1
/*-
2
 * Data structures and definitions for CAM Control Blocks (CCBs).
3
 *
4
 * SPDX-License-Identifier: BSD-2-Clause
5
 *
6
 * Copyright (c) 1997, 1998 Justin T. Gibbs.
7
 * All rights reserved.
8
 *
9
 * Redistribution and use in source and binary forms, with or without
10
 * modification, are permitted provided that the following conditions
11
 * are met:
12
 * 1. Redistributions of source code must retain the above copyright
13
 *    notice, this list of conditions, and the following disclaimer,
14
 *    without modification, immediately at the beginning of the file.
15
 * 2. The name of the author may not be used to endorse or promote products
16
 *    derived from this software without specific prior written permission.
17
 *
18
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
19
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
20
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
21
 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR
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 * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
23
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
24
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
25
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
26
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
27
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
28
 * SUCH DAMAGE.
29
 */
30

31
#ifndef _CAM_CAM_CCB_H
32
#define _CAM_CAM_CCB_H 1
33

34
#include <sys/queue.h>
35
#include <sys/time.h>
36
#include <sys/limits.h>
37
#ifndef _KERNEL
38
#include <sys/callout.h>
39
#endif
40
#include <cam/cam_debug.h>
41
#include <cam/scsi/scsi_all.h>
42
#include <cam/ata/ata_all.h>
43
#include <cam/nvme/nvme_all.h>
44
#include <cam/mmc/mmc_all.h>
45

46
/* General allocation length definitions for CCB structures */
47
#define	IOCDBLEN	CAM_MAX_CDBLEN	/* Space for CDB bytes/pointer */
48
#define	VUHBALEN	14		/* Vendor Unique HBA length */
49
#define	SIM_IDLEN	16		/* ASCII string len for SIM ID */
50
#define	HBA_IDLEN	16		/* ASCII string len for HBA ID */
51
#define	DEV_IDLEN	16		/* ASCII string len for device names */
52
#define CCB_PERIPH_PRIV_SIZE 	2	/* size of peripheral private area */
53
#define CCB_SIM_PRIV_SIZE 	2	/* size of sim private area */
54

55
/* Struct definitions for CAM control blocks */
56

57
/* Common CCB header */
58

59
/* CCB memory allocation flags */
60
typedef enum {
61
	CAM_CCB_FROM_UMA	= 0x00000001,/* CCB from a periph UMA zone */
62
} ccb_alloc_flags;
63

64
/* CAM CCB flags */
65
typedef enum {
66
	CAM_CDB_POINTER		= 0x00000001,/* The CDB field is a pointer    */
67
	CAM_unused1		= 0x00000002,
68
	CAM_unused2		= 0x00000004,
69
	CAM_NEGOTIATE		= 0x00000008,/*
70
					      * Perform transport negotiation
71
					      * with this command.
72
					      */
73
	CAM_DATA_ISPHYS		= 0x00000010,/* Data type with physical addrs */
74
	CAM_DIS_AUTOSENSE	= 0x00000020,/* Disable autosense feature     */
75
	CAM_DIR_BOTH		= 0x00000000,/* Data direction (00:IN/OUT)    */
76
	CAM_DIR_IN		= 0x00000040,/* Data direction (01:DATA IN)   */
77
	CAM_DIR_OUT		= 0x00000080,/* Data direction (10:DATA OUT)  */
78
	CAM_DIR_NONE		= 0x000000C0,/* Data direction (11:no data)   */
79
	CAM_DIR_MASK		= 0x000000C0,/* Data direction Mask	      */
80
	CAM_DATA_VADDR		= 0x00000000,/* Data type (000:Virtual)       */
81
	CAM_DATA_PADDR		= 0x00000010,/* Data type (001:Physical)      */
82
	CAM_DATA_SG		= 0x00040000,/* Data type (010:sglist)        */
83
	CAM_DATA_SG_PADDR	= 0x00040010,/* Data type (011:sglist phys)   */
84
	CAM_DATA_BIO		= 0x00200000,/* Data type (100:bio)           */
85
	CAM_DATA_MASK		= 0x00240010,/* Data type mask                */
86
	CAM_unused3		= 0x00000100,
87
	CAM_unused4		= 0x00000200,
88
	CAM_DEV_QFRZDIS		= 0x00000400,/* Disable DEV Q freezing	      */
89
	CAM_DEV_QFREEZE		= 0x00000800,/* Freeze DEV Q on execution     */
90
	CAM_HIGH_POWER		= 0x00001000,/* Command takes a lot of power  */
91
	CAM_SENSE_PTR		= 0x00002000,/* Sense data is a pointer	      */
92
	CAM_SENSE_PHYS		= 0x00004000,/* Sense pointer is physical addr*/
93
	CAM_TAG_ACTION_VALID	= 0x00008000,/* Use the tag action in this ccb*/
94
	CAM_PASS_ERR_RECOVER	= 0x00010000,/* Pass driver does err. recovery*/
95
	CAM_DIS_DISCONNECT	= 0x00020000,/* Disable disconnect	      */
96
	CAM_unused5		= 0x00080000,
97
	CAM_unused6		= 0x00100000,
98
	CAM_CDB_PHYS		= 0x00400000,/* CDB poiner is physical	      */
99
	CAM_unused7		= 0x00800000,
100

101
/* Phase cognizant mode flags */
102
	CAM_unused8		= 0x01000000,
103
	CAM_unused9		= 0x02000000,
104
	CAM_unused10		= 0x04000000,
105
	CAM_unused11		= 0x08000000,
106
	CAM_unused12		= 0x10000000,
107
	CAM_unused13		= 0x20000000,
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	CAM_unused14		= 0x40000000,
109

110
/* Host target Mode flags */
111
	CAM_SEND_SENSE		= 0x08000000,/* Send sense data with status   */
112
	CAM_unused15		= 0x10000000,
113
	CAM_unused16		= 0x20000000,
114
	CAM_SEND_STATUS		= 0x40000000,/* Send status after data phase  */
115

116
	CAM_UNLOCKED		= 0x80000000 /* Call callback without lock.   */
117
} ccb_flags;
118

119
typedef enum {
120
	CAM_USER_DATA_ADDR	= 0x00000002,/* Userspace data pointers */
121
	CAM_SG_FORMAT_IOVEC	= 0x00000004,/* iovec instead of busdma S/G*/
122
	CAM_UNMAPPED_BUF	= 0x00000008 /* use unmapped I/O */
123
} ccb_xflags;
124

125
/* XPT Opcodes for xpt_action */
126
typedef enum {
127
/* Function code flags are bits greater than 0xff */
128
	XPT_FC_QUEUED		= 0x100,
129
				/* Non-immediate function code */
130
	XPT_FC_USER_CCB		= 0x200,
131
	XPT_FC_XPT_ONLY		= 0x400,
132
				/* Only for the transport layer device */
133
	XPT_FC_DEV_QUEUED	= 0x800 | XPT_FC_QUEUED,
134
				/* Passes through the device queues */
135
/* Common function commands: 0x00->0x0F */
136
	XPT_NOOP 		= 0x00,
137
				/* Execute Nothing */
138
	XPT_SCSI_IO		= 0x01 | XPT_FC_DEV_QUEUED,
139
				/* Execute the requested I/O operation */
140
	XPT_GDEV_TYPE		= 0x02,
141
				/* Get type information for specified device */
142
	XPT_GDEVLIST		= 0x03,
143
				/* Get a list of peripheral devices */
144
	XPT_PATH_INQ		= 0x04,
145
				/* Path routing inquiry */
146
	XPT_REL_SIMQ		= 0x05,
147
				/* Release a frozen device queue */
148
	XPT_SASYNC_CB		= 0x06,
149
				/* Set Asynchronous Callback Parameters */
150
	XPT_SDEV_TYPE		= 0x07,
151
				/* Set device type information */
152
	XPT_SCAN_BUS		= 0x08 | XPT_FC_QUEUED | XPT_FC_USER_CCB
153
				       | XPT_FC_XPT_ONLY,
154
				/* (Re)Scan the SCSI Bus */
155
	XPT_DEV_MATCH		= 0x09 | XPT_FC_XPT_ONLY,
156
				/* Get EDT entries matching the given pattern */
157
	XPT_DEBUG		= 0x0a,
158
				/* Turn on debugging for a bus, target or lun */
159
	XPT_PATH_STATS		= 0x0b,
160
				/* Path statistics (error counts, etc.) */
161
	XPT_GDEV_STATS		= 0x0c,
162
				/* Device statistics (error counts, etc.) */
163
	XPT_DEV_ADVINFO		= 0x0e,
164
				/* Get/Set Device advanced information */
165
	XPT_ASYNC		= 0x0f | XPT_FC_QUEUED | XPT_FC_USER_CCB
166
				       | XPT_FC_XPT_ONLY,
167
				/* Asynchronous event */
168
/* SCSI Control Functions: 0x10->0x1F */
169
	XPT_ABORT		= 0x10,
170
				/* Abort the specified CCB */
171
	XPT_RESET_BUS		= 0x11 | XPT_FC_XPT_ONLY,
172
				/* Reset the specified SCSI bus */
173
	XPT_RESET_DEV		= 0x12 | XPT_FC_DEV_QUEUED,
174
				/* Bus Device Reset the specified SCSI device */
175
	XPT_TERM_IO		= 0x13,
176
				/* Terminate the I/O process */
177
	XPT_SCAN_LUN		= 0x14 | XPT_FC_QUEUED | XPT_FC_USER_CCB
178
				       | XPT_FC_XPT_ONLY,
179
				/* Scan Logical Unit */
180
	XPT_GET_TRAN_SETTINGS	= 0x15,
181
				/*
182
				 * Get default/user transfer settings
183
				 * for the target
184
				 */
185
	XPT_SET_TRAN_SETTINGS	= 0x16,
186
				/*
187
				 * Set transfer rate/width
188
				 * negotiation settings
189
				 */
190
	XPT_CALC_GEOMETRY	= 0x17,
191
				/*
192
				 * Calculate the geometry parameters for
193
				 * a device give the sector size and
194
				 * volume size.
195
				 */
196
	XPT_ATA_IO		= 0x18 | XPT_FC_DEV_QUEUED,
197
				/* Execute the requested ATA I/O operation */
198

199
	XPT_GET_SIM_KNOB_OLD	= 0x18, /* Compat only */
200

201
	XPT_SET_SIM_KNOB	= 0x19,
202
				/*
203
				 * Set SIM specific knob values.
204
				 */
205

206
	XPT_GET_SIM_KNOB	= 0x1a,
207
				/*
208
				 * Get SIM specific knob values.
209
				 */
210

211
	XPT_SMP_IO		= 0x1b | XPT_FC_DEV_QUEUED,
212
				/* Serial Management Protocol */
213

214
	XPT_NVME_IO		= 0x1c | XPT_FC_DEV_QUEUED,
215
				/* Execute the requested NVMe I/O operation */
216

217
	XPT_MMC_IO		= 0x1d | XPT_FC_DEV_QUEUED,
218
				/* Placeholder for MMC / SD / SDIO I/O stuff */
219

220
	XPT_SCAN_TGT		= 0x1e | XPT_FC_QUEUED | XPT_FC_USER_CCB
221
				       | XPT_FC_XPT_ONLY,
222
				/* Scan Target */
223

224
	XPT_NVME_ADMIN		= 0x1f | XPT_FC_DEV_QUEUED,
225
				/* Execute the requested NVMe Admin operation */
226

227
/* HBA engine commands 0x20->0x2F */
228
	XPT_ENG_INQ		= 0x20 | XPT_FC_XPT_ONLY,
229
				/* HBA engine feature inquiry */
230
	XPT_ENG_EXEC		= 0x21 | XPT_FC_DEV_QUEUED,
231
				/* HBA execute engine request */
232

233
/* Target mode commands: 0x30->0x3F */
234
	XPT_EN_LUN		= 0x30,
235
				/* Enable LUN as a target */
236
	XPT_TARGET_IO		= 0x31 | XPT_FC_DEV_QUEUED,
237
				/* Execute target I/O request */
238
	XPT_ACCEPT_TARGET_IO	= 0x32 | XPT_FC_QUEUED | XPT_FC_USER_CCB,
239
				/* Accept Host Target Mode CDB */
240
	XPT_CONT_TARGET_IO	= 0x33 | XPT_FC_DEV_QUEUED,
241
				/* Continue Host Target I/O Connection */
242
	XPT_IMMED_NOTIFY	= 0x34 | XPT_FC_QUEUED | XPT_FC_USER_CCB,
243
				/* Notify Host Target driver of event (obsolete) */
244
	XPT_NOTIFY_ACK		= 0x35,
245
				/* Acknowledgement of event (obsolete) */
246
	XPT_IMMEDIATE_NOTIFY	= 0x36 | XPT_FC_QUEUED | XPT_FC_USER_CCB,
247
				/* Notify Host Target driver of event */
248
	XPT_NOTIFY_ACKNOWLEDGE	= 0x37 | XPT_FC_QUEUED | XPT_FC_USER_CCB,
249
				/* Acknowledgement of event */
250
	XPT_REPROBE_LUN		= 0x38 | XPT_FC_QUEUED | XPT_FC_USER_CCB,
251
				/* Query device capacity and notify GEOM */
252

253
	XPT_MMC_SET_TRAN_SETTINGS = 0x40 | XPT_FC_DEV_QUEUED,
254
	XPT_MMC_GET_TRAN_SETTINGS = 0x41 | XPT_FC_DEV_QUEUED,
255

256
/* Vendor Unique codes: 0x80->0x8F */
257
	XPT_VUNIQUE		= 0x80
258
} xpt_opcode;
259

260
#define XPT_FC_GROUP_MASK		0xF0
261
#define XPT_FC_GROUP(op) ((op) & XPT_FC_GROUP_MASK)
262
#define XPT_FC_GROUP_COMMON		0x00
263
#define XPT_FC_GROUP_SCSI_CONTROL	0x10
264
#define XPT_FC_GROUP_HBA_ENGINE		0x20
265
#define XPT_FC_GROUP_TMODE		0x30
266
#define XPT_FC_GROUP_VENDOR_UNIQUE	0x80
267

268
#define XPT_FC_IS_DEV_QUEUED(ccb) 	\
269
    (((ccb)->ccb_h.func_code & XPT_FC_DEV_QUEUED) == XPT_FC_DEV_QUEUED)
270
#define XPT_FC_IS_QUEUED(ccb) 	\
271
    (((ccb)->ccb_h.func_code & XPT_FC_QUEUED) != 0)
272

273
typedef enum {
274
	PROTO_UNKNOWN,
275
	PROTO_UNSPECIFIED,
276
	PROTO_SCSI,	/* Small Computer System Interface */
277
	PROTO_ATA,	/* AT Attachment */
278
	PROTO_ATAPI,	/* AT Attachment Packetized Interface */
279
	PROTO_SATAPM,	/* SATA Port Multiplier */
280
	PROTO_SEMB,	/* SATA Enclosure Management Bridge */
281
	PROTO_NVME,	/* NVME */
282
	PROTO_MMCSD,	/* MMC, SD, SDIO */
283
} cam_proto;
284

285
typedef enum {
286
	XPORT_UNKNOWN,
287
	XPORT_UNSPECIFIED,
288
	XPORT_SPI,	/* SCSI Parallel Interface */
289
	XPORT_FC,	/* Fiber Channel */
290
	XPORT_SSA,	/* Serial Storage Architecture */
291
	XPORT_USB,	/* Universal Serial Bus */
292
	XPORT_PPB,	/* Parallel Port Bus */
293
	XPORT_ATA,	/* AT Attachment */
294
	XPORT_SAS,	/* Serial Attached SCSI */
295
	XPORT_SATA,	/* Serial AT Attachment */
296
	XPORT_ISCSI,	/* iSCSI */
297
	XPORT_SRP,	/* SCSI RDMA Protocol */
298
	XPORT_NVME,	/* NVMe over PCIe */
299
	XPORT_MMCSD,	/* MMC, SD, SDIO card */
300
	XPORT_NVMF,	/* NVMe over Fabrics */
301
	XPORT_UFSHCI,	/* Universal Flash Storage Host Interface */
302
} cam_xport;
303

304
#define XPORT_IS_NVME(t)	((t) == XPORT_NVME || (t) == XPORT_NVMF)
305
#define XPORT_IS_ATA(t)		((t) == XPORT_ATA || (t) == XPORT_SATA)
306
#define XPORT_IS_SCSI(t)	((t) != XPORT_UNKNOWN && \
307
				 (t) != XPORT_UNSPECIFIED && \
308
				 !XPORT_IS_ATA(t) && !XPORT_IS_NVME(t))
309
#define XPORT_DEVSTAT_TYPE(t)	(XPORT_IS_ATA(t) ? DEVSTAT_TYPE_IF_IDE : \
310
				 XPORT_IS_SCSI(t) ? DEVSTAT_TYPE_IF_SCSI : \
311
				 XPORT_IS_NVME(t) ? DEVSTAT_TYPE_IF_NVME : \
312
				 DEVSTAT_TYPE_IF_OTHER)
313

314
#define PROTO_VERSION_UNKNOWN (UINT_MAX - 1)
315
#define PROTO_VERSION_UNSPECIFIED UINT_MAX
316
#define XPORT_VERSION_UNKNOWN (UINT_MAX - 1)
317
#define XPORT_VERSION_UNSPECIFIED UINT_MAX
318

319
typedef union {
320
	LIST_ENTRY(ccb_hdr) le;
321
	SLIST_ENTRY(ccb_hdr) sle;
322
	TAILQ_ENTRY(ccb_hdr) tqe;
323
	STAILQ_ENTRY(ccb_hdr) stqe;
324
} camq_entry;
325

326
typedef union {
327
	void		*ptr;
328
	u_long		field;
329
	uint8_t	bytes[sizeof(uintptr_t)];
330
} ccb_priv_entry;
331

332
typedef union {
333
	ccb_priv_entry	entries[CCB_PERIPH_PRIV_SIZE];
334
	uint8_t	bytes[CCB_PERIPH_PRIV_SIZE * sizeof(ccb_priv_entry)];
335
} ccb_ppriv_area;
336

337
typedef union {
338
	ccb_priv_entry	entries[CCB_SIM_PRIV_SIZE];
339
	uint8_t	bytes[CCB_SIM_PRIV_SIZE * sizeof(ccb_priv_entry)];
340
} ccb_spriv_area;
341

342
typedef struct {
343
	struct timeval	*etime;
344
	uintptr_t	sim_data;
345
	uintptr_t	periph_data;
346
} ccb_qos_area;
347

348
struct ccb_hdr {
349
	cam_pinfo	pinfo;		/* Info for priority scheduling */
350
	camq_entry	xpt_links;	/* For chaining in the XPT layer */
351
	camq_entry	sim_links;	/* For chaining in the SIM layer */
352
	camq_entry	periph_links;	/* For chaining in the type driver */
353
#if BYTE_ORDER == LITTLE_ENDIAN
354
	uint16_t       retry_count;
355
	uint16_t       alloc_flags;	/* ccb_alloc_flags */
356
#else
357
	uint16_t       alloc_flags;	/* ccb_alloc_flags */
358
	uint16_t       retry_count;
359
#endif
360
	void		(*cbfcnp)(struct cam_periph *, union ccb *);
361
					/* Callback on completion function */
362
	xpt_opcode	func_code;	/* XPT function code */
363
	uint32_t	status;		/* Status returned by CAM subsystem */
364
	struct		cam_path *path;	/* Compiled path for this ccb */
365
	path_id_t	path_id;	/* Path ID for the request */
366
	target_id_t	target_id;	/* Target device ID */
367
	lun_id_t	target_lun;	/* Target LUN number */
368
	uint32_t	flags;		/* ccb_flags */
369
	uint32_t	xflags;		/* Extended flags */
370
	ccb_ppriv_area	periph_priv;
371
	ccb_spriv_area	sim_priv;
372
	ccb_qos_area	qos;
373
	uint32_t	timeout;	/* Hard timeout value in mseconds */
374
	struct timeval	softtimeout;	/* Soft timeout value in sec + usec */
375
};
376

377
/* Get Device Information CCB */
378
struct ccb_getdev {
379
	struct	  ccb_hdr ccb_h;
380
	cam_proto protocol;
381
	struct scsi_inquiry_data inq_data;
382
	struct ata_params ident_data;
383
	uint8_t  serial_num[252];
384
	uint8_t  inq_flags;
385
	uint8_t  serial_num_len;
386
	void *padding[2];
387
};
388

389
/* Device Statistics CCB */
390
struct ccb_getdevstats {
391
	struct	ccb_hdr	ccb_h;
392
	int	dev_openings;	/* Space left for more work on device*/
393
	int	dev_active;	/* Transactions running on the device */
394
	int	allocated;	/* CCBs allocated for the device */
395
	int	queued;		/* CCBs queued to be sent to the device */
396
	int	held;		/*
397
				 * CCBs held by peripheral drivers
398
				 * for this device
399
				 */
400
	int	maxtags;	/*
401
				 * Boundary conditions for number of
402
				 * tagged operations
403
				 */
404
	int	mintags;
405
	struct	timeval last_reset;	/* Time of last bus reset/loop init */
406
};
407

408
typedef enum {
409
	CAM_GDEVLIST_LAST_DEVICE,
410
	CAM_GDEVLIST_LIST_CHANGED,
411
	CAM_GDEVLIST_MORE_DEVS,
412
	CAM_GDEVLIST_ERROR
413
} ccb_getdevlist_status_e;
414

415
struct ccb_getdevlist {
416
	struct ccb_hdr		ccb_h;
417
	char 			periph_name[DEV_IDLEN];
418
	uint32_t		unit_number;
419
	unsigned int		generation;
420
	uint32_t		index;
421
	ccb_getdevlist_status_e	status;
422
};
423

424
typedef enum {
425
	PERIPH_MATCH_ANY	= 0x000,
426
	PERIPH_MATCH_PATH	= 0x001,
427
	PERIPH_MATCH_TARGET	= 0x002,
428
	PERIPH_MATCH_LUN	= 0x004,
429
	PERIPH_MATCH_NAME	= 0x008,
430
	PERIPH_MATCH_UNIT	= 0x010,
431
} periph_pattern_flags;
432

433
struct periph_match_pattern {
434
	char			periph_name[DEV_IDLEN];
435
	uint32_t		unit_number;
436
	path_id_t		path_id;
437
	target_id_t		target_id;
438
	lun_id_t		target_lun;
439
	periph_pattern_flags	flags;
440
};
441

442
typedef enum {
443
	DEV_MATCH_ANY		= 0x000,
444
	DEV_MATCH_PATH		= 0x001,
445
	DEV_MATCH_TARGET	= 0x002,
446
	DEV_MATCH_LUN		= 0x004,
447
	DEV_MATCH_INQUIRY	= 0x008,
448
	DEV_MATCH_DEVID		= 0x010,
449
} dev_pattern_flags;
450

451
struct device_id_match_pattern {
452
	uint8_t id_len;
453
	uint8_t id[256];
454
};
455

456
struct device_match_pattern {
457
	path_id_t					path_id;
458
	target_id_t					target_id;
459
	lun_id_t					target_lun;
460
	dev_pattern_flags				flags;
461
	union {
462
		struct scsi_static_inquiry_pattern	inq_pat;
463
		struct device_id_match_pattern		devid_pat;
464
	} data;
465
};
466

467
typedef enum {
468
	BUS_MATCH_ANY		= 0x000,
469
	BUS_MATCH_PATH		= 0x001,
470
	BUS_MATCH_NAME		= 0x002,
471
	BUS_MATCH_UNIT		= 0x004,
472
	BUS_MATCH_BUS_ID	= 0x008,
473
} bus_pattern_flags;
474

475
struct bus_match_pattern {
476
	path_id_t		path_id;
477
	char			dev_name[DEV_IDLEN];
478
	uint32_t		unit_number;
479
	uint32_t		bus_id;
480
	bus_pattern_flags	flags;
481
};
482

483
union match_pattern {
484
	struct periph_match_pattern	periph_pattern;
485
	struct device_match_pattern	device_pattern;
486
	struct bus_match_pattern	bus_pattern;
487
};
488

489
typedef enum {
490
	DEV_MATCH_PERIPH,
491
	DEV_MATCH_DEVICE,
492
	DEV_MATCH_BUS
493
} dev_match_type;
494

495
struct dev_match_pattern {
496
	dev_match_type		type;
497
	union match_pattern	pattern;
498
};
499

500
struct periph_match_result {
501
	char			periph_name[DEV_IDLEN];
502
	uint32_t		unit_number;
503
	path_id_t		path_id;
504
	target_id_t		target_id;
505
	lun_id_t		target_lun;
506
};
507

508
typedef enum {
509
	DEV_RESULT_NOFLAG		= 0x00,
510
	DEV_RESULT_UNCONFIGURED		= 0x01
511
} dev_result_flags;
512

513
struct device_match_result {
514
	path_id_t			path_id;
515
	target_id_t			target_id;
516
	lun_id_t			target_lun;
517
	cam_proto			protocol;
518
	struct scsi_inquiry_data	inq_data;
519
	struct ata_params		ident_data;
520
	dev_result_flags		flags;
521
};
522

523
struct bus_match_result {
524
	path_id_t	path_id;
525
	char		dev_name[DEV_IDLEN];
526
	uint32_t	unit_number;
527
	uint32_t	bus_id;
528
};
529

530
union match_result {
531
	struct periph_match_result	periph_result;
532
	struct device_match_result	device_result;
533
	struct bus_match_result		bus_result;
534
};
535

536
struct dev_match_result {
537
	dev_match_type		type;
538
	union match_result	result;
539
};
540

541
typedef enum {
542
	CAM_DEV_MATCH_LAST,
543
	CAM_DEV_MATCH_MORE,
544
	CAM_DEV_MATCH_LIST_CHANGED,
545
	CAM_DEV_MATCH_SIZE_ERROR,
546
	CAM_DEV_MATCH_ERROR
547
} ccb_dev_match_status;
548

549
typedef enum {
550
	CAM_DEV_POS_NONE	= 0x000,
551
	CAM_DEV_POS_BUS		= 0x001,
552
	CAM_DEV_POS_TARGET	= 0x002,
553
	CAM_DEV_POS_DEVICE	= 0x004,
554
	CAM_DEV_POS_PERIPH	= 0x008,
555
	CAM_DEV_POS_PDPTR	= 0x010,
556
	CAM_DEV_POS_TYPEMASK	= 0xf00,
557
	CAM_DEV_POS_EDT		= 0x100,
558
	CAM_DEV_POS_PDRV	= 0x200
559
} dev_pos_type;
560

561
struct ccb_dm_cookie {
562
	void 	*bus;
563
	void	*target;
564
	void	*device;
565
	void	*periph;
566
	void	*pdrv;
567
};
568

569
struct ccb_dev_position {
570
	u_int			generations[4];
571
#define	CAM_BUS_GENERATION	0x00
572
#define CAM_TARGET_GENERATION	0x01
573
#define CAM_DEV_GENERATION	0x02
574
#define CAM_PERIPH_GENERATION	0x03
575
	dev_pos_type		position_type;
576
	struct ccb_dm_cookie	cookie;
577
};
578

579
struct ccb_dev_match {
580
	struct ccb_hdr			ccb_h;
581
	ccb_dev_match_status		status;
582
	uint32_t			num_patterns;
583
	uint32_t			pattern_buf_len;
584
	struct dev_match_pattern	*patterns;
585
	uint32_t			num_matches;
586
	uint32_t			match_buf_len;
587
	struct dev_match_result		*matches;
588
	struct ccb_dev_position		pos;
589
};
590

591
/*
592
 * Definitions for the path inquiry CCB fields.
593
 */
594
#define CAM_VERSION	0x1a	/* Hex value for current version */
595

596
typedef enum {
597
	PI_MDP_ABLE	= 0x80,	/* Supports MDP message */
598
	PI_WIDE_32	= 0x40,	/* Supports 32 bit wide SCSI */
599
	PI_WIDE_16	= 0x20, /* Supports 16 bit wide SCSI */
600
	PI_SDTR_ABLE	= 0x10,	/* Supports SDTR message */
601
	PI_LINKED_CDB	= 0x08, /* Supports linked CDBs */
602
	PI_SATAPM	= 0x04,	/* Supports SATA PM */
603
	PI_TAG_ABLE	= 0x02,	/* Supports tag queue messages */
604
	PI_SOFT_RST	= 0x01	/* Supports soft reset alternative */
605
} pi_inqflag;
606

607
typedef enum {
608
	PIT_PROCESSOR	= 0x80,	/* Target mode processor mode */
609
	PIT_PHASE	= 0x40,	/* Target mode phase cog. mode */
610
	PIT_DISCONNECT	= 0x20,	/* Disconnects supported in target mode */
611
	PIT_TERM_IO	= 0x10,	/* Terminate I/O message supported in TM */
612
	PIT_GRP_6	= 0x08,	/* Group 6 commands supported */
613
	PIT_GRP_7	= 0x04	/* Group 7 commands supported */
614
} pi_tmflag;
615

616
typedef enum {
617
	PIM_ATA_EXT	= 0x200,/* ATA requests can understand ata_ext requests */
618
	PIM_EXTLUNS	= 0x100,/* 64bit extended LUNs supported */
619
	PIM_SCANHILO	= 0x80,	/* Bus scans from high ID to low ID */
620
	PIM_NOREMOVE	= 0x40,	/* Removeable devices not included in scan */
621
	PIM_NOINITIATOR	= 0x20,	/* Initiator role not supported. */
622
	PIM_NOBUSRESET	= 0x10,	/* User has disabled initial BUS RESET */
623
	PIM_NO_6_BYTE	= 0x08,	/* Do not send 6-byte commands */
624
	PIM_SEQSCAN	= 0x04,	/* Do bus scans sequentially, not in parallel */
625
	PIM_UNMAPPED	= 0x02,
626
	PIM_NOSCAN	= 0x01	/* SIM does its own scanning */
627
} pi_miscflag;
628

629
/* Path Inquiry CCB */
630
struct ccb_pathinq_settings_spi {
631
	uint8_t ppr_options;
632
};
633

634
struct ccb_pathinq_settings_fc {
635
	uint64_t wwnn;		/* world wide node name */
636
	uint64_t wwpn;		/* world wide port name */
637
	uint32_t port;		/* 24 bit port id, if known */
638
	uint32_t bitrate;	/* Mbps */
639
};
640

641
struct ccb_pathinq_settings_sas {
642
	uint32_t bitrate;	/* Mbps */
643
};
644

645
#define NVME_DEV_NAME_LEN	52
646
struct ccb_pathinq_settings_nvme {
647
	uint32_t nsid;		/* Namespace ID for this path */
648
	uint32_t domain;
649
	uint8_t  bus;
650
	uint8_t  slot;
651
	uint8_t  function;
652
	uint8_t  extra;
653
	char	 dev_name[NVME_DEV_NAME_LEN]; /* nvme controller dev name for this device */
654
};
655
_Static_assert(sizeof(struct ccb_pathinq_settings_nvme) == 64,
656
    "ccb_pathinq_settings_nvme too big");
657

658
struct ccb_pathinq_settings_nvmf {
659
	uint32_t nsid;		/* Namespace ID for this path */
660
	uint8_t  trtype;
661
	char	 dev_name[NVME_DEV_NAME_LEN]; /* nvme controller dev name for this device */
662
};
663

664
#define	PATHINQ_SETTINGS_SIZE	128
665

666
struct ccb_pathinq {
667
	struct 	    ccb_hdr ccb_h;
668
	uint8_t    version_num;	/* Version number for the SIM/HBA */
669
	uint8_t    hba_inquiry;	/* Mimic of INQ byte 7 for the HBA */
670
	uint16_t   target_sprt;	/* Flags for target mode support */
671
	uint32_t   hba_misc;		/* Misc HBA features */
672
	uint16_t   hba_eng_cnt;	/* HBA engine count */
673
					/* Vendor Unique capabilities */
674
	uint8_t    vuhba_flags[VUHBALEN];
675
	uint32_t   max_target;		/* Maximum supported Target */
676
	uint32_t   max_lun;		/* Maximum supported Lun */
677
	uint32_t   async_flags;	/* Installed Async handlers */
678
	path_id_t   hpath_id;		/* Highest Path ID in the subsystem */
679
	target_id_t initiator_id;	/* ID of the HBA on the SCSI bus */
680
	char	    sim_vid[SIM_IDLEN];	/* Vendor ID of the SIM */
681
	char	    hba_vid[HBA_IDLEN];	/* Vendor ID of the HBA */
682
	char 	    dev_name[DEV_IDLEN];/* Device name for SIM */
683
	uint32_t   unit_number;	/* Unit number for SIM */
684
	uint32_t   bus_id;		/* Bus ID for SIM */
685
	uint32_t   base_transfer_speed;/* Base bus speed in KB/sec */
686
	cam_proto   protocol;
687
	u_int	    protocol_version;
688
	cam_xport   transport;
689
	u_int	    transport_version;
690
	union {
691
		struct ccb_pathinq_settings_spi spi;
692
		struct ccb_pathinq_settings_fc fc;
693
		struct ccb_pathinq_settings_sas sas;
694
		struct ccb_pathinq_settings_nvme nvme;
695
		struct ccb_pathinq_settings_nvmf nvmf;
696
		char ccb_pathinq_settings_opaque[PATHINQ_SETTINGS_SIZE];
697
	} xport_specific;
698
	u_int		maxio;		/* Max supported I/O size, in bytes. */
699
	uint16_t	hba_vendor;	/* HBA vendor ID */
700
	uint16_t	hba_device;	/* HBA device ID */
701
	uint16_t	hba_subvendor;	/* HBA subvendor ID */
702
	uint16_t	hba_subdevice;	/* HBA subdevice ID */
703
};
704

705
/* Path Statistics CCB */
706
struct ccb_pathstats {
707
	struct	ccb_hdr	ccb_h;
708
	struct	timeval last_reset;	/* Time of last bus reset/loop init */
709
};
710

711
typedef enum {
712
	SMP_FLAG_NONE		= 0x00,
713
	SMP_FLAG_REQ_SG		= 0x01,
714
	SMP_FLAG_RSP_SG		= 0x02
715
} ccb_smp_pass_flags;
716

717
/*
718
 * Serial Management Protocol CCB
719
 * XXX Currently the semantics for this CCB are that it is executed either
720
 * by the addressed device, or that device's parent (i.e. an expander for
721
 * any device on an expander) if the addressed device doesn't support SMP.
722
 * Later, once we have the ability to probe SMP-only devices and put them
723
 * in CAM's topology, the CCB will only be executed by the addressed device
724
 * if possible.
725
 */
726
struct ccb_smpio {
727
	struct ccb_hdr		ccb_h;
728
	uint8_t			*smp_request;
729
	int			smp_request_len;
730
	uint16_t		smp_request_sglist_cnt;
731
	uint8_t			*smp_response;
732
	int			smp_response_len;
733
	uint16_t		smp_response_sglist_cnt;
734
	ccb_smp_pass_flags	flags;
735
};
736

737
typedef union {
738
	uint8_t *sense_ptr;		/*
739
					 * Pointer to storage
740
					 * for sense information
741
					 */
742
	                                /* Storage Area for sense information */
743
	struct	 scsi_sense_data sense_buf;
744
} sense_t;
745

746
typedef union {
747
	uint8_t  *cdb_ptr;		/* Pointer to the CDB bytes to send */
748
					/* Area for the CDB send */
749
	uint8_t  cdb_bytes[IOCDBLEN];
750
} cdb_t;
751

752
/*
753
 * SCSI I/O Request CCB used for the XPT_SCSI_IO and XPT_CONT_TARGET_IO
754
 * function codes.
755
 */
756
struct ccb_scsiio {
757
	struct	   ccb_hdr ccb_h;
758
	union	   ccb *next_ccb;	/* Ptr for next CCB for action */
759
	uint8_t   *req_map;		/* Ptr to mapping info */
760
	uint8_t   *data_ptr;		/* Ptr to the data buf/SG list */
761
	uint32_t  dxfer_len;		/* Data transfer length */
762
					/* Autosense storage */
763
	struct     scsi_sense_data sense_data;
764
	uint8_t   sense_len;		/* Number of bytes to autosense */
765
	uint8_t   cdb_len;		/* Number of bytes for the CDB */
766
	uint16_t  sglist_cnt;		/* Number of SG list entries */
767
	uint8_t   scsi_status;		/* Returned SCSI status */
768
	uint8_t   sense_resid;		/* Autosense resid length: 2's comp */
769
	uint32_t  resid;		/* Transfer residual length: 2's comp */
770
	cdb_t	   cdb_io;		/* Union for CDB bytes/pointer */
771
	uint8_t   *msg_ptr;		/* Pointer to the message buffer */
772
	uint16_t  msg_len;		/* Number of bytes for the Message */
773
	uint8_t   tag_action;		/* What to do for tag queueing */
774
	/*
775
	 * The tag action should be either the define below (to send a
776
	 * non-tagged transaction) or one of the defined scsi tag messages
777
	 * from scsi_message.h.
778
	 */
779
#define		CAM_TAG_ACTION_NONE	0x00
780
	uint8_t	   priority;		/* Command priority for SIMPLE tag */
781
	u_int	   tag_id;		/* tag id from initator (target mode) */
782
	u_int	   init_id;		/* initiator id of who selected */
783
#if defined(BUF_TRACKING) || defined(FULL_BUF_TRACKING)
784
	struct bio *bio;		/* Associated bio */
785
#endif
786
};
787

788
static __inline uint8_t *
789
scsiio_cdb_ptr(struct ccb_scsiio *ccb)
790
{
791
	return ((ccb->ccb_h.flags & CAM_CDB_POINTER) ?
792
	    ccb->cdb_io.cdb_ptr : ccb->cdb_io.cdb_bytes);
793
}
794

795
/*
796
 * ATA I/O Request CCB used for the XPT_ATA_IO function code.
797
 */
798
struct ccb_ataio {
799
	struct	   ccb_hdr ccb_h;
800
	union	   ccb *next_ccb;	/* Ptr for next CCB for action */
801
	struct ata_cmd	cmd;		/* ATA command register set */
802
	struct ata_res	res;		/* ATA result register set */
803
	uint8_t   *data_ptr;		/* Ptr to the data buf/SG list */
804
	uint32_t  dxfer_len;		/* Data transfer length */
805
	uint32_t  resid;		/* Transfer residual length: 2's comp */
806
	uint8_t   ata_flags;		/* Flags for the rest of the buffer */
807
#define ATA_FLAG_AUX 0x1
808
#define ATA_FLAG_ICC 0x2
809
	uint8_t    icc;			/* Isochronous Command Completion */
810
	uint32_t   aux;
811
	uint32_t   unused;
812
};
813

814
/*
815
 * MMC I/O Request CCB used for the XPT_MMC_IO function code.
816
 */
817
struct ccb_mmcio {
818
	struct	   ccb_hdr ccb_h;
819
	union	   ccb *next_ccb;	/* Ptr for next CCB for action */
820
	struct mmc_command cmd;
821
        struct mmc_command stop;
822
};
823

824
struct ccb_accept_tio {
825
	struct	   ccb_hdr ccb_h;
826
	cdb_t	   cdb_io;		/* Union for CDB bytes/pointer */
827
	uint8_t   cdb_len;		/* Number of bytes for the CDB */
828
	uint8_t   tag_action;		/* What to do for tag queueing */
829
	uint8_t   sense_len;		/* Number of bytes of Sense Data */
830
	uint8_t	   priority;		/* Command priority for SIMPLE tag */
831
	u_int      tag_id;		/* tag id from initator (target mode) */
832
	u_int      init_id;		/* initiator id of who selected */
833
	struct     scsi_sense_data sense_data;
834
};
835

836
static __inline uint8_t *
837
atio_cdb_ptr(struct ccb_accept_tio *ccb)
838
{
839
	return ((ccb->ccb_h.flags & CAM_CDB_POINTER) ?
840
	    ccb->cdb_io.cdb_ptr : ccb->cdb_io.cdb_bytes);
841
}
842

843
/* Release SIM Queue */
844
struct ccb_relsim {
845
	struct ccb_hdr ccb_h;
846
	uint32_t      release_flags;
847
#define RELSIM_ADJUST_OPENINGS		0x01
848
#define RELSIM_RELEASE_AFTER_TIMEOUT	0x02
849
#define RELSIM_RELEASE_AFTER_CMDCMPLT	0x04
850
#define RELSIM_RELEASE_AFTER_QEMPTY	0x08
851
	uint32_t      openings;
852
	uint32_t      release_timeout;	/* Abstract argument. */
853
	uint32_t      qfrozen_cnt;
854
};
855

856
/*
857
 * NVMe I/O Request CCB used for the XPT_NVME_IO and XPT_NVME_ADMIN function codes.
858
 */
859
struct ccb_nvmeio {
860
	struct	   ccb_hdr ccb_h;
861
	union	   ccb *next_ccb;	/* Ptr for next CCB for action */
862
	struct nvme_command cmd;	/* NVME command, per NVME standard */
863
	struct nvme_completion cpl;	/* NVME completion, per NVME standard */
864
	uint8_t   *data_ptr;		/* Ptr to the data buf/SG list */
865
	uint32_t  dxfer_len;		/* Data transfer length */
866
	uint16_t  sglist_cnt;		/* Number of SG list entries */
867
	uint16_t  unused;		/* padding for removed uint32_t */
868
};
869

870
/*
871
 * Definitions for the asynchronous callback CCB fields.
872
 */
873
typedef enum {
874
	AC_UNIT_ATTENTION	= 0x4000,/* Device reported UNIT ATTENTION */
875
	AC_ADVINFO_CHANGED	= 0x2000,/* Advance info might have changes */
876
	AC_CONTRACT		= 0x1000,/* A contractual callback */
877
	AC_GETDEV_CHANGED	= 0x800,/* Getdev info might have changed */
878
	AC_INQ_CHANGED		= 0x400,/* Inquiry info might have changed */
879
	AC_TRANSFER_NEG		= 0x200,/* New transfer settings in effect */
880
	AC_LOST_DEVICE		= 0x100,/* A device went away */
881
	AC_FOUND_DEVICE		= 0x080,/* A new device was found */
882
	AC_PATH_DEREGISTERED	= 0x040,/* A path has de-registered */
883
	AC_PATH_REGISTERED	= 0x020,/* A new path has been registered */
884
	AC_SENT_BDR		= 0x010,/* A BDR message was sent to target */
885
	AC_SCSI_AEN		= 0x008,/* A SCSI AEN has been received */
886
	AC_UNSOL_RESEL		= 0x002,/* Unsolicited reselection occurred */
887
	AC_BUS_RESET		= 0x001	/* A SCSI bus reset occurred */
888
} ac_code;
889

890
typedef void ac_callback_t (void *softc, uint32_t code,
891
			    struct cam_path *path, void *args);
892

893
/*
894
 * Generic Asynchronous callbacks.
895
 *
896
 * Generic arguments passed bac which are then interpreted between a per-system
897
 * contract number.
898
 */
899
#define	AC_CONTRACT_DATA_MAX (128 - sizeof (uint64_t))
900
struct ac_contract {
901
	uint64_t	contract_number;
902
	uint8_t	contract_data[AC_CONTRACT_DATA_MAX];
903
};
904

905
#define	AC_CONTRACT_DEV_CHG	1
906
struct ac_device_changed {
907
	uint64_t	wwpn;
908
	uint32_t	port;
909
	target_id_t	target;
910
	uint8_t	arrived;
911
};
912

913
/* Set Asynchronous Callback CCB */
914
struct ccb_setasync {
915
	struct ccb_hdr	 ccb_h;
916
	uint32_t	 event_enable;	/* Async Event enables */
917
	ac_callback_t	*callback;
918
	void		*callback_arg;
919
};
920

921
/* Set Device Type CCB */
922
struct ccb_setdev {
923
	struct	   ccb_hdr ccb_h;
924
	uint8_t   dev_type;	/* Value for dev type field in EDT */
925
};
926

927
/* SCSI Control Functions */
928

929
/* Abort XPT request CCB */
930
struct ccb_abort {
931
	struct 	ccb_hdr ccb_h;
932
	union	ccb *abort_ccb;	/* Pointer to CCB to abort */
933
};
934

935
/* Reset SCSI Bus CCB */
936
struct ccb_resetbus {
937
	struct	ccb_hdr ccb_h;
938
};
939

940
/* Reset SCSI Device CCB */
941
struct ccb_resetdev {
942
	struct	ccb_hdr ccb_h;
943
};
944

945
/* Terminate I/O Process Request CCB */
946
struct ccb_termio {
947
	struct	ccb_hdr ccb_h;
948
	union	ccb *termio_ccb;	/* Pointer to CCB to terminate */
949
};
950

951
typedef enum {
952
	CTS_TYPE_CURRENT_SETTINGS,
953
	CTS_TYPE_USER_SETTINGS
954
} cts_type;
955

956
struct ccb_trans_settings_scsi
957
{
958
	u_int	valid;	/* Which fields to honor */
959
#define	CTS_SCSI_VALID_TQ		0x01
960
	u_int	flags;
961
#define	CTS_SCSI_FLAGS_TAG_ENB		0x01
962
};
963

964
struct ccb_trans_settings_ata
965
{
966
	u_int	valid;	/* Which fields to honor */
967
#define	CTS_ATA_VALID_TQ		0x01
968
	u_int	flags;
969
#define	CTS_ATA_FLAGS_TAG_ENB		0x01
970
};
971

972
struct ccb_trans_settings_spi
973
{
974
	u_int	  valid;	/* Which fields to honor */
975
#define	CTS_SPI_VALID_SYNC_RATE		0x01
976
#define	CTS_SPI_VALID_SYNC_OFFSET	0x02
977
#define	CTS_SPI_VALID_BUS_WIDTH		0x04
978
#define	CTS_SPI_VALID_DISC		0x08
979
#define CTS_SPI_VALID_PPR_OPTIONS	0x10
980
	u_int	flags;
981
#define	CTS_SPI_FLAGS_DISC_ENB		0x01
982
	u_int	sync_period;
983
	u_int	sync_offset;
984
	u_int	bus_width;
985
	u_int	ppr_options;
986
};
987

988
struct ccb_trans_settings_fc {
989
	u_int     	valid;		/* Which fields to honor */
990
#define	CTS_FC_VALID_WWNN		0x8000
991
#define	CTS_FC_VALID_WWPN		0x4000
992
#define	CTS_FC_VALID_PORT		0x2000
993
#define	CTS_FC_VALID_SPEED		0x1000
994
	uint64_t	wwnn;		/* world wide node name */
995
	uint64_t 	wwpn;		/* world wide port name */
996
	uint32_t 	port;		/* 24 bit port id, if known */
997
	uint32_t 	bitrate;	/* Mbps */
998
};
999

1000
struct ccb_trans_settings_sas {
1001
	u_int     	valid;		/* Which fields to honor */
1002
#define	CTS_SAS_VALID_SPEED		0x1000
1003
	uint32_t 	bitrate;	/* Mbps */
1004
};
1005

1006
struct ccb_trans_settings_pata {
1007
	u_int     	valid;		/* Which fields to honor */
1008
#define	CTS_ATA_VALID_MODE		0x01
1009
#define	CTS_ATA_VALID_BYTECOUNT		0x02
1010
#define	CTS_ATA_VALID_ATAPI		0x20
1011
#define	CTS_ATA_VALID_CAPS		0x40
1012
	int		mode;		/* Mode */
1013
	u_int 		bytecount;	/* Length of PIO transaction */
1014
	u_int 		atapi;		/* Length of ATAPI CDB */
1015
	u_int 		caps;		/* Device and host SATA caps. */
1016
#define	CTS_ATA_CAPS_H			0x0000ffff
1017
#define	CTS_ATA_CAPS_H_DMA48		0x00000001 /* 48-bit DMA */
1018
#define	CTS_ATA_CAPS_D			0xffff0000
1019
};
1020

1021
struct ccb_trans_settings_sata {
1022
	u_int     	valid;		/* Which fields to honor */
1023
#define	CTS_SATA_VALID_MODE		0x01
1024
#define	CTS_SATA_VALID_BYTECOUNT	0x02
1025
#define	CTS_SATA_VALID_REVISION		0x04
1026
#define	CTS_SATA_VALID_PM		0x08
1027
#define	CTS_SATA_VALID_TAGS		0x10
1028
#define	CTS_SATA_VALID_ATAPI		0x20
1029
#define	CTS_SATA_VALID_CAPS		0x40
1030
	int		mode;		/* Legacy PATA mode */
1031
	u_int 		bytecount;	/* Length of PIO transaction */
1032
	int		revision;	/* SATA revision */
1033
	u_int 		pm_present;	/* PM is present (XPT->SIM) */
1034
	u_int 		tags;		/* Number of allowed tags */
1035
	u_int 		atapi;		/* Length of ATAPI CDB */
1036
	u_int 		caps;		/* Device and host SATA caps. */
1037
#define	CTS_SATA_CAPS_H			0x0000ffff
1038
#define	CTS_SATA_CAPS_H_PMREQ		0x00000001
1039
#define	CTS_SATA_CAPS_H_APST		0x00000002
1040
#define	CTS_SATA_CAPS_H_DMAAA		0x00000010 /* Auto-activation */
1041
#define	CTS_SATA_CAPS_H_AN		0x00000020 /* Async. notification */
1042
#define	CTS_SATA_CAPS_D			0xffff0000
1043
#define	CTS_SATA_CAPS_D_PMREQ		0x00010000
1044
#define	CTS_SATA_CAPS_D_APST		0x00020000
1045
};
1046

1047
struct ccb_trans_settings_nvme 
1048
{
1049
	u_int     	valid;		/* Which fields to honor */
1050
#define CTS_NVME_VALID_SPEC	0x01
1051
#define CTS_NVME_VALID_CAPS	0x02
1052
#define CTS_NVME_VALID_LINK	0x04
1053
	uint32_t	spec;		/* NVMe spec implemented -- same as vs register */
1054
	uint32_t	max_xfer;	/* Max transfer size (0 -> unlimited */
1055
	uint32_t	caps;
1056
	uint8_t		lanes;		/* Number of PCIe lanes */
1057
	uint8_t		speed;		/* PCIe generation for each lane */
1058
	uint8_t		max_lanes;	/* Number of PCIe lanes */
1059
	uint8_t		max_speed;	/* PCIe generation for each lane */
1060
};
1061

1062
struct ccb_trans_settings_nvmf
1063
{
1064
	u_int     	valid;		/* Which fields to honor */
1065
#define CTS_NVMF_VALID_TRTYPE	0x01
1066
	uint8_t		trtype;
1067
};
1068

1069
struct ccb_trans_settings_ufshci
1070
{
1071
	u_int     	valid;		/* Which fields to honor */
1072
	/* 
1073
	 * Ensure the validity of the information for the Unipro link
1074
	 * (GEAR, SPEED, LANE)
1075
	 */
1076
#define CTS_UFSHCI_VALID_LINK	0x01
1077
	uint32_t 	speed;
1078
	uint8_t  	hs_gear;      	/* High Speed Gear (G1, G2, G3...) */
1079
	uint8_t  	tx_lanes;
1080
	uint8_t  	rx_lanes;
1081
	uint8_t		max_hs_gear;	/* Maximum HS Gear */
1082
	uint8_t		max_tx_lanes;
1083
	uint8_t		max_rx_lanes;
1084
};
1085

1086

1087
#include <cam/mmc/mmc_bus.h>
1088
struct ccb_trans_settings_mmc {
1089
	struct mmc_ios ios;
1090
#define MMC_CLK		(1 << 1)
1091
#define MMC_VDD		(1 << 2)
1092
#define MMC_CS		(1 << 3)
1093
#define MMC_BW		(1 << 4)
1094
#define MMC_PM		(1 << 5)
1095
#define MMC_BT		(1 << 6)
1096
#define MMC_BM		(1 << 7)
1097
#define MMC_VCCQ        (1 << 8)
1098
	uint32_t ios_valid;
1099
/* The folowing is used only for GET_TRAN_SETTINGS */
1100
	uint32_t	host_ocr;
1101
	int host_f_min;
1102
	int host_f_max;
1103
/* Copied from sys/dev/mmc/bridge.h */
1104
#define	MMC_CAP_4_BIT_DATA	(1 <<  0) /* Can do 4-bit data transfers */
1105
#define	MMC_CAP_8_BIT_DATA	(1 <<  1) /* Can do 8-bit data transfers */
1106
#define	MMC_CAP_HSPEED		(1 <<  2) /* Can do High Speed transfers */
1107
#define	MMC_CAP_BOOT_NOACC	(1 <<  4) /* Cannot access boot partitions */
1108
#define	MMC_CAP_WAIT_WHILE_BUSY	(1 <<  5) /* Host waits for busy responses */
1109
#define	MMC_CAP_UHS_SDR12	(1 <<  6) /* Can do UHS SDR12 */
1110
#define	MMC_CAP_UHS_SDR25	(1 <<  7) /* Can do UHS SDR25 */
1111
#define	MMC_CAP_UHS_SDR50	(1 <<  8) /* Can do UHS SDR50 */
1112
#define	MMC_CAP_UHS_SDR104	(1 <<  9) /* Can do UHS SDR104 */
1113
#define	MMC_CAP_UHS_DDR50	(1 << 10) /* Can do UHS DDR50 */
1114
#define	MMC_CAP_MMC_DDR52_120	(1 << 11) /* Can do eMMC DDR52 at 1.2 V */
1115
#define	MMC_CAP_MMC_DDR52_180	(1 << 12) /* Can do eMMC DDR52 at 1.8 V */
1116
#define	MMC_CAP_MMC_DDR52	(MMC_CAP_MMC_DDR52_120 | MMC_CAP_MMC_DDR52_180)
1117
#define	MMC_CAP_MMC_HS200_120	(1 << 13) /* Can do eMMC HS200 at 1.2 V */
1118
#define	MMC_CAP_MMC_HS200_180	(1 << 14) /* Can do eMMC HS200 at 1.8 V */
1119
#define	MMC_CAP_MMC_HS200	(MMC_CAP_MMC_HS200_120| MMC_CAP_MMC_HS200_180)
1120
#define	MMC_CAP_MMC_HS400_120	(1 << 15) /* Can do eMMC HS400 at 1.2 V */
1121
#define	MMC_CAP_MMC_HS400_180	(1 << 16) /* Can do eMMC HS400 at 1.8 V */
1122
#define	MMC_CAP_MMC_HS400	(MMC_CAP_MMC_HS400_120 | MMC_CAP_MMC_HS400_180)
1123
#define	MMC_CAP_MMC_HSX00_120	(MMC_CAP_MMC_HS200_120 | MMC_CAP_MMC_HS400_120)
1124
#define	MMC_CAP_MMC_ENH_STROBE	(1 << 17) /* Can do eMMC Enhanced Strobe */
1125
#define	MMC_CAP_SIGNALING_120	(1 << 18) /* Can do signaling at 1.2 V */
1126
#define	MMC_CAP_SIGNALING_180	(1 << 19) /* Can do signaling at 1.8 V */
1127
#define	MMC_CAP_SIGNALING_330	(1 << 20) /* Can do signaling at 3.3 V */
1128
#define	MMC_CAP_DRIVER_TYPE_A	(1 << 21) /* Can do Driver Type A */
1129
#define	MMC_CAP_DRIVER_TYPE_C	(1 << 22) /* Can do Driver Type C */
1130
#define	MMC_CAP_DRIVER_TYPE_D	(1 << 23) /* Can do Driver Type D */
1131

1132
	uint32_t host_caps;
1133
	uint32_t host_max_data;
1134
};
1135

1136
/* Get/Set transfer rate/width/disconnection/tag queueing settings */
1137
struct ccb_trans_settings {
1138
	struct	  ccb_hdr ccb_h;
1139
	cts_type  type;		/* Current or User settings */
1140
	cam_proto protocol;
1141
	u_int	  protocol_version;
1142
	cam_xport transport;
1143
	u_int	  transport_version;
1144
	union {
1145
		u_int  valid;	/* Which fields to honor */
1146
		struct ccb_trans_settings_ata ata;
1147
		struct ccb_trans_settings_scsi scsi;
1148
		struct ccb_trans_settings_nvme nvme;
1149
		struct ccb_trans_settings_mmc mmc;
1150
	} proto_specific;
1151
	union {
1152
		u_int  valid;	/* Which fields to honor */
1153
		struct ccb_trans_settings_spi spi;
1154
		struct ccb_trans_settings_fc fc;
1155
		struct ccb_trans_settings_sas sas;
1156
		struct ccb_trans_settings_pata ata;
1157
		struct ccb_trans_settings_sata sata;
1158
		struct ccb_trans_settings_nvme nvme;
1159
		struct ccb_trans_settings_nvmf nvmf;
1160
		struct ccb_trans_settings_ufshci ufshci;
1161
	} xport_specific;
1162
};
1163

1164
/*
1165
 * Calculate the geometry parameters for a device
1166
 * give the block size and volume size in blocks.
1167
 */
1168
struct ccb_calc_geometry {
1169
	struct	  ccb_hdr ccb_h;
1170
	uint32_t block_size;
1171
	uint64_t volume_size;
1172
	uint32_t cylinders;
1173
	uint8_t  heads;
1174
	uint8_t  secs_per_track;
1175
};
1176

1177
/*
1178
 * Set or get SIM (and transport) specific knobs
1179
 */
1180

1181
#define	KNOB_VALID_ADDRESS	0x1
1182
#define	KNOB_VALID_ROLE		0x2
1183

1184
#define	KNOB_ROLE_NONE		0x0
1185
#define	KNOB_ROLE_INITIATOR	0x1
1186
#define	KNOB_ROLE_TARGET	0x2
1187
#define	KNOB_ROLE_BOTH		0x3
1188

1189
struct ccb_sim_knob_settings_spi {
1190
	u_int		valid;
1191
	u_int		initiator_id;
1192
	u_int		role;
1193
};
1194

1195
struct ccb_sim_knob_settings_fc {
1196
	u_int		valid;
1197
	uint64_t	wwnn;		/* world wide node name */
1198
	uint64_t 	wwpn;		/* world wide port name */
1199
	u_int		role;
1200
};
1201

1202
struct ccb_sim_knob_settings_sas {
1203
	u_int		valid;
1204
	uint64_t	wwnn;		/* world wide node name */
1205
	u_int		role;
1206
};
1207
#define	KNOB_SETTINGS_SIZE	128
1208

1209
struct ccb_sim_knob {
1210
	struct	  ccb_hdr ccb_h;
1211
	union {
1212
		u_int  valid;	/* Which fields to honor */
1213
		struct ccb_sim_knob_settings_spi spi;
1214
		struct ccb_sim_knob_settings_fc fc;
1215
		struct ccb_sim_knob_settings_sas sas;
1216
		char pad[KNOB_SETTINGS_SIZE];
1217
	} xport_specific;
1218
};
1219

1220
/*
1221
 * Rescan the given bus, or bus/target/lun
1222
 */
1223
struct ccb_rescan {
1224
	struct	ccb_hdr ccb_h;
1225
	cam_flags	flags;
1226
};
1227

1228
/*
1229
 * Turn on debugging for the given bus, bus/target, or bus/target/lun.
1230
 */
1231
struct ccb_debug {
1232
	struct	ccb_hdr ccb_h;
1233
	cam_debug_flags flags;
1234
};
1235

1236
/* Target mode structures. */
1237

1238
struct ccb_en_lun {
1239
	struct	  ccb_hdr ccb_h;
1240
	uint16_t grp6_len;		/* Group 6 VU CDB length */
1241
	uint16_t grp7_len;		/* Group 7 VU CDB length */
1242
	uint8_t  enable;
1243
};
1244

1245
/* old, barely used immediate notify, binary compatibility */
1246
struct ccb_immed_notify {
1247
	struct	  ccb_hdr ccb_h;
1248
	struct    scsi_sense_data sense_data;
1249
	uint8_t  sense_len;		/* Number of bytes in sense buffer */
1250
	uint8_t  initiator_id;		/* Id of initiator that selected */
1251
	uint8_t  message_args[7];	/* Message Arguments */
1252
};
1253

1254
struct ccb_notify_ack {
1255
	struct	  ccb_hdr ccb_h;
1256
	uint16_t seq_id;		/* Sequence identifier */
1257
	uint8_t  event;		/* Event flags */
1258
};
1259

1260
struct ccb_immediate_notify {
1261
	struct    ccb_hdr ccb_h;
1262
	u_int     tag_id;		/* Tag for immediate notify */
1263
	u_int     seq_id;		/* Tag for target of notify */
1264
	u_int     initiator_id;		/* Initiator Identifier */
1265
	u_int     arg;			/* Function specific */
1266
};
1267

1268
struct ccb_notify_acknowledge {
1269
	struct    ccb_hdr ccb_h;
1270
	u_int     tag_id;		/* Tag for immediate notify */
1271
	u_int     seq_id;		/* Tar for target of notify */
1272
	u_int     initiator_id;		/* Initiator Identifier */
1273
	u_int     arg;			/* Response information */
1274
	/*
1275
	 * Lower byte of arg is one of RESPONSE CODE values defined below
1276
	 * (subset of response codes from SPL-4 and FCP-4 specifications),
1277
	 * upper 3 bytes is code-specific ADDITIONAL RESPONSE INFORMATION.
1278
	 */
1279
#define	CAM_RSP_TMF_COMPLETE		0x00
1280
#define	CAM_RSP_TMF_REJECTED		0x04
1281
#define	CAM_RSP_TMF_FAILED		0x05
1282
#define	CAM_RSP_TMF_SUCCEEDED		0x08
1283
#define	CAM_RSP_TMF_INCORRECT_LUN	0x09
1284
};
1285

1286
/* HBA engine structures. */
1287

1288
typedef enum {
1289
	EIT_BUFFER,	/* Engine type: buffer memory */
1290
	EIT_LOSSLESS,	/* Engine type: lossless compression */
1291
	EIT_LOSSY,	/* Engine type: lossy compression */
1292
	EIT_ENCRYPT	/* Engine type: encryption */
1293
} ei_type;
1294

1295
typedef enum {
1296
	EAD_VUNIQUE,	/* Engine algorithm ID: vendor unique */
1297
	EAD_LZ1V1,	/* Engine algorithm ID: LZ1 var.1 */
1298
	EAD_LZ2V1,	/* Engine algorithm ID: LZ2 var.1 */
1299
	EAD_LZ2V2	/* Engine algorithm ID: LZ2 var.2 */
1300
} ei_algo;
1301

1302
struct ccb_eng_inq {
1303
	struct	  ccb_hdr ccb_h;
1304
	uint16_t eng_num;	/* The engine number for this inquiry */
1305
	ei_type   eng_type;	/* Returned engine type */
1306
	ei_algo   eng_algo;	/* Returned engine algorithm type */
1307
	uint32_t eng_memeory;	/* Returned engine memory size */
1308
};
1309

1310
struct ccb_eng_exec {	/* This structure must match SCSIIO size */
1311
	struct	  ccb_hdr ccb_h;
1312
	uint8_t  *pdrv_ptr;	/* Ptr used by the peripheral driver */
1313
	uint8_t  *req_map;	/* Ptr for mapping info on the req. */
1314
	uint8_t  *data_ptr;	/* Pointer to the data buf/SG list */
1315
	uint32_t dxfer_len;	/* Data transfer length */
1316
	uint8_t  *engdata_ptr;	/* Pointer to the engine buffer data */
1317
	uint16_t sglist_cnt;	/* Num of scatter gather list entries */
1318
	uint32_t dmax_len;	/* Destination data maximum length */
1319
	uint32_t dest_len;	/* Destination data length */
1320
	int32_t	  src_resid;	/* Source residual length: 2's comp */
1321
	uint32_t timeout;	/* Timeout value */
1322
	uint16_t eng_num;	/* Engine number for this request */
1323
	uint16_t vu_flags;	/* Vendor Unique flags */
1324
};
1325

1326
/*
1327
 * Definitions for the timeout field in the SCSI I/O CCB.
1328
 */
1329
#define	CAM_TIME_DEFAULT	0x00000000	/* Use SIM default value */
1330
#define	CAM_TIME_INFINITY	0xFFFFFFFF	/* Infinite timeout */
1331

1332
#define	CAM_SUCCESS	0	/* For signaling general success */
1333

1334
#define XPT_CCB_INVALID	-1	/* for signaling a bad CCB to free */
1335

1336
/*
1337
 * CCB for working with advanced device information.  This operates in a fashion
1338
 * similar to XPT_GDEV_TYPE.  Specify the target in ccb_h, the buffer
1339
 * type requested, and provide a buffer size/buffer to write to.  If the
1340
 * buffer is too small, provsiz will be larger than bufsiz.
1341
 */
1342
struct ccb_dev_advinfo {
1343
	struct ccb_hdr ccb_h;
1344
	uint32_t flags;
1345
#define	CDAI_FLAG_NONE		0x0	/* No flags set */
1346
#define	CDAI_FLAG_STORE		0x1	/* If set, action becomes store */
1347
	uint32_t buftype;		/* IN: Type of data being requested */
1348
	/* NB: buftype is interpreted on a per-transport basis */
1349
#define	CDAI_TYPE_SCSI_DEVID	1
1350
#define	CDAI_TYPE_SERIAL_NUM	2
1351
#define	CDAI_TYPE_PHYS_PATH	3
1352
#define	CDAI_TYPE_RCAPLONG	4
1353
#define	CDAI_TYPE_EXT_INQ	5
1354
#define	CDAI_TYPE_NVME_CNTRL	6	/* NVMe Identify Controller data */
1355
#define	CDAI_TYPE_NVME_NS	7	/* NVMe Identify Namespace data */
1356
#define	CDAI_TYPE_MMC_PARAMS	8	/* MMC/SD ident */
1357
	off_t bufsiz;			/* IN: Size of external buffer */
1358
#define	CAM_SCSI_DEVID_MAXLEN	65536	/* length in buffer is an uint16_t */
1359
	off_t provsiz;			/* OUT: Size required/used */
1360
	uint8_t *buf;			/* IN/OUT: Buffer for requested data */
1361
};
1362

1363
/*
1364
 * CCB for sending async events
1365
 */
1366
struct ccb_async {
1367
	struct ccb_hdr ccb_h;
1368
	uint32_t async_code;
1369
	off_t async_arg_size;
1370
	void *async_arg_ptr;
1371
};
1372

1373
/*
1374
 * Union of all CCB types for kernel space allocation.  This union should
1375
 * never be used for manipulating CCBs - its only use is for the allocation
1376
 * and deallocation of raw CCB space and is the return type of xpt_ccb_alloc
1377
 * and the argument to xpt_ccb_free.
1378
 */
1379
union ccb {
1380
	struct	ccb_hdr			ccb_h;	/* For convenience */
1381
	struct	ccb_scsiio		csio;
1382
	struct	ccb_getdev		cgd;
1383
	struct	ccb_getdevlist		cgdl;
1384
	struct	ccb_pathinq		cpi;
1385
	struct	ccb_relsim		crs;
1386
	struct	ccb_setasync		csa;
1387
	struct	ccb_setdev		csd;
1388
	struct	ccb_pathstats		cpis;
1389
	struct	ccb_getdevstats		cgds;
1390
	struct	ccb_dev_match		cdm;
1391
	struct	ccb_trans_settings	cts;
1392
	struct	ccb_calc_geometry	ccg;
1393
	struct	ccb_sim_knob		knob;
1394
	struct	ccb_abort		cab;
1395
	struct	ccb_resetbus		crb;
1396
	struct	ccb_resetdev		crd;
1397
	struct	ccb_termio		tio;
1398
	struct	ccb_accept_tio		atio;
1399
	struct	ccb_scsiio		ctio;
1400
	struct	ccb_en_lun		cel;
1401
	struct	ccb_immed_notify	cin;
1402
	struct	ccb_notify_ack		cna;
1403
	struct	ccb_immediate_notify	cin1;
1404
	struct	ccb_notify_acknowledge	cna2;
1405
	struct	ccb_eng_inq		cei;
1406
	struct	ccb_eng_exec		cee;
1407
	struct	ccb_smpio		smpio;
1408
	struct 	ccb_rescan		crcn;
1409
	struct  ccb_debug		cdbg;
1410
	struct	ccb_ataio		ataio;
1411
	struct	ccb_dev_advinfo		cdai;
1412
	struct	ccb_async		casync;
1413
	struct	ccb_nvmeio		nvmeio;
1414
	struct	ccb_mmcio		mmcio;
1415
};
1416

1417
#define CCB_CLEAR_ALL_EXCEPT_HDR(ccbp)			\
1418
	bzero((char *)(ccbp) + sizeof((ccbp)->ccb_h),	\
1419
	    sizeof(*(ccbp)) - sizeof((ccbp)->ccb_h))
1420

1421
__BEGIN_DECLS
1422
static __inline void
1423
cam_fill_csio(struct ccb_scsiio *csio, uint32_t retries,
1424
	      void (*cbfcnp)(struct cam_periph *, union ccb *),
1425
	      uint32_t flags, uint8_t tag_action,
1426
	      uint8_t *data_ptr, uint32_t dxfer_len,
1427
	      uint8_t sense_len, uint8_t cdb_len,
1428
	      uint32_t timeout)
1429
{
1430
	csio->ccb_h.func_code = XPT_SCSI_IO;
1431
	csio->ccb_h.flags = flags;
1432
	csio->ccb_h.xflags = 0;
1433
	csio->ccb_h.retry_count = retries;
1434
	csio->ccb_h.cbfcnp = cbfcnp;
1435
	csio->ccb_h.timeout = timeout;
1436
	csio->data_ptr = data_ptr;
1437
	csio->dxfer_len = dxfer_len;
1438
	csio->sense_len = sense_len;
1439
	csio->cdb_len = cdb_len;
1440
	csio->tag_action = tag_action;
1441
	csio->priority = 0;
1442
#if defined(BUF_TRACKING) || defined(FULL_BUF_TRACKING)
1443
	csio->bio = NULL;
1444
#endif
1445
}
1446

1447
static __inline void
1448
cam_fill_ctio(struct ccb_scsiio *csio, uint32_t retries,
1449
	      void (*cbfcnp)(struct cam_periph *, union ccb *),
1450
	      uint32_t flags, u_int tag_action, u_int tag_id,
1451
	      u_int init_id, u_int scsi_status, uint8_t *data_ptr,
1452
	      uint32_t dxfer_len, uint32_t timeout)
1453
{
1454
	csio->ccb_h.func_code = XPT_CONT_TARGET_IO;
1455
	csio->ccb_h.flags = flags;
1456
	csio->ccb_h.xflags = 0;
1457
	csio->ccb_h.retry_count = retries;
1458
	csio->ccb_h.cbfcnp = cbfcnp;
1459
	csio->ccb_h.timeout = timeout;
1460
	csio->data_ptr = data_ptr;
1461
	csio->dxfer_len = dxfer_len;
1462
	csio->scsi_status = scsi_status;
1463
	csio->tag_action = tag_action;
1464
	csio->priority = 0;
1465
	csio->tag_id = tag_id;
1466
	csio->init_id = init_id;
1467
}
1468

1469
static __inline void
1470
cam_fill_ataio(struct ccb_ataio *ataio, uint32_t retries,
1471
	      void (*cbfcnp)(struct cam_periph *, union ccb *),
1472
	      uint32_t flags, u_int tag_action __unused,
1473
	      uint8_t *data_ptr, uint32_t dxfer_len,
1474
	      uint32_t timeout)
1475
{
1476
	ataio->ccb_h.func_code = XPT_ATA_IO;
1477
	ataio->ccb_h.flags = flags;
1478
	ataio->ccb_h.retry_count = retries;
1479
	ataio->ccb_h.cbfcnp = cbfcnp;
1480
	ataio->ccb_h.timeout = timeout;
1481
	ataio->data_ptr = data_ptr;
1482
	ataio->dxfer_len = dxfer_len;
1483
	ataio->ata_flags = 0;
1484
}
1485

1486
static __inline void
1487
cam_fill_smpio(struct ccb_smpio *smpio, uint32_t retries,
1488
	       void (*cbfcnp)(struct cam_periph *, union ccb *), uint32_t flags,
1489
	       uint8_t *smp_request, int smp_request_len,
1490
	       uint8_t *smp_response, int smp_response_len,
1491
	       uint32_t timeout)
1492
{
1493
#ifdef _KERNEL
1494
	KASSERT((flags & CAM_DIR_MASK) == CAM_DIR_BOTH,
1495
		("direction != CAM_DIR_BOTH"));
1496
	KASSERT((smp_request != NULL) && (smp_response != NULL),
1497
		("need valid request and response buffers"));
1498
	KASSERT((smp_request_len != 0) && (smp_response_len != 0),
1499
		("need non-zero request and response lengths"));
1500
#endif /*_KERNEL*/
1501
	smpio->ccb_h.func_code = XPT_SMP_IO;
1502
	smpio->ccb_h.flags = flags;
1503
	smpio->ccb_h.retry_count = retries;
1504
	smpio->ccb_h.cbfcnp = cbfcnp;
1505
	smpio->ccb_h.timeout = timeout;
1506
	smpio->smp_request = smp_request;
1507
	smpio->smp_request_len = smp_request_len;
1508
	smpio->smp_response = smp_response;
1509
	smpio->smp_response_len = smp_response_len;
1510
}
1511

1512
static __inline void
1513
cam_fill_mmcio(struct ccb_mmcio *mmcio, uint32_t retries,
1514
	       void (*cbfcnp)(struct cam_periph *, union ccb *), uint32_t flags,
1515
	       uint32_t mmc_opcode, uint32_t mmc_arg, uint32_t mmc_flags,
1516
	       struct mmc_data *mmc_d,
1517
	       uint32_t timeout)
1518
{
1519
	mmcio->ccb_h.func_code = XPT_MMC_IO;
1520
	mmcio->ccb_h.flags = flags;
1521
	mmcio->ccb_h.retry_count = retries;
1522
	mmcio->ccb_h.cbfcnp = cbfcnp;
1523
	mmcio->ccb_h.timeout = timeout;
1524
	mmcio->cmd.opcode = mmc_opcode;
1525
	mmcio->cmd.arg = mmc_arg;
1526
	mmcio->cmd.flags = mmc_flags;
1527
	mmcio->cmd.error = 0;
1528
	mmcio->stop.opcode = 0;
1529
	mmcio->stop.arg = 0;
1530
	mmcio->stop.flags = 0;
1531
	if (mmc_d != NULL) {
1532
		mmcio->cmd.data = mmc_d;
1533
	} else
1534
		mmcio->cmd.data = NULL;
1535
	mmcio->cmd.resp[0] = 0;
1536
	mmcio->cmd.resp[1] = 0;
1537
	mmcio->cmd.resp[2] = 0;
1538
	mmcio->cmd.resp[3] = 0;
1539
}
1540

1541
static __inline void
1542
cam_set_ccbstatus(union ccb *ccb, cam_status status)
1543
{
1544
	ccb->ccb_h.status &= ~CAM_STATUS_MASK;
1545
	ccb->ccb_h.status |= status;
1546
}
1547

1548
static __inline cam_status
1549
cam_ccb_status(union ccb *ccb)
1550
{
1551
	return ((cam_status)(ccb->ccb_h.status & CAM_STATUS_MASK));
1552
}
1553

1554
static inline bool
1555
cam_ccb_success(union ccb *ccb)
1556
{
1557
	return (cam_ccb_status(ccb) == CAM_REQ_CMP);
1558
}
1559

1560
void cam_calc_geometry(struct ccb_calc_geometry *ccg, int extended);
1561

1562
static __inline void
1563
cam_fill_nvmeio(struct ccb_nvmeio *nvmeio, uint32_t retries,
1564
	      void (*cbfcnp)(struct cam_periph *, union ccb *),
1565
	      uint32_t flags, uint8_t *data_ptr, uint32_t dxfer_len,
1566
	      uint32_t timeout)
1567
{
1568
	nvmeio->ccb_h.func_code = XPT_NVME_IO;
1569
	nvmeio->ccb_h.flags = flags;
1570
	nvmeio->ccb_h.retry_count = retries;
1571
	nvmeio->ccb_h.cbfcnp = cbfcnp;
1572
	nvmeio->ccb_h.timeout = timeout;
1573
	nvmeio->data_ptr = data_ptr;
1574
	nvmeio->dxfer_len = dxfer_len;
1575
}
1576

1577
static __inline void
1578
cam_fill_nvmeadmin(struct ccb_nvmeio *nvmeio, uint32_t retries,
1579
	      void (*cbfcnp)(struct cam_periph *, union ccb *),
1580
	      uint32_t flags, uint8_t *data_ptr, uint32_t dxfer_len,
1581
	      uint32_t timeout)
1582
{
1583
	nvmeio->ccb_h.func_code = XPT_NVME_ADMIN;
1584
	nvmeio->ccb_h.flags = flags;
1585
	nvmeio->ccb_h.retry_count = retries;
1586
	nvmeio->ccb_h.cbfcnp = cbfcnp;
1587
	nvmeio->ccb_h.timeout = timeout;
1588
	nvmeio->data_ptr = data_ptr;
1589
	nvmeio->dxfer_len = dxfer_len;
1590
}
1591
__END_DECLS
1592

1593
#endif /* _CAM_CAM_CCB_H */
1594

1595