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 2009 Sun Microsystems, Inc. All rights reserved. 23 * Use is subject to license terms. 24 */ 25 26 #ifndef _FCPVAR_H 27 #define _FCPVAR_H 28 29 30 31 #ifdef __cplusplus 32 extern "C" { 33 #endif 34 35 #include <sys/types.h> 36 37 /* 38 * Maximum number of times FCP will re-issue a REPORTS_LUNS command if the 39 * device couldn't return all of them in the submitted buffer. 40 */ 41 #define FCP_MAX_REPORTLUNS_ATTEMPTS 2 42 /* 43 * Maximum number of LUNs supported. This limit is enforced to accommodate 44 * certain HBAs. 45 */ 46 #define FCP_MAX_LUNS_SUPPORTED 65535 47 48 /* 49 * Stuff to be defined in fc_ulpif.h FIXIT 50 */ 51 #define PORT_DEVICE_CREATE 0x40 52 #define SCMD_REPORT_LUN 0xa0 /* SCSI cmd to report on LUNs */ 53 #define SCMD_INQUIRY_LWWN_SIZE 32 /* Max WWN size */ 54 #define SCMD_INQUIRY_PAGE83 0xF0 /* Internal opcode for page 0x83 */ 55 #define FC4_SCSI_FCP 0x08 /* our (SCSI) FC4 type number */ 56 57 #define FCP_QUEUE_DELAY (4) 58 #define FCP_FAILED_DELAY 20 59 #define FCP_RESET_DELAY 3 /* target reset delay of 3 secs */ 60 #define FCP_OFFLINE_DELAY 20 /* 20 seconds is 2*RA_TOV_els */ 61 62 /* 63 * Highest possible timeout value to indicate 64 * the watch thread to return the I/O 65 */ 66 #define FCP_INVALID_TIMEOUT (0xFFFFFFFF) 67 68 /* 69 * The max inquiry page 83 size as expected in the code today 70 * is 0xf0 bytes. Defining a constant to make it easy incase 71 * this needs to be changed at a later time. 72 */ 73 #define SCMD_MAX_INQUIRY_PAGE83_SIZE 0xF0 74 /* 75 * Events generated for Target drivers; "SUNW,sf:" prefix 76 * is a legacy fcal stuff hardcoded into ssd via the use of 77 * FCAL_INSERT_EVENT defined in an fcal header file; We 78 * just need to continue to use this. 79 */ 80 #define FCAL_INSERT_EVENT "SUNW,sf:DEVICE-INSERTION.1" 81 #define FCAL_REMOVE_EVENT "SUNW,sf:DEVICE-REMOVAL.1" 82 83 /* 84 * for debug trace 85 */ 86 #define FCP_STACK_DEPTH 14 87 88 89 /* 90 * All the stuff above needs to move intp appropriate header files. 91 */ 92 93 #define FCP_NUM_HASH 128 94 95 #define FCP_HASH(x) ((x[0] + x[1] + x[2] + x[3] +\ 96 x[4] + x[5] + x[6] + x[7]) & \ 97 (FCP_NUM_HASH-1)) 98 99 #define FCP_STATEC_MASK (FC_STATE_OFFLINE | FC_STATE_ONLINE |\ 100 FC_STATE_LOOP | FC_STATE_NAMESERVICE |\ 101 FC_STATE_RESET |\ 102 FC_STATE_RESET_REQUESTED |\ 103 FC_STATE_LIP | FC_STATE_DEVICE_CHANGE) 104 105 #define PKT_PRIV_SIZE 2 106 107 #ifdef KSTATS_CODE 108 /* 109 * fcp_stats : Statistics provided for fcp. 110 */ 111 struct fcp_stats { 112 uint_t version; /* version of this struct */ 113 uint_t lip_count; /* lips forced by fcp */ 114 uint_t link_reset_count; /* lip failures, ie, no ONLINE */ 115 /* response after forcing lip */ 116 uint_t ncmds; /* outstanding commands */ 117 uint_t throttle_limit; /* current throttle limit */ 118 char drvr_name[MAXNAMELEN]; /* Name of driver, NULL term. */ 119 }; 120 #endif 121 122 /* 123 * Structure fcp_port 124 * -------------------- 125 * 126 * This structure is the FCP representation of an N_Port on a local FC HBA card. 127 * This is the master structure off of which all the others will be hanging at 128 * some point and is the Solaris per-instance soft-state structure. 129 */ 130 struct fcp_port { 131 /* 132 * This mutex protects the access to this structure (or most of its 133 * fields). 134 */ 135 kmutex_t port_mutex; 136 /* 137 * This is the link to the next fcp_port structure in the global 138 * list. The head of the global list is fcp_port_head and is 139 * defined in fcp.c. This field is NULL for the last element of 140 * the global list. 141 */ 142 struct fcp_port *port_next; 143 /* 144 * This field points to the head of a list of internal requests that 145 * will be retried later. Examples of internal requests are: 146 * 'Send a PRLI ELS', 'Send a PRLO ELS', 'Send a PLOGI ELS' or 147 * 'Send an Inquiry command'. If the submission of the request to the 148 * fp/fctl module failed (for a set of specific reasons) and the 149 * request can be resubmitted later, it is queued here. The watchdog 150 * timer (fcp_watch()) will walk this queue and resubmit the requests. 151 */ 152 struct fcp_ipkt *port_ipkt_list; 153 /* 154 * This seems to be used as a temporary device counter during a 155 * discovery process (or reconfiguration as some comments put it). 156 * It seems to be initialized in fcp_statec_callback() with the 157 * number of devices that fp/fctl saw after the line came up and 158 * is supposed to reached zero when the reconfiguration process is 159 * over. 160 */ 161 int port_tmp_cnt; 162 /* 163 * This is supposed to indicate the state of this port. It is a 164 * bitmap which means several bits can be set simultaneously. The list 165 * of the different bits and their meaning is given further down in 166 * this file. 167 */ 168 uint32_t port_state; 169 /* 170 * This field is initialized at the very end of the function 171 * fcp_handle_port_attach() if the attachment of the port was 172 * successful. It is set to the value stored in lbolt64 at the 173 * time of the attachment. This value is only used in the function 174 * fcp_scsi_bus_config(). It is used to determine the value of the 175 * parameter timeout when ndi_busop_bus_config() and cv_wait() are 176 * called. It actually serves to figure out how long the enumeration 177 * can be delayed (the max value being FCP_INIT_WAIT_TIMEOUT). 178 */ 179 int64_t port_attach_time; 180 /* 181 * This field contains the topology of the SAN the port is connected 182 * to. 183 */ 184 uint32_t port_topology; 185 /* 186 * This field contains the local port ID. It is provided by fp/fctl 187 * when calling fcp_statec_callback() and fcp_port_attach(). This 188 * value is used to build Fibre Channel headers (like for PLOGI or 189 * PRLI). 190 */ 191 uint32_t port_id; 192 /* 193 * This field keeps track of the physical port state (fcp_port being 194 * more like the FCP software port state). The information stored here 195 * is provided by fp/fctl except in two instances: in 196 * fcp_handle_port_attach() and fcp_handle_port_resume(). The values 197 * this field can take are defined in fctl.h. 198 */ 199 uint32_t port_phys_state; 200 /* 201 * This field points to the first element of a list of fcp_reset_elem 202 * structures. Those structures are created when the target driver 203 * calls fcp_reset_target(). The target or the LUN specified by the 204 * target driver is reset by sending a Task Management command. After 205 * the response has been received, a fcp_reset_elem structure is 206 * queued here and will remain queued for FCP_RESET_DELAY. While 207 * the fcp_reset_elem structure is in this queue the LUNs of 208 * the target to reset or the LUN to reset is set to LUN_BUSY state. 209 * In fcp_watch() the timeout is tested. If the timout has expired, 210 * the fcp_reset_elem structure is unqueued and freed, and all the 211 * active commands for the target or LUNs are aborted. 212 */ 213 struct fcp_reset_elem *port_reset_list; 214 /* 215 * This points to the first element of a list of fcp_tgt_elem 216 * structures. This list is a list of targets to offline. The list 217 * is walked in fcp_watch(). After the target is offlined the 218 * structure fcp_tgt_elem is freed. 219 */ 220 struct fcp_tgt_elem *port_offline_tgts; 221 /* 222 * This points to the first element of a list of fcp_lun_elem 223 * structures. This list is a list of LUNs to offline. The list 224 * is walked in fcp_watch(). After the lun is offlined the 225 * structure fcp_lun_elem is freed. 226 */ 227 struct fcp_lun_elem *port_offline_luns; 228 /* 229 * This field is a counter initialized to 1 when the port attaches. 230 * It is incremented when the line goes from online to offline and 231 * vice versa. It is also incremented when the port detaches. The 232 * value stored in this counter is used as a reference in time of the 233 * link state. For example, when the line comes up internal requests 234 * are generated (fcp_ipkt) such as PRLI and INQUIRY. Those requests 235 * are tagged with the value contained in this field at the time the 236 * request is built. When the callback for the request is called, the 237 * current value of port_link_cnt is checked against the one set in 238 * the internal request structure. If they don't match, it means the 239 * the request is not relevant anymore to the current line state and 240 * must be discarded (in between a request is issued and the callback 241 * routine is called the line may have bounced). This is the way FCP 242 * identifies the requests that were hanging out when the state of the 243 * line changed. 244 */ 245 uint32_t port_link_cnt; 246 /* 247 * This field, as its name suggests, specifies a deadline for the 248 * overall discovery process. It is initialized in three cases: 249 * 250 * 1) When the line goes from the offline state to the online state. 251 * 2) When the FP/FCTL called fcp_statec_callback() indicating that 252 * a notification was received from the fabric indicating that a new 253 * port showed up or that one disappeared. 254 * 3) In the fcp_create_on_demand() function (called because of an 255 * ioctl). 256 * 257 * In all instances it is set to: 258 * 259 * fcp_watchdog_time + FCP_ICMD_DEADLINE 260 * 261 * In all those instances a discovery process is started or extended 262 * (2). The value stored in port_deadline is only checked in one 263 * function: fcp_is_retryable(). That function checks if an 264 * internal command (fcp_ipkt) is retryable or not. Usually 265 * there's a counter that limits the number of times a command is 266 * retried (Max value is FCP_MAX_RETRIES). However, even if the 267 * counter hasn't exceeded that value, the command will not be retried 268 * past the deadline. This means that the discovery process has to 269 * be finished before port_deadline. In other words, an internal 270 * command retry capability is limited numerically and in time. 271 */ 272 int port_deadline; 273 /* 274 * This is the Node WWN of the local port. It is initialized 275 * during the port attachment. 276 */ 277 la_wwn_t port_nwwn; 278 /* 279 * This is the Port WWN of the local port. It is initialized during 280 * the port attachment. 281 */ 282 la_wwn_t port_pwwn; 283 /* 284 * This is the fp/fctl port handle. 285 */ 286 opaque_t *port_fp_handle; 287 /* 288 * The following 4 fields handle the queue of fcp_pkt outstanding for 289 * this port. 290 * 291 * port_pkt_mutex Protects the access to the queue 292 * port_pkt_head Points to the head of the queue 293 * port_pkt_tail Points to the tail of the queue 294 * port_npkts Number of commands outstanding (used only when 295 * DEBUG is defined). 296 */ 297 kmutex_t port_pkt_mutex; 298 uint32_t port_npkts; 299 struct fcp_pkt *port_pkt_head; 300 struct fcp_pkt *port_pkt_tail; 301 /* 302 * This field is the counter of allocated and currently active 303 * fcp_ipkt. 304 */ 305 int port_ipkt_cnt; 306 /* 307 * Port instance provided by FP/FCTL. It is actually deduced using 308 * ddi_get_instance() in fcp_port_attach(). 309 */ 310 uint32_t port_instance; 311 /* 312 * Maximum number of exchanges the underlying physical FibreChannel 313 * port can handle. This field is initialized during the port 314 * attachment but is never used. 315 */ 316 uint32_t port_max_exch; 317 /* 318 * This port stores the behavior expected of the underlying FCA driver 319 * when a port reset occurs. The values stored here are defined in the 320 * file fc_types.h. 321 */ 322 fc_reset_action_t port_reset_action; 323 /* 324 * This port stores the DMA behavior of the underlying FCA driver. It 325 * is checked only once in fcp_prepare_pkt() and, as the comment 326 * suggests, to work around an issue with an Intel PCI bridge. 327 */ 328 fc_dma_behavior_t port_cmds_dma_flags; 329 /* 330 * The value stored here indicates if the underlying FCA driver 331 * supports DMA transfers with non SCSI data (Ex: PRLI request). 332 */ 333 fc_fcp_dma_t port_fcp_dma; 334 /* 335 * This field contains the size of the private space required by the 336 * underlying FCA driver in a FibreChannel packet (fc_packet_t). 337 */ 338 uint32_t port_priv_pkt_len; 339 /* 340 * This field contains the port's modlink info. It is provided by 341 * FP/FCTL during the port attachment. 342 */ 343 struct modlinkage port_fp_modlinkage; 344 /* 345 * DMA attributes for data packets, commands and responses. 346 */ 347 ddi_dma_attr_t port_data_dma_attr; 348 ddi_dma_attr_t port_cmd_dma_attr; 349 ddi_dma_attr_t port_resp_dma_attr; 350 ddi_device_acc_attr_t port_dma_acc_attr; 351 /* 352 * Field containing the hba_tran structure registered with SCSA. 353 */ 354 struct scsi_hba_tran *port_tran; 355 /* 356 * Device info structure provided by fp/fctl when the port attaches and 357 * representing the local physical fibre channel port. 358 */ 359 dev_info_t *port_dip; 360 /* 361 * Head of the list of callback routines to call when a bus reset 362 * occurs. This list is populated by the targets drivers by calling 363 * fcp_scsi_reset_notify() (tran_reset_notify(9E)). 364 */ 365 struct scsi_reset_notify_entry *port_reset_notify_listf; 366 /* 367 * for framework event management 368 */ 369 ndi_event_definition_t *port_ndi_event_defs; 370 ndi_event_hdl_t port_ndi_event_hdl; 371 ndi_event_set_t port_ndi_events; 372 /* 373 * hash lists of targets attached to this port. The hashing is based 374 * on the WWN. 375 */ 376 struct fcp_tgt *port_tgt_hash_table[FCP_NUM_HASH]; 377 /* 378 * per-Port control flag. By default mpxio is enabled on ports unless 379 * explicitly disabled through driver.conf. 380 */ 381 int port_mpxio; 382 /* 383 * Value used as a flag to determine if the throttling has been 384 * set/initialized in the FCA driver. 385 */ 386 int port_notify; 387 /* 388 * This field contains a string initialized at attachment time and used 389 * when calling the function the function fc_trace_debug() (through 390 * the macro FCP_TRACE and FCP_DTRACE) to identify the port that 391 * logged the message. 392 */ 393 char port_instbuf[24]; 394 uchar_t port_boot_wwn[FC_WWN_SIZE]; 395 396 #ifdef DEBUG 397 /* 398 * Use once in fcp_finish_init() when calling getpcstack(). 399 */ 400 int port_finish_depth; 401 pc_t port_finish_stack[FCP_STACK_DEPTH]; 402 #endif /* DEBUG */ 403 /* 404 * Condition variable used during the bus enumeration process. 405 */ 406 kcondvar_t port_config_cv; 407 /* 408 * Size (in bytes) required to hold the cookies of a scatter/gather 409 * list. 410 */ 411 int port_dmacookie_sz; 412 }; 413 414 /* 415 * We need to save the target change count values in a map tag so as 416 * to uniquely identify the cause and handle it better as they change 417 * counts are bound to change upon receiving more state changes. 418 */ 419 typedef int fcp_map_tag_t; 420 421 /* 422 * fcp_state definitions. 423 */ 424 #define FCP_STATE_INIT 0x0001 425 #define FCP_STATE_OFFLINE 0x0002 426 #define FCP_STATE_ONLINE 0x0004 427 #define FCP_STATE_SUSPENDED 0x0008 428 #define FCP_STATE_POWER_DOWN 0x0010 429 #define FCP_STATE_ONLINING 0x0020 430 #define FCP_STATE_DETACHING 0x0040 431 #define FCP_STATE_IN_WATCHDOG 0x0080 432 #define FCP_STATE_IN_MDI 0x0100 /* Not in S8/S9 */ 433 #define FCP_STATE_NS_REG_FAILED 0x0200 /* Diff value from S8/S9 */ 434 /* 435 * FCP_STATE_IN_CB_DEVC indicates that we're handling a state change 436 * notification that will be changing the state of devices. This is an 437 * indication to fcp_scsi_start that the target's status might change. 438 */ 439 #define FCP_STATE_IN_CB_DEVC 0x0400 440 441 #define FCP_MAX_DEVICES 127 442 443 /* To remember that dip was allocated for a lun on this target. */ 444 445 #define FCP_DEVICE_CREATED 0x1 446 447 #define FCP_EVENT_TAG_INSERT 0 448 #define FCP_EVENT_TAG_REMOVE 1 449 450 /* 451 * fcp_pkt: FCP packet 452 * --------------------- 453 * 454 * This structure is the one initialized/created in the tran_init_pkt(9E). It 455 * embeds the fc_packet structure eventually passed to fp/fctl as well as 456 * the scsi_pkt returned by tran_init_pkt(9E) to the target driver. There is 457 * a 1-to-1 correlation between the scsi_pkt, the fcp_pkt and the 458 * fc_packet. 459 * 460 * This is what a fcp_pkt looks like after allocation: 461 * 462 * +================================+ 463 * +---> | struct scsi_pkt | 464 * | | | 465 * | +--- | pkt_ha_private | 466 * | | | | 467 * | | +================================+ 468 * | | 469 * | | +================================+ 470 * | +--> | struct fcp_pkt | <---------+ 471 * +----- | cmd_pkt | | 472 * | cmd_fp_pkt | ---+ | 473 * +--------->| cmd_fcp_rsp[] | | | 474 * | +------->| cmd_fcp_cmd[] | | | 475 * | | |--------------------------------| | | 476 * | | | struct fc_packet | <--+ | 477 * | | | | | 478 * | | | pkt_ulp_private | ----------+ 479 * | | | pkt_fca_private | -----+ 480 * | | | pkt_data_cookie | ---+ | 481 * | | | pkt_cmdlen | | | 482 * | |(a) | pkt_rsplen | | | 483 * | +--------| .......... pkt_cmd ........... | ---|-|-------+ 484 * | (a) | pkt_cmd_cookie | ---|-|-----+ | 485 * +----------| .......... pkt_resp .......... | ---|-|---+ | | 486 * | pkt_resp_cookie | ---|-|-+ | | | 487 * | pkt_cmd_dma | | | | | | | 488 * | pkt_cmd_acc | | | | | | | 489 * +================================+ | | | | | | 490 * | dma_cookies | <--+ | | | | | 491 * | | | | | | | 492 * +================================+ | | | | | 493 * | fca_private | <----+ | | | | 494 * | | | | | | 495 * +================================+ | | | | 496 * | | | | 497 * | | | | 498 * +================================+ (b) | | | | 499 * | fcp_resp cookies | <------+ | | | 500 * | | | | | 501 * +================================+ | | | 502 * | | | 503 * +================================+ (b) | | | 504 * | fcp_resp | <--------+ | | 505 * | (DMA resources associated) | | | 506 * +================================+ | | 507 * | | 508 * | | 509 * | | 510 * +================================+ (b) | | 511 * | fcp_cmd cookies | <----------+ | 512 * | | | 513 * +================================+ | 514 * | 515 * +================================+ (b) | 516 * | fcp_cmd | <------------+ 517 * | (DMA resources associated) | 518 * +================================+ 519 * 520 * 521 * (a) The underlying FCA does NOT support DMA for this field 522 * (b) The underlying FCA supports DMA for this field 523 */ 524 struct fcp_pkt { 525 /* 526 * The two following fields are used to queue fcp_pkt in the double 527 * link list of the lun structure. The packet is queued in 528 * tran_init_pkt(9E) and unqueued in tran_destroy_pkt(9E). 529 */ 530 struct fcp_pkt *cmd_forw; 531 struct fcp_pkt *cmd_back; 532 /* 533 * This field is used to queue the packet in the single link list of the 534 * port structure. The port keeps a list of all the commands issued 535 * through it and scans it, for example, when all of those commands 536 * have to be aborted. 537 */ 538 struct fcp_pkt *cmd_next; 539 /* 540 * This field points back to the scsi_pkt. 541 */ 542 struct scsi_pkt *cmd_pkt; 543 /* 544 * This field points to the field cmd_fc_packet defined further in this 545 * same structure. 546 */ 547 struct fc_packet *cmd_fp_pkt; 548 /* 549 * Structure where the FCP_CMD information unit is going to be built. 550 */ 551 fcp_cmd_t cmd_fcp_cmd; 552 /* 553 * State of the packet. The values for the state seem to indicate 554 * that it isn't a bitmap. However, in several instances the code 555 * treats it as a bitmap doing a "&= ~FCP_PKT_ISSUED" to it 556 * eventhough the value stored is always checked using "!=" and "==". 557 */ 558 uint_t cmd_state; 559 /* 560 * This field is a bitmap indicating if 561 * the cmd is queued 562 */ 563 uint_t cmd_flags; 564 /* Contains the number of bytes DMA mappped. */ 565 uint_t cmd_dmacount; 566 /* 567 * Contains the timeout value for the packet. This is not a delay or 568 * a delta but an absolute value. 569 */ 570 uint_t cmd_timeout; 571 /* 572 * This array is used to store the FCP_RSP information unit returned by 573 * the device when the underlying FCA cannot DMA it in. 574 */ 575 char cmd_fcp_rsp[FCP_MAX_RSP_IU_SIZE]; 576 /* 577 * This is the fc_packet structure used to forward the request to 578 * fp/fctl. 579 */ 580 struct fc_packet cmd_fc_packet; 581 }; 582 583 /* 584 * fcp_ipkt : Packet for internal commands. 585 * ------------------------------------------ 586 * 587 * +================================+ 588 * | struct fcp_ipkt | <---------+ 589 * | (kmem_zalloc()) | | 590 * | ipkt_fpkt | ---+ | 591 * | | | | 592 * | ipkt_cmdlen = cmd_len | | | 593 * | | | | 594 * | | | | 595 * | | | | 596 * |--------------------------------| | | 597 * | struct fc_packet | <--+ | 598 * | | | 599 * | pkt_ulp_private | ----------+ 600 * | pkt_fca_private | -----+ 601 * | pkt_data_cookie | ---+ | 602 * | pkt_cmdlen | | | 603 * | pkt_rsplen | | | 604 * | pkt_cmd ...................... | ---|-|-------+ 605 * | pkt_cmd_cookie | ---|-|-----+ | 606 * | pkt_resp ..................... | ---|-|---+ | | 607 * | pkt_resp_cookie | ---|-|-+ | | | 608 * | pkt_cmd_dma | | | | | | | 609 * | pkt_cmd_acc | | | | | | | 610 * +================================+ | | | | | | 611 * | dma_cookies | <--+ | | | | | 612 * | | | | | | | 613 * | | | | | | | 614 * | | | | | | | 615 * +================================+ | | | | | 616 * | fca_private | <----+ | | | | 617 * | | | | | | 618 * | | | | | | 619 * | | | | | | 620 * +================================+ | | | | 621 * | | | | 622 * | | | | 623 * +================================+ (b) | | | | 624 * | fcp_resp cookies | <------+ | | | 625 * | | | | | 626 * +================================+ | | | 627 * | | | 628 * +================================+ (b) | | | 629 * | fcp_resp | <--------+ | | 630 * | (DMA resources associated) | | | 631 * +================================+ | | 632 * | | 633 * | | 634 * | | 635 * +================================+ (b) | | 636 * | fcp_cmd cookies | <----------+ | 637 * | | | 638 * +================================+ | 639 * | 640 * +================================+ (b) | 641 * | fcp_cmd | <------------+ 642 * | (DMA resources associated) | 643 * +================================+ 644 * 645 * (a) The underlying FCA does NOT support DMA for this field 646 * (b) The underlying FCA supports DMA for this field 647 */ 648 struct fcp_ipkt { 649 /* 650 * Pointer to the port (fcp_port) in behalf of which this internal 651 * packet was allocated. 652 */ 653 struct fcp_port *ipkt_port; 654 /* 655 * Pointer to the target (fcp_tgt) in behalf of which this internal 656 * packet was allocated. 657 */ 658 struct fcp_tgt *ipkt_tgt; 659 /* 660 * Pointer to the lun (fcp_lun) in behalf of which this internal 661 * packet was allocated. This field is only meaningful when the 662 * internal packet has been allocated for a "scsi passthru" command or 663 * for an internal SCSI command such as REPORT LUNs and INQUIRY. 664 */ 665 struct fcp_lun *ipkt_lun; 666 /* 667 * Fields used to queue the internal packet into the double linked list 668 * of the FCP port (fcp_port). 669 */ 670 struct fcp_ipkt *ipkt_next; 671 struct fcp_ipkt *ipkt_prev; 672 /* 673 * This field points to the field ipkt_fc_packet defined farther in 674 * this same structure. 675 */ 676 struct fc_packet *ipkt_fpkt; 677 /* 678 * This is the timeout value for the internal packet. It seems to 679 * increase with the number of retries. It is initialized like this 680 * in the code: 681 * 682 * icmd->ipkt_restart = fcp_watchdog_time + icmd->ipkt_retries++ 683 * 684 * First time ipkt_retries is zero. As it increases, the timeout 685 * value for the internal packet also increases. 686 */ 687 uint32_t ipkt_restart; 688 /* 689 * Link state counter when the internal packet was built. 690 */ 691 uint32_t ipkt_link_cnt; 692 int ipkt_cause; 693 uint32_t ipkt_cmdlen; 694 uint32_t ipkt_resplen; 695 uint32_t ipkt_datalen; 696 /* 697 * Counter of the times an internal packet has been retried. Its 698 * value is checked against FCP_MAX_RETRIES. 699 */ 700 uint32_t ipkt_retries; 701 uint32_t ipkt_change_cnt; 702 int ipkt_nodma; 703 /* 704 * Semaphore used to wait for completion on. 705 */ 706 ksema_t ipkt_sema; 707 /* 708 * Opcode indicating what internal command the packet contains (PLOGI, 709 * PRLI, INQUIRY...). 710 */ 711 uchar_t ipkt_opcode; 712 /* 713 * FC packet. 714 */ 715 struct fc_packet ipkt_fc_packet; 716 }; 717 718 /* 719 * cmd_state definitions 720 */ 721 #define FCP_PKT_IDLE 0x1 722 #define FCP_PKT_ISSUED 0x2 723 #define FCP_PKT_ABORTING 0x3 724 725 /* 726 * These are the defined cmd_flags for this structure. 727 */ 728 #define CFLAG_IN_QUEUE 0x2000 /* command in fcp queue */ 729 730 /* 731 * Target structure 732 * ---------------- 733 * 734 * This structure holds the information relative to a SCSI target. This 735 * structure doesn't represent the object registered with the OS (NDI or 736 * MPxIO...). 737 */ 738 struct fcp_tgt { 739 /* 740 * This field is used to queue the target structure in one of the 741 * buckets of the fcp_port target hash table port_tgt_hash_table[]. 742 */ 743 struct fcp_tgt *tgt_next; 744 /* Points to the fcp_port the target belongs to. */ 745 struct fcp_port *tgt_port; 746 /* 747 * This field is a bitmap indicating the state of the target. Several 748 * bits can be set simultaneously. 749 */ 750 uint32_t tgt_state; 751 /* 752 * State controlling if the LUNs attached to this target will be 753 * automatically onlined or not. 754 */ 755 uint32_t tgt_node_state; 756 /* 757 * Mutex protecting this structure. 758 */ 759 kmutex_t tgt_mutex; 760 /* 761 * List of LUNs (single link list). 762 */ 763 struct fcp_lun *tgt_lun; 764 opaque_t tgt_fca_dev; 765 /* 766 * Number of LUNs in this target. 767 */ 768 uint_t tgt_lun_cnt; 769 /* 770 * Counter of LUNs to probe. It is used during the discovery 771 * process. Starts with the number of LUNs returned by REPORT_LUN 772 * and is decremented until it reaches zero. 773 */ 774 uint_t tgt_tmp_cnt; 775 /* 776 * fp/fctl handle for the "port_device". 777 */ 778 opaque_t tgt_pd_handle; 779 /* 780 * Node World Wide Name. 781 */ 782 la_wwn_t tgt_node_wwn; 783 /* 784 * Port World Wide Name. 785 */ 786 la_wwn_t tgt_port_wwn; 787 /* 788 * Fibre Channel Port ID. 789 */ 790 uint32_t tgt_d_id; 791 /* 792 * Fibre Channel Port ID. Uses bit fields to represent it. 793 */ 794 uint32_t tgt_hard_addr; 795 /* 796 * Becomes 1 when the LUNs are created. 797 */ 798 uchar_t tgt_device_created; 799 /* 800 * Counter of how many REPORT_LUN commands were sent. It is used to 801 * allow the REPORT_LUN command to be sent twice in case the buffer 802 * allocated the first time wasn't big enough. 803 */ 804 uchar_t tgt_report_lun_cnt; 805 /* 806 * This field is incremented each time the field tgt_state is updated. 807 * Its use is similar to the use of the field port_link_cnt in the 808 * fcp_port structure. The internal packets are, for example, tagged 809 * with the value stored here. 810 */ 811 uint32_t tgt_change_cnt; 812 /* 813 * This field contains the cause of the last change in state. 814 */ 815 int tgt_statec_cause; 816 /* 817 * The following two fields indicate whether the remote port is an 818 * FCP initiator or an FCP target. They are treated as booleans. 819 */ 820 uchar_t tgt_icap; /* Initiator */ 821 uchar_t tgt_tcap; /* Target */ 822 #ifdef DEBUG 823 /* 824 * Updated in fcp_call_finish_init_held() when DEBUG is defined 825 */ 826 int tgt_tmp_cnt_depth; 827 pc_t tgt_tmp_cnt_stack[FCP_STACK_DEPTH]; 828 #endif /* DEBUG */ 829 /* 830 * This field holds the timer id of the timer started when a LUN 831 * reconfiguration is needed for the target. The reconfiguration 832 * is done in the timeout function. 833 */ 834 timeout_id_t tgt_tid; 835 int tgt_done; 836 /* 837 * Bitmap used to trace the discovery process. 838 */ 839 uint32_t tgt_trace; 840 /* 841 * This field is used when the code is sorting out which devices 842 * were known which ones are new and which ones went away. 843 */ 844 uint32_t tgt_aux_state; 845 /* 846 * Number of internal packets allocated in behalf of the target. 847 */ 848 int tgt_ipkt_cnt; 849 /* 850 * used to detect user unconfig when auto configuration is enabled. 851 */ 852 uint32_t tgt_manual_config_only; 853 }; 854 855 /* 856 * Target States 857 */ 858 #define FCP_TGT_INIT 0x01 859 #define FCP_TGT_BUSY 0x02 860 #define FCP_TGT_MARK 0x04 861 #define FCP_TGT_OFFLINE 0x08 862 #define FCP_TGT_ORPHAN 0x80 863 #define FCP_TGT_ILLREQ 0x10 864 865 /* 866 * Target Aux Stat 867 */ 868 #define FCP_TGT_TAGGED 0x01 869 870 /* 871 * Target discovery tracing 872 */ 873 #define FCP_TGT_TRACE_1 0x00000001 874 #define FCP_TGT_TRACE_2 0x00000002 875 #define FCP_TGT_TRACE_3 0x00000004 876 #define FCP_TGT_TRACE_4 0x00000008 877 #define FCP_TGT_TRACE_5 0x00000010 878 #define FCP_TGT_TRACE_6 0x00000020 879 #define FCP_TGT_TRACE_7 0x00000040 880 #define FCP_TGT_TRACE_8 0x00000080 881 #define FCP_TGT_TRACE_9 0x00000100 882 #define FCP_TGT_TRACE_10 0x00000200 883 #define FCP_TGT_TRACE_11 0x00000400 884 #define FCP_TGT_TRACE_12 0x00000800 885 #define FCP_TGT_TRACE_13 0x00001000 886 #define FCP_TGT_TRACE_14 0x00002000 887 #define FCP_TGT_TRACE_15 0x00004000 888 #define FCP_TGT_TRACE_16 0x00008000 889 #define FCP_TGT_TRACE_17 0x00010000 890 #define FCP_TGT_TRACE_18 0x00020000 891 #define FCP_TGT_TRACE_19 0x00040000 892 #define FCP_TGT_TRACE_20 0x00080000 893 #define FCP_TGT_TRACE_21 0x00100000 894 #define FCP_TGT_TRACE_22 0x00200000 895 #define FCP_TGT_TRACE_23 0x00400000 896 #define FCP_TGT_TRACE_24 0x00800000 897 #define FCP_TGT_TRACE_25 0x01000000 898 #define FCP_TGT_TRACE_26 0x02000000 899 #define FCP_TGT_TRACE_27 0x04000000 900 #define FCP_TGT_TRACE_28 0x08000000 901 #define FCP_TGT_TRACE_29 0x10000000 902 903 #ifndef __lock_lint 904 905 #define FCP_TGT_TRACE(ptgt, tcount, bit) {\ 906 if (ptgt) {\ 907 if (ptgt->tgt_change_cnt == tcount) {\ 908 ptgt->tgt_trace |= bit;\ 909 }\ 910 }\ 911 } 912 913 #else /* __lock_lint */ 914 915 #define FCP_TGT_TRACE(ptgt, tcount, bit) 916 917 #endif /* __lock_lint */ 918 919 920 /* 921 * state change cause 922 */ 923 #define FCP_CAUSE_TGT_CHANGE 0x01 924 #define FCP_CAUSE_LINK_CHANGE 0x02 925 #define FCP_CAUSE_LINK_DOWN 0x04 926 #define FCP_CAUSE_USER_CREATE 0x08 927 928 929 /* 930 * Target node states (applicable to LUNs behind the target) 931 */ 932 #define FCP_TGT_NODE_NONE 0x00 /* No node exists */ 933 #define FCP_TGT_NODE_ON_DEMAND 0x01 /* create only upon request */ 934 #define FCP_TGT_NODE_PRESENT 0x02 /* Node exists; rediscover it */ 935 936 937 #define FCP_NO_CHANGE 0x1 938 #define FCP_LINK_CHANGE 0x2 939 #define FCP_DEV_CHANGE 0x3 940 941 942 /* hotplug event struct */ 943 struct fcp_hp_event { 944 int (*callback)(); 945 void *arg; 946 }; 947 948 /* 949 * We talk to both NDI and MDI framework to enumerate our child devices. 950 * We internally define a generic child handle and assign either dev_info 951 * or mdi_pathinfo handle depending on the device. 952 */ 953 typedef void *child_info_t; 954 955 #define CIP(child) ((child_info_t *)(child)) 956 #define DIP(child) ((dev_info_t *)(child)) 957 #define PIP(child) ((mdi_pathinfo_t *)(child)) 958 959 /* 960 * LUN structure 961 * ------------- 962 * 963 * This structure holds the information relative to a SCSI LUN. This 964 * structure is the one representing the object registered with the OS (NDI 965 * or MPxIO...). 966 */ 967 struct fcp_lun { 968 /* 969 * Mutex protecting the access to this structure. 970 */ 971 kmutex_t lun_mutex; 972 /* 973 * Logical unit number. It is a SCSI3 format. 974 */ 975 fcp_ent_addr_t lun_addr; 976 /* 977 * The two following fields are respectively the head and tail of a 978 * double link list of fcp_packets. It is populated in 979 * tran_init_pkt(9E) (fcp_scsi_init_pkt) and emptied in 980 * tran_destroy_pkt(9E) (fcp_scsi_destroy_pkt). 981 */ 982 struct fcp_pkt *lun_pkt_head; 983 struct fcp_pkt *lun_pkt_tail; 984 /* 985 * This field is treated like a union. It may contain the dev_info_t 986 * or the mdi_pathinfo_t depending on how the device associated with 987 * this LUN was registered. 988 */ 989 child_info_t *lun_cip; 990 /* 991 * Online/Offline event count. 992 */ 993 int lun_event_count; 994 /* 995 * Back pointer to the target the LUN belongs to. 996 */ 997 struct fcp_tgt *lun_tgt; 998 /* 999 * Bit map reflecting the state of the LUN. 1000 */ 1001 uint_t lun_state; 1002 /* 1003 * LUN type (disk, tape...). The value stored here is taken from the 1004 * inquiry data. 1005 */ 1006 uchar_t lun_type; 1007 /* 1008 * This field is incremented each time fcp_scsi_tgt_init() 1009 * (tran_tgt_init(9E)) is called and decremented each time 1010 * fcp_scsi_tgt_free() (tran_tgt_free(9E)) is called. The 1011 * incrementation and decrementation will also have an effect on 1012 * lun_state bit FCP_SCSI_LUN_TGT_INIT. 1013 */ 1014 uchar_t lun_tgt_count; 1015 /* 1016 * LUN number as it is returned by REPORT_LUNS. 1017 */ 1018 uint16_t lun_num; 1019 /* 1020 * Pointer to the next LUN. 1021 */ 1022 struct fcp_lun *lun_next; 1023 /* 1024 * SCSI Host Bus Adapter (HBA) driver transport vector structure. 1025 */ 1026 struct scsi_hba_tran *lun_tran; 1027 /* 1028 * per-Lun control flag. A value of '1' means the LUN is managed by 1029 * mpxio. A value of '0' means the LUN has been physically enumerated 1030 * as a child of corresponding port driver node. 1031 */ 1032 int lun_mpxio; 1033 /* 1034 * Length of the GUID. 1035 */ 1036 size_t lun_guid_size; 1037 /* 1038 * Pointer to a buffer that contains the GUID. 1039 */ 1040 char *lun_guid; 1041 /* 1042 * Pointer to a buffer that contains the old GUID. 1043 */ 1044 char *lun_old_guid; 1045 /* 1046 * Length of the old GUID 1047 */ 1048 size_t lun_old_guid_size; 1049 /* 1050 * Bitmap used to track the LUN discovery process. 1051 */ 1052 uint32_t lun_trace; 1053 /* 1054 * Bitmap representing the SCSI capabilities. 1055 */ 1056 uchar_t lun_cap; 1057 /* 1058 * LUN inquiry data (as returned by the INQUIRY command). 1059 */ 1060 struct scsi_inquiry lun_inq; 1061 }; 1062 1063 1064 /* 1065 * Lun discovery tracing 1066 */ 1067 #define FCP_LUN_TRACE_1 0x0000001 1068 #define FCP_LUN_TRACE_2 0x0000002 1069 #define FCP_LUN_TRACE_3 0x0000004 1070 #define FCP_LUN_TRACE_4 0x0000008 1071 #define FCP_LUN_TRACE_5 0x0000010 1072 #define FCP_LUN_TRACE_6 0x0000020 1073 #define FCP_LUN_TRACE_7 0x0000040 1074 #define FCP_LUN_TRACE_8 0x0000080 1075 #define FCP_LUN_TRACE_9 0x0000100 1076 #define FCP_LUN_TRACE_10 0x0000200 1077 #define FCP_LUN_TRACE_11 0x0000400 1078 #define FCP_LUN_TRACE_12 0x0000800 1079 #define FCP_LUN_TRACE_13 0x0001000 1080 #define FCP_LUN_TRACE_14 0x0002000 1081 #define FCP_LUN_TRACE_15 0x0004000 1082 #define FCP_LUN_TRACE_16 0x0008000 1083 #define FCP_LUN_TRACE_17 0x0010000 1084 #define FCP_LUN_TRACE_18 0x0020000 1085 #define FCP_LUN_TRACE_19 0x0040000 1086 #define FCP_LUN_TRACE_20 0x0080000 1087 #define FCP_LUN_TRACE_21 0x0100000 1088 #define FCP_LUN_TRACE_22 0x0200000 1089 #define FCP_LUN_TRACE_23 0x0400000 1090 #define FCP_LUN_TRACE_24 0x0800000 1091 #define FCP_LUN_TRACE_25 0x1000000 1092 #define FCP_LUN_TRACE_26 0x2000000 1093 #define FCP_LUN_TRACE_27 0x4000000 1094 #define FCP_LUN_TRACE_28 0x8000000 1095 1096 1097 #define FCP_LUN_TRACE(plun, bit) {\ 1098 if (plun && plun->lun_tgt) {\ 1099 mutex_enter(&plun->lun_tgt->tgt_mutex);\ 1100 plun->lun_trace |= bit;\ 1101 mutex_exit(&plun->lun_tgt->tgt_mutex);\ 1102 }\ 1103 } 1104 1105 #define FCP_LUN_CAP_RESET 0x01 1106 1107 /* 1108 * Lun State -- these have the same values as the target states so 1109 * that they can be interchanged (in cases where the same state occurs 1110 * for both targets and luns) 1111 */ 1112 1113 #define FCP_LUN_INIT FCP_TGT_INIT 1114 #define FCP_LUN_BUSY FCP_TGT_BUSY 1115 #define FCP_LUN_MARK FCP_TGT_MARK 1116 #define FCP_LUN_OFFLINE FCP_TGT_OFFLINE 1117 #define FCP_SCSI_LUN_TGT_INIT 0x20 /* target/LUNs all inited */ 1118 #define FCP_LUN_DISAPPEARED 0x40 1119 /* 1120 * Use the below flag with caution as it is can cause a delay in 1121 * fcp_scsi_start() which is in the normal I/O performance path 1122 */ 1123 #define FCP_LUN_ONLINING 0x80 1124 /* 1125 * Set the below flag when the DTYPE or GUID of a LUN changes during discovery 1126 */ 1127 #define FCP_LUN_CHANGED 0x100 1128 /* 1129 * This flag is used specifically for the special lun: lun 0. 1130 */ 1131 #define FCP_LUN_DEVICE_NOT_CONNECTED 0x200 1132 1133 /* 1134 * Report Lun Format 1135 */ 1136 struct fcp_reportlun_resp { 1137 uint32_t num_lun; /* num LUNs * 8 */ 1138 uint32_t reserved; 1139 longlong_t lun_string[1]; 1140 }; 1141 1142 /* 1143 * This structure actually represents a request executed by the hot plug task. 1144 */ 1145 struct fcp_hp_elem { 1146 /* 1147 * FCP port concerned by the request. 1148 */ 1149 struct fcp_port *port; 1150 /* 1151 * LUN concerned by the request. 1152 */ 1153 struct fcp_lun *lun; 1154 /* 1155 * dev_info_t or mdi_pathinfo_t pointer. 1156 */ 1157 child_info_t *cip; 1158 /* 1159 * lun_mpxio when the event is submitted 1160 */ 1161 int old_lun_mpxio; 1162 /* 1163 * What to do (offline, online...). 1164 */ 1165 int what; 1166 /* 1167 * FLags used when calling NDI fucntions. 1168 */ 1169 int flags; 1170 /* 1171 * Link state change count when the structure was created. 1172 */ 1173 int link_cnt; 1174 /* 1175 * Target state change count when the structure was created. 1176 */ 1177 int tgt_cnt; 1178 /* 1179 * Online/Offline count when this event was queued. 1180 */ 1181 int event_cnt; 1182 /* 1183 * This is the flag protected by the mutex and condition variable 1184 * defined further in this structure. It is the flag indicating 1185 * that the hot plug task is done with the treatment of the structure. 1186 */ 1187 int wait; 1188 /* 1189 * This is where the result of the request is returned when the sender 1190 * waits for the completion. 1191 */ 1192 int result; 1193 /* 1194 * Condition variable used when wait is true. 1195 */ 1196 kcondvar_t cv; 1197 /* 1198 * Mutex used in conjunction with the previous condition variable. 1199 */ 1200 kmutex_t mutex; 1201 }; 1202 1203 1204 struct fcp_reset_elem { 1205 struct fcp_reset_elem *next; 1206 struct fcp_tgt *tgt; 1207 struct fcp_lun *lun; 1208 clock_t timeout; 1209 uint_t tgt_cnt; 1210 }; 1211 1212 /* 1213 * This structure is used to offline targets. It is queued in the FCP port 1214 * structure single linked list port_offline_tgts and walked by the watchdog 1215 * timer. 1216 */ 1217 struct fcp_tgt_elem { 1218 /* 1219 * Points to the next element of the list. 1220 */ 1221 struct fcp_tgt_elem *next; 1222 /* 1223 * Points to the target to offline. 1224 */ 1225 struct fcp_tgt *ptgt; 1226 /* 1227 * Absolute time after which the target must be offlined. 1228 */ 1229 int time; 1230 /* 1231 * Link state change count when the structure was created. 1232 */ 1233 int link_cnt; 1234 /* 1235 * Target state change count when the structure was created. 1236 */ 1237 int tgt_cnt; 1238 /* 1239 * Flags providing information for the offline (when calling mdi or 1240 * ndi). 1241 */ 1242 int flags; 1243 }; 1244 1245 /* 1246 * This structure is used to offline LUNs. It is queued in the FCP port 1247 * structure single linked list port_offline_luns and walked by the watchdog 1248 * timer. 1249 */ 1250 struct fcp_lun_elem { 1251 /* 1252 * Points to the next element of the list. 1253 */ 1254 struct fcp_lun_elem *next; 1255 /* 1256 * Points to the LUN to offline. 1257 */ 1258 struct fcp_lun *plun; 1259 /* 1260 * Absolute time after which the LUN must be offlined. 1261 */ 1262 int time; 1263 /* 1264 * Link state change count when the structure was created. 1265 */ 1266 int link_cnt; 1267 /* 1268 * Target state change count when the structure was created. 1269 */ 1270 int tgt_cnt; 1271 /* 1272 * Flags providing information for the offline (when calling mdi or 1273 * ndi). 1274 */ 1275 int flags; 1276 }; 1277 1278 /* 1279 * LUN masking 1280 */ 1281 typedef struct fcp_black_list_entry { 1282 /* 1283 * Points to the next element of the list. 1284 */ 1285 struct fcp_black_list_entry *next; 1286 /* 1287 * Port WWN of the target. 1288 */ 1289 la_wwn_t wwn; 1290 /* 1291 * LUN number which need to be masked. 1292 */ 1293 uint32_t lun; 1294 /* 1295 * Counter of access times. 1296 */ 1297 int masked; 1298 } fcp_black_list_entry_t; 1299 1300 #define ADDR2FCP(ap) ((struct fcp_port *) \ 1301 ((ap)->a_hba_tran->tran_hba_private)) 1302 #define ADDR2LUN(ap) ((struct fcp_lun *) \ 1303 scsi_device_hba_private_get(scsi_address_device(ap))) 1304 #define CMD2PKT(cmd) ((cmd)->cmd_pkt) 1305 #define PKT2CMD(pkt) ((struct fcp_pkt *)((pkt)->pkt_ha_private)) 1306 1307 /* 1308 * timeout values 1309 */ 1310 #define FCP_ELS_TIMEOUT 20 /* 20 seconds */ 1311 #define FCP_SCSI_CMD_TIMEOUT 25 /* 30 seconds */ 1312 #define FCP_POLL_TIMEOUT 60 /* 60 seconds */ 1313 #define FCP_TIMEOUT_DELTA 2 /* 2 seconds */ 1314 #define FCP_ICMD_DEADLINE 120 /* 60 seconds */ 1315 #define FCP_MAX_RETRIES 4 1316 1317 1318 #if !defined(__lint) 1319 _NOTE(MUTEX_PROTECTS_DATA(fcp_port::port_mutex, 1320 fcp_port::port_state fcp_tgt::tgt_change_cnt 1321 fcp_port::fcp_next fcp_port::port_tgt_hash_table 1322 fcp_port::port_link_cnt fcp_port::port_reset_list 1323 fcp_port::port_tmp_cnt fcp_port::port_ipkt_list 1324 fcp_tgt::tgt_next)) 1325 1326 _NOTE(MUTEX_PROTECTS_DATA(fcp_port::port_pkt_mutex, 1327 fcp_port::port_pkt_head fcp_port::port_pkt_tail 1328 fcp_port::port_npkts)) 1329 1330 _NOTE(MUTEX_PROTECTS_DATA(fcp_tgt::tgt_mutex, 1331 fcp_tgt::tgt_state fcp_tgt::tgt_device_created 1332 fcp_tgt::tgt_icap fcp_tgt::tgt_tcap 1333 fcp_tgt::tgt_tid fcp_tgt::tgt_pd_handle fcp_tgt::tgt_tmp_cnt 1334 fcp_tgt::tgt_statec_cause fcp_lun::lun_next fcp_lun::lun_state)) 1335 1336 _NOTE(LOCK_ORDER(fcp_port::fcp_mutex fcp_tgt::tgt_mutex)) 1337 _NOTE(LOCK_ORDER(fcp_tgt::tgt_mutex fcp_lun::lun_mutex)) 1338 1339 _NOTE(MUTEX_PROTECTS_DATA(fcp_lun::lun_mutex, 1340 fcp_lun::lun_pkt_head fcp_lun::lun_pkt_tail 1341 fcp_lun::lun_cip fcp_lun::lun_mpxio)) 1342 1343 _NOTE(DATA_READABLE_WITHOUT_LOCK( fcp_tgt::tgt_state)) 1344 _NOTE(DATA_READABLE_WITHOUT_LOCK( fcp_tgt::tgt_pd_handle)) 1345 1346 _NOTE(DATA_READABLE_WITHOUT_LOCK(fcp_tgt::tgt_tid)) 1347 1348 1349 _NOTE(SCHEME_PROTECTS_DATA("Safe Data", 1350 fcp_port::port_dma_acc_attr 1351 fcp_port::port_fcp_dma fcp_port::fcp_tran 1352 fcp_port::port_ndi_events fcp_port::port_ndi_event_defs 1353 fcp_port::port_pkt_cache fcp_port::port_dip fcp_port::port_phys_state 1354 fcp_port::port_reset_action fcp_port::port_cmds_dma_flags 1355 fcp_port::port_fp_handle fcp_port::port_instance 1356 fcp_port::port_fp_modlinkage fcp_port::port_max_exch 1357 fcp_port::port_priv_pkt_len fcp_port::port_id 1358 fcp_port::port_topology fcp_port::port_deadline fcp_port::port_mpxio 1359 fcp_tgt::tgt_d_id fcp_tgt::tgt_hard_addr fcp_tgt::tgt_lun_cnt 1360 fcp_tgt::tgt_port fcp_lun::lun_num fcp_lun::lun_tgt 1361 fcp_lun::lun_type 1362 fcp_lun::lun_guid_size fcp_lun::lun_guid 1363 fcp_hp_elem::lun fcp_hp_elem::flags fcp_hp_elem::cip 1364 fcp_hp_elem::what fcp_hp_elem::tgt_cnt fcp_hp_elem::tgt_cnt 1365 fcp_hp_elem::link_cnt fcp_reset_elem fcp_pkt fcp_ipkt 1366 scsi_pkt scsi_arq_status scsi_device scsi_hba_tran scsi_cdb)) 1367 #endif /* __lint */ 1368 1369 #define FCP_CP_IN(s, d, handle, len) (ddi_rep_get8((handle), \ 1370 (uint8_t *)(d), (uint8_t *)(s), \ 1371 (len), DDI_DEV_AUTOINCR)) 1372 1373 #define FCP_CP_OUT(s, d, handle, len) (ddi_rep_put8((handle), \ 1374 (uint8_t *)(s), (uint8_t *)(d), \ 1375 (len), DDI_DEV_AUTOINCR)) 1376 1377 #define FCP_ONLINE 0x1 1378 #define FCP_OFFLINE 0x2 1379 #define FCP_MPXIO_PATH_CLEAR_BUSY 0x3 1380 #define FCP_MPXIO_PATH_SET_BUSY 0x4 1381 1382 #define FCP_IDLE 0x00 1383 #define FCP_OPEN 0x01 1384 #define FCP_EXCL 0x02 1385 #define FCP_BUSY 0x04 1386 1387 #define LFA(x) (x & 0xFFFF00) 1388 #define FCP_SET 1 1389 #define FCP_RESET 0 1390 1391 /* init() and attach() wait timeout values (in usecs) */ 1392 #define FCP_INIT_WAIT_TIMEOUT 60000000 /* 60 seconds */ 1393 #define FCP_ATTACH_WAIT_TIMEOUT 10000000 /* 10 seconds */ 1394 1395 #ifdef TRUE 1396 #undef TRUE 1397 #endif 1398 #define TRUE 1 1399 1400 #ifdef FALSE 1401 #undef FALSE 1402 #endif 1403 #define FALSE 0 1404 1405 #define UNDEFINED -1 1406 1407 /* for softstate */ 1408 #define FCP_INIT_ITEMS 5 1409 1410 #ifdef __cplusplus 1411 } 1412 #endif 1413 1414 #endif /* _FCPVAR_H */ 1415