xref: /titanic_51/usr/src/uts/common/sys/scsi/targets/sddef.h (revision 19d61fc7991644175873937566d932d8cf52912a)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_SYS_SCSI_TARGETS_SDDEF_H
27 #define	_SYS_SCSI_TARGETS_SDDEF_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 
32 #include <sys/dktp/fdisk.h>
33 #include <sys/note.h>
34 #include <sys/mhd.h>
35 #include <sys/cmlb.h>
36 
37 #ifdef	__cplusplus
38 extern "C" {
39 #endif
40 
41 
42 #if defined(_KERNEL) || defined(_KMEMUSER)
43 
44 
45 #define	SD_SUCCESS		0
46 #define	SD_FAILURE		(-1)
47 
48 #if defined(TRUE)
49 #undef TRUE
50 #endif
51 
52 #if defined(FALSE)
53 #undef FALSE
54 #endif
55 
56 #define	TRUE			1
57 #define	FALSE			0
58 
59 #if defined(VERBOSE)
60 #undef VERBOSE
61 #endif
62 
63 #if defined(SILENT)
64 #undef SILENT
65 #endif
66 
67 
68 /*
69  *  Fault Injection Flag for Inclusion of Code
70  *
71  *  This should only be defined when SDDEBUG is defined
72  * #if DEBUG || lint
73  * #define	SD_FAULT_INJECTION
74  * #endif
75  */
76 
77 #define	VERBOSE			1
78 #define	SILENT			0
79 
80 /*
81  * Structures for recording whether a device is fully open or closed.
82  * Assumptions:
83  *
84  *	+ There are only 8 (sparc) or 16 (x86) disk slices possible.
85  *	+ BLK, MNT, CHR, SWP don't change in some future release!
86  */
87 
88 #if defined(_SUNOS_VTOC_8)
89 
90 #define	SDUNIT_SHIFT	3
91 #define	SDPART_MASK	7
92 #define	NSDMAP		NDKMAP
93 
94 #elif defined(_SUNOS_VTOC_16)
95 
96 #define	SDUNIT_SHIFT	6
97 #define	SDPART_MASK	63
98 #define	NSDMAP		(NDKMAP + FD_NUMPART + 1)
99 
100 #else
101 #error "No VTOC format defined."
102 #endif
103 
104 
105 #define	SDUNIT(dev)	(getminor((dev)) >> SDUNIT_SHIFT)
106 #define	SDPART(dev)	(getminor((dev)) &  SDPART_MASK)
107 
108 /*
109  * maximum number of partitions the driver keeps track of; with
110  * EFI this can be larger than the number of partitions accessible
111  * through the minor nodes.  It won't be used for keeping track
112  * of open counts, partition kstats, etc.
113  */
114 #define	MAXPART		(NSDMAP + 1)
115 
116 /*
117  * Macro to retrieve the DDI instance number from the given buf struct.
118  * The instance number is encoded in the minor device number.
119  */
120 #define	SD_GET_INSTANCE_FROM_BUF(bp)					\
121 	(getminor((bp)->b_edev) >> SDUNIT_SHIFT)
122 
123 
124 
125 struct ocinfo {
126 	/*
127 	 * Types BLK, MNT, CHR, SWP,
128 	 * assumed to be types 0-3.
129 	 */
130 	uint64_t  lyr_open[NSDMAP];
131 	uint64_t  reg_open[OTYPCNT - 1];
132 };
133 
134 #define	OCSIZE  sizeof (struct ocinfo)
135 
136 union ocmap {
137 	uchar_t chkd[OCSIZE];
138 	struct ocinfo rinfo;
139 };
140 
141 #define	lyropen rinfo.lyr_open
142 #define	regopen rinfo.reg_open
143 
144 
145 #define	SD_CDB_GROUP0		0
146 #define	SD_CDB_GROUP1		1
147 #define	SD_CDB_GROUP5		2
148 #define	SD_CDB_GROUP4		3
149 
150 struct sd_cdbinfo {
151 	uchar_t	 sc_grpcode;	/* CDB group code */
152 	uchar_t  sc_grpmask;	/* CDB group code mask (for cmd opcode) */
153 	uint64_t sc_maxlba;	/* Maximum logical block addr. supported */
154 	uint32_t sc_maxlen;	/* Maximum transfer length supported */
155 };
156 
157 
158 
159 /*
160  * The following declaration are for Non-512 byte block support for the
161  * removable devices. (ex - DVD RAM, MO).
162  * wm_state: This is an enumeration for the different states for
163  * manipalating write range list during the read-modify-write-operation.
164  */
165 typedef enum {
166 	SD_WM_CHK_LIST,		/* Check list for overlapping writes */
167 	SD_WM_WAIT_MAP,		/* Wait for an overlapping I/O to complete */
168 	SD_WM_LOCK_RANGE,	/* Lock the range of lba to be written */
169 	SD_WM_DONE		/* I/O complete */
170 } wm_state;
171 
172 /*
173  * sd_w_map: Every write I/O will get one w_map allocated for it which will tell
174  * the range on the media which is being written for that request.
175  */
176 struct sd_w_map {
177 	uint_t		wm_start;	/* Write start location */
178 	uint_t		wm_end;		/* Write end location */
179 	ushort_t	wm_flags;	/* State of the wmap */
180 	ushort_t	wm_wanted_count; /* # of threads waiting for region */
181 	void		*wm_private;	/* Used to store bp->b_private */
182 	struct buf	*wm_bufp;	/* to store buf pointer */
183 	struct sd_w_map	*wm_next;	/* Forward pointed to sd_w_map */
184 	struct sd_w_map	*wm_prev;	/* Back pointer to sd_w_map */
185 	kcondvar_t	wm_avail;	/* Sleep on this, while not available */
186 };
187 
188 _NOTE(MUTEX_PROTECTS_DATA(scsi_device::sd_mutex, sd_w_map::wm_flags))
189 
190 
191 /*
192  * This is the struct for the layer-private data area for the
193  * mapblocksize layer.
194  */
195 
196 struct sd_mapblocksize_info {
197 	void		*mbs_oprivate;	/* saved value of xb_private */
198 	struct buf	*mbs_orig_bp;	/* ptr to original bp */
199 	struct sd_w_map	*mbs_wmp;	/* ptr to write-map struct for RMW */
200 	ssize_t		mbs_copy_offset;
201 	int		mbs_layer_index;	/* chain index for RMW */
202 };
203 
204 _NOTE(SCHEME_PROTECTS_DATA("unshared data", sd_mapblocksize_info))
205 
206 
207 /*
208  * sd_lun: The main data structure for a scsi logical unit.
209  * Stored as the softstate structure for each device.
210  */
211 
212 struct sd_lun {
213 
214 	/* Back ptr to the SCSA scsi_device struct for this LUN */
215 	struct scsi_device	*un_sd;
216 
217 	/*
218 	 * Support for Auto-Request sense capability
219 	 */
220 	struct buf	*un_rqs_bp;	/* ptr to request sense bp */
221 	struct scsi_pkt	*un_rqs_pktp;	/* ptr to request sense scsi_pkt */
222 	int	un_sense_isbusy;	/* Busy flag for RQS buf */
223 
224 	/*
225 	 * These specify the layering chains to use with this instance. These
226 	 * are initialized according to the values in the sd_chain_index_map[]
227 	 * array. See the description of sd_chain_index_map[] for details.
228 	 */
229 	int un_buf_chain_type;
230 	int un_uscsi_chain_type;
231 	int un_direct_chain_type;
232 	int un_priority_chain_type;
233 
234 	/* Head & tail ptrs to the queue of bufs awaiting transport */
235 	struct buf	*un_waitq_headp;
236 	struct buf	*un_waitq_tailp;
237 
238 	/* Ptr to the buf currently being retried (NULL if none) */
239 	struct buf	*un_retry_bp;
240 
241 	/* This tracks the last kstat update for the un_retry_bp buf */
242 	void		(*un_retry_statp)(kstat_io_t *);
243 
244 	void		*un_xbuf_attr;	/* xbuf attribute struct */
245 
246 
247 	/* System logical block size, in bytes. (defaults to DEV_BSIZE.) */
248 	uint32_t	un_sys_blocksize;
249 
250 	/* The size of a logical block on the target, in bytes. */
251 	uint32_t	un_tgt_blocksize;
252 
253 	/*
254 	 * The number of logical blocks on the target. This is adjusted
255 	 * to be in terms of the block size specified by un_sys_blocksize
256 	 * (ie, the system block size).
257 	 */
258 	uint64_t	un_blockcount;
259 
260 	/*
261 	 * Various configuration data
262 	 */
263 	uchar_t	un_ctype;		/* Controller type */
264 	char 	*un_node_type;		/* minor node type */
265 	uchar_t	un_interconnect_type;	/* Interconnect for underlying HBA */
266 
267 	uint_t	un_notready_retry_count; /* Per disk notready retry count */
268 	uint_t	un_busy_retry_count;	/* Per disk BUSY retry count */
269 
270 	uint_t	un_retry_count;		/* Per disk retry count */
271 	uint_t	un_victim_retry_count;	/* Per disk victim retry count */
272 
273 	/* (4356701, 4367306) */
274 	uint_t	un_reset_retry_count; /* max io retries before issuing reset */
275 	ushort_t un_reserve_release_time; /* reservation release timeout */
276 
277 	uchar_t	un_reservation_type;	/* SCSI-3 or SCSI-2 */
278 	uint_t	un_max_xfer_size;	/* Maximum DMA transfer size */
279 
280 	int	un_mincdb;		/* Smallest CDB to use */
281 	int	un_maxcdb;		/* Largest CDB to use */
282 	int	un_max_hba_cdb;		/* Largest CDB supported by HBA */
283 	int	un_status_len;
284 	int	un_pkt_flags;
285 
286 	/*
287 	 * Note: un_uscsi_timeout is a "mirror" of un_cmd_timeout, adjusted
288 	 * for ISCD().  Any updates to un_cmd_timeout MUST be reflected
289 	 * in un_uscsi_timeout as well!
290 	 */
291 	ushort_t un_cmd_timeout;	/* Timeout for completion */
292 	ushort_t un_uscsi_timeout;	/* Timeout for USCSI completion */
293 
294 	/*
295 	 * Info on current states, statuses, etc. (Updated frequently)
296 	 */
297 	uchar_t	un_state;		/* current state */
298 	uchar_t	un_last_state;		/* last state */
299 	uchar_t	un_last_pkt_reason;	/* used to suppress multiple msgs */
300 	int	un_tagflags;		/* Pkt Flags for Tagged Queueing  */
301 	short	un_resvd_status;	/* Reservation Status */
302 	ulong_t	un_detach_count;	/* !0 if executing detach routine */
303 	ulong_t	un_layer_count;		/* Current total # of layered opens */
304 	ulong_t un_opens_in_progress;	/* Current # of threads in sdopen */
305 
306 	ksema_t	un_semoclose;		/* serialize opens/closes */
307 
308 	/*
309 	 * Control & status info for command throttling
310 	 */
311 	long	un_ncmds_in_driver;	/* number of cmds in driver */
312 	short	un_ncmds_in_transport;	/* number of cmds in transport */
313 	short	un_throttle;		/* max #cmds allowed in transport */
314 	short	un_saved_throttle;	/* saved value of un_throttle */
315 	short	un_busy_throttle;	/* saved un_throttle for BUSY */
316 	short	un_min_throttle;	/* min value of un_throttle */
317 	timeout_id_t	un_reset_throttle_timeid; /* timeout(9F) handle */
318 
319 	/*
320 	 * Multi-host (clustering) support
321 	 */
322 	opaque_t	un_mhd_token;		/* scsi watch request */
323 	timeout_id_t	un_resvd_timeid;	/* for resvd recover */
324 
325 	/* Event callback resources (photon) */
326 	ddi_eventcookie_t un_insert_event;	/* insert event */
327 	ddi_callback_id_t un_insert_cb_id;	/* insert callback */
328 	ddi_eventcookie_t un_remove_event;	/* remove event */
329 	ddi_callback_id_t un_remove_cb_id;	/* remove callback */
330 
331 	uint_t		un_start_stop_cycle_page;	/* Saves start/stop */
332 							/* cycle page */
333 	timeout_id_t	un_dcvb_timeid;		/* dlyd cv broadcast */
334 
335 	/*
336 	 * Data structures for open counts, partition info, VTOC,
337 	 * stats, and other such bookkeeping info.
338 	 */
339 	union	ocmap	un_ocmap;		/* open partition map */
340 	struct	kstat	*un_pstats[NSDMAP];	/* partition statistics */
341 	struct	kstat	*un_stats;		/* disk statistics */
342 	kstat_t		*un_errstats;		/* for error statistics */
343 	uint64_t	un_exclopen;		/* exclusive open bitmask */
344 	ddi_devid_t	un_devid;		/* device id */
345 	uint_t		un_vpd_page_mask;	/* Supported VPD pages */
346 
347 	/*
348 	 * Bit fields for various configuration/state/status info.
349 	 * Comments indicate the condition if the value of the
350 	 * variable is TRUE (nonzero).
351 	 */
352 	uint32_t
353 	    un_f_arq_enabled		:1,	/* Auto request sense is */
354 						/* currently enabled */
355 	    un_f_blockcount_is_valid	:1,	/* The un_blockcount */
356 						/* value is currently valid */
357 	    un_f_tgt_blocksize_is_valid	:1,	/* The un_tgt_blocksize */
358 						/* value is currently valid */
359 	    un_f_allow_bus_device_reset	:1,	/* Driver may issue a BDR as */
360 						/* a part of error recovery. */
361 	    un_f_is_fibre		:1,	/* The device supports fibre */
362 						/* channel */
363 	    un_f_sync_cache_supported	:1,	/* sync cache cmd supported */
364 						/* supported */
365 	    un_f_format_in_progress	:1,	/* The device is currently */
366 						/* executing a FORMAT cmd. */
367 	    un_f_opt_queueing		:1,	/* Enable Command Queuing to */
368 						/* Host Adapter */
369 	    un_f_opt_fab_devid		:1,	/* Disk has no valid/unique */
370 						/* serial number.  */
371 	    un_f_opt_disable_cache	:1,	/* Read/Write disk cache is */
372 						/* disabled.  */
373 	    un_f_cfg_is_atapi		:1,	/* This is an ATAPI device.  */
374 	    un_f_write_cache_enabled	:1,	/* device return success on */
375 						/* writes before transfer to */
376 						/* physical media complete */
377 	    un_f_cfg_playmsf_bcd	:1,	/* Play Audio, BCD params. */
378 	    un_f_cfg_readsub_bcd	:1,	/* READ SUBCHANNEL BCD resp. */
379 	    un_f_cfg_read_toc_trk_bcd	:1,	/* track # is BCD */
380 	    un_f_cfg_read_toc_addr_bcd	:1,	/* address is BCD */
381 	    un_f_cfg_no_read_header	:1,	/* READ HEADER not supported */
382 	    un_f_cfg_read_cd_xd4	:1,	/* READ CD opcode is 0xd4 */
383 	    un_f_mmc_cap		:1,	/* Device is MMC compliant */
384 	    un_f_mmc_writable_media	:1,	/* writable media in device */
385 	    un_f_dvdram_writable_device	:1,	/* DVDRAM device is writable */
386 	    un_f_cfg_cdda		:1,	/* READ CDDA supported */
387 	    un_f_cfg_tur_check		:1,	/* verify un_ncmds before tur */
388 
389 	    un_f_use_adaptive_throttle	:1,	/* enable/disable adaptive */
390 						/* throttling */
391 	    un_f_pm_is_enabled		:1,	/* PM is enabled on this */
392 						/* instance */
393 	    un_f_watcht_stopped		:1,	/* media watch thread flag */
394 	    un_f_pkstats_enabled	:1,	/* Flag to determine if */
395 						/* partition kstats are */
396 						/* enabled. */
397 	    un_f_disksort_disabled	:1,	/* Flag to disable disksort */
398 	    un_f_lun_reset_enabled	:1,	/* Set if target supports */
399 						/* SCSI Logical Unit Reset */
400 	    un_f_doorlock_supported	:1,	/* Device supports Doorlock */
401 	    un_f_start_stop_supported	:1,	/* device has motor */
402 	    un_f_reserved1		:1;
403 
404 	uint32_t
405 	    un_f_mboot_supported	:1,	/* mboot supported */
406 	    un_f_is_hotpluggable	:1,	/* hotpluggable */
407 	    un_f_has_removable_media	:1,	/* has removable media */
408 	    un_f_non_devbsize_supported	:1,	/* non-512 blocksize */
409 	    un_f_devid_supported	:1,	/* device ID supported */
410 	    un_f_eject_media_supported	:1,	/* media can be ejected */
411 	    un_f_chk_wp_open		:1,	/* check if write-protected */
412 						/* when being opened */
413 	    un_f_descr_format_supported	:1,	/* support descriptor format */
414 						/* for sense data */
415 	    un_f_check_start_stop	:1,	/* needs to check if */
416 						/* START-STOP command is */
417 						/* supported by hardware */
418 						/* before issuing it */
419 	    un_f_monitor_media_state	:1,	/* need a watch thread to */
420 						/* monitor device state */
421 	    un_f_attach_spinup		:1,	/* spin up once the */
422 						/* device is attached */
423 	    un_f_log_sense_supported	:1,	/* support log sense */
424 	    un_f_pm_supported		:1, 	/* support power-management */
425 	    un_f_cfg_is_lsi		:1,	/* Is LSI device, */
426 						/* default to NO */
427 	    un_f_wcc_inprog		:1,	/* write cache change in */
428 						/* progress */
429 	    un_f_ejecting		:1,	/* media is ejecting */
430 	    un_f_reserved		:16;
431 
432 	/* Ptr to table of strings for ASC/ASCQ error message printing */
433 	struct scsi_asq_key_strings	*un_additional_codes;
434 
435 	/*
436 	 * Power Management support.
437 	 *
438 	 * un_pm_mutex protects, un_pm_count, un_pm_timeid, un_pm_busy,
439 	 * un_pm_busy_cv, and un_pm_idle_timeid.
440 	 * It's not required that SD_MUTEX be acquired before acquiring
441 	 * un_pm_mutex, however if they must both be held
442 	 * then acquire SD_MUTEX first.
443 	 *
444 	 * un_pm_count is used to indicate PM state as follows:
445 	 *	less than 0 the device is powered down,
446 	 *	transition from 0 ==> 1, mark the device as busy via DDI
447 	 *	transition from 1 ==> 0, mark the device as idle via DDI
448 	 */
449 	kmutex_t	un_pm_mutex;
450 	int		un_pm_count;		/* indicates pm state */
451 	timeout_id_t	un_pm_timeid;		/* timeout id for pm */
452 	uint_t		un_pm_busy;
453 	kcondvar_t	un_pm_busy_cv;
454 	short		un_power_level;		/* Power Level */
455 	uchar_t		un_save_state;
456 	kcondvar_t	un_suspend_cv;		/* power management */
457 	kcondvar_t	un_disk_busy_cv;	/* wait for IO completion */
458 
459 	/* Resources used for media change callback support */
460 	kcondvar_t	un_state_cv;		/* Cond Var on mediastate */
461 	enum dkio_state un_mediastate;		/* current media state */
462 	enum dkio_state un_specified_mediastate; /* expected state */
463 	opaque_t	un_swr_token;		/* scsi_watch request token */
464 
465 	/* Non-512 byte block support */
466 	struct kmem_cache *un_wm_cache;	/* fast alloc in non-512 write case */
467 	uint_t		un_rmw_count;	/* count of read-modify-writes */
468 	struct sd_w_map	*un_wm;		/* head of sd_w_map chain */
469 
470 	/* For timeout callback to issue a START STOP UNIT command */
471 	timeout_id_t	un_startstop_timeid;
472 
473 	/* Timeout callback handle for SD_PATH_DIRECT_PRIORITY cmd restarts */
474 	timeout_id_t	un_direct_priority_timeid;
475 
476 	/* TRAN_FATAL_ERROR count. Cleared by TRAN_ACCEPT from scsi_transport */
477 	ulong_t		un_tran_fatal_count;
478 
479 	timeout_id_t	un_retry_timeid;
480 
481 	time_t		un_pm_idle_time;
482 	timeout_id_t	un_pm_idle_timeid;
483 
484 	/*
485 	 * Count to determine if a Sonoma controller is in the process of
486 	 * failing over, and how many I/O's are failed with the 05/94/01
487 	 * sense code.
488 	 */
489 	uint_t		un_sonoma_failure_count;
490 
491 	/*
492 	 * Support for failfast operation.
493 	 */
494 	struct buf	*un_failfast_bp;
495 	struct buf	*un_failfast_headp;
496 	struct buf	*un_failfast_tailp;
497 	uint32_t	un_failfast_state;
498 	/* Callback routine active counter */
499 	short		un_in_callback;
500 
501 	kcondvar_t	un_wcc_cv;	/* synchronize changes to */
502 					/* un_f_write_cache_enabled */
503 
504 #ifdef SD_FAULT_INJECTION
505 	/* SD Fault Injection */
506 #define	SD_FI_MAX_BUF 65536
507 #define	SD_FI_MAX_ERROR 1024
508 	kmutex_t			un_fi_mutex;
509 	uint_t				sd_fi_buf_len;
510 	char				sd_fi_log[SD_FI_MAX_BUF];
511 	struct sd_fi_pkt	*sd_fi_fifo_pkt[SD_FI_MAX_ERROR];
512 	struct sd_fi_xb		*sd_fi_fifo_xb[SD_FI_MAX_ERROR];
513 	struct sd_fi_un		*sd_fi_fifo_un[SD_FI_MAX_ERROR];
514 	struct sd_fi_arq	*sd_fi_fifo_arq[SD_FI_MAX_ERROR];
515 	uint_t				sd_fi_fifo_start;
516 	uint_t				sd_fi_fifo_end;
517 	uint_t				sd_injection_mask;
518 
519 #endif
520 
521 	cmlb_handle_t	un_cmlbhandle;
522 };
523 
524 #define	SD_IS_VALID_LABEL(un)  (cmlb_is_valid(un->un_cmlbhandle))
525 
526 /*
527  * Macros for conversions between "target" and "system" block sizes, and
528  * for conversion between block counts and byte counts.  As used here,
529  * "system" block size refers to the block size used by the kernel/
530  * filesystem (this includes the disk label). The "target" block size
531  * is the block size returned by the SCSI READ CAPACITY command.
532  *
533  * Note: These macros will round up to the next largest blocksize to accomodate
534  * the number of blocks specified.
535  */
536 
537 /* Convert a byte count to a number of target blocks */
538 #define	SD_BYTES2TGTBLOCKS(un, bytecount)				\
539 	((bytecount + (un->un_tgt_blocksize - 1))/un->un_tgt_blocksize)
540 
541 /* Convert a target block count to a number of bytes */
542 #define	SD_TGTBLOCKS2BYTES(un, blockcount)				\
543 	(blockcount * (un)->un_tgt_blocksize)
544 
545 /* Convert a byte count to a number of system blocks */
546 #define	SD_BYTES2SYSBLOCKS(un, bytecount)				\
547 	((bytecount + (un->un_sys_blocksize - 1))/un->un_sys_blocksize)
548 
549 /* Convert a system block count to a number of bytes */
550 #define	SD_SYSBLOCKS2BYTES(un, blockcount)				\
551 	(blockcount * (un)->un_sys_blocksize)
552 
553 /*
554  * Calculate the number of bytes needed to hold the requested number of bytes
555  * based upon the native target sector/block size
556  */
557 #define	SD_REQBYTES2TGTBYTES(un, bytecount)				\
558 	(SD_BYTES2TGTBLOCKS(un, bytecount) * (un)->un_tgt_blocksize)
559 
560 /*
561  * Calculate the byte offset from the beginning of the target block
562  * to the system block location.
563  */
564 #define	SD_TGTBYTEOFFSET(un, sysblk, tgtblk)				\
565 	(SD_SYSBLOCKS2BYTES(un, sysblk) - SD_TGTBLOCKS2BYTES(un, tgtblk))
566 
567 /*
568  * Calculate the target block location from the system block location
569  */
570 #define	SD_SYS2TGTBLOCK(un, blockcnt)					\
571 	((blockcnt * un->un_sys_blocksize) / un->un_tgt_blocksize)
572 
573 /*
574  * SD_DEFAULT_MAX_XFER_SIZE is the default value to bound the max xfer
575  * for physio, for devices without tagged queuing enabled.
576  * The default for devices with tagged queuing enabled is SD_MAX_XFER_SIZE
577  */
578 #if defined(__i386) || defined(__amd64)
579 #define	SD_DEFAULT_MAX_XFER_SIZE	(256 * 1024)
580 #endif
581 #define	SD_MAX_XFER_SIZE		(1024 * 1024)
582 
583 /*
584  * Warlock annotations
585  */
586 _NOTE(MUTEX_PROTECTS_DATA(scsi_device::sd_mutex, sd_lun))
587 _NOTE(READ_ONLY_DATA(sd_lun::un_sd))
588 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_reservation_type))
589 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_mincdb))
590 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_maxcdb))
591 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_max_hba_cdb))
592 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_status_len))
593 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_f_arq_enabled))
594 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_ctype))
595 _NOTE(DATA_READABLE_WITHOUT_LOCK(sd_lun::un_cmlbhandle))
596 
597 
598 _NOTE(SCHEME_PROTECTS_DATA("safe sharing",
599 	sd_lun::un_mhd_token
600 	sd_lun::un_state
601 	sd_lun::un_tagflags
602 	sd_lun::un_f_format_in_progress
603 	sd_lun::un_resvd_timeid
604 	sd_lun::un_reset_throttle_timeid
605 	sd_lun::un_startstop_timeid
606 	sd_lun::un_dcvb_timeid
607 	sd_lun::un_f_allow_bus_device_reset
608 	sd_lun::un_sys_blocksize
609 	sd_lun::un_tgt_blocksize))
610 
611 _NOTE(SCHEME_PROTECTS_DATA("stable data",
612 	sd_lun::un_reserve_release_time
613 	sd_lun::un_max_xfer_size
614 	sd_lun::un_f_is_fibre
615 	sd_lun::un_node_type
616 	sd_lun::un_buf_chain_type
617 	sd_lun::un_uscsi_chain_type
618 	sd_lun::un_direct_chain_type
619 	sd_lun::un_priority_chain_type
620 	sd_lun::un_xbuf_attr))
621 
622 _NOTE(SCHEME_PROTECTS_DATA("Unshared data",
623 	block_descriptor
624 	buf
625 	cdrom_subchnl
626 	cdrom_tocentry
627 	cdrom_tochdr
628 	cdrom_read
629 	dk_cinfo
630 	dk_devid
631 	dk_label
632 	dk_map
633 	dk_temperature
634 	mhioc_inkeys
635 	mhioc_inresvs
636 	mode_caching
637 	mode_header
638 	mode_speed
639 	scsi_cdb
640 	scsi_arq_status
641 	scsi_extended_sense
642 	scsi_inquiry
643 	scsi_pkt
644 	uio
645 	uscsi_cmd))
646 
647 
648 _NOTE(SCHEME_PROTECTS_DATA("stable data", scsi_device dk_cinfo))
649 _NOTE(SCHEME_PROTECTS_DATA("unique per pkt", scsi_status scsi_cdb))
650 
651 _NOTE(MUTEX_PROTECTS_DATA(sd_lun::un_pm_mutex, sd_lun::un_pm_count
652 	sd_lun::un_pm_timeid sd_lun::un_pm_busy sd_lun::un_pm_busy_cv
653 	sd_lun::un_pm_idle_timeid))
654 
655 #ifdef SD_FAULT_INJECTION
656 _NOTE(MUTEX_PROTECTS_DATA(sd_lun::un_fi_mutex,
657 	sd_lun::sd_fi_buf_len sd_lun::sd_fi_log))
658 #endif
659 
660 /* _NOTE(LOCK_ORDER(sd_lun::un_sd.sd_mutex sd_lun::un_pm_mutex)) */
661 
662 
663 
664 /*
665  * Referenced for frequently-accessed members of the unit structure
666  */
667 #define	SD_SCSI_DEVP(un)	((un)->un_sd)
668 #define	SD_DEVINFO(un)		((un)->un_sd->sd_dev)
669 #define	SD_INQUIRY(un)		((un)->un_sd->sd_inq)
670 #define	SD_MUTEX(un)		(&((un)->un_sd->sd_mutex))
671 #define	SD_ADDRESS(un)		(&((un)->un_sd->sd_address))
672 #define	SD_GET_DEV(un)		(sd_make_device(SD_DEVINFO(un)))
673 
674 
675 /*
676  * Values for un_ctype
677  */
678 #define	CTYPE_CDROM		0
679 #define	CTYPE_MD21		1	/* Obsolete! */
680 #define	CTYPE_CCS		2
681 #define	CTYPE_ROD		3
682 #define	CTYPE_PXRE		4	/* Obsolete! */
683 
684 #define	ISCD(un)		((un)->un_ctype == CTYPE_CDROM)
685 #define	ISROD(un)		((un)->un_ctype == CTYPE_ROD)
686 #define	ISPXRE(un)		((un)->un_ctype == CTYPE_PXRE)
687 
688 /*
689  * This macro checks the vendor of the device to see if it is LSI. Because
690  * LSI has some devices out there that return 'Symbios' or 'SYMBIOS', we
691  * need to check for those also.
692  *
693  * This is used in some vendor specific checks.
694  */
695 #define	SD_IS_LSI(un)	((un)->un_f_cfg_is_lsi == TRUE)
696 
697 /*
698  * Macros to check if the lun is a Sun T3 or a T4
699  */
700 #define	SD_IS_T3(un) \
701 	((bcmp(SD_INQUIRY(un)->inq_vid, "SUN", 3) == 0) && \
702 	(bcmp(SD_INQUIRY(un)->inq_pid, "T3", 2) == 0))
703 
704 #define	SD_IS_T4(un) \
705 	((bcmp(SD_INQUIRY(un)->inq_vid, "SUN", 3) == 0) && \
706 	(bcmp(SD_INQUIRY(un)->inq_pid, "T4", 2) == 0))
707 
708 /*
709  * Macros for non-512 byte writes to removable devices.
710  */
711 #define	NOT_DEVBSIZE(un)	\
712 	((un)->un_tgt_blocksize != (un)->un_sys_blocksize)
713 
714 /*
715  * Check that a write map, used for locking lba ranges for writes, is in
716  * the linked list.
717  */
718 #define	ONLIST(un, wmp)		\
719 	(((un)->un_wm == (wmp)) || ((wmp)->wm_prev != NULL))
720 
721 /*
722  * Free a write map which is on list. Basically make sure that nobody is
723  * sleeping on it before freeing it.
724  */
725 #define	FREE_ONLIST_WMAP(un, wmp)				\
726 	if (!(wmp)->wm_wanted_count) {				\
727 		sd_free_inlist_wmap((un), (wmp));		\
728 		(wmp) = NULL;					\
729 	}
730 
731 #define	CHK_N_FREEWMP(un, wmp)					\
732 	if (!ONLIST((un), (wmp))) {				\
733 		kmem_cache_free((un)->un_wm_cache, (wmp));	\
734 		(wmp) = NULL;					\
735 	} else {						\
736 		FREE_ONLIST_WMAP((un), (wmp));			\
737 	}
738 
739 /*
740  * Values used to in wm_flags field of sd_w_map.
741  */
742 #define	SD_WTYPE_SIMPLE	0x001	/* Write aligned at blksize boundary */
743 #define	SD_WTYPE_RMW	0x002	/* Write requires read-modify-write */
744 #define	SD_WM_BUSY		0x100	/* write-map is busy */
745 
746 
747 /* Device error kstats */
748 struct sd_errstats {
749 	struct kstat_named	sd_softerrs;
750 	struct kstat_named	sd_harderrs;
751 	struct kstat_named	sd_transerrs;
752 	struct kstat_named	sd_vid;
753 	struct kstat_named	sd_pid;
754 	struct kstat_named	sd_revision;
755 	struct kstat_named	sd_serial;
756 	struct kstat_named	sd_capacity;
757 	struct kstat_named	sd_rq_media_err;
758 	struct kstat_named	sd_rq_ntrdy_err;
759 	struct kstat_named	sd_rq_nodev_err;
760 	struct kstat_named	sd_rq_recov_err;
761 	struct kstat_named	sd_rq_illrq_err;
762 	struct kstat_named	sd_rq_pfa_err;
763 };
764 
765 
766 /*
767  * Structs and definitions for SCSI-3 Persistent Reservation
768  */
769 typedef struct sd_prin_readkeys {
770 	uint32_t	generation;
771 	uint32_t	len;
772 	mhioc_resv_key_t *keylist;
773 } sd_prin_readkeys_t;
774 
775 typedef struct sd_readresv_desc {
776 	mhioc_resv_key_t	resvkey;
777 	uint32_t		scope_specific_addr;
778 	uint8_t			reserved_1;
779 #if defined(_BIT_FIELDS_LTOH)
780 	uint8_t			type:4,
781 				scope:4;
782 #elif defined(_BIT_FIELDS_HTOL)
783 	uint8_t			scope:4,
784 				type:4;
785 #else
786 #error	One of _BIT_FIELDS_LTOH or _BIT_FIELDS_HTOL must be defined
787 #endif	/* _BIT_FIELDS_LTOH */
788 	uint8_t			reserved_2;
789 	uint8_t			reserved_3;
790 } sd_readresv_desc_t;
791 
792 typedef struct sd_prin_readresv {
793 	uint32_t		generation;
794 	uint32_t		len;
795 	sd_readresv_desc_t	*readresv_desc;
796 } sd_prin_readresv_t;
797 
798 typedef struct sd_prout {
799 	uchar_t		res_key[MHIOC_RESV_KEY_SIZE];
800 	uchar_t		service_key[MHIOC_RESV_KEY_SIZE];
801 	uint32_t	scope_address;
802 #if defined(_BIT_FIELDS_LTOH)
803 	uchar_t		aptpl:1,
804 			reserved:7;
805 #elif defined(_BIT_FIELDS_HTOL)
806 	uchar_t		reserved:7,
807 			aptpl:1;
808 #else
809 #error	One of _BIT_FIELDS_LTOH or _BIT_FIELDS_HTOL must be defined
810 #endif	/* _BIT_FIELDS_LTOH */
811 	uchar_t		reserved_1;
812 	uint16_t	ext_len;
813 } sd_prout_t;
814 
815 #define	SD_READ_KEYS			0x00
816 #define	SD_READ_RESV			0x01
817 
818 #define	SD_SCSI3_REGISTER		0x00
819 #define	SD_SCSI3_RESERVE		0x01
820 #define	SD_SCSI3_RELEASE		0x02
821 #define	SD_SCSI3_PREEMPTANDABORT	0x05
822 #define	SD_SCSI3_REGISTERANDIGNOREKEY	0x06
823 
824 /*
825  * Note: The default init of un_reservation_type is to the value of '0'
826  * (from the ddi_softs_state_zalloc) which means it is defaulting to SCSI-3
827  * reservation type. This is ok because during attach we use a SCSI-3
828  * PRIORITY RESERVE IN command to determine the reservation type, and set
829  * un_reservation_type for all cases.
830  */
831 #define	SD_SCSI3_RESERVATION		0x0
832 #define	SD_SCSI2_RESERVATION		0x1
833 #define	SCSI3_RESV_DESC_LEN		16
834 
835 /*
836  * Reservation Status's
837  */
838 #define	SD_RELEASE			0x0000
839 #define	SD_RESERVE			0x0001
840 #define	SD_TKOWN			0x0002
841 #define	SD_LOST_RESERVE			0x0004
842 #define	SD_FAILFAST			0x0080
843 #define	SD_WANT_RESERVE			0x0100
844 #define	SD_RESERVATION_CONFLICT		0x0200
845 #define	SD_PRIORITY_RESERVE		0x0400
846 
847 #define	SD_TARGET_IS_UNRESERVED		0
848 #define	SD_TARGET_IS_RESERVED		1
849 
850 /*
851  * Save page in mode_select
852  */
853 #define	SD_DONTSAVE_PAGE		0
854 #define	SD_SAVE_PAGE			1
855 
856 /*
857  * Delay before reclaiming reservation is 6 seconds, in units of micro seconds
858  */
859 #define	SD_REINSTATE_RESV_DELAY		6000000
860 
861 #define	SD_MODE2_BLKSIZE		2336	/* bytes */
862 
863 /*
864  * Resource type definitions for multi host control operations. Specifically,
865  * queue and request definitions for reservation request handling between the
866  * scsi facility callback function (sd_mhd_watch_cb) and the reservation
867  * reclaim thread (sd_resv_reclaim_thread)
868  */
869 struct sd_thr_request {
870 	dev_t	dev;
871 	struct	sd_thr_request	*sd_thr_req_next;
872 };
873 
874 struct sd_resv_reclaim_request {
875 	kthread_t		*srq_resv_reclaim_thread;
876 	struct	sd_thr_request	*srq_thr_req_head;
877 	struct	sd_thr_request	*srq_thr_cur_req;
878 	kcondvar_t		srq_inprocess_cv;
879 	kmutex_t		srq_resv_reclaim_mutex;
880 	kcondvar_t		srq_resv_reclaim_cv;
881 };
882 
883 _NOTE(MUTEX_PROTECTS_DATA(sd_resv_reclaim_request::srq_resv_reclaim_mutex,
884     sd_resv_reclaim_request))
885 _NOTE(SCHEME_PROTECTS_DATA("unshared data", sd_thr_request))
886 _NOTE(SCHEME_PROTECTS_DATA("Unshared data", sd_prout))
887 
888 
889 
890 /*
891  * Driver Logging Components
892  *
893  * These components cover the functional entry points and areas of the
894  * driver.  A component value is used for the entry point and utility
895  * functions used by the entry point. The common component value is used
896  * in those routines that are called from many areas of the driver.
897  *
898  * This can be done by adding the following two lines to /etc/system:
899  * set sd:sd_component_mask=0x00080000
900  * set sd:sd_level_mask=0x00000008
901  */
902 #define	SD_LOG_PROBE			0x00000001
903 #define	SD_LOG_ATTACH_DETACH		0x00000002
904 #define	SD_LOG_OPEN_CLOSE		0x00000004
905 #define	SD_LOG_READ_WRITE		0x00000008
906 #define	SD_LOG_POWER			0x00000010
907 #define	SD_LOG_IOCTL			0x00000020
908 #define	SD_LOG_IOCTL_MHD		0x00000040
909 #define	SD_LOG_IOCTL_RMMEDIA		0x00000080
910 #define	SD_LOG_IOCTL_DKIO		0x00000100
911 #define	SD_LOG_IO			0x00000200
912 #define	SD_LOG_IO_CORE			0x00000400
913 #define	SD_LOG_IO_DISKSORT		0x00000800
914 #define	SD_LOG_IO_PARTITION		0x00001000
915 #define	SD_LOG_IO_RMMEDIA		0x00002000
916 #define	SD_LOG_IO_CHKSUM		0x00004000
917 #define	SD_LOG_IO_SDIOCTL		0x00008000
918 #define	SD_LOG_IO_PM			0x00010000
919 #define	SD_LOG_ERROR			0x00020000
920 #define	SD_LOG_DUMP			0x00040000
921 #define	SD_LOG_COMMON			0x00080000
922 #define	SD_LOG_SDTEST			0x00100000
923 #define	SD_LOG_IOERR			0x00200000
924 #define	SD_LOG_IO_FAILFAST		0x00400000
925 
926 /* Driver Logging Levels */
927 #define	SD_LOGMASK_ERROR		0x00000001
928 #define	SD_LOGMASK_DUMP_MEM		0x00000002
929 #define	SD_LOGMASK_INFO			0x00000004
930 #define	SD_LOGMASK_TRACE		0x00000008
931 #define	SD_LOGMASK_DIAG			0x00000010
932 
933 /* Driver Logging Formats */
934 #define	SD_LOG_HEX			0x00000001
935 #define	SD_LOG_CHAR			0x00000002
936 
937 /*
938  * The following macros should be used to log driver debug information
939  * only. The output is filtered according to the component and level mask
940  * values. Non-debug information, such as driver warnings intended for
941  * the user should be logged via the scsi_log facility to ensure that
942  * they are not filtered.
943  */
944 #if DEBUG || lint
945 #define	SDDEBUG
946 
947 /* SD_ERROR is called to log driver error conditions */
948 #define	SD_ERROR	sd_log_err
949 
950 /* SD_TRACE is called to log driver trace conditions (function entry/exit) */
951 #define	SD_TRACE	sd_log_trace
952 
953 /* SD_INFO is called to log general purpose driver info */
954 #define	SD_INFO		sd_log_info
955 
956 /* SD_DUMP_MEMORY is called to dump a data buffer to the log */
957 #define	SD_DUMP_MEMORY	sd_dump_memory
958 
959 /* RESET/ABORTS testing ioctls */
960 #define	DKIOCRESET	(DKIOC|14)
961 #define	DKIOCABORT	(DKIOC|15)
962 
963 #ifdef SD_FAULT_INJECTION
964 /*
965  * sd_fi_pkt replicates the variables that are exposed through pkt
966  *
967  * sd_fi_xb replicates the variables that are exposed through xb
968  *
969  * sd_fi_un replicates the variables that are exposed through un
970  *
971  * sd_fi_arq replicates the variables that are
972  *           exposed for Auto-Reqeust-Sense
973  *
974  */
975 struct sd_fi_pkt {
976 	uint_t  pkt_flags;			/* flags */
977 	uchar_t pkt_scbp;			/* pointer to status block */
978 	uchar_t pkt_cdbp;			/* pointer to command block */
979 	uint_t  pkt_state;			/* state of command */
980 	uint_t  pkt_statistics;		/* statistics */
981 	uchar_t pkt_reason;			/* reason completion called */
982 };
983 
984 struct sd_fi_xb {
985 	daddr_t xb_blkno;
986 	ssize_t xb_dma_resid;
987 	short	xb_retry_count;
988 	short	xb_victim_retry_count;
989 	uchar_t xb_sense_status;
990 	uint_t  xb_sense_state;
991 	ssize_t xb_sense_resid;
992 	uchar_t xb_sense_data[SENSE_LENGTH];
993 	uchar_t es_code;
994 	uchar_t es_key;
995 	uchar_t es_add_code;
996 	uchar_t es_qual_code;
997 };
998 
999 struct sd_fi_un {
1000 	uchar_t inq_rmb;
1001 	uchar_t un_ctype;
1002 	uint_t  un_notready_retry_count;
1003 	uint_t  un_reset_retry_count;
1004 	uchar_t un_reservation_type;
1005 	ushort_t un_notrdy_delay;
1006 	short   un_resvd_status;
1007 	uint32_t
1008 		un_f_arq_enabled,
1009 		un_f_allow_bus_device_reset,
1010 		un_f_opt_queueing;
1011 	timeout_id_t    un_restart_timeid;
1012 };
1013 
1014 struct sd_fi_arq {
1015 	struct scsi_status	sts_status;
1016 	struct scsi_status	sts_rqpkt_status;
1017 	uchar_t				sts_rqpkt_reason;
1018 	uchar_t				sts_rqpkt_resid;
1019 	uint_t				sts_rqpkt_state;
1020 	uint_t				sts_rqpkt_statistics;
1021 	struct scsi_extended_sense	sts_sensedata;
1022 };
1023 
1024 /* Conditional set def */
1025 #define	SD_CONDSET(a, b, c, d) 					\
1026 	if ((((fi_ ## b)->c) != 0xFF) && 			\
1027 		(((fi_ ## b)->c) != 0xFFFF) &&		\
1028 		(((fi_ ## b)->c) != 0xFFFFFFFF)) {	\
1029 			a->c = ((fi_ ## b)->c); 		\
1030 			SD_INFO(SD_LOG_IOERR, un,			\
1031 					"sd_fault_injection:"		\
1032 					"setting %s to %d\n", 		\
1033 					d, ((fi_ ## b)->c)); }
1034 
1035 /* SD FaultInjection ioctls */
1036 #define	SDIOC			('T'<<8)
1037 #define	SDIOCSTART		(SDIOC|1)
1038 #define	SDIOCSTOP		(SDIOC|2)
1039 #define	SDIOCINSERTPKT	(SDIOC|3)
1040 #define	SDIOCINSERTXB	(SDIOC|4)
1041 #define	SDIOCINSERTUN	(SDIOC|5)
1042 #define	SDIOCINSERTARQ	(SDIOC|6)
1043 #define	SDIOCPUSH		(SDIOC|7)
1044 #define	SDIOCRETRIEVE	(SDIOC|8)
1045 #define	SDIOCRUN		(SDIOC|9)
1046 #endif
1047 
1048 #else
1049 
1050 #undef	SDDEBUG
1051 #define	SD_ERROR	{ if (0) sd_log_err; }
1052 #define	SD_TRACE	{ if (0) sd_log_trace; }
1053 #define	SD_INFO		{ if (0) sd_log_info; }
1054 #define	SD_DUMP_MEMORY	{ if (0) sd_dump_memory; }
1055 #endif
1056 
1057 
1058 /*
1059  * Miscellaneous macros
1060  */
1061 
1062 #define	SD_USECTOHZ(x)			(drv_usectohz((x)*1000000))
1063 #define	SD_GET_PKT_STATUS(pktp)		((*(pktp)->pkt_scbp) & STATUS_MASK)
1064 
1065 #define	SD_BIOERROR(bp, errcode)					\
1066 	if ((bp)->b_resid == 0) {					\
1067 		(bp)->b_resid = (bp)->b_bcount;				\
1068 	}								\
1069 	if ((bp)->b_error == 0) {					\
1070 		bioerror(bp, errcode);					\
1071 	}								\
1072 	(bp)->b_flags |= B_ERROR;
1073 
1074 #define	SD_FILL_SCSI1_LUN_CDB(lunp, cdbp)				\
1075 	if (! (lunp)->un_f_is_fibre &&					\
1076 	    SD_INQUIRY((lunp))->inq_ansi == 0x01) {			\
1077 		int _lun = ddi_prop_get_int(DDI_DEV_T_ANY,		\
1078 		    SD_DEVINFO((lunp)), DDI_PROP_DONTPASS,		\
1079 		    SCSI_ADDR_PROP_LUN, 0);				\
1080 		if (_lun > 0) {						\
1081 			(cdbp)->scc_lun = _lun;				\
1082 		}							\
1083 	}
1084 
1085 #define	SD_FILL_SCSI1_LUN(lunp, pktp)					\
1086 	SD_FILL_SCSI1_LUN_CDB((lunp), (union scsi_cdb *)(pktp)->pkt_cdbp)
1087 
1088 /*
1089  * Disk driver states
1090  */
1091 
1092 #define	SD_STATE_NORMAL		0
1093 #define	SD_STATE_OFFLINE	1
1094 #define	SD_STATE_RWAIT		2
1095 #define	SD_STATE_DUMPING	3
1096 #define	SD_STATE_SUSPENDED	4
1097 #define	SD_STATE_PM_CHANGING	5
1098 
1099 /*
1100  * The table is to be interpreted as follows: The rows lists all the states
1101  * and each column is a state that a state in each row *can* reach. The entries
1102  * in the table list the event that cause that transition to take place.
1103  * For e.g.: To go from state RWAIT to SUSPENDED, event (d)-- which is the
1104  * invocation of DDI_SUSPEND-- has to take place. Note the same event could
1105  * cause the transition from one state to two different states. e.g., from
1106  * state SUSPENDED, when we get a DDI_RESUME, we just go back to the *last
1107  * state* whatever that might be. (NORMAL or OFFLINE).
1108  *
1109  *
1110  * State Transition Table:
1111  *
1112  *                    NORMAL  OFFLINE  RWAIT  DUMPING  SUSPENDED  PM_SUSPENDED
1113  *
1114  *   NORMAL              -      (a)      (b)     (c)      (d)       (h)
1115  *
1116  *   OFFLINE            (e)      -       (e)     (c)      (d)       NP
1117  *
1118  *   RWAIT              (f)     NP        -      (c)      (d)       (h)
1119  *
1120  *   DUMPING            NP      NP        NP      -        NP       NP
1121  *
1122  *   SUSPENDED          (g)     (g)       (b)     NP*      -        NP
1123  *
1124  *   PM_SUSPENDED       (i)     NP        (b)    (c)      (d)       -
1125  *
1126  *   NP :       Not Possible.
1127  *   (a):       Disk does not respond.
1128  *   (b):       Packet Allocation Fails
1129  *   (c):       Panic - Crash dump
1130  *   (d):       DDI_SUSPEND is called.
1131  *   (e):       Disk has a successful I/O completed.
1132  *   (f):       sdrunout() calls sdstart() which sets it NORMAL
1133  *   (g):       DDI_RESUME is called.
1134  *   (h):	Device threshold exceeded pm framework called power
1135  *		entry point or pm_lower_power called in detach.
1136  *   (i):	When new I/O come in.
1137  *    * :       When suspended, we dont change state during panic dump
1138  */
1139 
1140 
1141 #define	SD_MAX_THROTTLE		256
1142 #define	SD_MIN_THROTTLE		8
1143 /*
1144  * Lowest valid max. and min. throttle value.
1145  * This is set to 2 because if un_min_throttle were allowed to be 1 then
1146  * un_throttle would never get set to a value less than un_min_throttle
1147  * (0 is a special case) which means it would never get set back to
1148  * un_saved_throttle in routine sd_restore_throttle().
1149  */
1150 #define	SD_LOWEST_VALID_THROTTLE	2
1151 
1152 
1153 
1154 /* Return codes for sd_send_polled_cmd() and sd_scsi_poll() */
1155 #define	SD_CMD_SUCCESS			0
1156 #define	SD_CMD_FAILURE			1
1157 #define	SD_CMD_RESERVATION_CONFLICT	2
1158 #define	SD_CMD_ILLEGAL_REQUEST		3
1159 #define	SD_CMD_BECOMING_READY		4
1160 #define	SD_CMD_CHECK_CONDITION		5
1161 
1162 /* Return codes for sd_ready_and_valid */
1163 #define	SD_READY_VALID			0
1164 #define	SD_NOT_READY_VALID		1
1165 #define	SD_RESERVED_BY_OTHERS		2
1166 
1167 #define	SD_PATH_STANDARD		0
1168 #define	SD_PATH_DIRECT			1
1169 #define	SD_PATH_DIRECT_PRIORITY		2
1170 
1171 #define	SD_UNIT_ATTENTION_RETRY		40
1172 
1173 /*
1174  * The following three are bit flags passed into sd_send_scsi_TEST_UNIT_READY
1175  * to control specific behavior.
1176  */
1177 #define	SD_CHECK_FOR_MEDIA		0x01
1178 #define	SD_DONT_RETRY_TUR		0x02
1179 #define	SD_BYPASS_PM			0x04
1180 
1181 #define	SD_GROUP0_MAX_ADDRESS	(0x1fffff)
1182 #define	SD_GROUP0_MAXCOUNT	(0xff)
1183 #define	SD_GROUP1_MAX_ADDRESS	(0xffffffff)
1184 #define	SD_GROUP1_MAXCOUNT	(0xffff)
1185 
1186 #define	SD_BECOMING_ACTIVE	0x01
1187 #define	SD_REMOVAL_ALLOW	0
1188 #define	SD_REMOVAL_PREVENT	1
1189 
1190 #define	SD_GET_PKT_OPCODE(pktp)	\
1191 	(((union scsi_cdb *)((pktp)->pkt_cdbp))->cdb_un.cmd)
1192 
1193 
1194 #define	SD_NO_RETRY_ISSUED		0
1195 #define	SD_DELAYED_RETRY_ISSUED		1
1196 #define	SD_IMMEDIATE_RETRY_ISSUED	2
1197 
1198 #if defined(__i386) || defined(__amd64)
1199 #define	SD_UPDATE_B_RESID(bp, pktp)	\
1200 	((bp)->b_resid += (pktp)->pkt_resid + (SD_GET_XBUF(bp)->xb_dma_resid))
1201 #else
1202 #define	SD_UPDATE_B_RESID(bp, pktp)	\
1203 	((bp)->b_resid += (pktp)->pkt_resid)
1204 #endif
1205 
1206 
1207 #define	SD_RETRIES_MASK		0x00FF
1208 #define	SD_RETRIES_NOCHECK	0x0000
1209 #define	SD_RETRIES_STANDARD	0x0001
1210 #define	SD_RETRIES_VICTIM	0x0002
1211 #define	SD_RETRIES_BUSY		0x0003
1212 #define	SD_RETRIES_UA		0x0004
1213 #define	SD_RETRIES_ISOLATE	0x8000
1214 #define	SD_RETRIES_FAILFAST	0x4000
1215 
1216 #define	SD_UPDATE_RESERVATION_STATUS(un, pktp)				\
1217 if (((pktp)->pkt_reason == CMD_RESET) ||				\
1218 	((pktp)->pkt_statistics & (STAT_BUS_RESET | STAT_DEV_RESET))) { \
1219 	if (((un)->un_resvd_status & SD_RESERVE) == SD_RESERVE) {	\
1220 		(un)->un_resvd_status |=				\
1221 		    (SD_LOST_RESERVE | SD_WANT_RESERVE);		\
1222 	}								\
1223 }
1224 
1225 #define	SD_SENSE_DATA_IS_VALID		0
1226 #define	SD_SENSE_DATA_IS_INVALID	1
1227 
1228 /*
1229  * Delay (in seconds) before restoring the "throttle limit" back
1230  * to its maximum value.
1231  * 60 seconds is what we will wait for to reset the
1232  * throttle back to it SD_MAX_THROTTLE for TRAN_BUSY.
1233  * 10 seconds for STATUS_QFULL because QFULL will incrementally
1234  * increase the throttle limit until it reaches max value.
1235  */
1236 #define	SD_RESET_THROTTLE_TIMEOUT	60
1237 #define	SD_QFULL_THROTTLE_TIMEOUT	10
1238 
1239 #define	SD_THROTTLE_TRAN_BUSY		0
1240 #define	SD_THROTTLE_QFULL		1
1241 
1242 #define	SD_THROTTLE_RESET_INTERVAL	\
1243 	(sd_reset_throttle_timeout * drv_usectohz(1000000))
1244 
1245 #define	SD_QFULL_THROTTLE_RESET_INTERVAL	\
1246 	(sd_qfull_throttle_timeout * drv_usectohz(1000000))
1247 
1248 
1249 /*
1250  * xb_pkt_flags defines
1251  * SD_XB_USCSICMD indicates the scsi request is a uscsi request
1252  * SD_XB_DMA_FREED indicates the scsi_pkt has had its DMA resources freed
1253  * by a call to scsi_dmafree(9F). The resources must be reallocated before
1254  *   before a call to scsi_transport can be made again.
1255  * SD_XB_INITPKT_MASK: since this field is also used to store flags for
1256  *   a scsi_init_pkt(9F) call, we need a mask to make sure that we don't
1257  *   pass any unintended bits to scsi_init_pkt(9F) (ugly hack).
1258  */
1259 #define	SD_XB_USCSICMD		0x40000000
1260 #define	SD_XB_DMA_FREED		0x20000000
1261 #define	SD_XB_INITPKT_MASK	(PKT_CONSISTENT | PKT_DMA_PARTIAL)
1262 
1263 /*
1264  * Extension for the buf(9s) struct that we receive from a higher
1265  * layer. Located by b_private in the buf(9S).  (The previous contents
1266  * of b_private are saved & restored before calling biodone(9F).)
1267  */
1268 struct sd_xbuf {
1269 
1270 	struct sd_lun	*xb_un;		/* Ptr to associated sd_lun */
1271 	struct scsi_pkt	*xb_pktp;	/* Ptr to associated scsi_pkt */
1272 
1273 	/*
1274 	 * xb_pktinfo points to any optional data that may be needed
1275 	 * by the initpkt and/or destroypkt functions.  Typical
1276 	 * use might be to point to a struct uscsi_cmd.
1277 	 */
1278 	void	*xb_pktinfo;
1279 
1280 	/*
1281 	 * Layer-private data area. This may be used by any layer to store
1282 	 * layer-specific data on a per-IO basis. Typical usage is for an
1283 	 * iostart routine to save some info here for later use by its
1284 	 * partner iodone routine.  This area may be used to hold data or
1285 	 * a pointer to a data block that is allocated/freed by the layer's
1286 	 * iostart/iodone routines. Allocation & management policy for the
1287 	 * layer-private area is defined & implemented by each specific
1288 	 * layer as required.
1289 	 *
1290 	 * IMPORTANT: Since a higher layer may depend on the value in the
1291 	 * xb_private field, each layer must ensure that it returns the
1292 	 * buf/xbuf to the next higher layer (via SD_NEXT_IODONE()) with
1293 	 * the SAME VALUE in xb_private as when the buf/xbuf was first
1294 	 * received by the layer's iostart routine. Typically this is done
1295 	 * by the iostart routine saving the contents of xb_private into
1296 	 * a place in the layer-private data area, and the iodone routine
1297 	 * restoring the value of xb_private before deallocating the
1298 	 * layer-private data block and calling SD_NEXT_IODONE(). Of course,
1299 	 * if a layer never modifies xb_private in a buf/xbuf from a higher
1300 	 * layer, there will be no need to restore the value.
1301 	 *
1302 	 * Note that in the case where a layer _creates_ a buf/xbuf (such as
1303 	 * by calling sd_shadow_buf_alloc()) to pass to a lower layer, it is
1304 	 * not necessary to preserve the contents of xb_private as there is
1305 	 * no higher layer dependency on the value of xb_private. Such a
1306 	 * buf/xbuf must be deallocated by the layer that allocated it and
1307 	 * must *NEVER* be passed up to a higher layer.
1308 	 */
1309 	void	*xb_private;	/* Layer-private data block */
1310 
1311 	/*
1312 	 * We do not use the b_blkno provided in the buf(9S), as we need to
1313 	 * make adjustments to it in the driver, but it is not a field that
1314 	 * the driver owns or is free to modify.
1315 	 */
1316 	daddr_t	xb_blkno;		/* Absolute block # on target */
1317 
1318 	int	xb_chain_iostart;	/* iostart side index */
1319 	int	xb_chain_iodone;	/* iodone side index */
1320 	int	xb_pkt_flags;		/* Flags for scsi_init_pkt() */
1321 	ssize_t	xb_dma_resid;
1322 	short	xb_retry_count;
1323 	short	xb_victim_retry_count;
1324 	short	xb_ua_retry_count;	/* unit_attention retry counter */
1325 	short	xb_nr_retry_count;	/* not ready retry counter */
1326 
1327 	/*
1328 	 * Various status and data used when a RQS command is run on
1329 	 * the behalf of this command.
1330 	 */
1331 	struct buf	*xb_sense_bp;	/* back ptr to buf, for RQS */
1332 	uint_t	xb_sense_state;		/* scsi_pkt state of RQS command */
1333 	ssize_t	xb_sense_resid;		/* residual of RQS command */
1334 	uchar_t	xb_sense_status;	/* scsi status byte of RQS command */
1335 	uchar_t	xb_sense_data[SENSE_LENGTH];	/* sense data from RQS cmd */
1336 };
1337 
1338 _NOTE(SCHEME_PROTECTS_DATA("unique per pkt", sd_xbuf))
1339 
1340 #define	SD_PKT_ALLOC_SUCCESS			0
1341 #define	SD_PKT_ALLOC_FAILURE			1
1342 #define	SD_PKT_ALLOC_FAILURE_NO_DMA		2
1343 #define	SD_PKT_ALLOC_FAILURE_PKT_TOO_SMALL	3
1344 #define	SD_PKT_ALLOC_FAILURE_CDB_TOO_SMALL	4
1345 
1346 #define	SD_GET_XBUF(bp)		((struct sd_xbuf *)((bp)->b_private))
1347 #define	SD_GET_UN(bp)		((SD_GET_XBUF(bp))->xb_un)
1348 #define	SD_GET_PKTP(bp)		((SD_GET_XBUF(bp))->xb_pktp)
1349 #define	SD_GET_BLKNO(bp)	((SD_GET_XBUF(bp))->xb_blkno)
1350 
1351 
1352 /*
1353  * Special-purpose struct for sd_send_scsi_cmd() to pass command-specific
1354  * data through the layering chains to sd_initpkt_for_uscsi().
1355  */
1356 struct sd_uscsi_info {
1357 	int			ui_flags;
1358 	struct uscsi_cmd	*ui_cmdp;
1359 	/*
1360 	 * ui_dkc is used by sd_send_scsi_SYNCHRONIZE_CACHE() to allow
1361 	 * for async completion notification.
1362 	 */
1363 	struct dk_callback	ui_dkc;
1364 };
1365 
1366 _NOTE(SCHEME_PROTECTS_DATA("Unshared data", sd_uscsi_info))
1367 
1368 
1369 /*
1370  * Macros and definitions for driver kstats and errstats
1371  *
1372  * Some third-party layered drivers (they know who they are) do not maintain
1373  * their open/close counts correctly which causes our kstat reporting to get
1374  * messed up & results in panics. These macros will update the driver kstats
1375  * only if the counts are valid.
1376  */
1377 #define	SD_UPDATE_COMMON_KSTATS(kstat_function, kstatp)			\
1378 	if ((kstat_function)  == kstat_runq_exit ||			\
1379 	    ((kstat_function) == kstat_runq_back_to_waitq)) { 		\
1380 		if (((kstat_io_t *)(kstatp))->rcnt) {			\
1381 			kstat_function((kstatp));			\
1382 		} else {						\
1383 			cmn_err(CE_WARN,				\
1384 		"kstat rcnt == 0 when exiting runq, please check\n");	\
1385 		}							\
1386 	} else if ((kstat_function) == kstat_waitq_exit ||		\
1387 	    ((kstat_function) == kstat_waitq_to_runq)) {		\
1388 		if (((kstat_io_t *)(kstatp))->wcnt) {			\
1389 			kstat_function(kstatp);				\
1390 		} else {						\
1391 			cmn_err(CE_WARN,				\
1392 		"kstat wcnt == 0 when exiting waitq, please check\n");	\
1393 		}							\
1394 	} else {							\
1395 		kstat_function(kstatp);					\
1396 	}
1397 
1398 #define	SD_UPDATE_KSTATS(un, kstat_function, bp)			\
1399 	ASSERT(SD_GET_XBUF(bp) != NULL);				\
1400 	if (SD_IS_BUFIO(SD_GET_XBUF(bp))) {				\
1401 		struct kstat *pksp =					\
1402 			(un)->un_pstats[SDPART((bp)->b_edev)];		\
1403 		ASSERT(mutex_owned(SD_MUTEX(un)));			\
1404 		if ((un)->un_stats != NULL) {				\
1405 			kstat_io_t *kip = KSTAT_IO_PTR((un)->un_stats);	\
1406 			SD_UPDATE_COMMON_KSTATS(kstat_function, kip);	\
1407 		}							\
1408 		if (pksp != NULL) {					\
1409 			kstat_io_t *kip = KSTAT_IO_PTR(pksp);		\
1410 			SD_UPDATE_COMMON_KSTATS(kstat_function, kip);	\
1411 		}							\
1412 	}
1413 
1414 #define	SD_UPDATE_ERRSTATS(un, x)					\
1415 	if ((un)->un_errstats != NULL) {				\
1416 		struct sd_errstats *stp;				\
1417 		ASSERT(mutex_owned(SD_MUTEX(un)));			\
1418 		stp = (struct sd_errstats *)(un)->un_errstats->ks_data;	\
1419 		stp->x.value.ui32++;					\
1420 	}
1421 
1422 #define	SD_UPDATE_RDWR_STATS(un, bp)					\
1423 	if ((un)->un_stats != NULL) {					\
1424 		kstat_io_t *kip = KSTAT_IO_PTR((un)->un_stats);		\
1425 		size_t n_done = (bp)->b_bcount - (bp)->b_resid;		\
1426 		if ((bp)->b_flags & B_READ) {				\
1427 			kip->reads++;					\
1428 			kip->nread += n_done;				\
1429 		} else {						\
1430 			kip->writes++;					\
1431 			kip->nwritten += n_done;			\
1432 		}							\
1433 	}
1434 
1435 #define	SD_UPDATE_PARTITION_STATS(un, bp)				\
1436 {									\
1437 	struct kstat *pksp = (un)->un_pstats[SDPART((bp)->b_edev)];	\
1438 	if (pksp != NULL) {						\
1439 		kstat_io_t *kip = KSTAT_IO_PTR(pksp);			\
1440 		size_t n_done = (bp)->b_bcount - (bp)->b_resid;		\
1441 		if ((bp)->b_flags & B_READ) {				\
1442 			kip->reads++;					\
1443 			kip->nread += n_done;				\
1444 		} else {						\
1445 			kip->writes++;					\
1446 			kip->nwritten += n_done;			\
1447 		}							\
1448 	}								\
1449 }
1450 
1451 
1452 #endif	/* defined(_KERNEL) || defined(_KMEMUSER) */
1453 
1454 
1455 /*
1456  * 60 seconds is a *very* reasonable amount of time for most slow CD
1457  * operations.
1458  */
1459 #define	SD_IO_TIME			60
1460 
1461 /*
1462  * 2 hours is an excessively reasonable amount of time for format operations.
1463  */
1464 #define	SD_FMT_TIME			(120 * 60)
1465 
1466 /*
1467  * 5 seconds is what we'll wait if we get a Busy Status back
1468  */
1469 #define	SD_BSY_TIMEOUT			(drv_usectohz(5 * 1000000))
1470 
1471 /*
1472  * 100 msec. is what we'll wait if we get Unit Attention.
1473  */
1474 #define	SD_UA_RETRY_DELAY		(drv_usectohz((clock_t)100000))
1475 
1476 /*
1477  * 100 msec. is what we'll wait for restarted commands.
1478  */
1479 #define	SD_RESTART_TIMEOUT		(drv_usectohz((clock_t)100000))
1480 
1481 /*
1482  * 100 msec. is what we'll wait for certain retries for fibre channel
1483  * targets, 0 msec for parallel SCSI.
1484  */
1485 #if defined(__fibre)
1486 #define	SD_RETRY_DELAY			(drv_usectohz(100000))
1487 #else
1488 #define	SD_RETRY_DELAY			((clock_t)0)
1489 #endif
1490 
1491 /*
1492  * 60 seconds is what we will wait for to reset the
1493  * throttle back to it SD_MAX_THROTTLE.
1494  */
1495 #define	SD_RESET_THROTTLE_TIMEOUT	60
1496 
1497 /*
1498  * Number of times we'll retry a normal operation.
1499  *
1500  * This includes retries due to transport failure
1501  * (need to distinguish between Target and Transport failure)
1502  *
1503  */
1504 #if defined(__fibre)
1505 #define	SD_RETRY_COUNT			3
1506 #else
1507 #define	SD_RETRY_COUNT			5
1508 #endif
1509 
1510 /*
1511  * Number of times we will retry for unit attention.
1512  */
1513 #define	SD_UA_RETRY_COUNT		600
1514 
1515 #define	SD_VICTIM_RETRY_COUNT(un)	(un->un_victim_retry_count)
1516 #define	CD_NOT_READY_RETRY_COUNT(un)	(un->un_retry_count * 2)
1517 #define	DISK_NOT_READY_RETRY_COUNT(un)	(un->un_retry_count / 2)
1518 
1519 
1520 /*
1521  * Maximum number of units we can support
1522  * (controlled by room in minor device byte)
1523  *
1524  * Note: this value is out of date.
1525  */
1526 #define	SD_MAXUNIT			32
1527 
1528 /*
1529  * 30 seconds is what we will wait for the IO to finish
1530  * before we fail the DDI_SUSPEND
1531  */
1532 #define	SD_WAIT_CMDS_COMPLETE		30
1533 
1534 /*
1535  * Prevent/allow media removal flags
1536  */
1537 #define	SD_REMOVAL_ALLOW		0
1538 #define	SD_REMOVAL_PREVENT		1
1539 
1540 
1541 /*
1542  * Drive Types (and characteristics)
1543  */
1544 #define	VIDMAX				8
1545 #define	PIDMAX				16
1546 
1547 
1548 /*
1549  * The following #defines and type definitions for the property
1550  * processing component of the sd driver.
1551  */
1552 
1553 
1554 /* Miscellaneous Definitions */
1555 #define	SD_CONF_VERSION_1		1
1556 #define	SD_CONF_NOT_USED		32
1557 
1558 /*
1559  * Return values from "pm-capable" property
1560  */
1561 #define	SD_PM_CAPABLE_UNDEFINED		-1
1562 #define	SD_PM_CAPABLE_FALSE		0
1563 #define	SD_PM_CAPABLE_TRUE		1
1564 
1565 /*
1566  * Property data values used in static configuration table
1567  * These are all based on device characteristics.
1568  * For fibre channel devices, the throttle value is usually
1569  * derived from the devices cmd Q depth divided by the number
1570  * of supported initiators.
1571  */
1572 #define	ELITE_THROTTLE_VALUE		10
1573 #define	SEAGATE_THROTTLE_VALUE		15
1574 #define	IBM_THROTTLE_VALUE		15
1575 #define	ST31200N_THROTTLE_VALUE		8
1576 #define	FUJITSU_THROTTLE_VALUE		15
1577 #define	SYMBIOS_THROTTLE_VALUE		16
1578 #define	SYMBIOS_NOTREADY_RETRIES	24
1579 #define	LSI_THROTTLE_VALUE		16
1580 #define	LSI_NOTREADY_RETRIES		24
1581 #define	LSI_OEM_NOTREADY_RETRIES	36
1582 #define	PURPLE_THROTTLE_VALUE		64
1583 #define	PURPLE_BUSY_RETRIES		60
1584 #define	PURPLE_RESET_RETRY_COUNT	36
1585 #define	PURPLE_RESERVE_RELEASE_TIME	60
1586 #define	SVE_BUSY_RETRIES		60
1587 #define	SVE_RESET_RETRY_COUNT		36
1588 #define	SVE_RESERVE_RELEASE_TIME	60
1589 #define	SVE_THROTTLE_VALUE		10
1590 #define	SVE_MIN_THROTTLE_VALUE		2
1591 #define	SVE_DISKSORT_DISABLED_FLAG	1
1592 #define	MASERATI_DISKSORT_DISABLED_FLAG	1
1593 #define	MASERATI_LUN_RESET_ENABLED_FLAG	1
1594 #define	PIRUS_THROTTLE_VALUE		64
1595 #define	PIRUS_NRR_COUNT			60
1596 #define	PIRUS_BUSY_RETRIES		60
1597 #define	PIRUS_RESET_RETRY_COUNT		36
1598 #define	PIRUS_MIN_THROTTLE_VALUE	16
1599 #define	PIRUS_DISKSORT_DISABLED_FLAG	0
1600 #define	PIRUS_LUN_RESET_ENABLED_FLAG	1
1601 
1602 /*
1603  * Driver Property Bit Flag definitions
1604  *
1605  * Unfortunately, for historical reasons, the bit-flag definitions are
1606  * different on SPARC, INTEL, & FIBRE platforms.
1607  */
1608 
1609 /*
1610  * Bit flag telling driver to set throttle from sd.conf sd-config-list
1611  * and driver table.
1612  *
1613  * The max throttle (q-depth) property implementation is for support of
1614  * fibre channel devices that can drop an i/o request when a queue fills
1615  * up. The number of commands sent to the disk from this driver is
1616  * regulated such that queue overflows are avoided.
1617  */
1618 #define	SD_CONF_SET_THROTTLE		0
1619 #define	SD_CONF_BSET_THROTTLE		(1 << SD_CONF_SET_THROTTLE)
1620 
1621 /*
1622  * Bit flag telling driver to set the controller type from sd.conf
1623  * sd-config-list and driver table.
1624  */
1625 #if defined(__i386) || defined(__amd64)
1626 #define	SD_CONF_SET_CTYPE		1
1627 #elif defined(__fibre)
1628 #define	SD_CONF_SET_CTYPE		5
1629 #else
1630 #define	SD_CONF_SET_CTYPE		1
1631 #endif
1632 #define	SD_CONF_BSET_CTYPE		(1 << SD_CONF_SET_CTYPE)
1633 
1634 /*
1635  * Bit flag telling driver to set the not ready retry count for a device from
1636  * sd.conf sd-config-list and driver table.
1637  */
1638 #if defined(__i386) || defined(__amd64)
1639 #define	SD_CONF_SET_NOTREADY_RETRIES	10
1640 #elif defined(__fibre)
1641 #define	SD_CONF_SET_NOTREADY_RETRIES	1
1642 #else
1643 #define	SD_CONF_SET_NOTREADY_RETRIES	2
1644 #endif
1645 #define	SD_CONF_BSET_NRR_COUNT		(1 << SD_CONF_SET_NOTREADY_RETRIES)
1646 
1647 /*
1648  * Bit flag telling driver to set SCSI status BUSY Retries from sd.conf
1649  * sd-config-list and driver table.
1650  */
1651 #if defined(__i386) || defined(__amd64)
1652 #define	SD_CONF_SET_BUSY_RETRIES 	11
1653 #elif defined(__fibre)
1654 #define	SD_CONF_SET_BUSY_RETRIES 	2
1655 #else
1656 #define	SD_CONF_SET_BUSY_RETRIES 	5
1657 #endif
1658 #define	SD_CONF_BSET_BSY_RETRY_COUNT	(1 << SD_CONF_SET_BUSY_RETRIES)
1659 
1660 /*
1661  * Bit flag telling driver that device does not have a valid/unique serial
1662  * number.
1663  */
1664 #if defined(__i386) || defined(__amd64)
1665 #define	SD_CONF_SET_FAB_DEVID		2
1666 #else
1667 #define	SD_CONF_SET_FAB_DEVID		3
1668 #endif
1669 #define	SD_CONF_BSET_FAB_DEVID   	(1 << SD_CONF_SET_FAB_DEVID)
1670 
1671 /*
1672  * Bit flag telling driver to disable all caching for disk device.
1673  */
1674 #if defined(__i386) || defined(__amd64)
1675 #define	SD_CONF_SET_NOCACHE		3
1676 #else
1677 #define	SD_CONF_SET_NOCACHE		4
1678 #endif
1679 #define	SD_CONF_BSET_NOCACHE		(1 << SD_CONF_SET_NOCACHE)
1680 
1681 /*
1682  * Bit flag telling driver that the PLAY AUDIO command requires parms in BCD
1683  * format rather than binary.
1684  */
1685 #if defined(__i386) || defined(__amd64)
1686 #define	SD_CONF_SET_PLAYMSF_BCD		4
1687 #else
1688 #define	SD_CONF_SET_PLAYMSF_BCD		6
1689 #endif
1690 #define	SD_CONF_BSET_PLAYMSF_BCD    	(1 << SD_CONF_SET_PLAYMSF_BCD)
1691 
1692 /*
1693  * Bit flag telling driver that the response from the READ SUBCHANNEL command
1694  * has BCD fields rather than binary.
1695  */
1696 #if defined(__i386) || defined(__amd64)
1697 #define	SD_CONF_SET_READSUB_BCD		5
1698 #else
1699 #define	SD_CONF_SET_READSUB_BCD		7
1700 #endif
1701 #define	SD_CONF_BSET_READSUB_BCD	(1 << SD_CONF_SET_READSUB_BCD)
1702 
1703 /*
1704  * Bit in flags telling driver that the track number fields in the READ TOC
1705  * request and respone are in BCD rather than binary.
1706  */
1707 #if defined(__i386) || defined(__amd64)
1708 #define	SD_CONF_SET_READ_TOC_TRK_BCD	6
1709 #else
1710 #define	SD_CONF_SET_READ_TOC_TRK_BCD	8
1711 #endif
1712 #define	SD_CONF_BSET_READ_TOC_TRK_BCD	(1 << SD_CONF_SET_READ_TOC_TRK_BCD)
1713 
1714 /*
1715  * Bit flag telling driver that the address fields in the READ TOC request and
1716  * respone are in BCD rather than binary.
1717  */
1718 #if defined(__i386) || defined(__amd64)
1719 #define	SD_CONF_SET_READ_TOC_ADDR_BCD	7
1720 #else
1721 #define	SD_CONF_SET_READ_TOC_ADDR_BCD	9
1722 #endif
1723 #define	SD_CONF_BSET_READ_TOC_ADDR_BCD	(1 << SD_CONF_SET_READ_TOC_ADDR_BCD)
1724 
1725 /*
1726  * Bit flag telling the driver that the device doesn't support the READ HEADER
1727  * command.
1728  */
1729 #if defined(__i386) || defined(__amd64)
1730 #define	SD_CONF_SET_NO_READ_HEADER	8
1731 #else
1732 #define	SD_CONF_SET_NO_READ_HEADER	10
1733 #endif
1734 #define	SD_CONF_BSET_NO_READ_HEADER 	(1 << SD_CONF_SET_NO_READ_HEADER)
1735 
1736 /*
1737  * Bit flag telling the driver that for the READ CD command the device uses
1738  * opcode 0xd4 rather than 0xbe.
1739  */
1740 #if defined(__i386) || defined(__amd64)
1741 #define	SD_CONF_SET_READ_CD_XD4		9
1742 #else
1743 #define	SD_CONF_SET_READ_CD_XD4 	11
1744 #endif
1745 #define	SD_CONF_BSET_READ_CD_XD4	(1 << SD_CONF_SET_READ_CD_XD4)
1746 
1747 /*
1748  * Bit flag telling the driver to set SCSI status Reset Retries
1749  * (un_reset_retry_count) from sd.conf sd-config-list and driver table (4356701)
1750  */
1751 #define	SD_CONF_SET_RST_RETRIES		12
1752 #define	SD_CONF_BSET_RST_RETRIES	(1 << SD_CONF_SET_RST_RETRIES)
1753 
1754 /*
1755  * Bit flag telling the driver to set the reservation release timeout value
1756  * from sd.conf sd-config-list and driver table. (4367306)
1757  */
1758 #define	SD_CONF_SET_RSV_REL_TIME	13
1759 #define	SD_CONF_BSET_RSV_REL_TIME	(1 << SD_CONF_SET_RSV_REL_TIME)
1760 
1761 /*
1762  * Bit flag telling the driver to verify that no commands are pending for a
1763  * device before issuing a Test Unit Ready. This is a fw workaround for Seagate
1764  * eliteI drives. (4392016)
1765  */
1766 #define	SD_CONF_SET_TUR_CHECK		14
1767 #define	SD_CONF_BSET_TUR_CHECK		(1 << SD_CONF_SET_TUR_CHECK)
1768 
1769 /*
1770  * Bit in flags telling driver to set min. throttle from ssd.conf
1771  * ssd-config-list and driver table.
1772  */
1773 #define	SD_CONF_SET_MIN_THROTTLE	15
1774 #define	SD_CONF_BSET_MIN_THROTTLE	(1 << SD_CONF_SET_MIN_THROTTLE)
1775 
1776 /*
1777  * Bit in flags telling driver to set disksort disable flag from ssd.conf
1778  * ssd-config-list and driver table.
1779  */
1780 #define	SD_CONF_SET_DISKSORT_DISABLED	16
1781 #define	SD_CONF_BSET_DISKSORT_DISABLED	(1 << SD_CONF_SET_DISKSORT_DISABLED)
1782 
1783 /*
1784  * Bit in flags telling driver to set LUN Reset enable flag from [s]sd.conf
1785  * [s]sd-config-list and driver table.
1786  */
1787 #define	SD_CONF_SET_LUN_RESET_ENABLED	17
1788 #define	SD_CONF_BSET_LUN_RESET_ENABLED	(1 << SD_CONF_SET_LUN_RESET_ENABLED)
1789 
1790 /*
1791  * This is the number of items currently settable in the sd.conf
1792  * sd-config-list.  The mask value is defined for parameter checking. The
1793  * item count and mask should be updated when new properties are added.
1794  */
1795 #define	SD_CONF_MAX_ITEMS		18
1796 #define	SD_CONF_BIT_MASK		0x0003FFFF
1797 
1798 typedef struct {
1799 	int sdt_throttle;
1800 	int sdt_ctype;
1801 	int sdt_not_rdy_retries;
1802 	int sdt_busy_retries;
1803 	int sdt_reset_retries;
1804 	int sdt_reserv_rel_time;
1805 	int sdt_min_throttle;
1806 	int sdt_disk_sort_dis;
1807 	int sdt_lun_reset_enable;
1808 } sd_tunables;
1809 
1810 /* Type definition for static configuration table entries */
1811 typedef struct sd_disk_config {
1812 	char	device_id[25];
1813 	uint_t	flags;
1814 	sd_tunables *properties;
1815 } sd_disk_config_t;
1816 
1817 /*
1818  * byte 4 options for 1bh command
1819  */
1820 #define	SD_TARGET_STOP			0x00
1821 #define	SD_TARGET_START			0x01
1822 #define	SD_TARGET_EJECT			0x02
1823 #define	SD_TARGET_CLOSE			0x03
1824 
1825 
1826 #define	SD_MODE_SENSE_PAGE3_CODE	0x03
1827 #define	SD_MODE_SENSE_PAGE4_CODE	0x04
1828 
1829 #define	SD_MODE_SENSE_PAGE3_LENGTH					\
1830 	(sizeof (struct mode_format) + MODE_PARAM_LENGTH)
1831 #define	SD_MODE_SENSE_PAGE4_LENGTH					\
1832 	(sizeof (struct mode_geometry) + MODE_PARAM_LENGTH)
1833 
1834 /*
1835  * These command codes need to be moved to sys/scsi/generic/commands.h
1836  */
1837 
1838 /* Both versions of the Read CD command */
1839 
1840 /* the official SCMD_READ_CD now comes from cdio.h */
1841 #define	SCMD_READ_CDD4		0xd4	/* the one used by some first */
1842 					/* generation ATAPI CD drives */
1843 
1844 /* expected sector type filter values for Play and Read CD CDBs */
1845 #define	CDROM_SECTOR_TYPE_CDDA		(1<<2)	/* IEC 908:1987 (CDDA) */
1846 #define	CDROM_SECTOR_TYPE_MODE1		(2<<2)	/* Yellow book 2048 bytes */
1847 #define	CDROM_SECTOR_TYPE_MODE2		(3<<2)	/* Yellow book 2335 bytes */
1848 #define	CDROM_SECTOR_TYPE_MODE2_FORM1	(4<<2)	/* 2048 bytes */
1849 #define	CDROM_SECTOR_TYPE_MODE2_FORM2	(5<<2)	/* 2324 bytes */
1850 
1851 /* READ CD filter bits (cdb[9]) */
1852 #define	CDROM_READ_CD_SYNC	0x80	/* read sync field */
1853 #define	CDROM_READ_CD_HDR	0x20	/* read four byte header */
1854 #define	CDROM_READ_CD_SUBHDR	0x40	/* read sub-header */
1855 #define	CDROM_READ_CD_ALLHDRS	0x60	/* read header and sub-header */
1856 #define	CDROM_READ_CD_USERDATA	0x10	/* read user data */
1857 #define	CDROM_READ_CD_EDC_ECC	0x08	/* read EDC and ECC field */
1858 #define	CDROM_READ_CD_C2	0x02	/* read C2 error data */
1859 #define	CDROM_READ_CD_C2_BEB	0x04	/* read C2 and Block Error Bits */
1860 
1861 
1862 /*
1863  * These belong in sys/scsi/generic/mode.h
1864  */
1865 
1866 /*
1867  * Mode Sense/Select Header response for Group 2 CDB.
1868  */
1869 
1870 struct mode_header_grp2 {
1871 	uchar_t length_msb;		/* MSB - number of bytes following */
1872 	uchar_t length_lsb;
1873 	uchar_t medium_type;		/* device specific */
1874 	uchar_t device_specific;	/* device specfic parameters */
1875 	uchar_t resv[2];		/* reserved */
1876 	uchar_t bdesc_length_hi;	/* length of block descriptor(s) */
1877 					/* (if any) */
1878 	uchar_t bdesc_length_lo;
1879 };
1880 
1881 _NOTE(SCHEME_PROTECTS_DATA("Unshared data", mode_header_grp2))
1882 
1883 /*
1884  * Length of the Mode Parameter Header for the Group 2 Mode Select command
1885  */
1886 #define	MODE_HEADER_LENGTH_GRP2	(sizeof (struct mode_header_grp2))
1887 #define	MODE_PARAM_LENGTH_GRP2 (MODE_HEADER_LENGTH_GRP2 + MODE_BLK_DESC_LENGTH)
1888 
1889 /*
1890  * Mode Page 1 - Error Recovery Page
1891  */
1892 #define	MODEPAGE_ERR_RECOVER		1
1893 
1894 /*
1895  * The following buffer length define is 8 bytes for the Group 2 mode page
1896  * header, 8 bytes for the block descriptor and 26 bytes for the cdrom
1897  * capabilities page (per MMC-2)
1898  */
1899 #define	MODEPAGE_CDROM_CAP		0x2A
1900 #define	MODEPAGE_CDROM_CAP_LEN		26
1901 #define	BUFLEN_MODE_CDROM_CAP		(MODEPAGE_CDROM_CAP_LEN + \
1902 	MODE_HEADER_LENGTH_GRP2 + MODE_BLK_DESC_LENGTH)
1903 
1904 
1905 /*
1906  * Power management defines
1907  */
1908 #define	SD_SPINDLE_UNINIT	(-1)
1909 #define	SD_SPINDLE_OFF		0
1910 #define	SD_SPINDLE_ON		1
1911 #define	SD_PM_NOT_SUPPORTED	2
1912 
1913 
1914 /*
1915  * No Need to resume if already in PM_SUSPEND state because the thread
1916  * was suspended in sdpower. It will be resumed when sdpower is invoked to make
1917  * the device active.
1918  * When the thread is suspended, the watch thread is terminated and
1919  * the token is NULLed so check for this condition.
1920  * If there's a thread that can be resumed, ie. token is not NULL, then
1921  * it can be resumed.
1922  */
1923 #define	SD_OK_TO_RESUME_SCSI_WATCHER(un)	(un->un_swr_token != NULL)
1924 /*
1925  * No Need to resume if already in PM_SUSPEND state because the thread
1926  * was suspended in sdpower. It will be resumed when sdpower is invoked to make
1927  * the device active.
1928  * When the thread is suspended, the watch thread is terminated and
1929  * the token is NULLed so check for this condition.
1930  */
1931 #define	SD_OK_TO_SUSPEND_SCSI_WATCHER(un)	(un->un_swr_token != NULL)
1932 #define	SD_DEVICE_IS_IN_LOW_POWER(un)		((un->un_f_pm_is_enabled) && \
1933 						    (un->un_pm_count < 0))
1934 /*
1935  * Could move this define to some thing like log sense.h in SCSA headers
1936  * But for now let it live here.
1937  */
1938 #define	START_STOP_CYCLE_COUNTER_PAGE_SIZE	0x28
1939 #define	START_STOP_CYCLE_PAGE			0x0E
1940 #define	START_STOP_CYCLE_VU_PAGE		0x31
1941 
1942 /* CD-ROM Error Recovery Parameters page (0x01) */
1943 #define	MODEPAGE_ERR_RECOV	0x1
1944 #define	BUFLEN_CHG_BLK_MODE	MODE_HEADER_LENGTH + MODE_BLK_DESC_LENGTH
1945 
1946 /*
1947  * Vendor Specific (Toshiba) CD-ROM Speed page (0x31)
1948  *
1949  * The following buffer length define is 4 bytes for the Group 0 mode page
1950  * header, 8 bytes for the block descriptor and 4 bytes for the mode speed page.
1951  */
1952 #define	MODEPAGE_CDROM_SPEED_LEN	4
1953 #define	BUFLEN_MODE_CDROM_SPEED		MODEPAGE_CDROM_SPEED_LEN +\
1954 					MODE_HEADER_LENGTH +\
1955 					MODE_BLK_DESC_LENGTH
1956 #define	SD_SPEED_1X			176
1957 
1958 /* CD-ROM Audio Control Parameters page (0x0E) */
1959 #define	MODEPAGE_AUDIO_CTRL		0x0E
1960 #define	MODEPAGE_AUDIO_CTRL_LEN		16
1961 
1962 /* CD-ROM Sony Read Offset Defines */
1963 #define	SONY_SESSION_OFFSET_LEN		12
1964 #define	SONY_SESSION_OFFSET_KEY		0x40
1965 #define	SONY_SESSION_OFFSET_VALID	0x0a
1966 
1967 /*
1968  * CD-ROM Write Protect Defines
1969  *
1970  * Bit 7 of the device specific field of the mode page header is the write
1971  * protect bit.
1972  */
1973 #define	WRITE_PROTECT 0x80
1974 
1975 /*
1976  * Define for the length of a profile header returned in response to the
1977  * GET CONFIGURATION command
1978  */
1979 #define	SD_PROFILE_HEADER_LEN		8	/* bytes */
1980 
1981 /*
1982  * Define the length of the data in response to the GET CONFIGURATION
1983  * command.  The 3rd byte of the feature descriptor contains the
1984  * current feature field that is of interest.  This field begins
1985  * after the feature header which is 8 bytes.  This variable length
1986  * was increased in size from 11 to 24 because some devices became
1987  * unresponsive with the smaller size.
1988  */
1989 #define	SD_CURRENT_FEATURE_LEN		24	/* bytes */
1990 
1991 /*
1992  * Feature codes associated with GET CONFIGURATION command for supported
1993  * devices.
1994  */
1995 #define	RANDOM_WRITABLE			0x20
1996 #define	HARDWARE_DEFECT_MANAGEMENT	0x24
1997 
1998 /*
1999  * Could move this define to some thing like log sense.h in SCSA headers
2000  * But for now let it live here.
2001  */
2002 #define	TEMPERATURE_PAGE			0x0D
2003 #define	TEMPERATURE_PAGE_SIZE			16	/* bytes */
2004 
2005 /* delay time used for sd_media_watch_cb delayed cv broadcast */
2006 #define	MEDIA_ACCESS_DELAY 2000000
2007 
2008 
2009 /* SCSI power on or bus device reset additional sense code */
2010 #define	SD_SCSI_RESET_SENSE_CODE	0x29
2011 
2012 /*
2013  * These defines are for the Vital Product Data Pages in the inquiry command.
2014  * They are the bits in the un_vpd_page mask, telling the supported pages.
2015  */
2016 #define	SD_VPD_SUPPORTED_PG	0x01	/* 0x00 - Supported VPD pages */
2017 #define	SD_VPD_UNIT_SERIAL_PG	0x02	/* 0x80 - Unit Serial Number */
2018 #define	SD_VPD_OPERATING_PG	0x04	/* 0x81 - Implemented Op Defs */
2019 #define	SD_VPD_ASCII_OP_PG	0x08	/* 0x82 - ASCII Op Defs */
2020 #define	SD_VPD_DEVID_WWN_PG	0x10	/* 0x83 - Device Identification */
2021 
2022 /*
2023  * Addition from sddef.intel.h
2024  */
2025 #if defined(__i386) || defined(__amd64)
2026 
2027 #define	P0_RAW_DISK	(NDKMAP)
2028 #define	FDISK_P1	(NDKMAP+1)
2029 #define	FDISK_P2	(NDKMAP+2)
2030 #define	FDISK_P3	(NDKMAP+3)
2031 #define	FDISK_P4	(NDKMAP+4)
2032 
2033 #endif	/* __i386 || __amd64 */
2034 
2035 #ifdef	__cplusplus
2036 }
2037 #endif
2038 
2039 
2040 #endif	/* _SYS_SCSI_TARGETS_SDDEF_H */
2041