xref: /titanic_51/usr/src/uts/common/sys/scsi/targets/stdef.h (revision 14ea4bb737263733ad80a36b4f73f681c30a6b45)
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 2006 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_SYS_SCSI_TARGETS_STDEF_H
27 #define	_SYS_SCSI_TARGETS_STDEF_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #include <sys/sunddi.h>
32 #include <sys/note.h>
33 #include <sys/condvar.h>
34 #include <sys/kstat.h>
35 #include <sys/scsi/scsi_types.h>
36 #include <sys/mtio.h>
37 
38 #ifdef	__cplusplus
39 extern "C" {
40 #endif
41 
42 /*
43  * Defines for SCSI tape drives.
44  */
45 
46 /*
47  * Maximum variable length record size for a single request
48  */
49 #define	ST_MAXRECSIZE_VARIABLE	65535
50 
51 /*
52  * If the requested record size exceeds ST_MAXRECSIZE_VARIABLE,
53  * then the following define is used.
54  */
55 #define	ST_MAXRECSIZE_VARIABLE_LIMIT	65534
56 
57 #define	ST_MAXRECSIZE_FIXED	(63<<10)	/* maximum fixed record size */
58 #define	INF 1000000000
59 
60 /*
61  * Supported tape device types plus default type for opening.
62  * Types 10 - 13, are special (ancient too) drives - *NOT SUPPORTED*
63  * Types 14 - 1f, are 1/4-inch cartridge drives.
64  * Types 20 - 28, are 1/2-inch cartridge or reel drives.
65  * Types 28+, are rdat (vcr) drives.
66  */
67 #define	ST_TYPE_INVALID		0x00
68 
69 #define	ST_TYPE_SYSGEN1	MT_ISSYSGEN11	/* Sysgen with QIC-11 only */
70 #define	ST_TYPE_SYSGEN	MT_ISSYSGEN	/* Sysgen with QIC-24 and QIC-11 */
71 
72 #define	ST_TYPE_DEFAULT	MT_ISDEFAULT	/* Generic 1/4" or undetermined  */
73 #define	ST_TYPE_EMULEX	MT_ISMT02	/* Emulex MT-02 */
74 #define	ST_TYPE_ARCHIVE	MT_ISVIPER1	/* Archive QIC-150 */
75 #define	ST_TYPE_WANGTEK	MT_ISWANGTEK1	/* Wangtek QIC-150 */
76 
77 #define	ST_TYPE_CDC	MT_ISCDC	/* CDC - (not tested) */
78 #define	ST_TYPE_FUJI	MT_ISFUJI	/* Fujitsu - (not tested) */
79 #define	ST_TYPE_KENNEDY	MT_ISKENNEDY	/* Kennedy */
80 #define	ST_TYPE_ANRITSU	MT_ISANRITSU	/* Anritsu */
81 #define	ST_TYPE_HP	MT_ISHP		/* HP */
82 #define	ST_TYPE_HIC	MT_ISCCS23	/* Generic 1/2" Cartridge */
83 #define	ST_TYPE_REEL	MT_ISCCS24	/* Generic 1/2" Reel Tape */
84 #define	ST_TYPE_DAT	MT_ISCCS28	/* Generic DAT Tape */
85 
86 #define	ST_TYPE_EXABYTE	MT_ISEXABYTE	/* Exabyte 8200 */
87 #define	ST_TYPE_EXB8500	MT_ISEXB8500	/* Exabyte 8500 */
88 #define	ST_TYPE_WANGTHS	MT_ISWANGTHS	/* Wangtek 6130HS */
89 #define	ST_TYPE_WANGDAT	MT_ISWANGDAT	/* WangDAT */
90 #define	ST_TYPE_PYTHON  MT_ISPYTHON	/* Archive Python DAT */
91 #define	ST_TYPE_STC3490 MT_ISSTC	/* IBM STC 3490 */
92 #define	ST_TYPE_TAND25G MT_ISTAND25G	/* TANDBERG 2.5G */
93 #define	ST_TYPE_DLT	MT_ISDLT	/* DLT */
94 #define	ST_TYPE_STK9840	MT_ISSTK9840	/* StorageTek 9840, 9940, 9840B */
95 #define	ST_TYPE_BMDLT1	MT_ISBMDLT1	/* Benchmark DTL1 */
96 #define	ST_TYPE_LTO	MT_LTO		/* sun: LTO's by HP, Seagate, IBM.. */
97 #define	ST_TYPE_AIT	MT_ISAIT	/* Sony AIT I, II, III and SAIT */
98 #define	ST_LAST_TYPE	ST_TYPE_AIT	/* Add new above type and change this */
99 
100 
101 /* Internal flags */
102 #define	ST_DYNAMIC		0x2000	/* Device name has been dynamically */
103 					/* alloc'ed from the st.conf entry, */
104 					/* instead of being used from the */
105 					/* st_drivetypes array. */
106 
107 /*
108  * Defines for supported drive options
109  *
110  * WARNING : THESE OPTIONS SHOULD NEVER BE CHANGED, AS OLDER CONFIGURATIONS
111  * 		WILL DEPEND ON THE FLAG VALUES REMAINING THE SAME
112  */
113 #define	ST_VARIABLE		0x001	/* Device supports variable	*/
114 					/* length record sizes		*/
115 #define	ST_QIC			0x002	/* QIC tape device 		*/
116 #define	ST_REEL			0x004	/* 1/2-inch reel tape device	*/
117 #define	ST_BSF			0x008	/* Device supports backspace	*/
118 					/* file as in mt(1) bsf : 	*/
119 					/* backspace over EOF marks.	*/
120 					/* Devices not supporting bsf 	*/
121 					/* will fail with ENOTTY upon	*/
122 					/* use of bsf			*/
123 #define	ST_BSR			0x010	/* Device supports backspace	*/
124 					/* record as in mt(1) bsr :	*/
125 					/* backspace over records. If	*/
126 					/* the device does not support 	*/
127 					/* bsr, the st driver emulates	*/
128 					/* the action by rewinding the	*/
129 					/* tape and using forward space	*/
130 					/* file (fsf) to the correct	*/
131 					/* file and then uses forward	*/
132 					/* space record (fsr) to the	*/
133 					/* correct  record		*/
134 #define	ST_LONG_ERASE		0x020	/* Device needs a longer time	*/
135 					/* than normal to erase		*/
136 #define	ST_AUTODEN_OVERRIDE	0x040	/* Auto-Density override flag	*/
137 					/* Device can figure out the	*/
138 					/* tape density automatically,	*/
139 					/* without issuing a		*/
140 					/* mode-select/mode-sense 	*/
141 #define	ST_NOBUF		0x080	/* Don't use buffered mode.	*/
142 					/* This disables the device's	*/
143 					/* ability for buffered	writes	*/
144 					/* I.e. The device acknowledges	*/
145 					/* write completion after the	*/
146 					/* data is written to the	*/
147 					/* device's buffer, but before	*/
148 					/* all the data is actually	*/
149 					/* written to tape		*/
150 #define	ST_RESERVED_BIT1	0x100	/* resreved bit 		*/
151 					/* parity while talking to it. 	*/
152 #define	ST_KNOWS_EOD		0x200	/* Device knows when EOD (End	*/
153 					/* of Data) has been reached.	*/
154 					/* If the device knows EOD, st	*/
155 					/* uses fast file skipping.	*/
156 					/* If it does not know EOD,	*/
157 					/* file skipping happens one	*/
158 					/* file at a time. 		*/
159 #define	ST_UNLOADABLE		0x400	/* Device will not complain if	*/
160 					/* the st driver is unloaded &	*/
161 					/* loaded again; e.g. will	*/
162 					/* return the correct inquiry	*/
163 					/* string			*/
164 #define	ST_SOFT_ERROR_REPORTING 0x800	/* Do request or log sense on	*/
165 					/* close to report soft errors.	*/
166 					/* Currently only Exabyte and	*/
167 					/* DAT drives support this	*/
168 					/* feature.  			*/
169 #define	ST_LONG_TIMEOUTS	0x1000	/* Device needs 5 times longer	*/
170 					/* timeouts for normal		*/
171 					/* operation			*/
172 #define	ST_BUFFERED_WRITES	0x4000	/* The data is buffered in the	*/
173 					/* driver and pre-acked to the	*/
174 					/* application 			*/
175 #define	ST_NO_RECSIZE_LIMIT	0x8000	/* For variable record size	*/
176 					/* devices only. If flag is	*/
177 					/* set, then don't limit	*/
178 					/* record size to 64k as in	*/
179 					/* pre-Solaris 2.4 releases.	*/
180 					/* The only limit on the	*/
181 					/* record size will be the max	*/
182 					/* record size the device can	*/
183 					/* handle or the max DMA	*/
184 					/* transfer size of the		*/
185 					/* machine, which ever is	*/
186 					/* smaller. Beware of		*/
187 					/* incompatabilities with	*/
188 					/* tapes of pre-Solaris 2.4	*/
189 					/* OS's written with large	*/
190 					/* (>64k) block sizes, as	*/
191 					/* their true block size is	*/
192 					/* a max of approx 64k		*/
193 #define	ST_MODE_SEL_COMP	0x10000	/* use mode select of device	*/
194 					/* configuration page (0x10) to */
195 					/* enable/disable compression	*/
196 					/* instead of density codes for */
197 					/* the "c" and "u" devices	*/
198 #define	ST_NO_RESERVE_RELEASE	0x20000	/* For devices which do not	*/
199 					/* support RESERVE/RELEASE SCSI	*/
200 					/* command. If this is enabled	*/
201 					/* then reserve/release would	*/
202 					/* not be used during open/	*/
203 					/* close for High Availability	*/
204 #define	ST_READ_IGNORE_ILI	0x40000 /* This flag is only applicable */
205 					/* to variable block devices 	*/
206 					/* which support the SILI bit	*/
207 					/* option. It indicates that 	*/
208 					/* the SILI bit will be ignored */
209 					/* during reads  		*/
210 #define	ST_READ_IGNORE_EOFS 	0x80000 /* When this flag is set two 	*/
211 					/* EOF marks do not indicate an */
212 					/* EOM. This option is only	*/
213 					/* supported on 1/2" reel tapes */
214 #define	ST_SHORT_FILEMARKS	0x100000 /* This option applies only to */
215 					/* EXABYTE 8mm tape drives 	*/
216 					/* which support short 		*/
217 					/* filemarks. When this flag 	*/
218 					/* is set, short filemarks 	*/
219 					/* will be used for writing	*/
220 					/* filemarks. 			*/
221 #define	ST_EJECT_ON_CHANGER_FAILURE 0x200000 /* When this flag is set   */
222 					/* and the tape is trapped in   */
223 					/* the medium changer, the tape */
224 					/* is automatically ejected	*/
225 #define	ST_RETRY_ON_RECOVERED_DEFERRED_ERROR 0x400000
226 					/* This option applies only to  */
227 					/* IBM MAGSTAR 3590. If this    */
228 					/* flag is set, the st driver   */
229 					/* will retry the last cmd if   */
230 					/* the last error cause a check */
231 					/* condition with error code    */
232 					/* 0x71 and sense code  0x01 	*/
233 #define	ST_KNOWS_MEDIA		0x800000 /* Use configured media type	*/
234 					/* detected to select correct   */
235 					/* density code.		*/
236 #define	ST_WORMABLE		0x1000000
237 					/* Drive is capable of doing	*/
238 					/* Write Appends only at EOM	*/
239 					/* if WORM media type is loaded */
240 #define	ST_CLN_TYPE_1		0x10000000 /* When this flag is set,	*/
241 					/* the tape drive provides the	*/
242 					/* clean bit information in	*/
243 					/* byte 21, bitmask 0x08 of	*/
244 					/* Request Sense data		*/
245 #define	ST_CLN_TYPE_2		0x20000000 /* When this flag is set,	*/
246 					/* the tape drive provides the	*/
247 					/* clean bit information in	*/
248 					/* byte 70, bitmask 0xc0 of	*/
249 					/* Request Sense data		*/
250 #define	ST_CLN_TYPE_3		0x40000000 /* When this flag is set,	*/
251 					/* the tape drive provides the	*/
252 					/* clean bit information in	*/
253 					/* byte 18, bitmask 0x01 of	*/
254 					/* Request Sense data		*/
255 
256 #define	ST_CLN_MASK	(ST_CLN_TYPE_1 | ST_CLN_TYPE_2 | ST_CLN_TYPE_3)
257 #define	ST_VALID_OPTS	(ST_VARIABLE | ST_QIC | ST_REEL | ST_BSF | ST_BSR |\
258 	ST_LONG_ERASE | ST_AUTODEN_OVERRIDE | ST_NOBUF | ST_KNOWS_EOD |\
259 	ST_UNLOADABLE | ST_SOFT_ERROR_REPORTING | ST_LONG_TIMEOUTS |\
260 	ST_NO_RECSIZE_LIMIT | ST_MODE_SEL_COMP | ST_NO_RESERVE_RELEASE |\
261 	ST_READ_IGNORE_ILI | ST_READ_IGNORE_EOFS | ST_SHORT_FILEMARKS |\
262 	ST_EJECT_ON_CHANGER_FAILURE | ST_RETRY_ON_RECOVERED_DEFERRED_ERROR |\
263 	ST_WORMABLE | ST_CLN_TYPE_1 | ST_CLN_TYPE_2 | ST_CLN_TYPE_3)
264 
265 #define	NDENSITIES	MT_NDENSITIES
266 #define	NSPEEDS		MT_NSPEEDS
267 
268 /*
269  * defines for Log Sense Pages
270  */
271 #define	SUPPORTED_LOG_PAGES_PAGE	0x00
272 #define	TAPE_SEQUENTIAL_PAGE		0x0c
273 #define	TAPE_ALERT_PAGE			0x2e
274 
275 /*
276  * Log Page Control definitions
277  */
278 #define	CURRENT_THRESHOLD_VALUES	0x00
279 #define	CURRENT_CUMULATIVE_VALUES	0x40
280 #define	DEFAULT_THRESHOLD_VALUES	0x80
281 #define	DEFAULT_CUMULATIVE_VALUES	0xC0
282 
283 /*
284  * Tape Alert Flag definitions
285  */
286 typedef enum {
287 	TAF_READ_WARN			= 0x01,
288 	TAF_WRITE_WARN			= 0x02,
289 	TAF_HARD_ERR			= 0x03,
290 	TAF_MEDIA_ERR			= 0x04,
291 	TAF_READ_FAIL			= 0x05,
292 	TAF_WRITE_FAIL			= 0x06,
293 	TAF_MEDIA_LIFE			= 0x07,
294 	TAF_MEDIA_NOT_DATA_GRADE	= 0x08,
295 	TAF_WRITE_PROTECTED		= 0x09,
296 	TAF_NO_MEDIA_REMOVE		= 0x0A,
297 	TAF_CLEANING_MEDIA		= 0x0B,
298 	TAF_UNSUPPERTED_FORMAT		= 0x0C,
299 	TAF_RECOVERED_TAPE_BREAK	= 0x0D,
300 	TAF_TAPE_BREAK_FAUL		= 0x0E,
301 	TAF_CART_MEM_FAIL		= 0x0F,
302 	TAF_FORCED_EJECT		= 0x10,
303 	TAF_READ_ONLY_FORMAT		= 0x11,
304 	TAF_TAPE_DIR_CORRUPT		= 0x12,
305 	TAF_NEARING_MEDIA_LIFE		= 0x13,
306 	TAF_CLEAN_NOW			= 0x14,
307 	TAF_CLEAN_PERIODIC		= 0x15,
308 	TAF_EXP_CLEAN_CART		= 0x16,
309 	TAF_INVALID_CLEAN_MEDIA		= 0x17,
310 	TAF_RETENSION_REQUEST		= 0x18,
311 	TAF_DUAL_PORT_INTERFACE_ERR	= 0x19,
312 	TAF_COOLING_FAN_FAIL		= 0x1A,
313 	TAF_POWER_SUPPLY_FAIL		= 0x1B,
314 	TAF_POWER_CONSUMPTION		= 0x1C,
315 	TAF_DRIVE_MAINT_REQUEST		= 0x1D,
316 	TAF_HARDWARE_A			= 0x1E,
317 	TAF_HARDWARE_B			= 0x1F,
318 	TAF_INTERFACE			= 0x20,
319 	TAF_EJECT_MEDIA			= 0x21,
320 	TAF_DOWNLOAD_FAIL		= 0x22,
321 	TAF_DRIVE_HUMIDITY		= 0x23,
322 	TAF_DRIVE_TEMP			= 0x24,
323 	TAF_DRIVE_VOLTAGE		= 0x25,
324 	TAF_PREDICTIVE_FAIL		= 0x26,
325 	TAF_DIAG_REQUIRED		= 0x27,
326 	TAF_LOADER_HDWR_A		= 0x28,
327 	TAF_LOADER_STRAY_TAPE		= 0x29,
328 	TAF_LOADER_HDWR_B		= 0x2A,
329 	TAF_LOADER_DOOR			= 0x2B,
330 	TAF_LOADER_HDWR_C		= 0x2C,
331 	TAF_LOADER_MAGAZINE		= 0x2D,
332 	TAF_LOADER_PREDICTIVE_FAIL	= 0x2E,
333 	TAF_LOST_STATISTICS		= 0x32,
334 	TAF_TAPE_DIR_CURRUPT_UNLOAD	= 0x33,
335 	TAF_TAPE_SYS_WRT_FAIL		= 0x34,
336 	TAF_TAPE_SYS_RD_FAIL		= 0x35,
337 	TAF_NO_START_OF_DATA		= 0x36,
338 	TAF_WORM_INTEGRITY		= 0x3B,
339 	TAF_WORM_OVRWRT_ATTEMPT		= 0x3C
340 }tape_alert_flags;
341 
342 /*
343  * For ST_TYPE_STK9840 drives only. STK drive doesn't support retension
344  * so they reuse TAF_RETENSION_REQUEST.
345  */
346 #define	CLEAN_FOR_ERRORS		 0x18
347 
348 
349 #define	TAPE_ALERT_SUPPORT_UNKNOWN	0x00
350 #define	TAPE_ALERT_NOT_SUPPORTED	0x01
351 #define	TAPE_ALERT_SUPPORTED		0x02
352 #define	TAPE_ALERT_STILL_DIRTY		0x04
353 #define	TAPE_SEQUENTIAL_SUPPORTED	0x08
354 #define	TAPE_PREVIOUSLY_DIRTY		0x10
355 
356 #define	TAPE_ALERT_MAX_PARA		64
357 #define	TAPE_SEQUENTIAL_PAGE_PARA	64	/* way more then really used */
358 #define	SEQUENTIAL_NEED_CLN		0x0100
359 
360 /*
361  * Parameters
362  */
363 #define	ST_NAMESIZE	44	/* size of pretty string for vid/pid */
364 #define	VIDLEN		8	/* size of vendor identifier length */
365 #define	PIDLEN		16	/* size of product identifier length */
366 #define	VIDPIDLEN	(VIDLEN + PIDLEN)
367 
368 
369 struct st_drivetype {
370 	char	name[ST_NAMESIZE];	/* Name, for debug */
371 	char	length;			/* Length of vendor id */
372 	char	vid[VIDPIDLEN];		/* Vendor id and model (product) id */
373 	char	type;			/* Drive type for driver */
374 	int	bsize;			/* Block size */
375 	int	options;		/* Drive options */
376 	int	max_rretries;		/* Max read retries */
377 	int	max_wretries;		/* Max write retries */
378 	uchar_t	densities[NDENSITIES];	/* density codes, low->hi */
379 	uchar_t	default_density;	/* default density for this drive */
380 	uchar_t	mediatype[NDENSITIES];	/* was speed. mediatype for density. */
381 	ushort_t non_motion_timeout;	/* Inquiry type commands */
382 	ushort_t io_timeout;		/* I/O timeout in seconds */
383 	ushort_t rewind_timeout;	/* rewind timeout in seconds */
384 	ushort_t space_timeout;		/* space cmd timeout in seconds */
385 	ushort_t load_timeout;		/* load tape time in seconds */
386 	ushort_t unload_timeout;	/* unload tape time in seconds */
387 	ushort_t erase_timeout;		/* erase timeout. seconds */
388 };
389 
390 #define	MINUTES(val)	((val) * 60)
391 
392 struct comp_mode_page {
393 #if defined(_BIT_FIELDS_LTOH)
394 	uchar_t	:		6,
395 		dcc:		1,	/* Data Compression Capable */
396 		dce:		1;	/* Data Compression Enable */
397 	uchar_t	:		5,
398 		red:		2,	/* Report Exceptions on Decompress */
399 		dde:		1;	/* Data Decompression Enabled */
400 	uchar_t	comp_alg_msb;		/* Compression Algorithm */
401 	uchar_t comp_alg_high;
402 	uchar_t	comp_alg_low;
403 	uchar_t	comp_alg_lsb;
404 	uchar_t	decomp_alg_msb;		/* Decompression Algorithm */
405 	uchar_t decomp_alg_high;
406 	uchar_t	decomp_alg_low;
407 	uchar_t	decomp_alg_lsb;
408 	uchar_t	reservered0;
409 	uchar_t	reservered1;
410 	uchar_t	reservered2;
411 	uchar_t	reservered3;
412 
413 #elif defined(_BIT_FIELDS_HTOL)
414 	uchar_t	dce:		1,	/* Data Compression Enable */
415 		dcc:		1,	/* Data Compression Capable */
416 		:		6;
417 	uchar_t	dde:		1,	/* Data Decompression Enabled */
418 		red:		2,	/* Report Exceptions on Decompress */
419 		:		5;
420 	uchar_t	comp_alg_msb;		/* Compression Algorithm */
421 	uchar_t comp_alg_high;
422 	uchar_t	comp_alg_low;
423 	uchar_t	comp_alg_lsb;
424 	uchar_t	decomp_alg_msb;		/* Decompression Algorithm */
425 	uchar_t decomp_alg_high;
426 	uchar_t	decomp_alg_low;
427 	uchar_t	decomp_alg_lsb;
428 	uchar_t	reservered0;
429 	uchar_t	reservered1;
430 	uchar_t	reservered2;
431 	uchar_t	reservered3;
432 #endif
433 };
434 
435 struct dev_mode_page {
436 #if defined(_BIT_FIELDS_LTOH)
437 	uchar_t	act_format:	5,	/* active format */
438 		caf:		1,	/* Change Active Format */
439 		cap:		1,	/* Change Active Partition OBSOLETE */
440 		:		1;
441 	uchar_t	act_partition;		/* active partition */
442 	uchar_t	wrt_buf_full_ratio;	/* write buffer full ratio */
443 	uchar_t	rd_buf_full_ratio;	/* read buffer full ratio */
444 	uchar_t	wrt_delay_time_msb;	/* write delay time MSB */
445 	uchar_t	wrt_delay_time_lsb;	/* write delay time LSB */
446 	uchar_t	rew:		1,	/* Report Early Warning */
447 		robo:		1,	/* Reverse Object Buffer Order */
448 		socf:		2,	/* Stop On Consecutive Filemarks */
449 		avc:		1,	/* Automatic Velocity Control */
450 		rsmk:		1,	/* Report SetMarKs OBSOLETE */
451 		lois:		1,	/* Logical Object Identifiers Support */
452 		obr:		1;	/* Object Buffer Recovery */
453 	uchar_t	gap_size;		/* OBSOLETE */
454 	uchar_t	bam:		1,	/* Block Address Mode */
455 		bmal:		1,	/* Block Address Mode Lock */
456 		swp:		1,	/* Software Write Protection */
457 		sew:		1,	/* Sync data after Early Warning */
458 		eeg:		1,	/* Enable Early Waring */
459 		eod_defined:	3;
460 	uchar_t	buf_size_leot_msb;	/* Buffer size after early warning */
461 	uchar_t	buf_size_leot_mid;
462 	uchar_t	buf_size_leot_lsb;
463 	uchar_t	comp_alg;		/* Compression Algorithm (enable) */
464 	uchar_t	prmwp:		1,	/* PeRManent Write Protect */
465 		perswp:		1,	/* persistant write protection */
466 		asocwp:		1,	/* associated write protect */
467 		rew_on_rst:	2,	/* rewind on reset */
468 		oir:		1,	/* Only If Reserved */
469 		wtre:		2;	/* Worm Tamper Read Enable */
470 
471 #elif defined(_BIT_FIELDS_HTOL)
472 	uchar_t	:		1,
473 		cap:		1,	/* Change Active Partition OBSOLETE */
474 		caf:		1,	/* Change Active Format */
475 		act_format:	5;	/* active format */
476 	uchar_t	act_partition;		/* active partition */
477 	uchar_t	wrt_buf_full_ratio;	/* write buffer full ratio */
478 	uchar_t	rd_buf_full_ratio;	/* read buffer full ratio */
479 	uchar_t	wrt_delay_time_msb;	/* write delay time MSB */
480 	uchar_t	wrt_delay_time_lsb;	/* write delay time LSB */
481 	uchar_t	obr:		1,	/* Object Buffer Recovery */
482 		lois:		1,	/* Logical Object Identifiers Support */
483 		rsmk:		1,	/* Report SetMarKs OBSOLETE */
484 		avc:		1,	/* Automatic Velocity Control */
485 		socf:		2,	/* Stop On Consecutive Filemarks */
486 		robo:		1,	/* Reverse Object Buffer Order */
487 		rew:		1;	/* Report Early Warning */
488 	uchar_t	gap_size;		/* OBSELETE */
489 	uchar_t	eod_defined:	3,
490 		eeg:		1,	/* Enable Early Waring */
491 		sew:		1,	/* Sync data after Early Warning */
492 		swp:		1,	/* Software Write Protection */
493 		bmal:		1,	/* Block Address Mode Lock */
494 		bam:		1;	/* Block Address Mode */
495 	uchar_t	buf_size_leot_msb;	/* Buffer size after early warning */
496 	uchar_t	buf_size_leot_mid;
497 	uchar_t	buf_size_leot_lsb;
498 	uchar_t	comp_alg;		/* Compression Algorithm (enable) */
499 	uchar_t	wtre:		2,	/* Worm Tamper Read Enable */
500 		oir:		1,	/* Only If Reserved */
501 		rew_on_rst:	2,	/* rewind on reset */
502 		asocwp:		1,	/* associated write protect */
503 		perswp:		1,	/* persistant write protection */
504 		prmwp:		1;	/* PeRManent Write Protect */
505 #endif
506 };
507 
508 typedef union {
509 	struct comp_mode_page	comp;
510 	struct dev_mode_page	dev;
511 }modepage;
512 
513 /*
514  *
515  * Parameter list for the MODE_SELECT and MODE_SENSE commands.
516  * The parameter list contains a header, followed by zero or more
517  * block descriptors, followed by vendor unique parameters, if any.
518  *
519  */
520 #define	MSIZE	0x0c		/* Size without additional pages */
521 struct seq_mode {
522 #if defined(_BIT_FIELDS_LTOH)
523 	uchar_t	data_len;	/* sense data length, sense only */
524 	uchar_t	media_type;	/* medium type, sense only */
525 	uchar_t	speed	:4,	/* speed */
526 		bufm	:3,	/* buffered mode */
527 		wp	:1;	/* write protected, sense only */
528 	uchar_t	bd_len;		/* block length in bytes */
529 	uchar_t	density;	/* density code */
530 	uchar_t	high_nb;	/* number of logical blocks on the medium */
531 	uchar_t	mid_nb;		/* that are to be formatted with the density */
532 	uchar_t	low_nb;		/* code and block length in block descriptor */
533 	uchar_t	reserved;	/* reserved */
534 	uchar_t	high_bl;	/* block length */
535 	uchar_t	mid_bl;		/*   "      "   */
536 	uchar_t	low_bl;		/*   "      "   */
537 	uchar_t page_code:	6,
538 		:		1,
539 		ps:		1; /* Page Savable sense only */
540 	uchar_t	page_len;
541 	modepage page;
542 
543 #elif defined(_BIT_FIELDS_HTOL)
544 	uchar_t	data_len;	/* sense data length, sense only */
545 	uchar_t	media_type;	/* medium type, sense only */
546 	uchar_t	wp	:1,	/* write protected, sense only */
547 		bufm	:3,	/* buffered mode */
548 		speed	:4;	/* speed */
549 	uchar_t	bd_len;		/* block length in bytes */
550 	uchar_t	density;	/* density code */
551 	uchar_t	high_nb;	/* number of logical blocks on the medium */
552 	uchar_t	mid_nb;		/* that are to be formatted with the density */
553 	uchar_t	low_nb;		/* code and block length in block descriptor */
554 	uchar_t	reserved;	/* reserved */
555 	uchar_t	high_bl;	/* block length */
556 	uchar_t	mid_bl;		/*   "      "   */
557 	uchar_t	low_bl;		/*   "      "   */
558 	uchar_t	ps:		1, /* Page Savable sense only */
559 		:		1,
560 		page_code:	6;
561 	uchar_t	page_len;
562 	modepage page;
563 #else
564 #error	One of _BIT_FIELDS_LTOH or _BIT_FIELDS_HTOL must be defined
565 #endif	/* _BIT_FIELDS_LTOH */
566 };
567 
568 /*
569  * Data returned from the READ BLOCK LIMITS command.
570  */
571 
572 #define	RBLSIZE	(sizeof (struct read_blklim))
573 struct read_blklim {
574 #if defined(_BIT_FIELDS_HTOL)
575 	uchar_t	reserved:	3;	/* reserved */
576 	uchar_t granularity:	5;	/* Minimum Modularity */
577 #elif defined(_BIT_FIELDS_LTOH)
578 	uchar_t granularity:	5;	/* Minimum Modularity */
579 	uchar_t	reserved:	3;	/* reserved */
580 #endif
581 	uchar_t	max_hi;			/* Maximum block length, high byte */
582 	uchar_t	max_mid;		/* Maximum block length, middle byte */
583 	uchar_t	max_lo;			/* Maximum block length, low byte */
584 	uchar_t	min_hi;			/* Minimum block length, high byte */
585 	uchar_t	min_lo;			/* Minimum block length, low byte */
586 };
587 
588 #ifdef _KERNEL
589 
590 #if defined(__i386) || defined(__amd64)
591 /* Data structure used in big block I/O on x86/x64 platform */
592 
593 /*
594  * alloc more than one contig_mem, so mutiple I/O can be
595  * on-going simultaneously
596  */
597 #define	ST_MAX_CONTIG_MEM_NUM	3
598 
599 /*
600  * 60K is used due to the limitation(size) of the intermediate buffer
601  * in DMA bind code(rootnex.c), which is 64K. If the I/O buf is page
602  * aligned, HBA can do 64K DMA, but if not, HBA can only do
603  * 64K - PAGESIZE = 60K DMA due to the copy to/from intermediate
604  * buffer will keep the page offset.
605  */
606 #define	ST_BIGBLK_XFER		60 * 1024
607 struct contig_mem {
608 	struct contig_mem *cm_next;
609 	size_t cm_len;
610 	caddr_t cm_addr;
611 	ddi_acc_handle_t cm_acc_hdl;
612 	struct buf *cm_bp;
613 	int cm_use_sbuf;
614 };
615 
616 #endif
617 
618 #endif /* _KERNEL */
619 
620 /*
621  * eof/eot/eom codes.
622  */
623 
624 typedef enum {
625 	ST_NO_EOF,		/* 0x00 */
626 	ST_EOF_PENDING,		/* 0x01	filemark pending */
627 	ST_EOF,			/* 0x02	at filemark */
628 	ST_EOT_PENDING,		/* 0x03	logical eot pending */
629 	ST_EOT,			/* 0x04	at logical eot */
630 	ST_EOM,			/* 0x05	at physical eot */
631 	ST_WRITE_AFTER_EOM	/* 0x06	flag for allowing writes after EOM */
632 }media_st;
633 
634 #define	IN_EOF(un)	(un->un_eof == ST_EOF_PENDING || un->un_eof == ST_EOF)
635 
636 /*
637  * operation codes
638  */
639 typedef enum {
640 	ST_OP_NIL,	/* 0 */
641 	ST_OP_CTL,	/* 1 */
642 	ST_OP_READ,	/* 2 */
643 	ST_OP_WRITE,	/* 3 */
644 	ST_OP_WEOF	/* 4 */
645 }optype;
646 
647 typedef enum { RDWR, RDONLY, WORM, RDWORM, ERROR  } writablity;
648 
649 /*
650  * Private info for scsi tapes. Pointed to by the un_private pointer
651  * of one of the SCSI_DEVICE chains.
652  */
653 
654 struct scsi_tape {
655 	struct scsi_device *un_sd;	/* back pointer to SCSI_DEVICE */
656 	struct scsi_pkt *un_rqs;	/* ptr to request sense command */
657 	struct scsi_pkt *un_mkr_pkt;	/* ptr to marker packet */
658 	kcondvar_t un_sbuf_cv;		/* cv on ownership of special buf */
659 	kcondvar_t un_queue_cv;		/* cv on all queued commands */
660 	struct	buf *un_sbufp;		/* for use in special io */
661 	char	*un_srqbufp;		/* sense buffer for special io */
662 	kcondvar_t un_clscv;		/* closing cv */
663 	struct	buf *un_quef;		/* head of wait queue */
664 	struct	buf *un_quel;		/* tail of wait queue */
665 	struct	buf *un_runqf;		/* head of run queue */
666 	struct	buf *un_runql;		/* tail of run queue */
667 	struct seq_mode *un_mspl;	/* ptr to mode select info */
668 	struct st_drivetype *un_dp;	/* ptr to drive table entry */
669 	uint_t	un_dp_size;		/* size of un_dp alloc'ed */
670 	caddr_t	un_tmpbuf;		/* buf for append, autodens ops */
671 	daddr_t	un_blkno;		/* block # in file (512 byte blocks) */
672 	int	un_oflags;		/* open flags */
673 	int	un_fileno;		/* current file number on tape */
674 	int	un_err_fileno;		/* file where error occurred */
675 	daddr_t	un_err_blkno;		/* block in file where err occurred */
676 	uint_t	un_err_resid;		/* resid from last error */
677 	short	un_fmneeded;		/* filemarks to be written - HP only */
678 	dev_t	un_dev;			/* unix device */
679 	uchar_t	un_attached;		/* unit known && attached */
680 	int	un_pwr_mgmt;		/* power management state */
681 	uchar_t	un_density_known;	/* density is known */
682 	uchar_t	un_curdens;		/* index into density table */
683 	optype	un_lastop;		/* last I/O was: read/write/ctl */
684 	media_st un_eof;		/* eof states */
685 	uchar_t	un_laststate;		/* last state */
686 	uchar_t	un_state;		/* current state */
687 	uchar_t	un_status;		/* status from last sense */
688 	uchar_t	un_retry_ct;		/* retry count */
689 	uchar_t	un_tran_retry_ct;	/* transport retry count */
690 	writablity un_read_only;	/* RDWR, RDONLY, WORM, RDWORM */
691 	uchar_t	un_test_append;		/* check writing at end of tape */
692 	uchar_t un_arq_enabled;		/* auto request sense enabled */
693 	uchar_t un_untagged_qing;	/* hba has untagged quing */
694 	uchar_t	un_allow_large_xfer;	/* allow >64k xfers if requested */
695 	uchar_t	un_sbuf_busy;		/* sbuf busy flag */
696 	uchar_t	un_ncmds;		/* number of commands outstanding */
697 	uchar_t	un_throttle;		/* curr. max number of cmds outst. */
698 	uchar_t	un_last_throttle;	/* saved max number of cmds outst. */
699 	uchar_t	un_max_throttle;	/* max poss. number cmds outstanding */
700 	uchar_t	un_persistence;		/* 1 = persistence on, 0 off */
701 	uchar_t	un_persist_errors;	/* 1 = persistenced flagged */
702 	uchar_t	un_flush_on_errors;	/* HBA will flush all I/O's on a */
703 					/* check condidtion or error */
704 	uint_t	un_kbytes_xferred;	/* bytes (in K) counter */
705 	uint_t	un_last_resid;		/* keep last resid, for PE */
706 	uint_t	un_last_count;		/* keep last count, for PE */
707 	struct 	kstat *un_stats;	/* for I/O statistics */
708 	struct buf *un_rqs_bp;		/* bp used in rqpkt */
709 	struct	buf *un_wf;		/* head of write queue */
710 	struct	buf *un_wl;		/* tail of write queue */
711 	struct	read_blklim *un_rbl;	/* ptr to read block limit info */
712 	int	un_maxdma;		/* max dma xfer allowed by HBA */
713 	uint_t	un_bsize;		/* block size currently being used */
714 	int	un_maxbsize;		/* max block size allowed by drive */
715 	uint_t	un_minbsize;		/* min block size allowed by drive */
716 	int	un_errno;		/* errno (b_error) */
717 	kcondvar_t	un_state_cv;	/* mediastate condition variable */
718 	enum mtio_state	un_mediastate;	/* current media state */
719 	enum mtio_state	un_specified_mediastate;	/* expected state */
720 	timeout_id_t	un_delay_tid;	/* delayed cv tid */
721 	timeout_id_t	un_hib_tid;	/* handle interrupt busy tid */
722 	opaque_t	un_swr_token;	/* scsi_watch request token */
723 	uchar_t	un_comp_page;		/* compression page */
724 	uchar_t	un_rsvd_status;		/* Reservation Status */
725 	kstat_t *un_errstats;		/* for error statistics */
726 	int	un_init_options;  	/* Init time drive options */
727 	int	un_save_fileno;		/* Save here for recovery */
728 	daddr_t	un_save_blkno;		/* Save here for recovery */
729 	uchar_t	un_restore_pos;		/* Indication to do recovery */
730 	int	un_suspend_fileno;	/* Save fileno for SUSPEND */
731 	daddr_t	un_suspend_blkno;	/* Save blkno for SUSPEND */
732 	uchar_t	un_silent_skip;		/* to catch short reads */
733 	short	un_tids_at_suspend; /* timeouts set at suspend */
734 	kcondvar_t	un_tape_busy_cv;	/* busy cv */
735 	kcondvar_t	un_suspend_cv;	/* busy cv */
736 					/* restore on close */
737 	uchar_t	un_eject_tape_on_failure; /* 1 = eject tape, 0 = don't */
738 	uchar_t	un_HeadClean; 		/* support and need head cleaning? */
739 	uchar_t	un_rqs_state;		/* see define below */
740 	caddr_t	un_uscsi_rqs_buf;	/* uscsi_rqs: buffer for RQS data */
741 	uchar_t	un_data_mod;		/* Device required data mod */
742 	writablity (*un_wormable) (struct scsi_tape *un); /* worm test fuct */
743 	int un_max_cdb_sz;		/* max cdb size to use */
744 
745 #if defined(__i386) || defined(__amd64)
746 	ddi_dma_handle_t un_contig_mem_hdl;
747 	struct contig_mem *un_contig_mem;
748 	int un_contig_mem_available_num;
749 	int un_contig_mem_total_num;
750 	size_t un_max_contig_mem_len;
751 	kcondvar_t un_contig_mem_cv;
752 #endif
753 
754 };
755 
756 
757 /*
758  * device error kstats
759  */
760 struct st_errstats {
761 	struct kstat_named	st_softerrs;
762 	struct kstat_named	st_harderrs;
763 	struct kstat_named	st_transerrs;
764 	struct kstat_named	st_vid;
765 	struct kstat_named	st_pid;
766 	struct kstat_named	st_revision;
767 	struct kstat_named	st_serial;
768 };
769 
770 /*
771  * generic log page struct
772  */
773 struct log_page {
774 #if defined(_BIT_FIELDS_LTOH)
775 	uchar_t	code	:6,	/* page code number */
776 			:2;	/* reserved */
777 #elif defined(_BIT_FIELDS_HTOL)
778 	uchar_t		:2,	/* reserved */
779 		code	:6;	/* page code number */
780 #endif	/* _BIT_FIELDS_LTOH */
781 	uchar_t	reserved;	/* reserved */
782 	uchar_t	length_hi;	/* length of bytes to follow (msb) */
783 	uchar_t	length_lo;	/* length of bytes to follow (lsb) */
784 	/*
785 	 * Log parameters follow right after this...
786 	 */
787 };
788 
789 /*
790  * generic log page parameter struct
791  */
792 struct log_param {
793 	uchar_t	pc_hi;			/* parameter code (msb) */
794 	uchar_t	pc_lo;			/* parameter code (lsb) */
795 #if defined(_BIT_FIELDS_LTOH)
796 	uchar_t		lp	: 1,	/* list parameter */
797 				: 1,	/* reserved */
798 			tmc	: 2,	/* threshold met criteria */
799 			etc	: 1,	/* enable threshold comparison */
800 			tsd	: 1,	/* target save disable */
801 			ds	: 1,	/* disable save */
802 			du	: 1;	/* disable update */
803 #elif defined(_BIT_FIELDS_HTOL)
804 	uchar_t		du	: 1,	/* disable update */
805 			ds	: 1,	/* disable save */
806 			tsd	: 1,	/* target save disable */
807 			etc	: 1,	/* enable threshold comparison */
808 			tmc	: 2,	/* threshold met criteria */
809 				: 1,	/* reserved */
810 			lp	: 1;	/* list parameter */
811 #endif	/* _BIT_FIELDS_LTOH */
812 	uchar_t	length;		/* length of bytes to follow */
813 	/*
814 	 * Parameter values follow right after this...
815 	 */
816 };
817 /*
818  * TapeAlert structures
819  */
820 
821 struct st_tape_alert_parameter {
822 	struct log_param log_param;
823 	uchar_t	param_value;
824 };
825 
826 struct st_tape_alert {
827 	struct log_page log_page;
828 	struct st_tape_alert_parameter param[TAPE_ALERT_MAX_PARA];
829 };
830 
831 #define	TAPE_ALERT_PARAMETER_LENGTH \
832 	(sizeof (struct st_tape_alert_parameter)) * TAPE_ALERT_MAX_PARA
833 
834 struct log_sequential_page_parameter {
835 	struct log_param log_param;
836 	uchar_t param_value[8];
837 };
838 
839 struct log_sequential_page {
840 	struct log_page log_page;
841 	struct log_sequential_page_parameter param[TAPE_SEQUENTIAL_PAGE_PARA];
842 };
843 
844 #if !defined(__lint)
845 _NOTE(MUTEX_PROTECTS_DATA(scsi_device::sd_mutex, scsi_tape))
846 _NOTE(SCHEME_PROTECTS_DATA("stable data", scsi_tape::un_dp))
847 _NOTE(SCHEME_PROTECTS_DATA("stable data", scsi_tape::un_sd))
848 _NOTE(SCHEME_PROTECTS_DATA("not shared", scsi_tape::un_rqs))
849 _NOTE(SCHEME_PROTECTS_DATA("protected by cv", scsi_tape::un_sbufp))
850 _NOTE(DATA_READABLE_WITHOUT_LOCK(scsi_tape::un_bsize))
851 _NOTE(SCHEME_PROTECTS_DATA("not shared", scsi_arq_status))
852 _NOTE(SCHEME_PROTECTS_DATA("save sharing",
853 	scsi_tape::un_allow_large_xfer
854 	scsi_tape::un_maxbsize
855 	scsi_tape::un_maxdma
856 ))
857 #if defined(__i386) || defined(__amd64)
858 _NOTE(DATA_READABLE_WITHOUT_LOCK(scsi_tape::un_contig_mem_hdl))
859 _NOTE(SCHEME_PROTECTS_DATA("not shared", contig_mem))
860 #endif
861 #endif
862 
863 
864 /*
865  * driver states..
866  */
867 #define	ST_STATE_CLOSED				0
868 #define	ST_STATE_OFFLINE			1
869 #define	ST_STATE_INITIALIZING			2
870 #define	ST_STATE_OPENING			3
871 #define	ST_STATE_OPEN_PENDING_IO		4
872 #define	ST_STATE_APPEND_TESTING			5
873 #define	ST_STATE_OPEN				6
874 #define	ST_STATE_RESOURCE_WAIT			7
875 #define	ST_STATE_CLOSING			8
876 #define	ST_STATE_SENSING			9
877 #define	ST_STATE_CLOSE_PENDING_OPEN		10
878 
879 /*
880  * Power management state
881  */
882 #define	ST_PWR_NORMAL				0
883 #define	ST_PWR_SUSPENDED			1
884 
885 
886 
887 
888 /* un_rqs_state codes */
889 
890 #define	ST_RQS_OVR		0x1	/* RQS data was overwritten */
891 #define	ST_RQS_VALID		0x2	/* RQS data is valid */
892 #define	ST_RQS_READ		0x4	/* RQS data was read */
893 #define	ST_RQS_ERROR		0x8	/* RQS resulted in an EIO */
894 
895 /*
896  * stintr codes
897  */
898 
899 #define	COMMAND_DONE					0
900 #define	COMMAND_DONE_ERROR				1
901 #define	COMMAND_DONE_ERROR_RECOVERED			2
902 #define	QUE_COMMAND					3
903 #define	QUE_BUSY_COMMAND				4
904 #define	QUE_SENSE					5
905 #define	JUST_RETURN					6
906 #define	COMMAND_DONE_EACCES				7
907 #define	QUE_LAST_COMMAND				8
908 
909 
910 /*
911  *	Reservation Status
912  *
913  * ST_INIT_RESERVE      -Used to check if the reservation has been lost
914  *		         in between opens and also to indicate the reservation
915  *		         has not been done till now.
916  * ST_RELEASE	        -Tape Unit is Released.
917  * ST_RESERVE	        -Tape Unit is Reserved.
918  * ST_PRESERVE_RESERVE  -Reservation is to be preserved across opens.
919  *
920  */
921 #define	ST_INIT_RESERVE			0x001
922 #define	ST_RELEASE			0x002
923 #define	ST_RESERVE			0x004
924 #define	ST_PRESERVE_RESERVE		0x008
925 #define	ST_RESERVATION_CONFLICT 	0x010
926 #define	ST_LOST_RESERVE			0x020
927 #define	ST_APPLICATION_RESERVATIONS	0x040
928 #define	ST_LOST_RESERVE_BETWEEN_OPENS  \
929 		(ST_RESERVE | ST_LOST_RESERVE | ST_PRESERVE_RESERVE)
930 
931 /*
932  * Service action defines for Persistant Reservation Commands
933  */
934 #define	ST_SA_SCSI3_REGISTER			0x00
935 #define	ST_SA_SCSI3_RESERVE			0x01
936 #define	ST_SA_SCSI3_RELEASE			0x02
937 #define	ST_SA_SCSI3_CLEAR			0x03
938 #define	ST_SA_SCSI3_PREEMPT			0x04
939 #define	ST_SA_SCSI3_PREEMPTANDABORT		0x05
940 #define	ST_SA_SCSI3_REGISTERANDIGNOREKEY	0x06
941 #define	ST_SA_MASK				0x1f
942 
943 #define	ST_RESERVATION_DELAY		500000
944 
945 /*
946  * Asynch I/O tunables
947  */
948 #define	ST_MAX_THROTTLE		4
949 
950 /*
951  * 60 minutes seems a reasonable amount of time
952  * to wait for tape space operations to complete.
953  *
954  */
955 #define	ST_SPACE_TIME	MINUTES(60)	/* 60 minutes per space operation */
956 #define	ST_LONG_SPACE_TIME_X	5	/* multipiler for long space ops */
957 
958 /*
959  * 2 minutes seems a reasonable amount of time
960  * to wait for tape i/o operations to complete.
961  *
962  */
963 #define	ST_IO_TIME	MINUTES(2)	/* minutes per i/o */
964 #define	ST_LONG_TIMEOUT_X	5	/* multiplier for very long timeouts */
965 
966 
967 /*
968  * 10 seconds is what we'll wait if we get a Busy Status back
969  */
970 #define	ST_STATUS_BUSY_TIMEOUT	10*hz	/* seconds Busy Waiting */
971 #define	ST_TRAN_BUSY_TIMEOUT	1*hz	/* seconds retry on TRAN_BSY */
972 #define	ST_INTERRUPT_CONTEXT	1
973 #define	ST_START_CONTEXT	2
974 
975 /*
976  * Number of times we'll retry a normal operation.
977  *
978  * XXX This includes retries due to transport failure as well as
979  * XXX busy timeouts- Need to distinguish between Target and Transport
980  * XXX failure.
981  */
982 
983 #define	ST_RETRY_COUNT		20
984 
985 /*
986  * Number of times to retry a failed selection
987  */
988 #define	ST_SEL_RETRY_COUNT		2
989 
990 /*
991  * es_code value for deferred error
992  * should be moved to sense.h
993  */
994 
995 #define	ST_DEFERRED_ERROR		0x01
996 
997 /*
998  * Maximum number of units (determined by minor device byte)
999  */
1000 #define	ST_MAXUNIT	128
1001 
1002 /*
1003  * Time to wait for completion of a command before cancelling it.
1004  * For SUSPEND use only
1005  */
1006 #define	ST_WAIT_CMDS_COMPLETE		10	/* seconds */
1007 
1008 #ifndef	SECSIZE
1009 #define	SECSIZE	512
1010 #endif
1011 #ifndef	SECDIV
1012 #define	SECDIV	9
1013 #endif
1014 
1015 /*
1016  * convenient defines
1017  */
1018 #define	ST_SCSI_DEVP	(un->un_sd)
1019 #define	ST_DEVINFO		(ST_SCSI_DEVP->sd_dev)
1020 #define	ST_INQUIRY		(ST_SCSI_DEVP->sd_inq)
1021 #define	ST_RQSENSE		(ST_SCSI_DEVP->sd_sense)
1022 #define	ST_MUTEX		(&ST_SCSI_DEVP->sd_mutex)
1023 #define	ROUTE			(&ST_SCSI_DEVP->sd_address)
1024 
1025 #define	BSD_BEHAVIOR	(getminor(un->un_dev) & MT_BSD)
1026 #define	SVR4_BEHAVIOR	((getminor(un->un_dev) & MT_BSD) == 0)
1027 #define	SCBP(pkt)		((struct scsi_status *)(pkt)->pkt_scbp)
1028 #define	SCBP_C(pkt)		((*(pkt)->pkt_scbp) & STATUS_MASK)
1029 #define	CDBP(pkt)		((union scsi_cdb *)(pkt)->pkt_cdbp)
1030 #define	BP_PKT(bp)		((struct scsi_pkt *)(bp)->av_back)
1031 #define	SET_BP_PKT(bp, pkt)	((bp)->av_back = (struct buf *)(pkt))
1032 #define	BP_UCMD(bp)		((struct uscsi_cmd *)(bp)->b_back)
1033 #define	USCSI_CMD(bp)	(((bp) == un->un_sbufp) && (BP_UCMD(bp)))
1034 
1035 #define	IS_CLOSING(un)	((un)->un_state == ST_STATE_CLOSING || \
1036 	((un)->un_state == ST_STATE_SENSING && \
1037 		(un)->un_laststate == ST_STATE_CLOSING))
1038 
1039 #define	ASYNC_CMD	0
1040 #define	SYNC_CMD	1
1041 
1042 /*
1043  * Flush tape wait queue as needed.
1044  */
1045 
1046 #define	IS_PE_FLAG_SET(un) ((un)->un_persistence && (un)->un_persist_errors)
1047 
1048 #define	TURN_PE_ON(un)		st_turn_pe_on(un)
1049 #define	TURN_PE_OFF(un)		st_turn_pe_off(un)
1050 #define	SET_PE_FLAG(un)		st_set_pe_flag(un)
1051 #define	CLEAR_PE(un)		st_clear_pe(un)
1052 
1053 #define	st_bioerror(bp, error) \
1054 		{ bioerror(bp, error); \
1055 		un->un_errno = error; }
1056 
1057 /*
1058  * Macros for internal coding of count for SPACE command:
1059  *
1060  * Isfmk is 1 when spacing filemarks; 0 when spacing records:
1061  * bit 24 set indicates a space filemark command.
1062  * Fmk sets the filemark bit (24) and changes a backspace
1063  * count into a positive number with the sign bit set.
1064  * Blk changes a backspace count into a positive number with
1065  * the sign bit set.
1066  * space_cnt converts backwards counts to negative numbers.
1067  */
1068 #define	Isfmk(x)	((x & (1<<24)) != 0)
1069 #define	Fmk(x)		((1<<24)|((x < 0) ? ((-(x)) | (1<<30)): x))
1070 #define	Blk(x)		((x < 0)? ((-(x))|(1<<30)): x)
1071 #define	space_cnt(x)	(((x) & (1<<30))? (-((x)&((1<<24)-1))):(x)&((1<<24)-1))
1072 
1073 
1074 #define	GET_SOFT_STATE(dev)						\
1075 	register struct scsi_tape *un;					\
1076 	register int instance;						\
1077 									\
1078 	instance = MTUNIT(dev);						\
1079 	if ((un = ddi_get_soft_state(st_state, instance)) == NULL)	\
1080 		return (ENXIO);
1081 
1082 /*
1083  * Debugging turned on via conditional compilation switch -DSTDEBUG
1084  */
1085 #ifdef DEBUG
1086 #define	STDEBUG
1087 #endif
1088 
1089 #ifdef	STDEBUG
1090 #define	DEBUGGING	((scsi_options & SCSI_DEBUG_TGT) || st_debug > 1)
1091 
1092 
1093 #define	ST_DEBUG1	if (st_debug >= 1) scsi_log	/* initialization */
1094 #define	ST_DEBUG	ST_DEBUG1
1095 
1096 #define	ST_DEBUG2	if (st_debug >= 2) scsi_log	/* errors and UA's */
1097 #define	ST_DEBUG3	if (st_debug >= 3) scsi_log	/* func calls */
1098 #define	ST_DEBUG4	if (st_debug >= 4) scsi_log	/* ioctl calls */
1099 #define	ST_DEBUG5	if (st_debug >= 5) scsi_log
1100 #define	ST_DEBUG6	if (st_debug >= 6) scsi_log	/* full data tracking */
1101 
1102 #define	ST_DEBUG_SP	if (st_debug == 10) scsi_log	/* special cases */
1103 
1104 #else
1105 
1106 #define	st_debug	(0)
1107 #define	DEBUGGING	(0)
1108 #define	ST_DEBUG	if (0) scsi_log
1109 #define	ST_DEBUG1	if (0) scsi_log
1110 #define	ST_DEBUG2	if (0) scsi_log
1111 #define	ST_DEBUG3	if (0) scsi_log
1112 #define	ST_DEBUG4	if (0) scsi_log
1113 #define	ST_DEBUG5	if (0) scsi_log
1114 #define	ST_DEBUG6	if (0) scsi_log
1115 
1116 #define	ST_DEBUG_SP	if (0) scsi_log /* special cases */
1117 
1118 #endif
1119 
1120 /*
1121  * Media access values
1122  */
1123 #define	MEDIA_ACCESS_DELAY 5000000	/* usecs wait for media state change */
1124 
1125 /*
1126  * SCSI tape mode sense page information
1127  */
1128 #define	ST_DEV_CONFIG_PAGE	0x10	/* device config mode page */
1129 #define	ST_DEV_CONFIG_NO_COMP	0x00	/* use no compression */
1130 #define	ST_DEV_CONFIG_DEF_COMP	0x01	/* use default compression alg */
1131 #define	ST_COMPRESSION_DENSITY	3	/* compression minor number */
1132 
1133 /*
1134  * SCSI tape data compression Page definition.
1135  */
1136 #define	ST_DEV_DATACOMP_PAGE	0x0F	/* data compression page */
1137 
1138 
1139 
1140 /*
1141  * maxbsize values
1142  */
1143 #define	MAXBSIZE_UNKNOWN	-2	/*  not found yet */
1144 
1145 #define	ONE_MEG			(1024 * 1024)
1146 
1147 /*
1148  * generic soft error reporting
1149  *
1150  * What we are doing here is allowing a greater number of errors to occur on
1151  * smaller transfers (i.e. usually at the beginning of the tape), than on
1152  * the rest of the tape.
1153  *
1154  * A small transfer is defined as :
1155  * Transfers <= SOFT_ERROR_WARNING_THRESHOLD  allow about 1.5 times more errors
1156  *
1157  * A larget tranfer is defined as :
1158  * Transfers >  SOFT_ERROR_WARNING_THRESHOLD  allow normal amount
1159  *
1160  */
1161 #define	READ_SOFT_ERROR_WARNING_THRESHOLD    (25 * ONE_MEG)
1162 #define	WRITE_SOFT_ERROR_WARNING_THRESHOLD    (20 * ONE_MEG)
1163 
1164 /*
1165  * soft error reporting for exabyte
1166  */
1167 #define	TAPE_SENSE_LENGTH	32	/* allows for softerror info */
1168 
1169 #define	SENSE_19_BITS  \
1170 	"\20\10PF\07BPE\06FPE\05ME\04ECO\03TME\02TNP\01LBOT"
1171 #define	SENSE_20_BITS  \
1172 	"\20\10RSVD\07RSVD\06WP\05FMKE\04URE\03WE1\02SSE\01FW"
1173 #define	SENSE_21_BITS  \
1174 	"\20\10RSVD\07RSVD\06RRR\05CLND\04CLN\03PEOT\02WSEB\01WSE0"
1175 
1176 /* these are defined in percentages */
1177 #define	EXABYTE_WRITE_ERROR_THRESHOLD	6
1178 #define	EXABYTE_READ_ERROR_THRESHOLD	3
1179 /*
1180  * minumum amount of data transfer(MB) for checking soft error rate.
1181  */
1182 #define	EXABYTE_MIN_TRANSFER			(25 * ONE_MEG)
1183 
1184 #define	CLN	0x8
1185 #define	CLND	0x10
1186 
1187 /*
1188  * soft error reporting for Archive 4mm DAT
1189  */
1190 
1191 #define	LOG_SENSE_LENGTH		0xff
1192 #define	MIN_LOG_SENSE_LENGTH		0x2b
1193 #define	DAT_SMALL_WRITE_ERROR_THRESHOLD	40	/* retries per 20 mg */
1194 #define	DAT_LARGE_WRITE_ERROR_THRESHOLD	200	/* retries for more 20 mg */
1195 #define	DAT_SMALL_READ_ERROR_THRESHOLD	5	/* errors allowed */
1196 #define	DAT_LARGE_READ_ERROR_THRESHOLD	3	/* errors allowed */
1197 
1198 /*
1199  * ST timeouts that need to be cancelled for suspend
1200  */
1201 #define	ST_HIB_TID	0x01
1202 #define	ST_DELAY_TID	0x02
1203 
1204 #ifdef	__cplusplus
1205 }
1206 #endif
1207 
1208 #endif	/* _SYS_SCSI_TARGETS_STDEF_H */
1209