ctl_io.h revision 268690
1/*- 2 * Copyright (c) 2003 Silicon Graphics International Corp. 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions, and the following disclaimer, 10 * without modification. 11 * 2. Redistributions in binary form must reproduce at minimum a disclaimer 12 * substantially similar to the "NO WARRANTY" disclaimer below 13 * ("Disclaimer") and any redistribution must be conditioned upon 14 * including a substantially similar Disclaimer requirement for further 15 * binary redistribution. 16 * 17 * NO WARRANTY 18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR 21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 22 * HOLDERS OR CONTRIBUTORS BE LIABLE FOR 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, 26 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING 27 * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 28 * POSSIBILITY OF SUCH DAMAGES. 29 * 30 * $Id: //depot/users/kenm/FreeBSD-test2/sys/cam/ctl/ctl_io.h#5 $ 31 * $FreeBSD: stable/10/sys/cam/ctl/ctl_io.h 268690 2014-07-15 17:12:37Z mav $ 32 */ 33/* 34 * CAM Target Layer data movement structures/interface. 35 * 36 * Author: Ken Merry <ken@FreeBSD.org> 37 */ 38 39#ifndef _CTL_IO_H_ 40#define _CTL_IO_H_ 41 42#ifdef _CTL_C 43#define EXTERN(__var,__val) __var = __val 44#else 45#define EXTERN(__var,__val) extern __var 46#endif 47 48#define CTL_MAX_CDBLEN 32 49/* 50 * Uncomment this next line to enable printing out times for I/Os 51 * that take longer than CTL_TIME_IO_SECS seconds to get to the datamove 52 * and/or done stage. 53 */ 54#define CTL_TIME_IO 55#ifdef CTL_TIME_IO 56#define CTL_TIME_IO_DEFAULT_SECS 90 57EXTERN(int ctl_time_io_secs, CTL_TIME_IO_DEFAULT_SECS); 58#endif 59 60/* 61 * Uncomment these next two lines to enable the CTL I/O delay feature. You 62 * can delay I/O at two different points -- datamove and done. This is 63 * useful for diagnosing abort conditions (for hosts that send an abort on a 64 * timeout), and for determining how long a host's timeout is. 65 */ 66#define CTL_IO_DELAY 67#define CTL_TIMER_BYTES sizeof(struct callout) 68 69typedef enum { 70 CTL_STATUS_NONE, /* No status */ 71 CTL_SUCCESS, /* Transaction completed successfully */ 72 CTL_CMD_TIMEOUT, /* Command timed out, shouldn't happen here */ 73 CTL_SEL_TIMEOUT, /* Selection timeout, shouldn't happen here */ 74 CTL_ERROR, /* General CTL error XXX expand on this? */ 75 CTL_SCSI_ERROR, /* SCSI error, look at status byte/sense data */ 76 CTL_CMD_ABORTED, /* Command aborted, don't return status */ 77 CTL_STATUS_MASK = 0xfff,/* Mask off any status flags */ 78 CTL_AUTOSENSE = 0x1000 /* Autosense performed */ 79} ctl_io_status; 80 81/* 82 * WARNING: Keep the data in/out/none flags where they are. They're used 83 * in conjuction with ctl_cmd_flags. See comment above ctl_cmd_flags 84 * definition in ctl_private.h. 85 */ 86typedef enum { 87 CTL_FLAG_NONE = 0x00000000, /* no flags */ 88 CTL_FLAG_DATA_IN = 0x00000001, /* DATA IN */ 89 CTL_FLAG_DATA_OUT = 0x00000002, /* DATA OUT */ 90 CTL_FLAG_DATA_NONE = 0x00000003, /* no data */ 91 CTL_FLAG_DATA_MASK = 0x00000003, 92 CTL_FLAG_KDPTR_SGLIST = 0x00000008, /* kern_data_ptr is S/G list*/ 93 CTL_FLAG_EDPTR_SGLIST = 0x00000010, /* ext_data_ptr is S/G list */ 94 CTL_FLAG_DO_AUTOSENSE = 0x00000020, /* grab sense info */ 95 CTL_FLAG_USER_REQ = 0x00000040, /* request came from userland */ 96 CTL_FLAG_CONTROL_DEV = 0x00000080, /* processor device */ 97 CTL_FLAG_ALLOCATED = 0x00000100, /* data space allocated */ 98 CTL_FLAG_BLOCKED = 0x00000200, /* on the blocked queue */ 99 CTL_FLAG_ABORT = 0x00000800, /* this I/O should be aborted */ 100 CTL_FLAG_DMA_INPROG = 0x00001000, /* DMA in progress */ 101 CTL_FLAG_NO_DATASYNC = 0x00002000, /* don't cache flush data */ 102 CTL_FLAG_DELAY_DONE = 0x00004000, /* delay injection done */ 103 CTL_FLAG_INT_COPY = 0x00008000, /* internal copy, no done call*/ 104 CTL_FLAG_SENT_2OTHER_SC = 0x00010000, 105 CTL_FLAG_FROM_OTHER_SC = 0x00020000, 106 CTL_FLAG_IS_WAS_ON_RTR = 0x00040000, /* Don't rerun cmd on failover*/ 107 CTL_FLAG_BUS_ADDR = 0x00080000, /* ctl_sglist contains BUS 108 addresses, not virtual ones*/ 109 CTL_FLAG_IO_CONT = 0x00100000, /* Continue I/O instead of 110 completing */ 111 CTL_FLAG_AUTO_MIRROR = 0x00200000, /* Automatically use memory 112 from the RC cache mirrored 113 address area. */ 114#if 0 115 CTL_FLAG_ALREADY_DONE = 0x00200000 /* I/O already completed */ 116#endif 117 CTL_FLAG_NO_DATAMOVE = 0x00400000, 118 CTL_FLAG_DMA_QUEUED = 0x00800000, /* DMA queued but not started*/ 119 CTL_FLAG_STATUS_QUEUED = 0x01000000, /* Status queued but not sent*/ 120 121 CTL_FLAG_REDIR_DONE = 0x02000000, /* Redirection has already 122 been done. */ 123 CTL_FLAG_FAILOVER = 0x04000000, /* Killed by a failover */ 124 CTL_FLAG_IO_ACTIVE = 0x08000000, /* I/O active on this SC */ 125 CTL_FLAG_RDMA_MASK = CTL_FLAG_NO_DATASYNC | CTL_FLAG_BUS_ADDR | 126 CTL_FLAG_AUTO_MIRROR | CTL_FLAG_REDIR_DONE 127 /* Flags we care about for 128 remote DMA */ 129} ctl_io_flags; 130 131 132struct ctl_lba_len { 133 uint64_t lba; 134 uint32_t len; 135}; 136 137struct ctl_lba_len_flags { 138 uint64_t lba; 139 uint32_t len; 140 uint32_t flags; 141#define CTL_LLF_READ 0x10000000 142#define CTL_LLF_WRITE 0x20000000 143#define CTL_LLF_VERIFY 0x40000000 144#define CTL_LLF_COMPARE 0x80000000 145}; 146 147struct ctl_ptr_len_flags { 148 uint8_t *ptr; 149 uint32_t len; 150 uint32_t flags; 151}; 152 153union ctl_priv { 154 uint8_t bytes[sizeof(uint64_t) * 2]; 155 uint64_t integer; 156 void *ptr; 157}; 158 159/* 160 * Number of CTL private areas. 161 */ 162#define CTL_NUM_PRIV 6 163 164/* 165 * Which private area are we using for a particular piece of data? 166 */ 167#define CTL_PRIV_LUN 0 /* CTL LUN pointer goes here */ 168#define CTL_PRIV_LBA_LEN 1 /* Decoded LBA/len for read/write*/ 169#define CTL_PRIV_MODEPAGE 1 /* Modepage info for config write */ 170#define CTL_PRIV_BACKEND 2 /* Reserved for block, RAIDCore */ 171#define CTL_PRIV_BACKEND_LUN 3 /* Backend LUN pointer */ 172#define CTL_PRIV_FRONTEND 4 /* LSI driver, ioctl front end */ 173#define CTL_PRIV_USER 5 /* Userland use */ 174 175#define CTL_INVALID_PORTNAME 0xFF 176#define CTL_UNMAPPED_IID 0xFF 177/* 178 * XXX KDM this size is for the port_priv variable in struct ctl_io_hdr 179 * below. This should be defined in terms of the size of struct 180 * ctlfe_lun_cmd_info at the moment: 181 * struct ctlfe_lun_cmd_info { 182 * int cur_transfer_index; 183 * ctlfe_cmd_flags flags; 184 * bus_dma_segment_t cam_sglist[32]; 185 * }; 186 * 187 * This isn't really the way I'd prefer to do it, but it does make some 188 * sense, AS LONG AS we can guarantee that there will always only be one 189 * outstanding DMA request per ctl_io. If that assumption isn't valid, 190 * then we've got problems. 191 * 192 * At some point it may be nice switch CTL over to using CCBs for 193 * everything. At that point we can probably use the ATIO/CTIO model, so 194 * that multiple simultaneous DMAs per command will just work. 195 * 196 * Also note that the current size, 600, is appropriate for 64-bit 197 * architectures, but is overkill for 32-bit architectures. Need a way to 198 * figure out the size at compile time, or just get rid of this altogether. 199 */ 200#define CTL_PORT_PRIV_SIZE 600 201 202struct ctl_sg_entry { 203 void *addr; 204 size_t len; 205}; 206 207struct ctl_id { 208 uint32_t id; 209 uint64_t wwid[2]; 210}; 211 212typedef enum { 213 CTL_IO_NONE, 214 CTL_IO_SCSI, 215 CTL_IO_TASK, 216} ctl_io_type; 217 218struct ctl_nexus { 219 struct ctl_id initid; /* Initiator ID */ 220 uint32_t targ_port; /* Target port, filled in by PORT */ 221 struct ctl_id targ_target; /* Destination target */ 222 uint32_t targ_lun; /* Destination lun */ 223 uint32_t targ_mapped_lun; /* Destination lun CTL-wide */ 224}; 225 226typedef enum { 227 CTL_MSG_SERIALIZE, 228 CTL_MSG_R2R, 229 CTL_MSG_FINISH_IO, 230 CTL_MSG_BAD_JUJU, 231 CTL_MSG_MANAGE_TASKS, 232 CTL_MSG_PERS_ACTION, 233 CTL_MSG_SYNC_FE, 234 CTL_MSG_APS_LOCK, 235 CTL_MSG_DATAMOVE, 236 CTL_MSG_DATAMOVE_DONE 237} ctl_msg_type; 238 239struct ctl_scsiio; 240 241#define CTL_NUM_SG_ENTRIES 9 242 243struct ctl_io_hdr { 244 uint32_t version; /* interface version XXX */ 245 ctl_io_type io_type; /* task I/O, SCSI I/O, etc. */ 246 ctl_msg_type msg_type; 247 struct ctl_nexus nexus; /* Initiator, port, target, lun */ 248 uint32_t iid_indx; /* the index into the iid mapping */ 249 uint32_t flags; /* transaction flags */ 250 uint32_t status; /* transaction status */ 251 uint32_t port_status; /* trans status, set by PORT, 0 = good*/ 252 uint32_t timeout; /* timeout in ms */ 253 uint32_t retries; /* retry count */ 254#ifdef CTL_IO_DELAY 255 uint8_t timer_bytes[CTL_TIMER_BYTES]; /* timer kludge */ 256#endif /* CTL_IO_DELAY */ 257#ifdef CTL_TIME_IO 258 time_t start_time; /* I/O start time */ 259 struct bintime start_bt; /* Timer start ticks */ 260 struct bintime dma_start_bt; /* DMA start ticks */ 261 struct bintime dma_bt; /* DMA total ticks */ 262 uint32_t num_dmas; /* Number of DMAs */ 263#endif /* CTL_TIME_IO */ 264 union ctl_io *original_sc; 265 union ctl_io *serializing_sc; 266 void *pool; /* I/O pool */ 267 union ctl_priv ctl_private[CTL_NUM_PRIV];/* CTL private area */ 268 uint8_t port_priv[CTL_PORT_PRIV_SIZE];/* PORT private area*/ 269 struct ctl_sg_entry remote_sglist[CTL_NUM_SG_ENTRIES]; 270 struct ctl_sg_entry remote_dma_sglist[CTL_NUM_SG_ENTRIES]; 271 struct ctl_sg_entry local_sglist[CTL_NUM_SG_ENTRIES]; 272 struct ctl_sg_entry local_dma_sglist[CTL_NUM_SG_ENTRIES]; 273 STAILQ_ENTRY(ctl_io_hdr) links; /* linked list pointer */ 274 TAILQ_ENTRY(ctl_io_hdr) ooa_links; 275 TAILQ_ENTRY(ctl_io_hdr) blocked_links; 276}; 277 278typedef enum { 279 CTL_TAG_UNTAGGED, 280 CTL_TAG_SIMPLE, 281 CTL_TAG_ORDERED, 282 CTL_TAG_HEAD_OF_QUEUE, 283 CTL_TAG_ACA 284} ctl_tag_type; 285 286union ctl_io; 287 288/* 289 * SCSI passthrough I/O structure for the CAM Target Layer. Note 290 * that some of these fields are here for completeness, but they aren't 291 * used in the CTL implementation. e.g., timeout and retries won't be 292 * used. 293 * 294 * Note: Make sure the io_hdr is *always* the first element in this 295 * structure. 296 */ 297struct ctl_scsiio { 298 struct ctl_io_hdr io_hdr; /* common to all I/O types */ 299 300 /* 301 * The ext_* fields are generally intended for frontend use; CTL itself 302 * doesn't modify or use them. 303 */ 304 uint32_t ext_sg_entries; /* 0 = no S/G list, > 0 = num entries */ 305 uint8_t *ext_data_ptr; /* data buffer or S/G list */ 306 uint32_t ext_data_len; /* Data transfer length */ 307 uint32_t ext_data_filled; /* Amount of data filled so far */ 308 309 /* 310 * The number of scatter/gather entries in the list pointed to 311 * by kern_data_ptr. 0 means there is no list, just a data pointer. 312 */ 313 uint32_t kern_sg_entries; 314 315 uint32_t rem_sg_entries; /* Unused. */ 316 317 /* 318 * The data pointer or a pointer to the scatter/gather list. 319 */ 320 uint8_t *kern_data_ptr; 321 322 /* 323 * Length of the data buffer or scatter/gather list. It's also 324 * the length of this particular piece of the data transfer, 325 * ie. number of bytes expected to be transferred by the current 326 * invocation of frontend's datamove() callback. It's always 327 * less than or equal to kern_total_len. 328 */ 329 uint32_t kern_data_len; 330 331 /* 332 * Total length of data to be transferred during this particular 333 * SCSI command, as decoded from SCSI CDB. 334 */ 335 uint32_t kern_total_len; 336 337 /* 338 * Amount of data left after the current data transfer. 339 */ 340 uint32_t kern_data_resid; 341 342 /* 343 * Byte offset of this transfer, equal to the amount of data 344 * already transferred for this SCSI command during previous 345 * datamove() invocations. 346 */ 347 uint32_t kern_rel_offset; 348 349 struct scsi_sense_data sense_data; /* sense data */ 350 uint8_t sense_len; /* Returned sense length */ 351 uint8_t scsi_status; /* SCSI status byte */ 352 uint8_t sense_residual; /* Unused. */ 353 uint32_t residual; /* data residual length */ 354 uint32_t tag_num; /* tag number */ 355 ctl_tag_type tag_type; /* simple, ordered, head of queue,etc.*/ 356 uint8_t cdb_len; /* CDB length */ 357 uint8_t cdb[CTL_MAX_CDBLEN]; /* CDB */ 358 int (*be_move_done)(union ctl_io *io); /* called by fe */ 359 int (*io_cont)(union ctl_io *io); /* to continue processing */ 360}; 361 362typedef enum { 363 CTL_TASK_ABORT_TASK, 364 CTL_TASK_ABORT_TASK_SET, 365 CTL_TASK_CLEAR_ACA, 366 CTL_TASK_CLEAR_TASK_SET, 367 CTL_TASK_I_T_NEXUS_RESET, 368 CTL_TASK_LUN_RESET, 369 CTL_TASK_TARGET_RESET, 370 CTL_TASK_BUS_RESET, 371 CTL_TASK_PORT_LOGIN, 372 CTL_TASK_PORT_LOGOUT 373} ctl_task_type; 374 375/* 376 * Task management I/O structure. Aborts, bus resets, etc., are sent using 377 * this structure. 378 * 379 * Note: Make sure the io_hdr is *always* the first element in this 380 * structure. 381 */ 382struct ctl_taskio { 383 struct ctl_io_hdr io_hdr; /* common to all I/O types */ 384 ctl_task_type task_action; /* Target Reset, Abort, etc. */ 385 uint32_t tag_num; /* tag number */ 386 ctl_tag_type tag_type; /* simple, ordered, etc. */ 387}; 388 389typedef enum { 390 CTL_PR_REG_KEY, 391 CTL_PR_UNREG_KEY, 392 CTL_PR_PREEMPT, 393 CTL_PR_CLEAR, 394 CTL_PR_RESERVE, 395 CTL_PR_RELEASE 396} ctl_pr_action; 397 398/* 399 * The PR info is specifically for sending Persistent Reserve actions 400 * to the other SC which it must also act on. 401 * 402 * Note: Make sure the io_hdr is *always* the first element in this 403 * structure. 404 */ 405struct ctl_pr_info { 406 ctl_pr_action action; 407 uint8_t sa_res_key[8]; 408 uint8_t res_type; 409 uint16_t residx; 410}; 411 412struct ctl_ha_msg_hdr { 413 ctl_msg_type msg_type; 414 union ctl_io *original_sc; 415 union ctl_io *serializing_sc; 416 struct ctl_nexus nexus; /* Initiator, port, target, lun */ 417 uint32_t status; /* transaction status */ 418 TAILQ_ENTRY(ctl_ha_msg_hdr) links; 419}; 420 421#define CTL_HA_MAX_SG_ENTRIES 16 422 423/* 424 * Used for CTL_MSG_APS_LOCK. 425 */ 426struct ctl_ha_msg_aps { 427 struct ctl_ha_msg_hdr hdr; 428 uint8_t lock_flag; 429}; 430 431/* 432 * Used for CTL_MSG_PERS_ACTION. 433 */ 434struct ctl_ha_msg_pr { 435 struct ctl_ha_msg_hdr hdr; 436 struct ctl_pr_info pr_info; 437}; 438 439/* 440 * The S/G handling here is a little different than the standard ctl_scsiio 441 * structure, because we can't pass data by reference in between controllers. 442 * The S/G list in the ctl_scsiio struct is normally passed in the 443 * kern_data_ptr field. So kern_sg_entries here will always be non-zero, 444 * even if there is only one entry. 445 * 446 * Used for CTL_MSG_DATAMOVE. 447 */ 448struct ctl_ha_msg_dt { 449 struct ctl_ha_msg_hdr hdr; 450 ctl_io_flags flags; /* Only I/O flags are used here */ 451 uint32_t sg_sequence; /* S/G portion number */ 452 uint8_t sg_last; /* last S/G batch = 1 */ 453 uint32_t sent_sg_entries; /* previous S/G count */ 454 uint32_t cur_sg_entries; /* current S/G entries */ 455 uint32_t kern_sg_entries; /* total S/G entries */ 456 uint32_t kern_data_len; /* Length of this S/G list */ 457 uint32_t kern_total_len; /* Total length of this 458 transaction */ 459 uint32_t kern_data_resid; /* Length left to transfer 460 after this*/ 461 uint32_t kern_rel_offset; /* Byte Offset of this 462 transfer */ 463 struct ctl_sg_entry sg_list[CTL_HA_MAX_SG_ENTRIES]; 464}; 465 466/* 467 * Used for CTL_MSG_SERIALIZE, CTL_MSG_FINISH_IO, CTL_MSG_BAD_JUJU. 468 */ 469struct ctl_ha_msg_scsi { 470 struct ctl_ha_msg_hdr hdr; 471 uint8_t cdb[CTL_MAX_CDBLEN]; /* CDB */ 472 uint32_t tag_num; /* tag number */ 473 ctl_tag_type tag_type; /* simple, ordered, etc. */ 474 uint8_t scsi_status; /* SCSI status byte */ 475 struct scsi_sense_data sense_data; /* sense data */ 476 uint8_t sense_len; /* Returned sense length */ 477 uint8_t sense_residual; /* sense residual length */ 478 uint32_t residual; /* data residual length */ 479 uint32_t fetd_status; /* trans status, set by FETD, 480 0 = good*/ 481 struct ctl_lba_len lbalen; /* used for stats */ 482}; 483 484/* 485 * Used for CTL_MSG_MANAGE_TASKS. 486 */ 487struct ctl_ha_msg_task { 488 struct ctl_ha_msg_hdr hdr; 489 ctl_task_type task_action; /* Target Reset, Abort, etc. */ 490 uint32_t tag_num; /* tag number */ 491 ctl_tag_type tag_type; /* simple, ordered, etc. */ 492}; 493 494union ctl_ha_msg { 495 struct ctl_ha_msg_hdr hdr; 496 struct ctl_ha_msg_task task; 497 struct ctl_ha_msg_scsi scsi; 498 struct ctl_ha_msg_dt dt; 499 struct ctl_ha_msg_pr pr; 500 struct ctl_ha_msg_aps aps; 501}; 502 503 504struct ctl_prio { 505 struct ctl_io_hdr io_hdr; 506 struct ctl_ha_msg_pr pr_msg; 507}; 508 509 510 511union ctl_io { 512 struct ctl_io_hdr io_hdr; /* common to all I/O types */ 513 struct ctl_scsiio scsiio; /* Normal SCSI commands */ 514 struct ctl_taskio taskio; /* SCSI task management/reset */ 515 struct ctl_prio presio; /* update per. res info on other SC */ 516}; 517 518#ifdef _KERNEL 519 520union ctl_io *ctl_alloc_io(void *pool_ref); 521void ctl_free_io(union ctl_io *io); 522void ctl_zero_io(union ctl_io *io); 523void ctl_copy_io(union ctl_io *src, union ctl_io *dest); 524 525#endif /* _KERNEL */ 526 527#endif /* _CTL_IO_H_ */ 528 529/* 530 * vim: ts=8 531 */ 532