if (i >= 0) {
3440 		np->maxburst	= ncr_chip_table[i].maxburst;
3441 		np->maxoffs	= ncr_chip_table[i].maxoffs;
3442 		np->clock_divn	= ncr_chip_table[i].clock_divn;
3443 		np->features	= ncr_chip_table[i].features;
3444 	} else {	/* Should'nt happen if probe() is ok */
3445 		np->maxburst	= 4;
3446 		np->maxoffs	= 8;
3447 		np->clock_divn	= 4;
3448 		np->features	= FE_ERL;
3449 	}
3450 
3451 	np->maxwide	= np->features & FE_WIDE ? 1 : 0;
3452 	np->clock_khz	= np->features & FE_CLK80 ? 80000 : 40000;
3453 	if	(np->features & FE_QUAD)	np->multiplier = 4;
3454 	else if	(np->features & FE_DBLR)	np->multiplier = 2;
3455 	else					np->multiplier = 1;
3456 
3457 	/*
3458 	**	Get the frequency of the chip's clock.
3459 	**	Find the right value for scntl3.
3460 	*/
3461 	if (np->features & (FE_ULTRA|FE_ULTRA2))
3462 		ncr_getclock(np, np->multiplier);
3463 
3464 #ifdef NCR_TEKRAM_EEPROM
3465 	if (bootverbose) {
3466 		printf ("%s: Tekram EEPROM read %s\n",
3467 			ncr_name(np),
3468 			read_tekram_eeprom (np, NULL) ?
3469 			"succeeded" : "failed");
3470 	}
3471 #endif /* NCR_TEKRAM_EEPROM */
3472 
3473 	/*
3474 	 *	If scntl3 != 0, we assume BIOS is present.
3475 	 */
3476 	if (np->rv_scntl3)
3477 		np->features |= FE_BIOS;
3478 
3479 	/*
3480 	 * Divisor to be used for async (timer pre-scaler).
3481 	 */
3482 	i = np->clock_divn - 1;
3483 	while (i >= 0) {
3484 		--i;
3485 		if (10ul * SCSI_NCR_MIN_ASYNC * np->clock_khz > div_10M[i]) {
3486 			++i;
3487 			break;
3488 		}
3489 	}
3490 	np->rv_scntl3 = i+1;
3491 
3492 	/*
3493 	 * Minimum synchronous period factor supported by the chip.
3494 	 * Btw, 'period' is in tenths of nanoseconds.
3495 	 */
3496 
3497 	period = (4 * div_10M[0] + np->clock_khz - 1) / np->clock_khz;
3498 	if	(period <= 250)		np->minsync = 10;
3499 	else if	(period <= 303)		np->minsync = 11;
3500 	else if	(period <= 500)		np->minsync = 12;
3501 	else				np->minsync = (period + 40 - 1) / 40;
3502 
3503 	/*
3504 	 * Check against chip SCSI standard support (SCSI-2,ULTRA,ULTRA2).
3505 	 */
3506 
3507 	if	(np->minsync < 25 && !(np->features & (FE_ULTRA|FE_ULTRA2)))
3508 		np->minsync = 25;
3509 	else if	(np->minsync < 12 && !(np->features & FE_ULTRA2))
3510 		np->minsync = 12;
3511 
3512 	/*
3513 	 * Maximum synchronous period factor supported by the chip.
3514 	 */
3515 
3516 	period = (11 * div_10M[np->clock_divn - 1]) / (4 * np->clock_khz);
3517 	np->maxsync = period > 2540 ? 254 : period / 10;
3518 
3519 	/*
3520 	 * Now, some features available with Symbios compatible boards.
3521 	 * LED support through GPIO0 and DIFF support.
3522 	 */
3523 
3524 #ifdef	SCSI_NCR_SYMBIOS_COMPAT
3525 	if (!(np->rv_gpcntl & 0x01))
3526 		np->features |= FE_LED0;
3527 #if 0	/* Not safe enough without NVRAM support or user settable option */
3528 	if (!(INB(nc_gpreg) & 0x08))
3529 		np->features |= FE_DIFF;
3530 #endif
3531 #endif	/* SCSI_NCR_SYMBIOS_COMPAT */
3532 
3533 	/*
3534 	 * Prepare initial IO registers settings.
3535 	 * Trust BIOS only if we believe we have one and if we want to.
3536 	 */
3537 #ifdef	SCSI_NCR_TRUST_BIOS
3538 	if (!(np->features & FE_BIOS)) {
3539 #else
3540 	if (1) {
3541 #endif
3542 		np->rv_dmode = 0;
3543 		np->rv_dcntl = NOCOM;
3544 		np->rv_ctest3 = 0;
3545 		np->rv_ctest4 = MPEE;
3546 		np->rv_ctest5 = 0;
3547 		np->rv_stest2 = 0;
3548 
3549 		if (np->features & FE_ERL)
3550 			np->rv_dmode 	|= ERL;	  /* Enable Read Line */
3551 		if (np->features & FE_BOF)
3552 			np->rv_dmode 	|= BOF;	  /* Burst Opcode Fetch */
3553 		if (np->features & FE_ERMP)
3554 			np->rv_dmode	|= ERMP;  /* Enable Read Multiple */
3555 		if (np->features & FE_CLSE)
3556 			np->rv_dcntl	|= CLSE;  /* Cache Line Size Enable */
3557 		if (np->features & FE_WRIE)
3558 			np->rv_ctest3	|= WRIE;  /* Write and Invalidate */
3559 		if (np->features & FE_PFEN)
3560 			np->rv_dcntl	|= PFEN;  /* Prefetch Enable */
3561 		if (np->features & FE_DFS)
3562 			np->rv_ctest5	|= DFS;	  /* Dma Fifo Size */
3563 		if (np->features & FE_DIFF)
3564 			np->rv_stest2	|= 0x20;  /* Differential mode */
3565 		ncr_init_burst(np, np->maxburst); /* Max dwords burst length */
3566 	} else {
3567 		np->maxburst =
3568 			burst_code(np->rv_dmode, np->rv_ctest4, np->rv_ctest5);
3569 	}
3570 
3571 	/*
3572 	**	Get on-chip SRAM address, if supported
3573 	*/
3574 	if ((np->features & FE_RAM) && sizeof(struct script) <= 4096) {
3575 		np->sram_rid = 0x18;
3576 		np->sram_res = bus_alloc_resource_any(dev, SYS_RES_MEMORY,
3577 						      &np->sram_rid,
3578 						      RF_ACTIVE);
3579 	}
3580 
3581 	/*
3582 	**	Allocate structure for script relocation.
3583 	*/
3584 	if (np->sram_res != NULL) {
3585 		np->script = NULL;
3586 		np->p_script = rman_get_start(np->sram_res);
3587 		np->bst2 = rman_get_bustag(np->sram_res);
3588 		np->bsh2 = rman_get_bushandle(np->sram_res);
3589 	} else if (sizeof (struct script) > PAGE_SIZE) {
3590 		np->script  = (struct script*) contigmalloc
3591 			(round_page(sizeof (struct script)), M_DEVBUF, M_WAITOK,
3592 			 0, 0xffffffff, PAGE_SIZE, 0);
3593 	} else {
3594 		np->script  = (struct script *)
3595 			malloc (sizeof (struct script), M_DEVBUF, M_WAITOK);
3596 	}
3597 
3598 	if (sizeof (struct scripth) > PAGE_SIZE) {
3599 		np->scripth = (struct scripth*) contigmalloc
3600 			(round_page(sizeof (struct scripth)), M_DEVBUF, M_WAITOK,
3601 			 0, 0xffffffff, PAGE_SIZE, 0);
3602 	} else
3603 		{
3604 		np->scripth = (struct scripth *)
3605 			malloc (sizeof (struct scripth), M_DEVBUF, M_WAITOK);
3606 	}
3607 
3608 #ifdef SCSI_NCR_PCI_CONFIG_FIXUP
3609 	/*
3610 	**	If cache line size is enabled, check PCI config space and
3611 	**	try to fix it up if necessary.
3612 	*/
3613 #ifdef PCIR_CACHELNSZ	/* To be sure that new PCI stuff is present */
3614 	{
3615 		u_char cachelnsz = pci_read_config(dev, PCIR_CACHELNSZ, 1);
3616 		u_short command  = pci_read_config(dev, PCIR_COMMAND, 2);
3617 
3618 		if (!cachelnsz) {
3619 			cachelnsz = 8;
3620 			printf("%s: setting PCI cache line size register to %d.\n",
3621 				ncr_name(np), (int)cachelnsz);
3622 			pci_write_config(dev, PCIR_CACHELNSZ, cachelnsz, 1);
3623 		}
3624 
3625 		if (!(command & PCIM_CMD_MWRICEN)) {
3626 			command |= PCIM_CMD_MWRICEN;
3627 			printf("%s: setting PCI command write and invalidate.\n",
3628 				ncr_name(np));
3629 			pci_write_config(dev, PCIR_COMMAND, command, 2);
3630 		}
3631 	}
3632 #endif /* PCIR_CACHELNSZ */
3633 
3634 #endif /* SCSI_NCR_PCI_CONFIG_FIXUP */
3635 
3636 	/* Initialize per-target user settings */
3637 	usrsync = 0;
3638 	if (SCSI_NCR_DFLT_SYNC) {
3639 		usrsync = SCSI_NCR_DFLT_SYNC;
3640 		if (usrsync > np->maxsync)
3641 			usrsync = np->maxsync;
3642 		if (usrsync < np->minsync)
3643 			usrsync = np->minsync;
3644 	};
3645 
3646 	usrwide = (SCSI_NCR_MAX_WIDE);
3647 	if (usrwide > np->maxwide) usrwide=np->maxwide;
3648 
3649 	for (i=0;i<MAX_TARGET;i++) {
3650 		tcb_p tp = &np->target[i];
3651 
3652 		tp->tinfo.user.period = usrsync;
3653 		tp->tinfo.user.offset = usrsync != 0 ? np->maxoffs : 0;
3654 		tp->tinfo.user.width = usrwide;
3655 		tp->tinfo.disc_tag = NCR_CUR_DISCENB
3656 				   | NCR_CUR_TAGENB
3657 				   | NCR_USR_DISCENB
3658 				   | NCR_USR_TAGENB;
3659 	}
3660 
3661 	/*
3662 	**	Bells and whistles   ;-)
3663 	*/
3664 	if (bootverbose)
3665 		printf("%s: minsync=%d, maxsync=%d, maxoffs=%d, %d dwords burst, %s dma fifo\n",
3666 		ncr_name(np), np->minsync, np->maxsync, np->maxoffs,
3667 		burst_length(np->maxburst),
3668 		(np->rv_ctest5 & DFS) ? "large" : "normal");
3669 
3670 	/*
3671 	**	Print some complementary information that can be helpfull.
3672 	*/
3673 	if (bootverbose)
3674 		printf("%s: %s, %s IRQ driver%s\n",
3675 			ncr_name(np),
3676 			np->rv_stest2 & 0x20 ? "differential" : "single-ended",
3677 			np->rv_dcntl & IRQM ? "totem pole" : "open drain",
3678 			np->sram_res ? ", using on-chip SRAM" : "");
3679 
3680 	/*
3681 	**	Patch scripts to physical addresses
3682 	*/
3683 	ncr_script_fill (&script0, &scripth0);
3684 
3685 	if (np->script)
3686 		np->p_script	= vtophys(np->script);
3687 	np->p_scripth	= vtophys(np->scripth);
3688 
3689 	ncr_script_copy_and_bind (np, (ncrcmd *) &script0,
3690 			(ncrcmd *) np->script, sizeof(struct script));
3691 
3692 	ncr_script_copy_and_bind (np, (ncrcmd *) &scripth0,
3693 		(ncrcmd *) np->scripth, sizeof(struct scripth));
3694 
3695 	/*
3696 	**    Patch the script for LED support.
3697 	*/
3698 
3699 	if (np->features & FE_LED0) {
3700 		WRITESCRIPT(reselect[0],  SCR_REG_REG(gpreg, SCR_OR,  0x01));
3701 		WRITESCRIPT(reselect1[0], SCR_REG_REG(gpreg, SCR_AND, 0xfe));
3702 		WRITESCRIPT(reselect2[0], SCR_REG_REG(gpreg, SCR_AND, 0xfe));
3703 	}
3704 
3705 	/*
3706 	**	init data structure
3707 	*/
3708 
3709 	np->jump_tcb.l_cmd	= SCR_JUMP;
3710 	np->jump_tcb.l_paddr	= NCB_SCRIPTH_PHYS (np, abort);
3711 
3712 	/*
3713 	**  Get SCSI addr of host adapter (set by bios?).
3714 	*/
3715 
3716 	np->myaddr = INB(nc_scid) & 0x07;
3717 	if (!np->myaddr) np->myaddr = SCSI_NCR_MYADDR;
3718 
3719 #ifdef NCR_DUMP_REG
3720 	/*
3721 	**	Log the initial register contents
3722 	*/
3723 	{
3724 		int reg;
3725 		for (reg=0; reg<256; reg+=4) {
3726 			if (reg%16==0) printf ("reg[%2x]", reg);
3727 			printf (" %08x", (int)pci_conf_read (config_id, reg));
3728 			if (reg%16==12) printf ("\n");
3729 		}
3730 	}
3731 #endif /* NCR_DUMP_REG */
3732 
3733 	/*
3734 	**	Reset chip.
3735 	*/
3736 
3737 	OUTB (nc_istat,  SRST);
3738 	DELAY (1000);
3739 	OUTB (nc_istat,  0   );
3740 
3741 
3742 	/*
3743 	**	Now check the cache handling of the pci chipset.
3744 	*/
3745 
3746 	if (ncr_snooptest (np)) {
3747 		printf ("CACHE INCORRECTLY CONFIGURED.\n");
3748 		return EINVAL;
3749 	};
3750 
3751 	/*
3752 	**	Install the interrupt handler.
3753 	*/
3754 
3755 	rid = 0;
3756 	np->irq_res = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid,
3757 					     RF_SHAREABLE | RF_ACTIVE);
3758 	if (np->irq_res == NULL) {
3759 		device_printf(dev,
3760 			      "interruptless mode: reduced performance.\n");
3761 	} else {
3762 		bus_setup_intr(dev, np->irq_res, INTR_TYPE_CAM | INTR_ENTROPY,
3763 			       NULL, ncr_intr, np, &np->irq_handle);
3764 	}
3765 
3766 	/*
3767 	** Create the device queue.  We only allow MAX_START-1 concurrent
3768 	** transactions so we can be sure to have one element free in our
3769 	** start queue to reset to the idle loop.
3770 	*/
3771 	devq = cam_simq_alloc(MAX_START - 1);
3772 	if (devq == NULL)
3773 		return ENOMEM;
3774 
3775 	/*
3776 	**	Now tell the generic SCSI layer
3777 	**	about our bus.
3778 	*/
3779 	np->sim = cam_sim_alloc(ncr_action, ncr_poll, "ncr", np, np->unit,
3780 				&Giant, 1, MAX_TAGS, devq);
3781 	if (np->sim == NULL) {
3782 		cam_simq_free(devq);
3783 		return ENOMEM;
3784 	}
3785 
3786 
3787 	if (xpt_bus_register(np->sim, dev, 0) != CAM_SUCCESS) {
3788 		cam_sim_free(np->sim, /*free_devq*/ TRUE);
3789 		return ENOMEM;
3790 	}
3791 
3792 	if (xpt_create_path(&np->path, /*periph*/NULL,
3793 			    cam_sim_path(np->sim), CAM_TARGET_WILDCARD,
3794 			    CAM_LUN_WILDCARD) != CAM_REQ_CMP) {
3795 		xpt_bus_deregister(cam_sim_path(np->sim));
3796 		cam_sim_free(np->sim, /*free_devq*/TRUE);
3797 		return ENOMEM;
3798 	}
3799 
3800 	/*
3801 	**	start the timeout daemon
3802 	*/
3803 	ncr_timeout (np);
3804 	np->lasttime=0;
3805 
3806 	return 0;
3807 }
3808 
3809 /*==========================================================
3810 **
3811 **
3812 **	Process pending device interrupts.
3813 **
3814 **
3815 **==========================================================
3816 */
3817 
3818 static void
3819 ncr_intr(vnp)
3820 	void *vnp;
3821 {
3822 	ncb_p np = vnp;
3823 	int oldspl = splcam();
3824 
3825 	if (DEBUG_FLAGS & DEBUG_TINY) printf ("[");
3826 
3827 	if (INB(nc_istat) & (INTF|SIP|DIP)) {
3828 		/*
3829 		**	Repeat until no outstanding ints
3830 		*/
3831 		do {
3832 			ncr_exception (np);
3833 		} while (INB(nc_istat) & (INTF|SIP|DIP));
3834 
3835 		np->ticks = 100;
3836 	};
3837 
3838 	if (DEBUG_FLAGS & DEBUG_TINY) printf ("]\n");
3839 
3840 	splx (oldspl);
3841 }
3842 
3843 /*==========================================================
3844 **
3845 **
3846 **	Start execution of a SCSI command.
3847 **	This is called from the generic SCSI driver.
3848 **
3849 **
3850 **==========================================================
3851 */
3852 
3853 static void
3854 ncr_action (struct cam_sim *sim, union ccb *ccb)
3855 {
3856 	ncb_p np;
3857 
3858 	np = (ncb_p) cam_sim_softc(sim);
3859 
3860 	switch (ccb->ccb_h.func_code) {
3861 	/* Common cases first */
3862 	case XPT_SCSI_IO:	/* Execute the requested I/O operation */
3863 	{
3864 		nccb_p cp;
3865 		lcb_p lp;
3866 		tcb_p tp;
3867 		int oldspl;
3868 		struct ccb_scsiio *csio;
3869 		u_int8_t *msgptr;
3870 		u_int msglen;
3871 		u_int msglen2;
3872 		int segments;
3873 		u_int8_t nego;
3874 		u_int8_t idmsg;
3875 		int qidx;
3876 
3877 		tp = &np->target[ccb->ccb_h.target_id];
3878 		csio = &ccb->csio;
3879 
3880 		oldspl = splcam();
3881 
3882 		/*
3883 		 * Last time we need to check if this CCB needs to
3884 		 * be aborted.
3885 		 */
3886 		if ((ccb->ccb_h.status & CAM_STATUS_MASK) != CAM_REQ_INPROG) {
3887 			xpt_done(ccb);
3888 			splx(oldspl);
3889 			return;
3890 		}
3891 		ccb->ccb_h.status |= CAM_SIM_QUEUED;
3892 
3893 		/*---------------------------------------------------
3894 		**
3895 		**	Assign an nccb / bind ccb
3896 		**
3897 		**----------------------------------------------------
3898 		*/
3899 		cp = ncr_get_nccb (np, ccb->ccb_h.target_id,
3900 				   ccb->ccb_h.target_lun);
3901 		if (cp == NULL) {
3902 			/* XXX JGibbs - Freeze SIMQ */
3903 			ccb->ccb_h.status = CAM_RESRC_UNAVAIL;
3904 			xpt_done(ccb);
3905 			return;
3906 		};
3907 
3908 		cp->ccb = ccb;
3909 
3910 		/*---------------------------------------------------
3911 		**
3912 		**	timestamp
3913 		**
3914 		**----------------------------------------------------
3915 		*/
3916 		/*
3917 		** XXX JGibbs - Isn't this expensive
3918 		**		enough to be conditionalized??
3919 		*/
3920 
3921 		bzero (&cp->phys.header.stamp, sizeof (struct tstamp));
3922 		cp->phys.header.stamp.start = ticks;
3923 
3924 		nego = 0;
3925 		if (tp->nego_cp == NULL) {
3926 
3927 			if (tp->tinfo.current.width
3928 			 != tp->tinfo.goal.width) {
3929 				tp->nego_cp = cp;
3930 				nego = NS_WIDE;
3931 			} else if ((tp->tinfo.current.period
3932 				    != tp->tinfo.goal.period)
3933 				|| (tp->tinfo.current.offset
3934 				    != tp->tinfo.goal.offset)) {
3935 				tp->nego_cp = cp;
3936 				nego = NS_SYNC;
3937 			};
3938 		};
3939 
3940 		/*---------------------------------------------------
3941 		**
3942 		**	choose a new tag ...
3943 		**
3944 		**----------------------------------------------------
3945 		*/
3946 		lp = tp->lp[ccb->ccb_h.target_lun];
3947 
3948 		if ((ccb->ccb_h.flags & CAM_TAG_ACTION_VALID) != 0
3949 		 && (ccb->csio.tag_action != CAM_TAG_ACTION_NONE)
3950 		 && (nego == 0)) {
3951 			/*
3952 			**	assign a tag to this nccb
3953 			*/
3954 			while (!cp->tag) {
3955 				nccb_p cp2 = lp->next_nccb;
3956 				lp->lasttag = lp->lasttag % 255 + 1;
3957 				while (cp2 && cp2->tag != lp->lasttag)
3958 					cp2 = cp2->next_nccb;
3959 				if (cp2) continue;
3960 				cp->tag=lp->lasttag;
3961 				if (DEBUG_FLAGS & DEBUG_TAGS) {
3962 					PRINT_ADDR(ccb);
3963 					printf ("using tag #%d.\n", cp->tag);
3964 				};
3965 			};
3966 		} else {
3967 			cp->tag=0;
3968 		};
3969 
3970 		/*----------------------------------------------------
3971 		**
3972 		**	Build the identify / tag / sdtr message
3973 		**
3974 		**----------------------------------------------------
3975 		*/
3976 		idmsg = MSG_IDENTIFYFLAG | ccb->ccb_h.target_lun;
3977 		if (tp->tinfo.disc_tag & NCR_CUR_DISCENB)
3978 			idmsg |= MSG_IDENTIFY_DISCFLAG;
3979 
3980 		msgptr = cp->scsi_smsg;
3981 		msglen = 0;
3982 		msgptr[msglen++] = idmsg;
3983 
3984 		if (cp->tag) {
3985 	    		msgptr[msglen++] = ccb->csio.tag_action;
3986 			msgptr[msglen++] = cp->tag;
3987 		}
3988 
3989 		switch (nego) {
3990 		case NS_SYNC:
3991 			msgptr[msglen++] = MSG_EXTENDED;
3992 			msgptr[msglen++] = MSG_EXT_SDTR_LEN;
3993 			msgptr[msglen++] = MSG_EXT_SDTR;
3994 			msgptr[msglen++] = tp->tinfo.goal.period;
3995 			msgptr[msglen++] = tp->tinfo.goal.offset;
3996 			if (DEBUG_FLAGS & DEBUG_NEGO) {
3997 				PRINT_ADDR(ccb);
3998 				printf ("sync msgout: ");
3999 				ncr_show_msg (&cp->scsi_smsg [msglen-5]);
4000 				printf (".\n");
4001 			};
4002 			break;
4003 		case NS_WIDE:
4004 			msgptr[msglen++] = MSG_EXTENDED;
4005 			msgptr[msglen++] = MSG_EXT_WDTR_LEN;
4006 			msgptr[msglen++] = MSG_EXT_WDTR;
4007 			msgptr[msglen++] = tp->tinfo.goal.width;
4008 			if (DEBUG_FLAGS & DEBUG_NEGO) {
4009 				PRINT_ADDR(ccb);
4010 				printf ("wide msgout: ");
4011 				ncr_show_msg (&cp->scsi_smsg [msglen-4]);
4012 				printf (".\n");
4013 			};
4014 			break;
4015 		};
4016 
4017 		/*----------------------------------------------------
4018 		**
4019 		**	Build the identify message for getcc.
4020 		**
4021 		**----------------------------------------------------
4022 		*/
4023 
4024 		cp->scsi_smsg2 [0] = idmsg;
4025 		msglen2 = 1;
4026 
4027 		/*----------------------------------------------------
4028 		**
4029 		**	Build the data descriptors
4030 		**
4031 		**----------------------------------------------------
4032 		*/
4033 
4034 		/* XXX JGibbs - Handle other types of I/O */
4035 		if ((ccb->ccb_h.flags & CAM_DIR_MASK) != CAM_DIR_NONE) {
4036 			segments = ncr_scatter(&cp->phys,
4037 					       (vm_offset_t)csio->data_ptr,
4038 					       (vm_size_t)csio->dxfer_len);
4039 
4040 			if (segments < 0) {
4041 				ccb->ccb_h.status = CAM_REQ_TOO_BIG;
4042 				ncr_free_nccb(np, cp);
4043 				splx(oldspl);
4044 				xpt_done(ccb);
4045 				return;
4046 			}
4047 			if ((ccb->ccb_h.flags & CAM_DIR_MASK) == CAM_DIR_IN) {
4048 				cp->phys.header.savep = NCB_SCRIPT_PHYS (np, data_in);
4049 				cp->phys.header.goalp = cp->phys.header.savep +20 +segments*16;
4050 			} else { /* CAM_DIR_OUT */
4051 				cp->phys.header.savep = NCB_SCRIPT_PHYS (np, data_out);
4052 				cp->phys.header.goalp = cp->phys.header.savep +20 +segments*16;
4053 			}
4054 		} else {
4055 			cp->phys.header.savep = NCB_SCRIPT_PHYS (np, no_data);
4056 			cp->phys.header.goalp = cp->phys.header.savep;
4057 		}
4058 
4059 		cp->phys.header.lastp = cp->phys.header.savep;
4060 
4061 
4062 		/*----------------------------------------------------
4063 		**
4064 		**	fill in nccb
4065 		**
4066 		**----------------------------------------------------
4067 		**
4068 		**
4069 		**	physical -> virtual backlink
4070 		**	Generic SCSI command
4071 		*/
4072 		cp->phys.header.cp		= cp;
4073 		/*
4074 		**	Startqueue
4075 		*/
4076 		cp->phys.header.launch.l_paddr	= NCB_SCRIPT_PHYS (np, select);
4077 		cp->phys.header.launch.l_cmd	= SCR_JUMP;
4078 		/*
4079 		**	select
4080 		*/
4081 		cp->phys.select.sel_id		= ccb->ccb_h.target_id;
4082 		cp->phys.select.sel_scntl3	= tp->tinfo.wval;
4083 		cp->phys.select.sel_sxfer	= tp->tinfo.sval;
4084 		/*
4085 		**	message
4086 		*/
4087 		cp->phys.smsg.addr		= CCB_PHYS (cp, scsi_smsg);
4088 		cp->phys.smsg.size		= msglen;
4089 
4090 		cp->phys.smsg2.addr		= CCB_PHYS (cp, scsi_smsg2);
4091 		cp->phys.smsg2.size		= msglen2;
4092 		/*
4093 		**	command
4094 		*/
4095 		/* XXX JGibbs - Support other command types */
4096 		cp->phys.cmd.addr		= vtophys (csio->cdb_io.cdb_bytes);
4097 		cp->phys.cmd.size		= csio->cdb_len;
4098 		/*
4099 		**	sense command
4100 		*/
4101 		cp->phys.scmd.addr		= CCB_PHYS (cp, sensecmd);
4102 		cp->phys.scmd.size		= 6;
4103 		/*
4104 		**	patch requested size into sense command
4105 		*/
4106 		cp->sensecmd[0]			= 0x03;
4107 		cp->sensecmd[1]			= ccb->ccb_h.target_lun << 5;
4108 		cp->sensecmd[4]			= sizeof(struct scsi_sense_data);
4109 		cp->sensecmd[4]			= csio->sense_len;
4110 		/*
4111 		**	sense data
4112 		*/
4113 		cp->phys.sense.addr		= vtophys (&csio->sense_data);
4114 		cp->phys.sense.size		= csio->sense_len;
4115 		/*
4116 		**	status
4117 		*/
4118 		cp->actualquirks		= QUIRK_NOMSG;
4119 		cp->host_status			= nego ? HS_NEGOTIATE : HS_BUSY;
4120 		cp->s_status			= SCSI_STATUS_ILLEGAL;
4121 		cp->parity_status		= 0;
4122 
4123 		cp->xerr_status			= XE_OK;
4124 		cp->sync_status			= tp->tinfo.sval;
4125 		cp->nego_status			= nego;
4126 		cp->wide_status			= tp->tinfo.wval;
4127 
4128 		/*----------------------------------------------------
4129 		**
4130 		**	Critical region: start this job.
4131 		**
4132 		**----------------------------------------------------
4133 		*/
4134 
4135 		/*
4136 		**	reselect pattern and activate this job.
4137 		*/
4138 
4139 		cp->jump_nccb.l_cmd	= (SCR_JUMP ^ IFFALSE (DATA (cp->tag)));
4140 		cp->tlimit		= time_second
4141 					+ ccb->ccb_h.timeout / 1000 + 2;
4142 		cp->magic		= CCB_MAGIC;
4143 
4144 		/*
4145 		**	insert into start queue.
4146 		*/
4147 
4148 		qidx = np->squeueput + 1;
4149 		if (qidx >= MAX_START)
4150 			qidx = 0;
4151 		np->squeue [qidx	 ] = NCB_SCRIPT_PHYS (np, idle);
4152 		np->squeue [np->squeueput] = CCB_PHYS (cp, phys);
4153 		np->squeueput = qidx;
4154 
4155 		if(DEBUG_FLAGS & DEBUG_QUEUE)
4156 			printf("%s: queuepos=%d tryoffset=%d.\n",
4157 			       ncr_name (np), np->squeueput,
4158 			       (unsigned)(READSCRIPT(startpos[0]) -
4159 			       (NCB_SCRIPTH_PHYS (np, tryloop))));
4160 
4161 		/*
4162 		**	Script processor may be waiting for reselect.
4163 		**	Wake it up.
4164 		*/
4165 		OUTB (nc_istat, SIGP);
4166 
4167 		/*
4168 		**	and reenable interrupts
4169 		*/
4170 		splx (oldspl);
4171 		break;
4172 	}
4173 	case XPT_RESET_DEV:	/* Bus Device Reset the specified SCSI device */
4174 	case XPT_EN_LUN:		/* Enable LUN as a target */
4175 	case XPT_TARGET_IO:		/* Execute target I/O request */
4176 	case XPT_ACCEPT_TARGET_IO:	/* Accept Host Target Mode CDB */
4177 	case XPT_CONT_TARGET_IO:	/* Continue Host Target I/O Connection*/
4178 	case XPT_ABORT:			/* Abort the specified CCB */
4179 		/* XXX Implement */
4180 		ccb->ccb_h.status = CAM_REQ_INVALID;
4181 		xpt_done(ccb);
4182 		break;
4183 	case XPT_SET_TRAN_SETTINGS:
4184 	{
4185 		struct	ccb_trans_settings *cts = &ccb->cts;
4186 		tcb_p	tp;
4187 		u_int	update_type;
4188 		int	s;
4189 		struct ccb_trans_settings_scsi *scsi =
4190 		    &cts->proto_specific.scsi;
4191 		struct ccb_trans_settings_spi *spi =
4192 		    &cts->xport_specific.spi;
4193 
4194 		update_type = 0;
4195 		if (cts->type == CTS_TYPE_CURRENT_SETTINGS)
4196 			update_type |= NCR_TRANS_GOAL;
4197 		if (cts->type == CTS_TYPE_USER_SETTINGS)
4198 			update_type |= NCR_TRANS_USER;
4199 
4200 		s = splcam();
4201 		tp = &np->target[ccb->ccb_h.target_id];
4202 		/* Tag and disc enables */
4203 		if ((spi->valid & CTS_SPI_VALID_DISC) != 0) {
4204 			if (update_type & NCR_TRANS_GOAL) {
4205 				if ((spi->flags & CTS_SPI_FLAGS_DISC_ENB) != 0)
4206 					tp->tinfo.disc_tag |= NCR_CUR_DISCENB;
4207 				else
4208 					tp->tinfo.disc_tag &= ~NCR_CUR_DISCENB;
4209 			}
4210 
4211 			if (update_type & NCR_TRANS_USER) {
4212 				if ((spi->flags & CTS_SPI_FLAGS_DISC_ENB) != 0)
4213 					tp->tinfo.disc_tag |= NCR_USR_DISCENB;
4214 				else
4215 					tp->tinfo.disc_tag &= ~NCR_USR_DISCENB;
4216 			}
4217 
4218 		}
4219 
4220 		if ((scsi->valid & CTS_SCSI_VALID_TQ) != 0) {
4221 			if (update_type & NCR_TRANS_GOAL) {
4222 				if ((scsi->flags & CTS_SCSI_FLAGS_TAG_ENB) != 0)
4223 					tp->tinfo.disc_tag |= NCR_CUR_TAGENB;
4224 				else
4225 					tp->tinfo.disc_tag &= ~NCR_CUR_TAGENB;
4226 			}
4227 
4228 			if (update_type & NCR_TRANS_USER) {
4229 				if ((scsi->flags & CTS_SCSI_FLAGS_TAG_ENB) != 0)
4230 					tp->tinfo.disc_tag |= NCR_USR_TAGENB;
4231 				else
4232 					tp->tinfo.disc_tag &= ~NCR_USR_TAGENB;
4233 			}
4234 		}
4235 
4236 		/* Filter bus width and sync negotiation settings */
4237 		if ((spi->valid & CTS_SPI_VALID_BUS_WIDTH) != 0) {
4238 			if (spi->bus_width > np->maxwide)
4239 				spi->bus_width = np->maxwide;
4240 		}
4241 
4242 		if (((spi->valid & CTS_SPI_VALID_SYNC_RATE) != 0)
4243 		 || ((spi->valid & CTS_SPI_VALID_SYNC_OFFSET) != 0)) {
4244 			if ((spi->valid & CTS_SPI_VALID_SYNC_RATE) != 0) {
4245 				if (spi->sync_period != 0
4246 				 && (spi->sync_period < np->minsync))
4247 					spi->sync_period = np->minsync;
4248 			}
4249 			if ((spi->valid & CTS_SPI_VALID_SYNC_OFFSET) != 0) {
4250 				if (spi->sync_offset == 0)
4251 					spi->sync_period = 0;
4252 				if (spi->sync_offset > np->maxoffs)
4253 					spi->sync_offset = np->maxoffs;
4254 			}
4255 		}
4256 		if ((update_type & NCR_TRANS_USER) != 0) {
4257 			if ((spi->valid & CTS_SPI_VALID_SYNC_RATE) != 0)
4258 				tp->tinfo.user.period = spi->sync_period;
4259 			if ((spi->valid & CTS_SPI_VALID_SYNC_OFFSET) != 0)
4260 				tp->tinfo.user.offset = spi->sync_offset;
4261 			if ((spi->valid & CTS_SPI_VALID_BUS_WIDTH) != 0)
4262 				tp->tinfo.user.width = spi->bus_width;
4263 		}
4264 		if ((update_type & NCR_TRANS_GOAL) != 0) {
4265 			if ((spi->valid & CTS_SPI_VALID_SYNC_RATE) != 0)
4266 				tp->tinfo.goal.period = spi->sync_period;
4267 
4268 			if ((spi->valid & CTS_SPI_VALID_SYNC_OFFSET) != 0)
4269 				tp->tinfo.goal.offset = spi->sync_offset;
4270 
4271 			if ((spi->valid & CTS_SPI_VALID_BUS_WIDTH) != 0)
4272 				tp->tinfo.goal.width = spi->bus_width;
4273 		}
4274 		splx(s);
4275 		ccb->ccb_h.status = CAM_REQ_CMP;
4276 		xpt_done(ccb);
4277 		break;
4278 	}
4279 	case XPT_GET_TRAN_SETTINGS:
4280 	/* Get default/user set transfer settings for the target */
4281 	{
4282 		struct	ccb_trans_settings *cts = &ccb->cts;
4283 		struct	ncr_transinfo *tinfo;
4284 		tcb_p	tp = &np->target[ccb->ccb_h.target_id];
4285 		int	s;
4286 		struct ccb_trans_settings_scsi *scsi =
4287 		    &cts->proto_specific.scsi;
4288 		struct ccb_trans_settings_spi *spi =
4289 		    &cts->xport_specific.spi;
4290 
4291 		cts->protocol = PROTO_SCSI;
4292 		cts->protocol_version = SCSI_REV_2;
4293 		cts->transport = XPORT_SPI;
4294 		cts->transport_version = 2;
4295 
4296 		s = splcam();
4297 		if (cts->type == CTS_TYPE_CURRENT_SETTINGS) {
4298 			tinfo = &tp->tinfo.current;
4299 			if (tp->tinfo.disc_tag & NCR_CUR_DISCENB)
4300 				spi->flags |= CTS_SPI_FLAGS_DISC_ENB;
4301 			else
4302 				spi->flags &= ~CTS_SPI_FLAGS_DISC_ENB;
4303 
4304 			if (tp->tinfo.disc_tag & NCR_CUR_TAGENB)
4305 				scsi->flags |= CTS_SCSI_FLAGS_TAG_ENB;
4306 			else
4307 				scsi->flags &= ~CTS_SCSI_FLAGS_TAG_ENB;
4308 		} else {
4309 			tinfo = &tp->tinfo.user;
4310 			if (tp->tinfo.disc_tag & NCR_USR_DISCENB)
4311 				spi->flags |= CTS_SPI_FLAGS_DISC_ENB;
4312 			else
4313 				spi->flags &= ~CTS_SPI_FLAGS_DISC_ENB;
4314 
4315 			if (tp->tinfo.disc_tag & NCR_USR_TAGENB)
4316 				scsi->flags |= CTS_SCSI_FLAGS_TAG_ENB;
4317 			else
4318 				scsi->flags &= ~CTS_SCSI_FLAGS_TAG_ENB;
4319 		}
4320 
4321 		spi->sync_period = tinfo->period;
4322 		spi->sync_offset = tinfo->offset;
4323 		spi->bus_width = tinfo->width;
4324 
4325 		splx(s);
4326 		spi->valid = CTS_SPI_VALID_SYNC_RATE
4327 			   | CTS_SPI_VALID_SYNC_OFFSET
4328 			   | CTS_SPI_VALID_BUS_WIDTH
4329 			   | CTS_SPI_VALID_DISC;
4330 		scsi->valid = CTS_SCSI_VALID_TQ;
4331 
4332 		ccb->ccb_h.status = CAM_REQ_CMP;
4333 		xpt_done(ccb);
4334 		break;
4335 	}
4336 	case XPT_CALC_GEOMETRY:
4337 	{
4338 		/* XXX JGibbs - I'm sure the NCR uses a different strategy,
4339 		 *		but it should be able to deal with Adaptec
4340 		 *		geometry too.
4341 		 */
4342 		cam_calc_geometry(&ccb->ccg, /*extended*/1);
4343 		xpt_done(ccb);
4344 		break;
4345 	}
4346 	case XPT_RESET_BUS:		/* Reset the specified SCSI bus */
4347 	{
4348 		OUTB (nc_scntl1, CRST);
4349 		ccb->ccb_h.status = CAM_REQ_CMP;
4350 		DELAY(10000);	/* Wait until our interrupt handler sees it */
4351 		xpt_done(ccb);
4352 		break;
4353 	}
4354 	case XPT_TERM_IO:		/* Terminate the I/O process */
4355 		/* XXX Implement */
4356 		ccb->ccb_h.status = CAM_REQ_INVALID;
4357 		xpt_done(ccb);
4358 		break;
4359 	case XPT_PATH_INQ:		/* Path routing inquiry */
4360 	{
4361 		struct ccb_pathinq *cpi = &ccb->cpi;
4362 
4363 		cpi->version_num = 1; /* XXX??? */
4364 		cpi->hba_inquiry = PI_SDTR_ABLE|PI_TAG_ABLE;
4365 		if ((np->features & FE_WIDE) != 0)
4366 			cpi->hba_inquiry |= PI_WIDE_16;
4367 		cpi->target_sprt = 0;
4368 		cpi->hba_misc = 0;
4369 		cpi->hba_eng_cnt = 0;
4370 		cpi->max_target = (np->features & FE_WIDE) ? 15 : 7;
4371 		cpi->max_lun = MAX_LUN - 1;
4372 		cpi->initiator_id = np->myaddr;
4373 		cpi->bus_id = cam_sim_bus(sim);
4374 		cpi->base_transfer_speed = 3300;
4375 		strncpy(cpi->sim_vid, "FreeBSD", SIM_IDLEN);
4376 		strncpy(cpi->hba_vid, "Symbios", HBA_IDLEN);
4377 		strncpy(cpi->dev_name, cam_sim_name(sim), DEV_IDLEN);
4378 		cpi->unit_number = cam_sim_unit(sim);
4379                 cpi->transport = XPORT_SPI;
4380                 cpi->transport_version = 2;
4381                 cpi->protocol = PROTO_SCSI;
4382                 cpi->protocol_version = SCSI_REV_2;
4383 		cpi->ccb_h.status = CAM_REQ_CMP;
4384 		xpt_done(ccb);
4385 		break;
4386 	}
4387 	default:
4388 		ccb->ccb_h.status = CAM_REQ_INVALID;
4389 		xpt_done(ccb);
4390 		break;
4391 	}
4392 }
4393 
4394 /*==========================================================
4395 **
4396 **
4397 **	Complete execution of a SCSI command.
4398 **	Signal completion to the generic SCSI driver.
4399 **
4400 **
4401 **==========================================================
4402 */
4403 
4404 static void
4405 ncr_complete (ncb_p np, nccb_p cp)
4406 {
4407 	union ccb *ccb;
4408 	tcb_p tp;
4409 
4410 	/*
4411 	**	Sanity check
4412 	*/
4413 
4414 	if (!cp || (cp->magic!=CCB_MAGIC) || !cp->ccb) return;
4415 	cp->magic = 1;
4416 	cp->tlimit= 0;
4417 
4418 	/*
4419 	**	No Reselect anymore.
4420 	*/
4421 	cp->jump_nccb.l_cmd = (SCR_JUMP);
4422 
4423 	/*
4424 	**	No starting.
4425 	*/
4426 	cp->phys.header.launch.l_paddr= NCB_SCRIPT_PHYS (np, idle);
4427 
4428 	/*
4429 	**	timestamp
4430 	*/
4431 	ncb_profile (np, cp);
4432 
4433 	if (DEBUG_FLAGS & DEBUG_TINY)
4434 		printf ("CCB=%x STAT=%x/%x\n", (int)(intptr_t)cp & 0xfff,
4435 			cp->host_status,cp->s_status);
4436 
4437 	ccb = cp->ccb;
4438 	cp->ccb = NULL;
4439 	tp = &np->target[ccb->ccb_h.target_id];
4440 
4441 	/*
4442 	**	We do not queue more than 1 nccb per target
4443 	**	with negotiation at any time. If this nccb was
4444 	**	used for negotiation, clear this info in the tcb.
4445 	*/
4446 
4447 	if (cp == tp->nego_cp)
4448 		tp->nego_cp = NULL;
4449 
4450 	/*
4451 	**	Check for parity errors.
4452 	*/
4453 	/* XXX JGibbs - What about reporting them??? */
4454 
4455 	if (cp->parity_status) {
4456 		PRINT_ADDR(ccb);
4457 		printf ("%d parity error(s), fallback.\n", cp->parity_status);
4458 		/*
4459 		**	fallback to asynch transfer.
4460 		*/
4461 		tp->tinfo.goal.period = 0;
4462 		tp->tinfo.goal.offset = 0;
4463 	};
4464 
4465 	/*
4466 	**	Check for extended errors.
4467 	*/
4468 
4469 	if (cp->xerr_status != XE_OK) {
4470 		PRINT_ADDR(ccb);
4471 		switch (cp->xerr_status) {
4472 		case XE_EXTRA_DATA:
4473 			printf ("extraneous data discarded.\n");
4474 			break;
4475 		case XE_BAD_PHASE:
4476 			printf ("illegal scsi phase (4/5).\n");
4477 			break;
4478 		default:
4479 			printf ("extended error %d.\n", cp->xerr_status);
4480 			break;
4481 		};
4482 		if (cp->host_status==HS_COMPLETE)
4483 			cp->host_status = HS_FAIL;
4484 	};
4485 
4486 	/*
4487 	**	Check the status.
4488 	*/
4489 	if (cp->host_status == HS_COMPLETE) {
4490 
4491 		if (cp->s_status == SCSI_STATUS_OK) {
4492 
4493 			/*
4494 			**	All went well.
4495 			*/
4496 			/* XXX JGibbs - Properly calculate residual */
4497 
4498 			tp->bytes     += ccb->csio.dxfer_len;
4499 			tp->transfers ++;
4500 
4501 			ccb->ccb_h.status = CAM_REQ_CMP;
4502 		} else if ((cp->s_status & SCSI_STATUS_SENSE) != 0) {
4503 
4504 			/*
4505 			 * XXX Could be TERMIO too.  Should record
4506 			 * original status.
4507 			 */
4508 			ccb->csio.scsi_status = SCSI_STATUS_CHECK_COND;
4509 			cp->s_status &= ~SCSI_STATUS_SENSE;
4510 			if (cp->s_status == SCSI_STATUS_OK) {
4511 				ccb->ccb_h.status =
4512 				    CAM_AUTOSNS_VALID|CAM_SCSI_STATUS_ERROR;
4513 			} else {
4514 				ccb->ccb_h.status = CAM_AUTOSENSE_FAIL;
4515 			}
4516 		} else {
4517 			ccb->ccb_h.status = CAM_SCSI_STATUS_ERROR;
4518 			ccb->csio.scsi_status = cp->s_status;
4519 		}
4520 
4521 
4522 	} else if (cp->host_status == HS_SEL_TIMEOUT) {
4523 
4524 		/*
4525 		**   Device failed selection
4526 		*/
4527 		ccb->ccb_h.status = CAM_SEL_TIMEOUT;
4528 
4529 	} else if (cp->host_status == HS_TIMEOUT) {
4530 
4531 		/*
4532 		**   No response
4533 		*/
4534 		ccb->ccb_h.status = CAM_CMD_TIMEOUT;
4535 	} else if (cp->host_status == HS_STALL) {
4536 		ccb->ccb_h.status = CAM_REQUEUE_REQ;
4537 	} else {
4538 
4539 		/*
4540 		**  Other protocol messes
4541 		*/
4542 		PRINT_ADDR(ccb);
4543 		printf ("COMMAND FAILED (%x %x) @%p.\n",
4544 			cp->host_status, cp->s_status, cp);
4545 
4546 		ccb->ccb_h.status = CAM_CMD_TIMEOUT;
4547 	}
4548 
4549 	if ((ccb->ccb_h.status & CAM_STATUS_MASK) != CAM_REQ_CMP) {
4550 		xpt_freeze_devq(ccb->ccb_h.path, /*count*/1);
4551 		ccb->ccb_h.status |= CAM_DEV_QFRZN;
4552 	}
4553 
4554 	/*
4555 	**	Free this nccb
4556 	*/
4557 	ncr_free_nccb (np, cp);
4558 
4559 	/*
4560 	**	signal completion to generic driver.
4561 	*/
4562 	xpt_done (ccb);
4563 }
4564 
4565 /*==========================================================
4566 **
4567 **
4568 **	Signal all (or one) control block done.
4569 **
4570 **
4571 **==========================================================
4572 */
4573 
4574 static void
4575 ncr_wakeup (ncb_p np, u_long code)
4576 {
4577 	/*
4578 	**	Starting at the default nccb and following
4579 	**	the links, complete all jobs with a
4580 	**	host_status greater than "disconnect".
4581 	**
4582 	**	If the "code" parameter is not zero,
4583 	**	complete all jobs that are not IDLE.
4584 	*/
4585 
4586 	nccb_p cp = np->link_nccb;
4587 	while (cp) {
4588 		switch (cp->host_status) {
4589 
4590 		case HS_IDLE:
4591 			break;
4592 
4593 		case HS_DISCONNECT:
4594 			if(DEBUG_FLAGS & DEBUG_TINY) printf ("D");
4595 			/* FALLTHROUGH */
4596 
4597 		case HS_BUSY:
4598 		case HS_NEGOTIATE:
4599 			if (!code) break;
4600 			cp->host_status = code;
4601 
4602 			/* FALLTHROUGH */
4603 
4604 		default:
4605 			ncr_complete (np, cp);
4606 			break;
4607 		};
4608 		cp = cp -> link_nccb;
4609 	};
4610 }
4611 
4612 static void
4613 ncr_freeze_devq (ncb_p np, struct cam_path *path)
4614 {
4615 	nccb_p	cp;
4616 	int	i;
4617 	int	count;
4618 	int	firstskip;
4619 	/*
4620 	**	Starting at the first nccb and following
4621 	**	the links, complete all jobs that match
4622 	**	the passed in path and are in the start queue.
4623 	*/
4624 
4625 	cp = np->link_nccb;
4626 	count = 0;
4627 	firstskip = 0;
4628 	while (cp) {
4629 		switch (cp->host_status) {
4630 
4631 		case HS_BUSY:
4632 		case HS_NEGOTIATE:
4633 			if ((cp->phys.header.launch.l_paddr
4634 			    == NCB_SCRIPT_PHYS (np, select))
4635 			 && (xpt_path_comp(path, cp->ccb->ccb_h.path) >= 0)) {
4636 
4637 				/* Mark for removal from the start queue */
4638 				for (i = 1; i < MAX_START; i++) {
4639 					int idx;
4640 
4641 					idx = np->squeueput - i;
4642 
4643 					if (idx < 0)
4644 						idx = MAX_START + idx;
4645 					if (np->squeue[idx]
4646 					 == CCB_PHYS(cp, phys)) {
4647 						np->squeue[idx] =
4648 						    NCB_SCRIPT_PHYS (np, skip);
4649 						if (i > firstskip)
4650 							firstskip = i;
4651 						break;
4652 					}
4653 				}
4654 				cp->host_status=HS_STALL;
4655 				ncr_complete (np, cp);
4656 				count++;
4657 			}
4658 			break;
4659 		default:
4660 			break;
4661 		}
4662 		cp = cp->link_nccb;
4663 	}
4664 
4665 	if (count > 0) {
4666 		int j;
4667 		int bidx;
4668 
4669 		/* Compress the start queue */
4670 		j = 0;
4671 		bidx = np->squeueput;
4672 		i = np->squeueput - firstskip;
4673 		if (i < 0)
4674 			i = MAX_START + i;
4675 		for (;;) {
4676 
4677 			bidx = i - j;
4678 			if (bidx < 0)
4679 				bidx = MAX_START + bidx;
4680 
4681 			if (np->squeue[i] == NCB_SCRIPT_PHYS (np, skip)) {
4682 				j++;
4683 			} else if (j != 0) {
4684 				np->squeue[bidx] = np->squeue[i];
4685 				if (np->squeue[bidx]
4686 				 == NCB_SCRIPT_PHYS(np, idle))
4687 					break;
4688 			}
4689 			i = (i + 1) % MAX_START;
4690 		}
4691 		np->squeueput = bidx;
4692 	}
4693 }
4694 
4695 /*==========================================================
4696 **
4697 **
4698 **	Start NCR chip.
4699 **
4700 **
4701 **==========================================================
4702 */
4703 
4704 static void
4705 ncr_init(ncb_p np, char * msg, u_long code)
4706 {
4707 	int	i;
4708 
4709 	/*
4710 	**	Reset chip.
4711 	*/
4712 
4713 	OUTB (nc_istat,  SRST);
4714 	DELAY (1000);
4715 	OUTB (nc_istat, 0);
4716 
4717 	/*
4718 	**	Message.
4719 	*/
4720 
4721 	if (msg) printf ("%s: restart (%s).\n", ncr_name (np), msg);
4722 
4723 	/*
4724 	**	Clear Start Queue
4725 	*/
4726 
4727 	for (i=0;i<MAX_START;i++)
4728 		np -> squeue [i] = NCB_SCRIPT_PHYS (np, idle);
4729 
4730 	/*
4731 	**	Start at first entry.
4732 	*/
4733 
4734 	np->squeueput = 0;
4735 	WRITESCRIPT(startpos[0], NCB_SCRIPTH_PHYS (np, tryloop));
4736 	WRITESCRIPT(start0  [0], SCR_INT ^ IFFALSE (0));
4737 
4738 	/*
4739 	**	Wakeup all pending jobs.
4740 	*/
4741 
4742 	ncr_wakeup (np, code);
4743 
4744 	/*
4745 	**	Init chip.
4746 	*/
4747 
4748 	OUTB (nc_istat,  0x00   );      /*  Remove Reset, abort ...	     */
4749 	OUTB (nc_scntl0, 0xca   );      /*  full arb., ena parity, par->ATN  */
4750 	OUTB (nc_scntl1, 0x00	);	/*  odd parity, and remove CRST!!    */
4751 	ncr_selectclock(np, np->rv_scntl3); /* Select SCSI clock             */
4752 	OUTB (nc_scid  , RRE|np->myaddr);/*  host adapter SCSI address       */
4753 	OUTW (nc_respid, 1ul<<np->myaddr);/*  id to respond to		     */
4754 	OUTB (nc_istat , SIGP	);	/*  Signal Process		     */
4755 	OUTB (nc_dmode , np->rv_dmode);	/* XXX modify burstlen ??? */
4756 	OUTB (nc_dcntl , np->rv_dcntl);
4757 	OUTB (nc_ctest3, np->rv_ctest3);
4758 	OUTB (nc_ctest5, np->rv_ctest5);
4759 	OUTB (nc_ctest4, np->rv_ctest4);/*  enable master parity checking    */
4760 	OUTB (nc_stest2, np->rv_stest2|EXT); /* Extended Sreq/Sack filtering */
4761 	OUTB (nc_stest3, TE     );	/*  TolerANT enable		     */
4762 	OUTB (nc_stime0, 0x0b	);	/*  HTH = disabled, STO = 0.1 sec.   */
4763 
4764 	if (bootverbose >= 2) {
4765 		printf ("\tACTUAL values:SCNTL3:%02x DMODE:%02x  DCNTL:%02x\n",
4766 			np->rv_scntl3, np->rv_dmode, np->rv_dcntl);
4767 		printf ("\t              CTEST3:%02x CTEST4:%02x CTEST5:%02x\n",
4768 			np->rv_ctest3, np->rv_ctest4, np->rv_ctest5);
4769 	}
4770 
4771 	/*
4772 	**    Enable GPIO0 pin for writing if LED support.
4773 	*/
4774 
4775 	if (np->features & FE_LED0) {
4776 		OUTOFFB (nc_gpcntl, 0x01);
4777 	}
4778 
4779 	/*
4780 	**	Fill in target structure.
4781 	*/
4782 	for (i=0;i<MAX_TARGET;i++) {
4783 		tcb_p tp = &np->target[i];
4784 
4785 		tp->tinfo.sval    = 0;
4786 		tp->tinfo.wval    = np->rv_scntl3;
4787 
4788 		tp->tinfo.current.period = 0;
4789 		tp->tinfo.current.offset = 0;
4790 		tp->tinfo.current.width = MSG_EXT_WDTR_BUS_8_BIT;
4791 	}
4792 
4793 	/*
4794 	**      enable ints
4795 	*/
4796 
4797 	OUTW (nc_sien , STO|HTH|MA|SGE|UDC|RST);
4798 	OUTB (nc_dien , MDPE|BF|ABRT|SSI|SIR|IID);
4799 
4800 	/*
4801 	**    Start script processor.
4802 	*/
4803 
4804 	OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, start));
4805 
4806 	/*
4807 	 * Notify the XPT of the event
4808 	 */
4809 	if (code == HS_RESET)
4810 		xpt_async(AC_BUS_RESET, np->path, NULL);
4811 }
4812 
4813 static void
4814 ncr_poll(struct cam_sim *sim)
4815 {
4816 	ncr_intr(cam_sim_softc(sim));
4817 }
4818 
4819 
4820 /*==========================================================
4821 **
4822 **	Get clock factor and sync divisor for a given
4823 **	synchronous factor period.
4824 **	Returns the clock factor (in sxfer) and scntl3
4825 **	synchronous divisor field.
4826 **
4827 **==========================================================
4828 */
4829 
4830 static void ncr_getsync(ncb_p np, u_char sfac, u_char *fakp, u_char *scntl3p)
4831 {
4832 	u_long	clk = np->clock_khz;	/* SCSI clock frequency in kHz	*/
4833 	int	div = np->clock_divn;	/* Number of divisors supported	*/
4834 	u_long	fak;			/* Sync factor in sxfer		*/
4835 	u_long	per;			/* Period in tenths of ns	*/
4836 	u_long	kpc;			/* (per * clk)			*/
4837 
4838 	/*
4839 	**	Compute the synchronous period in tenths of nano-seconds
4840 	*/
4841 	if	(sfac <= 10)	per = 250;
4842 	else if	(sfac == 11)	per = 303;
4843 	else if	(sfac == 12)	per = 500;
4844 	else			per = 40 * sfac;
4845 
4846 	/*
4847 	**	Look for the greatest clock divisor that allows an
4848 	**	input speed faster than the period.
4849 	*/
4850 	kpc = per * clk;
4851 	while (--div >= 0)
4852 		if (kpc >= (div_10M[div] * 4)) break;
4853 
4854 	/*
4855 	**	Calculate the lowest clock factor that allows an output
4856 	**	speed not faster than the period.
4857 	*/
4858 	fak = (kpc - 1) / div_10M[div] + 1;
4859 
4860 #if 0	/* You can #if 1 if you think this optimization is usefull */
4861 
4862 	per = (fak * div_10M[div]) / clk;
4863 
4864 	/*
4865 	**	Why not to try the immediate lower divisor and to choose
4866 	**	the one that allows the fastest output speed ?
4867 	**	We dont want input speed too much greater than output speed.
4868 	*/
4869 	if (div >= 1 && fak < 6) {
4870 		u_long fak2, per2;
4871 		fak2 = (kpc - 1) / div_10M[div-1] + 1;
4872 		per2 = (fak2 * div_10M[div-1]) / clk;
4873 		if (per2 < per && fak2 <= 6) {
4874 			fak = fak2;
4875 			per = per2;
4876 			--div;
4877 		}
4878 	}
4879 #endif
4880 
4881 	if (fak < 4) fak = 4;	/* Should never happen, too bad ... */
4882 
4883 	/*
4884 	**	Compute and return sync parameters for the ncr
4885 	*/
4886 	*fakp		= fak - 4;
4887 	*scntl3p	= ((div+1) << 4) + (sfac < 25 ? 0x80 : 0);
4888 }
4889 
4890 /*==========================================================
4891 **
4892 **	Switch sync mode for current job and its target
4893 **
4894 **==========================================================
4895 */
4896 
4897 static void
4898 ncr_setsync(ncb_p np, nccb_p cp, u_char scntl3, u_char sxfer, u_char period)
4899 {
4900 	union	ccb *ccb;
4901 	struct	ccb_trans_settings neg;
4902 	tcb_p	tp;
4903 	int	div;
4904 	u_int	target = INB (nc_sdid) & 0x0f;
4905 	u_int	period_10ns;
4906 
4907 	assert (cp);
4908 	if (!cp) return;
4909 
4910 	ccb = cp->ccb;
4911 	assert (ccb);
4912 	if (!ccb) return;
4913 	assert (target == ccb->ccb_h.target_id);
4914 
4915 	tp = &np->target[target];
4916 
4917 	if (!scntl3 || !(sxfer & 0x1f))
4918 		scntl3 = np->rv_scntl3;
4919 	scntl3 = (scntl3 & 0xf0) | (tp->tinfo.wval & EWS)
4920 	       | (np->rv_scntl3 & 0x07);
4921 
4922 	/*
4923 	**	Deduce the value of controller sync period from scntl3.
4924 	**	period is in tenths of nano-seconds.
4925 	*/
4926 
4927 	div = ((scntl3 >> 4) & 0x7);
4928 	if ((sxfer & 0x1f) && div)
4929 		period_10ns =
4930 		    (((sxfer>>5)+4)*div_10M[div-1])/np->clock_khz;
4931 	else
4932 		period_10ns = 0;
4933 
4934 	tp->tinfo.goal.period = period;
4935 	tp->tinfo.goal.offset = sxfer & 0x1f;
4936 	tp->tinfo.current.period = period;
4937 	tp->tinfo.current.offset = sxfer & 0x1f;
4938 
4939 	/*
4940 	**	 Stop there if sync parameters are unchanged
4941 	*/
4942 	if (tp->tinfo.sval == sxfer && tp->tinfo.wval == scntl3) return;
4943 	tp->tinfo.sval = sxfer;
4944 	tp->tinfo.wval = scntl3;
4945 
4946 	if (sxfer & 0x1f) {
4947 		/*
4948 		**  Disable extended Sreq/Sack filtering
4949 		*/
4950 		if (period_10ns <= 2000) OUTOFFB (nc_stest2, EXT);
4951 	}
4952 
4953 	/*
4954 	** Tell the SCSI layer about the
4955 	** new transfer parameters.
4956 	*/
4957 	memset(&neg, 0, sizeof (neg));
4958 	neg.protocol = PROTO_SCSI;
4959 	neg.protocol_version = SCSI_REV_2;
4960 	neg.transport = XPORT_SPI;
4961 	neg.transport_version = 2;
4962 	neg.xport_specific.spi.sync_period = period;
4963 	neg.xport_specific.spi.sync_offset = sxfer & 0x1f;
4964 	neg.xport_specific.spi.valid = CTS_SPI_VALID_SYNC_RATE
4965 		| CTS_SPI_VALID_SYNC_OFFSET;
4966 	xpt_setup_ccb(&neg.ccb_h, ccb->ccb_h.path,
4967 		      /*priority*/1);
4968 	xpt_async(AC_TRANSFER_NEG, ccb->ccb_h.path, &neg);
4969 
4970 	/*
4971 	**	set actual value and sync_status
4972 	*/
4973 	OUTB (nc_sxfer, sxfer);
4974 	np->sync_st = sxfer;
4975 	OUTB (nc_scntl3, scntl3);
4976 	np->wide_st = scntl3;
4977 
4978 	/*
4979 	**	patch ALL nccbs of this target.
4980 	*/
4981 	for (cp = np->link_nccb; cp; cp = cp->link_nccb) {
4982 		if (!cp->ccb) continue;
4983 		if (cp->ccb->ccb_h.target_id != target) continue;
4984 		cp->sync_status = sxfer;
4985 		cp->wide_status = scntl3;
4986 	};
4987 }
4988 
4989 /*==========================================================
4990 **
4991 **	Switch wide mode for current job and its target
4992 **	SCSI specs say: a SCSI device that accepts a WDTR
4993 **	message shall reset the synchronous agreement to
4994 **	asynchronous mode.
4995 **
4996 **==========================================================
4997 */
4998 
4999 static void ncr_setwide (ncb_p np, nccb_p cp, u_char wide, u_char ack)
5000 {
5001 	union	ccb *ccb;
5002 	struct	ccb_trans_settings neg;
5003 	u_int	target = INB (nc_sdid) & 0x0f;
5004 	tcb_p	tp;
5005 	u_char	scntl3;
5006 	u_char	sxfer;
5007 
5008 	assert (cp);
5009 	if (!cp) return;
5010 
5011 	ccb = cp->ccb;
5012 	assert (ccb);
5013 	if (!ccb) return;
5014 	assert (target == ccb->ccb_h.target_id);
5015 
5016 	tp = &np->target[target];
5017 	tp->tinfo.current.width = wide;
5018 	tp->tinfo.goal.width = wide;
5019 	tp->tinfo.current.period = 0;
5020 	tp->tinfo.current.offset = 0;
5021 
5022 	scntl3 = (tp->tinfo.wval & (~EWS)) | (wide ? EWS : 0);
5023 
5024 	sxfer = ack ? 0 : tp->tinfo.sval;
5025 
5026 	/*
5027 	**	 Stop there if sync/wide parameters are unchanged
5028 	*/
5029 	if (tp->tinfo.sval == sxfer && tp->tinfo.wval == scntl3) return;
5030 	tp->tinfo.sval = sxfer;
5031 	tp->tinfo.wval = scntl3;
5032 
5033 	/* Tell the SCSI layer about the new transfer params */
5034 	memset(&neg, 0, sizeof (neg));
5035 	neg.protocol = PROTO_SCSI;
5036 	neg.protocol_version = SCSI_REV_2;
5037 	neg.transport = XPORT_SPI;
5038 	neg.transport_version = 2;
5039 	neg.xport_specific.spi.bus_width = (scntl3 & EWS) ?
5040 	    MSG_EXT_WDTR_BUS_16_BIT : MSG_EXT_WDTR_BUS_8_BIT;
5041 	neg.xport_specific.spi.sync_period = 0;
5042 	neg.xport_specific.spi.sync_offset = 0;
5043 	neg.xport_specific.spi.valid = CTS_SPI_VALID_SYNC_RATE
5044 		| CTS_SPI_VALID_SYNC_OFFSET
5045 		| CTS_SPI_VALID_BUS_WIDTH;
5046 	xpt_setup_ccb(&neg.ccb_h, ccb->ccb_h.path, /*priority*/1);
5047 	xpt_async(AC_TRANSFER_NEG, ccb->ccb_h.path, &neg);
5048 
5049 	/*
5050 	**	set actual value and sync_status
5051 	*/
5052 	OUTB (nc_sxfer, sxfer);
5053 	np->sync_st = sxfer;
5054 	OUTB (nc_scntl3, scntl3);
5055 	np->wide_st = scntl3;
5056 
5057 	/*
5058 	**	patch ALL nccbs of this target.
5059 	*/
5060 	for (cp = np->link_nccb; cp; cp = cp->link_nccb) {
5061 		if (!cp->ccb) continue;
5062 		if (cp->ccb->ccb_h.target_id != target) continue;
5063 		cp->sync_status = sxfer;
5064 		cp->wide_status = scntl3;
5065 	};
5066 }
5067 
5068 /*==========================================================
5069 **
5070 **
5071 **	ncr timeout handler.
5072 **
5073 **
5074 **==========================================================
5075 **
5076 **	Misused to keep the driver running when
5077 **	interrupts are not configured correctly.
5078 **
5079 **----------------------------------------------------------
5080 */
5081 
5082 static void
5083 ncr_timeout (void *arg)
5084 {
5085 	ncb_p	np = arg;
5086 	time_t	thistime = time_second;
5087 	ticks_t	step  = np->ticks;
5088 	u_long	count = 0;
5089 	long signed   t;
5090 	nccb_p cp;
5091 
5092 	if (np->lasttime != thistime) {
5093 		/*
5094 		**	block ncr interrupts
5095 		*/
5096 		int oldspl = splcam();
5097 		np->lasttime = thistime;
5098 
5099 		/*----------------------------------------------------
5100 		**
5101 		**	handle ncr chip timeouts
5102 		**
5103 		**	Assumption:
5104 		**	We have a chance to arbitrate for the
5105 		**	SCSI bus at least every 10 seconds.
5106 		**
5107 		**----------------------------------------------------
5108 		*/
5109 
5110 		t = thistime - np->heartbeat;
5111 
5112 		if (t<2) np->latetime=0; else np->latetime++;
5113 
5114 		if (np->latetime>2) {
5115 			/*
5116 			**      If there are no requests, the script
5117 			**      processor will sleep on SEL_WAIT_RESEL.
5118 			**      But we have to check whether it died.
5119 			**      Let's try to wake it up.
5120 			*/
5121 			OUTB (nc_istat, SIGP);
5122 		};
5123 
5124 		/*----------------------------------------------------
5125 		**
5126 		**	handle nccb timeouts
5127 		**
5128 		**----------------------------------------------------
5129 		*/
5130 
5131 		for (cp=np->link_nccb; cp; cp=cp->link_nccb) {
5132 			/*
5133 			**	look for timed out nccbs.
5134 			*/
5135 			if (!cp->host_status) continue;
5136 			count++;
5137 			if (cp->tlimit > thistime) continue;
5138 
5139 			/*
5140 			**	Disable reselect.
5141 			**      Remove it from startqueue.
5142 			*/
5143 			cp->jump_nccb.l_cmd = (SCR_JUMP);
5144 			if (cp->phys.header.launch.l_paddr ==
5145 				NCB_SCRIPT_PHYS (np, select)) {
5146 				printf ("%s: timeout nccb=%p (skip)\n",
5147 					ncr_name (np), cp);
5148 				cp->phys.header.launch.l_paddr
5149 				= NCB_SCRIPT_PHYS (np, skip);
5150 			};
5151 
5152 			switch (cp->host_status) {
5153 
5154 			case HS_BUSY:
5155 			case HS_NEGOTIATE:
5156 				/* FALLTHROUGH */
5157 			case HS_DISCONNECT:
5158 				cp->host_status=HS_TIMEOUT;
5159 			};
5160 			cp->tag = 0;
5161 
5162 			/*
5163 			**	wakeup this nccb.
5164 			*/
5165 			ncr_complete (np, cp);
5166 		};
5167 		splx (oldspl);
5168 	}
5169 
5170 	np->timeout_ch =
5171 		timeout (ncr_timeout, (caddr_t) np, step ? step : 1);
5172 
5173 	if (INB(nc_istat) & (INTF|SIP|DIP)) {
5174 
5175 		/*
5176 		**	Process pending interrupts.
5177 		*/
5178 
5179 		int	oldspl	= splcam();
5180 		if (DEBUG_FLAGS & DEBUG_TINY) printf ("{");
5181 		ncr_exception (np);
5182 		if (DEBUG_FLAGS & DEBUG_TINY) printf ("}");
5183 		splx (oldspl);
5184 	};
5185 }
5186 
5187 /*==========================================================
5188 **
5189 **	log message for real hard errors
5190 **
5191 **	"ncr0 targ 0?: ERROR (ds:si) (so-si-sd) (sxfer/scntl3) @ name (dsp:dbc)."
5192 **	"	      reg: r0 r1 r2 r3 r4 r5 r6 ..... rf."
5193 **
5194 **	exception register:
5195 **		ds:	dstat
5196 **		si:	sist
5197 **
5198 **	SCSI bus lines:
5199 **		so:	control lines as driver by NCR.
5200 **		si:	control lines as seen by NCR.
5201 **		sd:	scsi data lines as seen by NCR.
5202 **
5203 **	wide/fastmode:
5204 **		sxfer:	(see the manual)
5205 **		scntl3:	(see the manual)
5206 **
5207 **	current script command:
5208 **		dsp:	script address (relative to start of script).
5209 **		dbc:	first word of script command.
5210 **
5211 **	First 16 register of the chip:
5212 **		r0..rf
5213 **
5214 **==========================================================
5215 */
5216 
5217 static void ncr_log_hard_error(ncb_p np, u_short sist, u_char dstat)
5218 {
5219 	u_int32_t dsp;
5220 	int	script_ofs;
5221 	int	script_size;
5222 	char	*script_name;
5223 	u_char	*script_base;
5224 	int	i;
5225 
5226 	dsp	= INL (nc_dsp);
5227 
5228 	if (np->p_script < dsp &&
5229 	    dsp <= np->p_script + sizeof(struct script)) {
5230 		script_ofs	= dsp - np->p_script;
5231 		script_size	= sizeof(struct script);
5232 		script_base	= (u_char *) np->script;
5233 		script_name	= "script";
5234 	}
5235 	else if (np->p_scripth < dsp &&
5236 		 dsp <= np->p_scripth + sizeof(struct scripth)) {
5237 		script_ofs	= dsp - np->p_scripth;
5238 		script_size	= sizeof(struct scripth);
5239 		script_base	= (u_char *) np->scripth;
5240 		script_name	= "scripth";
5241 	} else {
5242 		script_ofs	= dsp;
5243 		script_size	= 0;
5244 		script_base	= 0;
5245 		script_name	= "mem";
5246 	}
5247 
5248 	printf ("%s:%d: ERROR (%x:%x) (%x-%x-%x) (%x/%x) @ (%s %x:%08x).\n",
5249 		ncr_name (np), (unsigned)INB (nc_sdid)&0x0f, dstat, sist,
5250 		(unsigned)INB (nc_socl), (unsigned)INB (nc_sbcl), (unsigned)INB (nc_sbdl),
5251 		(unsigned)INB (nc_sxfer),(unsigned)INB (nc_scntl3), script_name, script_ofs,
5252 		(unsigned)INL (nc_dbc));
5253 
5254 	if (((script_ofs & 3) == 0) &&
5255 	    (unsigned)script_ofs < script_size) {
5256 		printf ("%s: script cmd = %08x\n", ncr_name(np),
5257 			(int)READSCRIPT_OFF(script_base, script_ofs));
5258 	}
5259 
5260         printf ("%s: regdump:", ncr_name(np));
5261         for (i=0; i<16;i++)
5262             printf (" %02x", (unsigned)INB_OFF(i));
5263         printf (".\n");
5264 }
5265 
5266 /*==========================================================
5267 **
5268 **
5269 **	ncr chip exception handler.
5270 **
5271 **
5272 **==========================================================
5273 */
5274 
5275 static void ncr_exception (ncb_p np)
5276 {
5277 	u_char	istat, dstat;
5278 	u_short	sist;
5279 
5280 	/*
5281 	**	interrupt on the fly ?
5282 	*/
5283 	while ((istat = INB (nc_istat)) & INTF) {
5284 		if (DEBUG_FLAGS & DEBUG_TINY) printf ("F ");
5285 		OUTB (nc_istat, INTF);
5286 		np->profile.num_fly++;
5287 		ncr_wakeup (np, 0);
5288 	};
5289 	if (!(istat & (SIP|DIP))) {
5290 		return;
5291 	}
5292 
5293 	/*
5294 	**	Steinbach's Guideline for Systems Programming:
5295 	**	Never test for an error condition you don't know how to handle.
5296 	*/
5297 
5298 	sist  = (istat & SIP) ? INW (nc_sist)  : 0;
5299 	dstat = (istat & DIP) ? INB (nc_dstat) : 0;
5300 	np->profile.num_int++;
5301 
5302 	if (DEBUG_FLAGS & DEBUG_TINY)
5303 		printf ("<%d|%x:%x|%x:%x>",
5304 			INB(nc_scr0),
5305 			dstat,sist,
5306 			(unsigned)INL(nc_dsp),
5307 			(unsigned)INL(nc_dbc));
5308 	if ((dstat==DFE) && (sist==PAR)) return;
5309 
5310 /*==========================================================
5311 **
5312 **	First the normal cases.
5313 **
5314 **==========================================================
5315 */
5316 	/*-------------------------------------------
5317 	**	SCSI reset
5318 	**-------------------------------------------
5319 	*/
5320 
5321 	if (sist & RST) {
5322 		ncr_init (np, bootverbose ? "scsi reset" : NULL, HS_RESET);
5323 		return;
5324 	};
5325 
5326 	/*-------------------------------------------
5327 	**	selection timeout
5328 	**
5329 	**	IID excluded from dstat mask!
5330 	**	(chip bug)
5331 	**-------------------------------------------
5332 	*/
5333 
5334 	if ((sist  & STO) &&
5335 		!(sist  & (GEN|HTH|MA|SGE|UDC|RST|PAR)) &&
5336 		!(dstat & (MDPE|BF|ABRT|SIR))) {
5337 		ncr_int_sto (np);
5338 		return;
5339 	};
5340 
5341 	/*-------------------------------------------
5342 	**      Phase mismatch.
5343 	**-------------------------------------------
5344 	*/
5345 
5346 	if ((sist  & MA) &&
5347 		!(sist  & (STO|GEN|HTH|SGE|UDC|RST|PAR)) &&
5348 		!(dstat & (MDPE|BF|ABRT|SIR|IID))) {
5349 		ncr_int_ma (np, dstat);
5350 		return;
5351 	};
5352 
5353 	/*----------------------------------------
5354 	**	move command with length 0
5355 	**----------------------------------------
5356 	*/
5357 
5358 	if ((dstat & IID) &&
5359 		!(sist  & (STO|GEN|HTH|MA|SGE|UDC|RST|PAR)) &&
5360 		!(dstat & (MDPE|BF|ABRT|SIR)) &&
5361 		((INL(nc_dbc) & 0xf8000000) == SCR_MOVE_TBL)) {
5362 		/*
5363 		**      Target wants more data than available.
5364 		**	The "no_data" script will do it.
5365 		*/
5366 		OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, no_data));
5367 		return;
5368 	};
5369 
5370 	/*-------------------------------------------
5371 	**	Programmed interrupt
5372 	**-------------------------------------------
5373 	*/
5374 
5375 	if ((dstat & SIR) &&
5376 		!(sist  & (STO|GEN|HTH|MA|SGE|UDC|RST|PAR)) &&
5377 		!(dstat & (MDPE|BF|ABRT|IID)) &&
5378 		(INB(nc_dsps) <= SIR_MAX)) {
5379 		ncr_int_sir (np);
5380 		return;
5381 	};
5382 
5383 	/*========================================
5384 	**	log message for real hard errors
5385 	**========================================
5386 	*/
5387 
5388 	ncr_log_hard_error(np, sist, dstat);
5389 
5390 	/*========================================
5391 	**	do the register dump
5392 	**========================================
5393 	*/
5394 
5395 	if (time_second - np->regtime > 10) {
5396 		int i;
5397 		np->regtime = time_second;
5398 		for (i=0; i<sizeof(np->regdump); i++)
5399 			((volatile char*)&np->regdump)[i] = INB_OFF(i);
5400 		np->regdump.nc_dstat = dstat;
5401 		np->regdump.nc_sist  = sist;
5402 	};
5403 
5404 
5405 	/*----------------------------------------
5406 	**	clean up the dma fifo
5407 	**----------------------------------------
5408 	*/
5409 
5410 	if ( (INB(nc_sstat0) & (ILF|ORF|OLF)   ) ||
5411 	     (INB(nc_sstat1) & (FF3210)	) ||
5412 	     (INB(nc_sstat2) & (ILF1|ORF1|OLF1)) ||	/* wide .. */
5413 	     !(dstat & DFE)) {
5414 		printf ("%s: have to clear fifos.\n", ncr_name (np));
5415 		OUTB (nc_stest3, TE|CSF);	/* clear scsi fifo */
5416 		OUTB (nc_ctest3, np->rv_ctest3 | CLF);
5417 						/* clear dma fifo  */
5418 	}
5419 
5420 	/*----------------------------------------
5421 	**	handshake timeout
5422 	**----------------------------------------
5423 	*/
5424 
5425 	if (sist & HTH) {
5426 		printf ("%s: handshake timeout\n", ncr_name(np));
5427 		OUTB (nc_scntl1, CRST);
5428 		DELAY (1000);
5429 		OUTB (nc_scntl1, 0x00);
5430 		OUTB (nc_scr0, HS_FAIL);
5431 		OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, cleanup));
5432 		return;
5433 	}
5434 
5435 	/*----------------------------------------
5436 	**	unexpected disconnect
5437 	**----------------------------------------
5438 	*/
5439 
5440 	if ((sist  & UDC) &&
5441 		!(sist  & (STO|GEN|HTH|MA|SGE|RST|PAR)) &&
5442 		!(dstat & (MDPE|BF|ABRT|SIR|IID))) {
5443 		OUTB (nc_scr0, HS_UNEXPECTED);
5444 		OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, cleanup));
5445 		return;
5446 	};
5447 
5448 	/*----------------------------------------
5449 	**	cannot disconnect
5450 	**----------------------------------------
5451 	*/
5452 
5453 	if ((dstat & IID) &&
5454 		!(sist  & (STO|GEN|HTH|MA|SGE|UDC|RST|PAR)) &&
5455 		!(dstat & (MDPE|BF|ABRT|SIR)) &&
5456 		((INL(nc_dbc) & 0xf8000000) == SCR_WAIT_DISC)) {
5457 		/*
5458 		**      Unexpected data cycle while waiting for disconnect.
5459 		*/
5460 		if (INB(nc_sstat2) & LDSC) {
5461 			/*
5462 			**	It's an early reconnect.
5463 			**	Let's continue ...
5464 			*/
5465 			OUTB (nc_dcntl, np->rv_dcntl | STD);
5466 			/*
5467 			**	info message
5468 			*/
5469 			printf ("%s: INFO: LDSC while IID.\n",
5470 				ncr_name (np));
5471 			return;
5472 		};
5473 		printf ("%s: target %d doesn't release the bus.\n",
5474 			ncr_name (np), INB (nc_sdid)&0x0f);
5475 		/*
5476 		**	return without restarting the NCR.
5477 		**	timeout will do the real work.
5478 		*/
5479 		return;
5480 	};
5481 
5482 	/*----------------------------------------
5483 	**	single step
5484 	**----------------------------------------
5485 	*/
5486 
5487 	if ((dstat & SSI) &&
5488 		!(sist  & (STO|GEN|HTH|MA|SGE|UDC|RST|PAR)) &&
5489 		!(dstat & (MDPE|BF|ABRT|SIR|IID))) {
5490 		OUTB (nc_dcntl, np->rv_dcntl | STD);
5491 		return;
5492 	};
5493 
5494 /*
5495 **	@RECOVER@ HTH, SGE, ABRT.
5496 **
5497 **	We should try to recover from these interrupts.
5498 **	They may occur if there are problems with synch transfers, or
5499 **	if targets are switched on or off while the driver is running.
5500 */
5501 
5502 	if (sist & SGE) {
5503 		/* clear scsi offsets */
5504 		OUTB (nc_ctest3, np->rv_ctest3 | CLF);
5505 	}
5506 
5507 	/*
5508 	**	Freeze controller to be able to read the messages.
5509 	*/
5510 
5511 	if (DEBUG_FLAGS & DEBUG_FREEZE) {
5512 		int i;
5513 		unsigned char val;
5514 		for (i=0; i<0x60; i++) {
5515 			switch (i%16) {
5516 
5517 			case 0:
5518 				printf ("%s: reg[%d0]: ",
5519 					ncr_name(np),i/16);
5520 				break;
5521 			case 4:
5522 			case 8:
5523 			case 12:
5524 				printf (" ");
5525 				break;
5526 			};
5527 			val = bus_space_read_1(np->bst, np->bsh, i);
5528 			printf (" %x%x", val/16, val%16);
5529 			if (i%16==15) printf (".\n");
5530 		};
5531 
5532 		untimeout (ncr_timeout, (caddr_t) np, np->timeout_ch);
5533 
5534 		printf ("%s: halted!\n", ncr_name(np));
5535 		/*
5536 		**	don't restart controller ...
5537 		*/
5538 		OUTB (nc_istat,  SRST);
5539 		return;
5540 	};
5541 
5542 #ifdef NCR_FREEZE
5543 	/*
5544 	**	Freeze system to be able to read the messages.
5545 	*/
5546 	printf ("ncr: fatal error: system halted - press reset to reboot ...");
5547 	(void) splhigh();
5548 	for (;;);
5549 #endif
5550 
5551 	/*
5552 	**	sorry, have to kill ALL jobs ...
5553 	*/
5554 
5555 	ncr_init (np, "fatal error", HS_FAIL);
5556 }
5557 
5558 /*==========================================================
5559 **
5560 **	ncr chip exception handler for selection timeout
5561 **
5562 **==========================================================
5563 **
5564 **	There seems to be a bug in the 53c810.
5565 **	Although a STO-Interrupt is pending,
5566 **	it continues executing script commands.
5567 **	But it will fail and interrupt (IID) on
5568 **	the next instruction where it's looking
5569 **	for a valid phase.
5570 **
5571 **----------------------------------------------------------
5572 */
5573 
5574 static void ncr_int_sto (ncb_p np)
5575 {
5576 	u_long dsa, scratcha, diff;
5577 	nccb_p cp;
5578 	if (DEBUG_FLAGS & DEBUG_TINY) printf ("T");
5579 
5580 	/*
5581 	**	look for nccb and set the status.
5582 	*/
5583 
5584 	dsa = INL (nc_dsa);
5585 	cp = np->link_nccb;
5586 	while (cp && (CCB_PHYS (cp, phys) != dsa))
5587 		cp = cp->link_nccb;
5588 
5589 	if (cp) {
5590 		cp-> host_status = HS_SEL_TIMEOUT;
5591 		ncr_complete (np, cp);
5592 	};
5593 
5594 	/*
5595 	**	repair start queue
5596 	*/
5597 
5598 	scratcha = INL (nc_scratcha);
5599 	diff = scratcha - NCB_SCRIPTH_PHYS (np, tryloop);
5600 
5601 /*	assert ((diff <= MAX_START * 20) && !(diff % 20));*/
5602 
5603 	if ((diff <= MAX_START * 20) && !(diff % 20)) {
5604 		WRITESCRIPT(startpos[0], scratcha);
5605 		OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, start));
5606 		return;
5607 	};
5608 	ncr_init (np, "selection timeout", HS_FAIL);
5609 }
5610 
5611 /*==========================================================
5612 **
5613 **
5614 **	ncr chip exception handler for phase errors.
5615 **
5616 **
5617 **==========================================================
5618 **
5619 **	We have to construct a new transfer descriptor,
5620 **	to transfer the rest of the current block.
5621 **
5622 **----------------------------------------------------------
5623 */
5624 
5625 static void ncr_int_ma (ncb_p np, u_char dstat)
5626 {
5627 	u_int32_t	dbc;
5628 	u_int32_t	rest;
5629 	u_int32_t	dsa;
5630 	u_int32_t	dsp;
5631 	u_int32_t	nxtdsp;
5632 	volatile void	*vdsp_base;
5633 	size_t		vdsp_off;
5634 	u_int32_t	oadr, olen;
5635 	u_int32_t	*tblp, *newcmd;
5636 	u_char	cmd, sbcl, ss0, ss2, ctest5;
5637 	u_short	delta;
5638 	nccb_p	cp;
5639 
5640 	dsp = INL (nc_dsp);
5641 	dsa = INL (nc_dsa);
5642 	dbc = INL (nc_dbc);
5643 	ss0 = INB (nc_sstat0);
5644 	ss2 = INB (nc_sstat2);
5645 	sbcl= INB (nc_sbcl);
5646 
5647 	cmd = dbc >> 24;
5648 	rest= dbc & 0xffffff;
5649 
5650 	ctest5 = (np->rv_ctest5 & DFS) ? INB (nc_ctest5) : 0;
5651 	if (ctest5 & DFS)
5652 		delta=(((ctest5<<8) | (INB (nc_dfifo) & 0xff)) - rest) & 0x3ff;
5653 	else
5654 		delta=(INB (nc_dfifo) - rest) & 0x7f;
5655 
5656 
5657 	/*
5658 	**	The data in the dma fifo has not been transfered to
5659 	**	the target -> add the amount to the rest
5660 	**	and clear the data.
5661 	**	Check the sstat2 register in case of wide transfer.
5662 	*/
5663 
5664 	if (!(dstat & DFE)) rest += delta;
5665 	if (ss0 & OLF) rest++;
5666 	if (ss0 & ORF) rest++;
5667 	if (INB(nc_scntl3) & EWS) {
5668 		if (ss2 & OLF1) rest++;
5669 		if (ss2 & ORF1) rest++;
5670 	};
5671 	OUTB (nc_ctest3, np->rv_ctest3 | CLF);	/* clear dma fifo  */
5672 	OUTB (nc_stest3, TE|CSF);		/* clear scsi fifo */
5673 
5674 	/*
5675 	**	locate matching cp
5676 	*/
5677 	cp = np->link_nccb;
5678 	while (cp && (CCB_PHYS (cp, phys) != dsa))
5679 		cp = cp->link_nccb;
5680 
5681 	if (!cp) {
5682 	    printf ("%s: SCSI phase error fixup: CCB already dequeued (%p)\n",
5683 		    ncr_name (np), (void *) np->header.cp);
5684 	    return;
5685 	}
5686 	if (cp != np->header.cp) {
5687 	    printf ("%s: SCSI phase error fixup: CCB address mismatch "
5688 		    "(%p != %p) np->nccb = %p\n",
5689 		    ncr_name (np), (void *)cp, (void *)np->header.cp,
5690 		    (void *)np->link_nccb);
5691 /*	    return;*/
5692 	}
5693 
5694 	/*
5695 	**	find the interrupted script command,
5696 	**	and the address at which to continue.
5697 	*/
5698 
5699 	if (dsp == vtophys (&cp->patch[2])) {
5700 		vdsp_base = cp;
5701 		vdsp_off = offsetof(struct nccb, patch[0]);
5702 		nxtdsp = READSCRIPT_OFF(vdsp_base, vdsp_off + 3*4);
5703 	} else if (dsp == vtophys (&cp->patch[6])) {
5704 		vdsp_base = cp;
5705 		vdsp_off = offsetof(struct nccb, patch[4]);
5706 		nxtdsp = READSCRIPT_OFF(vdsp_base, vdsp_off + 3*4);
5707 	} else if (dsp > np->p_script &&
5708 		   dsp <= np->p_script + sizeof(struct script)) {
5709 		vdsp_base = np->script;
5710 		vdsp_off = dsp - np->p_script - 8;
5711 		nxtdsp = dsp;
5712 	} else {
5713 		vdsp_base = np->scripth;
5714 		vdsp_off = dsp - np->p_scripth - 8;
5715 		nxtdsp = dsp;
5716 	};
5717 
5718 	/*
5719 	**	log the information
5720 	*/
5721 	if (DEBUG_FLAGS & (DEBUG_TINY|DEBUG_PHASE)) {
5722 		printf ("P%x%x ",cmd&7, sbcl&7);
5723 		printf ("RL=%d D=%d SS0=%x ",
5724 			(unsigned) rest, (unsigned) delta, ss0);
5725 	};
5726 	if (DEBUG_FLAGS & DEBUG_PHASE) {
5727 		printf ("\nCP=%p CP2=%p DSP=%x NXT=%x VDSP=%p CMD=%x ",
5728 			cp, np->header.cp,
5729 			dsp,
5730 			nxtdsp, (volatile char*)vdsp_base+vdsp_off, cmd);
5731 	};
5732 
5733 	/*
5734 	**	get old startaddress and old length.
5735 	*/
5736 
5737 	oadr = READSCRIPT_OFF(vdsp_base, vdsp_off + 1*4);
5738 
5739 	if (cmd & 0x10) {	/* Table indirect */
5740 		tblp = (u_int32_t *) ((char*) &cp->phys + oadr);
5741 		olen = tblp[0];
5742 		oadr = tblp[1];
5743 	} else {
5744 		tblp = (u_int32_t *) 0;
5745 		olen = READSCRIPT_OFF(vdsp_base, vdsp_off) & 0xffffff;
5746 	};
5747 
5748 	if (DEBUG_FLAGS & DEBUG_PHASE) {
5749 		printf ("OCMD=%x\nTBLP=%p OLEN=%lx OADR=%lx\n",
5750 			(unsigned) (READSCRIPT_OFF(vdsp_base, vdsp_off) >> 24),
5751 			(void *) tblp,
5752 			(u_long) olen,
5753 			(u_long) oadr);
5754 	};
5755 
5756 	/*
5757 	**	if old phase not dataphase, leave here.
5758 	*/
5759 
5760 	if (cmd != (READSCRIPT_OFF(vdsp_base, vdsp_off) >> 24)) {
5761 		PRINT_ADDR(cp->ccb);
5762 		printf ("internal error: cmd=%02x != %02x=(vdsp[0] >> 24)\n",
5763 			(unsigned)cmd,
5764 			(unsigned)READSCRIPT_OFF(vdsp_base, vdsp_off) >> 24);
5765 
5766 		return;
5767 	}
5768 	if (cmd & 0x06) {
5769 		PRINT_ADDR(cp->ccb);
5770 		printf ("phase change %x-%x %d@%08x resid=%d.\n",
5771 			cmd&7, sbcl&7, (unsigned)olen,
5772 			(unsigned)oadr, (unsigned)rest);
5773 
5774 		OUTB (nc_dcntl, np->rv_dcntl | STD);
5775 		return;
5776 	};
5777 
5778 	/*
5779 	**	choose the correct patch area.
5780 	**	if savep points to one, choose the other.
5781 	*/
5782 
5783 	newcmd = cp->patch;
5784 	if (cp->phys.header.savep == vtophys (newcmd)) newcmd+=4;
5785 
5786 	/*
5787 	**	fillin the commands
5788 	*/
5789 
5790 	newcmd[0] = ((cmd & 0x0f) << 24) | rest;
5791 	newcmd[1] = oadr + olen - rest;
5792 	newcmd[2] = SCR_JUMP;
5793 	newcmd[3] = nxtdsp;
5794 
5795 	if (DEBUG_FLAGS & DEBUG_PHASE) {
5796 		PRINT_ADDR(cp->ccb);
5797 		printf ("newcmd[%d] %x %x %x %x.\n",
5798 			(int)(newcmd - cp->patch),
5799 			(unsigned)newcmd[0],
5800 			(unsigned)newcmd[1],
5801 			(unsigned)newcmd[2],
5802 			(unsigned)newcmd[3]);
5803 	}
5804 	/*
5805 	**	fake the return address (to the patch).
5806 	**	and restart script processor at dispatcher.
5807 	*/
5808 	np->profile.num_break++;
5809 	OUTL (nc_temp, vtophys (newcmd));
5810 	if ((cmd & 7) == 0)
5811 		OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, dispatch));
5812 	else
5813 		OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, checkatn));
5814 }
5815 
5816 /*==========================================================
5817 **
5818 **
5819 **      ncr chip exception handler for programmed interrupts.
5820 **
5821 **
5822 **==========================================================
5823 */
5824 
5825 static int ncr_show_msg (u_char * msg)
5826 {
5827 	u_char i;
5828 	printf ("%x",*msg);
5829 	if (*msg==MSG_EXTENDED) {
5830 		for (i=1;i<8;i++) {
5831 			if (i-1>msg[1]) break;
5832 			printf ("-%x",msg[i]);
5833 		};
5834 		return (i+1);
5835 	} else if ((*msg & 0xf0) == 0x20) {
5836 		printf ("-%x",msg[1]);
5837 		return (2);
5838 	};
5839 	return (1);
5840 }
5841 
5842 static void ncr_int_sir (ncb_p np)
5843 {
5844 	u_char scntl3;
5845 	u_char chg, ofs, per, fak, wide;
5846 	u_char num = INB (nc_dsps);
5847 	nccb_p	cp=0;
5848 	u_long	dsa;
5849 	u_int	target = INB (nc_sdid) & 0x0f;
5850 	tcb_p	tp     = &np->target[target];
5851 	int     i;
5852 	if (DEBUG_FLAGS & DEBUG_TINY) printf ("I#%d", num);
5853 
5854 	switch (num) {
5855 	case SIR_SENSE_RESTART:
5856 	case SIR_STALL_RESTART:
5857 		break;
5858 
5859 	default:
5860 		/*
5861 		**	lookup the nccb
5862 		*/
5863 		dsa = INL (nc_dsa);
5864 		cp = np->link_nccb;
5865 		while (cp && (CCB_PHYS (cp, phys) != dsa))
5866 			cp = cp->link_nccb;
5867 
5868 		assert (cp);
5869 		if (!cp)
5870 			goto out;
5871 		assert (cp == np->header.cp);
5872 		if (cp != np->header.cp)
5873 			goto out;
5874 	}
5875 
5876 	switch (num) {
5877 
5878 /*--------------------------------------------------------------------
5879 **
5880 **	Processing of interrupted getcc selects
5881 **
5882 **--------------------------------------------------------------------
5883 */
5884 
5885 	case SIR_SENSE_RESTART:
5886 		/*------------------------------------------
5887 		**	Script processor is idle.
5888 		**	Look for interrupted "check cond"
5889 		**------------------------------------------
5890 		*/
5891 
5892 		if (DEBUG_FLAGS & DEBUG_RESTART)
5893 			printf ("%s: int#%d",ncr_name (np),num);
5894 		cp = (nccb_p) 0;
5895 		for (i=0; i<MAX_TARGET; i++) {
5896 			if (DEBUG_FLAGS & DEBUG_RESTART) printf (" t%d", i);
5897 			tp = &np->target[i];
5898 			if (DEBUG_FLAGS & DEBUG_RESTART) printf ("+");
5899 			cp = tp->hold_cp;
5900 			if (!cp) continue;
5901 			if (DEBUG_FLAGS & DEBUG_RESTART) printf ("+");
5902 			if ((cp->host_status==HS_BUSY) &&
5903 				(cp->s_status==SCSI_STATUS_CHECK_COND))
5904 				break;
5905 			if (DEBUG_FLAGS & DEBUG_RESTART) printf ("- (remove)");
5906 			tp->hold_cp = cp = (nccb_p) 0;
5907 		};
5908 
5909 		if (cp) {
5910 			if (DEBUG_FLAGS & DEBUG_RESTART)
5911 				printf ("+ restart job ..\n");
5912 			OUTL (nc_dsa, CCB_PHYS (cp, phys));
5913 			OUTL (nc_dsp, NCB_SCRIPTH_PHYS (np, getcc));
5914 			return;
5915 		};
5916 
5917 		/*
5918 		**	no job, resume normal processing
5919 		*/
5920 		if (DEBUG_FLAGS & DEBUG_RESTART) printf (" -- remove trap\n");
5921 		WRITESCRIPT(start0[0], SCR_INT ^ IFFALSE (0));
5922 		break;
5923 
5924 	case SIR_SENSE_FAILED:
5925 		/*-------------------------------------------
5926 		**	While trying to select for
5927 		**	getting the condition code,
5928 		**	a target reselected us.
5929 		**-------------------------------------------
5930 		*/
5931 		if (DEBUG_FLAGS & DEBUG_RESTART) {
5932 			PRINT_ADDR(cp->ccb);
5933 			printf ("in getcc reselect by t%d.\n",
5934 				INB(nc_ssid) & 0x0f);
5935 		}
5936 
5937 		/*
5938 		**	Mark this job
5939 		*/
5940 		cp->host_status = HS_BUSY;
5941 		cp->s_status = SCSI_STATUS_CHECK_COND;
5942 		np->target[cp->ccb->ccb_h.target_id].hold_cp = cp;
5943 
5944 		/*
5945 		**	And patch code to restart it.
5946 		*/
5947 		WRITESCRIPT(start0[0], SCR_INT);
5948 		break;
5949 
5950 /*-----------------------------------------------------------------------------
5951 **
5952 **	Was Sie schon immer ueber transfermode negotiation wissen wollten ...
5953 **
5954 **	We try to negotiate sync and wide transfer only after
5955 **	a successfull inquire command. We look at byte 7 of the
5956 **	inquire data to determine the capabilities if the target.
5957 **
5958 **	When we try to negotiate, we append the negotiation message
5959 **	to the identify and (maybe) simple tag message.
5960 **	The host status field is set to HS_NEGOTIATE to mark this
5961 **	situation.
5962 **
5963 **	If the target doesn't answer this message immidiately
5964 **	(as required by the standard), the SIR_NEGO_FAIL interrupt
5965 **	will be raised eventually.
5966 **	The handler removes the HS_NEGOTIATE status, and sets the
5967 **	negotiated value to the default (async / nowide).
5968 **
5969 **	If we receive a matching answer immediately, we check it
5970 **	for validity, and set the values.
5971 **
5972 **	If we receive a Reject message immediately, we assume the
5973 **	negotiation has failed, and fall back to standard values.
5974 **
5975 **	If we receive a negotiation message while not in HS_NEGOTIATE
5976 **	state, it's a target initiated negotiation. We prepare a
5977 **	(hopefully) valid answer, set our parameters, and send back
5978 **	this answer to the target.
5979 **
5980 **	If the target doesn't fetch the answer (no message out phase),
5981 **	we assume the negotiation has failed, and fall back to default
5982 **	settings.
5983 **
5984 **	When we set the values, we adjust them in all nccbs belonging
5985 **	to this target, in the controller's register, and in the "phys"
5986 **	field of the controller's struct ncb.
5987 **
5988 **	Possible cases:		   hs  sir   msg_in value  send   goto
5989 **	We try try to negotiate:
5990 **	-> target doesnt't msgin   NEG FAIL  noop   defa.  -      dispatch
5991 **	-> target rejected our msg NEG FAIL  reject defa.  -      dispatch
5992 **	-> target answered  (ok)   NEG SYNC  sdtr   set    -      clrack
5993 **	-> target answered (!ok)   NEG SYNC  sdtr   defa.  REJ--->msg_bad
5994 **	-> target answered  (ok)   NEG WIDE  wdtr   set    -      clrack
5995 **	-> target answered (!ok)   NEG WIDE  wdtr   defa.  REJ--->msg_bad
5996 **	-> any other msgin	   NEG FAIL  noop   defa.  -      dispatch
5997 **
5998 **	Target tries to negotiate:
5999 **	-> incoming message	   --- SYNC  sdtr   set    SDTR   -
6000 **	-> incoming message	   --- WIDE  wdtr   set    WDTR   -
6001 **      We sent our answer:
6002 **	-> target doesn't msgout   --- PROTO ?      defa.  -      dispatch
6003 **
6004 **-----------------------------------------------------------------------------
6005 */
6006 
6007 	case SIR_NEGO_FAILED:
6008 		/*-------------------------------------------------------
6009 		**
6010 		**	Negotiation failed.
6011 		**	Target doesn't send an answer message,
6012 		**	or target rejected our message.
6013 		**
6014 		**      Remove negotiation request.
6015 		**
6016 		**-------------------------------------------------------
6017 		*/
6018 		OUTB (HS_PRT, HS_BUSY);
6019 
6020 		/* FALLTHROUGH */
6021 
6022 	case SIR_NEGO_PROTO:
6023 		/*-------------------------------------------------------
6024 		**
6025 		**	Negotiation failed.
6026 		**	Target doesn't fetch the answer message.
6027 		**
6028 		**-------------------------------------------------------
6029 		*/
6030 
6031 		if (DEBUG_FLAGS & DEBUG_NEGO) {
6032 			PRINT_ADDR(cp->ccb);
6033 			printf ("negotiation failed sir=%x status=%x.\n",
6034 				num, cp->nego_status);
6035 		};
6036 
6037 		/*
6038 		**	any error in negotiation:
6039 		**	fall back to default mode.
6040 		*/
6041 		switch (cp->nego_status) {
6042 
6043 		case NS_SYNC:
6044 			ncr_setsync (np, cp, 0, 0xe0, 0);
6045 			break;
6046 
6047 		case NS_WIDE:
6048 			ncr_setwide (np, cp, 0, 0);
6049 			break;
6050 
6051 		};
6052 		np->msgin [0] = MSG_NOOP;
6053 		np->msgout[0] = MSG_NOOP;
6054 		cp->nego_status = 0;
6055 		OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, dispatch));
6056 		break;
6057 
6058 	case SIR_NEGO_SYNC:
6059 		/*
6060 		**	Synchronous request message received.
6061 		*/
6062 
6063 		if (DEBUG_FLAGS & DEBUG_NEGO) {
6064 			PRINT_ADDR(cp->ccb);
6065 			printf ("sync msgin: ");
6066 			(void) ncr_show_msg (np->msgin);
6067 			printf (".\n");
6068 		};
6069 
6070 		/*
6071 		**	get requested values.
6072 		*/
6073 
6074 		chg = 0;
6075 		per = np->msgin[3];
6076 		ofs = np->msgin[4];
6077 		if (ofs==0) per=255;
6078 
6079 		/*
6080 		**	check values against driver limits.
6081 		*/
6082 		if (per < np->minsync)
6083 			{chg = 1; per = np->minsync;}
6084 		if (per < tp->tinfo.user.period)
6085 			{chg = 1; per = tp->tinfo.user.period;}
6086 		if (ofs > tp->tinfo.user.offset)
6087 			{chg = 1; ofs = tp->tinfo.user.offset;}
6088 
6089 		/*
6090 		**	Check against controller limits.
6091 		*/
6092 
6093 		fak	= 7;
6094 		scntl3	= 0;
6095 		if (ofs != 0) {
6096 			ncr_getsync(np, per, &fak, &scntl3);
6097 			if (fak > 7) {
6098 				chg = 1;
6099 				ofs = 0;
6100 			}
6101 		}
6102 		if (ofs == 0) {
6103 			fak	= 7;
6104 			per	= 0;
6105 			scntl3	= 0;
6106 		}
6107 
6108 		if (DEBUG_FLAGS & DEBUG_NEGO) {
6109 			PRINT_ADDR(cp->ccb);
6110 			printf ("sync: per=%d scntl3=0x%x ofs=%d fak=%d chg=%d.\n",
6111 				per, scntl3, ofs, fak, chg);
6112 		}
6113 
6114 		if (INB (HS_PRT) == HS_NEGOTIATE) {
6115 			OUTB (HS_PRT, HS_BUSY);
6116 			switch (cp->nego_status) {
6117 
6118 			case NS_SYNC:
6119 				/*
6120 				**      This was an answer message
6121 				*/
6122 				if (chg) {
6123 					/*
6124 					**	Answer wasn't acceptable.
6125 					*/
6126 					ncr_setsync (np, cp, 0, 0xe0, 0);
6127 					OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, msg_bad));
6128 				} else {
6129 					/*
6130 					**	Answer is ok.
6131 					*/
6132 					ncr_setsync (np,cp,scntl3,(fak<<5)|ofs, per);
6133 					OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, clrack));
6134 				};
6135 				return;
6136 
6137 			case NS_WIDE:
6138 				ncr_setwide (np, cp, 0, 0);
6139 				break;
6140 			};
6141 		};
6142 
6143 		/*
6144 		**	It was a request. Set value and
6145 		**      prepare an answer message
6146 		*/
6147 
6148 		ncr_setsync (np, cp, scntl3, (fak<<5)|ofs, per);
6149 
6150 		np->msgout[0] = MSG_EXTENDED;
6151 		np->msgout[1] = 3;
6152 		np->msgout[2] = MSG_EXT_SDTR;
6153 		np->msgout[3] = per;
6154 		np->msgout[4] = ofs;
6155 
6156 		cp->nego_status = NS_SYNC;
6157 
6158 		if (DEBUG_FLAGS & DEBUG_NEGO) {
6159 			PRINT_ADDR(cp->ccb);
6160 			printf ("sync msgout: ");
6161 			(void) ncr_show_msg (np->msgout);
6162 			printf (".\n");
6163 		}
6164 
6165 		if (!ofs) {
6166 			OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, msg_bad));
6167 			return;
6168 		}
6169 		np->msgin [0] = MSG_NOOP;
6170 
6171 		break;
6172 
6173 	case SIR_NEGO_WIDE:
6174 		/*
6175 		**	Wide request message received.
6176 		*/
6177 		if (DEBUG_FLAGS & DEBUG_NEGO) {
6178 			PRINT_ADDR(cp->ccb);
6179 			printf ("wide msgin: ");
6180 			(void) ncr_show_msg (np->msgin);
6181 			printf (".\n");
6182 		};
6183 
6184 		/*
6185 		**	get requested values.
6186 		*/
6187 
6188 		chg  = 0;
6189 		wide = np->msgin[3];
6190 
6191 		/*
6192 		**	check values against driver limits.
6193 		*/
6194 
6195 		if (wide > tp->tinfo.user.width)
6196 			{chg = 1; wide = tp->tinfo.user.width;}
6197 
6198 		if (DEBUG_FLAGS & DEBUG_NEGO) {
6199 			PRINT_ADDR(cp->ccb);
6200 			printf ("wide: wide=%d chg=%d.\n", wide, chg);
6201 		}
6202 
6203 		if (INB (HS_PRT) == HS_NEGOTIATE) {
6204 			OUTB (HS_PRT, HS_BUSY);
6205 			switch (cp->nego_status) {
6206 
6207 			case NS_WIDE:
6208 				/*
6209 				**      This was an answer message
6210 				*/
6211 				if (chg) {
6212 					/*
6213 					**	Answer wasn't acceptable.
6214 					*/
6215 					ncr_setwide (np, cp, 0, 1);
6216 					OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, msg_bad));
6217 				} else {
6218 					/*
6219 					**	Answer is ok.
6220 					*/
6221 					ncr_setwide (np, cp, wide, 1);
6222 					OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, clrack));
6223 				};
6224 				return;
6225 
6226 			case NS_SYNC:
6227 				ncr_setsync (np, cp, 0, 0xe0, 0);
6228 				break;
6229 			};
6230 		};
6231 
6232 		/*
6233 		**	It was a request, set value and
6234 		**      prepare an answer message
6235 		*/
6236 
6237 		ncr_setwide (np, cp, wide, 1);
6238 
6239 		np->msgout[0] = MSG_EXTENDED;
6240 		np->msgout[1] = 2;
6241 		np->msgout[2] = MSG_EXT_WDTR;
6242 		np->msgout[3] = wide;
6243 
6244 		np->msgin [0] = MSG_NOOP;
6245 
6246 		cp->nego_status = NS_WIDE;
6247 
6248 		if (DEBUG_FLAGS & DEBUG_NEGO) {
6249 			PRINT_ADDR(cp->ccb);
6250 			printf ("wide msgout: ");
6251 			(void) ncr_show_msg (np->msgout);
6252 			printf (".\n");
6253 		}
6254 		break;
6255 
6256 /*--------------------------------------------------------------------
6257 **
6258 **	Processing of special messages
6259 **
6260 **--------------------------------------------------------------------
6261 */
6262 
6263 	case SIR_REJECT_RECEIVED:
6264 		/*-----------------------------------------------
6265 		**
6266 		**	We received a MSG_MESSAGE_REJECT message.
6267 		**
6268 		**-----------------------------------------------
6269 		*/
6270 
6271 		PRINT_ADDR(cp->ccb);
6272 		printf ("MSG_MESSAGE_REJECT received (%x:%x).\n",
6273 			(unsigned)np->lastmsg, np->msgout[0]);
6274 		break;
6275 
6276 	case SIR_REJECT_SENT:
6277 		/*-----------------------------------------------
6278 		**
6279 		**	We received an unknown message
6280 		**
6281 		**-----------------------------------------------
6282 		*/
6283 
6284 		PRINT_ADDR(cp->ccb);
6285 		printf ("MSG_MESSAGE_REJECT sent for ");
6286 		(void) ncr_show_msg (np->msgin);
6287 		printf (".\n");
6288 		break;
6289 
6290 /*--------------------------------------------------------------------
6291 **
6292 **	Processing of special messages
6293 **
6294 **--------------------------------------------------------------------
6295 */
6296 
6297 	case SIR_IGN_RESIDUE:
6298 		/*-----------------------------------------------
6299 		**
6300 		**	We received an IGNORE RESIDUE message,
6301 		**	which couldn't be handled by the script.
6302 		**
6303 		**-----------------------------------------------
6304 		*/
6305 
6306 		PRINT_ADDR(cp->ccb);
6307 		printf ("MSG_IGN_WIDE_RESIDUE received, but not yet implemented.\n");
6308 		break;
6309 
6310 	case SIR_MISSING_SAVE:
6311 		/*-----------------------------------------------
6312 		**
6313 		**	We received an DISCONNECT message,
6314 		**	but the datapointer wasn't saved before.
6315 		**
6316 		**-----------------------------------------------
6317 		*/
6318 
6319 		PRINT_ADDR(cp->ccb);
6320 		printf ("MSG_DISCONNECT received, but datapointer not saved:\n"
6321 			"\tdata=%x save=%x goal=%x.\n",
6322 			(unsigned) INL (nc_temp),
6323 			(unsigned) np->header.savep,
6324 			(unsigned) np->header.goalp);
6325 		break;
6326 
6327 /*--------------------------------------------------------------------
6328 **
6329 **	Processing of a "SCSI_STATUS_QUEUE_FULL" status.
6330 **
6331 **	XXX JGibbs - We should do the same thing for BUSY status.
6332 **
6333 **	The current command has been rejected,
6334 **	because there are too many in the command queue.
6335 **	We have started too many commands for that target.
6336 **
6337 **--------------------------------------------------------------------
6338 */
6339 	case SIR_STALL_QUEUE:
6340 		cp->xerr_status = XE_OK;
6341 		cp->host_status = HS_COMPLETE;
6342 		cp->s_status = SCSI_STATUS_QUEUE_FULL;
6343 		ncr_freeze_devq(np, cp->ccb->ccb_h.path);
6344 		ncr_complete(np, cp);
6345 
6346 		/* FALLTHROUGH */
6347 
6348 	case SIR_STALL_RESTART:
6349 		/*-----------------------------------------------
6350 		**
6351 		**	Enable selecting again,
6352 		**	if NO disconnected jobs.
6353 		**
6354 		**-----------------------------------------------
6355 		*/
6356 		/*
6357 		**	Look for a disconnected job.
6358 		*/
6359 		cp = np->link_nccb;
6360 		while (cp && cp->host_status != HS_DISCONNECT)
6361 			cp = cp->link_nccb;
6362 
6363 		/*
6364 		**	if there is one, ...
6365 		*/
6366 		if (cp) {
6367 			/*
6368 			**	wait for reselection
6369 			*/
6370 			OUTL (nc_dsp, NCB_SCRIPT_PHYS (np, reselect));
6371 			return;
6372 		};
6373 
6374 		/*
6375 		**	else remove the interrupt.
6376 		*/
6377 
6378 		printf ("%s: queue empty.\n", ncr_name (np));
6379 		WRITESCRIPT(start1[0], SCR_INT ^ IFFALSE (0));
6380 		break;
6381 	};
6382 
6383 out:
6384 	OUTB (nc_dcntl, np->rv_dcntl | STD);
6385 }
6386 
6387 /*==========================================================
6388 **
6389 **
6390 **	Aquire a control block
6391 **
6392 **
6393 **==========================================================
6394 */
6395 
6396 static	nccb_p ncr_get_nccb
6397 	(ncb_p np, u_long target, u_long lun)
6398 {
6399 	lcb_p lp;
6400 	int s;
6401 	nccb_p cp = NULL;
6402 
6403 	/* Keep our timeout handler out */
6404 	s = splsoftclock();
6405 
6406 	/*
6407 	**	Lun structure available ?
6408 	*/
6409 
6410 	lp = np->target[target].lp[lun];
6411 	if (lp) {
6412 		cp = lp->next_nccb;
6413 
6414 		/*
6415 		**	Look for free CCB
6416 		*/
6417 
6418 		while (cp && cp->magic) {
6419 			cp = cp->next_nccb;
6420 		}
6421 	}
6422 
6423 	/*
6424 	**	if nothing available, create one.
6425 	*/
6426 
6427 	if (cp == NULL)
6428 		cp = ncr_alloc_nccb(np, target, lun);
6429 
6430 	if (cp != NULL) {
6431 		if (cp->magic) {
6432 			printf("%s: Bogus free cp found\n", ncr_name(np));
6433 			splx(s);
6434 			return (NULL);
6435 		}
6436 		cp->magic = 1;
6437 	}
6438 	splx(s);
6439 	return (cp);
6440 }
6441 
6442 /*==========================================================
6443 **
6444 **
6445 **	Release one control block
6446 **
6447 **
6448 **==========================================================
6449 */
6450 
6451 static void ncr_free_nccb (ncb_p np, nccb_p cp)
6452 {
6453 	/*
6454 	**    sanity
6455 	*/
6456 
6457 	assert (cp != NULL);
6458 
6459 	cp -> host_status = HS_IDLE;
6460 	cp -> magic = 0;
6461 }
6462 
6463 /*==========================================================
6464 **
6465 **
6466 **      Allocation of resources for Targets/Luns/Tags.
6467 **
6468 **
6469 **==========================================================
6470 */
6471 
6472 static nccb_p
6473 ncr_alloc_nccb (ncb_p np, u_long target, u_long lun)
6474 {
6475 	tcb_p tp;
6476 	lcb_p lp;
6477 	nccb_p cp;
6478 
6479 	assert (np != NULL);
6480 
6481 	if (target>=MAX_TARGET) return(NULL);
6482 	if (lun   >=MAX_LUN   ) return(NULL);
6483 
6484 	tp=&np->target[target];
6485 
6486 	if (!tp->jump_tcb.l_cmd) {
6487 
6488 		/*
6489 		**	initialize it.
6490 		*/
6491 		tp->jump_tcb.l_cmd   = (SCR_JUMP^IFFALSE (DATA (0x80 + target)));
6492 		tp->jump_tcb.l_paddr = np->jump_tcb.l_paddr;
6493 
6494 		tp->getscr[0] =
6495 			(np->features & FE_PFEN)? SCR_COPY(1) : SCR_COPY_F(1);
6496 		tp->getscr[1] = vtophys (&tp->tinfo.sval);
6497 		tp->getscr[2] = rman_get_start(np->reg_res) + offsetof (struct ncr_reg, nc_sxfer);
6498 		tp->getscr[3] =
6499 			(np->features & FE_PFEN)? SCR_COPY(1) : SCR_COPY_F(1);
6500 		tp->getscr[4] = vtophys (&tp->tinfo.wval);
6501 		tp->getscr[5] = rman_get_start(np->reg_res) + offsetof (struct ncr_reg, nc_scntl3);
6502 
6503 		assert (((offsetof(struct ncr_reg, nc_sxfer) ^
6504 			 (offsetof(struct tcb ,tinfo)
6505 			+ offsetof(struct ncr_target_tinfo, sval))) & 3) == 0);
6506 		assert (((offsetof(struct ncr_reg, nc_scntl3) ^
6507 			 (offsetof(struct tcb, tinfo)
6508 			+ offsetof(struct ncr_target_tinfo, wval))) &3) == 0);
6509 
6510 		tp->call_lun.l_cmd   = (SCR_CALL);
6511 		tp->call_lun.l_paddr = NCB_SCRIPT_PHYS (np, resel_lun);
6512 
6513 		tp->jump_lcb.l_cmd   = (SCR_JUMP);
6514 		tp->jump_lcb.l_paddr = NCB_SCRIPTH_PHYS (np, abort);
6515 		np->jump_tcb.l_paddr = vtophys (&tp->jump_tcb);
6516 	}
6517 
6518 	/*
6519 	**	Logic unit control block
6520 	*/
6521 	lp = tp->lp[lun];
6522 	if (!lp) {
6523 		/*
6524 		**	Allocate a lcb
6525 		*/
6526 		lp = (lcb_p) malloc (sizeof (struct lcb), M_DEVBUF,
6527 			M_NOWAIT | M_ZERO);
6528 		if (!lp) return(NULL);
6529 
6530 		/*
6531 		**	Initialize it
6532 		*/
6533 		lp->jump_lcb.l_cmd   = (SCR_JUMP ^ IFFALSE (DATA (lun)));
6534 		lp->jump_lcb.l_paddr = tp->jump_lcb.l_paddr;
6535 
6536 		lp->call_tag.l_cmd   = (SCR_CALL);
6537 		lp->call_tag.l_paddr = NCB_SCRIPT_PHYS (np, resel_tag);
6538 
6539 		lp->jump_nccb.l_cmd   = (SCR_JUMP);
6540 		lp->jump_nccb.l_paddr = NCB_SCRIPTH_PHYS (np, aborttag);
6541 
6542 		lp->actlink = 1;
6543 
6544 		/*
6545 		**   Chain into LUN list
6546 		*/
6547 		tp->jump_lcb.l_paddr = vtophys (&lp->jump_lcb);
6548 		tp->lp[lun] = lp;
6549 
6550 	}
6551 
6552 	/*
6553 	**	Allocate a nccb
6554 	*/
6555 	cp = (nccb_p) malloc (sizeof (struct nccb), M_DEVBUF, M_NOWAIT|M_ZERO);
6556 
6557 	if (!cp)
6558 		return (NULL);
6559 
6560 	if (DEBUG_FLAGS & DEBUG_ALLOC) {
6561 		printf ("new nccb @%p.\n", cp);
6562 	}
6563 
6564 	/*
6565 	**	Fill in physical addresses
6566 	*/
6567 
6568 	cp->p_nccb	     = vtophys (cp);
6569 
6570 	/*
6571 	**	Chain into reselect list
6572 	*/
6573 	cp->jump_nccb.l_cmd   = SCR_JUMP;
6574 	cp->jump_nccb.l_paddr = lp->jump_nccb.l_paddr;
6575 	lp->jump_nccb.l_paddr = CCB_PHYS (cp, jump_nccb);
6576 	cp->call_tmp.l_cmd   = SCR_CALL;
6577 	cp->call_tmp.l_paddr = NCB_SCRIPT_PHYS (np, resel_tmp);
6578 
6579 	/*
6580 	**	Chain into wakeup list
6581 	*/
6582 	cp->link_nccb      = np->link_nccb;
6583 	np->link_nccb	   = cp;
6584 
6585 	/*
6586 	**	Chain into CCB list
6587 	*/
6588 	cp->next_nccb	= lp->next_nccb;
6589 	lp->next_nccb	= cp;
6590 
6591 	return (cp);
6592 }
6593 
6594 /*==========================================================
6595 **
6596 **
6597 **	Build Scatter Gather Block
6598 **
6599 **
6600 **==========================================================
6601 **
6602 **	The transfer area may be scattered among
6603 **	several non adjacent physical pages.
6604 **
6605 **	We may use MAX_SCATTER blocks.
6606 **
6607 **----------------------------------------------------------
6608 */
6609 
6610 static	int	ncr_scatter
6611 	(struct dsb* phys, vm_offset_t vaddr, vm_size_t datalen)
6612 {
6613 	u_long	paddr, pnext;
6614 
6615 	u_short	segment  = 0;
6616 	u_long	segsize, segaddr;
6617 	u_long	size, csize    = 0;
6618 	u_long	chunk = MAX_SIZE;
6619 	int	free;
6620 
6621 	bzero (&phys->data, sizeof (phys->data));
6622 	if (!datalen) return (0);
6623 
6624 	paddr = vtophys (vaddr);
6625 
6626 	/*
6627 	**	insert extra break points at a distance of chunk.
6628 	**	We try to reduce the number of interrupts caused
6629 	**	by unexpected phase changes due to disconnects.
6630 	**	A typical harddisk may disconnect before ANY block.
6631 	**	If we wanted to avoid unexpected phase changes at all
6632 	**	we had to use a break point every 512 bytes.
6633 	**	Of course the number of scatter/gather blocks is
6634 	**	limited.
6635 	*/
6636 
6637 	free = MAX_SCATTER - 1;
6638 
6639 	if (vaddr & PAGE_MASK) free -= datalen / PAGE_SIZE;
6640 
6641 	if (free>1)
6642 		while ((chunk * free >= 2 * datalen) && (chunk>=1024))
6643 			chunk /= 2;
6644 
6645 	if(DEBUG_FLAGS & DEBUG_SCATTER)
6646 		printf("ncr?:\tscattering virtual=%p size=%d chunk=%d.\n",
6647 		       (void *) vaddr, (unsigned) datalen, (unsigned) chunk);
6648 
6649 	/*
6650 	**   Build data descriptors.
6651 	*/
6652 	while (datalen && (segment < MAX_SCATTER)) {
6653 
6654 		/*
6655 		**	this segment is empty
6656 		*/
6657 		segsize = 0;
6658 		segaddr = paddr;
6659 		pnext   = paddr;
6660 
6661 		if (!csize) csize = chunk;
6662 
6663 		while ((datalen) && (paddr == pnext) && (csize)) {
6664 
6665 			/*
6666 			**	continue this segment
6667 			*/
6668 			pnext = (paddr & (~PAGE_MASK)) + PAGE_SIZE;
6669 
6670 			/*
6671 			**	Compute max size
6672 			*/
6673 
6674 			size = pnext - paddr;		/* page size */
6675 			if (size > datalen) size = datalen;  /* data size */
6676 			if (size > csize  ) size = csize  ;  /* chunksize */
6677 
6678 			segsize += size;
6679 			vaddr   += size;
6680 			csize   -= size;
6681 			datalen -= size;
6682 			paddr    = vtophys (vaddr);
6683 		};
6684 
6685 		if(DEBUG_FLAGS & DEBUG_SCATTER)
6686 			printf ("\tseg #%d  addr=%x  size=%d  (rest=%d).\n",
6687 			segment,
6688 			(unsigned) segaddr,
6689 			(unsigned) segsize,
6690 			(unsigned) datalen);
6691 
6692 		phys->data[segment].addr = segaddr;
6693 		phys->data[segment].size = segsize;
6694 		segment++;
6695 	}
6696 
6697 	if (datalen) {
6698 		printf("ncr?: scatter/gather failed (residue=%d).\n",
6699 			(unsigned) datalen);
6700 		return (-1);
6701 	};
6702 
6703 	return (segment);
6704 }
6705 
6706 /*==========================================================
6707 **
6708 **
6709 **	Test the pci bus snoop logic :-(
6710 **
6711 **	Has to be called with interrupts disabled.
6712 **
6713 **
6714 **==========================================================
6715 */
6716 
6717 #ifndef NCR_IOMAPPED
6718 static int ncr_regtest (struct ncb* np)
6719 {
6720 	register volatile u_int32_t data;
6721 	/*
6722 	**	ncr registers may NOT be cached.
6723 	**	write 0xffffffff to a read only register area,
6724 	**	and try to read it back.
6725 	*/
6726 	data = 0xffffffff;
6727 	OUTL_OFF(offsetof(struct ncr_reg, nc_dstat), data);
6728 	data = INL_OFF(offsetof(struct ncr_reg, nc_dstat));
6729 #if 1
6730 	if (data == 0xffffffff) {
6731 #else
6732 	if ((data & 0xe2f0fffd) != 0x02000080) {
6733 #endif
6734 		printf ("CACHE TEST FAILED: reg dstat-sstat2 readback %x.\n",
6735 			(unsigned) data);
6736 		return (0x10);
6737 	};
6738 	return (0);
6739 }
6740 #endif
6741 
6742 static int ncr_snooptest (struct ncb* np)
6743 {
6744 	u_int32_t ncr_rd, ncr_wr, ncr_bk, host_rd, host_wr, pc;
6745 	int	i, err=0;
6746 #ifndef NCR_IOMAPPED
6747 	err |= ncr_regtest (np);
6748 	if (err) return (err);
6749 #endif
6750 	/*
6751 	**	init
6752 	*/
6753 	pc  = NCB_SCRIPTH_PHYS (np, snooptest);
6754 	host_wr = 1;
6755 	ncr_wr  = 2;
6756 	/*
6757 	**	Set memory and register.
6758 	*/
6759 	ncr_cache = host_wr;
6760 	OUTL (nc_temp, ncr_wr);
6761 	/*
6762 	**	Start script (exchange values)
6763 	*/
6764 	OUTL (nc_dsp, pc);
6765 	/*
6766 	**	Wait 'til done (with timeout)
6767 	*/
6768 	for (i=0; i<NCR_SNOOP_TIMEOUT; i++)
6769 		if (INB(nc_istat) & (INTF|SIP|DIP))
6770 			break;
6771 	/*
6772 	**	Save termination position.
6773 	*/
6774 	pc = INL (nc_dsp);
6775 	/*
6776 	**	Read memory and register.
6777 	*/
6778 	host_rd = ncr_cache;
6779 	ncr_rd  = INL (nc_scratcha);
6780 	ncr_bk  = INL (nc_temp);
6781 	/*
6782 	**	Reset ncr chip
6783 	*/
6784 	OUTB (nc_istat,  SRST);
6785 	DELAY (1000);
6786 	OUTB (nc_istat,  0   );
6787 	/*
6788 	**	check for timeout
6789 	*/
6790 	if (i>=NCR_SNOOP_TIMEOUT) {
6791 		printf ("CACHE TEST FAILED: timeout.\n");
6792 		return (0x20);
6793 	};
6794 	/*
6795 	**	Check termination position.
6796 	*/
6797 	if (pc != NCB_SCRIPTH_PHYS (np, snoopend)+8) {
6798 		printf ("CACHE TEST FAILED: script execution failed.\n");
6799 		printf ("start=%08lx, pc=%08lx, end=%08lx\n",
6800 			(u_long) NCB_SCRIPTH_PHYS (np, snooptest), (u_long) pc,
6801 			(u_long) NCB_SCRIPTH_PHYS (np, snoopend) +8);
6802 		return (0x40);
6803 	};
6804 	/*
6805 	**	Show results.
6806 	*/
6807 	if (host_wr != ncr_rd) {
6808 		printf ("CACHE TEST FAILED: host wrote %d, ncr read %d.\n",
6809 			(int) host_wr, (int) ncr_rd);
6810 		err |= 1;
6811 	};
6812 	if (host_rd != ncr_wr) {
6813 		printf ("CACHE TEST FAILED: ncr wrote %d, host read %d.\n",
6814 			(int) ncr_wr, (int) host_rd);
6815 		err |= 2;
6816 	};
6817 	if (ncr_bk != ncr_wr) {
6818 		printf ("CACHE TEST FAILED: ncr wrote %d, read back %d.\n",
6819 			(int) ncr_wr, (int) ncr_bk);
6820 		err |= 4;
6821 	};
6822 	return (err);
6823 }
6824 
6825 /*==========================================================
6826 **
6827 **
6828 **	Profiling the drivers and targets performance.
6829 **
6830 **
6831 **==========================================================
6832 */
6833 
6834 /*
6835 **	Compute the difference in milliseconds.
6836 **/
6837 
6838 static	int ncr_delta (int *from, int *to)
6839 {
6840 	if (!from) return (-1);
6841 	if (!to)   return (-2);
6842 	return ((to - from) * 1000 / hz);
6843 }
6844 
6845 #define PROFILE  cp->phys.header.stamp
6846 static	void ncb_profile (ncb_p np, nccb_p cp)
6847 {
6848 	int co, da, st, en, di, se, post,work,disc;
6849 	u_long diff;
6850 
6851 	PROFILE.end = ticks;
6852 
6853 	st = ncr_delta (&PROFILE.start,&PROFILE.status);
6854 	if (st<0) return;	/* status  not reached  */
6855 
6856 	da = ncr_delta (&PROFILE.start,&PROFILE.data);
6857 	if (da<0) return;	/* No data transfer phase */
6858 
6859 	co = ncr_delta (&PROFILE.start,&PROFILE.command);
6860 	if (co<0) return;	/* command not executed */
6861 
6862 	en = ncr_delta (&PROFILE.start,&PROFILE.end),
6863 	di = ncr_delta (&PROFILE.start,&PROFILE.disconnect),
6864 	se = ncr_delta (&PROFILE.start,&PROFILE.select);
6865 	post = en - st;
6866 
6867 	/*
6868 	**	@PROFILE@  Disconnect time invalid if multiple disconnects
6869 	*/
6870 
6871 	if (di>=0) disc = se-di; else  disc = 0;
6872 
6873 	work = (st - co) - disc;
6874 
6875 	diff = (np->disc_phys - np->disc_ref) & 0xff;
6876 	np->disc_ref += diff;
6877 
6878 	np->profile.num_trans	+= 1;
6879 	if (cp->ccb)
6880 		np->profile.num_bytes	+= cp->ccb->csio.dxfer_len;
6881 	np->profile.num_disc	+= diff;
6882 	np->profile.ms_setup	+= co;
6883 	np->profile.ms_data	+= work;
6884 	np->profile.ms_disc	+= disc;
6885 	np->profile.ms_post	+= post;
6886 }
6887 #undef PROFILE
6888 
6889 /*==========================================================
6890 **
6891 **	Determine the ncr's clock frequency.
6892 **	This is essential for the negotiation
6893 **	of the synchronous transfer rate.
6894 **
6895 **==========================================================
6896 **
6897 **	Note: we have to return the correct value.
6898 **	THERE IS NO SAVE DEFAULT VALUE.
6899 **
6900 **	Most NCR/SYMBIOS boards are delivered with a 40 Mhz clock.
6901 **	53C860 and 53C875 rev. 1 support fast20 transfers but
6902 **	do not have a clock doubler and so are provided with a
6903 **	80 MHz clock. All other fast20 boards incorporate a doubler
6904 **	and so should be delivered with a 40 MHz clock.
6905 **	The future fast40 chips (895/895) use a 40 Mhz base clock
6906 **	and provide a clock quadrupler (160 Mhz). The code below
6907 **	tries to deal as cleverly as possible with all this stuff.
6908 **
6909 **----------------------------------------------------------
6910 */
6911 
6912 /*
6913  *	Select NCR SCSI clock frequency
6914  */
6915 static void ncr_selectclock(ncb_p np, u_char scntl3)
6916 {
6917 	if (np->multiplier < 2) {
6918 		OUTB(nc_scntl3,	scntl3);
6919 		return;
6920 	}
6921 
6922 	if (bootverbose >= 2)
6923 		printf ("%s: enabling clock multiplier\n", ncr_name(np));
6924 
6925 	OUTB(nc_stest1, DBLEN);	   /* Enable clock multiplier		  */
6926 	if (np->multiplier > 2) {  /* Poll bit 5 of stest4 for quadrupler */
6927 		int i = 20;
6928 		while (!(INB(nc_stest4) & LCKFRQ) && --i > 0)
6929 			DELAY(20);
6930 		if (!i)
6931 			printf("%s: the chip cannot lock the frequency\n", ncr_name(np));
6932 	} else			/* Wait 20 micro-seconds for doubler	*/
6933 		DELAY(20);
6934 	OUTB(nc_stest3, HSC);		/* Halt the scsi clock		*/
6935 	OUTB(nc_scntl3,	scntl3);
6936 	OUTB(nc_stest1, (DBLEN|DBLSEL));/* Select clock multiplier	*/
6937 	OUTB(nc_stest3, 0x00);		/* Restart scsi clock 		*/
6938 }
6939 
6940 /*
6941  *	calculate NCR SCSI clock frequency (in KHz)
6942  */
6943 static unsigned
6944 ncrgetfreq (ncb_p np, int gen)
6945 {
6946 	int ms = 0;
6947 	/*
6948 	 * Measure GEN timer delay in order
6949 	 * to calculate SCSI clock frequency
6950 	 *
6951 	 * This code will never execute too
6952 	 * many loop iterations (if DELAY is
6953 	 * reasonably correct). It could get
6954 	 * too low a delay (too high a freq.)
6955 	 * if the CPU is slow executing the
6956 	 * loop for some reason (an NMI, for
6957 	 * example). For this reason we will
6958 	 * if multiple measurements are to be
6959 	 * performed trust the higher delay
6960 	 * (lower frequency returned).
6961 	 */
6962 	OUTB (nc_stest1, 0);	/* make sure clock doubler is OFF	    */
6963 	OUTW (nc_sien , 0);	/* mask all scsi interrupts		    */
6964 	(void) INW (nc_sist);	/* clear pending scsi interrupt		    */
6965 	OUTB (nc_dien , 0);	/* mask all dma interrupts		    */
6966 	(void) INW (nc_sist);	/* another one, just to be sure :)	    */
6967 	OUTB (nc_scntl3, 4);	/* set pre-scaler to divide by 3	    */
6968 	OUTB (nc_stime1, 0);	/* disable general purpose timer	    */
6969 	OUTB (nc_stime1, gen);	/* set to nominal delay of (1<<gen) * 125us */
6970 	while (!(INW(nc_sist) & GEN) && ms++ < 1000)
6971 		DELAY(1000);	/* count ms				    */
6972 	OUTB (nc_stime1, 0);	/* disable general purpose timer	    */
6973 	OUTB (nc_scntl3, 0);
6974 	/*
6975 	 * Set prescaler to divide by whatever "0" means.
6976 	 * "0" ought to choose divide by 2, but appears
6977 	 * to set divide by 3.5 mode in my 53c810 ...
6978 	 */
6979 	OUTB (nc_scntl3, 0);
6980 
6981 	if (bootverbose >= 2)
6982 	  	printf ("\tDelay (GEN=%d): %u msec\n", gen, ms);
6983 	/*
6984 	 * adjust for prescaler, and convert into KHz
6985 	 */
6986 	return ms ? ((1 << gen) * 4440) / ms : 0;
6987 }
6988 
6989 static void ncr_getclock (ncb_p np, u_char multiplier)
6990 {
6991 	unsigned char scntl3;
6992 	unsigned char stest1;
6993 	scntl3 = INB(nc_scntl3);
6994 	stest1 = INB(nc_stest1);
6995 
6996 	np->multiplier = 1;
6997 
6998 	if (multiplier > 1) {
6999 		np->multiplier	= multiplier;
7000 		np->clock_khz	= 40000 * multiplier;
7001 	} else {
7002 		if ((scntl3 & 7) == 0) {
7003 			unsigned f1, f2;
7004 			/* throw away first result */
7005 			(void) ncrgetfreq (np, 11);
7006 			f1 = ncrgetfreq (np, 11);
7007 			f2 = ncrgetfreq (np, 11);
7008 
7009 			if (bootverbose >= 2)
7010 			  printf ("\tNCR clock is %uKHz, %uKHz\n", f1, f2);
7011 			if (f1 > f2) f1 = f2;	/* trust lower result	*/
7012 			if (f1 > 45000) {
7013 				scntl3 = 5;	/* >45Mhz: assume 80MHz	*/
7014 			} else {
7015 				scntl3 = 3;	/* <45Mhz: assume 40MHz	*/
7016 			}
7017 		}
7018 		else if ((scntl3 & 7) == 5)
7019 			np->clock_khz = 80000;	/* Probably a 875 rev. 1 ? */
7020 	}
7021 }
7022 
7023 /*=========================================================================*/
7024 
7025 #ifdef NCR_TEKRAM_EEPROM
7026 
7027 struct tekram_eeprom_dev {
7028   u_char	devmode;
7029 #define	TKR_PARCHK	0x01
7030 #define	TKR_TRYSYNC	0x02
7031 #define	TKR_ENDISC	0x04
7032 #define	TKR_STARTUNIT	0x08
7033 #define	TKR_USETAGS	0x10
7034 #define	TKR_TRYWIDE	0x20
7035   u_char	syncparam;	/* max. sync transfer rate (table ?) */
7036   u_char	filler1;
7037   u_char	filler2;
7038 };
7039 
7040 
7041 struct tekram_eeprom {
7042   struct tekram_eeprom_dev
7043 		dev[16];
7044   u_char	adaptid;
7045   u_char	adaptmode;
7046 #define	TKR_ADPT_GT2DRV	0x01
7047 #define	TKR_ADPT_GT1GB	0x02
7048 #define	TKR_ADPT_RSTBUS	0x04
7049 #define	TKR_ADPT_ACTNEG	0x08
7050 #define	TKR_ADPT_NOSEEK	0x10
7051 #define	TKR_ADPT_MORLUN	0x20
7052   u_char	delay;		/* unit ? ( table ??? ) */
7053   u_char	tags;		/* use 4 times as many ... */
7054   u_char	filler[60];
7055 };
7056 
7057 static void
7058 tekram_write_bit (ncb_p np, int bit)
7059 {
7060 	u_char val = 0x10 + ((bit & 1) << 1);
7061 
7062 	DELAY(10);
7063 	OUTB (nc_gpreg, val);
7064 	DELAY(10);
7065 	OUTB (nc_gpreg, val | 0x04);
7066 	DELAY(10);
7067 	OUTB (nc_gpreg, val);
7068 	DELAY(10);
7069 }
7070 
7071 static int
7072 tekram_read_bit (ncb_p np)
7073 {
7074 	OUTB (nc_gpreg, 0x10);
7075 	DELAY(10);
7076 	OUTB (nc_gpreg, 0x14);
7077 	DELAY(10);
7078 	return INB (nc_gpreg) & 1;
7079 }
7080 
7081 static u_short
7082 read_tekram_eeprom_reg (ncb_p np, int reg)
7083 {
7084 	int bit;
7085 	u_short result = 0;
7086 	int cmd = 0x80 | reg;
7087 
7088 	OUTB (nc_gpreg, 0x10);
7089 
7090 	tekram_write_bit (np, 1);
7091 	for (bit = 7; bit >= 0; bit--)
7092 	{
7093 		tekram_write_bit (np, cmd >> bit);
7094 	}
7095 
7096 	for (bit = 0; bit < 16; bit++)
7097 	{
7098 		result <<= 1;
7099 		result |= tekram_read_bit (np);
7100 	}
7101 
7102 	OUTB (nc_gpreg, 0x00);
7103 	return result;
7104 }
7105 
7106 static int
7107 read_tekram_eeprom(ncb_p np, struct tekram_eeprom *buffer)
7108 {
7109 	u_short *p = (u_short *) buffer;
7110 	u_short sum = 0;
7111 	int i;
7112 
7113 	if (INB (nc_gpcntl) != 0x09)
7114 	{
7115 		return 0;
7116         }
7117 	for (i = 0; i < 64; i++)
7118 	{
7119 		u_short val;
7120 if((i&0x0f) == 0) printf ("%02x:", i*2);
7121 		val = read_tekram_eeprom_reg (np, i);
7122 		if (p)
7123 			*p++ = val;
7124 		sum += val;
7125 if((i&0x01) == 0x00) printf (" ");
7126 		printf ("%02x%02x", val & 0xff, (val >> 8) & 0xff);
7127 if((i&0x0f) == 0x0f) printf ("\n");
7128 	}
7129 printf ("Sum = %04x\n", sum);
7130 	return sum == 0x1234;
7131 }
7132 #endif /* NCR_TEKRAM_EEPROM */
7133 
7134 static device_method_t ncr_methods[] = {
7135 	/* Device interface */
7136 	DEVMETHOD(device_probe,		ncr_probe),
7137 	DEVMETHOD(device_attach,	ncr_attach),
7138 
7139 	{ 0, 0 }
7140 };
7141 
7142 static driver_t ncr_driver = {
7143 	"ncr",
7144 	ncr_methods,
7145 	sizeof(struct ncb),
7146 };
7147 
7148 static devclass_t ncr_devclass;
7149 
7150 DRIVER_MODULE(ncr, pci, ncr_driver, ncr_devclass, 0, 0);
7151 MODULE_DEPEND(ncr, cam, 1, 1, 1);
7152 MODULE_DEPEND(ncr, pci, 1, 1, 1);
7153 
7154 /*=========================================================================*/
7155 #endif /* _KERNEL */
7156