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 (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. 23 * 24 * Copyright 2014, 2015 Nexenta Systems, Inc. All rights reserved. 25 * Copyright (c) 2017, Joyent, Inc. All rights reserved. 26 */ 27 28 #include <sys/cpuvar.h> 29 #include <sys/types.h> 30 #include <sys/conf.h> 31 #include <sys/stat.h> 32 #include <sys/file.h> 33 #include <sys/ddi.h> 34 #include <sys/sunddi.h> 35 #include <sys/modctl.h> 36 #include <sys/sysmacros.h> 37 #include <sys/socket.h> 38 #include <sys/strsubr.h> 39 #include <sys/nvpair.h> 40 41 #include <sys/stmf.h> 42 #include <sys/stmf_ioctl.h> 43 #include <sys/portif.h> 44 #include <sys/idm/idm.h> 45 #include <sys/idm/idm_conn_sm.h> 46 47 #include "iscsit_isns.h" 48 #include "iscsit.h" 49 50 #define ISCSIT_VERSION BUILD_DATE "-1.18dev" 51 #define ISCSIT_NAME_VERSION "COMSTAR ISCSIT v" ISCSIT_VERSION 52 53 /* 54 * DDI entry points. 55 */ 56 static int iscsit_drv_attach(dev_info_t *, ddi_attach_cmd_t); 57 static int iscsit_drv_detach(dev_info_t *, ddi_detach_cmd_t); 58 static int iscsit_drv_getinfo(dev_info_t *, ddi_info_cmd_t, void *, void **); 59 static int iscsit_drv_open(dev_t *, int, int, cred_t *); 60 static int iscsit_drv_close(dev_t, int, int, cred_t *); 61 static boolean_t iscsit_drv_busy(void); 62 static int iscsit_drv_ioctl(dev_t, int, intptr_t, int, cred_t *, int *); 63 64 extern struct mod_ops mod_miscops; 65 66 67 static struct cb_ops iscsit_cb_ops = { 68 iscsit_drv_open, /* cb_open */ 69 iscsit_drv_close, /* cb_close */ 70 nodev, /* cb_strategy */ 71 nodev, /* cb_print */ 72 nodev, /* cb_dump */ 73 nodev, /* cb_read */ 74 nodev, /* cb_write */ 75 iscsit_drv_ioctl, /* cb_ioctl */ 76 nodev, /* cb_devmap */ 77 nodev, /* cb_mmap */ 78 nodev, /* cb_segmap */ 79 nochpoll, /* cb_chpoll */ 80 ddi_prop_op, /* cb_prop_op */ 81 NULL, /* cb_streamtab */ 82 D_MP, /* cb_flag */ 83 CB_REV, /* cb_rev */ 84 nodev, /* cb_aread */ 85 nodev, /* cb_awrite */ 86 }; 87 88 static struct dev_ops iscsit_dev_ops = { 89 DEVO_REV, /* devo_rev */ 90 0, /* devo_refcnt */ 91 iscsit_drv_getinfo, /* devo_getinfo */ 92 nulldev, /* devo_identify */ 93 nulldev, /* devo_probe */ 94 iscsit_drv_attach, /* devo_attach */ 95 iscsit_drv_detach, /* devo_detach */ 96 nodev, /* devo_reset */ 97 &iscsit_cb_ops, /* devo_cb_ops */ 98 NULL, /* devo_bus_ops */ 99 NULL, /* devo_power */ 100 ddi_quiesce_not_needed, /* quiesce */ 101 }; 102 103 static struct modldrv modldrv = { 104 &mod_driverops, 105 "iSCSI Target", 106 &iscsit_dev_ops, 107 }; 108 109 static struct modlinkage modlinkage = { 110 MODREV_1, 111 &modldrv, 112 NULL, 113 }; 114 115 116 iscsit_global_t iscsit_global; 117 118 kmem_cache_t *iscsit_status_pdu_cache; 119 120 boolean_t iscsit_sm_logging = B_FALSE; 121 122 kmutex_t login_sm_session_mutex; 123 124 static idm_status_t iscsit_init(dev_info_t *dip); 125 static idm_status_t iscsit_enable_svc(iscsit_hostinfo_t *hostinfo); 126 static void iscsit_disable_svc(void); 127 128 static boolean_t 129 iscsit_check_cmdsn_and_queue(idm_pdu_t *rx_pdu); 130 131 static void 132 iscsit_add_pdu_to_queue(iscsit_sess_t *ist, idm_pdu_t *rx_pdu); 133 134 static idm_pdu_t * 135 iscsit_remove_pdu_from_queue(iscsit_sess_t *ist, uint32_t cmdsn); 136 137 static void 138 iscsit_process_pdu_in_queue(iscsit_sess_t *ist); 139 140 static void 141 iscsit_rxpdu_queue_monitor_session(iscsit_sess_t *ist); 142 143 static void 144 iscsit_rxpdu_queue_monitor(void *arg); 145 146 static void 147 iscsit_post_staged_pdu(idm_pdu_t *rx_pdu); 148 149 static void 150 iscsit_post_scsi_cmd(idm_conn_t *ic, idm_pdu_t *rx_pdu); 151 152 static void 153 iscsit_op_scsi_task_mgmt(iscsit_conn_t *ict, idm_pdu_t *rx_pdu); 154 155 static void 156 iscsit_pdu_op_noop(iscsit_conn_t *ict, idm_pdu_t *rx_pdu); 157 158 static void 159 iscsit_pdu_op_login_cmd(iscsit_conn_t *ict, idm_pdu_t *rx_pdu); 160 161 void 162 iscsit_pdu_op_text_cmd(iscsit_conn_t *ict, idm_pdu_t *rx_pdu); 163 164 static void 165 iscsit_pdu_op_logout_cmd(iscsit_conn_t *ict, idm_pdu_t *rx_pdu); 166 167 int iscsit_cmd_window(); 168 169 static int 170 iscsit_sna_lt(uint32_t sn1, uint32_t sn2); 171 172 void 173 iscsit_set_cmdsn(iscsit_conn_t *ict, idm_pdu_t *rx_pdu); 174 175 static void 176 iscsit_deferred_dispatch(idm_pdu_t *rx_pdu); 177 178 static void 179 iscsit_deferred(void *rx_pdu_void); 180 181 static idm_status_t 182 iscsit_conn_accept(idm_conn_t *ic); 183 184 static idm_status_t 185 iscsit_ffp_enabled(idm_conn_t *ic); 186 187 static idm_status_t 188 iscsit_ffp_disabled(idm_conn_t *ic, idm_ffp_disable_t disable_class); 189 190 static idm_status_t 191 iscsit_conn_lost(idm_conn_t *ic); 192 193 static idm_status_t 194 iscsit_conn_destroy(idm_conn_t *ic); 195 196 static stmf_data_buf_t * 197 iscsit_dbuf_alloc(scsi_task_t *task, uint32_t size, uint32_t *pminsize, 198 uint32_t flags); 199 200 static void 201 iscsit_dbuf_free(stmf_dbuf_store_t *ds, stmf_data_buf_t *dbuf); 202 203 static void 204 iscsit_buf_xfer_cb(idm_buf_t *idb, idm_status_t status); 205 206 static void 207 iscsit_send_good_status_done(idm_pdu_t *pdu, idm_status_t status); 208 209 static void 210 iscsit_send_status_done(idm_pdu_t *pdu, idm_status_t status); 211 212 static stmf_status_t 213 iscsit_idm_to_stmf(idm_status_t idmrc); 214 215 static iscsit_task_t * 216 iscsit_task_alloc(iscsit_conn_t *ict); 217 218 static void 219 iscsit_task_free(iscsit_task_t *itask); 220 221 static iscsit_task_t * 222 iscsit_tm_task_alloc(iscsit_conn_t *ict); 223 224 static void 225 iscsit_tm_task_free(iscsit_task_t *itask); 226 227 static idm_status_t 228 iscsit_task_start(iscsit_task_t *itask); 229 230 static void 231 iscsit_task_done(iscsit_task_t *itask); 232 233 static int 234 iscsit_status_pdu_constructor(void *pdu_void, void *arg, int flags); 235 236 static void 237 iscsit_pp_cb(struct stmf_port_provider *pp, int cmd, void *arg, uint32_t flags); 238 239 static it_cfg_status_t 240 iscsit_config_merge(it_config_t *cfg); 241 242 static idm_status_t 243 iscsit_login_fail(idm_conn_t *ic); 244 245 static boolean_t iscsit_cmdsn_in_window(iscsit_conn_t *ict, uint32_t cmdsn); 246 static void iscsit_send_direct_scsi_resp(iscsit_conn_t *ict, idm_pdu_t *rx_pdu, 247 uint8_t response, uint8_t cmd_status); 248 static void iscsit_send_task_mgmt_resp(idm_pdu_t *tm_resp_pdu, 249 uint8_t tm_status); 250 251 /* 252 * MC/S: Out-of-order commands are staged on a session-wide wait 253 * queue until a system-tunable threshold is reached. A separate 254 * thread is used to scan the staging queue on all the session, 255 * If a delayed PDU does not arrive within a timeout, the target 256 * will advance to the staged PDU that is next in sequence, skipping 257 * over the missing PDU(s) to go past a hole in the sequence. 258 */ 259 volatile int rxpdu_queue_threshold = ISCSIT_RXPDU_QUEUE_THRESHOLD; 260 261 static kmutex_t iscsit_rxpdu_queue_monitor_mutex; 262 kthread_t *iscsit_rxpdu_queue_monitor_thr_id; 263 static kt_did_t iscsit_rxpdu_queue_monitor_thr_did; 264 static boolean_t iscsit_rxpdu_queue_monitor_thr_running; 265 static kcondvar_t iscsit_rxpdu_queue_monitor_cv; 266 267 int 268 _init(void) 269 { 270 int rc; 271 272 rw_init(&iscsit_global.global_rwlock, NULL, RW_DRIVER, NULL); 273 mutex_init(&iscsit_global.global_state_mutex, NULL, 274 MUTEX_DRIVER, NULL); 275 iscsit_global.global_svc_state = ISE_DETACHED; 276 277 mutex_init(&iscsit_rxpdu_queue_monitor_mutex, NULL, 278 MUTEX_DRIVER, NULL); 279 mutex_init(&login_sm_session_mutex, NULL, MUTEX_DRIVER, NULL); 280 iscsit_rxpdu_queue_monitor_thr_id = NULL; 281 iscsit_rxpdu_queue_monitor_thr_running = B_FALSE; 282 cv_init(&iscsit_rxpdu_queue_monitor_cv, NULL, CV_DEFAULT, NULL); 283 284 if ((rc = mod_install(&modlinkage)) != 0) { 285 mutex_destroy(&iscsit_global.global_state_mutex); 286 rw_destroy(&iscsit_global.global_rwlock); 287 return (rc); 288 } 289 290 return (rc); 291 } 292 293 int 294 _info(struct modinfo *modinfop) 295 { 296 return (mod_info(&modlinkage, modinfop)); 297 } 298 299 int 300 _fini(void) 301 { 302 int rc; 303 304 rc = mod_remove(&modlinkage); 305 306 if (rc == 0) { 307 mutex_destroy(&iscsit_rxpdu_queue_monitor_mutex); 308 mutex_destroy(&login_sm_session_mutex); 309 cv_destroy(&iscsit_rxpdu_queue_monitor_cv); 310 mutex_destroy(&iscsit_global.global_state_mutex); 311 rw_destroy(&iscsit_global.global_rwlock); 312 } 313 314 return (rc); 315 } 316 317 /* 318 * DDI entry points. 319 */ 320 321 /* ARGSUSED */ 322 static int 323 iscsit_drv_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, 324 void **result) 325 { 326 ulong_t instance = getminor((dev_t)arg); 327 328 switch (cmd) { 329 case DDI_INFO_DEVT2DEVINFO: 330 *result = iscsit_global.global_dip; 331 return (DDI_SUCCESS); 332 333 case DDI_INFO_DEVT2INSTANCE: 334 *result = (void *)instance; 335 return (DDI_SUCCESS); 336 337 default: 338 break; 339 } 340 341 return (DDI_FAILURE); 342 } 343 344 static int 345 iscsit_drv_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) 346 { 347 if (cmd != DDI_ATTACH) { 348 return (DDI_FAILURE); 349 } 350 351 if (ddi_get_instance(dip) != 0) { 352 /* we only allow instance 0 to attach */ 353 return (DDI_FAILURE); 354 } 355 356 /* create the minor node */ 357 if (ddi_create_minor_node(dip, ISCSIT_MODNAME, S_IFCHR, 0, 358 DDI_PSEUDO, 0) != DDI_SUCCESS) { 359 cmn_err(CE_WARN, "iscsit_drv_attach: " 360 "failed creating minor node"); 361 return (DDI_FAILURE); 362 } 363 364 if (iscsit_init(dip) != IDM_STATUS_SUCCESS) { 365 cmn_err(CE_WARN, "iscsit_drv_attach: " 366 "failed to initialize"); 367 ddi_remove_minor_node(dip, NULL); 368 return (DDI_FAILURE); 369 } 370 371 iscsit_global.global_svc_state = ISE_DISABLED; 372 iscsit_global.global_dip = dip; 373 374 return (DDI_SUCCESS); 375 } 376 377 /*ARGSUSED*/ 378 static int 379 iscsit_drv_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) 380 { 381 if (cmd != DDI_DETACH) 382 return (DDI_FAILURE); 383 384 /* 385 * drv_detach is called in a context that owns the 386 * device node for the /dev/pseudo device. If this thread blocks 387 * for any resource, other threads that need the /dev/pseudo device 388 * may end up in a deadlock with this thread.Hence, we use a 389 * separate lock just for the structures that drv_detach needs 390 * to access. 391 */ 392 mutex_enter(&iscsit_global.global_state_mutex); 393 if (iscsit_drv_busy()) { 394 mutex_exit(&iscsit_global.global_state_mutex); 395 return (EBUSY); 396 } 397 398 iscsit_global.global_dip = NULL; 399 ddi_remove_minor_node(dip, NULL); 400 401 ldi_ident_release(iscsit_global.global_li); 402 iscsit_global.global_svc_state = ISE_DETACHED; 403 404 mutex_exit(&iscsit_global.global_state_mutex); 405 406 return (DDI_SUCCESS); 407 } 408 409 /*ARGSUSED*/ 410 static int 411 iscsit_drv_open(dev_t *devp, int flag, int otyp, cred_t *credp) 412 { 413 return (0); 414 } 415 416 /* ARGSUSED */ 417 static int 418 iscsit_drv_close(dev_t dev, int flag, int otyp, cred_t *credp) 419 { 420 return (0); 421 } 422 423 static boolean_t 424 iscsit_drv_busy(void) 425 { 426 ASSERT(MUTEX_HELD(&iscsit_global.global_state_mutex)); 427 428 switch (iscsit_global.global_svc_state) { 429 case ISE_DISABLED: 430 case ISE_DETACHED: 431 return (B_FALSE); 432 default: 433 return (B_TRUE); 434 } 435 /* NOTREACHED */ 436 } 437 438 /* ARGSUSED */ 439 static int 440 iscsit_drv_ioctl(dev_t drv, int cmd, intptr_t argp, int flag, cred_t *cred, 441 int *retval) 442 { 443 iscsit_ioc_set_config_t setcfg; 444 iscsit_ioc_set_config32_t setcfg32; 445 char *cfg_pnvlist = NULL; 446 nvlist_t *cfg_nvlist = NULL; 447 it_config_t *cfg = NULL; 448 idm_status_t idmrc; 449 int rc = 0; 450 451 if (drv_priv(cred) != 0) { 452 return (EPERM); 453 } 454 455 mutex_enter(&iscsit_global.global_state_mutex); 456 457 /* 458 * Validate ioctl requests against global service state 459 */ 460 switch (iscsit_global.global_svc_state) { 461 case ISE_ENABLED: 462 if (cmd == ISCSIT_IOC_DISABLE_SVC) { 463 iscsit_global.global_svc_state = ISE_DISABLING; 464 } else if (cmd == ISCSIT_IOC_ENABLE_SVC) { 465 /* Already enabled */ 466 mutex_exit(&iscsit_global.global_state_mutex); 467 return (0); 468 } else { 469 iscsit_global.global_svc_state = ISE_BUSY; 470 } 471 break; 472 case ISE_DISABLED: 473 if (cmd == ISCSIT_IOC_ENABLE_SVC) { 474 iscsit_global.global_svc_state = ISE_ENABLING; 475 } else if (cmd == ISCSIT_IOC_DISABLE_SVC) { 476 /* Already disabled */ 477 mutex_exit(&iscsit_global.global_state_mutex); 478 return (0); 479 } else { 480 rc = EFAULT; 481 } 482 break; 483 case ISE_BUSY: 484 case ISE_ENABLING: 485 case ISE_DISABLING: 486 rc = EAGAIN; 487 break; 488 case ISE_DETACHED: 489 default: 490 rc = EFAULT; 491 break; 492 } 493 494 mutex_exit(&iscsit_global.global_state_mutex); 495 if (rc != 0) 496 return (rc); 497 498 /* Handle ioctl request (enable/disable have already been handled) */ 499 switch (cmd) { 500 case ISCSIT_IOC_SET_CONFIG: 501 /* Any errors must set state back to ISE_ENABLED */ 502 switch (ddi_model_convert_from(flag & FMODELS)) { 503 case DDI_MODEL_ILP32: 504 if (ddi_copyin((void *)argp, &setcfg32, 505 sizeof (iscsit_ioc_set_config32_t), flag) != 0) { 506 rc = EFAULT; 507 goto cleanup; 508 } 509 510 setcfg.set_cfg_pnvlist = 511 (char *)((uintptr_t)setcfg32.set_cfg_pnvlist); 512 setcfg.set_cfg_vers = setcfg32.set_cfg_vers; 513 setcfg.set_cfg_pnvlist_len = 514 setcfg32.set_cfg_pnvlist_len; 515 break; 516 case DDI_MODEL_NONE: 517 if (ddi_copyin((void *)argp, &setcfg, 518 sizeof (iscsit_ioc_set_config_t), flag) != 0) { 519 rc = EFAULT; 520 goto cleanup; 521 } 522 break; 523 default: 524 rc = EFAULT; 525 goto cleanup; 526 } 527 528 /* Check API version */ 529 if (setcfg.set_cfg_vers != ISCSIT_API_VERS0) { 530 rc = EINVAL; 531 goto cleanup; 532 } 533 534 /* Config is in packed nvlist format so unpack it */ 535 cfg_pnvlist = kmem_alloc(setcfg.set_cfg_pnvlist_len, 536 KM_SLEEP); 537 ASSERT(cfg_pnvlist != NULL); 538 539 if (ddi_copyin(setcfg.set_cfg_pnvlist, cfg_pnvlist, 540 setcfg.set_cfg_pnvlist_len, flag) != 0) { 541 rc = EFAULT; 542 goto cleanup; 543 } 544 545 rc = nvlist_unpack(cfg_pnvlist, setcfg.set_cfg_pnvlist_len, 546 &cfg_nvlist, KM_SLEEP); 547 if (rc != 0) { 548 goto cleanup; 549 } 550 551 /* Translate nvlist */ 552 rc = it_nv_to_config(cfg_nvlist, &cfg); 553 if (rc != 0) { 554 cmn_err(CE_WARN, "Configuration is invalid"); 555 goto cleanup; 556 } 557 558 /* Update config */ 559 rc = iscsit_config_merge(cfg); 560 /* FALLTHROUGH */ 561 562 cleanup: 563 if (cfg) 564 it_config_free_cmn(cfg); 565 if (cfg_pnvlist) 566 kmem_free(cfg_pnvlist, setcfg.set_cfg_pnvlist_len); 567 nvlist_free(cfg_nvlist); 568 569 /* 570 * Now that the reconfig is complete set our state back to 571 * enabled. 572 */ 573 mutex_enter(&iscsit_global.global_state_mutex); 574 iscsit_global.global_svc_state = ISE_ENABLED; 575 mutex_exit(&iscsit_global.global_state_mutex); 576 break; 577 case ISCSIT_IOC_ENABLE_SVC: { 578 iscsit_hostinfo_t hostinfo; 579 580 if (ddi_copyin((void *)argp, &hostinfo.length, 581 sizeof (hostinfo.length), flag) != 0) { 582 mutex_enter(&iscsit_global.global_state_mutex); 583 iscsit_global.global_svc_state = ISE_DISABLED; 584 mutex_exit(&iscsit_global.global_state_mutex); 585 return (EFAULT); 586 } 587 588 if (hostinfo.length > sizeof (hostinfo.fqhn)) 589 hostinfo.length = sizeof (hostinfo.fqhn); 590 591 if (ddi_copyin((void *)((caddr_t)argp + 592 sizeof (hostinfo.length)), &hostinfo.fqhn, 593 hostinfo.length, flag) != 0) { 594 mutex_enter(&iscsit_global.global_state_mutex); 595 iscsit_global.global_svc_state = ISE_DISABLED; 596 mutex_exit(&iscsit_global.global_state_mutex); 597 return (EFAULT); 598 } 599 600 idmrc = iscsit_enable_svc(&hostinfo); 601 mutex_enter(&iscsit_global.global_state_mutex); 602 if (idmrc == IDM_STATUS_SUCCESS) { 603 iscsit_global.global_svc_state = ISE_ENABLED; 604 } else { 605 rc = EIO; 606 iscsit_global.global_svc_state = ISE_DISABLED; 607 } 608 mutex_exit(&iscsit_global.global_state_mutex); 609 break; 610 } 611 case ISCSIT_IOC_DISABLE_SVC: 612 iscsit_disable_svc(); 613 mutex_enter(&iscsit_global.global_state_mutex); 614 iscsit_global.global_svc_state = ISE_DISABLED; 615 mutex_exit(&iscsit_global.global_state_mutex); 616 break; 617 618 default: 619 rc = EINVAL; 620 mutex_enter(&iscsit_global.global_state_mutex); 621 iscsit_global.global_svc_state = ISE_ENABLED; 622 mutex_exit(&iscsit_global.global_state_mutex); 623 } 624 625 return (rc); 626 } 627 628 static idm_status_t 629 iscsit_init(dev_info_t *dip) 630 { 631 int rc; 632 633 rc = ldi_ident_from_dip(dip, &iscsit_global.global_li); 634 ASSERT(rc == 0); /* Failure indicates invalid argument */ 635 636 iscsit_global.global_svc_state = ISE_DISABLED; 637 638 return (IDM_STATUS_SUCCESS); 639 } 640 641 /* 642 * iscsit_enable_svc 643 * 644 * registers all the configured targets and target portals with STMF 645 */ 646 static idm_status_t 647 iscsit_enable_svc(iscsit_hostinfo_t *hostinfo) 648 { 649 stmf_port_provider_t *pp; 650 stmf_dbuf_store_t *dbuf_store; 651 boolean_t did_iscsit_isns_init; 652 idm_status_t retval = IDM_STATUS_SUCCESS; 653 654 ASSERT(iscsit_global.global_svc_state == ISE_ENABLING); 655 656 /* 657 * Make sure that can tell if we have partially allocated 658 * in case we need to exit and tear down anything allocated. 659 */ 660 iscsit_global.global_tsih_pool = NULL; 661 iscsit_global.global_dbuf_store = NULL; 662 iscsit_status_pdu_cache = NULL; 663 pp = NULL; 664 iscsit_global.global_pp = NULL; 665 iscsit_global.global_default_tpg = NULL; 666 did_iscsit_isns_init = B_FALSE; 667 iscsit_global.global_dispatch_taskq = NULL; 668 669 /* Setup remaining fields in iscsit_global_t */ 670 idm_refcnt_init(&iscsit_global.global_refcnt, 671 &iscsit_global); 672 673 avl_create(&iscsit_global.global_discovery_sessions, 674 iscsit_sess_avl_compare, sizeof (iscsit_sess_t), 675 offsetof(iscsit_sess_t, ist_tgt_ln)); 676 677 avl_create(&iscsit_global.global_target_list, 678 iscsit_tgt_avl_compare, sizeof (iscsit_tgt_t), 679 offsetof(iscsit_tgt_t, target_global_ln)); 680 681 list_create(&iscsit_global.global_deleted_target_list, 682 sizeof (iscsit_tgt_t), 683 offsetof(iscsit_tgt_t, target_global_deleted_ln)); 684 685 avl_create(&iscsit_global.global_tpg_list, 686 iscsit_tpg_avl_compare, sizeof (iscsit_tpg_t), 687 offsetof(iscsit_tpg_t, tpg_global_ln)); 688 689 avl_create(&iscsit_global.global_ini_list, 690 iscsit_ini_avl_compare, sizeof (iscsit_ini_t), 691 offsetof(iscsit_ini_t, ini_global_ln)); 692 693 iscsit_global.global_tsih_pool = vmem_create("iscsit_tsih_pool", 694 (void *)1, ISCSI_MAX_TSIH, 1, NULL, NULL, NULL, 0, 695 VM_SLEEP | VMC_IDENTIFIER); 696 697 /* 698 * Setup STMF dbuf store. Our buffers are bound to a specific 699 * connection so we really can't let STMF cache buffers for us. 700 * Consequently we'll just allocate one global buffer store. 701 */ 702 dbuf_store = stmf_alloc(STMF_STRUCT_DBUF_STORE, 0, 0); 703 if (dbuf_store == NULL) { 704 retval = IDM_STATUS_FAIL; 705 goto tear_down_and_return; 706 } 707 dbuf_store->ds_alloc_data_buf = iscsit_dbuf_alloc; 708 dbuf_store->ds_free_data_buf = iscsit_dbuf_free; 709 dbuf_store->ds_port_private = NULL; 710 iscsit_global.global_dbuf_store = dbuf_store; 711 712 /* Status PDU cache */ 713 iscsit_status_pdu_cache = kmem_cache_create("iscsit_status_pdu_cache", 714 sizeof (idm_pdu_t) + sizeof (iscsi_scsi_rsp_hdr_t), 8, 715 &iscsit_status_pdu_constructor, 716 NULL, NULL, NULL, NULL, KM_SLEEP); 717 718 /* Default TPG and portal */ 719 iscsit_global.global_default_tpg = iscsit_tpg_createdefault(); 720 if (iscsit_global.global_default_tpg == NULL) { 721 retval = IDM_STATUS_FAIL; 722 goto tear_down_and_return; 723 } 724 725 /* initialize isns client */ 726 (void) iscsit_isns_init(hostinfo); 727 did_iscsit_isns_init = B_TRUE; 728 729 /* Register port provider */ 730 pp = stmf_alloc(STMF_STRUCT_PORT_PROVIDER, 0, 0); 731 if (pp == NULL) { 732 retval = IDM_STATUS_FAIL; 733 goto tear_down_and_return; 734 } 735 736 pp->pp_portif_rev = PORTIF_REV_1; 737 pp->pp_instance = 0; 738 pp->pp_name = ISCSIT_MODNAME; 739 pp->pp_cb = iscsit_pp_cb; 740 741 iscsit_global.global_pp = pp; 742 743 744 if (stmf_register_port_provider(pp) != STMF_SUCCESS) { 745 retval = IDM_STATUS_FAIL; 746 goto tear_down_and_return; 747 } 748 749 iscsit_global.global_dispatch_taskq = taskq_create("iscsit_dispatch", 750 1, minclsyspri, 16, 16, TASKQ_PREPOPULATE); 751 752 /* Scan staged PDUs, meaningful in MC/S situations */ 753 iscsit_rxpdu_queue_monitor_start(); 754 755 return (IDM_STATUS_SUCCESS); 756 757 tear_down_and_return: 758 759 if (iscsit_global.global_dispatch_taskq) { 760 taskq_destroy(iscsit_global.global_dispatch_taskq); 761 iscsit_global.global_dispatch_taskq = NULL; 762 } 763 764 if (did_iscsit_isns_init) 765 iscsit_isns_fini(); 766 767 if (iscsit_global.global_default_tpg) { 768 iscsit_tpg_destroydefault(iscsit_global.global_default_tpg); 769 iscsit_global.global_default_tpg = NULL; 770 } 771 772 if (iscsit_global.global_pp) 773 iscsit_global.global_pp = NULL; 774 775 if (pp) 776 stmf_free(pp); 777 778 if (iscsit_status_pdu_cache) { 779 kmem_cache_destroy(iscsit_status_pdu_cache); 780 iscsit_status_pdu_cache = NULL; 781 } 782 783 if (iscsit_global.global_dbuf_store) { 784 stmf_free(iscsit_global.global_dbuf_store); 785 iscsit_global.global_dbuf_store = NULL; 786 } 787 788 if (iscsit_global.global_tsih_pool) { 789 vmem_destroy(iscsit_global.global_tsih_pool); 790 iscsit_global.global_tsih_pool = NULL; 791 } 792 793 avl_destroy(&iscsit_global.global_ini_list); 794 avl_destroy(&iscsit_global.global_tpg_list); 795 list_destroy(&iscsit_global.global_deleted_target_list); 796 avl_destroy(&iscsit_global.global_target_list); 797 avl_destroy(&iscsit_global.global_discovery_sessions); 798 799 idm_refcnt_destroy(&iscsit_global.global_refcnt); 800 801 return (retval); 802 } 803 804 /* 805 * iscsit_disable_svc 806 * 807 * clean up all existing connections and deregister targets from STMF 808 */ 809 static void 810 iscsit_disable_svc(void) 811 { 812 iscsit_sess_t *sess; 813 814 ASSERT(iscsit_global.global_svc_state == ISE_DISABLING); 815 816 iscsit_rxpdu_queue_monitor_stop(); 817 818 /* tear down discovery sessions */ 819 for (sess = avl_first(&iscsit_global.global_discovery_sessions); 820 sess != NULL; 821 sess = AVL_NEXT(&iscsit_global.global_discovery_sessions, sess)) 822 iscsit_sess_close(sess); 823 824 /* 825 * Passing NULL to iscsit_config_merge tells it to go to an empty 826 * config. 827 */ 828 (void) iscsit_config_merge(NULL); 829 830 /* 831 * Wait until there are no more global references 832 */ 833 idm_refcnt_wait_ref(&iscsit_global.global_refcnt); 834 idm_refcnt_destroy(&iscsit_global.global_refcnt); 835 836 /* 837 * Default TPG must be destroyed after global_refcnt is 0. 838 */ 839 iscsit_tpg_destroydefault(iscsit_global.global_default_tpg); 840 841 avl_destroy(&iscsit_global.global_discovery_sessions); 842 list_destroy(&iscsit_global.global_deleted_target_list); 843 avl_destroy(&iscsit_global.global_target_list); 844 avl_destroy(&iscsit_global.global_tpg_list); 845 avl_destroy(&iscsit_global.global_ini_list); 846 847 taskq_destroy(iscsit_global.global_dispatch_taskq); 848 849 iscsit_isns_fini(); 850 851 stmf_free(iscsit_global.global_dbuf_store); 852 iscsit_global.global_dbuf_store = NULL; 853 854 (void) stmf_deregister_port_provider(iscsit_global.global_pp); 855 stmf_free(iscsit_global.global_pp); 856 iscsit_global.global_pp = NULL; 857 858 kmem_cache_destroy(iscsit_status_pdu_cache); 859 iscsit_status_pdu_cache = NULL; 860 861 vmem_destroy(iscsit_global.global_tsih_pool); 862 iscsit_global.global_tsih_pool = NULL; 863 } 864 865 void 866 iscsit_global_hold() 867 { 868 /* 869 * To take out a global hold, we must either own the global 870 * state mutex or we must be running inside of an ioctl that 871 * has set the global state to ISE_BUSY, ISE_DISABLING, or 872 * ISE_ENABLING. We don't track the "owner" for these flags, 873 * so just checking if they are set is enough for now. 874 */ 875 ASSERT((iscsit_global.global_svc_state == ISE_ENABLING) || 876 (iscsit_global.global_svc_state == ISE_DISABLING) || 877 (iscsit_global.global_svc_state == ISE_BUSY) || 878 MUTEX_HELD(&iscsit_global.global_state_mutex)); 879 880 idm_refcnt_hold(&iscsit_global.global_refcnt); 881 } 882 883 void 884 iscsit_global_rele() 885 { 886 idm_refcnt_rele(&iscsit_global.global_refcnt); 887 } 888 889 void 890 iscsit_global_wait_ref() 891 { 892 idm_refcnt_wait_ref(&iscsit_global.global_refcnt); 893 } 894 895 /* 896 * IDM callbacks 897 */ 898 899 /*ARGSUSED*/ 900 void 901 iscsit_rx_pdu(idm_conn_t *ic, idm_pdu_t *rx_pdu) 902 { 903 iscsit_conn_t *ict = ic->ic_handle; 904 switch (IDM_PDU_OPCODE(rx_pdu)) { 905 case ISCSI_OP_SCSI_CMD: 906 ASSERT(0); /* Shouldn't happen */ 907 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 908 break; 909 case ISCSI_OP_SNACK_CMD: 910 /* 911 * We'll need to handle this when we support ERL1/2. For 912 * now we treat it as a protocol error. 913 */ 914 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 915 idm_conn_event(ic, CE_TRANSPORT_FAIL, 0); 916 break; 917 case ISCSI_OP_SCSI_TASK_MGT_MSG: 918 if (iscsit_check_cmdsn_and_queue(rx_pdu)) { 919 iscsit_set_cmdsn(ict, rx_pdu); 920 iscsit_op_scsi_task_mgmt(ict, rx_pdu); 921 } 922 break; 923 case ISCSI_OP_NOOP_OUT: 924 case ISCSI_OP_LOGIN_CMD: 925 case ISCSI_OP_TEXT_CMD: 926 case ISCSI_OP_LOGOUT_CMD: 927 /* 928 * If/when we switch to userland processing these PDU's 929 * will be handled by iscsitd. 930 */ 931 iscsit_deferred_dispatch(rx_pdu); 932 break; 933 default: 934 /* Protocol error */ 935 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 936 idm_conn_event(ic, CE_TRANSPORT_FAIL, 0); 937 break; 938 } 939 } 940 941 /*ARGSUSED*/ 942 void 943 iscsit_rx_pdu_error(idm_conn_t *ic, idm_pdu_t *rx_pdu, idm_status_t status) 944 { 945 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 946 } 947 948 /* 949 * iscsit_rx_scsi_rsp -- cause the connection to be closed if response rx'd 950 * 951 * A target sends an SCSI Response PDU, it should never receive one. 952 * This has been seen when running the Codemonicon suite of tests which 953 * does negative testing of the protocol. If such a condition occurs using 954 * a normal initiator it most likely means there's data corruption in the 955 * header and that's grounds for dropping the connection as well. 956 */ 957 void 958 iscsit_rx_scsi_rsp(idm_conn_t *ic, idm_pdu_t *rx_pdu) 959 { 960 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 961 idm_conn_event(ic, CE_TRANSPORT_FAIL, 0); 962 } 963 964 void 965 iscsit_task_aborted(idm_task_t *idt, idm_status_t status) 966 { 967 iscsit_task_t *itask = idt->idt_private; 968 969 switch (status) { 970 case IDM_STATUS_SUSPENDED: 971 break; 972 case IDM_STATUS_ABORTED: 973 mutex_enter(&itask->it_mutex); 974 itask->it_aborted = B_TRUE; 975 /* 976 * We rely on the fact that STMF tracks outstanding 977 * buffer transfers and will free all of our buffers 978 * before freeing the task so we don't need to 979 * explicitly free the buffers from iscsit/idm 980 */ 981 if (itask->it_stmf_abort) { 982 mutex_exit(&itask->it_mutex); 983 /* 984 * Task is no longer active 985 */ 986 iscsit_task_done(itask); 987 988 /* 989 * STMF has already asked for this task to be aborted 990 * 991 * STMF specification is wrong... says to return 992 * STMF_ABORTED, the code actually looks for 993 * STMF_ABORT_SUCCESS. 994 */ 995 stmf_task_lport_aborted(itask->it_stmf_task, 996 STMF_ABORT_SUCCESS, STMF_IOF_LPORT_DONE); 997 return; 998 } else { 999 mutex_exit(&itask->it_mutex); 1000 /* 1001 * Tell STMF to stop processing the task. 1002 */ 1003 stmf_abort(STMF_QUEUE_TASK_ABORT, itask->it_stmf_task, 1004 STMF_ABORTED, NULL); 1005 return; 1006 } 1007 /*NOTREACHED*/ 1008 default: 1009 ASSERT(0); 1010 } 1011 } 1012 1013 /*ARGSUSED*/ 1014 idm_status_t 1015 iscsit_client_notify(idm_conn_t *ic, idm_client_notify_t icn, 1016 uintptr_t data) 1017 { 1018 idm_status_t rc = IDM_STATUS_SUCCESS; 1019 1020 /* 1021 * IDM client notifications will never occur at interrupt level 1022 * since they are generated from the connection state machine which 1023 * running on taskq threads. 1024 * 1025 */ 1026 switch (icn) { 1027 case CN_CONNECT_ACCEPT: 1028 rc = iscsit_conn_accept(ic); /* No data */ 1029 break; 1030 case CN_FFP_ENABLED: 1031 rc = iscsit_ffp_enabled(ic); /* No data */ 1032 break; 1033 case CN_FFP_DISABLED: 1034 /* 1035 * Data indicates whether this was the result of an 1036 * explicit logout request. 1037 */ 1038 rc = iscsit_ffp_disabled(ic, (idm_ffp_disable_t)data); 1039 break; 1040 case CN_CONNECT_LOST: 1041 rc = iscsit_conn_lost(ic); 1042 break; 1043 case CN_CONNECT_DESTROY: 1044 rc = iscsit_conn_destroy(ic); 1045 break; 1046 case CN_LOGIN_FAIL: 1047 /* 1048 * Force the login state machine to completion 1049 */ 1050 rc = iscsit_login_fail(ic); 1051 break; 1052 default: 1053 rc = IDM_STATUS_REJECT; 1054 break; 1055 } 1056 1057 return (rc); 1058 } 1059 1060 /* 1061 * iscsit_update_statsn is invoked for all the PDUs which have the StatSN 1062 * field in the header. The StatSN is incremented if the IDM_PDU_ADVANCE_STATSN 1063 * flag is set in the pdu flags field. The StatSN is connection-wide and is 1064 * protected by the mutex ict_statsn_mutex. For Data-In PDUs, if the flag 1065 * IDM_TASK_PHASECOLLAPSE_REQ is set, the status (phase-collapse) is also filled 1066 */ 1067 void 1068 iscsit_update_statsn(idm_task_t *idm_task, idm_pdu_t *pdu) 1069 { 1070 iscsi_scsi_rsp_hdr_t *rsp = (iscsi_scsi_rsp_hdr_t *)pdu->isp_hdr; 1071 iscsit_conn_t *ict = (iscsit_conn_t *)pdu->isp_ic->ic_handle; 1072 iscsit_task_t *itask = NULL; 1073 scsi_task_t *task = NULL; 1074 1075 mutex_enter(&ict->ict_statsn_mutex); 1076 rsp->statsn = htonl(ict->ict_statsn); 1077 if (pdu->isp_flags & IDM_PDU_ADVANCE_STATSN) 1078 ict->ict_statsn++; 1079 mutex_exit(&ict->ict_statsn_mutex); 1080 1081 /* 1082 * The last SCSI Data PDU passed for a command may also contain the 1083 * status if the status indicates termination with no expections, i.e. 1084 * no sense data or response involved. If the command completes with 1085 * an error, then the response and sense data will be sent in a 1086 * separate iSCSI Response PDU. 1087 */ 1088 if ((idm_task) && (idm_task->idt_flags & IDM_TASK_PHASECOLLAPSE_REQ)) { 1089 itask = idm_task->idt_private; 1090 task = itask->it_stmf_task; 1091 1092 rsp->cmd_status = task->task_scsi_status; 1093 rsp->flags |= ISCSI_FLAG_DATA_STATUS; 1094 if (task->task_status_ctrl & TASK_SCTRL_OVER) { 1095 rsp->flags |= ISCSI_FLAG_CMD_OVERFLOW; 1096 } else if (task->task_status_ctrl & TASK_SCTRL_UNDER) { 1097 rsp->flags |= ISCSI_FLAG_CMD_UNDERFLOW; 1098 } 1099 rsp->residual_count = htonl(task->task_resid); 1100 1101 /* 1102 * Removing the task from the session task list 1103 * just before the status is sent in the last 1104 * Data PDU transfer 1105 */ 1106 iscsit_task_done(itask); 1107 } 1108 } 1109 1110 void 1111 iscsit_build_hdr(idm_task_t *idm_task, idm_pdu_t *pdu, uint8_t opcode) 1112 { 1113 iscsit_task_t *itask = idm_task->idt_private; 1114 iscsi_data_rsp_hdr_t *dh = (iscsi_data_rsp_hdr_t *)pdu->isp_hdr; 1115 1116 /* 1117 * We acquired iscsit_sess_t.ist_sn_mutex in iscsit_xfer_scsi_data 1118 */ 1119 ASSERT(MUTEX_HELD(&itask->it_ict->ict_sess->ist_sn_mutex)); 1120 /* 1121 * On incoming data, the target transfer tag and Lun is only 1122 * provided by the target if the A bit is set, Since the target 1123 * does not currently support Error Recovery Level 1, the A 1124 * bit is never set. 1125 */ 1126 dh->opcode = opcode; 1127 dh->itt = itask->it_itt; 1128 dh->ttt = ((opcode & ISCSI_OPCODE_MASK) == ISCSI_OP_SCSI_DATA_RSP) ? 1129 ISCSI_RSVD_TASK_TAG : itask->it_ttt; 1130 1131 dh->expcmdsn = htonl(itask->it_ict->ict_sess->ist_expcmdsn); 1132 dh->maxcmdsn = htonl(itask->it_ict->ict_sess->ist_maxcmdsn); 1133 1134 /* 1135 * IDM must set: 1136 * 1137 * data.flags and rtt.flags 1138 * data.dlength 1139 * data.datasn 1140 * data.offset 1141 * statsn, residual_count and cmd_status (for phase collapse) 1142 * rtt.rttsn 1143 * rtt.data_offset 1144 * rtt.data_length 1145 */ 1146 } 1147 1148 void 1149 iscsit_keepalive(idm_conn_t *ic) 1150 { 1151 idm_pdu_t *nop_in_pdu; 1152 iscsi_nop_in_hdr_t *nop_in; 1153 iscsit_conn_t *ict = ic->ic_handle; 1154 1155 /* 1156 * IDM noticed the connection has been idle for too long so it's 1157 * time to provoke some activity. Build and transmit an iSCSI 1158 * nop-in PDU -- when the initiator responds it will be counted 1159 * as "activity" and keep the connection alive. 1160 * 1161 * We don't actually care about the response here at the iscsit level 1162 * so we will just throw it away without looking at it when it arrives. 1163 */ 1164 nop_in_pdu = idm_pdu_alloc(sizeof (*nop_in), 0); 1165 idm_pdu_init(nop_in_pdu, ic, NULL, NULL); 1166 nop_in = (iscsi_nop_in_hdr_t *)nop_in_pdu->isp_hdr; 1167 bzero(nop_in, sizeof (*nop_in)); 1168 nop_in->opcode = ISCSI_OP_NOOP_IN; 1169 nop_in->flags = ISCSI_FLAG_FINAL; 1170 nop_in->itt = ISCSI_RSVD_TASK_TAG; 1171 /* 1172 * When the target sends a NOP-In as a Ping, the target transfer tag 1173 * is set to a valid (not reserved) value and the initiator task tag 1174 * is set to ISCSI_RSVD_TASK_TAG (0xffffffff). In this case the StatSN 1175 * will always contain the next sequence number but the StatSN for the 1176 * connection is not advanced after this PDU is sent. 1177 */ 1178 nop_in_pdu->isp_flags |= IDM_PDU_SET_STATSN; 1179 /* 1180 * This works because we don't currently allocate ttt's anywhere else 1181 * in iscsit so as long as we stay out of IDM's range we are safe. 1182 * If we need to allocate ttt's for other PDU's in the future this will 1183 * need to be improved. 1184 */ 1185 mutex_enter(&ict->ict_mutex); 1186 nop_in->ttt = ict->ict_keepalive_ttt; 1187 ict->ict_keepalive_ttt++; 1188 if (ict->ict_keepalive_ttt == ISCSI_RSVD_TASK_TAG) 1189 ict->ict_keepalive_ttt = IDM_TASKIDS_MAX; 1190 mutex_exit(&ict->ict_mutex); 1191 1192 iscsit_pdu_tx(nop_in_pdu); 1193 } 1194 1195 static idm_status_t 1196 iscsit_conn_accept(idm_conn_t *ic) 1197 { 1198 iscsit_conn_t *ict; 1199 1200 /* 1201 * We need to get a global hold here to ensure that the service 1202 * doesn't get shutdown prior to establishing a session. This 1203 * gets released in iscsit_conn_destroy(). 1204 */ 1205 mutex_enter(&iscsit_global.global_state_mutex); 1206 if (iscsit_global.global_svc_state != ISE_ENABLED) { 1207 mutex_exit(&iscsit_global.global_state_mutex); 1208 return (IDM_STATUS_FAIL); 1209 } 1210 iscsit_global_hold(); 1211 mutex_exit(&iscsit_global.global_state_mutex); 1212 1213 /* 1214 * Allocate an associated iscsit structure to represent this 1215 * connection. We shouldn't really create a session until we 1216 * get the first login PDU. 1217 */ 1218 ict = kmem_zalloc(sizeof (*ict), KM_SLEEP); 1219 1220 ict->ict_ic = ic; 1221 ict->ict_statsn = 1; 1222 ict->ict_keepalive_ttt = IDM_TASKIDS_MAX; /* Avoid IDM TT range */ 1223 ic->ic_handle = ict; 1224 mutex_init(&ict->ict_mutex, NULL, MUTEX_DRIVER, NULL); 1225 mutex_init(&ict->ict_statsn_mutex, NULL, MUTEX_DRIVER, NULL); 1226 idm_refcnt_init(&ict->ict_refcnt, ict); 1227 1228 /* 1229 * Initialize login state machine 1230 */ 1231 if (iscsit_login_sm_init(ict) != IDM_STATUS_SUCCESS) { 1232 iscsit_global_rele(); 1233 /* 1234 * Cleanup the ict after idm notifies us about this failure 1235 */ 1236 return (IDM_STATUS_FAIL); 1237 } 1238 1239 return (IDM_STATUS_SUCCESS); 1240 } 1241 1242 idm_status_t 1243 iscsit_conn_reinstate(iscsit_conn_t *reinstate_ict, iscsit_conn_t *new_ict) 1244 { 1245 idm_status_t result; 1246 1247 /* 1248 * Note in new connection state that this connection is 1249 * reinstating an existing connection. 1250 */ 1251 new_ict->ict_reinstating = B_TRUE; 1252 new_ict->ict_reinstate_conn = reinstate_ict; 1253 new_ict->ict_statsn = reinstate_ict->ict_statsn; 1254 1255 /* 1256 * Now generate connection state machine event to existing connection 1257 * so that it starts the cleanup process. 1258 */ 1259 result = idm_conn_reinstate_event(reinstate_ict->ict_ic, 1260 new_ict->ict_ic); 1261 1262 return (result); 1263 } 1264 1265 void 1266 iscsit_conn_hold(iscsit_conn_t *ict) 1267 { 1268 idm_refcnt_hold(&ict->ict_refcnt); 1269 } 1270 1271 void 1272 iscsit_conn_rele(iscsit_conn_t *ict) 1273 { 1274 idm_refcnt_rele(&ict->ict_refcnt); 1275 } 1276 1277 void 1278 iscsit_conn_dispatch_hold(iscsit_conn_t *ict) 1279 { 1280 idm_refcnt_hold(&ict->ict_dispatch_refcnt); 1281 } 1282 1283 void 1284 iscsit_conn_dispatch_rele(iscsit_conn_t *ict) 1285 { 1286 idm_refcnt_rele(&ict->ict_dispatch_refcnt); 1287 } 1288 1289 static idm_status_t 1290 iscsit_login_fail(idm_conn_t *ic) 1291 { 1292 iscsit_conn_t *ict = ic->ic_handle; 1293 1294 /* Generate login state machine event */ 1295 iscsit_login_sm_event(ict, ILE_LOGIN_CONN_ERROR, NULL); 1296 1297 return (IDM_STATUS_SUCCESS); 1298 } 1299 1300 static idm_status_t 1301 iscsit_ffp_enabled(idm_conn_t *ic) 1302 { 1303 iscsit_conn_t *ict = ic->ic_handle; 1304 1305 /* Generate session state machine event */ 1306 iscsit_sess_sm_event(ict->ict_sess, SE_CONN_LOGGED_IN, ict); 1307 1308 return (IDM_STATUS_SUCCESS); 1309 } 1310 1311 static idm_status_t 1312 iscsit_ffp_disabled(idm_conn_t *ic, idm_ffp_disable_t disable_class) 1313 { 1314 iscsit_conn_t *ict = ic->ic_handle; 1315 1316 /* Generate session state machine event */ 1317 switch (disable_class) { 1318 case FD_CONN_FAIL: 1319 iscsit_sess_sm_event(ict->ict_sess, SE_CONN_FFP_FAIL, ict); 1320 break; 1321 case FD_CONN_LOGOUT: 1322 iscsit_sess_sm_event(ict->ict_sess, SE_CONN_FFP_DISABLE, ict); 1323 break; 1324 case FD_SESS_LOGOUT: 1325 iscsit_sess_sm_event(ict->ict_sess, SE_SESSION_CLOSE, ict); 1326 break; 1327 default: 1328 ASSERT(0); 1329 } 1330 1331 return (IDM_STATUS_SUCCESS); 1332 } 1333 1334 static idm_status_t 1335 iscsit_conn_lost(idm_conn_t *ic) 1336 { 1337 iscsit_conn_t *ict = ic->ic_handle; 1338 iscsit_sess_t *ist = ict->ict_sess; 1339 iscsit_cbuf_t *cbuf; 1340 idm_pdu_t *rx_pdu; 1341 int i; 1342 1343 mutex_enter(&ict->ict_mutex); 1344 ict->ict_lost = B_TRUE; 1345 mutex_exit(&ict->ict_mutex); 1346 /* 1347 * scrub the staging queue for all PDUs on this connection 1348 */ 1349 if (ist != NULL) { 1350 mutex_enter(&ist->ist_sn_mutex); 1351 for (cbuf = ist->ist_rxpdu_queue, i = 0; 1352 ((cbuf->cb_num_elems > 0) && (i < ISCSIT_RXPDU_QUEUE_LEN)); 1353 i++) { 1354 if (((rx_pdu = cbuf->cb_buffer[i]) != NULL) && 1355 (rx_pdu->isp_ic == ic)) { 1356 /* conn is lost, drop the pdu */ 1357 DTRACE_PROBE3(scrubbing__staging__queue, 1358 iscsit_sess_t *, ist, idm_conn_t *, ic, 1359 idm_pdu_t *, rx_pdu); 1360 idm_pdu_complete(rx_pdu, IDM_STATUS_FAIL); 1361 cbuf->cb_buffer[i] = NULL; 1362 cbuf->cb_num_elems--; 1363 iscsit_conn_dispatch_rele(ict); 1364 } 1365 } 1366 mutex_exit(&ist->ist_sn_mutex); 1367 } 1368 /* 1369 * Make sure there aren't any PDU's transitioning from the receive 1370 * handler to the dispatch taskq. 1371 */ 1372 idm_refcnt_wait_ref(&ict->ict_dispatch_refcnt); 1373 1374 return (IDM_STATUS_SUCCESS); 1375 } 1376 1377 static idm_status_t 1378 iscsit_conn_destroy(idm_conn_t *ic) 1379 { 1380 iscsit_conn_t *ict = ic->ic_handle; 1381 1382 mutex_enter(&ict->ict_mutex); 1383 ict->ict_destroyed = B_TRUE; 1384 mutex_exit(&ict->ict_mutex); 1385 1386 /* Generate session state machine event */ 1387 if (ict->ict_sess != NULL) { 1388 /* 1389 * Session state machine will call iscsit_conn_destroy_done() 1390 * when it has removed references to this connection. 1391 */ 1392 iscsit_sess_sm_event(ict->ict_sess, SE_CONN_FAIL, ict); 1393 } 1394 1395 idm_refcnt_wait_ref(&ict->ict_refcnt); 1396 /* 1397 * The session state machine does not need to post 1398 * events to IDM any longer, so it is safe to set 1399 * the idm connection reference to NULL 1400 */ 1401 ict->ict_ic = NULL; 1402 1403 /* Reap the login state machine */ 1404 iscsit_login_sm_fini(ict); 1405 1406 /* Clean up any text command remnants */ 1407 iscsit_text_cmd_fini(ict); 1408 1409 mutex_destroy(&ict->ict_mutex); 1410 idm_refcnt_destroy(&ict->ict_refcnt); 1411 kmem_free(ict, sizeof (*ict)); 1412 1413 iscsit_global_rele(); 1414 1415 return (IDM_STATUS_SUCCESS); 1416 } 1417 1418 void 1419 iscsit_conn_logout(iscsit_conn_t *ict) 1420 { 1421 /* 1422 * If the iscsi connection is active, then 1423 * logout the IDM connection by sending a 1424 * CE_LOGOUT_SESSION_SUCCESS, else, no action 1425 * needs to be taken because the connection 1426 * is already in the teardown process. 1427 */ 1428 mutex_enter(&ict->ict_mutex); 1429 if (ict->ict_lost == B_FALSE && ict->ict_destroyed == B_FALSE) { 1430 idm_conn_event(ict->ict_ic, CE_LOGOUT_SESSION_SUCCESS, 0); 1431 } 1432 mutex_exit(&ict->ict_mutex); 1433 } 1434 1435 /* 1436 * STMF-related functions 1437 * 1438 * iSCSI to STMF mapping 1439 * 1440 * Session == ? 1441 * Connection == bound to local port but not itself a local port 1442 * Target 1443 * Target portal (group?) == local port (really but we're not going to do this) 1444 * iscsit needs to map connections to local ports (whatever we decide 1445 * they are) 1446 * Target == ? 1447 */ 1448 1449 /*ARGSUSED*/ 1450 static stmf_data_buf_t * 1451 iscsit_dbuf_alloc(scsi_task_t *task, uint32_t size, uint32_t *pminsize, 1452 uint32_t flags) 1453 { 1454 iscsit_task_t *itask = task->task_port_private; 1455 idm_buf_t *idm_buffer; 1456 iscsit_buf_t *ibuf; 1457 stmf_data_buf_t *result; 1458 uint32_t bsize; 1459 1460 /* 1461 * If the requested size is larger than MaxBurstLength and the 1462 * given pminsize is also larger than MaxBurstLength, then the 1463 * allocation fails (dbuf = NULL) and pminsize is modified to 1464 * be equal to MaxBurstLength. stmf/sbd then should re-invoke 1465 * this function with the corrected values for transfer. 1466 */ 1467 ASSERT(pminsize); 1468 if (size <= itask->it_ict->ict_op.op_max_burst_length) { 1469 bsize = size; 1470 } else if (*pminsize <= itask->it_ict->ict_op.op_max_burst_length) { 1471 bsize = itask->it_ict->ict_op.op_max_burst_length; 1472 } else { 1473 *pminsize = itask->it_ict->ict_op.op_max_burst_length; 1474 return (NULL); 1475 } 1476 1477 /* Alloc buffer */ 1478 idm_buffer = idm_buf_alloc(itask->it_ict->ict_ic, NULL, bsize); 1479 if (idm_buffer != NULL) { 1480 result = stmf_alloc(STMF_STRUCT_DATA_BUF, 1481 sizeof (iscsit_buf_t), 0); 1482 if (result != NULL) { 1483 /* Fill in stmf_data_buf_t */ 1484 ibuf = result->db_port_private; 1485 ibuf->ibuf_idm_buf = idm_buffer; 1486 ibuf->ibuf_stmf_buf = result; 1487 ibuf->ibuf_is_immed = B_FALSE; 1488 result->db_flags = DB_DONT_CACHE; 1489 result->db_buf_size = bsize; 1490 result->db_data_size = bsize; 1491 result->db_sglist_length = 1; 1492 result->db_sglist[0].seg_addr = idm_buffer->idb_buf; 1493 result->db_sglist[0].seg_length = 1494 idm_buffer->idb_buflen; 1495 return (result); 1496 } 1497 1498 /* Couldn't get the stmf_data_buf_t so free the buffer */ 1499 idm_buf_free(idm_buffer); 1500 } 1501 1502 return (NULL); 1503 } 1504 1505 /*ARGSUSED*/ 1506 static void 1507 iscsit_dbuf_free(stmf_dbuf_store_t *ds, stmf_data_buf_t *dbuf) 1508 { 1509 iscsit_buf_t *ibuf = dbuf->db_port_private; 1510 1511 if (ibuf->ibuf_is_immed) { 1512 /* 1513 * The iscsit_buf_t structure itself will be freed with its 1514 * associated task. Here we just need to free the PDU that 1515 * held the immediate data. 1516 */ 1517 idm_pdu_complete(ibuf->ibuf_immed_data_pdu, IDM_STATUS_SUCCESS); 1518 ibuf->ibuf_immed_data_pdu = 0; 1519 } else { 1520 idm_buf_free(ibuf->ibuf_idm_buf); 1521 stmf_free(dbuf); 1522 } 1523 } 1524 1525 /*ARGSUSED*/ 1526 stmf_status_t 1527 iscsit_xfer_scsi_data(scsi_task_t *task, stmf_data_buf_t *dbuf, 1528 uint32_t ioflags) 1529 { 1530 iscsit_task_t *iscsit_task = task->task_port_private; 1531 iscsit_sess_t *ict_sess = iscsit_task->it_ict->ict_sess; 1532 iscsit_buf_t *ibuf = dbuf->db_port_private; 1533 int idm_rc; 1534 1535 /* 1536 * If we are aborting then we can ignore this request 1537 */ 1538 if (iscsit_task->it_stmf_abort) { 1539 return (STMF_SUCCESS); 1540 } 1541 1542 /* 1543 * If it's not immediate data then start the transfer 1544 */ 1545 if (dbuf->db_flags & DB_DIRECTION_TO_RPORT) { 1546 if (ibuf->ibuf_is_immed) 1547 return (iscsit_idm_to_stmf(IDM_STATUS_SUCCESS)); 1548 /* 1549 * The DB_SEND_STATUS_GOOD flag in the STMF data buffer allows 1550 * the port provider to phase-collapse, i.e. send the status 1551 * along with the final data PDU for the command. The port 1552 * provider passes this request to the transport layer by 1553 * setting a flag IDM_TASK_PHASECOLLAPSE_REQ in the task. 1554 */ 1555 if (dbuf->db_flags & DB_SEND_STATUS_GOOD) 1556 iscsit_task->it_idm_task->idt_flags |= 1557 IDM_TASK_PHASECOLLAPSE_REQ; 1558 /* 1559 * IDM will call iscsit_build_hdr so lock now to serialize 1560 * access to the SN values. We need to lock here to enforce 1561 * lock ordering 1562 */ 1563 mutex_enter(&ict_sess->ist_sn_mutex); 1564 idm_rc = idm_buf_tx_to_ini(iscsit_task->it_idm_task, 1565 ibuf->ibuf_idm_buf, dbuf->db_relative_offset, 1566 dbuf->db_data_size, &iscsit_buf_xfer_cb, dbuf); 1567 mutex_exit(&ict_sess->ist_sn_mutex); 1568 1569 return (iscsit_idm_to_stmf(idm_rc)); 1570 } else if (dbuf->db_flags & DB_DIRECTION_FROM_RPORT) { 1571 ASSERT(ibuf->ibuf_is_immed == B_FALSE); 1572 /* Grab the SN lock (see comment above) */ 1573 mutex_enter(&ict_sess->ist_sn_mutex); 1574 idm_rc = idm_buf_rx_from_ini(iscsit_task->it_idm_task, 1575 ibuf->ibuf_idm_buf, dbuf->db_relative_offset, 1576 dbuf->db_data_size, &iscsit_buf_xfer_cb, dbuf); 1577 mutex_exit(&ict_sess->ist_sn_mutex); 1578 1579 return (iscsit_idm_to_stmf(idm_rc)); 1580 } 1581 1582 /* What are we supposed to do if there is no direction? */ 1583 return (STMF_INVALID_ARG); 1584 } 1585 1586 static void 1587 iscsit_buf_xfer_cb(idm_buf_t *idb, idm_status_t status) 1588 { 1589 iscsit_task_t *itask = idb->idb_task_binding->idt_private; 1590 stmf_data_buf_t *dbuf = idb->idb_cb_arg; 1591 1592 dbuf->db_xfer_status = iscsit_idm_to_stmf(status); 1593 1594 /* 1595 * If the task has been aborted then we don't need to call STMF 1596 */ 1597 if (itask->it_stmf_abort) { 1598 return; 1599 } 1600 1601 /* 1602 * For ISCSI over TCP (not iSER), the last SCSI Data PDU passed 1603 * for a successful command contains the status as requested by 1604 * by COMSTAR (via the DB_SEND_STATUS_GOOD flag). But the iSER 1605 * transport does not support phase-collapse. So pretend we are 1606 * COMSTAR and send the status in a separate PDU now. 1607 */ 1608 if (idb->idb_task_binding->idt_flags & IDM_TASK_PHASECOLLAPSE_SUCCESS) { 1609 /* 1610 * Mark task complete and notify COMSTAR 1611 * that the status has been sent. 1612 */ 1613 itask->it_idm_task->idt_state = TASK_COMPLETE; 1614 stmf_send_status_done(itask->it_stmf_task, 1615 iscsit_idm_to_stmf(status), STMF_IOF_LPORT_DONE); 1616 } else if ((dbuf->db_flags & DB_SEND_STATUS_GOOD) && 1617 status == IDM_STATUS_SUCCESS) { 1618 1619 /* 1620 * The iscsi target port provider - for iSER, emulates the 1621 * DB_SEND_STATUS_GOOD optimization if requested by STMF; 1622 * it sends the status in a separate PDU after the data 1623 * transfer. In this case the port provider should first 1624 * call stmf_data_xfer_done() to mark the transfer complete 1625 * and then send the status. Although STMF will free the 1626 * buffer at the time the task is freed, even if the transfer 1627 * is not marked complete, this behavior makes statistics 1628 * gathering and task state tracking more difficult than it 1629 * needs to be. 1630 */ 1631 stmf_data_xfer_done(itask->it_stmf_task, dbuf, 0); 1632 if (iscsit_send_scsi_status(itask->it_stmf_task, 0) 1633 != STMF_SUCCESS) { 1634 stmf_send_status_done(itask->it_stmf_task, 1635 STMF_FAILURE, STMF_IOF_LPORT_DONE); 1636 } 1637 } else { 1638 stmf_data_xfer_done(itask->it_stmf_task, dbuf, 0); 1639 /* don't touch dbuf after stmf_data_xfer_done */ 1640 } 1641 } 1642 1643 1644 /*ARGSUSED*/ 1645 stmf_status_t 1646 iscsit_send_scsi_status(scsi_task_t *task, uint32_t ioflags) 1647 { 1648 iscsit_task_t *itask = task->task_port_private; 1649 iscsi_scsi_rsp_hdr_t *rsp; 1650 idm_pdu_t *pdu; 1651 int resp_datalen; 1652 1653 /* 1654 * If this task is aborted then we don't need to respond. 1655 */ 1656 if (itask->it_stmf_abort) { 1657 return (STMF_SUCCESS); 1658 } 1659 1660 /* 1661 * If this is a task management status, handle it elsewhere. 1662 */ 1663 if (task->task_mgmt_function != TM_NONE) { 1664 /* 1665 * Don't wait for the PDU completion to tell STMF 1666 * the task is done -- it doesn't really matter and 1667 * it makes life complicated if STMF later asks us to 1668 * abort the request and we don't know whether the 1669 * status has been sent or not. 1670 */ 1671 itask->it_tm_responded = B_TRUE; 1672 iscsit_send_task_mgmt_resp(itask->it_tm_pdu, 1673 (task->task_completion_status == STMF_SUCCESS) ? 1674 SCSI_TCP_TM_RESP_COMPLETE : SCSI_TCP_TM_RESP_FUNC_NOT_SUPP); 1675 stmf_send_status_done(task, STMF_SUCCESS, 1676 STMF_IOF_LPORT_DONE); 1677 return (STMF_SUCCESS); 1678 } 1679 1680 /* 1681 * Remove the task from the session task list 1682 */ 1683 iscsit_task_done(itask); 1684 1685 /* 1686 * Send status 1687 */ 1688 mutex_enter(&itask->it_idm_task->idt_mutex); 1689 if ((itask->it_idm_task->idt_state == TASK_ACTIVE) && 1690 (task->task_completion_status == STMF_SUCCESS) && 1691 (task->task_sense_length == 0) && 1692 (task->task_resid == 0)) { 1693 itask->it_idm_task->idt_state = TASK_COMPLETE; 1694 /* PDU callback releases task hold */ 1695 idm_task_hold(itask->it_idm_task); 1696 mutex_exit(&itask->it_idm_task->idt_mutex); 1697 /* 1698 * Fast path. Cached status PDU's are already 1699 * initialized. We just need to fill in 1700 * connection and task information. StatSN is 1701 * incremented by 1 for every status sent a 1702 * connection. 1703 */ 1704 pdu = kmem_cache_alloc(iscsit_status_pdu_cache, KM_SLEEP); 1705 pdu->isp_ic = itask->it_ict->ict_ic; 1706 pdu->isp_private = itask; 1707 pdu->isp_flags |= IDM_PDU_SET_STATSN | IDM_PDU_ADVANCE_STATSN; 1708 1709 rsp = (iscsi_scsi_rsp_hdr_t *)pdu->isp_hdr; 1710 rsp->itt = itask->it_itt; 1711 /* 1712 * ExpDataSN is the number of R2T and Data-In (read) 1713 * PDUs the target has sent for the SCSI command. 1714 * 1715 * Since there is no support for bidirectional transfer 1716 * yet, either idt_exp_datasn or idt_exp_rttsn, but not 1717 * both is valid at any time 1718 */ 1719 rsp->expdatasn = (itask->it_idm_task->idt_exp_datasn != 0) ? 1720 htonl(itask->it_idm_task->idt_exp_datasn): 1721 htonl(itask->it_idm_task->idt_exp_rttsn); 1722 rsp->cmd_status = task->task_scsi_status; 1723 iscsit_pdu_tx(pdu); 1724 return (STMF_SUCCESS); 1725 } else { 1726 if (itask->it_idm_task->idt_state != TASK_ACTIVE) { 1727 mutex_exit(&itask->it_idm_task->idt_mutex); 1728 return (STMF_FAILURE); 1729 } 1730 itask->it_idm_task->idt_state = TASK_COMPLETE; 1731 /* PDU callback releases task hold */ 1732 idm_task_hold(itask->it_idm_task); 1733 mutex_exit(&itask->it_idm_task->idt_mutex); 1734 1735 resp_datalen = (task->task_sense_length == 0) ? 0 : 1736 (task->task_sense_length + sizeof (uint16_t)); 1737 1738 pdu = idm_pdu_alloc(sizeof (iscsi_hdr_t), resp_datalen); 1739 idm_pdu_init(pdu, itask->it_ict->ict_ic, itask, 1740 iscsit_send_status_done); 1741 pdu->isp_flags |= IDM_PDU_SET_STATSN | IDM_PDU_ADVANCE_STATSN; 1742 1743 rsp = (iscsi_scsi_rsp_hdr_t *)pdu->isp_hdr; 1744 bzero(rsp, sizeof (*rsp)); 1745 rsp->opcode = ISCSI_OP_SCSI_RSP; 1746 1747 rsp->flags = ISCSI_FLAG_FINAL; 1748 if (task->task_status_ctrl & TASK_SCTRL_OVER) { 1749 rsp->flags |= ISCSI_FLAG_CMD_OVERFLOW; 1750 } else if (task->task_status_ctrl & TASK_SCTRL_UNDER) { 1751 rsp->flags |= ISCSI_FLAG_CMD_UNDERFLOW; 1752 } 1753 1754 rsp->bi_residual_count = 0; 1755 rsp->residual_count = htonl(task->task_resid); 1756 rsp->itt = itask->it_itt; 1757 rsp->response = ISCSI_STATUS_CMD_COMPLETED; 1758 rsp->expdatasn = (itask->it_idm_task->idt_exp_datasn != 0) ? 1759 htonl(itask->it_idm_task->idt_exp_datasn): 1760 htonl(itask->it_idm_task->idt_exp_rttsn); 1761 rsp->cmd_status = task->task_scsi_status; 1762 if (task->task_sense_length != 0) { 1763 /* 1764 * Add a byte to provide the sense length in 1765 * the response 1766 */ 1767 *(uint16_t *)((void *)pdu->isp_data) = 1768 htons(task->task_sense_length); 1769 bcopy(task->task_sense_data, 1770 (uint8_t *)pdu->isp_data + 1771 sizeof (uint16_t), 1772 task->task_sense_length); 1773 hton24(rsp->dlength, resp_datalen); 1774 } 1775 1776 DTRACE_PROBE5(iscsi__scsi__response, 1777 iscsit_conn_t *, itask->it_ict, 1778 uint8_t, rsp->response, 1779 uint8_t, rsp->cmd_status, 1780 idm_pdu_t *, pdu, 1781 scsi_task_t *, task); 1782 1783 iscsit_pdu_tx(pdu); 1784 1785 return (STMF_SUCCESS); 1786 } 1787 } 1788 1789 /*ARGSUSED*/ 1790 static void 1791 iscsit_send_good_status_done(idm_pdu_t *pdu, idm_status_t status) 1792 { 1793 iscsit_task_t *itask; 1794 boolean_t aborted; 1795 1796 itask = pdu->isp_private; 1797 aborted = itask->it_stmf_abort; 1798 1799 /* 1800 * After releasing the hold the task may be freed at any time so 1801 * don't touch it. 1802 */ 1803 idm_task_rele(itask->it_idm_task); 1804 if (!aborted) { 1805 stmf_send_status_done(itask->it_stmf_task, 1806 iscsit_idm_to_stmf(pdu->isp_status), STMF_IOF_LPORT_DONE); 1807 } 1808 kmem_cache_free(iscsit_status_pdu_cache, pdu); 1809 } 1810 1811 /*ARGSUSED*/ 1812 static void 1813 iscsit_send_status_done(idm_pdu_t *pdu, idm_status_t status) 1814 { 1815 iscsit_task_t *itask; 1816 boolean_t aborted; 1817 1818 itask = pdu->isp_private; 1819 aborted = itask->it_stmf_abort; 1820 1821 /* 1822 * After releasing the hold the task may be freed at any time so 1823 * don't touch it. 1824 */ 1825 idm_task_rele(itask->it_idm_task); 1826 if (!aborted) { 1827 stmf_send_status_done(itask->it_stmf_task, 1828 iscsit_idm_to_stmf(pdu->isp_status), STMF_IOF_LPORT_DONE); 1829 } 1830 idm_pdu_free(pdu); 1831 } 1832 1833 1834 void 1835 iscsit_lport_task_free(scsi_task_t *task) 1836 { 1837 iscsit_task_t *itask = task->task_port_private; 1838 1839 /* We only call idm_task_start for regular tasks, not task management */ 1840 if (task->task_mgmt_function == TM_NONE) { 1841 idm_task_done(itask->it_idm_task); 1842 iscsit_task_free(itask); 1843 return; 1844 } else { 1845 iscsit_tm_task_free(itask); 1846 } 1847 } 1848 1849 /*ARGSUSED*/ 1850 stmf_status_t 1851 iscsit_abort(stmf_local_port_t *lport, int abort_cmd, void *arg, uint32_t flags) 1852 { 1853 scsi_task_t *st = (scsi_task_t *)arg; 1854 iscsit_task_t *iscsit_task; 1855 idm_task_t *idt; 1856 1857 /* 1858 * If this is a task management request then there's really not much to 1859 * do. 1860 */ 1861 if (st->task_mgmt_function != TM_NONE) { 1862 return (STMF_ABORT_SUCCESS); 1863 } 1864 1865 /* 1866 * Regular task, start cleaning up 1867 */ 1868 iscsit_task = st->task_port_private; 1869 idt = iscsit_task->it_idm_task; 1870 mutex_enter(&iscsit_task->it_mutex); 1871 iscsit_task->it_stmf_abort = B_TRUE; 1872 if (iscsit_task->it_aborted) { 1873 mutex_exit(&iscsit_task->it_mutex); 1874 /* 1875 * Task is no longer active 1876 */ 1877 iscsit_task_done(iscsit_task); 1878 1879 /* 1880 * STMF specification is wrong... says to return 1881 * STMF_ABORTED, the code actually looks for 1882 * STMF_ABORT_SUCCESS. 1883 */ 1884 return (STMF_ABORT_SUCCESS); 1885 } else { 1886 mutex_exit(&iscsit_task->it_mutex); 1887 /* 1888 * Call IDM to abort the task. Due to a variety of 1889 * circumstances the task may already be in the process of 1890 * aborting. 1891 * We'll let IDM worry about rationalizing all that except 1892 * for one particular instance. If the state of the task 1893 * is TASK_COMPLETE, we need to indicate to the framework 1894 * that we are in fact done. This typically happens with 1895 * framework-initiated task management type requests 1896 * (e.g. abort task). 1897 */ 1898 if (idt->idt_state == TASK_COMPLETE) { 1899 idm_refcnt_wait_ref(&idt->idt_refcnt); 1900 return (STMF_ABORT_SUCCESS); 1901 } else { 1902 idm_task_abort(idt->idt_ic, idt, AT_TASK_MGMT_ABORT); 1903 return (STMF_SUCCESS); 1904 } 1905 } 1906 1907 /*NOTREACHED*/ 1908 } 1909 1910 /*ARGSUSED*/ 1911 void 1912 iscsit_ctl(stmf_local_port_t *lport, int cmd, void *arg) 1913 { 1914 iscsit_tgt_t *iscsit_tgt; 1915 1916 ASSERT((cmd == STMF_CMD_LPORT_ONLINE) || 1917 (cmd == STMF_ACK_LPORT_ONLINE_COMPLETE) || 1918 (cmd == STMF_CMD_LPORT_OFFLINE) || 1919 (cmd == STMF_ACK_LPORT_OFFLINE_COMPLETE)); 1920 1921 iscsit_tgt = (iscsit_tgt_t *)lport->lport_port_private; 1922 1923 switch (cmd) { 1924 case STMF_CMD_LPORT_ONLINE: 1925 iscsit_tgt_sm_event(iscsit_tgt, TE_STMF_ONLINE_REQ); 1926 break; 1927 case STMF_CMD_LPORT_OFFLINE: 1928 iscsit_tgt_sm_event(iscsit_tgt, TE_STMF_OFFLINE_REQ); 1929 break; 1930 case STMF_ACK_LPORT_ONLINE_COMPLETE: 1931 iscsit_tgt_sm_event(iscsit_tgt, TE_STMF_ONLINE_COMPLETE_ACK); 1932 break; 1933 case STMF_ACK_LPORT_OFFLINE_COMPLETE: 1934 iscsit_tgt_sm_event(iscsit_tgt, TE_STMF_OFFLINE_COMPLETE_ACK); 1935 break; 1936 1937 default: 1938 break; 1939 } 1940 } 1941 1942 static stmf_status_t 1943 iscsit_idm_to_stmf(idm_status_t idmrc) 1944 { 1945 switch (idmrc) { 1946 case IDM_STATUS_SUCCESS: 1947 return (STMF_SUCCESS); 1948 default: 1949 return (STMF_FAILURE); 1950 } 1951 /*NOTREACHED*/ 1952 } 1953 1954 void 1955 iscsit_op_scsi_cmd(idm_conn_t *ic, idm_pdu_t *rx_pdu) 1956 { 1957 iscsit_conn_t *ict = ic->ic_handle; 1958 1959 if (iscsit_check_cmdsn_and_queue(rx_pdu)) { 1960 iscsit_post_scsi_cmd(ic, rx_pdu); 1961 } 1962 iscsit_process_pdu_in_queue(ict->ict_sess); 1963 } 1964 1965 /* 1966 * ISCSI protocol 1967 */ 1968 1969 void 1970 iscsit_post_scsi_cmd(idm_conn_t *ic, idm_pdu_t *rx_pdu) 1971 { 1972 iscsit_conn_t *ict; 1973 iscsit_task_t *itask; 1974 scsi_task_t *task; 1975 iscsit_buf_t *ibuf; 1976 iscsi_scsi_cmd_hdr_t *iscsi_scsi = 1977 (iscsi_scsi_cmd_hdr_t *)rx_pdu->isp_hdr; 1978 iscsi_addl_hdr_t *ahs_hdr; 1979 uint16_t addl_cdb_len = 0; 1980 1981 ict = ic->ic_handle; 1982 1983 itask = iscsit_task_alloc(ict); 1984 if (itask == NULL) { 1985 /* Finish processing request */ 1986 iscsit_set_cmdsn(ict, rx_pdu); 1987 1988 iscsit_send_direct_scsi_resp(ict, rx_pdu, 1989 ISCSI_STATUS_CMD_COMPLETED, STATUS_BUSY); 1990 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 1991 return; 1992 } 1993 1994 /* 1995 * Note CmdSN and ITT in task. IDM will have already validated this 1996 * request against the connection state so we don't need to check 1997 * that (the connection may have changed state in the meantime but 1998 * we will catch that when we try to send a response) 1999 */ 2000 itask->it_cmdsn = ntohl(iscsi_scsi->cmdsn); 2001 itask->it_itt = iscsi_scsi->itt; 2002 2003 /* 2004 * Check for extended CDB AHS 2005 */ 2006 if (iscsi_scsi->hlength > 0) { 2007 ahs_hdr = (iscsi_addl_hdr_t *)iscsi_scsi; 2008 addl_cdb_len = ((ahs_hdr->ahs_hlen_hi << 8) | 2009 ahs_hdr->ahs_hlen_lo) - 1; /* Adjust for reserved byte */ 2010 if (((addl_cdb_len + 4) / sizeof (uint32_t)) > 2011 iscsi_scsi->hlength) { 2012 /* Mangled header info, drop it */ 2013 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2014 return; 2015 } 2016 } 2017 2018 ict = rx_pdu->isp_ic->ic_handle; /* IDM client private */ 2019 2020 /* 2021 * Add task to session list. This function will also check to 2022 * ensure that the task does not already exist. 2023 */ 2024 if (iscsit_task_start(itask) != IDM_STATUS_SUCCESS) { 2025 /* 2026 * Task exists, free all resources and reject. Don't 2027 * update expcmdsn in this case because RFC 3720 says 2028 * "The CmdSN of the rejected command PDU (if it is a 2029 * non-immediate command) MUST NOT be considered received 2030 * by the target (i.e., a command sequence gap must be 2031 * assumed for the CmdSN), even though the CmdSN of the 2032 * rejected command PDU may be reliably ascertained. Upon 2033 * receiving the Reject, the initiator MUST plug the CmdSN 2034 * gap in order to continue to use the session. The gap 2035 * may be plugged either by transmitting a command PDU 2036 * with the same CmdSN, or by aborting the task (see section 2037 * 6.9 on how an abort may plug a CmdSN gap)." (Section 6.3) 2038 */ 2039 iscsit_task_free(itask); 2040 iscsit_send_reject(ict, rx_pdu, ISCSI_REJECT_TASK_IN_PROGRESS); 2041 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2042 return; 2043 } 2044 2045 /* Update sequence numbers */ 2046 iscsit_set_cmdsn(ict, rx_pdu); 2047 2048 /* 2049 * Allocate STMF task 2050 */ 2051 itask->it_stmf_task = stmf_task_alloc( 2052 itask->it_ict->ict_sess->ist_lport, 2053 itask->it_ict->ict_sess->ist_stmf_sess, iscsi_scsi->lun, 2054 16 + addl_cdb_len, 0); 2055 if (itask->it_stmf_task == NULL) { 2056 /* 2057 * Either stmf really couldn't get memory for a task or, 2058 * more likely, the LU is currently in reset. Either way 2059 * we have no choice but to fail the request. 2060 */ 2061 iscsit_task_done(itask); 2062 iscsit_task_free(itask); 2063 iscsit_send_direct_scsi_resp(ict, rx_pdu, 2064 ISCSI_STATUS_CMD_COMPLETED, STATUS_BUSY); 2065 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2066 return; 2067 } 2068 2069 task = itask->it_stmf_task; 2070 task->task_port_private = itask; 2071 2072 bcopy(iscsi_scsi->lun, task->task_lun_no, sizeof (task->task_lun_no)); 2073 2074 /* 2075 * iSCSI and Comstar use the same values. Should we rely on this 2076 * or translate them bit-wise? 2077 */ 2078 2079 task->task_flags = 2080 (((iscsi_scsi->flags & ISCSI_FLAG_CMD_READ) ? TF_READ_DATA : 0) | 2081 ((iscsi_scsi->flags & ISCSI_FLAG_CMD_WRITE) ? TF_WRITE_DATA : 0) | 2082 ((rx_pdu->isp_datalen == 0) ? 0 : TF_INITIAL_BURST)); 2083 2084 switch (iscsi_scsi->flags & ISCSI_FLAG_CMD_ATTR_MASK) { 2085 case ISCSI_ATTR_UNTAGGED: 2086 break; 2087 case ISCSI_ATTR_SIMPLE: 2088 task->task_additional_flags |= TF_ATTR_SIMPLE_QUEUE; 2089 break; 2090 case ISCSI_ATTR_ORDERED: 2091 task->task_additional_flags |= TF_ATTR_ORDERED_QUEUE; 2092 break; 2093 case ISCSI_ATTR_HEAD_OF_QUEUE: 2094 task->task_additional_flags |= TF_ATTR_HEAD_OF_QUEUE; 2095 break; 2096 case ISCSI_ATTR_ACA: 2097 task->task_additional_flags |= TF_ATTR_ACA; 2098 break; 2099 default: 2100 /* Protocol error but just take it, treat as untagged */ 2101 break; 2102 } 2103 2104 2105 task->task_additional_flags = 0; 2106 task->task_priority = 0; 2107 task->task_mgmt_function = TM_NONE; 2108 2109 /* 2110 * This "task_max_nbufs" doesn't map well to BIDI. We probably need 2111 * parameter for each direction. "MaxOutstandingR2T" may very well 2112 * be set to one which could prevent us from doing simultaneous 2113 * transfers in each direction. 2114 */ 2115 task->task_max_nbufs = (iscsi_scsi->flags & ISCSI_FLAG_CMD_WRITE) ? 2116 ict->ict_op.op_max_outstanding_r2t : STMF_BUFS_MAX; 2117 task->task_cmd_seq_no = ntohl(iscsi_scsi->itt); 2118 task->task_expected_xfer_length = ntohl(iscsi_scsi->data_length); 2119 2120 /* Copy CDB */ 2121 bcopy(iscsi_scsi->scb, task->task_cdb, 16); 2122 if (addl_cdb_len > 0) { 2123 bcopy(ahs_hdr->ahs_extscb, task->task_cdb + 16, addl_cdb_len); 2124 } 2125 2126 DTRACE_ISCSI_3(scsi__command, idm_conn_t *, ic, 2127 iscsi_scsi_cmd_hdr_t *, (iscsi_scsi_cmd_hdr_t *)rx_pdu->isp_hdr, 2128 scsi_task_t *, task); 2129 2130 /* 2131 * Copy the transport header into the task handle from the PDU 2132 * handle. The transport header describes this task's remote tagged 2133 * buffer. 2134 */ 2135 if (rx_pdu->isp_transport_hdrlen != 0) { 2136 bcopy(rx_pdu->isp_transport_hdr, 2137 itask->it_idm_task->idt_transport_hdr, 2138 rx_pdu->isp_transport_hdrlen); 2139 } 2140 2141 /* 2142 * Tell IDM about our new active task 2143 */ 2144 idm_task_start(itask->it_idm_task, (uintptr_t)itask->it_itt); 2145 2146 /* 2147 * If we have any immediate data then setup the immediate buffer 2148 * context that comes with the task 2149 */ 2150 if (rx_pdu->isp_datalen) { 2151 ibuf = itask->it_immed_data; 2152 ibuf->ibuf_immed_data_pdu = rx_pdu; 2153 ibuf->ibuf_stmf_buf->db_data_size = rx_pdu->isp_datalen; 2154 ibuf->ibuf_stmf_buf->db_buf_size = rx_pdu->isp_datalen; 2155 ibuf->ibuf_stmf_buf->db_relative_offset = 0; 2156 ibuf->ibuf_stmf_buf->db_sglist[0].seg_length = 2157 rx_pdu->isp_datalen; 2158 ibuf->ibuf_stmf_buf->db_sglist[0].seg_addr = rx_pdu->isp_data; 2159 2160 DTRACE_ISCSI_8(xfer__start, idm_conn_t *, ic, 2161 uintptr_t, ibuf->ibuf_stmf_buf->db_sglist[0].seg_addr, 2162 uint32_t, ibuf->ibuf_stmf_buf->db_relative_offset, 2163 uint64_t, 0, uint32_t, 0, uint32_t, 0, /* no raddr */ 2164 uint32_t, rx_pdu->isp_datalen, int, XFER_BUF_TX_TO_INI); 2165 2166 /* 2167 * For immediate data transfer, there is no callback from 2168 * stmf to indicate that the initial burst of data is 2169 * transferred successfully. In some cases, the task can 2170 * get freed before execution returns from stmf_post_task. 2171 * Although this xfer-start/done probe accurately tracks 2172 * the size of the transfer, it does only provide a best 2173 * effort on the timing of the transfer. 2174 */ 2175 DTRACE_ISCSI_8(xfer__done, idm_conn_t *, ic, 2176 uintptr_t, ibuf->ibuf_stmf_buf->db_sglist[0].seg_addr, 2177 uint32_t, ibuf->ibuf_stmf_buf->db_relative_offset, 2178 uint64_t, 0, uint32_t, 0, uint32_t, 0, /* no raddr */ 2179 uint32_t, rx_pdu->isp_datalen, int, XFER_BUF_TX_TO_INI); 2180 stmf_post_task(task, ibuf->ibuf_stmf_buf); 2181 } else { 2182 2183 stmf_post_task(task, NULL); 2184 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2185 } 2186 } 2187 2188 void 2189 iscsit_deferred_dispatch(idm_pdu_t *rx_pdu) 2190 { 2191 iscsit_conn_t *ict = rx_pdu->isp_ic->ic_handle; 2192 2193 /* 2194 * If this isn't a login packet, we need a session. Otherwise 2195 * this is a protocol error (perhaps one IDM should've caught?). 2196 */ 2197 if (IDM_PDU_OPCODE(rx_pdu) != ISCSI_OP_LOGIN_CMD && 2198 ict->ict_sess == NULL) { 2199 DTRACE_PROBE2(iscsi__idm__deferred__no__session, 2200 iscsit_conn_t *, ict, idm_pdu_t *, rx_pdu); 2201 idm_pdu_complete(rx_pdu, IDM_STATUS_FAIL); 2202 return; 2203 } 2204 2205 /* 2206 * If the connection has been lost then ignore new PDU's 2207 */ 2208 mutex_enter(&ict->ict_mutex); 2209 if (ict->ict_lost) { 2210 mutex_exit(&ict->ict_mutex); 2211 idm_pdu_complete(rx_pdu, IDM_STATUS_FAIL); 2212 return; 2213 } 2214 2215 /* 2216 * Grab a hold on the connection to prevent it from going away 2217 * between now and when the taskq function is called. 2218 */ 2219 iscsit_conn_dispatch_hold(ict); 2220 mutex_exit(&ict->ict_mutex); 2221 2222 taskq_dispatch_ent(iscsit_global.global_dispatch_taskq, 2223 iscsit_deferred, rx_pdu, 0, &rx_pdu->isp_tqent); 2224 } 2225 2226 static void 2227 iscsit_deferred(void *rx_pdu_void) 2228 { 2229 idm_pdu_t *rx_pdu = rx_pdu_void; 2230 idm_conn_t *ic = rx_pdu->isp_ic; 2231 iscsit_conn_t *ict = ic->ic_handle; 2232 2233 /* 2234 * NOP and Task Management Commands can be marked for immediate 2235 * delivery. Commands marked as 'Immediate' are to be considered 2236 * for execution as soon as they arrive on the target. So these 2237 * should not be checked for sequence order and put in a queue. 2238 * The CmdSN is not advanced for Immediate Commands. 2239 */ 2240 switch (IDM_PDU_OPCODE(rx_pdu)) { 2241 case ISCSI_OP_NOOP_OUT: 2242 if (iscsit_check_cmdsn_and_queue(rx_pdu)) { 2243 iscsit_set_cmdsn(ict, rx_pdu); 2244 iscsit_pdu_op_noop(ict, rx_pdu); 2245 } 2246 break; 2247 case ISCSI_OP_LOGIN_CMD: 2248 iscsit_pdu_op_login_cmd(ict, rx_pdu); 2249 iscsit_conn_dispatch_rele(ict); 2250 return; 2251 case ISCSI_OP_TEXT_CMD: 2252 if (iscsit_check_cmdsn_and_queue(rx_pdu)) { 2253 iscsit_set_cmdsn(ict, rx_pdu); 2254 iscsit_pdu_op_text_cmd(ict, rx_pdu); 2255 } 2256 break; 2257 case ISCSI_OP_LOGOUT_CMD: 2258 if (iscsit_check_cmdsn_and_queue(rx_pdu)) { 2259 iscsit_set_cmdsn(ict, rx_pdu); 2260 iscsit_pdu_op_logout_cmd(ict, rx_pdu); 2261 } 2262 break; 2263 default: 2264 /* Protocol error. IDM should have caught this */ 2265 idm_pdu_complete(rx_pdu, IDM_STATUS_FAIL); 2266 ASSERT(0); 2267 break; 2268 } 2269 /* 2270 * Check if there are other PDUs in the session staging queue 2271 * waiting to be posted to SCSI layer. 2272 */ 2273 iscsit_process_pdu_in_queue(ict->ict_sess); 2274 2275 iscsit_conn_dispatch_rele(ict); 2276 } 2277 2278 static void 2279 iscsit_send_direct_scsi_resp(iscsit_conn_t *ict, idm_pdu_t *rx_pdu, 2280 uint8_t response, uint8_t cmd_status) 2281 { 2282 idm_pdu_t *rsp_pdu; 2283 idm_conn_t *ic; 2284 iscsi_scsi_rsp_hdr_t *resp; 2285 iscsi_scsi_cmd_hdr_t *req = 2286 (iscsi_scsi_cmd_hdr_t *)rx_pdu->isp_hdr; 2287 2288 ic = ict->ict_ic; 2289 2290 rsp_pdu = idm_pdu_alloc(sizeof (iscsi_scsi_rsp_hdr_t), 0); 2291 idm_pdu_init(rsp_pdu, ic, NULL, NULL); 2292 /* 2293 * StatSN is incremented by 1 for every response sent on 2294 * a connection except for responses sent as a result of 2295 * a retry or SNACK 2296 */ 2297 rsp_pdu->isp_flags |= IDM_PDU_SET_STATSN | IDM_PDU_ADVANCE_STATSN; 2298 2299 resp = (iscsi_scsi_rsp_hdr_t *)rsp_pdu->isp_hdr; 2300 2301 resp->opcode = ISCSI_OP_SCSI_RSP; 2302 resp->flags = ISCSI_FLAG_FINAL; 2303 resp->response = response; 2304 resp->cmd_status = cmd_status; 2305 resp->itt = req->itt; 2306 if ((response == ISCSI_STATUS_CMD_COMPLETED) && 2307 (req->data_length != 0) && 2308 ((req->flags & ISCSI_FLAG_CMD_READ) || 2309 (req->flags & ISCSI_FLAG_CMD_WRITE))) { 2310 resp->flags |= ISCSI_FLAG_CMD_UNDERFLOW; 2311 resp->residual_count = req->data_length; 2312 } 2313 2314 DTRACE_PROBE4(iscsi__scsi__direct__response, 2315 iscsit_conn_t *, ict, 2316 uint8_t, resp->response, 2317 uint8_t, resp->cmd_status, 2318 idm_pdu_t *, rsp_pdu); 2319 2320 iscsit_pdu_tx(rsp_pdu); 2321 } 2322 2323 void 2324 iscsit_send_task_mgmt_resp(idm_pdu_t *tm_resp_pdu, uint8_t tm_status) 2325 { 2326 iscsi_scsi_task_mgt_rsp_hdr_t *tm_resp; 2327 2328 /* 2329 * The target must take note of the last-sent StatSN. 2330 * The StatSN is to be incremented after sending a 2331 * task management response. Digest recovery can only 2332 * work if StatSN is incremented. 2333 */ 2334 tm_resp_pdu->isp_flags |= IDM_PDU_SET_STATSN | IDM_PDU_ADVANCE_STATSN; 2335 tm_resp = (iscsi_scsi_task_mgt_rsp_hdr_t *)tm_resp_pdu->isp_hdr; 2336 tm_resp->response = tm_status; 2337 2338 DTRACE_PROBE3(iscsi__scsi__tm__response, 2339 iscsit_conn_t *, tm_resp_pdu->isp_ic->ic_handle, 2340 uint8_t, tm_resp->response, 2341 idm_pdu_t *, tm_resp_pdu); 2342 iscsit_pdu_tx(tm_resp_pdu); 2343 } 2344 2345 void 2346 iscsit_op_scsi_task_mgmt(iscsit_conn_t *ict, idm_pdu_t *rx_pdu) 2347 { 2348 idm_pdu_t *tm_resp_pdu; 2349 iscsit_task_t *itask; 2350 iscsit_task_t *tm_itask; 2351 scsi_task_t *task; 2352 iscsi_scsi_task_mgt_hdr_t *iscsi_tm = 2353 (iscsi_scsi_task_mgt_hdr_t *)rx_pdu->isp_hdr; 2354 iscsi_scsi_task_mgt_rsp_hdr_t *iscsi_tm_rsp = 2355 (iscsi_scsi_task_mgt_rsp_hdr_t *)rx_pdu->isp_hdr; 2356 uint32_t rtt, cmdsn, refcmdsn; 2357 uint8_t tm_func; 2358 2359 /* 2360 * Setup response PDU (response field will get filled in later) 2361 */ 2362 tm_resp_pdu = idm_pdu_alloc(sizeof (iscsi_scsi_task_mgt_rsp_hdr_t), 0); 2363 if (tm_resp_pdu == NULL) { 2364 /* Can't respond, just drop it */ 2365 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2366 return; 2367 } 2368 idm_pdu_init(tm_resp_pdu, ict->ict_ic, NULL, NULL); 2369 iscsi_tm_rsp = (iscsi_scsi_task_mgt_rsp_hdr_t *)tm_resp_pdu->isp_hdr; 2370 bzero(iscsi_tm_rsp, sizeof (iscsi_scsi_task_mgt_rsp_hdr_t)); 2371 iscsi_tm_rsp->opcode = ISCSI_OP_SCSI_TASK_MGT_RSP; 2372 iscsi_tm_rsp->flags = ISCSI_FLAG_FINAL; 2373 iscsi_tm_rsp->itt = rx_pdu->isp_hdr->itt; 2374 2375 /* 2376 * Figure out what we're being asked to do. 2377 */ 2378 DTRACE_PROBE4(iscsi__scsi__tm__request, 2379 iscsit_conn_t *, ict, 2380 uint8_t, (iscsi_tm->function & ISCSI_FLAG_TASK_MGMT_FUNCTION_MASK), 2381 uint32_t, iscsi_tm->rtt, 2382 idm_pdu_t *, rx_pdu); 2383 switch (iscsi_tm->function & ISCSI_FLAG_TASK_MGMT_FUNCTION_MASK) { 2384 case ISCSI_TM_FUNC_ABORT_TASK: 2385 /* 2386 * STMF doesn't currently support the "abort task" task 2387 * management command although it does support aborting 2388 * an individual task. We'll get STMF to abort the task 2389 * for us but handle the details of the task management 2390 * command ourselves. 2391 * 2392 * Find the task associated with the referenced task tag. 2393 */ 2394 rtt = iscsi_tm->rtt; 2395 itask = (iscsit_task_t *)idm_task_find_by_handle(ict->ict_ic, 2396 (uintptr_t)rtt); 2397 2398 if (itask == NULL) { 2399 cmdsn = ntohl(iscsi_tm->cmdsn); 2400 refcmdsn = ntohl(iscsi_tm->refcmdsn); 2401 2402 /* 2403 * Task was not found. But the SCSI command could be 2404 * on the rxpdu wait queue. If RefCmdSN is within 2405 * the CmdSN window and less than CmdSN of the TM 2406 * function, return "Function Complete". Otherwise, 2407 * return "Task Does Not Exist". 2408 */ 2409 2410 if (iscsit_cmdsn_in_window(ict, refcmdsn) && 2411 iscsit_sna_lt(refcmdsn, cmdsn)) { 2412 mutex_enter(&ict->ict_sess->ist_sn_mutex); 2413 if (iscsit_remove_pdu_from_queue( 2414 ict->ict_sess, refcmdsn)) { 2415 iscsit_conn_dispatch_rele(ict); 2416 } 2417 mutex_exit(&ict->ict_sess->ist_sn_mutex); 2418 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2419 SCSI_TCP_TM_RESP_COMPLETE); 2420 } else { 2421 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2422 SCSI_TCP_TM_RESP_NO_TASK); 2423 } 2424 } else { 2425 2426 /* 2427 * Tell STMF to abort the task. This will do no harm 2428 * if the task is already complete. 2429 */ 2430 stmf_abort(STMF_QUEUE_TASK_ABORT, itask->it_stmf_task, 2431 STMF_ABORTED, NULL); 2432 2433 /* 2434 * Make sure the task hasn't already completed 2435 */ 2436 mutex_enter(&itask->it_idm_task->idt_mutex); 2437 if ((itask->it_idm_task->idt_state == TASK_COMPLETE) || 2438 (itask->it_idm_task->idt_state == TASK_IDLE)) { 2439 /* 2440 * Task is complete, return "Task Does Not 2441 * Exist" 2442 */ 2443 mutex_exit(&itask->it_idm_task->idt_mutex); 2444 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2445 SCSI_TCP_TM_RESP_NO_TASK); 2446 } else { 2447 /* 2448 * STMF is now aborting the task, return 2449 * "Function Complete" 2450 */ 2451 mutex_exit(&itask->it_idm_task->idt_mutex); 2452 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2453 SCSI_TCP_TM_RESP_COMPLETE); 2454 } 2455 idm_task_rele(itask->it_idm_task); 2456 } 2457 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2458 return; 2459 2460 case ISCSI_TM_FUNC_ABORT_TASK_SET: 2461 tm_func = TM_ABORT_TASK_SET; 2462 break; 2463 2464 case ISCSI_TM_FUNC_CLEAR_ACA: 2465 tm_func = TM_CLEAR_ACA; 2466 break; 2467 2468 case ISCSI_TM_FUNC_CLEAR_TASK_SET: 2469 tm_func = TM_CLEAR_TASK_SET; 2470 break; 2471 2472 case ISCSI_TM_FUNC_LOGICAL_UNIT_RESET: 2473 tm_func = TM_LUN_RESET; 2474 break; 2475 2476 case ISCSI_TM_FUNC_TARGET_WARM_RESET: 2477 tm_func = TM_TARGET_WARM_RESET; 2478 break; 2479 2480 case ISCSI_TM_FUNC_TARGET_COLD_RESET: 2481 tm_func = TM_TARGET_COLD_RESET; 2482 break; 2483 2484 case ISCSI_TM_FUNC_TASK_REASSIGN: 2485 /* 2486 * We do not currently support allegiance reassignment. When 2487 * we start supporting ERL1+, we will need to. 2488 */ 2489 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2490 SCSI_TCP_TM_RESP_NO_ALLG_REASSN); 2491 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2492 return; 2493 2494 default: 2495 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2496 SCSI_TCP_TM_RESP_REJECTED); 2497 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2498 return; 2499 } 2500 2501 tm_itask = iscsit_tm_task_alloc(ict); 2502 if (tm_itask == NULL) { 2503 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2504 SCSI_TCP_TM_RESP_REJECTED); 2505 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2506 return; 2507 } 2508 2509 2510 task = stmf_task_alloc(ict->ict_sess->ist_lport, 2511 ict->ict_sess->ist_stmf_sess, iscsi_tm->lun, 2512 0, STMF_TASK_EXT_NONE); 2513 if (task == NULL) { 2514 /* 2515 * If this happens, either the LU is in reset, couldn't 2516 * get memory, or some other condition in which we simply 2517 * can't complete this request. It would be nice to return 2518 * an error code like "busy" but the closest we have is 2519 * "rejected". 2520 */ 2521 iscsit_send_task_mgmt_resp(tm_resp_pdu, 2522 SCSI_TCP_TM_RESP_REJECTED); 2523 iscsit_tm_task_free(tm_itask); 2524 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2525 return; 2526 } 2527 2528 tm_itask->it_tm_pdu = tm_resp_pdu; 2529 tm_itask->it_stmf_task = task; 2530 task->task_port_private = tm_itask; 2531 task->task_mgmt_function = tm_func; 2532 task->task_additional_flags = TASK_AF_NO_EXPECTED_XFER_LENGTH; 2533 task->task_priority = 0; 2534 task->task_max_nbufs = STMF_BUFS_MAX; 2535 task->task_cmd_seq_no = iscsi_tm->itt; 2536 task->task_expected_xfer_length = 0; 2537 2538 stmf_post_task(task, NULL); 2539 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2540 } 2541 2542 static void 2543 iscsit_pdu_op_noop(iscsit_conn_t *ict, idm_pdu_t *rx_pdu) 2544 { 2545 iscsi_nop_out_hdr_t *out = (iscsi_nop_out_hdr_t *)rx_pdu->isp_hdr; 2546 iscsi_nop_in_hdr_t *in; 2547 int resp_datalen; 2548 idm_pdu_t *resp; 2549 2550 /* Ignore the response from initiator */ 2551 if ((out->itt == ISCSI_RSVD_TASK_TAG) || 2552 (out->ttt != ISCSI_RSVD_TASK_TAG)) { 2553 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2554 return; 2555 } 2556 2557 /* Allocate a PDU to respond */ 2558 resp_datalen = ntoh24(out->dlength); 2559 resp = idm_pdu_alloc(sizeof (iscsi_hdr_t), resp_datalen); 2560 idm_pdu_init(resp, ict->ict_ic, NULL, NULL); 2561 if (resp_datalen > 0) { 2562 bcopy(rx_pdu->isp_data, resp->isp_data, resp_datalen); 2563 } 2564 2565 /* 2566 * When sending a NOP-In as a response to a NOP-Out from the initiator, 2567 * the target must respond with the same initiator task tag that was 2568 * provided in the NOP-Out request, the target transfer tag must be 2569 * ISCSI_RSVD_TASK_TAG (0xffffffff) and StatSN will contain the next 2570 * status sequence number. The StatSN for the connection is advanced 2571 * after this PDU is sent. 2572 */ 2573 in = (iscsi_nop_in_hdr_t *)resp->isp_hdr; 2574 bzero(in, sizeof (*in)); 2575 in->opcode = ISCSI_OP_NOOP_IN; 2576 in->flags = ISCSI_FLAG_FINAL; 2577 bcopy(out->lun, in->lun, 8); 2578 in->itt = out->itt; 2579 in->ttt = ISCSI_RSVD_TASK_TAG; 2580 hton24(in->dlength, resp_datalen); 2581 resp->isp_flags |= IDM_PDU_SET_STATSN | IDM_PDU_ADVANCE_STATSN; 2582 /* Any other field in resp to be set? */ 2583 iscsit_pdu_tx(resp); 2584 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2585 } 2586 2587 static void 2588 iscsit_pdu_op_login_cmd(iscsit_conn_t *ict, idm_pdu_t *rx_pdu) 2589 { 2590 2591 /* 2592 * Submit PDU to login state machine. State machine will free the 2593 * PDU. 2594 */ 2595 iscsit_login_sm_event(ict, ILE_LOGIN_RCV, rx_pdu); 2596 } 2597 2598 void 2599 iscsit_pdu_op_logout_cmd(iscsit_conn_t *ict, idm_pdu_t *rx_pdu) 2600 { 2601 iscsi_logout_hdr_t *logout_req = 2602 (iscsi_logout_hdr_t *)rx_pdu->isp_hdr; 2603 iscsi_logout_rsp_hdr_t *logout_rsp; 2604 idm_pdu_t *resp; 2605 2606 /* Allocate a PDU to respond */ 2607 resp = idm_pdu_alloc(sizeof (iscsi_hdr_t), 0); 2608 idm_pdu_init(resp, ict->ict_ic, NULL, NULL); 2609 /* 2610 * The StatSN is to be sent to the initiator, 2611 * it is not required to increment the number 2612 * as the connection is terminating. 2613 */ 2614 resp->isp_flags |= IDM_PDU_SET_STATSN; 2615 /* 2616 * Logout results in the immediate termination of all tasks except 2617 * if the logout reason is ISCSI_LOGOUT_REASON_RECOVERY. The 2618 * connection state machine will drive this task cleanup automatically 2619 * so we don't need to handle that here. 2620 */ 2621 logout_rsp = (iscsi_logout_rsp_hdr_t *)resp->isp_hdr; 2622 bzero(logout_rsp, sizeof (*logout_rsp)); 2623 logout_rsp->opcode = ISCSI_OP_LOGOUT_RSP; 2624 logout_rsp->flags = ISCSI_FLAG_FINAL; 2625 logout_rsp->itt = logout_req->itt; 2626 if ((logout_req->flags & ISCSI_FLAG_LOGOUT_REASON_MASK) > 2627 ISCSI_LOGOUT_REASON_RECOVERY) { 2628 logout_rsp->response = ISCSI_LOGOUT_RECOVERY_UNSUPPORTED; 2629 } else { 2630 logout_rsp->response = ISCSI_LOGOUT_SUCCESS; 2631 } 2632 2633 iscsit_pdu_tx(resp); 2634 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 2635 } 2636 2637 /* 2638 * Calculate the number of outstanding commands we can process 2639 */ 2640 int 2641 iscsit_cmd_window() 2642 { 2643 /* 2644 * Instead of using a pre-defined constant for the command window, 2645 * it should be made confiurable and dynamic. With MC/S, sequence 2646 * numbers will be used up at a much faster rate than with SC/S. 2647 */ 2648 return (ISCSIT_MAX_WINDOW); 2649 } 2650 2651 /* 2652 * Set local registers based on incoming PDU 2653 */ 2654 void 2655 iscsit_set_cmdsn(iscsit_conn_t *ict, idm_pdu_t *rx_pdu) 2656 { 2657 iscsit_sess_t *ist; 2658 iscsi_scsi_cmd_hdr_t *req; 2659 2660 ist = ict->ict_sess; 2661 2662 req = (iscsi_scsi_cmd_hdr_t *)rx_pdu->isp_hdr; 2663 if (req->opcode & ISCSI_OP_IMMEDIATE) { 2664 /* no cmdsn increment for immediate PDUs */ 2665 return; 2666 } 2667 2668 /* Ensure that the ExpCmdSN advances in an orderly manner */ 2669 mutex_enter(&ist->ist_sn_mutex); 2670 ist->ist_expcmdsn = ntohl(req->cmdsn) + 1; 2671 ist->ist_maxcmdsn = ntohl(req->cmdsn) + iscsit_cmd_window(); 2672 mutex_exit(&ist->ist_sn_mutex); 2673 } 2674 2675 /* 2676 * Wrapper funtion, calls iscsi_calc_rspsn and idm_pdu_tx 2677 */ 2678 void 2679 iscsit_pdu_tx(idm_pdu_t *pdu) 2680 { 2681 iscsit_conn_t *ict = pdu->isp_ic->ic_handle; 2682 iscsi_scsi_rsp_hdr_t *rsp = (iscsi_scsi_rsp_hdr_t *)pdu->isp_hdr; 2683 iscsit_sess_t *ist = ict->ict_sess; 2684 2685 /* 2686 * The command sequence numbers are session-wide and must stay 2687 * consistent across the transfer, so protect the cmdsn with a 2688 * mutex lock on the session. The status sequence number will 2689 * be updated just before the transport layer transmits the PDU. 2690 */ 2691 2692 mutex_enter(&ict->ict_sess->ist_sn_mutex); 2693 /* Set ExpCmdSN and MaxCmdSN */ 2694 rsp->maxcmdsn = htonl(ist->ist_maxcmdsn); 2695 rsp->expcmdsn = htonl(ist->ist_expcmdsn); 2696 idm_pdu_tx(pdu); 2697 mutex_exit(&ict->ict_sess->ist_sn_mutex); 2698 } 2699 2700 /* 2701 * Internal functions 2702 */ 2703 2704 void 2705 iscsit_send_async_event(iscsit_conn_t *ict, uint8_t event) 2706 { 2707 idm_pdu_t *abt; 2708 iscsi_async_evt_hdr_t *async_abt; 2709 2710 /* 2711 * Get a PDU to build the abort request. 2712 */ 2713 abt = idm_pdu_alloc(sizeof (iscsi_hdr_t), 0); 2714 if (abt == NULL) { 2715 idm_conn_event(ict->ict_ic, CE_TRANSPORT_FAIL, 0); 2716 return; 2717 } 2718 2719 /* 2720 * A asynchronous message is sent by the target to request a logout. 2721 * The StatSN for the connection is advanced after the PDU is sent 2722 * to allow for initiator and target state synchronization. 2723 */ 2724 idm_pdu_init(abt, ict->ict_ic, NULL, NULL); 2725 abt->isp_datalen = 0; 2726 abt->isp_flags |= IDM_PDU_SET_STATSN | IDM_PDU_ADVANCE_STATSN; 2727 2728 async_abt = (iscsi_async_evt_hdr_t *)abt->isp_hdr; 2729 bzero(async_abt, sizeof (*async_abt)); 2730 async_abt->opcode = ISCSI_OP_ASYNC_EVENT; 2731 async_abt->async_event = event; 2732 async_abt->flags = ISCSI_FLAG_FINAL; 2733 async_abt->rsvd4[0] = 0xff; 2734 async_abt->rsvd4[1] = 0xff; 2735 async_abt->rsvd4[2] = 0xff; 2736 async_abt->rsvd4[3] = 0xff; 2737 2738 switch (event) { 2739 case ISCSI_ASYNC_EVENT_REQUEST_LOGOUT: 2740 async_abt->param3 = htons(IDM_LOGOUT_SECONDS); 2741 break; 2742 case ISCSI_ASYNC_EVENT_SCSI_EVENT: 2743 case ISCSI_ASYNC_EVENT_DROPPING_CONNECTION: 2744 case ISCSI_ASYNC_EVENT_DROPPING_ALL_CONNECTIONS: 2745 case ISCSI_ASYNC_EVENT_PARAM_NEGOTIATION: 2746 default: 2747 ASSERT(0); 2748 } 2749 2750 iscsit_pdu_tx(abt); 2751 } 2752 2753 void 2754 iscsit_send_reject(iscsit_conn_t *ict, idm_pdu_t *rejected_pdu, uint8_t reason) 2755 { 2756 idm_pdu_t *reject_pdu; 2757 iscsi_reject_rsp_hdr_t *reject; 2758 2759 /* 2760 * Get a PDU to build the abort request. 2761 */ 2762 reject_pdu = idm_pdu_alloc(sizeof (iscsi_hdr_t), 2763 rejected_pdu->isp_hdrlen); 2764 if (reject_pdu == NULL) { 2765 idm_conn_event(ict->ict_ic, CE_TRANSPORT_FAIL, 0); 2766 return; 2767 } 2768 idm_pdu_init(reject_pdu, ict->ict_ic, NULL, NULL); 2769 /* StatSN is advanced after a Reject PDU */ 2770 reject_pdu->isp_flags |= IDM_PDU_SET_STATSN | IDM_PDU_ADVANCE_STATSN; 2771 reject_pdu->isp_datalen = rejected_pdu->isp_hdrlen; 2772 bcopy(rejected_pdu->isp_hdr, reject_pdu->isp_data, 2773 rejected_pdu->isp_hdrlen); 2774 2775 reject = (iscsi_reject_rsp_hdr_t *)reject_pdu->isp_hdr; 2776 bzero(reject, sizeof (*reject)); 2777 reject->opcode = ISCSI_OP_REJECT_MSG; 2778 reject->reason = reason; 2779 reject->flags = ISCSI_FLAG_FINAL; 2780 hton24(reject->dlength, rejected_pdu->isp_hdrlen); 2781 reject->must_be_ff[0] = 0xff; 2782 reject->must_be_ff[1] = 0xff; 2783 reject->must_be_ff[2] = 0xff; 2784 reject->must_be_ff[3] = 0xff; 2785 2786 iscsit_pdu_tx(reject_pdu); 2787 } 2788 2789 2790 static iscsit_task_t * 2791 iscsit_task_alloc(iscsit_conn_t *ict) 2792 { 2793 iscsit_task_t *itask; 2794 iscsit_buf_t *immed_ibuf; 2795 2796 /* 2797 * Possible items to pre-alloc if we cache iscsit_task_t's: 2798 * 2799 * Status PDU w/ sense buffer 2800 * stmf_data_buf_t for immediate data 2801 */ 2802 itask = kmem_alloc(sizeof (iscsit_task_t) + sizeof (iscsit_buf_t) + 2803 sizeof (stmf_data_buf_t), KM_NOSLEEP); 2804 if (itask != NULL) { 2805 mutex_init(&itask->it_mutex, NULL, MUTEX_DRIVER, NULL); 2806 itask->it_aborted = itask->it_stmf_abort = 2807 itask->it_tm_task = 0; 2808 2809 immed_ibuf = (iscsit_buf_t *)(itask + 1); 2810 bzero(immed_ibuf, sizeof (*immed_ibuf)); 2811 immed_ibuf->ibuf_is_immed = B_TRUE; 2812 immed_ibuf->ibuf_stmf_buf = (stmf_data_buf_t *)(immed_ibuf + 1); 2813 2814 bzero(immed_ibuf->ibuf_stmf_buf, sizeof (stmf_data_buf_t)); 2815 immed_ibuf->ibuf_stmf_buf->db_port_private = immed_ibuf; 2816 immed_ibuf->ibuf_stmf_buf->db_sglist_length = 1; 2817 immed_ibuf->ibuf_stmf_buf->db_flags = DB_DIRECTION_FROM_RPORT | 2818 DB_DONT_CACHE; 2819 itask->it_immed_data = immed_ibuf; 2820 itask->it_idm_task = idm_task_alloc(ict->ict_ic); 2821 if (itask->it_idm_task != NULL) { 2822 itask->it_idm_task->idt_private = itask; 2823 itask->it_ict = ict; 2824 itask->it_ttt = itask->it_idm_task->idt_tt; 2825 return (itask); 2826 } else { 2827 kmem_free(itask, sizeof (iscsit_task_t) + 2828 sizeof (iscsit_buf_t) + sizeof (stmf_data_buf_t)); 2829 } 2830 } 2831 2832 return (NULL); 2833 } 2834 2835 static void 2836 iscsit_task_free(iscsit_task_t *itask) 2837 { 2838 idm_task_free(itask->it_idm_task); 2839 mutex_destroy(&itask->it_mutex); 2840 kmem_free(itask, sizeof (iscsit_task_t) + 2841 sizeof (iscsit_buf_t) + sizeof (stmf_data_buf_t)); 2842 } 2843 2844 static iscsit_task_t * 2845 iscsit_tm_task_alloc(iscsit_conn_t *ict) 2846 { 2847 iscsit_task_t *itask; 2848 2849 itask = kmem_zalloc(sizeof (iscsit_task_t), KM_NOSLEEP); 2850 if (itask != NULL) { 2851 idm_conn_hold(ict->ict_ic); 2852 mutex_init(&itask->it_mutex, NULL, MUTEX_DRIVER, NULL); 2853 itask->it_aborted = itask->it_stmf_abort = 2854 itask->it_tm_responded = 0; 2855 itask->it_tm_pdu = NULL; 2856 itask->it_tm_task = 1; 2857 itask->it_ict = ict; 2858 } 2859 2860 return (itask); 2861 } 2862 2863 static void 2864 iscsit_tm_task_free(iscsit_task_t *itask) 2865 { 2866 /* 2867 * If we responded then the call to idm_pdu_complete will free the 2868 * PDU. Otherwise we got aborted before the TM function could 2869 * complete and we need to free the PDU explicitly. 2870 */ 2871 if (itask->it_tm_pdu != NULL && !itask->it_tm_responded) 2872 idm_pdu_free(itask->it_tm_pdu); 2873 idm_conn_rele(itask->it_ict->ict_ic); 2874 mutex_destroy(&itask->it_mutex); 2875 kmem_free(itask, sizeof (iscsit_task_t)); 2876 } 2877 2878 static idm_status_t 2879 iscsit_task_start(iscsit_task_t *itask) 2880 { 2881 iscsit_sess_t *ist = itask->it_ict->ict_sess; 2882 avl_index_t where; 2883 2884 /* 2885 * Sanity check the ITT and ensure that this task does not already 2886 * exist. If not then add the task to the session task list. 2887 */ 2888 mutex_enter(&ist->ist_mutex); 2889 mutex_enter(&itask->it_mutex); 2890 itask->it_active = 1; 2891 if (avl_find(&ist->ist_task_list, itask, &where) == NULL) { 2892 /* New task, add to AVL */ 2893 avl_insert(&ist->ist_task_list, itask, where); 2894 mutex_exit(&itask->it_mutex); 2895 mutex_exit(&ist->ist_mutex); 2896 return (IDM_STATUS_SUCCESS); 2897 } 2898 mutex_exit(&itask->it_mutex); 2899 mutex_exit(&ist->ist_mutex); 2900 2901 return (IDM_STATUS_REJECT); 2902 } 2903 2904 static void 2905 iscsit_task_done(iscsit_task_t *itask) 2906 { 2907 iscsit_sess_t *ist = itask->it_ict->ict_sess; 2908 2909 mutex_enter(&ist->ist_mutex); 2910 mutex_enter(&itask->it_mutex); 2911 if (itask->it_active) { 2912 avl_remove(&ist->ist_task_list, itask); 2913 itask->it_active = 0; 2914 } 2915 mutex_exit(&itask->it_mutex); 2916 mutex_exit(&ist->ist_mutex); 2917 } 2918 2919 /* 2920 * iscsit status PDU cache 2921 */ 2922 2923 /*ARGSUSED*/ 2924 static int 2925 iscsit_status_pdu_constructor(void *pdu_void, void *arg, int flags) 2926 { 2927 idm_pdu_t *pdu = pdu_void; 2928 iscsi_scsi_rsp_hdr_t *rsp; 2929 2930 bzero(pdu, sizeof (idm_pdu_t)); 2931 pdu->isp_callback = iscsit_send_good_status_done; 2932 pdu->isp_magic = IDM_PDU_MAGIC; 2933 pdu->isp_hdr = (iscsi_hdr_t *)(pdu + 1); /* Ptr arithmetic */ 2934 pdu->isp_hdrlen = sizeof (iscsi_hdr_t); 2935 2936 /* Setup status response */ 2937 rsp = (iscsi_scsi_rsp_hdr_t *)pdu->isp_hdr; 2938 bzero(rsp, sizeof (*rsp)); 2939 rsp->opcode = ISCSI_OP_SCSI_RSP; 2940 rsp->flags = ISCSI_FLAG_FINAL; 2941 rsp->response = ISCSI_STATUS_CMD_COMPLETED; 2942 2943 return (0); 2944 } 2945 2946 /* 2947 * iscsit private data handler 2948 */ 2949 2950 /*ARGSUSED*/ 2951 static void 2952 iscsit_pp_cb(struct stmf_port_provider *pp, int cmd, void *arg, uint32_t flags) 2953 { 2954 it_config_t *cfg; 2955 nvlist_t *nvl; 2956 iscsit_service_enabled_t old_state; 2957 2958 if ((cmd != STMF_PROVIDER_DATA_UPDATED) || (arg == NULL)) { 2959 return; 2960 } 2961 2962 nvl = (nvlist_t *)arg; 2963 2964 /* Translate nvlist */ 2965 if (it_nv_to_config(nvl, &cfg) != 0) { 2966 cmn_err(CE_WARN, "Configuration is invalid"); 2967 return; 2968 } 2969 2970 /* Check that no iSCSI ioctl is currently running */ 2971 mutex_enter(&iscsit_global.global_state_mutex); 2972 old_state = iscsit_global.global_svc_state; 2973 switch (iscsit_global.global_svc_state) { 2974 case ISE_ENABLED: 2975 case ISE_DISABLED: 2976 iscsit_global.global_svc_state = ISE_BUSY; 2977 break; 2978 case ISE_ENABLING: 2979 /* 2980 * It is OK for the iscsit_pp_cb to be called from inside of 2981 * an iSCSI ioctl only if we are currently executing inside 2982 * of stmf_register_port_provider. 2983 */ 2984 ASSERT((flags & STMF_PCB_PREG_COMPLETE) != 0); 2985 break; 2986 default: 2987 cmn_err(CE_WARN, "iscsit_pp_cb called when global_svc_state" 2988 " is not ENABLED(0x%x) -- ignoring", 2989 iscsit_global.global_svc_state); 2990 mutex_exit(&iscsit_global.global_state_mutex); 2991 it_config_free_cmn(cfg); 2992 return; 2993 } 2994 mutex_exit(&iscsit_global.global_state_mutex); 2995 2996 /* Update config */ 2997 (void) iscsit_config_merge(cfg); 2998 2999 it_config_free_cmn(cfg); 3000 3001 /* Restore old iSCSI driver global state */ 3002 mutex_enter(&iscsit_global.global_state_mutex); 3003 ASSERT(iscsit_global.global_svc_state == ISE_BUSY || 3004 iscsit_global.global_svc_state == ISE_ENABLING); 3005 iscsit_global.global_svc_state = old_state; 3006 mutex_exit(&iscsit_global.global_state_mutex); 3007 } 3008 3009 3010 static it_cfg_status_t 3011 iscsit_config_merge(it_config_t *in_cfg) 3012 { 3013 it_cfg_status_t status; 3014 it_config_t *cfg; 3015 it_config_t tmp_cfg; 3016 list_t tpg_del_list; 3017 3018 if (in_cfg) { 3019 cfg = in_cfg; 3020 } else { 3021 /* Make empty config */ 3022 bzero(&tmp_cfg, sizeof (tmp_cfg)); 3023 cfg = &tmp_cfg; 3024 } 3025 3026 list_create(&tpg_del_list, sizeof (iscsit_tpg_t), 3027 offsetof(iscsit_tpg_t, tpg_delete_ln)); 3028 3029 /* 3030 * Update targets, initiator contexts, target portal groups, 3031 * and iSNS client 3032 */ 3033 ISCSIT_GLOBAL_LOCK(RW_WRITER); 3034 if (((status = iscsit_config_merge_tpg(cfg, &tpg_del_list)) 3035 != 0) || 3036 ((status = iscsit_config_merge_tgt(cfg)) != 0) || 3037 ((status = iscsit_config_merge_ini(cfg)) != 0) || 3038 ((status = isnst_config_merge(cfg)) != 0)) { 3039 ISCSIT_GLOBAL_UNLOCK(); 3040 return (status); 3041 } 3042 3043 /* Update other global config parameters */ 3044 if (iscsit_global.global_props) { 3045 nvlist_free(iscsit_global.global_props); 3046 iscsit_global.global_props = NULL; 3047 } 3048 if (in_cfg) { 3049 (void) nvlist_dup(cfg->config_global_properties, 3050 &iscsit_global.global_props, KM_SLEEP); 3051 } 3052 ISCSIT_GLOBAL_UNLOCK(); 3053 3054 iscsit_config_destroy_tpgs(&tpg_del_list); 3055 3056 list_destroy(&tpg_del_list); 3057 3058 return (ITCFG_SUCCESS); 3059 } 3060 3061 /* 3062 * iscsit_sna_lt[e] 3063 * 3064 * Compare serial numbers using serial number arithmetic as defined in 3065 * RFC 1982. 3066 * 3067 * NOTE: This code is duplicated in the isns server. It ought to be common. 3068 */ 3069 3070 static int 3071 iscsit_sna_lt(uint32_t sn1, uint32_t sn2) 3072 { 3073 return ((sn1 != sn2) && 3074 (((sn1 < sn2) && ((sn2 - sn1) < ISCSIT_SNA32_CHECK)) || 3075 ((sn1 > sn2) && ((sn1 - sn2) > ISCSIT_SNA32_CHECK)))); 3076 } 3077 3078 static int 3079 iscsit_sna_lte(uint32_t sn1, uint32_t sn2) 3080 { 3081 return ((sn1 == sn2) || 3082 (((sn1 < sn2) && ((sn2 - sn1) < ISCSIT_SNA32_CHECK)) || 3083 ((sn1 > sn2) && ((sn1 - sn2) > ISCSIT_SNA32_CHECK)))); 3084 } 3085 3086 3087 static boolean_t 3088 iscsit_cmdsn_in_window(iscsit_conn_t *ict, uint32_t cmdsn) 3089 { 3090 iscsit_sess_t *ist = ict->ict_sess; 3091 int rval = B_TRUE; 3092 3093 ist = ict->ict_sess; 3094 3095 mutex_enter(&ist->ist_sn_mutex); 3096 3097 /* 3098 * If cmdsn is less than ist_expcmdsn - iscsit_cmd_window() or 3099 * greater than ist_expcmdsn, it's not in the window. 3100 */ 3101 3102 if (iscsit_sna_lt(cmdsn, (ist->ist_expcmdsn - iscsit_cmd_window())) || 3103 !iscsit_sna_lte(cmdsn, ist->ist_expcmdsn)) { 3104 rval = B_FALSE; 3105 } 3106 3107 mutex_exit(&ist->ist_sn_mutex); 3108 3109 return (rval); 3110 } 3111 3112 /* 3113 * iscsit_check_cmdsn_and_queue 3114 * 3115 * Independent of the order in which the iSCSI target receives non-immediate 3116 * command PDU across the entire session and any multiple connections within 3117 * the session, the target must deliver the commands to the SCSI layer in 3118 * CmdSN order. So out-of-order non-immediate commands are queued up on a 3119 * session-wide wait queue. Duplicate commands are ignored. 3120 * 3121 * returns B_TRUE for commands which can be executed immediately (are 3122 * non-deferred), B_FALSE for cases where a command was deferred or invalid. 3123 */ 3124 static boolean_t 3125 iscsit_check_cmdsn_and_queue(idm_pdu_t *rx_pdu) 3126 { 3127 idm_conn_t *ic = rx_pdu->isp_ic; 3128 iscsit_conn_t *ict = ic->ic_handle; 3129 iscsit_sess_t *ist = ict->ict_sess; 3130 iscsi_scsi_cmd_hdr_t *hdr = (iscsi_scsi_cmd_hdr_t *)rx_pdu->isp_hdr; 3131 3132 mutex_enter(&ist->ist_sn_mutex); 3133 if (hdr->opcode & ISCSI_OP_IMMEDIATE) { 3134 /* do not queue, handle it immediately */ 3135 DTRACE_PROBE2(immediate__cmd, iscsit_sess_t *, ist, 3136 idm_pdu_t *, rx_pdu); 3137 mutex_exit(&ist->ist_sn_mutex); 3138 return (B_TRUE); 3139 } 3140 /* 3141 * See RFC3270 3.1.1.2: non-immediate commands outside of the 3142 * expected window (from expcmdsn to maxcmdsn, inclusive) 3143 * should be silently ignored. 3144 */ 3145 if (iscsit_sna_lt(ist->ist_expcmdsn, ntohl(hdr->cmdsn)) && 3146 iscsit_sna_lt(ntohl(hdr->cmdsn), ist->ist_maxcmdsn)) { 3147 /* 3148 * Out-of-order commands (cmdSN higher than ExpCmdSN) 3149 * are staged on a fixed-size circular buffer until 3150 * the missing command is delivered to the SCSI layer. 3151 * Irrespective of the order of insertion into the 3152 * staging queue, the commands are processed out of the 3153 * queue in cmdSN order only. 3154 */ 3155 rx_pdu->isp_queue_time = gethrtime(); 3156 iscsit_add_pdu_to_queue(ist, rx_pdu); 3157 mutex_exit(&ist->ist_sn_mutex); 3158 return (B_FALSE); 3159 } else if (iscsit_sna_lt(ntohl(hdr->cmdsn), ist->ist_expcmdsn) || 3160 iscsit_sna_lt(ist->ist_maxcmdsn, ntohl(hdr->cmdsn))) { 3161 /* 3162 * See above, this command is outside of our acceptable 3163 * window, we need to discard/complete. 3164 */ 3165 DTRACE_PROBE3(cmdsn__lt__expcmdsn, iscsit_sess_t *, ist, 3166 iscsit_conn_t *, ict, idm_pdu_t *, rx_pdu); 3167 mutex_exit(&ist->ist_sn_mutex); 3168 idm_pdu_complete(rx_pdu, IDM_STATUS_SUCCESS); 3169 /* 3170 * tell our callers that the PDU "finished." 3171 */ 3172 return (B_FALSE); 3173 } else { 3174 mutex_exit(&ist->ist_sn_mutex); 3175 return (B_TRUE); 3176 } 3177 } 3178 3179 /* 3180 * iscsit_add_pdu_to_queue() adds PDUs into the array indexed by 3181 * their cmdsn value. The length of the array is kept above the 3182 * maximum window size. The window keeps the cmdsn within a range 3183 * such that there are no collisons. e.g. the assumption is that 3184 * the windowing checks make it impossible to receive PDUs that 3185 * index into the same location in the array. 3186 */ 3187 static void 3188 iscsit_add_pdu_to_queue(iscsit_sess_t *ist, idm_pdu_t *rx_pdu) 3189 { 3190 iscsit_cbuf_t *cbuf = ist->ist_rxpdu_queue; 3191 iscsit_conn_t *ict = rx_pdu->isp_ic->ic_handle; 3192 uint32_t cmdsn = 3193 ((iscsi_scsi_cmd_hdr_t *)rx_pdu->isp_hdr)->cmdsn; 3194 uint32_t index; 3195 3196 ASSERT(MUTEX_HELD(&ist->ist_sn_mutex)); 3197 /* 3198 * If the connection is being torn down, then 3199 * don't add the PDU to the staging queue 3200 */ 3201 mutex_enter(&ict->ict_mutex); 3202 if (ict->ict_lost) { 3203 mutex_exit(&ict->ict_mutex); 3204 idm_pdu_complete(rx_pdu, IDM_STATUS_FAIL); 3205 return; 3206 } 3207 iscsit_conn_dispatch_hold(ict); 3208 mutex_exit(&ict->ict_mutex); 3209 3210 index = ntohl(cmdsn) % ISCSIT_RXPDU_QUEUE_LEN; 3211 /* 3212 * In the normal case, assuming that the Initiator is not 3213 * buggy and that we don't have packet duplication occuring, 3214 * the entry in the array will be NULL. However, we may have 3215 * received a duplicate PDU with cmdsn > expsn , and in that 3216 * case we just ignore this PDU -- the previously received one 3217 * remains queued for processing. We need to be careful not 3218 * to leak this one however. 3219 */ 3220 if (cbuf->cb_buffer[index] != NULL) { 3221 idm_pdu_complete(rx_pdu, IDM_STATUS_FAIL); 3222 } else { 3223 cbuf->cb_buffer[index] = rx_pdu; 3224 cbuf->cb_num_elems++; 3225 } 3226 } 3227 3228 static idm_pdu_t * 3229 iscsit_remove_pdu_from_queue(iscsit_sess_t *ist, uint32_t cmdsn) 3230 { 3231 iscsit_cbuf_t *cbuf = ist->ist_rxpdu_queue; 3232 idm_pdu_t *pdu = NULL; 3233 uint32_t index; 3234 3235 ASSERT(MUTEX_HELD(&ist->ist_sn_mutex)); 3236 index = cmdsn % ISCSIT_RXPDU_QUEUE_LEN; 3237 if ((pdu = cbuf->cb_buffer[index]) != NULL) { 3238 ASSERT(cmdsn == 3239 ntohl(((iscsi_scsi_cmd_hdr_t *)pdu->isp_hdr)->cmdsn)); 3240 cbuf->cb_buffer[index] = NULL; 3241 cbuf->cb_num_elems--; 3242 return (pdu); 3243 } 3244 return (NULL); 3245 } 3246 3247 /* 3248 * iscsit_process_pdu_in_queue() finds the next pdu in sequence 3249 * and posts it to the SCSI layer 3250 */ 3251 static void 3252 iscsit_process_pdu_in_queue(iscsit_sess_t *ist) 3253 { 3254 iscsit_cbuf_t *cbuf = ist->ist_rxpdu_queue; 3255 idm_pdu_t *pdu = NULL; 3256 uint32_t expcmdsn; 3257 3258 for (;;) { 3259 mutex_enter(&ist->ist_sn_mutex); 3260 if (cbuf->cb_num_elems == 0) { 3261 mutex_exit(&ist->ist_sn_mutex); 3262 break; 3263 } 3264 expcmdsn = ist->ist_expcmdsn; 3265 if ((pdu = iscsit_remove_pdu_from_queue(ist, expcmdsn)) 3266 == NULL) { 3267 mutex_exit(&ist->ist_sn_mutex); 3268 break; 3269 } 3270 mutex_exit(&ist->ist_sn_mutex); 3271 iscsit_post_staged_pdu(pdu); 3272 } 3273 } 3274 3275 static void 3276 iscsit_post_staged_pdu(idm_pdu_t *rx_pdu) 3277 { 3278 iscsit_conn_t *ict = rx_pdu->isp_ic->ic_handle; 3279 3280 /* Post the PDU to the SCSI layer */ 3281 switch (IDM_PDU_OPCODE(rx_pdu)) { 3282 case ISCSI_OP_NOOP_OUT: 3283 iscsit_set_cmdsn(ict, rx_pdu); 3284 iscsit_pdu_op_noop(ict, rx_pdu); 3285 break; 3286 case ISCSI_OP_TEXT_CMD: 3287 iscsit_set_cmdsn(ict, rx_pdu); 3288 iscsit_pdu_op_text_cmd(ict, rx_pdu); 3289 break; 3290 case ISCSI_OP_SCSI_TASK_MGT_MSG: 3291 iscsit_set_cmdsn(ict, rx_pdu); 3292 iscsit_op_scsi_task_mgmt(ict, rx_pdu); 3293 break; 3294 case ISCSI_OP_SCSI_CMD: 3295 /* cmdSN will be incremented after creating itask */ 3296 iscsit_post_scsi_cmd(rx_pdu->isp_ic, rx_pdu); 3297 break; 3298 case ISCSI_OP_LOGOUT_CMD: 3299 iscsit_set_cmdsn(ict, rx_pdu); 3300 iscsit_pdu_op_logout_cmd(ict, rx_pdu); 3301 break; 3302 default: 3303 /* No other PDUs should be placed on the queue */ 3304 ASSERT(0); 3305 } 3306 iscsit_conn_dispatch_rele(ict); /* release hold on the conn */ 3307 } 3308 3309 /* ARGSUSED */ 3310 void 3311 iscsit_rxpdu_queue_monitor_start(void) 3312 { 3313 mutex_enter(&iscsit_rxpdu_queue_monitor_mutex); 3314 if (iscsit_rxpdu_queue_monitor_thr_running) { 3315 mutex_exit(&iscsit_rxpdu_queue_monitor_mutex); 3316 return; 3317 } 3318 iscsit_rxpdu_queue_monitor_thr_id = 3319 thread_create(NULL, 0, iscsit_rxpdu_queue_monitor, NULL, 3320 0, &p0, TS_RUN, minclsyspri); 3321 while (!iscsit_rxpdu_queue_monitor_thr_running) { 3322 cv_wait(&iscsit_rxpdu_queue_monitor_cv, 3323 &iscsit_rxpdu_queue_monitor_mutex); 3324 } 3325 mutex_exit(&iscsit_rxpdu_queue_monitor_mutex); 3326 3327 } 3328 3329 /* ARGSUSED */ 3330 void 3331 iscsit_rxpdu_queue_monitor_stop(void) 3332 { 3333 mutex_enter(&iscsit_rxpdu_queue_monitor_mutex); 3334 if (iscsit_rxpdu_queue_monitor_thr_running) { 3335 iscsit_rxpdu_queue_monitor_thr_running = B_FALSE; 3336 cv_signal(&iscsit_rxpdu_queue_monitor_cv); 3337 mutex_exit(&iscsit_rxpdu_queue_monitor_mutex); 3338 3339 thread_join(iscsit_rxpdu_queue_monitor_thr_did); 3340 return; 3341 } 3342 mutex_exit(&iscsit_rxpdu_queue_monitor_mutex); 3343 } 3344 3345 /* 3346 * A separate thread is used to scan the staging queue on all the 3347 * sessions, If a delayed PDU does not arrive within a timeout, the 3348 * target will advance to the staged PDU that is next in sequence 3349 * and exceeded the threshold wait time. It is up to the initiator 3350 * to note that the target has not acknowledged a particular cmdsn 3351 * and take appropriate action. 3352 */ 3353 /* ARGSUSED */ 3354 static void 3355 iscsit_rxpdu_queue_monitor(void *arg) 3356 { 3357 iscsit_tgt_t *tgt; 3358 iscsit_sess_t *ist; 3359 3360 mutex_enter(&iscsit_rxpdu_queue_monitor_mutex); 3361 iscsit_rxpdu_queue_monitor_thr_did = curthread->t_did; 3362 iscsit_rxpdu_queue_monitor_thr_running = B_TRUE; 3363 cv_signal(&iscsit_rxpdu_queue_monitor_cv); 3364 3365 while (iscsit_rxpdu_queue_monitor_thr_running) { 3366 ISCSIT_GLOBAL_LOCK(RW_READER); 3367 for (tgt = avl_first(&iscsit_global.global_target_list); 3368 tgt != NULL; 3369 tgt = AVL_NEXT(&iscsit_global.global_target_list, tgt)) { 3370 mutex_enter(&tgt->target_mutex); 3371 for (ist = avl_first(&tgt->target_sess_list); 3372 ist != NULL; 3373 ist = AVL_NEXT(&tgt->target_sess_list, ist)) { 3374 3375 iscsit_rxpdu_queue_monitor_session(ist); 3376 } 3377 mutex_exit(&tgt->target_mutex); 3378 } 3379 ISCSIT_GLOBAL_UNLOCK(); 3380 if (iscsit_rxpdu_queue_monitor_thr_running == B_FALSE) { 3381 break; 3382 } 3383 (void) cv_reltimedwait(&iscsit_rxpdu_queue_monitor_cv, 3384 &iscsit_rxpdu_queue_monitor_mutex, 3385 ISCSIT_RXPDU_QUEUE_MONITOR_INTERVAL * drv_usectohz(1000000), 3386 TR_CLOCK_TICK); 3387 } 3388 mutex_exit(&iscsit_rxpdu_queue_monitor_mutex); 3389 thread_exit(); 3390 } 3391 3392 static void 3393 iscsit_rxpdu_queue_monitor_session(iscsit_sess_t *ist) 3394 { 3395 iscsit_cbuf_t *cbuf = ist->ist_rxpdu_queue; 3396 idm_pdu_t *next_pdu = NULL; 3397 uint32_t index, next_cmdsn, i; 3398 3399 /* 3400 * Assume that all PDUs in the staging queue have a cmdsn >= expcmdsn. 3401 * Starting with the expcmdsn, iterate over the staged PDUs to find 3402 * the next PDU with a wait time greater than the threshold. If found 3403 * advance the staged PDU to the SCSI layer, skipping over the missing 3404 * PDU(s) to get past the hole in the command sequence. It is up to 3405 * the initiator to note that the target has not acknowledged a cmdsn 3406 * and take appropriate action. 3407 * 3408 * Since the PDU(s) arrive in any random order, it is possible that 3409 * that the actual wait time for a particular PDU is much longer than 3410 * the defined threshold. e.g. Consider a case where commands are sent 3411 * over 4 different connections, and cmdsn = 1004 arrives first, then 3412 * 1003, and 1002 and 1001 are lost due to a connection failure. 3413 * So now 1003 is waiting for 1002 to be delivered, and although the 3414 * wait time of 1004 > wait time of 1003, only 1003 will be considered 3415 * by the monitor thread. 1004 will be automatically processed by 3416 * iscsit_process_pdu_in_queue() once the scan is complete and the 3417 * expcmdsn becomes current. 3418 */ 3419 mutex_enter(&ist->ist_sn_mutex); 3420 cbuf = ist->ist_rxpdu_queue; 3421 if (cbuf->cb_num_elems == 0) { 3422 mutex_exit(&ist->ist_sn_mutex); 3423 return; 3424 } 3425 for (next_pdu = NULL, i = 0; ; i++) { 3426 next_cmdsn = ist->ist_expcmdsn + i; /* start at expcmdsn */ 3427 index = next_cmdsn % ISCSIT_RXPDU_QUEUE_LEN; 3428 if ((next_pdu = cbuf->cb_buffer[index]) != NULL) { 3429 /* 3430 * If the PDU wait time has not exceeded threshold 3431 * stop scanning the staging queue until the timer 3432 * fires again 3433 */ 3434 if ((gethrtime() - next_pdu->isp_queue_time) 3435 < (rxpdu_queue_threshold * NANOSEC)) { 3436 mutex_exit(&ist->ist_sn_mutex); 3437 return; 3438 } 3439 /* 3440 * Remove the next PDU from the queue and post it 3441 * to the SCSI layer, skipping over the missing 3442 * PDU. Stop scanning the staging queue until 3443 * the monitor timer fires again 3444 */ 3445 (void) iscsit_remove_pdu_from_queue(ist, next_cmdsn); 3446 mutex_exit(&ist->ist_sn_mutex); 3447 DTRACE_PROBE3(advanced__to__blocked__cmdsn, 3448 iscsit_sess_t *, ist, idm_pdu_t *, next_pdu, 3449 uint32_t, next_cmdsn); 3450 iscsit_post_staged_pdu(next_pdu); 3451 /* Deliver any subsequent PDUs immediately */ 3452 iscsit_process_pdu_in_queue(ist); 3453 return; 3454 } 3455 /* 3456 * Skipping over i PDUs, e.g. a case where commands 1001 and 3457 * 1002 are lost in the network, skip over both and post 1003 3458 * expcmdsn then becomes 1004 at the end of the scan. 3459 */ 3460 DTRACE_PROBE2(skipping__over__cmdsn, iscsit_sess_t *, ist, 3461 uint32_t, next_cmdsn); 3462 } 3463 /* 3464 * following the assumption, staged cmdsn >= expcmdsn, this statement 3465 * is never reached. 3466 */ 3467 } 3468